16 files changed, 5528 insertions, 5528 deletions

diff --git a/indra/llmath/tests/alignment_test.cpp b/indra/llmath/tests/alignment_test.cpp
index 5ee3c45502..eb6fa4a3b8 100644
--- a/indra/llmath/tests/alignment_test.cpp
+++ b/indra/llmath/tests/alignment_test.cpp
@@ -7,21 +7,21 @@
  * $LicenseInfo:firstyear=2011&license=viewerlgpl$
  * Second Life Viewer Source Code
  * Copyright (C) 2011, Linden Research, Inc.
- * 
+ *
  * This library is free software; you can redistribute it and/or
  * modify it under the terms of the GNU Lesser General Public
  * License as published by the Free Software Foundation;
  * version 2.1 of the License only.
- * 
+ *
  * This library is distributed in the hope that it will be useful,
  * but WITHOUT ANY WARRANTY; without even the implied warranty of
  * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the GNU
  * Lesser General Public License for more details.
- * 
+ *
  * You should have received a copy of the GNU Lesser General Public
  * License along with this library; if not, write to the Free Software
  * Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA  02110-1301  USA
- * 
+ *
  * Linden Research, Inc., 945 Battery Street, San Francisco, CA  94111  USA
  * $/LicenseInfo$
  */
@@ -50,27 +50,27 @@ LL_ALIGN_PREFIX(16)
 class MyVector4a
 {
 public:
-	void* operator new(size_t size)
-	{
-		return ll_aligned_malloc_16(size);
-	}
-
-	void operator delete(void *p)
-	{
-		ll_aligned_free_16(p);
-	}
-
-	void* operator new[](size_t count)
-	{	// try to allocate count bytes for an array
-		return ll_aligned_malloc_16(count);
-	}
-
-	void operator delete[](void *p)
-	{
-		ll_aligned_free_16(p);
-	}
-
-	LLQuad mQ;
+    void* operator new(size_t size)
+    {
+        return ll_aligned_malloc_16(size);
+    }
+
+    void operator delete(void *p)
+    {
+        ll_aligned_free_16(p);
+    }
+
+    void* operator new[](size_t count)
+    {   // try to allocate count bytes for an array
+        return ll_aligned_malloc_16(count);
+    }
+
+    void operator delete[](void *p)
+    {
+        ll_aligned_free_16(p);
+    }
+
+    LLQuad mQ;
 } LL_ALIGN_POSTFIX(16);
 
 
@@ -79,36 +79,36 @@ template<> template<>
 void alignment_test_object_t::test<1>()
 {
 #   ifdef LL_DEBUG
-//	skip("This test fails on Windows when compiled in debug mode.");
+//  skip("This test fails on Windows when compiled in debug mode.");
 #   endif
-	
-	const int num_tests = 7;
-	void *align_ptr;
-	for (int i=0; i<num_tests; i++)
-	{
-		align_ptr = ll_aligned_malloc_16(sizeof(MyVector4a));
-		ensure("ll_aligned_malloc_16 failed", is_aligned(align_ptr,16));
-
-		align_ptr = ll_aligned_realloc_16(align_ptr,2*sizeof(MyVector4a), sizeof(MyVector4a));
-		ensure("ll_aligned_realloc_16 failed", is_aligned(align_ptr,16));
-
-		ll_aligned_free_16(align_ptr);
-
-		align_ptr = ll_aligned_malloc_32(sizeof(MyVector4a));
-		ensure("ll_aligned_malloc_32 failed", is_aligned(align_ptr,32));
-		ll_aligned_free_32(align_ptr);
-	}
+
+    const int num_tests = 7;
+    void *align_ptr;
+    for (int i=0; i<num_tests; i++)
+    {
+        align_ptr = ll_aligned_malloc_16(sizeof(MyVector4a));
+        ensure("ll_aligned_malloc_16 failed", is_aligned(align_ptr,16));
+
+        align_ptr = ll_aligned_realloc_16(align_ptr,2*sizeof(MyVector4a), sizeof(MyVector4a));
+        ensure("ll_aligned_realloc_16 failed", is_aligned(align_ptr,16));
+
+        ll_aligned_free_16(align_ptr);
+
+        align_ptr = ll_aligned_malloc_32(sizeof(MyVector4a));
+        ensure("ll_aligned_malloc_32 failed", is_aligned(align_ptr,32));
+        ll_aligned_free_32(align_ptr);
+    }
 }
 
 // In-place allocation of objects and arrays.
 template<> template<>
 void alignment_test_object_t::test<2>()
 {
-	MyVector4a vec1;
-	ensure("LLAlignment vec1 unaligned", is_aligned(&vec1,16));
-	
-	MyVector4a veca[12];
-	ensure("LLAlignment veca unaligned", is_aligned(veca,16));
+    MyVector4a vec1;
+    ensure("LLAlignment vec1 unaligned", is_aligned(&vec1,16));
+
+    MyVector4a veca[12];
+    ensure("LLAlignment veca unaligned", is_aligned(veca,16));
 }
 
 // Heap allocation of objects and arrays.
@@ -116,26 +116,26 @@ template<> template<>
 void alignment_test_object_t::test<3>()
 {
 #   ifdef LL_DEBUG
-//	skip("This test fails on Windows when compiled in debug mode.");
+//  skip("This test fails on Windows when compiled in debug mode.");
 #   endif
-	
-	const int ARR_SIZE = 7;
-	for(int i=0; i<ARR_SIZE; i++)
-	{
-		MyVector4a *vecp = new MyVector4a;
-		ensure("LLAlignment vecp unaligned", is_aligned(vecp,16));
-		delete vecp;
-	}
-
-	MyVector4a *veca = new MyVector4a[ARR_SIZE];
-	//std::cout << "veca base is " << (S32) veca << std::endl;
-	ensure("LLAligment veca base", is_aligned(veca,16));
-	for(int i=0; i<ARR_SIZE; i++)
-	{
-		std::cout << "veca[" << i << "]" << std::endl;
-		ensure("LLAlignment veca member unaligned", is_aligned(&veca[i],16));
-	}
-	delete [] veca; 
+
+    const int ARR_SIZE = 7;
+    for(int i=0; i<ARR_SIZE; i++)
+    {
+        MyVector4a *vecp = new MyVector4a;
+        ensure("LLAlignment vecp unaligned", is_aligned(vecp,16));
+        delete vecp;
+    }
+
+    MyVector4a *veca = new MyVector4a[ARR_SIZE];
+    //std::cout << "veca base is " << (S32) veca << std::endl;
+    ensure("LLAligment veca base", is_aligned(veca,16));
+    for(int i=0; i<ARR_SIZE; i++)
+    {
+        std::cout << "veca[" << i << "]" << std::endl;
+        ensure("LLAlignment veca member unaligned", is_aligned(&veca[i],16));
+    }
+    delete [] veca;
 }
 
 }
diff --git a/indra/llmath/tests/llbbox_test.cpp b/indra/llmath/tests/llbbox_test.cpp
index fd0dbb58fc..1f2cd96ab2 100644
--- a/indra/llmath/tests/llbbox_test.cpp
+++ b/indra/llmath/tests/llbbox_test.cpp
@@ -3,25 +3,25 @@
  * @author Martin Reddy
  * @date   2009-06-25
  * @brief  Test for llbbox.cpp.
- * 
+ *
  * $LicenseInfo:firstyear=2009&license=viewerlgpl$
  * Second Life Viewer Source Code
  * Copyright (C) 2010, Linden Research, Inc.
- * 
+ *
  * This library is free software; you can redistribute it and/or
  * modify it under the terms of the GNU Lesser General Public
  * License as published by the Free Software Foundation;
  * version 2.1 of the License only.
- * 
+ *
  * This library is distributed in the hope that it will be useful,
  * but WITHOUT ANY WARRANTY; without even the implied warranty of
  * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the GNU
  * Lesser General Public License for more details.
- * 
+ *
  * You should have received a copy of the GNU Lesser General Public
  * License along with this library; if not, write to the Free Software
  * Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA  02110-1301  USA
- * 
+ *
  * Linden Research, Inc., 945 Battery Street, San Francisco, CA  94111  USA
  * $/LicenseInfo$
  */
@@ -38,330 +38,330 @@
 
 namespace tut
 {
-	struct LLBBoxData
-	{
-	};
+    struct LLBBoxData
+    {
+    };
 
-	typedef test_group<LLBBoxData> factory;
-	typedef factory::object object;
+    typedef test_group<LLBBoxData> factory;
+    typedef factory::object object;
 }
 
 namespace
 {
-	tut::factory llbbox_test_factory("LLBBox");
+    tut::factory llbbox_test_factory("LLBBox");
 }
 
 namespace tut
 {
-	template<> template<>
-	void object::test<1>()
-	{	
-		//
-		// test the default constructor
-		//
-		
-		LLBBox bbox1;
-		
-		ensure_equals("Default bbox min", bbox1.getMinLocal(), LLVector3(0.0f, 0.0f, 0.0f));
-		ensure_equals("Default bbox max", bbox1.getMaxLocal(), LLVector3(0.0f, 0.0f, 0.0f));
-		ensure_equals("Default bbox pos agent", bbox1.getPositionAgent(), LLVector3(0.0f, 0.0f, 0.0f));
-		ensure_equals("Default bbox rotation", bbox1.getRotation(), LLQuaternion(0.0f, 0.0f, 0.0f, 1.0f));
-	}
-	
-	template<> template<>
-	void object::test<2>()
-	{	
-		//
-		// test the non-default constructor
-		//
-		
-		LLBBox bbox2(LLVector3(1.0f, 2.0f, 3.0f), LLQuaternion(),
-					 LLVector3(2.0f, 3.0f, 4.0f), LLVector3(4.0f, 5.0f, 6.0f));
-		
-		ensure_equals("Custom bbox min", bbox2.getMinLocal(), LLVector3(2.0f, 3.0f, 4.0f));
-		ensure_equals("Custom bbox max", bbox2.getMaxLocal(), LLVector3(4.0f, 5.0f, 6.0f));
-		ensure_equals("Custom bbox pos agent", bbox2.getPositionAgent(), LLVector3(1.0f, 2.0f, 3.0f));
-		ensure_equals("Custom bbox rotation", bbox2.getRotation(), LLQuaternion(0.0f, 0.0f, 0.0f, 1.0f));		
-	}
-		
-	template<> template<>
-	void object::test<3>()
-	{	
-		//
-		// test the setMinLocal() method
-		//
-		LLBBox bbox2;
-		bbox2.setMinLocal(LLVector3(3.0f, 3.0f, 3.0f));
-		ensure_equals("Custom bbox min (2)", bbox2.getMinLocal(), LLVector3(3.0f, 3.0f, 3.0f));
-	}
-
-	template<> template<>
-	void object::test<4>()
-	{	
-		//
-		// test the setMaxLocal() method
-		//
-		LLBBox bbox2;
-		bbox2.setMaxLocal(LLVector3(5.0f, 5.0f, 5.0f));
-		ensure_equals("Custom bbox max (2)", bbox2.getMaxLocal(), LLVector3(5.0f, 5.0f, 5.0f));
-	}
-
-	template<> template<>
-	void object::test<5>()
-	{	
-		//
-		// test the getCenterLocal() method
-		//
-		
-		ensure_equals("Default bbox local center", LLBBox().getCenterLocal(), LLVector3(0.0f, 0.0f, 0.0f));
-		
-		LLBBox bbox1(LLVector3(1.0f, 2.0f, 3.0f), LLQuaternion(),
-					 LLVector3(2.0f, 4.0f, 6.0f), LLVector3(4.0f, 6.0f, 8.0f));
-
-		ensure_equals("Custom bbox center local", bbox1.getCenterLocal(), LLVector3(3.0f, 5.0f, 7.0f));
-
-		LLBBox bbox2(LLVector3(1.0f, 1.0f, 1.0f), LLQuaternion(ANGLE, LLVector3(0.0f, 0.0f, 1.0f)),
-					 LLVector3(2.0f, 2.0f, 2.0f), LLVector3(4.0f, 4.0f, 4.0f));
-
-		ensure_equals("Custom bbox center local with rot", bbox2.getCenterLocal(), LLVector3(3.0f, 3.0f, 3.0f));
-	}
-
-	template<> template<>
-	void object::test<6>()
-	{	
-		//
-		// test the getCenterAgent()
-		//
-		
-		ensure_equals("Default bbox agent center", LLBBox().getCenterAgent(), LLVector3(0.0f, 0.0f, 0.0f));
-		
-		LLBBox bbox1(LLVector3(1.0f, 2.0f, 3.0f), LLQuaternion(),
-					 LLVector3(2.0f, 4.0f, 6.0f), LLVector3(4.0f, 6.0f, 8.0f));
-		
-		ensure_equals("Custom bbox center agent", bbox1.getCenterAgent(), LLVector3(4.0f, 7.0f, 10.0f));
-		
-		LLBBox bbox2(LLVector3(1.0f, 1.0f, 1.0f), LLQuaternion(ANGLE, LLVector3(0.0f, 0.0f, 1.0f)),
-					 LLVector3(2.0f, 2.0f, 2.0f), LLVector3(4.0f, 4.0f, 4.0f));
-		
-		ensure("Custom bbox center agent with rot", APPROX_EQUAL(bbox2.getCenterAgent(), LLVector3(-2.0f, 4.0f, 4.0f)));
-	}
-	
-	template<> template<>
-	void object::test<7>()
-	{	
-		//
-		// test the getExtentLocal() method
-		//
-		
-		ensure_equals("Default bbox local extent", LLBBox().getExtentLocal(), LLVector3(0.0f, 0.0f, 0.0f));
-		
-		LLBBox bbox1(LLVector3(1.0f, 2.0f, 3.0f), LLQuaternion(),
-					 LLVector3(2.0f, 4.0f, 6.0f), LLVector3(4.0f, 6.0f, 8.0f));
-		
-		ensure_equals("Custom bbox extent local", bbox1.getExtentLocal(), LLVector3(2.0f, 2.0f, 2.0f));
-		
-		LLBBox bbox2(LLVector3(1.0f, 1.0f, 1.0f), LLQuaternion(ANGLE, LLVector3(0.0f, 0.0f, 1.0f)),
-					 LLVector3(2.0f, 2.0f, 2.0f), LLVector3(4.0f, 4.0f, 4.0f));
-		
-		ensure_equals("Custom bbox extent local with rot", bbox1.getExtentLocal(), LLVector3(2.0f, 2.0f, 2.0f));		
-	}
-	
-	template<> template<>
-	void object::test<8>()
-	{
-		//
-		// test the addPointLocal() method
-		//
-		
-		LLBBox bbox1;
-		bbox1.addPointLocal(LLVector3(1.0f, 1.0f, 1.0f));
-		bbox1.addPointLocal(LLVector3(3.0f, 3.0f, 3.0f));
-		
-		ensure_equals("addPointLocal center local (1)", bbox1.getCenterLocal(), LLVector3(2.0f, 2.0f, 2.0f));
-		ensure_equals("addPointLocal center agent (1)", bbox1.getCenterAgent(), LLVector3(2.0f, 2.0f, 2.0f));
-		ensure_equals("addPointLocal min (1)", bbox1.getMinLocal(), LLVector3(1.0f, 1.0f, 1.0f));
-		ensure_equals("addPointLocal max (1)", bbox1.getMaxLocal(), LLVector3(3.0f, 3.0f, 3.0f));
-		
-		bbox1.addPointLocal(LLVector3(0.0f, 0.0f, 0.0f));
-		bbox1.addPointLocal(LLVector3(1.0f, 1.0f, 1.0f));
-		bbox1.addPointLocal(LLVector3(2.0f, 2.0f, 2.0f));
-		
-		ensure_equals("addPointLocal center local (2)", bbox1.getCenterLocal(), LLVector3(1.5f, 1.5f, 1.5f));
-		ensure_equals("addPointLocal min (2)", bbox1.getMinLocal(), LLVector3(0.0f, 0.0f, 0.0f));
-		ensure_equals("addPointLocal max (2)", bbox1.getMaxLocal(), LLVector3(3.0f, 3.0f, 3.0f));		
-	}
-
-	template<> template<>
-	void object::test<9>()
-	{
-		//
-		// test the addBBoxLocal() method
-		//
-		
-		LLBBox bbox1;
-		bbox1.addBBoxLocal(LLBBox(LLVector3(), LLQuaternion(),
-								  LLVector3(0.0f, 0.0f, 0.0f), LLVector3(3.0f, 3.0f, 3.0f)));
-		
-		ensure_equals("addPointLocal center local (3)", bbox1.getCenterLocal(), LLVector3(1.5f, 1.5f, 1.5f));
-		ensure_equals("addPointLocal min (3)", bbox1.getMinLocal(), LLVector3(0.0f, 0.0f, 0.0f));
-		ensure_equals("addPointLocal max (3)", bbox1.getMaxLocal(), LLVector3(3.0f, 3.0f, 3.0f));
-		
-		bbox1.addBBoxLocal(LLBBox(LLVector3(1.0f, 1.0f, 1.0f), LLQuaternion(),
-								  LLVector3(5.0f, 5.0f, 5.0f), LLVector3(10.0f, 10.0f, 10.0f)));
-		
-		ensure_equals("addPointLocal center local (4)", bbox1.getCenterLocal(), LLVector3(5.0f, 5.0f, 5.0f));
-		ensure_equals("addPointLocal center agent (4)", bbox1.getCenterAgent(), LLVector3(5.0f, 5.0f, 5.0f));
-		ensure_equals("addPointLocal min (4)", bbox1.getMinLocal(), LLVector3(0.0f, 0.0f, 0.0f));
-		ensure_equals("addPointLocal max (4)", bbox1.getMaxLocal(), LLVector3(10.0f, 10.0f, 10.0f));		
-	}
-	
-	template<> template<>
-	void object::test<10>()
-	{
-		//
-		// test the addPointAgent() method
-		//
-		
-		LLBBox bbox1(LLVector3(1.0f, 1.0f, 1.0f), LLQuaternion(1.0, 0.0, 0.0, 1.0),
-					 LLVector3(2.0f, 2.0f, 2.0f), LLVector3(4.0f, 4.0f, 4.0f));
-
-		bbox1.addPointAgent(LLVector3(1.0f, 1.0f, 1.0f));
-		bbox1.addPointAgent(LLVector3(3.0f, 3.0f, 3.0f));
-		
-		ensure_equals("addPointAgent center local (1)", bbox1.getCenterLocal(), LLVector3(2.0f, 2.0f, -2.0f));
-		ensure_equals("addPointAgent center agent (1)", bbox1.getCenterAgent(), LLVector3(3.0f, 3.0f, 7.0f));
-		ensure_equals("addPointAgent min (1)", bbox1.getMinLocal(), LLVector3(0.0f, 0.0f, -4.0f));
-		ensure_equals("addPointAgent max (1)", bbox1.getMaxLocal(), LLVector3(4.0f, 4.0f, 0.0f));
-	}
-
-	template<> template<>
-	void object::test<11>()
-	{
-		//
-		// test the addBBoxAgent() method
-		//
-		
-		LLBBox bbox1(LLVector3(1.0f, 1.0f, 1.0f), LLQuaternion(1.0, 0.0, 0.0, 1.0),
-					 LLVector3(2.0f, 2.0f, 2.0f), LLVector3(4.0f, 4.0f, 4.0f));
-		
-		bbox1.addPointAgent(LLVector3(1.0f, 1.0f, 1.0f));
-		bbox1.addPointAgent(LLVector3(3.0f, 3.0f, 3.0f));
-		
-		bbox1.addBBoxLocal(LLBBox(LLVector3(1.0f, 1.0f, 1.0f), LLQuaternion(),
-								  LLVector3(5.0f, 5.0f, 5.0f), LLVector3(10.0f, 10.0f, 10.0f)));
-		
-		ensure_equals("addPointAgent center local (2)", bbox1.getCenterLocal(), LLVector3(5.0f, 5.0f, 3.0f));
-		ensure_equals("addPointAgent center agent (2)", bbox1.getCenterAgent(), LLVector3(6.0f, -10.0f, 8.0f));
-		ensure_equals("addPointAgent min (2)", bbox1.getMinLocal(), LLVector3(0.0f, 0.0f, -4.0f));
-		ensure_equals("addPointAgent max (2)", bbox1.getMaxLocal(), LLVector3(10.0f, 10.0f, 10.0f));		
-	}
-	
-	template<> template<>
-	void object::test<12>()
-	{
-		//
-		// test the expand() method
-		//
-		
-		LLBBox bbox1;
-		bbox1.expand(0.0);
-
-		ensure_equals("Zero-expanded Default BBox center", bbox1.getCenterLocal(), LLVector3(0.0f, 0.0f, 0.0f));
-
-		LLBBox bbox2(LLVector3(1.0f, 1.0f, 1.0f), LLQuaternion(),
-					 LLVector3(1.0f, 1.0f, 1.0f), LLVector3(3.0f, 3.0f, 3.0f));
-		bbox2.expand(0.0);
-		
-		ensure_equals("Zero-expanded center local", bbox2.getCenterLocal(), LLVector3(2.0f, 2.0f, 2.0f));
-		ensure_equals("Zero-expanded center agent", bbox2.getCenterAgent(), LLVector3(3.0f, 3.0f, 3.0f));
-		ensure_equals("Zero-expanded min", bbox2.getMinLocal(), LLVector3(1.0f, 1.0f, 1.0f));
-		ensure_equals("Zero-expanded max", bbox2.getMaxLocal(), LLVector3(3.0f, 3.0f, 3.0f));
-
-		bbox2.expand(0.5);
-
-		ensure_equals("Positive-expanded center", bbox2.getCenterLocal(), LLVector3(2.0f, 2.0f, 2.0f));
-		ensure_equals("Positive-expanded min", bbox2.getMinLocal(), LLVector3(0.5f, 0.5f, 0.5f));
-		ensure_equals("Positive-expanded max", bbox2.getMaxLocal(), LLVector3(3.5f, 3.5f, 3.5f));
-
-		bbox2.expand(-1.0);
-		
-		ensure_equals("Negative-expanded center", bbox2.getCenterLocal(), LLVector3(2.0f, 2.0f, 2.0f));
-		ensure_equals("Negative-expanded min", bbox2.getMinLocal(), LLVector3(1.5f, 1.5f, 1.5f));
-		ensure_equals("Negative-expanded max", bbox2.getMaxLocal(), LLVector3(2.5f, 2.5f, 2.5f));		
-	}
-	
-	template<> template<>
-	void object::test<13>()
-	{
-		//
-		// test the localToAgent() method
-		//
-		
-		LLBBox bbox1(LLVector3(1.0f, 1.0f, 1.0f), LLQuaternion(),
-					 LLVector3(1.0f, 1.0f, 1.0f), LLVector3(3.0f, 3.0f, 3.0f));
-		
-		ensure_equals("localToAgent(1,2,3)", bbox1.localToAgent(LLVector3(1.0f, 2.0f, 3.0f)), LLVector3(2.0f, 3.0f, 4.0f));
-		
-		LLBBox bbox2(LLVector3(1.0f, 1.0f, 1.0f), LLQuaternion(ANGLE, LLVector3(1.0f, 0.0f, 0.0f)),
-					 LLVector3(1.0f, 1.0f, 1.0f), LLVector3(3.0f, 3.0f, 3.0f));
-		
-		ensure("localToAgent(1,2,3) rot", APPROX_EQUAL(bbox2.localToAgent(LLVector3(1.0f, 2.0f, 3.0f)), LLVector3(2.0f, -2.0f, 3.0f)));
-	}
-	
-	template<> template<>
-	void object::test<14>()
-	{
-		//
-		// test the agentToLocal() method
-		//
-		
-		LLBBox bbox1(LLVector3(1.0f, 1.0f, 1.0f), LLQuaternion(),
-					 LLVector3(1.0f, 1.0f, 1.0f), LLVector3(3.0f, 3.0f, 3.0f));
-		
-		ensure_equals("agentToLocal(1,2,3)", bbox1.agentToLocal(LLVector3(1.0f, 2.0f, 3.0f)), LLVector3(0.0f, 1.0f, 2.0f));
-		ensure_equals("agentToLocal(localToAgent)", bbox1.agentToLocal(bbox1.localToAgent(LLVector3(1.0f, 2.0f, 3.0f))),
-					  LLVector3(1.0f, 2.0f, 3.0f));
-		
-		LLBBox bbox2(LLVector3(1.0f, 1.0f, 1.0f), LLQuaternion(ANGLE, LLVector3(1.0f, 0.0f, 0.0f)),
-					 LLVector3(1.0f, 1.0f, 1.0f), LLVector3(3.0f, 3.0f, 3.0f));
-		
-		ensure("agentToLocal(1,2,3) rot", APPROX_EQUAL(bbox2.agentToLocal(LLVector3(1.0f, 2.0f, 3.0f)), LLVector3(0.0f, 2.0f, -1.0f)));
-		ensure("agentToLocal(localToAgent) rot", APPROX_EQUAL(bbox2.agentToLocal(bbox2.localToAgent(LLVector3(1.0f, 2.0f, 3.0f))),
-															  LLVector3(1.0f, 2.0f, 3.0f)));
-	}
-	
-	template<> template<>
-	void object::test<15>()
-	{
-		//
-		// test the containsPointLocal() method
-		//
-		
-		LLBBox bbox1(LLVector3(1.0f, 1.0f, 1.0f), LLQuaternion(),
-					 LLVector3(1.0f, 2.0f, 3.0f), LLVector3(3.0f, 4.0f, 5.0f));
-
-		ensure("containsPointLocal(0,0,0)", bbox1.containsPointLocal(LLVector3(0.0f, 0.0f, 0.0f)) == FALSE);
-		ensure("containsPointLocal(1,2,3)", bbox1.containsPointLocal(LLVector3(1.0f, 2.0f, 3.0f)) == TRUE);
-		ensure("containsPointLocal(0.999,2,3)", bbox1.containsPointLocal(LLVector3(0.999f, 2.0f, 3.0f)) == FALSE);
-		ensure("containsPointLocal(3,4,5)", bbox1.containsPointLocal(LLVector3(3.0f, 4.0f, 5.0f)) == TRUE);
-		ensure("containsPointLocal(3,4,5.001)", bbox1.containsPointLocal(LLVector3(3.0f, 4.0f, 5.001f)) == FALSE);
-	}
-
-	template<> template<>
-	void object::test<16>()
-	{
-		//
-		// test the containsPointAgent() method
-		//
-		
-		LLBBox bbox1(LLVector3(1.0f, 1.0f, 1.0f), LLQuaternion(),
-					 LLVector3(1.0f, 2.0f, 3.0f), LLVector3(3.0f, 4.0f, 5.0f));
-		
-		ensure("containsPointAgent(0,0,0)", bbox1.containsPointAgent(LLVector3(0.0f, 0.0f, 0.0f)) == FALSE);
-		ensure("containsPointAgent(2,3,4)", bbox1.containsPointAgent(LLVector3(2.0f, 3.0f, 4.0f)) == TRUE);
-		ensure("containsPointAgent(2,2.999,4)", bbox1.containsPointAgent(LLVector3(2.0f, 2.999f, 4.0f)) == FALSE);
-		ensure("containsPointAgent(4,5,6)", bbox1.containsPointAgent(LLVector3(4.0f, 5.0f, 6.0f)) == TRUE);
-		ensure("containsPointAgent(4,5.001,6)", bbox1.containsPointAgent(LLVector3(4.0f, 5.001f, 6.0f)) == FALSE);
-	}				
+    template<> template<>
+    void object::test<1>()
+    {
+        //
+        // test the default constructor
+        //
+
+        LLBBox bbox1;
+
+        ensure_equals("Default bbox min", bbox1.getMinLocal(), LLVector3(0.0f, 0.0f, 0.0f));
+        ensure_equals("Default bbox max", bbox1.getMaxLocal(), LLVector3(0.0f, 0.0f, 0.0f));
+        ensure_equals("Default bbox pos agent", bbox1.getPositionAgent(), LLVector3(0.0f, 0.0f, 0.0f));
+        ensure_equals("Default bbox rotation", bbox1.getRotation(), LLQuaternion(0.0f, 0.0f, 0.0f, 1.0f));
+    }
+
+    template<> template<>
+    void object::test<2>()
+    {
+        //
+        // test the non-default constructor
+        //
+
+        LLBBox bbox2(LLVector3(1.0f, 2.0f, 3.0f), LLQuaternion(),
+                     LLVector3(2.0f, 3.0f, 4.0f), LLVector3(4.0f, 5.0f, 6.0f));
+
+        ensure_equals("Custom bbox min", bbox2.getMinLocal(), LLVector3(2.0f, 3.0f, 4.0f));
+        ensure_equals("Custom bbox max", bbox2.getMaxLocal(), LLVector3(4.0f, 5.0f, 6.0f));
+        ensure_equals("Custom bbox pos agent", bbox2.getPositionAgent(), LLVector3(1.0f, 2.0f, 3.0f));
+        ensure_equals("Custom bbox rotation", bbox2.getRotation(), LLQuaternion(0.0f, 0.0f, 0.0f, 1.0f));
+    }
+
+    template<> template<>
+    void object::test<3>()
+    {
+        //
+        // test the setMinLocal() method
+        //
+        LLBBox bbox2;
+        bbox2.setMinLocal(LLVector3(3.0f, 3.0f, 3.0f));
+        ensure_equals("Custom bbox min (2)", bbox2.getMinLocal(), LLVector3(3.0f, 3.0f, 3.0f));
+    }
+
+    template<> template<>
+    void object::test<4>()
+    {
+        //
+        // test the setMaxLocal() method
+        //
+        LLBBox bbox2;
+        bbox2.setMaxLocal(LLVector3(5.0f, 5.0f, 5.0f));
+        ensure_equals("Custom bbox max (2)", bbox2.getMaxLocal(), LLVector3(5.0f, 5.0f, 5.0f));
+    }
+
+    template<> template<>
+    void object::test<5>()
+    {
+        //
+        // test the getCenterLocal() method
+        //
+
+        ensure_equals("Default bbox local center", LLBBox().getCenterLocal(), LLVector3(0.0f, 0.0f, 0.0f));
+
+        LLBBox bbox1(LLVector3(1.0f, 2.0f, 3.0f), LLQuaternion(),
+                     LLVector3(2.0f, 4.0f, 6.0f), LLVector3(4.0f, 6.0f, 8.0f));
+
+        ensure_equals("Custom bbox center local", bbox1.getCenterLocal(), LLVector3(3.0f, 5.0f, 7.0f));
+
+        LLBBox bbox2(LLVector3(1.0f, 1.0f, 1.0f), LLQuaternion(ANGLE, LLVector3(0.0f, 0.0f, 1.0f)),
+                     LLVector3(2.0f, 2.0f, 2.0f), LLVector3(4.0f, 4.0f, 4.0f));
+
+        ensure_equals("Custom bbox center local with rot", bbox2.getCenterLocal(), LLVector3(3.0f, 3.0f, 3.0f));
+    }
+
+    template<> template<>
+    void object::test<6>()
+    {
+        //
+        // test the getCenterAgent()
+        //
+
+        ensure_equals("Default bbox agent center", LLBBox().getCenterAgent(), LLVector3(0.0f, 0.0f, 0.0f));
+
+        LLBBox bbox1(LLVector3(1.0f, 2.0f, 3.0f), LLQuaternion(),
+                     LLVector3(2.0f, 4.0f, 6.0f), LLVector3(4.0f, 6.0f, 8.0f));
+
+        ensure_equals("Custom bbox center agent", bbox1.getCenterAgent(), LLVector3(4.0f, 7.0f, 10.0f));
+
+        LLBBox bbox2(LLVector3(1.0f, 1.0f, 1.0f), LLQuaternion(ANGLE, LLVector3(0.0f, 0.0f, 1.0f)),
+                     LLVector3(2.0f, 2.0f, 2.0f), LLVector3(4.0f, 4.0f, 4.0f));
+
+        ensure("Custom bbox center agent with rot", APPROX_EQUAL(bbox2.getCenterAgent(), LLVector3(-2.0f, 4.0f, 4.0f)));
+    }
+
+    template<> template<>
+    void object::test<7>()
+    {
+        //
+        // test the getExtentLocal() method
+        //
+
+        ensure_equals("Default bbox local extent", LLBBox().getExtentLocal(), LLVector3(0.0f, 0.0f, 0.0f));
+
+        LLBBox bbox1(LLVector3(1.0f, 2.0f, 3.0f), LLQuaternion(),
+                     LLVector3(2.0f, 4.0f, 6.0f), LLVector3(4.0f, 6.0f, 8.0f));
+
+        ensure_equals("Custom bbox extent local", bbox1.getExtentLocal(), LLVector3(2.0f, 2.0f, 2.0f));
+
+        LLBBox bbox2(LLVector3(1.0f, 1.0f, 1.0f), LLQuaternion(ANGLE, LLVector3(0.0f, 0.0f, 1.0f)),
+                     LLVector3(2.0f, 2.0f, 2.0f), LLVector3(4.0f, 4.0f, 4.0f));
+
+        ensure_equals("Custom bbox extent local with rot", bbox1.getExtentLocal(), LLVector3(2.0f, 2.0f, 2.0f));
+    }
+
+    template<> template<>
+    void object::test<8>()
+    {
+        //
+        // test the addPointLocal() method
+        //
+
+        LLBBox bbox1;
+        bbox1.addPointLocal(LLVector3(1.0f, 1.0f, 1.0f));
+        bbox1.addPointLocal(LLVector3(3.0f, 3.0f, 3.0f));
+
+        ensure_equals("addPointLocal center local (1)", bbox1.getCenterLocal(), LLVector3(2.0f, 2.0f, 2.0f));
+        ensure_equals("addPointLocal center agent (1)", bbox1.getCenterAgent(), LLVector3(2.0f, 2.0f, 2.0f));
+        ensure_equals("addPointLocal min (1)", bbox1.getMinLocal(), LLVector3(1.0f, 1.0f, 1.0f));
+        ensure_equals("addPointLocal max (1)", bbox1.getMaxLocal(), LLVector3(3.0f, 3.0f, 3.0f));
+
+        bbox1.addPointLocal(LLVector3(0.0f, 0.0f, 0.0f));
+        bbox1.addPointLocal(LLVector3(1.0f, 1.0f, 1.0f));
+        bbox1.addPointLocal(LLVector3(2.0f, 2.0f, 2.0f));
+
+        ensure_equals("addPointLocal center local (2)", bbox1.getCenterLocal(), LLVector3(1.5f, 1.5f, 1.5f));
+        ensure_equals("addPointLocal min (2)", bbox1.getMinLocal(), LLVector3(0.0f, 0.0f, 0.0f));
+        ensure_equals("addPointLocal max (2)", bbox1.getMaxLocal(), LLVector3(3.0f, 3.0f, 3.0f));
+    }
+
+    template<> template<>
+    void object::test<9>()
+    {
+        //
+        // test the addBBoxLocal() method
+        //
+
+        LLBBox bbox1;
+        bbox1.addBBoxLocal(LLBBox(LLVector3(), LLQuaternion(),
+                                  LLVector3(0.0f, 0.0f, 0.0f), LLVector3(3.0f, 3.0f, 3.0f)));
+
+        ensure_equals("addPointLocal center local (3)", bbox1.getCenterLocal(), LLVector3(1.5f, 1.5f, 1.5f));
+        ensure_equals("addPointLocal min (3)", bbox1.getMinLocal(), LLVector3(0.0f, 0.0f, 0.0f));
+        ensure_equals("addPointLocal max (3)", bbox1.getMaxLocal(), LLVector3(3.0f, 3.0f, 3.0f));
+
+        bbox1.addBBoxLocal(LLBBox(LLVector3(1.0f, 1.0f, 1.0f), LLQuaternion(),
+                                  LLVector3(5.0f, 5.0f, 5.0f), LLVector3(10.0f, 10.0f, 10.0f)));
+
+        ensure_equals("addPointLocal center local (4)", bbox1.getCenterLocal(), LLVector3(5.0f, 5.0f, 5.0f));
+        ensure_equals("addPointLocal center agent (4)", bbox1.getCenterAgent(), LLVector3(5.0f, 5.0f, 5.0f));
+        ensure_equals("addPointLocal min (4)", bbox1.getMinLocal(), LLVector3(0.0f, 0.0f, 0.0f));
+        ensure_equals("addPointLocal max (4)", bbox1.getMaxLocal(), LLVector3(10.0f, 10.0f, 10.0f));
+    }
+
+    template<> template<>
+    void object::test<10>()
+    {
+        //
+        // test the addPointAgent() method
+        //
+
+        LLBBox bbox1(LLVector3(1.0f, 1.0f, 1.0f), LLQuaternion(1.0, 0.0, 0.0, 1.0),
+                     LLVector3(2.0f, 2.0f, 2.0f), LLVector3(4.0f, 4.0f, 4.0f));
+
+        bbox1.addPointAgent(LLVector3(1.0f, 1.0f, 1.0f));
+        bbox1.addPointAgent(LLVector3(3.0f, 3.0f, 3.0f));
+
+        ensure_equals("addPointAgent center local (1)", bbox1.getCenterLocal(), LLVector3(2.0f, 2.0f, -2.0f));
+        ensure_equals("addPointAgent center agent (1)", bbox1.getCenterAgent(), LLVector3(3.0f, 3.0f, 7.0f));
+        ensure_equals("addPointAgent min (1)", bbox1.getMinLocal(), LLVector3(0.0f, 0.0f, -4.0f));
+        ensure_equals("addPointAgent max (1)", bbox1.getMaxLocal(), LLVector3(4.0f, 4.0f, 0.0f));
+    }
+
+    template<> template<>
+    void object::test<11>()
+    {
+        //
+        // test the addBBoxAgent() method
+        //
+
+        LLBBox bbox1(LLVector3(1.0f, 1.0f, 1.0f), LLQuaternion(1.0, 0.0, 0.0, 1.0),
+                     LLVector3(2.0f, 2.0f, 2.0f), LLVector3(4.0f, 4.0f, 4.0f));
+
+        bbox1.addPointAgent(LLVector3(1.0f, 1.0f, 1.0f));
+        bbox1.addPointAgent(LLVector3(3.0f, 3.0f, 3.0f));
+
+        bbox1.addBBoxLocal(LLBBox(LLVector3(1.0f, 1.0f, 1.0f), LLQuaternion(),
+                                  LLVector3(5.0f, 5.0f, 5.0f), LLVector3(10.0f, 10.0f, 10.0f)));
+
+        ensure_equals("addPointAgent center local (2)", bbox1.getCenterLocal(), LLVector3(5.0f, 5.0f, 3.0f));
+        ensure_equals("addPointAgent center agent (2)", bbox1.getCenterAgent(), LLVector3(6.0f, -10.0f, 8.0f));
+        ensure_equals("addPointAgent min (2)", bbox1.getMinLocal(), LLVector3(0.0f, 0.0f, -4.0f));
+        ensure_equals("addPointAgent max (2)", bbox1.getMaxLocal(), LLVector3(10.0f, 10.0f, 10.0f));
+    }
+
+    template<> template<>
+    void object::test<12>()
+    {
+        //
+        // test the expand() method
+        //
+
+        LLBBox bbox1;
+        bbox1.expand(0.0);
+
+        ensure_equals("Zero-expanded Default BBox center", bbox1.getCenterLocal(), LLVector3(0.0f, 0.0f, 0.0f));
+
+        LLBBox bbox2(LLVector3(1.0f, 1.0f, 1.0f), LLQuaternion(),
+                     LLVector3(1.0f, 1.0f, 1.0f), LLVector3(3.0f, 3.0f, 3.0f));
+        bbox2.expand(0.0);
+
+        ensure_equals("Zero-expanded center local", bbox2.getCenterLocal(), LLVector3(2.0f, 2.0f, 2.0f));
+        ensure_equals("Zero-expanded center agent", bbox2.getCenterAgent(), LLVector3(3.0f, 3.0f, 3.0f));
+        ensure_equals("Zero-expanded min", bbox2.getMinLocal(), LLVector3(1.0f, 1.0f, 1.0f));
+        ensure_equals("Zero-expanded max", bbox2.getMaxLocal(), LLVector3(3.0f, 3.0f, 3.0f));
+
+        bbox2.expand(0.5);
+
+        ensure_equals("Positive-expanded center", bbox2.getCenterLocal(), LLVector3(2.0f, 2.0f, 2.0f));
+        ensure_equals("Positive-expanded min", bbox2.getMinLocal(), LLVector3(0.5f, 0.5f, 0.5f));
+        ensure_equals("Positive-expanded max", bbox2.getMaxLocal(), LLVector3(3.5f, 3.5f, 3.5f));
+
+        bbox2.expand(-1.0);
+
+        ensure_equals("Negative-expanded center", bbox2.getCenterLocal(), LLVector3(2.0f, 2.0f, 2.0f));
+        ensure_equals("Negative-expanded min", bbox2.getMinLocal(), LLVector3(1.5f, 1.5f, 1.5f));
+        ensure_equals("Negative-expanded max", bbox2.getMaxLocal(), LLVector3(2.5f, 2.5f, 2.5f));
+    }
+
+    template<> template<>
+    void object::test<13>()
+    {
+        //
+        // test the localToAgent() method
+        //
+
+        LLBBox bbox1(LLVector3(1.0f, 1.0f, 1.0f), LLQuaternion(),
+                     LLVector3(1.0f, 1.0f, 1.0f), LLVector3(3.0f, 3.0f, 3.0f));
+
+        ensure_equals("localToAgent(1,2,3)", bbox1.localToAgent(LLVector3(1.0f, 2.0f, 3.0f)), LLVector3(2.0f, 3.0f, 4.0f));
+
+        LLBBox bbox2(LLVector3(1.0f, 1.0f, 1.0f), LLQuaternion(ANGLE, LLVector3(1.0f, 0.0f, 0.0f)),
+                     LLVector3(1.0f, 1.0f, 1.0f), LLVector3(3.0f, 3.0f, 3.0f));
+
+        ensure("localToAgent(1,2,3) rot", APPROX_EQUAL(bbox2.localToAgent(LLVector3(1.0f, 2.0f, 3.0f)), LLVector3(2.0f, -2.0f, 3.0f)));
+    }
+
+    template<> template<>
+    void object::test<14>()
+    {
+        //
+        // test the agentToLocal() method
+        //
+
+        LLBBox bbox1(LLVector3(1.0f, 1.0f, 1.0f), LLQuaternion(),
+                     LLVector3(1.0f, 1.0f, 1.0f), LLVector3(3.0f, 3.0f, 3.0f));
+
+        ensure_equals("agentToLocal(1,2,3)", bbox1.agentToLocal(LLVector3(1.0f, 2.0f, 3.0f)), LLVector3(0.0f, 1.0f, 2.0f));
+        ensure_equals("agentToLocal(localToAgent)", bbox1.agentToLocal(bbox1.localToAgent(LLVector3(1.0f, 2.0f, 3.0f))),
+                      LLVector3(1.0f, 2.0f, 3.0f));
+
+        LLBBox bbox2(LLVector3(1.0f, 1.0f, 1.0f), LLQuaternion(ANGLE, LLVector3(1.0f, 0.0f, 0.0f)),
+                     LLVector3(1.0f, 1.0f, 1.0f), LLVector3(3.0f, 3.0f, 3.0f));
+
+        ensure("agentToLocal(1,2,3) rot", APPROX_EQUAL(bbox2.agentToLocal(LLVector3(1.0f, 2.0f, 3.0f)), LLVector3(0.0f, 2.0f, -1.0f)));
+        ensure("agentToLocal(localToAgent) rot", APPROX_EQUAL(bbox2.agentToLocal(bbox2.localToAgent(LLVector3(1.0f, 2.0f, 3.0f))),
+                                                              LLVector3(1.0f, 2.0f, 3.0f)));
+    }
+
+    template<> template<>
+    void object::test<15>()
+    {
+        //
+        // test the containsPointLocal() method
+        //
+
+        LLBBox bbox1(LLVector3(1.0f, 1.0f, 1.0f), LLQuaternion(),
+                     LLVector3(1.0f, 2.0f, 3.0f), LLVector3(3.0f, 4.0f, 5.0f));
+
+        ensure("containsPointLocal(0,0,0)", bbox1.containsPointLocal(LLVector3(0.0f, 0.0f, 0.0f)) == FALSE);
+        ensure("containsPointLocal(1,2,3)", bbox1.containsPointLocal(LLVector3(1.0f, 2.0f, 3.0f)) == TRUE);
+        ensure("containsPointLocal(0.999,2,3)", bbox1.containsPointLocal(LLVector3(0.999f, 2.0f, 3.0f)) == FALSE);
+        ensure("containsPointLocal(3,4,5)", bbox1.containsPointLocal(LLVector3(3.0f, 4.0f, 5.0f)) == TRUE);
+        ensure("containsPointLocal(3,4,5.001)", bbox1.containsPointLocal(LLVector3(3.0f, 4.0f, 5.001f)) == FALSE);
+    }
+
+    template<> template<>
+    void object::test<16>()
+    {
+        //
+        // test the containsPointAgent() method
+        //
+
+        LLBBox bbox1(LLVector3(1.0f, 1.0f, 1.0f), LLQuaternion(),
+                     LLVector3(1.0f, 2.0f, 3.0f), LLVector3(3.0f, 4.0f, 5.0f));
+
+        ensure("containsPointAgent(0,0,0)", bbox1.containsPointAgent(LLVector3(0.0f, 0.0f, 0.0f)) == FALSE);
+        ensure("containsPointAgent(2,3,4)", bbox1.containsPointAgent(LLVector3(2.0f, 3.0f, 4.0f)) == TRUE);
+        ensure("containsPointAgent(2,2.999,4)", bbox1.containsPointAgent(LLVector3(2.0f, 2.999f, 4.0f)) == FALSE);
+        ensure("containsPointAgent(4,5,6)", bbox1.containsPointAgent(LLVector3(4.0f, 5.0f, 6.0f)) == TRUE);
+        ensure("containsPointAgent(4,5.001,6)", bbox1.containsPointAgent(LLVector3(4.0f, 5.001f, 6.0f)) == FALSE);
+    }
 }
 
diff --git a/indra/llmath/tests/llbboxlocal_test.cpp b/indra/llmath/tests/llbboxlocal_test.cpp
index f31e4126c4..120e18cadf 100644
--- a/indra/llmath/tests/llbboxlocal_test.cpp
+++ b/indra/llmath/tests/llbboxlocal_test.cpp
@@ -3,25 +3,25 @@
  * @author Martin Reddy
  * @date   2009-06-25
  * @brief  Test for llbboxlocal.cpp.
- * 
+ *
  * $LicenseInfo:firstyear=2009&license=viewerlgpl$
  * Second Life Viewer Source Code
  * Copyright (C) 2010, Linden Research, Inc.
- * 
+ *
  * This library is free software; you can redistribute it and/or
  * modify it under the terms of the GNU Lesser General Public
  * License as published by the Free Software Foundation;
  * version 2.1 of the License only.
- * 
+ *
  * This library is distributed in the hope that it will be useful,
  * but WITHOUT ANY WARRANTY; without even the implied warranty of
  * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the GNU
  * Lesser General Public License for more details.
- * 
+ *
  * You should have received a copy of the GNU Lesser General Public
  * License along with this library; if not, write to the Free Software
  * Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA  02110-1301  USA
- * 
+ *
  * Linden Research, Inc., 945 Battery Street, San Francisco, CA  94111  USA
  * $/LicenseInfo$
  */
@@ -32,201 +32,201 @@
 
 namespace tut
 {
-	struct LLBBoxLocalData
-	{
-	};
+    struct LLBBoxLocalData
+    {
+    };
 
-	typedef test_group<LLBBoxLocalData> factory;
-	typedef factory::object object;
+    typedef test_group<LLBBoxLocalData> factory;
+    typedef factory::object object;
 }
 
 namespace
 {
-	tut::factory llbboxlocal_test_factory("LLBBoxLocal");
+    tut::factory llbboxlocal_test_factory("LLBBoxLocal");
 }
 
 namespace tut
 {
-	template<> template<>
-	void object::test<1>()
-	{	
-		//
-		// test the default constructor
-		//
-		
-		LLBBoxLocal bbox1;
-		
-		ensure_equals("Default bbox min", bbox1.getMin(), LLVector3(0.0f, 0.0f, 0.0f));
-		ensure_equals("Default bbox max", bbox1.getMax(), LLVector3(0.0f, 0.0f, 0.0f));
-	}
-
-	template<> template<>
-	void object::test<2>()
-	{	
-		//
-		// test the non-default constructor
-		//
-		
-		LLBBoxLocal bbox2(LLVector3(-1.0f, -2.0f, 0.0f), LLVector3(1.0f, 2.0f, 3.0f));
-		
-		ensure_equals("Custom bbox min", bbox2.getMin(), LLVector3(-1.0f, -2.0f, 0.0f));
-		ensure_equals("Custom bbox max", bbox2.getMax(), LLVector3(1.0f, 2.0f, 3.0f));		
-	}
-	
-	template<> template<>
-	void object::test<3>()
-	{	
-		//
-		// test the setMin()
-		//
-		// N.B. no validation is currently performed to ensure that the min
-		// and max vectors are actually the min/max values.
-		//
-		
-		LLBBoxLocal bbox2;
-		bbox2.setMin(LLVector3(1.0f, 2.0f, 3.0f));
-		
-		ensure_equals("Custom bbox min (2)", bbox2.getMin(), LLVector3(1.0f, 2.0f, 3.0f));
-	}
-	
-	template<> template<>
-	void object::test<4>()
-	{	
-		//
-		// test the setMax()
-		//
-		// N.B. no validation is currently performed to ensure that the min
-		// and max vectors are actually the min/max values.
-		//
-		
-		LLBBoxLocal bbox2;
-		bbox2.setMax(LLVector3(10.0f, 20.0f, 30.0f));
-		
-		ensure_equals("Custom bbox max (2)", bbox2.getMax(), LLVector3(10.0f, 20.0f, 30.0f));
-	}
-	
-	template<> template<>
-	void object::test<5>()
-	{	
-		//
-		// test the getCenter() method
-		//
-		
-		ensure_equals("Default bbox center", LLBBoxLocal().getCenter(), LLVector3(0.0f, 0.0f, 0.0f));
-		
-		LLBBoxLocal bbox1(LLVector3(-1.0f, -1.0f, -1.0f), LLVector3(0.0f, 0.0f, 0.0f));
-		
-		ensure_equals("Custom bbox center", bbox1.getCenter(), LLVector3(-0.5f, -0.5f, -0.5f));
-		
-		LLBBoxLocal bbox2(LLVector3(0.0f, 0.0f, 0.0f), LLVector3(-1.0f, -1.0f, -1.0f));
-		
-		ensure_equals("Invalid bbox center", bbox2.getCenter(), LLVector3(-0.5f, -0.5f, -0.5f));
-	}
-
-	template<> template<>
-	void object::test<6>()
-	{	
-		//
-		// test the getExtent() method
-		//
-		
-		LLBBoxLocal bbox2(LLVector3(0.0f, 0.0f, 0.0f), LLVector3(-1.0f, -1.0f, -1.0f));
-		
-		ensure_equals("Default bbox extent", LLBBoxLocal().getExtent(), LLVector3(0.0f, 0.0f, 0.0f));
-		
-		LLBBoxLocal bbox3(LLVector3(-1.0f, -1.0f, -1.0f), LLVector3(1.0f, 2.0f, 0.0f));
-		
-		ensure_equals("Custom bbox extent", bbox3.getExtent(), LLVector3(2.0f, 3.0f, 1.0f));
-	}
-	
-	template<> template<>
-	void object::test<7>()
-	{
-		//
-		// test the addPoint() method
-		//
-		// N.B. if you create an empty bbox and then add points,
-		// the vector (0, 0, 0) will always be part of the bbox.
-		// (Fixing this would require adding a bool to the class size).
-		//
-		
-		LLBBoxLocal bbox1;
-		bbox1.addPoint(LLVector3(-1.0f, -2.0f, -3.0f));
-		bbox1.addPoint(LLVector3(3.0f, 4.0f, 5.0f));
-		
-		ensure_equals("Custom BBox center (1)", bbox1.getCenter(), LLVector3(1.0f, 1.0f, 1.0f));
-		ensure_equals("Custom BBox min (1)", bbox1.getMin(), LLVector3(-1.0f, -2.0f, -3.0f));
-		ensure_equals("Custom BBox max (1)", bbox1.getMax(), LLVector3(3.0f, 4.0f, 5.0f));
-		
-		bbox1.addPoint(LLVector3(0.0f, 0.0f, 0.0f));
-		bbox1.addPoint(LLVector3(1.0f, 2.0f, 3.0f));
-		bbox1.addPoint(LLVector3(2.0f, 2.0f, 2.0f));
-		
-		ensure_equals("Custom BBox center (2)", bbox1.getCenter(), LLVector3(1.0f, 1.0f, 1.0f));
-		ensure_equals("Custom BBox min (2)", bbox1.getMin(), LLVector3(-1.0f, -2.0f, -3.0f));
-		ensure_equals("Custom BBox max (2)", bbox1.getMax(), LLVector3(3.0f, 4.0f, 5.0f));
-		
-		bbox1.addPoint(LLVector3(5.0f, 5.0f, 5.0f));
-		
-		ensure_equals("Custom BBox center (3)", bbox1.getCenter(), LLVector3(2.0f, 1.5f, 1.0f));
-		ensure_equals("Custom BBox min (3)", bbox1.getMin(), LLVector3(-1.0f, -2.0f, -3.0f));
-		ensure_equals("Custom BBox max (3)", bbox1.getMax(), LLVector3(5.0f, 5.0f, 5.0f));
-	}
-		
-	template<> template<>
-	void object::test<8>()
-	{
-		//
-		// test the addBBox() methods
-		//
-		// N.B. if you create an empty bbox and then add points,
-		// the vector (0, 0, 0) will always be part of the bbox.
-		// (Fixing this would require adding a bool to the class size).
-		//
-		
-		LLBBoxLocal bbox2(LLVector3(1.0f, 1.0f, 1.0f), LLVector3(2.0f, 2.0f, 2.0f));
-		bbox2.addBBox(LLBBoxLocal(LLVector3(1.5f, 1.5f, 1.5f), LLVector3(3.0f, 3.0f, 3.0f)));
-		
-		ensure_equals("Custom BBox center (4)", bbox2.getCenter(), LLVector3(2.0f, 2.0f, 2.0f));
-		ensure_equals("Custom BBox min (4)", bbox2.getMin(), LLVector3(1.0f, 1.0f, 1.0f));
-		ensure_equals("Custom BBox max (4)", bbox2.getMax(), LLVector3(3.0f, 3.0f, 3.0f));
-		
-		bbox2.addBBox(LLBBoxLocal(LLVector3(-1.0f, -1.0f, -1.0f), LLVector3(0.0f, 0.0f, 0.0f)));
-		
-		ensure_equals("Custom BBox center (5)", bbox2.getCenter(), LLVector3(1.0f, 1.0f, 1.0f));
-		ensure_equals("Custom BBox min (5)", bbox2.getMin(), LLVector3(-1.0f, -1.0f, -1.0f));
-		ensure_equals("Custom BBox max (5)", bbox2.getMax(), LLVector3(3.0f, 3.0f, 3.0f));
-	}
-	
-	template<> template<>
-	void object::test<9>()
-	{
-		//
-		// test the expand() method
-		//
-		
-		LLBBoxLocal bbox1;
-		bbox1.expand(0.0f);
-
-		ensure_equals("Zero-expanded Default BBox center", bbox1.getCenter(), LLVector3(0.0f, 0.0f, 0.0f));
-
-		LLBBoxLocal bbox2(LLVector3(1.0f, 2.0f, 3.0f), LLVector3(3.0f, 4.0f, 5.0f));
-		bbox2.expand(0.0f);
-		
-		ensure_equals("Zero-expanded BBox center", bbox2.getCenter(), LLVector3(2.0f, 3.0f, 4.0f));
-		ensure_equals("Zero-expanded BBox min", bbox2.getMin(), LLVector3(1.0f, 2.0f, 3.0f));
-		ensure_equals("Zero-expanded BBox max", bbox2.getMax(), LLVector3(3.0f, 4.0f, 5.0f));
-
-		bbox2.expand(0.5f);
-
-		ensure_equals("Positive-expanded BBox center", bbox2.getCenter(), LLVector3(2.0f, 3.0f, 4.0f));
-		ensure_equals("Positive-expanded BBox min", bbox2.getMin(), LLVector3(0.5f, 1.5f, 2.5f));
-		ensure_equals("Positive-expanded BBox max", bbox2.getMax(), LLVector3(3.5f, 4.5f, 5.5f));
-
-		bbox2.expand(-1.0f);
-		
-		ensure_equals("Negative-expanded BBox center", bbox2.getCenter(), LLVector3(2.0f, 3.0f, 4.0f));
-		ensure_equals("Negative-expanded BBox min", bbox2.getMin(), LLVector3(1.5f, 2.5f, 3.5f));
-		ensure_equals("Negative-expanded BBox max", bbox2.getMax(), LLVector3(2.5f, 3.5f, 4.5f));		
-	}
+    template<> template<>
+    void object::test<1>()
+    {
+        //
+        // test the default constructor
+        //
+
+        LLBBoxLocal bbox1;
+
+        ensure_equals("Default bbox min", bbox1.getMin(), LLVector3(0.0f, 0.0f, 0.0f));
+        ensure_equals("Default bbox max", bbox1.getMax(), LLVector3(0.0f, 0.0f, 0.0f));
+    }
+
+    template<> template<>
+    void object::test<2>()
+    {
+        //
+        // test the non-default constructor
+        //
+
+        LLBBoxLocal bbox2(LLVector3(-1.0f, -2.0f, 0.0f), LLVector3(1.0f, 2.0f, 3.0f));
+
+        ensure_equals("Custom bbox min", bbox2.getMin(), LLVector3(-1.0f, -2.0f, 0.0f));
+        ensure_equals("Custom bbox max", bbox2.getMax(), LLVector3(1.0f, 2.0f, 3.0f));
+    }
+
+    template<> template<>
+    void object::test<3>()
+    {
+        //
+        // test the setMin()
+        //
+        // N.B. no validation is currently performed to ensure that the min
+        // and max vectors are actually the min/max values.
+        //
+
+        LLBBoxLocal bbox2;
+        bbox2.setMin(LLVector3(1.0f, 2.0f, 3.0f));
+
+        ensure_equals("Custom bbox min (2)", bbox2.getMin(), LLVector3(1.0f, 2.0f, 3.0f));
+    }
+
+    template<> template<>
+    void object::test<4>()
+    {
+        //
+        // test the setMax()
+        //
+        // N.B. no validation is currently performed to ensure that the min
+        // and max vectors are actually the min/max values.
+        //
+
+        LLBBoxLocal bbox2;
+        bbox2.setMax(LLVector3(10.0f, 20.0f, 30.0f));
+
+        ensure_equals("Custom bbox max (2)", bbox2.getMax(), LLVector3(10.0f, 20.0f, 30.0f));
+    }
+
+    template<> template<>
+    void object::test<5>()
+    {
+        //
+        // test the getCenter() method
+        //
+
+        ensure_equals("Default bbox center", LLBBoxLocal().getCenter(), LLVector3(0.0f, 0.0f, 0.0f));
+
+        LLBBoxLocal bbox1(LLVector3(-1.0f, -1.0f, -1.0f), LLVector3(0.0f, 0.0f, 0.0f));
+
+        ensure_equals("Custom bbox center", bbox1.getCenter(), LLVector3(-0.5f, -0.5f, -0.5f));
+
+        LLBBoxLocal bbox2(LLVector3(0.0f, 0.0f, 0.0f), LLVector3(-1.0f, -1.0f, -1.0f));
+
+        ensure_equals("Invalid bbox center", bbox2.getCenter(), LLVector3(-0.5f, -0.5f, -0.5f));
+    }
+
+    template<> template<>
+    void object::test<6>()
+    {
+        //
+        // test the getExtent() method
+        //
+
+        LLBBoxLocal bbox2(LLVector3(0.0f, 0.0f, 0.0f), LLVector3(-1.0f, -1.0f, -1.0f));
+
+        ensure_equals("Default bbox extent", LLBBoxLocal().getExtent(), LLVector3(0.0f, 0.0f, 0.0f));
+
+        LLBBoxLocal bbox3(LLVector3(-1.0f, -1.0f, -1.0f), LLVector3(1.0f, 2.0f, 0.0f));
+
+        ensure_equals("Custom bbox extent", bbox3.getExtent(), LLVector3(2.0f, 3.0f, 1.0f));
+    }
+
+    template<> template<>
+    void object::test<7>()
+    {
+        //
+        // test the addPoint() method
+        //
+        // N.B. if you create an empty bbox and then add points,
+        // the vector (0, 0, 0) will always be part of the bbox.
+        // (Fixing this would require adding a bool to the class size).
+        //
+
+        LLBBoxLocal bbox1;
+        bbox1.addPoint(LLVector3(-1.0f, -2.0f, -3.0f));
+        bbox1.addPoint(LLVector3(3.0f, 4.0f, 5.0f));
+
+        ensure_equals("Custom BBox center (1)", bbox1.getCenter(), LLVector3(1.0f, 1.0f, 1.0f));
+        ensure_equals("Custom BBox min (1)", bbox1.getMin(), LLVector3(-1.0f, -2.0f, -3.0f));
+        ensure_equals("Custom BBox max (1)", bbox1.getMax(), LLVector3(3.0f, 4.0f, 5.0f));
+
+        bbox1.addPoint(LLVector3(0.0f, 0.0f, 0.0f));
+        bbox1.addPoint(LLVector3(1.0f, 2.0f, 3.0f));
+        bbox1.addPoint(LLVector3(2.0f, 2.0f, 2.0f));
+
+        ensure_equals("Custom BBox center (2)", bbox1.getCenter(), LLVector3(1.0f, 1.0f, 1.0f));
+        ensure_equals("Custom BBox min (2)", bbox1.getMin(), LLVector3(-1.0f, -2.0f, -3.0f));
+        ensure_equals("Custom BBox max (2)", bbox1.getMax(), LLVector3(3.0f, 4.0f, 5.0f));
+
+        bbox1.addPoint(LLVector3(5.0f, 5.0f, 5.0f));
+
+        ensure_equals("Custom BBox center (3)", bbox1.getCenter(), LLVector3(2.0f, 1.5f, 1.0f));
+        ensure_equals("Custom BBox min (3)", bbox1.getMin(), LLVector3(-1.0f, -2.0f, -3.0f));
+        ensure_equals("Custom BBox max (3)", bbox1.getMax(), LLVector3(5.0f, 5.0f, 5.0f));
+    }
+
+    template<> template<>
+    void object::test<8>()
+    {
+        //
+        // test the addBBox() methods
+        //
+        // N.B. if you create an empty bbox and then add points,
+        // the vector (0, 0, 0) will always be part of the bbox.
+        // (Fixing this would require adding a bool to the class size).
+        //
+
+        LLBBoxLocal bbox2(LLVector3(1.0f, 1.0f, 1.0f), LLVector3(2.0f, 2.0f, 2.0f));
+        bbox2.addBBox(LLBBoxLocal(LLVector3(1.5f, 1.5f, 1.5f), LLVector3(3.0f, 3.0f, 3.0f)));
+
+        ensure_equals("Custom BBox center (4)", bbox2.getCenter(), LLVector3(2.0f, 2.0f, 2.0f));
+        ensure_equals("Custom BBox min (4)", bbox2.getMin(), LLVector3(1.0f, 1.0f, 1.0f));
+        ensure_equals("Custom BBox max (4)", bbox2.getMax(), LLVector3(3.0f, 3.0f, 3.0f));
+
+        bbox2.addBBox(LLBBoxLocal(LLVector3(-1.0f, -1.0f, -1.0f), LLVector3(0.0f, 0.0f, 0.0f)));
+
+        ensure_equals("Custom BBox center (5)", bbox2.getCenter(), LLVector3(1.0f, 1.0f, 1.0f));
+        ensure_equals("Custom BBox min (5)", bbox2.getMin(), LLVector3(-1.0f, -1.0f, -1.0f));
+        ensure_equals("Custom BBox max (5)", bbox2.getMax(), LLVector3(3.0f, 3.0f, 3.0f));
+    }
+
+    template<> template<>
+    void object::test<9>()
+    {
+        //
+        // test the expand() method
+        //
+
+        LLBBoxLocal bbox1;
+        bbox1.expand(0.0f);
+
+        ensure_equals("Zero-expanded Default BBox center", bbox1.getCenter(), LLVector3(0.0f, 0.0f, 0.0f));
+
+        LLBBoxLocal bbox2(LLVector3(1.0f, 2.0f, 3.0f), LLVector3(3.0f, 4.0f, 5.0f));
+        bbox2.expand(0.0f);
+
+        ensure_equals("Zero-expanded BBox center", bbox2.getCenter(), LLVector3(2.0f, 3.0f, 4.0f));
+        ensure_equals("Zero-expanded BBox min", bbox2.getMin(), LLVector3(1.0f, 2.0f, 3.0f));
+        ensure_equals("Zero-expanded BBox max", bbox2.getMax(), LLVector3(3.0f, 4.0f, 5.0f));
+
+        bbox2.expand(0.5f);
+
+        ensure_equals("Positive-expanded BBox center", bbox2.getCenter(), LLVector3(2.0f, 3.0f, 4.0f));
+        ensure_equals("Positive-expanded BBox min", bbox2.getMin(), LLVector3(0.5f, 1.5f, 2.5f));
+        ensure_equals("Positive-expanded BBox max", bbox2.getMax(), LLVector3(3.5f, 4.5f, 5.5f));
+
+        bbox2.expand(-1.0f);
+
+        ensure_equals("Negative-expanded BBox center", bbox2.getCenter(), LLVector3(2.0f, 3.0f, 4.0f));
+        ensure_equals("Negative-expanded BBox min", bbox2.getMin(), LLVector3(1.5f, 2.5f, 3.5f));
+        ensure_equals("Negative-expanded BBox max", bbox2.getMax(), LLVector3(2.5f, 3.5f, 4.5f));
+    }
 }
diff --git a/indra/llmath/tests/llmodularmath_test.cpp b/indra/llmath/tests/llmodularmath_test.cpp
index 063d3ef79f..399b3af05d 100644
--- a/indra/llmath/tests/llmodularmath_test.cpp
+++ b/indra/llmath/tests/llmodularmath_test.cpp
@@ -7,25 +7,25 @@
  * $LicenseInfo:firstyear=2007&license=viewerlgpl$
  * Second Life Viewer Source Code
  * Copyright (C) 2010, Linden Research, Inc.
- * 
+ *
  * This library is free software; you can redistribute it and/or
  * modify it under the terms of the GNU Lesser General Public
  * License as published by the Free Software Foundation;
  * version 2.1 of the License only.
- * 
+ *
  * This library is distributed in the hope that it will be useful,
  * but WITHOUT ANY WARRANTY; without even the implied warranty of
  * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the GNU
  * Lesser General Public License for more details.
- * 
+ *
  * You should have received a copy of the GNU Lesser General Public
  * License along with this library; if not, write to the Free Software
  * Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA  02110-1301  USA
- * 
+ *
  * Linden Research, Inc., 945 Battery Street, San Francisco, CA  94111  USA
  * $/LicenseInfo$
  */
- 
+
 #include "linden_common.h"
 
 #include "../llmodularmath.h"
@@ -34,43 +34,43 @@
 
 namespace tut
 {
-	struct modularmath_data
-	{
-	};
-	typedef test_group<modularmath_data> modularmath_test;
-	typedef modularmath_test::object modularmath_object;
-	tut::modularmath_test modularmath_testcase("LLModularMath");
+    struct modularmath_data
+    {
+    };
+    typedef test_group<modularmath_data> modularmath_test;
+    typedef modularmath_test::object modularmath_object;
+    tut::modularmath_test modularmath_testcase("LLModularMath");
 
-	template<> template<>
-	void modularmath_object::test<1>()
-	{
-		// lhs < rhs
-		const U32 lhs = 0x000001;
-		const U32 rhs = 0xFFFFFF;
-		const U32 width = 24;
-		U32 result = LLModularMath::subtract<width>(lhs, rhs); 
-		ensure_equals("diff(0x000001, 0xFFFFFF, 24)", result, 2);
-	}
+    template<> template<>
+    void modularmath_object::test<1>()
+    {
+        // lhs < rhs
+        const U32 lhs = 0x000001;
+        const U32 rhs = 0xFFFFFF;
+        const U32 width = 24;
+        U32 result = LLModularMath::subtract<width>(lhs, rhs);
+        ensure_equals("diff(0x000001, 0xFFFFFF, 24)", result, 2);
+    }
 
-	template<> template<>
-	void modularmath_object::test<2>()
-	{
-		// lhs > rhs
-		const U32 lhs = 0x000002;
-		const U32 rhs = 0x000001;
-		const U32 width = 24;
-		U32 result = LLModularMath::subtract<width>(lhs, rhs); 
-		ensure_equals("diff(0x000002, 0x000001, 24)", result, 1);
-	}
+    template<> template<>
+    void modularmath_object::test<2>()
+    {
+        // lhs > rhs
+        const U32 lhs = 0x000002;
+        const U32 rhs = 0x000001;
+        const U32 width = 24;
+        U32 result = LLModularMath::subtract<width>(lhs, rhs);
+        ensure_equals("diff(0x000002, 0x000001, 24)", result, 1);
+    }
 
-	template<> template<>
-	void modularmath_object::test<3>()
-	{
-		// lhs == rhs
-		const U32 lhs = 0xABCDEF;
-		const U32 rhs = 0xABCDEF;
-		const U32 width = 24;
-		U32 result = LLModularMath::subtract<width>(lhs, rhs); 
-		ensure_equals("diff(0xABCDEF, 0xABCDEF, 24)", result, 0);
-	}	
+    template<> template<>
+    void modularmath_object::test<3>()
+    {
+        // lhs == rhs
+        const U32 lhs = 0xABCDEF;
+        const U32 rhs = 0xABCDEF;
+        const U32 width = 24;
+        U32 result = LLModularMath::subtract<width>(lhs, rhs);
+        ensure_equals("diff(0xABCDEF, 0xABCDEF, 24)", result, 0);
+    }
 }
diff --git a/indra/llmath/tests/llquaternion_test.cpp b/indra/llmath/tests/llquaternion_test.cpp
index 3490829743..aa3c0ad843 100644
--- a/indra/llmath/tests/llquaternion_test.cpp
+++ b/indra/llmath/tests/llquaternion_test.cpp
@@ -1,4 +1,4 @@
-/** 
+/**
  * @file llquaternion_test.cpp
  * @author Adroit
  * @date 2007-03
@@ -7,21 +7,21 @@
  * $LicenseInfo:firstyear=2007&license=viewerlgpl$
  * Second Life Viewer Source Code
  * Copyright (C) 2010, Linden Research, Inc.
- * 
+ *
  * This library is free software; you can redistribute it and/or
  * modify it under the terms of the GNU Lesser General Public
  * License as published by the Free Software Foundation;
  * version 2.1 of the License only.
- * 
+ *
  * This library is distributed in the hope that it will be useful,
  * but WITHOUT ANY WARRANTY; without even the implied warranty of
  * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the GNU
  * Lesser General Public License for more details.
- * 
+ *
  * You should have received a copy of the GNU Lesser General Public
  * License along with this library; if not, write to the Free Software
  * Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA  02110-1301  USA
- * 
+ *
  * Linden Research, Inc., 945 Battery Street, San Francisco, CA  94111  USA
  * $/LicenseInfo$
  */
@@ -38,623 +38,623 @@
 
 namespace tut
 {
-	struct llquat_test
-	{
-	};
-	typedef test_group<llquat_test> llquat_test_t;
-	typedef llquat_test_t::object llquat_test_object_t;
-	tut::llquat_test_t tut_llquat_test("LLQuaternion");
-
-	//test case for LLQuaternion::LLQuaternion(void) fn.
-	template<> template<>
-	void llquat_test_object_t::test<1>()
-	{
-		LLQuaternion llquat;
-		ensure("LLQuaternion::LLQuaternion() failed", 0.f == llquat.mQ[0] &&
-		 									0.f == llquat.mQ[1] &&
-		 									0.f == llquat.mQ[2] &&
-											1.f == llquat.mQ[3]);
-	}
-
-	//test case for explicit LLQuaternion(const LLMatrix4 &mat) fn.
-	template<> template<>
-	void llquat_test_object_t::test<2>()
-	{
-		LLMatrix4 llmat;
-		LLVector4 vector1(2.0f, 1.0f, 3.0f, 6.0f);
-		LLVector4 vector2(5.0f, 6.0f, 0.0f, 1.0f);
-		LLVector4 vector3(2.0f, 1.0f, 2.0f, 9.0f);
-		LLVector4 vector4(3.0f, 8.0f, 1.0f, 5.0f);
-
-		llmat.initRows(vector1, vector2, vector3, vector4);
-		ensure("explicit LLQuaternion(const LLMatrix4 &mat) failed", 2.0f == llmat.mMatrix[0][0] &&
-										 	1.0f == llmat.mMatrix[0][1] &&
-											3.0f == llmat.mMatrix[0][2] &&
-											6.0f == llmat.mMatrix[0][3] &&
-											5.0f == llmat.mMatrix[1][0] &&
-											6.0f == llmat.mMatrix[1][1] &&
-											0.0f == llmat.mMatrix[1][2] &&
-											1.0f == llmat.mMatrix[1][3] &&
-											2.0f == llmat.mMatrix[2][0] &&
-											1.0f == llmat.mMatrix[2][1] &&
-											2.0f == llmat.mMatrix[2][2] &&
-											9.0f == llmat.mMatrix[2][3] &&
-											3.0f == llmat.mMatrix[3][0] &&
-											8.0f == llmat.mMatrix[3][1] &&
-											1.0f == llmat.mMatrix[3][2] &&
-											5.0f == llmat.mMatrix[3][3]);
-	}
-	
-	template<> template<>
-	void llquat_test_object_t::test<3>()
-	{
-		LLMatrix3 llmat;
-
-		LLVector3 vect1(3.4028234660000000f , 234.56f, 4234.442234f);
-		LLVector3 vect2(741.434f, 23.00034f, 6567.223423f);
-		LLVector3 vect3(566.003034f, 12.98705f, 234.764423f);
-		llmat.setRows(vect1, vect2, vect3);
-
-		ensure("LLMatrix3::setRows fn failed.", 3.4028234660000000f == llmat.mMatrix[0][0] &&
-										234.56f == llmat.mMatrix[0][1] &&
-										4234.442234f == llmat.mMatrix[0][2] &&
-										741.434f == llmat.mMatrix[1][0] &&
-										23.00034f == llmat.mMatrix[1][1] &&
-										6567.223423f == llmat.mMatrix[1][2] &&
-										566.003034f == llmat.mMatrix[2][0] &&
-										12.98705f == llmat.mMatrix[2][1] &&
-										234.764423f == llmat.mMatrix[2][2]);		
-	}
-
-	//test case for LLQuaternion(F32 x, F32 y, F32 z, F32 w), setQuatInit() and normQuat() fns.
-	template<> template<>
-	void llquat_test_object_t::test<4>()
-	{
-		F32 x_val = 3.0f;
-		F32 y_val = 2.0f;
-		F32 z_val = 6.0f;
-		F32 w_val = 1.0f;
-		
-		LLQuaternion res_quat;
-		res_quat.setQuatInit(x_val, y_val, z_val, w_val);
-		res_quat.normQuat();
-				
-		ensure("LLQuaternion::normQuat() fn failed", 
-							is_approx_equal(0.42426407f, res_quat.mQ[0]) &&
-							is_approx_equal(0.28284273f, res_quat.mQ[1]) &&
-							is_approx_equal(0.84852815f, res_quat.mQ[2]) &&
-							is_approx_equal(0.14142136f, res_quat.mQ[3]));
-		
-		x_val = 0.0f;
-		y_val = 0.0f;
-		z_val = 0.0f;
-		w_val = 0.0f;
-
-		res_quat.setQuatInit(x_val, y_val, z_val, w_val);
-		res_quat.normQuat();
-
-		ensure("LLQuaternion::normQuat() fn. failed.", 
-							is_approx_equal(0.0f, res_quat.mQ[0]) &&
-							is_approx_equal(0.0f, res_quat.mQ[1]) &&
-							is_approx_equal(0.0f, res_quat.mQ[2]) &&
-							is_approx_equal(1.0f, res_quat.mQ[3]));
-
-
-		ensure("LLQuaternion::normQuat() fn. failed.", 
-							is_approx_equal(0.0f, res_quat.mQ[0]) &&
-							is_approx_equal(0.0f, res_quat.mQ[1]) &&
-							is_approx_equal(0.0f, res_quat.mQ[2]) &&
-							is_approx_equal(1.0f, res_quat.mQ[3]));
-	}
-
-	//test case for conjQuat() and transQuat() fns.
-	template<> template<>
-	void llquat_test_object_t::test<5>()
-	{
-		F32 x_val = 3.0f;
-		F32 y_val = 2.0f;
-		F32 z_val = 6.0f;
-		F32 w_val = 1.0f;
-		
-		LLQuaternion res_quat;
-		LLQuaternion result, result1;
-		result1 = result = res_quat.setQuatInit(x_val, y_val, z_val, w_val);
-				
-		result.conjQuat();
-		result1.transQuat();
-
-		ensure("LLQuaternion::conjQuat and LLQuaternion::transQuat failed ", 
-								is_approx_equal(result1.mQ[0], result.mQ[0]) &&
-								is_approx_equal(result1.mQ[1], result.mQ[1]) &&
-								is_approx_equal(result1.mQ[2], result.mQ[2]));		
-
-	}
-
-	//test case for dot(const LLQuaternion &a, const LLQuaternion &b) fn.
-	template<> template<>
-	void llquat_test_object_t::test<6>()
-	{
-		LLQuaternion quat1(3.0f, 2.0f, 6.0f, 0.0f), quat2(1.0f, 1.0f, 1.0f, 1.0f);
-		ensure("1. The two values are different", ll_round(12.000000f, 2) == ll_round(dot(quat1, quat2), 2));
-
-		LLQuaternion quat0(3.0f, 9.334f, 34.5f, 23.0f), quat(34.5f, 23.23f, 2.0f, 45.5f);
-		ensure("2. The two values are different", ll_round(1435.828807f, 2) == ll_round(dot(quat0, quat), 2));
-	}
-
-	//test case for LLQuaternion &LLQuaternion::constrain(F32 radians) fn.
-	template<> template<>
-	void llquat_test_object_t::test<7>()
-	{
-		F32 radian = 60.0f;
-		LLQuaternion quat(3.0f, 2.0f, 6.0f, 0.0f);
-		LLQuaternion quat1;
-		quat1 = quat.constrain(radian);
-		ensure("1. LLQuaternion::constrain(F32 radians) failed", 
-									is_approx_equal_fraction(-0.423442f, quat1.mQ[0], 8) &&
-									is_approx_equal_fraction(-0.282295f, quat1.mQ[1], 8) &&
-									is_approx_equal_fraction(-0.846884f, quat1.mQ[2], 8) &&				
-									is_approx_equal_fraction(0.154251f, quat1.mQ[3], 8));				
-											
-
-		radian = 30.0f;
-		LLQuaternion quat0(37.50f, 12.0f, 86.023f, 40.32f);
-		quat1 = quat0.constrain(radian);
-	
-		ensure("2. LLQuaternion::constrain(F32 radians) failed", 
-									is_approx_equal_fraction(37.500000f, quat1.mQ[0], 8) &&
-									is_approx_equal_fraction(12.0000f, quat1.mQ[1], 8) &&
-									is_approx_equal_fraction(86.0230f, quat1.mQ[2], 8) &&				
-									is_approx_equal_fraction(40.320000f, quat1.mQ[3], 8));				
-	}
-
-	template<> template<>
-	void llquat_test_object_t::test<8>()
-	{
-		F32 value1 = 15.0f;
-		LLQuaternion quat1(1.0f, 2.0f, 4.0f, 1.0f);
-		LLQuaternion quat2(4.0f, 3.0f, 6.5f, 9.7f);
-		LLQuaternion res_lerp, res_slerp, res_nlerp;
-		
-		//test case for lerp(F32 t, const LLQuaternion &q) fn. 
-		res_lerp = lerp(value1, quat1);
-		ensure("1. LLQuaternion lerp(F32 t, const LLQuaternion &q) failed", 
-										is_approx_equal_fraction(0.181355f, res_lerp.mQ[0], 16) &&
-										is_approx_equal_fraction(0.362711f, res_lerp.mQ[1], 16) &&
-										is_approx_equal_fraction(0.725423f, res_lerp.mQ[2], 16) &&				
-										is_approx_equal_fraction(0.556158f, res_lerp.mQ[3], 16));				
-
-		//test case for lerp(F32 t, const LLQuaternion &p, const LLQuaternion &q) fn.
-		res_lerp = lerp(value1, quat1, quat2);
-		ensure("2. LLQuaternion lerp(F32 t, const LLQuaternion &p, const LLQuaternion &q) failed",
-										is_approx_equal_fraction(0.314306f, res_lerp.mQ[0], 16) &&
-										is_approx_equal_fraction(0.116156f, res_lerp.mQ[1], 16) &&
-										is_approx_equal_fraction(0.283559f, res_lerp.mQ[2], 16) &&				
-										is_approx_equal_fraction(0.898506f, res_lerp.mQ[3], 16));				
-
-		//test case for slerp( F32 u, const LLQuaternion &a, const LLQuaternion &b ) fn.
-		res_slerp = slerp(value1, quat1, quat2);
-		ensure("3. LLQuaternion slerp( F32 u, const LLQuaternion &a, const LLQuaternion &b) failed", 
-										is_approx_equal_fraction(46.000f, res_slerp.mQ[0], 16) &&
-										is_approx_equal_fraction(17.00f, res_slerp.mQ[1], 16) &&
-										is_approx_equal_fraction(41.5f, res_slerp.mQ[2], 16) &&				
-										is_approx_equal_fraction(131.5f, res_slerp.mQ[3], 16));				
-
-		//test case for nlerp(F32 t, const LLQuaternion &a, const LLQuaternion &b) fn.
-		res_nlerp = nlerp(value1, quat1, quat2);
-		ensure("4. LLQuaternion nlerp(F32 t, const LLQuaternion &a, const LLQuaternion &b) failed",  
-										is_approx_equal_fraction(0.314306f, res_nlerp.mQ[0], 16) &&
-										is_approx_equal_fraction(0.116157f, res_nlerp.mQ[1], 16) &&
-										is_approx_equal_fraction(0.283559f, res_nlerp.mQ[2], 16) &&				
-										is_approx_equal_fraction(0.898506f, res_nlerp.mQ[3], 16));				
-
-		//test case for nlerp(F32 t, const LLQuaternion &q) fn.
-		res_slerp = slerp(value1, quat1);
-		ensure("5. LLQuaternion slerp(F32 t, const LLQuaternion &q) failed", 
-										is_approx_equal_fraction(1.0f, res_slerp.mQ[0], 16) &&
-										is_approx_equal_fraction(2.0f, res_slerp.mQ[1], 16) &&
-										is_approx_equal_fraction(4.0000f, res_slerp.mQ[2], 16) &&				
-										is_approx_equal_fraction(1.000f, res_slerp.mQ[3], 16));				
-										
-		LLQuaternion quat3(2.0f, 1.0f, 5.5f, 10.5f);
-		LLQuaternion res_nlerp1;
-		value1 = 100.0f;
-		res_nlerp1 = nlerp(value1, quat3);
-		ensure("6. LLQuaternion nlerp(F32 t, const LLQuaternion &q)  failed", 
-										is_approx_equal_fraction(0.268245f, res_nlerp1.mQ[0], 16) &&										is_approx_equal_fraction(0.134122f, res_nlerp1.mQ[1], 2) &&
-										is_approx_equal_fraction(0.737673f, res_nlerp1.mQ[2], 16) &&				
-										is_approx_equal_fraction(0.604892f, res_nlerp1.mQ[3], 16));				
-
-		//test case for lerp(F32 t, const LLQuaternion &q) fn. 
-		res_lerp = lerp(value1, quat2);
-		ensure("7. LLQuaternion lerp(F32 t, const LLQuaternion &q) failed", 
-										is_approx_equal_fraction(0.404867f, res_lerp.mQ[0], 16) &&
-										is_approx_equal_fraction(0.303650f, res_lerp.mQ[1], 16) &&
-										is_approx_equal_fraction(0.657909f, res_lerp.mQ[2], 16) &&				
-										is_approx_equal_fraction(0.557704f, res_lerp.mQ[3], 16));				
-		
-	}
-
-	template<> template<>
-	void llquat_test_object_t::test<9>()
-	{
-		//test case for LLQuaternion operator*(const LLQuaternion &a, const LLQuaternion &b) fn
-		LLQuaternion quat1(1.0f, 2.5f, 3.5f, 5.5f);
-		LLQuaternion quat2(4.0f, 3.0f, 5.0f, 1.0f);
-		LLQuaternion result = quat1 *  quat2;
-		ensure("1. LLQuaternion Operator* failed", (21.0f == result.mQ[0]) &&
-											(10.0f == result.mQ[1]) &&
-											(38.0f == result.mQ[2]) && 
-											(-23.5f == result.mQ[3]));
-
-		LLQuaternion quat3(2341.340f, 2352.345f, 233.25f, 7645.5f);
-		LLQuaternion quat4(674.067f, 893.0897f, 578.0f, 231.0f);
-		result = quat3 * quat4;
-		ensure("2. LLQuaternion Operator* failed", (4543086.5f == result.mQ[0]) &&
-											(8567578.0f == result.mQ[1]) &&
-											(3967591.25f == result.mQ[2]) &&
-											is_approx_equal(-2047783.25f, result.mQ[3]));
-
-		//inline LLQuaternion operator+(const LLQuaternion &a, const LLQuaternion &b)fn.		
-		result = quat1 + quat2;
-		ensure("3. LLQuaternion operator+ failed", (5.0f == result.mQ[0]) &&
-											(5.5f == result.mQ[1]) &&
-											(8.5f == result.mQ[2]) &&
-											(6.5f == result.mQ[3]));
-
-		result = quat3 + quat4;
-		ensure(
-			"4. LLQuaternion operator+ failed",
-			is_approx_equal(3015.407227f, result.mQ[0]) &&
-			is_approx_equal(3245.434570f, result.mQ[1]) &&
-			(811.25f == result.mQ[2]) &&
-			(7876.5f == result.mQ[3]));
-
-		//inline LLQuaternion operator-(const LLQuaternion &a, const LLQuaternion &b) fn
-		result = quat1 - quat2;
-		ensure(
-			"5. LLQuaternion operator-(const LLQuaternion &a, const LLQuaternion &b) failed", 
-			(-3.0f == result.mQ[0]) &&
-			(-0.5f == result.mQ[1]) &&
-			(-1.5f == result.mQ[2]) &&
-			(4.5f == result.mQ[3]));
-
-		result = quat3 - quat4;
-		ensure(
-			"6. LLQuaternion operator-(const LLQuaternion &a, const LLQuaternion &b) failed", 
-			is_approx_equal(1667.273071f, result.mQ[0]) &&
-			is_approx_equal(1459.255249f, result.mQ[1]) &&
-			(-344.75f == result.mQ[2]) &&
-			(7414.50f == result.mQ[3]));
-	}
-
-	//test case for LLVector4 operator*(const LLVector4 &a, const LLQuaternion &rot) fn.
-	template<> template<>
-	void llquat_test_object_t::test<10>()
-	{
-		LLVector4 vect(12.0f, 5.0f, 60.0f, 75.1f);
-		LLQuaternion quat(2323.034f, 23.5f, 673.23f, 57667.5f);
-		LLVector4 result = vect * quat;
-		ensure(
-			"1. LLVector4 operator*(const LLVector4 &a, const LLQuaternion &rot) failed", 
-			is_approx_equal(39928406016.0f, result.mV[0]) &&
-			// gcc on x86 actually gives us more precision than we were expecting, verified with -ffloat-store - we forgive this
-			(1457802240.0f >= result.mV[1]) && // gcc+x86+linux
-			(1457800960.0f <= result.mV[1]) && // elsewhere
-			is_approx_equal(200580612096.0f, result.mV[2]) &&
-			(75.099998f == result.mV[3]));
-
-		LLVector4 vect1(22.0f, 45.0f, 40.0f, 78.1f);
-		LLQuaternion quat1(2.034f, 45.5f, 37.23f, 7.5f);
-		result = vect1 * quat1;
-		ensure(
-			"2. LLVector4 operator*(const LLVector4 &a, const LLQuaternion &rot) failed", 
-			is_approx_equal(-58153.5390f, result.mV[0]) &&
-			(183787.8125f == result.mV[1]) &&
-			(116864.164063f == result.mV[2]) &&
-			(78.099998f == result.mV[3]));
-	}
-
-	//test case for LLVector3 operator*(const LLVector3 &a, const LLQuaternion &rot) fn.
-	template<> template<>
-	void llquat_test_object_t::test<11>()
-	{
-		LLVector3 vect(12.0f, 5.0f, 60.0f);
-		LLQuaternion quat(23.5f, 6.5f, 3.23f, 56.5f);
-		LLVector3 result = vect * quat;
-		ensure(
-			"1. LLVector3 operator*(const LLVector3 &a, const LLQuaternion &rot) failed", 
-			is_approx_equal(97182.953125f,result.mV[0]) &&
-			is_approx_equal(-135405.640625f, result.mV[1]) &&
-			is_approx_equal(162986.140f, result.mV[2]));
-
-		LLVector3 vect1(5.0f, 40.0f, 78.1f);
-		LLQuaternion quat1(2.034f, 45.5f, 37.23f, 7.5f);
-		result = vect1 * quat1;
-		ensure(
-			"2. LLVector3 operator*(const LLVector3 &a, const LLQuaternion &rot) failed", 
-			is_approx_equal(33217.703f, result.mV[0]) &&
-			is_approx_equal(295383.8125f, result.mV[1]) &&
-			is_approx_equal(84718.140f, result.mV[2]));
-	}
-
-	//test case for LLVector3d operator*(const LLVector3d &a, const LLQuaternion &rot) fn.
-	template<> template<>
-	void llquat_test_object_t::test<12>()
-	{
-		LLVector3d vect(-2.0f, 5.0f, -6.0f);
-		LLQuaternion quat(-3.5f, 4.5f, 3.5f, 6.5f);
-		LLVector3d result = vect * quat;
-		ensure(
-			"1. LLVector3d operator*(const LLVector3d &a, const LLQuaternion &rot) failed ", 
-			(-633.0f == result.mdV[0]) &&
-			(-300.0f == result.mdV[1]) &&
-			(-36.0f == result.mdV[2]));
-
-		LLVector3d vect1(5.0f, -4.5f, 8.21f);
-		LLQuaternion quat1(2.0f, 4.5f, -7.2f, 9.5f);
-		result = vect1 * quat1;
-		ensure(
-			"2. LLVector3d operator*(const LLVector3d &a, const LLQuaternion &rot) failed", 
-			is_approx_equal_fraction(-120.29f, (F32) result.mdV[0], 8) &&
-			is_approx_equal_fraction(-1683.958f, (F32) result.mdV[1], 8) &&
-			is_approx_equal_fraction(516.56f, (F32) result.mdV[2], 8));
-
-		LLVector3d vect2(2.0f, 3.5f, 1.1f);
-		LLQuaternion quat2(1.0f, 4.0f, 2.0f, 5.0f);
-		result = vect2 * quat2;
-		ensure(
-			"3. LLVector3d operator*(const LLVector3d &a, const LLQuaternion &rot) failed", 
-			is_approx_equal_fraction(18.400001f, (F32) result.mdV[0], 8) &&
-			is_approx_equal_fraction(188.6f, (F32) result.mdV[1], 8) &&
-			is_approx_equal_fraction(32.20f, (F32) result.mdV[2], 8));
-	}
-
-	//test case for inline LLQuaternion operator-(const LLQuaternion &a) fn.
-	template<> template<>
-	void llquat_test_object_t::test<13>()
-	{
-		LLQuaternion quat(23.5f, 34.5f, 16723.4f, 324.7f);
-		LLQuaternion result = -quat;
-		ensure(
-			"1. LLQuaternion operator-(const LLQuaternion &a) failed", 
-			(-23.5f == result.mQ[0]) &&
-			(-34.5f == result.mQ[1]) &&
-			(-16723.4f == result.mQ[2]) &&
-			(-324.7f == result.mQ[3]));
-
-		LLQuaternion quat1(-3.5f, -34.5f, -16.4f, -154.7f);
-		result = -quat1;
-		ensure(
-			"2. LLQuaternion operator-(const LLQuaternion &a) failed.", 
-			(3.5f == result.mQ[0]) &&
-			(34.5f == result.mQ[1]) &&
-			(16.4f == result.mQ[2]) &&
-			(154.7f == result.mQ[3]));
-	}
-
-	//test case for inline LLQuaternion operator*(F32 a, const LLQuaternion &q) and
-	//inline LLQuaternion operator*(F32 a, const LLQuaternion &q) fns.
-	template<> template<>
-	void llquat_test_object_t::test<14>()
-	{
-		LLQuaternion quat_value(9.0f, 8.0f, 7.0f, 6.0f);
-		F32 a =3.5f;
-		LLQuaternion result = a * quat_value;
-		LLQuaternion result1 = quat_value * a;
-
-		ensure(
-			"1. LLQuaternion operator* failed",
-			(result.mQ[0] == result1.mQ[0]) &&
-			(result.mQ[1] == result1.mQ[1]) &&
-			(result.mQ[2] == result1.mQ[2]) &&
-			(result.mQ[3] == result1.mQ[3]));
-
-
-		LLQuaternion quat_val(9454.0f, 43568.3450f, 456343247.0343f, 2346.03434f);
-		a =-3324.3445f;
-		result = a * quat_val;
-		result1 = quat_val * a;
-
-		ensure(
-			"2. LLQuaternion operator* failed",
-			(result.mQ[0] == result1.mQ[0]) &&
-			(result.mQ[1] == result1.mQ[1]) &&
-			(result.mQ[2] == result1.mQ[2]) &&
-			(result.mQ[3] == result1.mQ[3]));
-	}
-	
-	template<> template<>
-	void llquat_test_object_t::test<15>()
-	{
-		// test cases for inline LLQuaternion operator~(const LLQuaternion &a)
-		LLQuaternion quat_val(2323.634f, -43535.4f, 3455.88f, -32232.45f);
-		LLQuaternion result = ~quat_val;
-		ensure(
-			"1. LLQuaternion operator~(const LLQuaternion &a) failed ", 
-			(-2323.634f == result.mQ[0]) &&
-			(43535.4f == result.mQ[1]) &&
-			(-3455.88f == result.mQ[2]) &&
-			(-32232.45f == result.mQ[3]));
-
-		//test case for inline bool LLQuaternion::operator==(const LLQuaternion &b) const
-		LLQuaternion quat_val1(2323.634f, -43535.4f, 3455.88f, -32232.45f);
-		LLQuaternion quat_val2(2323.634f, -43535.4f, 3455.88f, -32232.45f);
-		ensure(
-			"2. LLQuaternion::operator==(const LLQuaternion &b) failed",
-			quat_val1 == quat_val2);
-	}
-	
-	template<> template<>
-	void llquat_test_object_t::test<16>()
-	{
-		//test case for inline bool LLQuaternion::operator!=(const LLQuaternion &b) const
-		LLQuaternion quat_val1(2323.634f, -43535.4f, 3455.88f, -32232.45f);
-		LLQuaternion quat_val2(0, -43535.4f, 3455.88f, -32232.45f);
-		ensure("LLQuaternion::operator!=(const LLQuaternion &b) failed", quat_val1 != quat_val2);
-	}
-
-	template<> template<>
-	void llquat_test_object_t::test<17>()
-	{
-		//test case for LLQuaternion mayaQ(F32 xRot, F32 yRot, F32 zRot, LLQuaternion::Order order)
-		F32 x = 2.0f;
-		F32 y = 1.0f;
-		F32 z = 3.0f;
-		
-		LLQuaternion result = mayaQ(x, y, z, LLQuaternion::XYZ);
-		ensure(
-			"1. LLQuaternion mayaQ(F32 xRot, F32 yRot, F32 zRot, LLQuaternion::Order order) failed for XYZ",
-			is_approx_equal_fraction(0.0172174f, result.mQ[0], 16) &&
-			is_approx_equal_fraction(0.009179f, result.mQ[1], 16) &&
-			is_approx_equal_fraction(0.026020f, result.mQ[2], 16) &&
-			is_approx_equal_fraction(0.999471f, result.mQ[3], 16));
-
-		LLQuaternion result1 = mayaQ(x, y, z, LLQuaternion::YZX);
-		ensure(
-			"2. LLQuaternion mayaQ(F32 xRot, F32 yRot, F32 zRot, LLQuaternion::Order order) failed for XYZ",
-			is_approx_equal_fraction(0.017217f, result1.mQ[0], 16) &&
-			is_approx_equal_fraction(0.008265f, result1.mQ[1], 16) &&
-			is_approx_equal_fraction(0.026324f, result1.mQ[2], 16) &&
-			is_approx_equal_fraction(0.999471f, result1.mQ[3], 16));
-		
-		LLQuaternion result2 = mayaQ(x, y, z, LLQuaternion::ZXY);
-		ensure(
-			"3. LLQuaternion mayaQ(F32 xRot, F32 yRot, F32 zRot, LLQuaternion::Order order) failed for ZXY", 
-			is_approx_equal_fraction(0.017674f, result2.mQ[0], 16) &&
-			is_approx_equal_fraction(0.008265f, result2.mQ[1], 16) &&
-			is_approx_equal_fraction(0.026020f, result2.mQ[2], 16) &&
-			is_approx_equal_fraction(0.999471f, result2.mQ[3], 16));
-											
-		LLQuaternion result3 = mayaQ(x, y, z, LLQuaternion::XZY);
-		ensure(
-			"4. TLLQuaternion mayaQ(F32 xRot, F32 yRot, F32 zRot, LLQuaternion::Order order) failed for XZY", 
-			is_approx_equal_fraction(0.017674f, result3.mQ[0], 16) &&
-			is_approx_equal_fraction(0.009179f, result3.mQ[1], 16) &&
-			is_approx_equal_fraction(0.026020f, result3.mQ[2], 16) &&
-			is_approx_equal_fraction(0.999463f, result3.mQ[3], 16));
-											
-		LLQuaternion result4 = mayaQ(x, y, z, LLQuaternion::YXZ);
-		ensure(
-			"5. LLQuaternion mayaQ(F32 xRot, F32 yRot, F32 zRot, LLQuaternion::Order order) failed for YXZ", 
-			is_approx_equal_fraction(0.017217f, result4.mQ[0], 16) &&
-			is_approx_equal_fraction(0.009179f, result4.mQ[1], 16) &&
-			is_approx_equal_fraction(0.026324f, result4.mQ[2], 16) &&
-			is_approx_equal_fraction(0.999463f, result4.mQ[3], 16));
-											
-		LLQuaternion result5 = mayaQ(x, y, z, LLQuaternion::ZYX);
-		ensure(
-			"6. LLQuaternion mayaQ(F32 xRot, F32 yRot, F32 zRot, LLQuaternion::Order order) failed for ZYX", 
-			is_approx_equal_fraction(0.017674f, result5.mQ[0], 16) &&
-			is_approx_equal_fraction(0.008265f, result5.mQ[1], 16) &&
-			is_approx_equal_fraction(0.026324f, result5.mQ[2], 16) &&
-			is_approx_equal_fraction(0.999463f, result5.mQ[3], 16));
-	}
-
-	template<> template<>
-	void llquat_test_object_t::test<18>()
-	{
-		// test case for friend std::ostream& operator<<(std::ostream &s, const LLQuaternion &a) fn
-		LLQuaternion a(1.0f, 1.0f, 1.0f, 1.0f); 
-		std::ostringstream result_value;
-		result_value << a;
-		ensure_equals("1. Operator << failed", result_value.str(), "{ 1, 1, 1, 1 }");
-
-		LLQuaternion b(-31.034f, 231.2340f, 3451.344320f, -341.0f); 
-		std::ostringstream result_value1;
-		result_value1 << b;
-		ensure_equals("2. Operator << failed", result_value1.str(), "{ -31.034, 231.234, 3451.34, -341 }");
-
-		LLQuaternion c(1.0f, 2.2f, 3.3f, 4.4f); 
-		result_value << c;
-		ensure_equals("3. Operator << failed", result_value.str(), "{ 1, 1, 1, 1 }{ 1, 2.2, 3.3, 4.4 }");
-
-	}
-	
-	template<> template<>
-	void llquat_test_object_t::test<19>()
-	{
-		//test case for const char *OrderToString( const LLQuaternion::Order order ) fn
-		const char* result = OrderToString(LLQuaternion::XYZ);
-		ensure("1. OrderToString failed for XYZ",  (0 == strcmp("XYZ", result)));
-		
-		result = OrderToString(LLQuaternion::YZX);
-		ensure("2. OrderToString failed for YZX",  (0 == strcmp("YZX", result)));
-		
-		result = OrderToString(LLQuaternion::ZXY);
-		ensure(
-			"3. OrderToString failed for ZXY",
-			(0 == strcmp("ZXY", result)) &&
-			(0 != strcmp("XYZ", result)) &&
-			(0 != strcmp("YXZ", result)) &&
-			(0 != strcmp("ZYX", result)) &&
-			(0 != strcmp("XYZ", result)));
-
-		result = OrderToString(LLQuaternion::XZY);
-		ensure("4. OrderToString failed for XZY",  (0 == strcmp("XZY", result)));
-
-		result = OrderToString(LLQuaternion::ZYX);
-		ensure("5. OrderToString failed for ZYX",  (0 == strcmp("ZYX", result)));
-
-		result = OrderToString(LLQuaternion::YXZ);
-		ensure("6.OrderToString failed for YXZ",  (0 == strcmp("YXZ", result)));
-	}
-
-	template<> template<>
-	void llquat_test_object_t::test<20>()
-	{
-		//test case for LLQuaternion::Order StringToOrder( const char *str ) fn
-		int result = StringToOrder("XYZ");
-		ensure("1. LLQuaternion::Order StringToOrder(const char *str ) failed for XYZ", 0 == result);
-
-		result = StringToOrder("YZX");
-		ensure("2. LLQuaternion::Order StringToOrder(const char *str) failed for YZX", 1 == result);
-
-		result = StringToOrder("ZXY");
-		ensure("3. LLQuaternion::Order StringToOrder(const char *str) failed for ZXY", 2 == result);
-		
-		result = StringToOrder("XZY");
-		ensure("4. LLQuaternion::Order StringToOrder(const char *str) failed for XZY", 3 == result);
-
-		result = StringToOrder("YXZ");
-		ensure("5. LLQuaternion::Order StringToOrder(const char *str) failed for YXZ", 4 == result);
-	
-		result = StringToOrder("ZYX");
-		ensure("6. LLQuaternion::Order StringToOrder(const char *str) failed for  ZYX", 5 == result);	
-
-	}
-
-	template<> template<>
-	void llquat_test_object_t::test<21>()
-	{
-		//void LLQuaternion::getAngleAxis(F32* angle, LLVector3 &vec) const fn
-		F32 angle_value = 90.0f;
-		LLVector3 vect(12.0f, 4.0f, 1.0f);
-		LLQuaternion llquat(angle_value, vect);
-		llquat.getAngleAxis(&angle_value, vect); 
-		ensure(
-			"LLQuaternion::getAngleAxis(F32* angle, LLVector3 &vec) failed", 
-			is_approx_equal_fraction(2.035406f, angle_value, 16) &&
-			is_approx_equal_fraction(0.315244f, vect.mV[1], 16) &&
-			is_approx_equal_fraction(0.078811f, vect.mV[2], 16) &&
-			is_approx_equal_fraction(0.945733f, vect.mV[0], 16));
-	}
-
-	template<> template<>
-	void llquat_test_object_t::test<22>()
-	{
-		//test case for void LLQuaternion::getEulerAngles(F32 *roll, F32 *pitch, F32 *yaw) const fn
-		F32 roll = -12.0f;
-		F32 pitch = -22.43f;
-		F32 yaw = 11.0f;
-
-		LLQuaternion llquat;
-		llquat.getEulerAngles(&roll, &pitch, &yaw);
-		ensure(
-			"LLQuaternion::getEulerAngles(F32 *roll, F32 *pitch, F32 *yaw) failed",
-			is_approx_equal(0.000f, llquat.mQ[0]) &&
-			is_approx_equal(0.000f, llquat.mQ[1]) &&
-			is_approx_equal(0.000f, llquat.mQ[2]) &&
-			is_approx_equal(1.000f, llquat.mQ[3]));
-	}
+    struct llquat_test
+    {
+    };
+    typedef test_group<llquat_test> llquat_test_t;
+    typedef llquat_test_t::object llquat_test_object_t;
+    tut::llquat_test_t tut_llquat_test("LLQuaternion");
+
+    //test case for LLQuaternion::LLQuaternion(void) fn.
+    template<> template<>
+    void llquat_test_object_t::test<1>()
+    {
+        LLQuaternion llquat;
+        ensure("LLQuaternion::LLQuaternion() failed", 0.f == llquat.mQ[0] &&
+                                            0.f == llquat.mQ[1] &&
+                                            0.f == llquat.mQ[2] &&
+                                            1.f == llquat.mQ[3]);
+    }
+
+    //test case for explicit LLQuaternion(const LLMatrix4 &mat) fn.
+    template<> template<>
+    void llquat_test_object_t::test<2>()
+    {
+        LLMatrix4 llmat;
+        LLVector4 vector1(2.0f, 1.0f, 3.0f, 6.0f);
+        LLVector4 vector2(5.0f, 6.0f, 0.0f, 1.0f);
+        LLVector4 vector3(2.0f, 1.0f, 2.0f, 9.0f);
+        LLVector4 vector4(3.0f, 8.0f, 1.0f, 5.0f);
+
+        llmat.initRows(vector1, vector2, vector3, vector4);
+        ensure("explicit LLQuaternion(const LLMatrix4 &mat) failed", 2.0f == llmat.mMatrix[0][0] &&
+                                            1.0f == llmat.mMatrix[0][1] &&
+                                            3.0f == llmat.mMatrix[0][2] &&
+                                            6.0f == llmat.mMatrix[0][3] &&
+                                            5.0f == llmat.mMatrix[1][0] &&
+                                            6.0f == llmat.mMatrix[1][1] &&
+                                            0.0f == llmat.mMatrix[1][2] &&
+                                            1.0f == llmat.mMatrix[1][3] &&
+                                            2.0f == llmat.mMatrix[2][0] &&
+                                            1.0f == llmat.mMatrix[2][1] &&
+                                            2.0f == llmat.mMatrix[2][2] &&
+                                            9.0f == llmat.mMatrix[2][3] &&
+                                            3.0f == llmat.mMatrix[3][0] &&
+                                            8.0f == llmat.mMatrix[3][1] &&
+                                            1.0f == llmat.mMatrix[3][2] &&
+                                            5.0f == llmat.mMatrix[3][3]);
+    }
+
+    template<> template<>
+    void llquat_test_object_t::test<3>()
+    {
+        LLMatrix3 llmat;
+
+        LLVector3 vect1(3.4028234660000000f , 234.56f, 4234.442234f);
+        LLVector3 vect2(741.434f, 23.00034f, 6567.223423f);
+        LLVector3 vect3(566.003034f, 12.98705f, 234.764423f);
+        llmat.setRows(vect1, vect2, vect3);
+
+        ensure("LLMatrix3::setRows fn failed.", 3.4028234660000000f == llmat.mMatrix[0][0] &&
+                                        234.56f == llmat.mMatrix[0][1] &&
+                                        4234.442234f == llmat.mMatrix[0][2] &&
+                                        741.434f == llmat.mMatrix[1][0] &&
+                                        23.00034f == llmat.mMatrix[1][1] &&
+                                        6567.223423f == llmat.mMatrix[1][2] &&
+                                        566.003034f == llmat.mMatrix[2][0] &&
+                                        12.98705f == llmat.mMatrix[2][1] &&
+                                        234.764423f == llmat.mMatrix[2][2]);
+    }
+
+    //test case for LLQuaternion(F32 x, F32 y, F32 z, F32 w), setQuatInit() and normQuat() fns.
+    template<> template<>
+    void llquat_test_object_t::test<4>()
+    {
+        F32 x_val = 3.0f;
+        F32 y_val = 2.0f;
+        F32 z_val = 6.0f;
+        F32 w_val = 1.0f;
+
+        LLQuaternion res_quat;
+        res_quat.setQuatInit(x_val, y_val, z_val, w_val);
+        res_quat.normQuat();
+
+        ensure("LLQuaternion::normQuat() fn failed",
+                            is_approx_equal(0.42426407f, res_quat.mQ[0]) &&
+                            is_approx_equal(0.28284273f, res_quat.mQ[1]) &&
+                            is_approx_equal(0.84852815f, res_quat.mQ[2]) &&
+                            is_approx_equal(0.14142136f, res_quat.mQ[3]));
+
+        x_val = 0.0f;
+        y_val = 0.0f;
+        z_val = 0.0f;
+        w_val = 0.0f;
+
+        res_quat.setQuatInit(x_val, y_val, z_val, w_val);
+        res_quat.normQuat();
+
+        ensure("LLQuaternion::normQuat() fn. failed.",
+                            is_approx_equal(0.0f, res_quat.mQ[0]) &&
+                            is_approx_equal(0.0f, res_quat.mQ[1]) &&
+                            is_approx_equal(0.0f, res_quat.mQ[2]) &&
+                            is_approx_equal(1.0f, res_quat.mQ[3]));
+
+
+        ensure("LLQuaternion::normQuat() fn. failed.",
+                            is_approx_equal(0.0f, res_quat.mQ[0]) &&
+                            is_approx_equal(0.0f, res_quat.mQ[1]) &&
+                            is_approx_equal(0.0f, res_quat.mQ[2]) &&
+                            is_approx_equal(1.0f, res_quat.mQ[3]));
+    }
+
+    //test case for conjQuat() and transQuat() fns.
+    template<> template<>
+    void llquat_test_object_t::test<5>()
+    {
+        F32 x_val = 3.0f;
+        F32 y_val = 2.0f;
+        F32 z_val = 6.0f;
+        F32 w_val = 1.0f;
+
+        LLQuaternion res_quat;
+        LLQuaternion result, result1;
+        result1 = result = res_quat.setQuatInit(x_val, y_val, z_val, w_val);
+
+        result.conjQuat();
+        result1.transQuat();
+
+        ensure("LLQuaternion::conjQuat and LLQuaternion::transQuat failed ",
+                                is_approx_equal(result1.mQ[0], result.mQ[0]) &&
+                                is_approx_equal(result1.mQ[1], result.mQ[1]) &&
+                                is_approx_equal(result1.mQ[2], result.mQ[2]));
+
+    }
+
+    //test case for dot(const LLQuaternion &a, const LLQuaternion &b) fn.
+    template<> template<>
+    void llquat_test_object_t::test<6>()
+    {
+        LLQuaternion quat1(3.0f, 2.0f, 6.0f, 0.0f), quat2(1.0f, 1.0f, 1.0f, 1.0f);
+        ensure("1. The two values are different", ll_round(12.000000f, 2) == ll_round(dot(quat1, quat2), 2));
+
+        LLQuaternion quat0(3.0f, 9.334f, 34.5f, 23.0f), quat(34.5f, 23.23f, 2.0f, 45.5f);
+        ensure("2. The two values are different", ll_round(1435.828807f, 2) == ll_round(dot(quat0, quat), 2));
+    }
+
+    //test case for LLQuaternion &LLQuaternion::constrain(F32 radians) fn.
+    template<> template<>
+    void llquat_test_object_t::test<7>()
+    {
+        F32 radian = 60.0f;
+        LLQuaternion quat(3.0f, 2.0f, 6.0f, 0.0f);
+        LLQuaternion quat1;
+        quat1 = quat.constrain(radian);
+        ensure("1. LLQuaternion::constrain(F32 radians) failed",
+                                    is_approx_equal_fraction(-0.423442f, quat1.mQ[0], 8) &&
+                                    is_approx_equal_fraction(-0.282295f, quat1.mQ[1], 8) &&
+                                    is_approx_equal_fraction(-0.846884f, quat1.mQ[2], 8) &&
+                                    is_approx_equal_fraction(0.154251f, quat1.mQ[3], 8));
+
+
+        radian = 30.0f;
+        LLQuaternion quat0(37.50f, 12.0f, 86.023f, 40.32f);
+        quat1 = quat0.constrain(radian);
+
+        ensure("2. LLQuaternion::constrain(F32 radians) failed",
+                                    is_approx_equal_fraction(37.500000f, quat1.mQ[0], 8) &&
+                                    is_approx_equal_fraction(12.0000f, quat1.mQ[1], 8) &&
+                                    is_approx_equal_fraction(86.0230f, quat1.mQ[2], 8) &&
+                                    is_approx_equal_fraction(40.320000f, quat1.mQ[3], 8));
+    }
+
+    template<> template<>
+    void llquat_test_object_t::test<8>()
+    {
+        F32 value1 = 15.0f;
+        LLQuaternion quat1(1.0f, 2.0f, 4.0f, 1.0f);
+        LLQuaternion quat2(4.0f, 3.0f, 6.5f, 9.7f);
+        LLQuaternion res_lerp, res_slerp, res_nlerp;
+
+        //test case for lerp(F32 t, const LLQuaternion &q) fn.
+        res_lerp = lerp(value1, quat1);
+        ensure("1. LLQuaternion lerp(F32 t, const LLQuaternion &q) failed",
+                                        is_approx_equal_fraction(0.181355f, res_lerp.mQ[0], 16) &&
+                                        is_approx_equal_fraction(0.362711f, res_lerp.mQ[1], 16) &&
+                                        is_approx_equal_fraction(0.725423f, res_lerp.mQ[2], 16) &&
+                                        is_approx_equal_fraction(0.556158f, res_lerp.mQ[3], 16));
+
+        //test case for lerp(F32 t, const LLQuaternion &p, const LLQuaternion &q) fn.
+        res_lerp = lerp(value1, quat1, quat2);
+        ensure("2. LLQuaternion lerp(F32 t, const LLQuaternion &p, const LLQuaternion &q) failed",
+                                        is_approx_equal_fraction(0.314306f, res_lerp.mQ[0], 16) &&
+                                        is_approx_equal_fraction(0.116156f, res_lerp.mQ[1], 16) &&
+                                        is_approx_equal_fraction(0.283559f, res_lerp.mQ[2], 16) &&
+                                        is_approx_equal_fraction(0.898506f, res_lerp.mQ[3], 16));
+
+        //test case for slerp( F32 u, const LLQuaternion &a, const LLQuaternion &b ) fn.
+        res_slerp = slerp(value1, quat1, quat2);
+        ensure("3. LLQuaternion slerp( F32 u, const LLQuaternion &a, const LLQuaternion &b) failed",
+                                        is_approx_equal_fraction(46.000f, res_slerp.mQ[0], 16) &&
+                                        is_approx_equal_fraction(17.00f, res_slerp.mQ[1], 16) &&
+                                        is_approx_equal_fraction(41.5f, res_slerp.mQ[2], 16) &&
+                                        is_approx_equal_fraction(131.5f, res_slerp.mQ[3], 16));
+
+        //test case for nlerp(F32 t, const LLQuaternion &a, const LLQuaternion &b) fn.
+        res_nlerp = nlerp(value1, quat1, quat2);
+        ensure("4. LLQuaternion nlerp(F32 t, const LLQuaternion &a, const LLQuaternion &b) failed",
+                                        is_approx_equal_fraction(0.314306f, res_nlerp.mQ[0], 16) &&
+                                        is_approx_equal_fraction(0.116157f, res_nlerp.mQ[1], 16) &&
+                                        is_approx_equal_fraction(0.283559f, res_nlerp.mQ[2], 16) &&
+                                        is_approx_equal_fraction(0.898506f, res_nlerp.mQ[3], 16));
+
+        //test case for nlerp(F32 t, const LLQuaternion &q) fn.
+        res_slerp = slerp(value1, quat1);
+        ensure("5. LLQuaternion slerp(F32 t, const LLQuaternion &q) failed",
+                                        is_approx_equal_fraction(1.0f, res_slerp.mQ[0], 16) &&
+                                        is_approx_equal_fraction(2.0f, res_slerp.mQ[1], 16) &&
+                                        is_approx_equal_fraction(4.0000f, res_slerp.mQ[2], 16) &&
+                                        is_approx_equal_fraction(1.000f, res_slerp.mQ[3], 16));
+
+        LLQuaternion quat3(2.0f, 1.0f, 5.5f, 10.5f);
+        LLQuaternion res_nlerp1;
+        value1 = 100.0f;
+        res_nlerp1 = nlerp(value1, quat3);
+        ensure("6. LLQuaternion nlerp(F32 t, const LLQuaternion &q)  failed",
+                                        is_approx_equal_fraction(0.268245f, res_nlerp1.mQ[0], 16) &&                                        is_approx_equal_fraction(0.134122f, res_nlerp1.mQ[1], 2) &&
+                                        is_approx_equal_fraction(0.737673f, res_nlerp1.mQ[2], 16) &&
+                                        is_approx_equal_fraction(0.604892f, res_nlerp1.mQ[3], 16));
+
+        //test case for lerp(F32 t, const LLQuaternion &q) fn.
+        res_lerp = lerp(value1, quat2);
+        ensure("7. LLQuaternion lerp(F32 t, const LLQuaternion &q) failed",
+                                        is_approx_equal_fraction(0.404867f, res_lerp.mQ[0], 16) &&
+                                        is_approx_equal_fraction(0.303650f, res_lerp.mQ[1], 16) &&
+                                        is_approx_equal_fraction(0.657909f, res_lerp.mQ[2], 16) &&
+                                        is_approx_equal_fraction(0.557704f, res_lerp.mQ[3], 16));
+
+    }
+
+    template<> template<>
+    void llquat_test_object_t::test<9>()
+    {
+        //test case for LLQuaternion operator*(const LLQuaternion &a, const LLQuaternion &b) fn
+        LLQuaternion quat1(1.0f, 2.5f, 3.5f, 5.5f);
+        LLQuaternion quat2(4.0f, 3.0f, 5.0f, 1.0f);
+        LLQuaternion result = quat1 *  quat2;
+        ensure("1. LLQuaternion Operator* failed", (21.0f == result.mQ[0]) &&
+                                            (10.0f == result.mQ[1]) &&
+                                            (38.0f == result.mQ[2]) &&
+                                            (-23.5f == result.mQ[3]));
+
+        LLQuaternion quat3(2341.340f, 2352.345f, 233.25f, 7645.5f);
+        LLQuaternion quat4(674.067f, 893.0897f, 578.0f, 231.0f);
+        result = quat3 * quat4;
+        ensure("2. LLQuaternion Operator* failed", (4543086.5f == result.mQ[0]) &&
+                                            (8567578.0f == result.mQ[1]) &&
+                                            (3967591.25f == result.mQ[2]) &&
+                                            is_approx_equal(-2047783.25f, result.mQ[3]));
+
+        //inline LLQuaternion operator+(const LLQuaternion &a, const LLQuaternion &b)fn.
+        result = quat1 + quat2;
+        ensure("3. LLQuaternion operator+ failed", (5.0f == result.mQ[0]) &&
+                                            (5.5f == result.mQ[1]) &&
+                                            (8.5f == result.mQ[2]) &&
+                                            (6.5f == result.mQ[3]));
+
+        result = quat3 + quat4;
+        ensure(
+            "4. LLQuaternion operator+ failed",
+            is_approx_equal(3015.407227f, result.mQ[0]) &&
+            is_approx_equal(3245.434570f, result.mQ[1]) &&
+            (811.25f == result.mQ[2]) &&
+            (7876.5f == result.mQ[3]));
+
+        //inline LLQuaternion operator-(const LLQuaternion &a, const LLQuaternion &b) fn
+        result = quat1 - quat2;
+        ensure(
+            "5. LLQuaternion operator-(const LLQuaternion &a, const LLQuaternion &b) failed",
+            (-3.0f == result.mQ[0]) &&
+            (-0.5f == result.mQ[1]) &&
+            (-1.5f == result.mQ[2]) &&
+            (4.5f == result.mQ[3]));
+
+        result = quat3 - quat4;
+        ensure(
+            "6. LLQuaternion operator-(const LLQuaternion &a, const LLQuaternion &b) failed",
+            is_approx_equal(1667.273071f, result.mQ[0]) &&
+            is_approx_equal(1459.255249f, result.mQ[1]) &&
+            (-344.75f == result.mQ[2]) &&
+            (7414.50f == result.mQ[3]));
+    }
+
+    //test case for LLVector4 operator*(const LLVector4 &a, const LLQuaternion &rot) fn.
+    template<> template<>
+    void llquat_test_object_t::test<10>()
+    {
+        LLVector4 vect(12.0f, 5.0f, 60.0f, 75.1f);
+        LLQuaternion quat(2323.034f, 23.5f, 673.23f, 57667.5f);
+        LLVector4 result = vect * quat;
+        ensure(
+            "1. LLVector4 operator*(const LLVector4 &a, const LLQuaternion &rot) failed",
+            is_approx_equal(39928406016.0f, result.mV[0]) &&
+            // gcc on x86 actually gives us more precision than we were expecting, verified with -ffloat-store - we forgive this
+            (1457802240.0f >= result.mV[1]) && // gcc+x86+linux
+            (1457800960.0f <= result.mV[1]) && // elsewhere
+            is_approx_equal(200580612096.0f, result.mV[2]) &&
+            (75.099998f == result.mV[3]));
+
+        LLVector4 vect1(22.0f, 45.0f, 40.0f, 78.1f);
+        LLQuaternion quat1(2.034f, 45.5f, 37.23f, 7.5f);
+        result = vect1 * quat1;
+        ensure(
+            "2. LLVector4 operator*(const LLVector4 &a, const LLQuaternion &rot) failed",
+            is_approx_equal(-58153.5390f, result.mV[0]) &&
+            (183787.8125f == result.mV[1]) &&
+            (116864.164063f == result.mV[2]) &&
+            (78.099998f == result.mV[3]));
+    }
+
+    //test case for LLVector3 operator*(const LLVector3 &a, const LLQuaternion &rot) fn.
+    template<> template<>
+    void llquat_test_object_t::test<11>()
+    {
+        LLVector3 vect(12.0f, 5.0f, 60.0f);
+        LLQuaternion quat(23.5f, 6.5f, 3.23f, 56.5f);
+        LLVector3 result = vect * quat;
+        ensure(
+            "1. LLVector3 operator*(const LLVector3 &a, const LLQuaternion &rot) failed",
+            is_approx_equal(97182.953125f,result.mV[0]) &&
+            is_approx_equal(-135405.640625f, result.mV[1]) &&
+            is_approx_equal(162986.140f, result.mV[2]));
+
+        LLVector3 vect1(5.0f, 40.0f, 78.1f);
+        LLQuaternion quat1(2.034f, 45.5f, 37.23f, 7.5f);
+        result = vect1 * quat1;
+        ensure(
+            "2. LLVector3 operator*(const LLVector3 &a, const LLQuaternion &rot) failed",
+            is_approx_equal(33217.703f, result.mV[0]) &&
+            is_approx_equal(295383.8125f, result.mV[1]) &&
+            is_approx_equal(84718.140f, result.mV[2]));
+    }
+
+    //test case for LLVector3d operator*(const LLVector3d &a, const LLQuaternion &rot) fn.
+    template<> template<>
+    void llquat_test_object_t::test<12>()
+    {
+        LLVector3d vect(-2.0f, 5.0f, -6.0f);
+        LLQuaternion quat(-3.5f, 4.5f, 3.5f, 6.5f);
+        LLVector3d result = vect * quat;
+        ensure(
+            "1. LLVector3d operator*(const LLVector3d &a, const LLQuaternion &rot) failed ",
+            (-633.0f == result.mdV[0]) &&
+            (-300.0f == result.mdV[1]) &&
+            (-36.0f == result.mdV[2]));
+
+        LLVector3d vect1(5.0f, -4.5f, 8.21f);
+        LLQuaternion quat1(2.0f, 4.5f, -7.2f, 9.5f);
+        result = vect1 * quat1;
+        ensure(
+            "2. LLVector3d operator*(const LLVector3d &a, const LLQuaternion &rot) failed",
+            is_approx_equal_fraction(-120.29f, (F32) result.mdV[0], 8) &&
+            is_approx_equal_fraction(-1683.958f, (F32) result.mdV[1], 8) &&
+            is_approx_equal_fraction(516.56f, (F32) result.mdV[2], 8));
+
+        LLVector3d vect2(2.0f, 3.5f, 1.1f);
+        LLQuaternion quat2(1.0f, 4.0f, 2.0f, 5.0f);
+        result = vect2 * quat2;
+        ensure(
+            "3. LLVector3d operator*(const LLVector3d &a, const LLQuaternion &rot) failed",
+            is_approx_equal_fraction(18.400001f, (F32) result.mdV[0], 8) &&
+            is_approx_equal_fraction(188.6f, (F32) result.mdV[1], 8) &&
+            is_approx_equal_fraction(32.20f, (F32) result.mdV[2], 8));
+    }
+
+    //test case for inline LLQuaternion operator-(const LLQuaternion &a) fn.
+    template<> template<>
+    void llquat_test_object_t::test<13>()
+    {
+        LLQuaternion quat(23.5f, 34.5f, 16723.4f, 324.7f);
+        LLQuaternion result = -quat;
+        ensure(
+            "1. LLQuaternion operator-(const LLQuaternion &a) failed",
+            (-23.5f == result.mQ[0]) &&
+            (-34.5f == result.mQ[1]) &&
+            (-16723.4f == result.mQ[2]) &&
+            (-324.7f == result.mQ[3]));
+
+        LLQuaternion quat1(-3.5f, -34.5f, -16.4f, -154.7f);
+        result = -quat1;
+        ensure(
+            "2. LLQuaternion operator-(const LLQuaternion &a) failed.",
+            (3.5f == result.mQ[0]) &&
+            (34.5f == result.mQ[1]) &&
+            (16.4f == result.mQ[2]) &&
+            (154.7f == result.mQ[3]));
+    }
+
+    //test case for inline LLQuaternion operator*(F32 a, const LLQuaternion &q) and
+    //inline LLQuaternion operator*(F32 a, const LLQuaternion &q) fns.
+    template<> template<>
+    void llquat_test_object_t::test<14>()
+    {
+        LLQuaternion quat_value(9.0f, 8.0f, 7.0f, 6.0f);
+        F32 a =3.5f;
+        LLQuaternion result = a * quat_value;
+        LLQuaternion result1 = quat_value * a;
+
+        ensure(
+            "1. LLQuaternion operator* failed",
+            (result.mQ[0] == result1.mQ[0]) &&
+            (result.mQ[1] == result1.mQ[1]) &&
+            (result.mQ[2] == result1.mQ[2]) &&
+            (result.mQ[3] == result1.mQ[3]));
+
+
+        LLQuaternion quat_val(9454.0f, 43568.3450f, 456343247.0343f, 2346.03434f);
+        a =-3324.3445f;
+        result = a * quat_val;
+        result1 = quat_val * a;
+
+        ensure(
+            "2. LLQuaternion operator* failed",
+            (result.mQ[0] == result1.mQ[0]) &&
+            (result.mQ[1] == result1.mQ[1]) &&
+            (result.mQ[2] == result1.mQ[2]) &&
+            (result.mQ[3] == result1.mQ[3]));
+    }
+
+    template<> template<>
+    void llquat_test_object_t::test<15>()
+    {
+        // test cases for inline LLQuaternion operator~(const LLQuaternion &a)
+        LLQuaternion quat_val(2323.634f, -43535.4f, 3455.88f, -32232.45f);
+        LLQuaternion result = ~quat_val;
+        ensure(
+            "1. LLQuaternion operator~(const LLQuaternion &a) failed ",
+            (-2323.634f == result.mQ[0]) &&
+            (43535.4f == result.mQ[1]) &&
+            (-3455.88f == result.mQ[2]) &&
+            (-32232.45f == result.mQ[3]));
+
+        //test case for inline bool LLQuaternion::operator==(const LLQuaternion &b) const
+        LLQuaternion quat_val1(2323.634f, -43535.4f, 3455.88f, -32232.45f);
+        LLQuaternion quat_val2(2323.634f, -43535.4f, 3455.88f, -32232.45f);
+        ensure(
+            "2. LLQuaternion::operator==(const LLQuaternion &b) failed",
+            quat_val1 == quat_val2);
+    }
+
+    template<> template<>
+    void llquat_test_object_t::test<16>()
+    {
+        //test case for inline bool LLQuaternion::operator!=(const LLQuaternion &b) const
+        LLQuaternion quat_val1(2323.634f, -43535.4f, 3455.88f, -32232.45f);
+        LLQuaternion quat_val2(0, -43535.4f, 3455.88f, -32232.45f);
+        ensure("LLQuaternion::operator!=(const LLQuaternion &b) failed", quat_val1 != quat_val2);
+    }
+
+    template<> template<>
+    void llquat_test_object_t::test<17>()
+    {
+        //test case for LLQuaternion mayaQ(F32 xRot, F32 yRot, F32 zRot, LLQuaternion::Order order)
+        F32 x = 2.0f;
+        F32 y = 1.0f;
+        F32 z = 3.0f;
+
+        LLQuaternion result = mayaQ(x, y, z, LLQuaternion::XYZ);
+        ensure(
+            "1. LLQuaternion mayaQ(F32 xRot, F32 yRot, F32 zRot, LLQuaternion::Order order) failed for XYZ",
+            is_approx_equal_fraction(0.0172174f, result.mQ[0], 16) &&
+            is_approx_equal_fraction(0.009179f, result.mQ[1], 16) &&
+            is_approx_equal_fraction(0.026020f, result.mQ[2], 16) &&
+            is_approx_equal_fraction(0.999471f, result.mQ[3], 16));
+
+        LLQuaternion result1 = mayaQ(x, y, z, LLQuaternion::YZX);
+        ensure(
+            "2. LLQuaternion mayaQ(F32 xRot, F32 yRot, F32 zRot, LLQuaternion::Order order) failed for XYZ",
+            is_approx_equal_fraction(0.017217f, result1.mQ[0], 16) &&
+            is_approx_equal_fraction(0.008265f, result1.mQ[1], 16) &&
+            is_approx_equal_fraction(0.026324f, result1.mQ[2], 16) &&
+            is_approx_equal_fraction(0.999471f, result1.mQ[3], 16));
+
+        LLQuaternion result2 = mayaQ(x, y, z, LLQuaternion::ZXY);
+        ensure(
+            "3. LLQuaternion mayaQ(F32 xRot, F32 yRot, F32 zRot, LLQuaternion::Order order) failed for ZXY",
+            is_approx_equal_fraction(0.017674f, result2.mQ[0], 16) &&
+            is_approx_equal_fraction(0.008265f, result2.mQ[1], 16) &&
+            is_approx_equal_fraction(0.026020f, result2.mQ[2], 16) &&
+            is_approx_equal_fraction(0.999471f, result2.mQ[3], 16));
+
+        LLQuaternion result3 = mayaQ(x, y, z, LLQuaternion::XZY);
+        ensure(
+            "4. TLLQuaternion mayaQ(F32 xRot, F32 yRot, F32 zRot, LLQuaternion::Order order) failed for XZY",
+            is_approx_equal_fraction(0.017674f, result3.mQ[0], 16) &&
+            is_approx_equal_fraction(0.009179f, result3.mQ[1], 16) &&
+            is_approx_equal_fraction(0.026020f, result3.mQ[2], 16) &&
+            is_approx_equal_fraction(0.999463f, result3.mQ[3], 16));
+
+        LLQuaternion result4 = mayaQ(x, y, z, LLQuaternion::YXZ);
+        ensure(
+            "5. LLQuaternion mayaQ(F32 xRot, F32 yRot, F32 zRot, LLQuaternion::Order order) failed for YXZ",
+            is_approx_equal_fraction(0.017217f, result4.mQ[0], 16) &&
+            is_approx_equal_fraction(0.009179f, result4.mQ[1], 16) &&
+            is_approx_equal_fraction(0.026324f, result4.mQ[2], 16) &&
+            is_approx_equal_fraction(0.999463f, result4.mQ[3], 16));
+
+        LLQuaternion result5 = mayaQ(x, y, z, LLQuaternion::ZYX);
+        ensure(
+            "6. LLQuaternion mayaQ(F32 xRot, F32 yRot, F32 zRot, LLQuaternion::Order order) failed for ZYX",
+            is_approx_equal_fraction(0.017674f, result5.mQ[0], 16) &&
+            is_approx_equal_fraction(0.008265f, result5.mQ[1], 16) &&
+            is_approx_equal_fraction(0.026324f, result5.mQ[2], 16) &&
+            is_approx_equal_fraction(0.999463f, result5.mQ[3], 16));
+    }
+
+    template<> template<>
+    void llquat_test_object_t::test<18>()
+    {
+        // test case for friend std::ostream& operator<<(std::ostream &s, const LLQuaternion &a) fn
+        LLQuaternion a(1.0f, 1.0f, 1.0f, 1.0f);
+        std::ostringstream result_value;
+        result_value << a;
+        ensure_equals("1. Operator << failed", result_value.str(), "{ 1, 1, 1, 1 }");
+
+        LLQuaternion b(-31.034f, 231.2340f, 3451.344320f, -341.0f);
+        std::ostringstream result_value1;
+        result_value1 << b;
+        ensure_equals("2. Operator << failed", result_value1.str(), "{ -31.034, 231.234, 3451.34, -341 }");
+
+        LLQuaternion c(1.0f, 2.2f, 3.3f, 4.4f);
+        result_value << c;
+        ensure_equals("3. Operator << failed", result_value.str(), "{ 1, 1, 1, 1 }{ 1, 2.2, 3.3, 4.4 }");
+
+    }
+
+    template<> template<>
+    void llquat_test_object_t::test<19>()
+    {
+        //test case for const char *OrderToString( const LLQuaternion::Order order ) fn
+        const char* result = OrderToString(LLQuaternion::XYZ);
+        ensure("1. OrderToString failed for XYZ",  (0 == strcmp("XYZ", result)));
+
+        result = OrderToString(LLQuaternion::YZX);
+        ensure("2. OrderToString failed for YZX",  (0 == strcmp("YZX", result)));
+
+        result = OrderToString(LLQuaternion::ZXY);
+        ensure(
+            "3. OrderToString failed for ZXY",
+            (0 == strcmp("ZXY", result)) &&
+            (0 != strcmp("XYZ", result)) &&
+            (0 != strcmp("YXZ", result)) &&
+            (0 != strcmp("ZYX", result)) &&
+            (0 != strcmp("XYZ", result)));
+
+        result = OrderToString(LLQuaternion::XZY);
+        ensure("4. OrderToString failed for XZY",  (0 == strcmp("XZY", result)));
+
+        result = OrderToString(LLQuaternion::ZYX);
+        ensure("5. OrderToString failed for ZYX",  (0 == strcmp("ZYX", result)));
+
+        result = OrderToString(LLQuaternion::YXZ);
+        ensure("6.OrderToString failed for YXZ",  (0 == strcmp("YXZ", result)));
+    }
+
+    template<> template<>
+    void llquat_test_object_t::test<20>()
+    {
+        //test case for LLQuaternion::Order StringToOrder( const char *str ) fn
+        int result = StringToOrder("XYZ");
+        ensure("1. LLQuaternion::Order StringToOrder(const char *str ) failed for XYZ", 0 == result);
+
+        result = StringToOrder("YZX");
+        ensure("2. LLQuaternion::Order StringToOrder(const char *str) failed for YZX", 1 == result);
+
+        result = StringToOrder("ZXY");
+        ensure("3. LLQuaternion::Order StringToOrder(const char *str) failed for ZXY", 2 == result);
+
+        result = StringToOrder("XZY");
+        ensure("4. LLQuaternion::Order StringToOrder(const char *str) failed for XZY", 3 == result);
+
+        result = StringToOrder("YXZ");
+        ensure("5. LLQuaternion::Order StringToOrder(const char *str) failed for YXZ", 4 == result);
+
+        result = StringToOrder("ZYX");
+        ensure("6. LLQuaternion::Order StringToOrder(const char *str) failed for  ZYX", 5 == result);
+
+    }
+
+    template<> template<>
+    void llquat_test_object_t::test<21>()
+    {
+        //void LLQuaternion::getAngleAxis(F32* angle, LLVector3 &vec) const fn
+        F32 angle_value = 90.0f;
+        LLVector3 vect(12.0f, 4.0f, 1.0f);
+        LLQuaternion llquat(angle_value, vect);
+        llquat.getAngleAxis(&angle_value, vect);
+        ensure(
+            "LLQuaternion::getAngleAxis(F32* angle, LLVector3 &vec) failed",
+            is_approx_equal_fraction(2.035406f, angle_value, 16) &&
+            is_approx_equal_fraction(0.315244f, vect.mV[1], 16) &&
+            is_approx_equal_fraction(0.078811f, vect.mV[2], 16) &&
+            is_approx_equal_fraction(0.945733f, vect.mV[0], 16));
+    }
+
+    template<> template<>
+    void llquat_test_object_t::test<22>()
+    {
+        //test case for void LLQuaternion::getEulerAngles(F32 *roll, F32 *pitch, F32 *yaw) const fn
+        F32 roll = -12.0f;
+        F32 pitch = -22.43f;
+        F32 yaw = 11.0f;
+
+        LLQuaternion llquat;
+        llquat.getEulerAngles(&roll, &pitch, &yaw);
+        ensure(
+            "LLQuaternion::getEulerAngles(F32 *roll, F32 *pitch, F32 *yaw) failed",
+            is_approx_equal(0.000f, llquat.mQ[0]) &&
+            is_approx_equal(0.000f, llquat.mQ[1]) &&
+            is_approx_equal(0.000f, llquat.mQ[2]) &&
+            is_approx_equal(1.000f, llquat.mQ[3]));
+    }
 
 }
diff --git a/indra/llmath/tests/llrect_test.cpp b/indra/llmath/tests/llrect_test.cpp
index d740173e69..ca042a60d7 100644
--- a/indra/llmath/tests/llrect_test.cpp
+++ b/indra/llmath/tests/llrect_test.cpp
@@ -3,25 +3,25 @@
  * @author Martin Reddy
  * @date   2009-06-25
  * @brief  Test for llrect.cpp.
- * 
+ *
  * $LicenseInfo:firstyear=2009&license=viewerlgpl$
  * Second Life Viewer Source Code
  * Copyright (C) 2010, Linden Research, Inc.
- * 
+ *
  * This library is free software; you can redistribute it and/or
  * modify it under the terms of the GNU Lesser General Public
  * License as published by the Free Software Foundation;
  * version 2.1 of the License only.
- * 
+ *
  * This library is distributed in the hope that it will be useful,
  * but WITHOUT ANY WARRANTY; without even the implied warranty of
  * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the GNU
  * Lesser General Public License for more details.
- * 
+ *
  * You should have received a copy of the GNU Lesser General Public
  * License along with this library; if not, write to the Free Software
  * Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA  02110-1301  USA
- * 
+ *
  * Linden Research, Inc., 945 Battery Street, San Francisco, CA  94111  USA
  * $/LicenseInfo$
  */
@@ -32,495 +32,495 @@
 
 namespace tut
 {
-	struct LLRectData
-	{
-	};
+    struct LLRectData
+    {
+    };
 
-	typedef test_group<LLRectData> factory;
-	typedef factory::object object;
+    typedef test_group<LLRectData> factory;
+    typedef factory::object object;
 }
 
 namespace
 {
-	tut::factory llrect_test_factory("LLRect");
+    tut::factory llrect_test_factory("LLRect");
 }
 
 namespace tut
 {
-	template<> template<>
-	void object::test<1>()
-	{	
-		//
-		// test the LLRect default constructor
-		//
-		
-		LLSD zero;
-		zero.append(0);	zero.append(0); zero.append(0); zero.append(0);
-		
-		// default constructor
-		LLRect rect1;
-		ensure_equals("Empty rect", rect1.getValue(), zero);
-		ensure_equals("Empty rect left", rect1.mLeft, 0);
-		ensure_equals("Empty rect top", rect1.mTop, 0);
-		ensure_equals("Empty rect right", rect1.mRight, 0);
-		ensure_equals("Empty rect bottom", rect1.mBottom, 0);
-		ensure_equals("Empty rect width", rect1.getWidth(), 0);
-		ensure_equals("Empty rect height", rect1.getHeight(), 0);
-		ensure_equals("Empty rect centerx", rect1.getCenterX(), 0);
-		ensure_equals("Empty rect centery", rect1.getCenterY(), 0);
-	}
-	
-	template<> template<>
-	void object::test<2>()
-	{	
-		//
-		// test the LLRectf default constructor
-		//
-		
-		LLSD zerof;
-		zerof.append(0.0f); zerof.append(0.0f); zerof.append(0.0f); zerof.append(0.0f);
-
-		LLRectf rect2;
-		ensure_equals("Empty rectf", rect2.getValue(), zerof);
-		ensure_equals("Empty rectf left", rect2.mLeft, 0.0f);
-		ensure_equals("Empty rectf top", rect2.mTop, 0.0f);
-		ensure_equals("Empty rectf right", rect2.mRight, 0.0f);
-		ensure_equals("Empty rectf bottom", rect2.mBottom, 0.0f);
-		ensure_equals("Empty rectf width", rect2.getWidth(), 0.0f);
-		ensure_equals("Empty rectf height", rect2.getHeight(), 0.0f);
-		ensure_equals("Empty rectf centerx", rect2.getCenterX(), 0.0f);
-		ensure_equals("Empty rectf centery", rect2.getCenterY(), 0.0f);
-	}
-
-	template<> template<>
-	void object::test<3>()
-	{	
-		//
-		// test the LLRect constructor from another LLRect
-		//	
-		
-		LLRect rect3(LLRect(1, 6, 7, 2));
-		ensure_equals("Default rect left", rect3.mLeft, 1);
-		ensure_equals("Default rect top", rect3.mTop, 6);
-		ensure_equals("Default rect right", rect3.mRight, 7);
-		ensure_equals("Default rect bottom", rect3.mBottom, 2);
-		ensure_equals("Default rect width", rect3.getWidth(), 6);
-		ensure_equals("Default rect height", rect3.getHeight(), 4);
-		ensure_equals("Default rect centerx", rect3.getCenterX(), 4);
-		ensure_equals("Default rect centery", rect3.getCenterY(), 4);
-	}
-
-	template<> template<>
-	void object::test<4>()
-	{	
-		//
-		// test the LLRectf four-float constructor
-		//	
-		
-		LLRectf rect4(1.0f, 5.0f, 6.0f, 2.0f);
-		ensure_equals("Default rectf left", rect4.mLeft, 1.0f);
-		ensure_equals("Default rectf top", rect4.mTop, 5.0f);
-		ensure_equals("Default rectf right", rect4.mRight, 6.0f);
-		ensure_equals("Default rectf bottom", rect4.mBottom, 2.0f);
-		ensure_equals("Default rectf width", rect4.getWidth(), 5.0f);
-		ensure_equals("Default rectf height", rect4.getHeight(), 3.0f);
-		ensure_equals("Default rectf centerx", rect4.getCenterX(), 3.5f);
-		ensure_equals("Default rectf centery", rect4.getCenterY(), 3.5f);
-	}
-
-	template<> template<>
-	void object::test<5>()
-	{	
-		//
-		// test the LLRectf LLSD constructor
-		//
-
-		LLSD array;
-		array.append(-1.0f); array.append(0.0f); array.append(0.0f); array.append(-1.0f);
-		LLRectf rect5(array);
-		ensure_equals("LLSD rectf left", rect5.mLeft, -1.0f);
-		ensure_equals("LLSD rectf top", rect5.mTop, 0.0f);
-		ensure_equals("LLSD rectf right", rect5.mRight, 0.0f);
-		ensure_equals("LLSD rectf bottom", rect5.mBottom, -1.0f);
-		ensure_equals("LLSD rectf width", rect5.getWidth(), 1.0f);
-		ensure_equals("LLSD rectf height", rect5.getHeight(), 1.0f);
-		ensure_equals("LLSD rectf centerx", rect5.getCenterX(), -0.5f);
-		ensure_equals("LLSD rectf centery", rect5.getCenterY(), -0.5f);		
-	}
-	
-	template<> template<>
-	void object::test<6>()
-	{	
-		//
-		// test directly setting the member variables for dimensions
-		//
-		
-		LLRectf rectf;
-
-		rectf.mLeft = -1.0f;
-		rectf.mTop = 1.0f;
-		rectf.mRight = 1.0f;
-		rectf.mBottom = -1.0f;
-		ensure_equals("Member-set rectf left", rectf.mLeft, -1.0f);
-		ensure_equals("Member-set rectf top", rectf.mTop, 1.0f);
-		ensure_equals("Member-set rectf right", rectf.mRight, 1.0f);
-		ensure_equals("Member-set rectf bottom", rectf.mBottom, -1.0f);
-		ensure_equals("Member-set rectf width", rectf.getWidth(), 2.0f);
-		ensure_equals("Member-set rectf height", rectf.getHeight(), 2.0f);
-		ensure_equals("Member-set rectf centerx", rectf.getCenterX(), 0.0f);
-		ensure_equals("Member-set rectf centery", rectf.getCenterY(), 0.0f);
-	}
-		
-	template<> template<>
-	void object::test<7>()
-	{	
-		//
-		// test the setValue() method
-		//
-			
-		LLRectf rectf;
-		
-		LLSD array;
-		array.append(-1.0f); array.append(0.0f); array.append(0.0f); array.append(-1.0f);
-		rectf.setValue(array);
-		ensure_equals("setValue() rectf left", rectf.mLeft, -1.0f);
-		ensure_equals("setValue() rectf top", rectf.mTop, 0.0f);
-		ensure_equals("setValue() rectf right", rectf.mRight, 0.0f);
-		ensure_equals("setValue() rectf bottom", rectf.mBottom, -1.0f);
-		ensure_equals("setValue() rectf width", rectf.getWidth(), 1.0f);
-		ensure_equals("setValue() rectf height", rectf.getHeight(), 1.0f);
-		ensure_equals("setValue() rectf centerx", rectf.getCenterX(), -0.5f);
-		ensure_equals("setValue() rectf centery", rectf.getCenterY(), -0.5f);
-	}
-		
-	template<> template<>
-	void object::test<8>()
-	{	
-		//
-		// test the set() method
-		//
-		
-		LLRect rect;
-		
-		rect.set(10, 90, 70, 10);
-		ensure_equals("set() rectf left", rect.mLeft, 10);
-		ensure_equals("set() rectf top", rect.mTop, 90);
-		ensure_equals("set() rectf right", rect.mRight, 70);
-		ensure_equals("set() rectf bottom", rect.mBottom, 10);
-		ensure_equals("set() rectf width", rect.getWidth(), 60);
-		ensure_equals("set() rectf height", rect.getHeight(), 80);
-		ensure_equals("set() rectf centerx", rect.getCenterX(), 40);
-		ensure_equals("set() rectf centery", rect.getCenterY(), 50);
-	}
-
-	template<> template<>
-	void object::test<9>()
-	{	
-		//
-		// test the setOriginAndSize() method
-		//
-		
-		LLRectf rectf;
-		
-		rectf.setOriginAndSize(0.0f, 0.0f, 2.0f, 1.0f);
-		ensure_equals("setOriginAndSize() rectf left", rectf.mLeft, 0.0f);
-		ensure_equals("setOriginAndSize() rectf top", rectf.mTop, 1.0f);
-		ensure_equals("setOriginAndSize() rectf right", rectf.mRight, 2.0f);
-		ensure_equals("setOriginAndSize() rectf bottom", rectf.mBottom, 0.0f);
-		ensure_equals("setOriginAndSize() rectf width", rectf.getWidth(), 2.0f);
-		ensure_equals("setOriginAndSize() rectf height", rectf.getHeight(), 1.0f);
-		ensure_equals("setOriginAndSize() rectf centerx", rectf.getCenterX(), 1.0f);
-		ensure_equals("setOriginAndSize() rectf centery", rectf.getCenterY(), 0.5f);	
-	}
-	
-	template<> template<>
-	void object::test<10>()
-	{	
-		//
-		// test the setLeftTopAndSize() method
-		//
-		
-		LLRectf rectf;
-
-		rectf.setLeftTopAndSize(0.0f, 0.0f, 2.0f, 1.0f);
-		ensure_equals("setLeftTopAndSize() rectf left", rectf.mLeft, 0.0f);
-		ensure_equals("setLeftTopAndSize() rectf top", rectf.mTop, 0.0f);
-		ensure_equals("setLeftTopAndSize() rectf right", rectf.mRight, 2.0f);
-		ensure_equals("setLeftTopAndSize() rectf bottom", rectf.mBottom, -1.0f);
-		ensure_equals("setLeftTopAndSize() rectf width", rectf.getWidth(), 2.0f);
-		ensure_equals("setLeftTopAndSize() rectf height", rectf.getHeight(), 1.0f);
-		ensure_equals("setLeftTopAndSize() rectf centerx", rectf.getCenterX(), 1.0f);
-		ensure_equals("setLeftTopAndSize() rectf centery", rectf.getCenterY(), -0.5f);
-	}
-
-	template<> template<>
-	void object::test<11>()
-	{	
-		//
-		// test the setCenterAndSize() method
-		//
-		
-		LLRectf rectf;
-		
-		rectf.setCenterAndSize(0.0f, 0.0f, 2.0f, 1.0f);
-		ensure_equals("setCenterAndSize() rectf left", rectf.mLeft, -1.0f);
-		ensure_equals("setCenterAndSize() rectf top", rectf.mTop, 0.5f);
-		ensure_equals("setCenterAndSize() rectf right", rectf.mRight, 1.0f);
-		ensure_equals("setCenterAndSize() rectf bottom", rectf.mBottom, -0.5f);
-		ensure_equals("setCenterAndSize() rectf width", rectf.getWidth(), 2.0f);
-		ensure_equals("setCenterAndSize() rectf height", rectf.getHeight(), 1.0f);
-		ensure_equals("setCenterAndSize() rectf centerx", rectf.getCenterX(), 0.0f);
-		ensure_equals("setCenterAndSize() rectf centery", rectf.getCenterY(), 0.0f);
-	}
-
-	template<> template<>
-	void object::test<12>()
-	{	
-		//
-		// test the validity checking method
-		//
-		
-		LLRectf rectf;
-
-		rectf.set(-1.0f, 1.0f, 1.0f, -1.0f);
-		ensure("BBox is valid", rectf.isValid());
-
-		rectf.mLeft = 2.0f;
-		ensure("BBox is not valid", ! rectf.isValid());
-
-		rectf.makeValid();
-		ensure("BBox forced valid", rectf.isValid());
-
-		rectf.set(-1.0f, -1.0f, -1.0f, -1.0f);
-		ensure("BBox(0,0,0,0) is valid", rectf.isValid());
-	}
-
-	template<> template<>
-	void object::test<13>()
-	{	
-		//
-		// test the null checking methods
-		//
-		
-		LLRectf rectf;
-		
-		rectf.set(-1.0f, 1.0f, 1.0f, -1.0f);
-		ensure("BBox is not Null", ! rectf.isEmpty());
-		ensure("BBox notNull", rectf.notEmpty());
-		
-		rectf.mLeft = 2.0f;
-		rectf.makeValid();
-		ensure("BBox is now Null", rectf.isEmpty());
-		
-		rectf.set(-1.0f, -1.0f, -1.0f, -1.0f);
-		ensure("BBox(0,0,0,0) is Null", rectf.isEmpty());
-	}
-		
-	template<> template<>
-	void object::test<14>()
-	{	
-		//
-		// test the (in)equality operators
-		//
-		
-		LLRectf rect1, rect2;
-
-		rect1.set(-1.0f, 1.0f, 1.0f, -1.0f);
-		rect2.set(-1.0f, 0.9f, 1.0f, -1.0f);
-
-		ensure("rect1 == rect2 (false)", ! (rect1 == rect2));
-		ensure("rect1 != rect2 (true)", rect1 != rect2);
-
-		ensure("rect1 == rect1 (true)", rect1 == rect1);
-		ensure("rect1 != rect1 (false)", ! (rect1 != rect1));
-	}
-	
-	template<> template<>
-	void object::test<15>()
-	{	
-		//
-		// test the copy constructor
-		//
-		
-		LLRectf rect1, rect2(rect1);
-
-		ensure("rect1 == rect2 (true)", rect1 == rect2);
-		ensure("rect1 != rect2 (false)", ! (rect1 != rect2));
-	}
-
-	template<> template<>
-	void object::test<16>()
-	{	
-		//
-		// test the translate() method
-		//
-		
-		LLRectf rect1(-1.0f, 1.0f, 1.0f, -1.0f);
-		LLRectf rect2(rect1);
-
-		rect1.translate(0.0f, 0.0f);
-
-		ensure("translate(0, 0)", rect1 == rect2);
-
-		rect1.translate(100.0f, 100.0f);
-		rect1.translate(-100.0f, -100.0f);
-
-		ensure("translate(100, 100) + translate(-100, -100)", rect1 == rect2);
-
-		rect1.translate(10.0f, 0.0f);
-		rect2.set(9.0f, 1.0f, 11.0f, -1.0f);
-		ensure("translate(10, 0)", rect1 == rect2);
-
-		rect1.translate(0.0f, 10.0f);
-		rect2.set(9.0f, 11.0f, 11.0f, 9.0f);
-		ensure("translate(0, 10)", rect1 == rect2);
-
-		rect1.translate(-10.0f, -10.0f);
-		rect2.set(-1.0f, 1.0f, 1.0f, -1.0f);
-		ensure("translate(-10, -10)", rect1 == rect2);
-	}
-
-	template<> template<>
-	void object::test<17>()
-	{	
-		//
-		// test the stretch() method
-		//
-		
-		LLRectf rect1(-1.0f, 1.0f, 1.0f, -1.0f);
-		LLRectf rect2(rect1);
-		
-		rect1.stretch(0.0f);
-		ensure("stretch(0)", rect1 == rect2);
-		
-		rect1.stretch(0.0f, 0.0f);
-		ensure("stretch(0, 0)", rect1 == rect2);
-		
-		rect1.stretch(10.0f);
-		rect1.stretch(-10.0f);
-		ensure("stretch(10) + stretch(-10)", rect1 == rect2);
-		
-		rect1.stretch(2.0f, 1.0f);
-		rect2.set(-3.0f, 2.0f, 3.0f, -2.0f);
-		ensure("stretch(2, 1)", rect1 == rect2);
-	}
-	
-	
-	template<> template<>
-	void object::test<18>()
-	{	
-		//
-		// test the unionWith() method
-		//
-		
-		LLRectf rect1, rect2, rect3;
-
-		rect1.set(-1.0f, 1.0f, 1.0f, -1.0f);
-		rect2.set(-1.0f, 1.0f, 1.0f, -1.0f);
-		rect3 = rect1;
-		rect3.unionWith(rect2);
-		ensure_equals("union with self", rect3, rect1);
-
-		rect1.set(-1.0f, 1.0f, 1.0f, -1.0f);
-		rect2.set(-2.0f, 2.0f, 0.0f, 0.0f);
-		rect3 = rect1;
-		rect3.unionWith(rect2);
-		ensure_equals("union - overlap", rect3, LLRectf(-2.0f, 2.0f, 1.0f, -1.0f));
-		
-		rect1.set(-1.0f, 1.0f, 1.0f, -1.0f);
-		rect2.set(5.0f, 10.0f, 10.0f, 5.0f);
-		rect3 = rect1;
-		rect3.unionWith(rect2);
-		ensure_equals("union - no overlap", rect3, LLRectf(-1.0f, 10.0f, 10.0f, -1.0f));
-	}
-
-	template<> template<>
-	void object::test<19>()
-	{	
-		//
-		// test the intersectWith() methods
-		//
-		
-		LLRectf rect1, rect2, rect3;
-		
-		rect1.set(-1.0f, 1.0f, 1.0f, -1.0f);
-		rect2.set(-1.0f, 1.0f, 1.0f, -1.0f);
-		rect3 = rect1;
-		rect3.intersectWith(rect2);
-		ensure_equals("intersect with self", rect3, rect1);
-		
-		rect1.set(-1.0f, 1.0f, 1.0f, -1.0f);
-		rect2.set(-2.0f, 2.0f, 0.0f, 0.0f);
-		rect3 = rect1;
-		rect3.intersectWith(rect2);
-		ensure_equals("intersect - overlap", rect3, LLRectf(-1.0f, 1.0f, 0.0f, 0.0f));
-		
-		rect1.set(-1.0f, 1.0f, 1.0f, -1.0f);
-		rect2.set(5.0f, 10.0f, 10.0f, 5.0f);
-		rect3 = rect1;
-		rect3.intersectWith(rect2);
-		ensure("intersect - no overlap", rect3.isEmpty());
-	}
-		
-	template<> template<>
-	void object::test<20>()
-	{
-		//
-		// test the pointInRect() method
-		//
-		
-		LLRectf rect(1.0f, 3.0f, 3.0f, 1.0f);
-
-		ensure("(0,0) not in rect", rect.pointInRect(0.0f, 0.0f) == FALSE);
-		ensure("(2,2) in rect", rect.pointInRect(2.0f, 2.0f) == TRUE);
-		ensure("(1,1) in rect", rect.pointInRect(1.0f, 1.0f) == TRUE);
-		ensure("(3,3) not in rect", rect.pointInRect(3.0f, 3.0f) == FALSE);
-		ensure("(2.999,2.999) in rect", rect.pointInRect(2.999f, 2.999f) == TRUE);
-		ensure("(2.999,3.0) not in rect", rect.pointInRect(2.999f, 3.0f) == FALSE);
-		ensure("(3.0,2.999) not in rect", rect.pointInRect(3.0f, 2.999f) == FALSE);
-	}
-
-	template<> template<>
-	void object::test<21>()
-	{
-		//
-		// test the localPointInRect() method
-		//
-		
-		LLRectf rect(1.0f, 3.0f, 3.0f, 1.0f);
-		
-		ensure("(0,0) in local rect", rect.localPointInRect(0.0f, 0.0f) == TRUE);
-		ensure("(-0.0001,-0.0001) not in local rect", rect.localPointInRect(-0.0001f, -0.001f) == FALSE);
-		ensure("(1,1) in local rect", rect.localPointInRect(1.0f, 1.0f) == TRUE);
-		ensure("(2,2) not in local rect", rect.localPointInRect(2.0f, 2.0f) == FALSE);
-		ensure("(1.999,1.999) in local rect", rect.localPointInRect(1.999f, 1.999f) == TRUE);
-		ensure("(1.999,2.0) not in local rect", rect.localPointInRect(1.999f, 2.0f) == FALSE);
-		ensure("(2.0,1.999) not in local rect", rect.localPointInRect(2.0f, 1.999f) == FALSE);
-	}
-	
-	template<> template<>
-	void object::test<22>()
-	{
-		//
-		// test the clampPointToRect() method
-		//
-
-		LLRectf rect(1.0f, 3.0f, 3.0f, 1.0f);
-		F32 x, y;
-
-		x = 2.0f; y = 2.0f;
-		rect.clampPointToRect(x, y);
-		ensure_equals("clamp x-coord within rect", x, 2.0f);
-		ensure_equals("clamp y-coord within rect", y, 2.0f);
-
-		x = -100.0f; y = 100.0f;
-		rect.clampPointToRect(x, y);
-		ensure_equals("clamp x-coord outside rect", x, 1.0f);
-		ensure_equals("clamp y-coord outside rect", y, 3.0f);
-
-		x = 3.0f; y = 1.0f;
-		rect.clampPointToRect(x, y);
-		ensure_equals("clamp x-coord edge rect", x, 3.0f);
-		ensure_equals("clamp y-coord edge rect", y, 1.0f);
-	}
+    template<> template<>
+    void object::test<1>()
+    {
+        //
+        // test the LLRect default constructor
+        //
+
+        LLSD zero;
+        zero.append(0); zero.append(0); zero.append(0); zero.append(0);
+
+        // default constructor
+        LLRect rect1;
+        ensure_equals("Empty rect", rect1.getValue(), zero);
+        ensure_equals("Empty rect left", rect1.mLeft, 0);
+        ensure_equals("Empty rect top", rect1.mTop, 0);
+        ensure_equals("Empty rect right", rect1.mRight, 0);
+        ensure_equals("Empty rect bottom", rect1.mBottom, 0);
+        ensure_equals("Empty rect width", rect1.getWidth(), 0);
+        ensure_equals("Empty rect height", rect1.getHeight(), 0);
+        ensure_equals("Empty rect centerx", rect1.getCenterX(), 0);
+        ensure_equals("Empty rect centery", rect1.getCenterY(), 0);
+    }
+
+    template<> template<>
+    void object::test<2>()
+    {
+        //
+        // test the LLRectf default constructor
+        //
+
+        LLSD zerof;
+        zerof.append(0.0f); zerof.append(0.0f); zerof.append(0.0f); zerof.append(0.0f);
+
+        LLRectf rect2;
+        ensure_equals("Empty rectf", rect2.getValue(), zerof);
+        ensure_equals("Empty rectf left", rect2.mLeft, 0.0f);
+        ensure_equals("Empty rectf top", rect2.mTop, 0.0f);
+        ensure_equals("Empty rectf right", rect2.mRight, 0.0f);
+        ensure_equals("Empty rectf bottom", rect2.mBottom, 0.0f);
+        ensure_equals("Empty rectf width", rect2.getWidth(), 0.0f);
+        ensure_equals("Empty rectf height", rect2.getHeight(), 0.0f);
+        ensure_equals("Empty rectf centerx", rect2.getCenterX(), 0.0f);
+        ensure_equals("Empty rectf centery", rect2.getCenterY(), 0.0f);
+    }
+
+    template<> template<>
+    void object::test<3>()
+    {
+        //
+        // test the LLRect constructor from another LLRect
+        //
+
+        LLRect rect3(LLRect(1, 6, 7, 2));
+        ensure_equals("Default rect left", rect3.mLeft, 1);
+        ensure_equals("Default rect top", rect3.mTop, 6);
+        ensure_equals("Default rect right", rect3.mRight, 7);
+        ensure_equals("Default rect bottom", rect3.mBottom, 2);
+        ensure_equals("Default rect width", rect3.getWidth(), 6);
+        ensure_equals("Default rect height", rect3.getHeight(), 4);
+        ensure_equals("Default rect centerx", rect3.getCenterX(), 4);
+        ensure_equals("Default rect centery", rect3.getCenterY(), 4);
+    }
+
+    template<> template<>
+    void object::test<4>()
+    {
+        //
+        // test the LLRectf four-float constructor
+        //
+
+        LLRectf rect4(1.0f, 5.0f, 6.0f, 2.0f);
+        ensure_equals("Default rectf left", rect4.mLeft, 1.0f);
+        ensure_equals("Default rectf top", rect4.mTop, 5.0f);
+        ensure_equals("Default rectf right", rect4.mRight, 6.0f);
+        ensure_equals("Default rectf bottom", rect4.mBottom, 2.0f);
+        ensure_equals("Default rectf width", rect4.getWidth(), 5.0f);
+        ensure_equals("Default rectf height", rect4.getHeight(), 3.0f);
+        ensure_equals("Default rectf centerx", rect4.getCenterX(), 3.5f);
+        ensure_equals("Default rectf centery", rect4.getCenterY(), 3.5f);
+    }
+
+    template<> template<>
+    void object::test<5>()
+    {
+        //
+        // test the LLRectf LLSD constructor
+        //
+
+        LLSD array;
+        array.append(-1.0f); array.append(0.0f); array.append(0.0f); array.append(-1.0f);
+        LLRectf rect5(array);
+        ensure_equals("LLSD rectf left", rect5.mLeft, -1.0f);
+        ensure_equals("LLSD rectf top", rect5.mTop, 0.0f);
+        ensure_equals("LLSD rectf right", rect5.mRight, 0.0f);
+        ensure_equals("LLSD rectf bottom", rect5.mBottom, -1.0f);
+        ensure_equals("LLSD rectf width", rect5.getWidth(), 1.0f);
+        ensure_equals("LLSD rectf height", rect5.getHeight(), 1.0f);
+        ensure_equals("LLSD rectf centerx", rect5.getCenterX(), -0.5f);
+        ensure_equals("LLSD rectf centery", rect5.getCenterY(), -0.5f);
+    }
+
+    template<> template<>
+    void object::test<6>()
+    {
+        //
+        // test directly setting the member variables for dimensions
+        //
+
+        LLRectf rectf;
+
+        rectf.mLeft = -1.0f;
+        rectf.mTop = 1.0f;
+        rectf.mRight = 1.0f;
+        rectf.mBottom = -1.0f;
+        ensure_equals("Member-set rectf left", rectf.mLeft, -1.0f);
+        ensure_equals("Member-set rectf top", rectf.mTop, 1.0f);
+        ensure_equals("Member-set rectf right", rectf.mRight, 1.0f);
+        ensure_equals("Member-set rectf bottom", rectf.mBottom, -1.0f);
+        ensure_equals("Member-set rectf width", rectf.getWidth(), 2.0f);
+        ensure_equals("Member-set rectf height", rectf.getHeight(), 2.0f);
+        ensure_equals("Member-set rectf centerx", rectf.getCenterX(), 0.0f);
+        ensure_equals("Member-set rectf centery", rectf.getCenterY(), 0.0f);
+    }
+
+    template<> template<>
+    void object::test<7>()
+    {
+        //
+        // test the setValue() method
+        //
+
+        LLRectf rectf;
+
+        LLSD array;
+        array.append(-1.0f); array.append(0.0f); array.append(0.0f); array.append(-1.0f);
+        rectf.setValue(array);
+        ensure_equals("setValue() rectf left", rectf.mLeft, -1.0f);
+        ensure_equals("setValue() rectf top", rectf.mTop, 0.0f);
+        ensure_equals("setValue() rectf right", rectf.mRight, 0.0f);
+        ensure_equals("setValue() rectf bottom", rectf.mBottom, -1.0f);
+        ensure_equals("setValue() rectf width", rectf.getWidth(), 1.0f);
+        ensure_equals("setValue() rectf height", rectf.getHeight(), 1.0f);
+        ensure_equals("setValue() rectf centerx", rectf.getCenterX(), -0.5f);
+        ensure_equals("setValue() rectf centery", rectf.getCenterY(), -0.5f);
+    }
+
+    template<> template<>
+    void object::test<8>()
+    {
+        //
+        // test the set() method
+        //
+
+        LLRect rect;
+
+        rect.set(10, 90, 70, 10);
+        ensure_equals("set() rectf left", rect.mLeft, 10);
+        ensure_equals("set() rectf top", rect.mTop, 90);
+        ensure_equals("set() rectf right", rect.mRight, 70);
+        ensure_equals("set() rectf bottom", rect.mBottom, 10);
+        ensure_equals("set() rectf width", rect.getWidth(), 60);
+        ensure_equals("set() rectf height", rect.getHeight(), 80);
+        ensure_equals("set() rectf centerx", rect.getCenterX(), 40);
+        ensure_equals("set() rectf centery", rect.getCenterY(), 50);
+    }
+
+    template<> template<>
+    void object::test<9>()
+    {
+        //
+        // test the setOriginAndSize() method
+        //
+
+        LLRectf rectf;
+
+        rectf.setOriginAndSize(0.0f, 0.0f, 2.0f, 1.0f);
+        ensure_equals("setOriginAndSize() rectf left", rectf.mLeft, 0.0f);
+        ensure_equals("setOriginAndSize() rectf top", rectf.mTop, 1.0f);
+        ensure_equals("setOriginAndSize() rectf right", rectf.mRight, 2.0f);
+        ensure_equals("setOriginAndSize() rectf bottom", rectf.mBottom, 0.0f);
+        ensure_equals("setOriginAndSize() rectf width", rectf.getWidth(), 2.0f);
+        ensure_equals("setOriginAndSize() rectf height", rectf.getHeight(), 1.0f);
+        ensure_equals("setOriginAndSize() rectf centerx", rectf.getCenterX(), 1.0f);
+        ensure_equals("setOriginAndSize() rectf centery", rectf.getCenterY(), 0.5f);
+    }
+
+    template<> template<>
+    void object::test<10>()
+    {
+        //
+        // test the setLeftTopAndSize() method
+        //
+
+        LLRectf rectf;
+
+        rectf.setLeftTopAndSize(0.0f, 0.0f, 2.0f, 1.0f);
+        ensure_equals("setLeftTopAndSize() rectf left", rectf.mLeft, 0.0f);
+        ensure_equals("setLeftTopAndSize() rectf top", rectf.mTop, 0.0f);
+        ensure_equals("setLeftTopAndSize() rectf right", rectf.mRight, 2.0f);
+        ensure_equals("setLeftTopAndSize() rectf bottom", rectf.mBottom, -1.0f);
+        ensure_equals("setLeftTopAndSize() rectf width", rectf.getWidth(), 2.0f);
+        ensure_equals("setLeftTopAndSize() rectf height", rectf.getHeight(), 1.0f);
+        ensure_equals("setLeftTopAndSize() rectf centerx", rectf.getCenterX(), 1.0f);
+        ensure_equals("setLeftTopAndSize() rectf centery", rectf.getCenterY(), -0.5f);
+    }
+
+    template<> template<>
+    void object::test<11>()
+    {
+        //
+        // test the setCenterAndSize() method
+        //
+
+        LLRectf rectf;
+
+        rectf.setCenterAndSize(0.0f, 0.0f, 2.0f, 1.0f);
+        ensure_equals("setCenterAndSize() rectf left", rectf.mLeft, -1.0f);
+        ensure_equals("setCenterAndSize() rectf top", rectf.mTop, 0.5f);
+        ensure_equals("setCenterAndSize() rectf right", rectf.mRight, 1.0f);
+        ensure_equals("setCenterAndSize() rectf bottom", rectf.mBottom, -0.5f);
+        ensure_equals("setCenterAndSize() rectf width", rectf.getWidth(), 2.0f);
+        ensure_equals("setCenterAndSize() rectf height", rectf.getHeight(), 1.0f);
+        ensure_equals("setCenterAndSize() rectf centerx", rectf.getCenterX(), 0.0f);
+        ensure_equals("setCenterAndSize() rectf centery", rectf.getCenterY(), 0.0f);
+    }
+
+    template<> template<>
+    void object::test<12>()
+    {
+        //
+        // test the validity checking method
+        //
+
+        LLRectf rectf;
+
+        rectf.set(-1.0f, 1.0f, 1.0f, -1.0f);
+        ensure("BBox is valid", rectf.isValid());
+
+        rectf.mLeft = 2.0f;
+        ensure("BBox is not valid", ! rectf.isValid());
+
+        rectf.makeValid();
+        ensure("BBox forced valid", rectf.isValid());
+
+        rectf.set(-1.0f, -1.0f, -1.0f, -1.0f);
+        ensure("BBox(0,0,0,0) is valid", rectf.isValid());
+    }
+
+    template<> template<>
+    void object::test<13>()
+    {
+        //
+        // test the null checking methods
+        //
+
+        LLRectf rectf;
+
+        rectf.set(-1.0f, 1.0f, 1.0f, -1.0f);
+        ensure("BBox is not Null", ! rectf.isEmpty());
+        ensure("BBox notNull", rectf.notEmpty());
+
+        rectf.mLeft = 2.0f;
+        rectf.makeValid();
+        ensure("BBox is now Null", rectf.isEmpty());
+
+        rectf.set(-1.0f, -1.0f, -1.0f, -1.0f);
+        ensure("BBox(0,0,0,0) is Null", rectf.isEmpty());
+    }
+
+    template<> template<>
+    void object::test<14>()
+    {
+        //
+        // test the (in)equality operators
+        //
+
+        LLRectf rect1, rect2;
+
+        rect1.set(-1.0f, 1.0f, 1.0f, -1.0f);
+        rect2.set(-1.0f, 0.9f, 1.0f, -1.0f);
+
+        ensure("rect1 == rect2 (false)", ! (rect1 == rect2));
+        ensure("rect1 != rect2 (true)", rect1 != rect2);
+
+        ensure("rect1 == rect1 (true)", rect1 == rect1);
+        ensure("rect1 != rect1 (false)", ! (rect1 != rect1));
+    }
+
+    template<> template<>
+    void object::test<15>()
+    {
+        //
+        // test the copy constructor
+        //
+
+        LLRectf rect1, rect2(rect1);
+
+        ensure("rect1 == rect2 (true)", rect1 == rect2);
+        ensure("rect1 != rect2 (false)", ! (rect1 != rect2));
+    }
+
+    template<> template<>
+    void object::test<16>()
+    {
+        //
+        // test the translate() method
+        //
+
+        LLRectf rect1(-1.0f, 1.0f, 1.0f, -1.0f);
+        LLRectf rect2(rect1);
+
+        rect1.translate(0.0f, 0.0f);
+
+        ensure("translate(0, 0)", rect1 == rect2);
+
+        rect1.translate(100.0f, 100.0f);
+        rect1.translate(-100.0f, -100.0f);
+
+        ensure("translate(100, 100) + translate(-100, -100)", rect1 == rect2);
+
+        rect1.translate(10.0f, 0.0f);
+        rect2.set(9.0f, 1.0f, 11.0f, -1.0f);
+        ensure("translate(10, 0)", rect1 == rect2);
+
+        rect1.translate(0.0f, 10.0f);
+        rect2.set(9.0f, 11.0f, 11.0f, 9.0f);
+        ensure("translate(0, 10)", rect1 == rect2);
+
+        rect1.translate(-10.0f, -10.0f);
+        rect2.set(-1.0f, 1.0f, 1.0f, -1.0f);
+        ensure("translate(-10, -10)", rect1 == rect2);
+    }
+
+    template<> template<>
+    void object::test<17>()
+    {
+        //
+        // test the stretch() method
+        //
+
+        LLRectf rect1(-1.0f, 1.0f, 1.0f, -1.0f);
+        LLRectf rect2(rect1);
+
+        rect1.stretch(0.0f);
+        ensure("stretch(0)", rect1 == rect2);
+
+        rect1.stretch(0.0f, 0.0f);
+        ensure("stretch(0, 0)", rect1 == rect2);
+
+        rect1.stretch(10.0f);
+        rect1.stretch(-10.0f);
+        ensure("stretch(10) + stretch(-10)", rect1 == rect2);
+
+        rect1.stretch(2.0f, 1.0f);
+        rect2.set(-3.0f, 2.0f, 3.0f, -2.0f);
+        ensure("stretch(2, 1)", rect1 == rect2);
+    }
+
+
+    template<> template<>
+    void object::test<18>()
+    {
+        //
+        // test the unionWith() method
+        //
+
+        LLRectf rect1, rect2, rect3;
+
+        rect1.set(-1.0f, 1.0f, 1.0f, -1.0f);
+        rect2.set(-1.0f, 1.0f, 1.0f, -1.0f);
+        rect3 = rect1;
+        rect3.unionWith(rect2);
+        ensure_equals("union with self", rect3, rect1);
+
+        rect1.set(-1.0f, 1.0f, 1.0f, -1.0f);
+        rect2.set(-2.0f, 2.0f, 0.0f, 0.0f);
+        rect3 = rect1;
+        rect3.unionWith(rect2);
+        ensure_equals("union - overlap", rect3, LLRectf(-2.0f, 2.0f, 1.0f, -1.0f));
+
+        rect1.set(-1.0f, 1.0f, 1.0f, -1.0f);
+        rect2.set(5.0f, 10.0f, 10.0f, 5.0f);
+        rect3 = rect1;
+        rect3.unionWith(rect2);
+        ensure_equals("union - no overlap", rect3, LLRectf(-1.0f, 10.0f, 10.0f, -1.0f));
+    }
+
+    template<> template<>
+    void object::test<19>()
+    {
+        //
+        // test the intersectWith() methods
+        //
+
+        LLRectf rect1, rect2, rect3;
+
+        rect1.set(-1.0f, 1.0f, 1.0f, -1.0f);
+        rect2.set(-1.0f, 1.0f, 1.0f, -1.0f);
+        rect3 = rect1;
+        rect3.intersectWith(rect2);
+        ensure_equals("intersect with self", rect3, rect1);
+
+        rect1.set(-1.0f, 1.0f, 1.0f, -1.0f);
+        rect2.set(-2.0f, 2.0f, 0.0f, 0.0f);
+        rect3 = rect1;
+        rect3.intersectWith(rect2);
+        ensure_equals("intersect - overlap", rect3, LLRectf(-1.0f, 1.0f, 0.0f, 0.0f));
+
+        rect1.set(-1.0f, 1.0f, 1.0f, -1.0f);
+        rect2.set(5.0f, 10.0f, 10.0f, 5.0f);
+        rect3 = rect1;
+        rect3.intersectWith(rect2);
+        ensure("intersect - no overlap", rect3.isEmpty());
+    }
+
+    template<> template<>
+    void object::test<20>()
+    {
+        //
+        // test the pointInRect() method
+        //
+
+        LLRectf rect(1.0f, 3.0f, 3.0f, 1.0f);
+
+        ensure("(0,0) not in rect", rect.pointInRect(0.0f, 0.0f) == FALSE);
+        ensure("(2,2) in rect", rect.pointInRect(2.0f, 2.0f) == TRUE);
+        ensure("(1,1) in rect", rect.pointInRect(1.0f, 1.0f) == TRUE);
+        ensure("(3,3) not in rect", rect.pointInRect(3.0f, 3.0f) == FALSE);
+        ensure("(2.999,2.999) in rect", rect.pointInRect(2.999f, 2.999f) == TRUE);
+        ensure("(2.999,3.0) not in rect", rect.pointInRect(2.999f, 3.0f) == FALSE);
+        ensure("(3.0,2.999) not in rect", rect.pointInRect(3.0f, 2.999f) == FALSE);
+    }
+
+    template<> template<>
+    void object::test<21>()
+    {
+        //
+        // test the localPointInRect() method
+        //
+
+        LLRectf rect(1.0f, 3.0f, 3.0f, 1.0f);
+
+        ensure("(0,0) in local rect", rect.localPointInRect(0.0f, 0.0f) == TRUE);
+        ensure("(-0.0001,-0.0001) not in local rect", rect.localPointInRect(-0.0001f, -0.001f) == FALSE);
+        ensure("(1,1) in local rect", rect.localPointInRect(1.0f, 1.0f) == TRUE);
+        ensure("(2,2) not in local rect", rect.localPointInRect(2.0f, 2.0f) == FALSE);
+        ensure("(1.999,1.999) in local rect", rect.localPointInRect(1.999f, 1.999f) == TRUE);
+        ensure("(1.999,2.0) not in local rect", rect.localPointInRect(1.999f, 2.0f) == FALSE);
+        ensure("(2.0,1.999) not in local rect", rect.localPointInRect(2.0f, 1.999f) == FALSE);
+    }
+
+    template<> template<>
+    void object::test<22>()
+    {
+        //
+        // test the clampPointToRect() method
+        //
+
+        LLRectf rect(1.0f, 3.0f, 3.0f, 1.0f);
+        F32 x, y;
+
+        x = 2.0f; y = 2.0f;
+        rect.clampPointToRect(x, y);
+        ensure_equals("clamp x-coord within rect", x, 2.0f);
+        ensure_equals("clamp y-coord within rect", y, 2.0f);
+
+        x = -100.0f; y = 100.0f;
+        rect.clampPointToRect(x, y);
+        ensure_equals("clamp x-coord outside rect", x, 1.0f);
+        ensure_equals("clamp y-coord outside rect", y, 3.0f);
+
+        x = 3.0f; y = 1.0f;
+        rect.clampPointToRect(x, y);
+        ensure_equals("clamp x-coord edge rect", x, 3.0f);
+        ensure_equals("clamp y-coord edge rect", y, 1.0f);
+    }
 }
diff --git a/indra/llmath/tests/m3math_test.cpp b/indra/llmath/tests/m3math_test.cpp
index 2a0fe76aa7..b023c85ffd 100644
--- a/indra/llmath/tests/m3math_test.cpp
+++ b/indra/llmath/tests/m3math_test.cpp
@@ -1,4 +1,4 @@
-/** 
+/**
  * @file m3math_test.cpp
  * @author Adroit
  * @date 2007-03
@@ -7,21 +7,21 @@
  * $LicenseInfo:firstyear=2007&license=viewerlgpl$
  * Second Life Viewer Source Code
  * Copyright (C) 2010, Linden Research, Inc.
- * 
+ *
  * This library is free software; you can redistribute it and/or
  * modify it under the terms of the GNU Lesser General Public
  * License as published by the Free Software Foundation;
  * version 2.1 of the License only.
- * 
+ *
  * This library is distributed in the hope that it will be useful,
  * but WITHOUT ANY WARRANTY; without even the implied warranty of
  * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the GNU
  * Lesser General Public License for more details.
- * 
+ *
  * You should have received a copy of the GNU Lesser General Public
  * License along with this library; if not, write to the Free Software
  * Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA  02110-1301  USA
- * 
+ *
  * Linden Research, Inc., 945 Battery Street, San Francisco, CA  94111  USA
  * $/LicenseInfo$
  */
@@ -49,284 +49,284 @@
 
 namespace tut
 {
-	struct m3math_test
-	{
-	};
-	typedef test_group<m3math_test> m3math_test_t;
-	typedef m3math_test_t::object m3math_test_object_t;
-	tut::m3math_test_t tut_m3math_test("m3math_h");
-
-	//test case for setIdentity() fn.
-	template<> template<>
-	void m3math_test_object_t::test<1>()
-	{
-		LLMatrix3 llmat3_obj;
-		llmat3_obj.setIdentity();
-		ensure("LLMatrix3::setIdentity failed", 1.f == llmat3_obj.mMatrix[0][0] &&
-					0.f == llmat3_obj.mMatrix[0][1] &&
-					0.f == llmat3_obj.mMatrix[0][2] &&
-					0.f == llmat3_obj.mMatrix[1][0] &&
-					1.f == llmat3_obj.mMatrix[1][1] &&
-					0.f == llmat3_obj.mMatrix[1][2] &&
-					0.f == llmat3_obj.mMatrix[2][0] &&
-					0.f == llmat3_obj.mMatrix[2][1] &&
-					1.f == llmat3_obj.mMatrix[2][2]);
-	}
-
-	//test case for LLMatrix3& setZero() fn.
-	template<> template<>
-	void m3math_test_object_t::test<2>()
-	{
-		LLMatrix3 llmat3_obj;
-		llmat3_obj.setZero();
-
-		ensure("LLMatrix3::setZero failed", 0.f == llmat3_obj.setZero().mMatrix[0][0] &&
-					0.f == llmat3_obj.setZero().mMatrix[0][1] &&
-					0.f == llmat3_obj.setZero().mMatrix[0][2] &&
-					0.f == llmat3_obj.setZero().mMatrix[1][0] &&
-					0.f == llmat3_obj.setZero().mMatrix[1][1] &&
-					0.f == llmat3_obj.setZero().mMatrix[1][2] &&
-					0.f == llmat3_obj.setZero().mMatrix[2][0] &&
-					0.f == llmat3_obj.setZero().mMatrix[2][1] &&
-					0.f == llmat3_obj.setZero().mMatrix[2][2]);
-	}
-
-	//test case for setRows(const LLVector3 &x_axis, const LLVector3 &y_axis, const LLVector3 &z_axis) fns.
-	template<> template<>
-	void m3math_test_object_t::test<3>()
-	{
-		LLMatrix3 llmat3_obj;
-		LLVector3 vect1(2, 1, 4);
-		LLVector3 vect2(3, 5, 7);
-		LLVector3 vect3(6, 9, 7);
-		llmat3_obj.setRows(vect1, vect2, vect3);
-		ensure("LLVector3::setRows failed ", 2 == llmat3_obj.mMatrix[0][0] &&
-						1 == llmat3_obj.mMatrix[0][1] &&
-						4 == llmat3_obj.mMatrix[0][2] &&
-						3 == llmat3_obj.mMatrix[1][0] &&
-						5 == llmat3_obj.mMatrix[1][1] &&
-						7 == llmat3_obj.mMatrix[1][2] &&
-						6 == llmat3_obj.mMatrix[2][0] &&
-						9 == llmat3_obj.mMatrix[2][1] &&
-						7 == llmat3_obj.mMatrix[2][2]);
-	}
-
-	//test case for getFwdRow(), getLeftRow(), getUpRow() fns.
-	template<> template<>
-	void m3math_test_object_t::test<4>()
-	{
-		LLMatrix3 llmat3_obj;
-		LLVector3 vect1(2, 1, 4);
-		LLVector3 vect2(3, 5, 7);
-		LLVector3 vect3(6, 9, 7);
-		llmat3_obj.setRows(vect1, vect2, vect3);
-		
-		ensure("LLVector3::getFwdRow failed ", vect1 == llmat3_obj.getFwdRow());
-		ensure("LLVector3::getLeftRow failed ", vect2 == llmat3_obj.getLeftRow());
-		ensure("LLVector3::getUpRow failed ", vect3 == llmat3_obj.getUpRow());
-	}
-
-	//test case for operator*(const LLMatrix3 &a, const LLMatrix3 &b)
-	template<> template<>
-	void m3math_test_object_t::test<5>()
-	{
-		LLMatrix3 llmat_obj1;
-		LLMatrix3 llmat_obj2;		
-		LLMatrix3 llmat_obj3;
-		
-		LLVector3 llvec1(1, 3, 5);
-		LLVector3 llvec2(3, 6, 1);
-		LLVector3 llvec3(4, 6, 9);
-
-		LLVector3 llvec4(1, 1, 5);
-		LLVector3 llvec5(3, 6, 8);
-		LLVector3 llvec6(8, 6, 2);
-
-		LLVector3 llvec7(0, 0, 0);
-		LLVector3 llvec8(0, 0, 0);
-		LLVector3 llvec9(0, 0, 0);
-		
-		llmat_obj1.setRows(llvec1, llvec2, llvec3);
-		llmat_obj2.setRows(llvec4, llvec5, llvec6);
-		llmat_obj3.setRows(llvec7, llvec8, llvec9);
-		llmat_obj3 = llmat_obj1 * llmat_obj2;
-		ensure("LLMatrix3::operator*(const LLMatrix3 &a, const LLMatrix3 &b) failed", 
-						50 == llmat_obj3.mMatrix[0][0] &&
-						49 == llmat_obj3.mMatrix[0][1] &&
-						39 == llmat_obj3.mMatrix[0][2] &&
-						29 == llmat_obj3.mMatrix[1][0] &&
-						45 == llmat_obj3.mMatrix[1][1] &&
-						65 == llmat_obj3.mMatrix[1][2] &&
-						94 == llmat_obj3.mMatrix[2][0] &&
-						94 == llmat_obj3.mMatrix[2][1] &&
-						86 == llmat_obj3.mMatrix[2][2]);
-	}
-
-
-	//test case for operator*(const LLVector3 &a, const LLMatrix3 &b)
-	template<> template<>
-	void m3math_test_object_t::test<6>()
-	{
-				
-		LLMatrix3 llmat_obj1;
-		
-		LLVector3 llvec(1, 3, 5);
-		LLVector3 res_vec(0, 0, 0);
-		LLVector3 llvec1(1, 3, 5);
-		LLVector3 llvec2(3, 6, 1);
-		LLVector3 llvec3(4, 6, 9);
-		
-		llmat_obj1.setRows(llvec1, llvec2, llvec3);
-		res_vec = llvec * llmat_obj1;
-
-		LLVector3 expected_result(30, 51, 53);
-
-		ensure("LLMatrix3::operator*(const LLVector3 &a, const LLMatrix3 &b) failed", res_vec == expected_result);
-	}
-
-	//test case for operator*(const LLVector3d &a, const LLMatrix3 &b) 
-	template<> template<>
-	void m3math_test_object_t::test<7>()
-	{
-		LLMatrix3 llmat_obj1;
-		LLVector3d llvec3d1;		
-		LLVector3d llvec3d2(0, 3, 4);
-
-		LLVector3 llvec1(1, 3, 5);
-		LLVector3 llvec2(3, 2, 1);
-		LLVector3 llvec3(4, 6, 0);
-		
-		llmat_obj1.setRows(llvec1, llvec2, llvec3);
-		llvec3d1 = llvec3d2 * llmat_obj1;
-
-		LLVector3d expected_result(25, 30, 3);
-		
-		ensure("LLMatrix3::operator*(const LLVector3 &a, const LLMatrix3 &b) failed", llvec3d1 == expected_result);
-	}
-
-	// test case for operator==(const LLMatrix3 &a, const LLMatrix3 &b)
-	template<> template<>
-	void m3math_test_object_t::test<8>()
-	{
-		LLMatrix3 llmat_obj1;
-		LLMatrix3 llmat_obj2;		
-		
-		LLVector3 llvec1(1, 3, 5);
-		LLVector3 llvec2(3, 6, 1);
-		LLVector3 llvec3(4, 6, 9);
-
-		llmat_obj1.setRows(llvec1, llvec2, llvec3);
-		llmat_obj2.setRows(llvec1, llvec2, llvec3);
-		ensure("LLMatrix3::operator==(const LLMatrix3 &a, const LLMatrix3 &b) failed", llmat_obj1 == llmat_obj2);
-
-		llmat_obj2.setRows(llvec2, llvec2, llvec3);
-		ensure("LLMatrix3::operator!=(const LLMatrix3 &a, const LLMatrix3 &b) failed", llmat_obj1 != llmat_obj2);
-	}
-
-	//test case for quaternion() fn.
-	template<> template<>
-	void m3math_test_object_t::test<9>()
-	{
-		LLMatrix3 llmat_obj1;
-		LLQuaternion llmat_quat;		
-		
-		LLVector3 llmat1(2.0f, 1.0f, 6.0f);
-		LLVector3 llmat2(1.0f, 1.0f, 3.0f);
-		LLVector3 llmat3(1.0f, 7.0f, 5.0f);
-
-		llmat_obj1.setRows(llmat1, llmat2, llmat3);
-		llmat_quat = llmat_obj1.quaternion();
-		ensure("LLMatrix3::quaternion failed ", is_approx_equal(-0.66666669f, llmat_quat.mQ[0]) &&
-						is_approx_equal(-0.83333337f, llmat_quat.mQ[1]) &&
-						is_approx_equal(0.0f, llmat_quat.mQ[2]) &&
-						is_approx_equal(1.5f, llmat_quat.mQ[3]));
-	}
-
-	//test case for transpose() fn.
-	template<> template<>
-	void m3math_test_object_t::test<10>()
-	{
-		LLMatrix3 llmat_obj;
-	
-		LLVector3 llvec1(1, 2, 3);
-		LLVector3 llvec2(3, 2, 1);
-		LLVector3 llvec3(2, 2, 2);
-
-		llmat_obj.setRows(llvec1, llvec2, llvec3);
-		llmat_obj.transpose();
-
-		LLVector3 resllvec1(1, 3, 2);
-		LLVector3 resllvec2(2, 2, 2);
-		LLVector3 resllvec3(3, 1, 2);
-		LLMatrix3 expectedllmat_obj;
-		expectedllmat_obj.setRows(resllvec1, resllvec2, resllvec3);
-
-		ensure("LLMatrix3::transpose failed ", llmat_obj == expectedllmat_obj);
-	}
-	
-	//test case for determinant() fn.
-	template<> template<>
-	void m3math_test_object_t::test<11>()
-	{
-		LLMatrix3 llmat_obj1;
-		
-		LLVector3 llvec1(1, 2, 3);
-		LLVector3 llvec2(3, 2, 1);
-		LLVector3 llvec3(2, 2, 2);
-		llmat_obj1.setRows(llvec1, llvec2, llvec3);
-		ensure("LLMatrix3::determinant failed ",  0.0f == llmat_obj1.determinant());
-	}
-
-	//test case for orthogonalize() fn.
-	template<> template<>
-	void m3math_test_object_t::test<12>()
-	{
-		LLMatrix3 llmat_obj;
-
-		LLVector3 llvec1(1, 4, 3);
-		LLVector3 llvec2(1, 2, 0);
-		LLVector3 llvec3(2, 4, 2);
+    struct m3math_test
+    {
+    };
+    typedef test_group<m3math_test> m3math_test_t;
+    typedef m3math_test_t::object m3math_test_object_t;
+    tut::m3math_test_t tut_m3math_test("m3math_h");
+
+    //test case for setIdentity() fn.
+    template<> template<>
+    void m3math_test_object_t::test<1>()
+    {
+        LLMatrix3 llmat3_obj;
+        llmat3_obj.setIdentity();
+        ensure("LLMatrix3::setIdentity failed", 1.f == llmat3_obj.mMatrix[0][0] &&
+                    0.f == llmat3_obj.mMatrix[0][1] &&
+                    0.f == llmat3_obj.mMatrix[0][2] &&
+                    0.f == llmat3_obj.mMatrix[1][0] &&
+                    1.f == llmat3_obj.mMatrix[1][1] &&
+                    0.f == llmat3_obj.mMatrix[1][2] &&
+                    0.f == llmat3_obj.mMatrix[2][0] &&
+                    0.f == llmat3_obj.mMatrix[2][1] &&
+                    1.f == llmat3_obj.mMatrix[2][2]);
+    }
+
+    //test case for LLMatrix3& setZero() fn.
+    template<> template<>
+    void m3math_test_object_t::test<2>()
+    {
+        LLMatrix3 llmat3_obj;
+        llmat3_obj.setZero();
+
+        ensure("LLMatrix3::setZero failed", 0.f == llmat3_obj.setZero().mMatrix[0][0] &&
+                    0.f == llmat3_obj.setZero().mMatrix[0][1] &&
+                    0.f == llmat3_obj.setZero().mMatrix[0][2] &&
+                    0.f == llmat3_obj.setZero().mMatrix[1][0] &&
+                    0.f == llmat3_obj.setZero().mMatrix[1][1] &&
+                    0.f == llmat3_obj.setZero().mMatrix[1][2] &&
+                    0.f == llmat3_obj.setZero().mMatrix[2][0] &&
+                    0.f == llmat3_obj.setZero().mMatrix[2][1] &&
+                    0.f == llmat3_obj.setZero().mMatrix[2][2]);
+    }
+
+    //test case for setRows(const LLVector3 &x_axis, const LLVector3 &y_axis, const LLVector3 &z_axis) fns.
+    template<> template<>
+    void m3math_test_object_t::test<3>()
+    {
+        LLMatrix3 llmat3_obj;
+        LLVector3 vect1(2, 1, 4);
+        LLVector3 vect2(3, 5, 7);
+        LLVector3 vect3(6, 9, 7);
+        llmat3_obj.setRows(vect1, vect2, vect3);
+        ensure("LLVector3::setRows failed ", 2 == llmat3_obj.mMatrix[0][0] &&
+                        1 == llmat3_obj.mMatrix[0][1] &&
+                        4 == llmat3_obj.mMatrix[0][2] &&
+                        3 == llmat3_obj.mMatrix[1][0] &&
+                        5 == llmat3_obj.mMatrix[1][1] &&
+                        7 == llmat3_obj.mMatrix[1][2] &&
+                        6 == llmat3_obj.mMatrix[2][0] &&
+                        9 == llmat3_obj.mMatrix[2][1] &&
+                        7 == llmat3_obj.mMatrix[2][2]);
+    }
+
+    //test case for getFwdRow(), getLeftRow(), getUpRow() fns.
+    template<> template<>
+    void m3math_test_object_t::test<4>()
+    {
+        LLMatrix3 llmat3_obj;
+        LLVector3 vect1(2, 1, 4);
+        LLVector3 vect2(3, 5, 7);
+        LLVector3 vect3(6, 9, 7);
+        llmat3_obj.setRows(vect1, vect2, vect3);
+
+        ensure("LLVector3::getFwdRow failed ", vect1 == llmat3_obj.getFwdRow());
+        ensure("LLVector3::getLeftRow failed ", vect2 == llmat3_obj.getLeftRow());
+        ensure("LLVector3::getUpRow failed ", vect3 == llmat3_obj.getUpRow());
+    }
+
+    //test case for operator*(const LLMatrix3 &a, const LLMatrix3 &b)
+    template<> template<>
+    void m3math_test_object_t::test<5>()
+    {
+        LLMatrix3 llmat_obj1;
+        LLMatrix3 llmat_obj2;
+        LLMatrix3 llmat_obj3;
+
+        LLVector3 llvec1(1, 3, 5);
+        LLVector3 llvec2(3, 6, 1);
+        LLVector3 llvec3(4, 6, 9);
+
+        LLVector3 llvec4(1, 1, 5);
+        LLVector3 llvec5(3, 6, 8);
+        LLVector3 llvec6(8, 6, 2);
+
+        LLVector3 llvec7(0, 0, 0);
+        LLVector3 llvec8(0, 0, 0);
+        LLVector3 llvec9(0, 0, 0);
+
+        llmat_obj1.setRows(llvec1, llvec2, llvec3);
+        llmat_obj2.setRows(llvec4, llvec5, llvec6);
+        llmat_obj3.setRows(llvec7, llvec8, llvec9);
+        llmat_obj3 = llmat_obj1 * llmat_obj2;
+        ensure("LLMatrix3::operator*(const LLMatrix3 &a, const LLMatrix3 &b) failed",
+                        50 == llmat_obj3.mMatrix[0][0] &&
+                        49 == llmat_obj3.mMatrix[0][1] &&
+                        39 == llmat_obj3.mMatrix[0][2] &&
+                        29 == llmat_obj3.mMatrix[1][0] &&
+                        45 == llmat_obj3.mMatrix[1][1] &&
+                        65 == llmat_obj3.mMatrix[1][2] &&
+                        94 == llmat_obj3.mMatrix[2][0] &&
+                        94 == llmat_obj3.mMatrix[2][1] &&
+                        86 == llmat_obj3.mMatrix[2][2]);
+    }
+
+
+    //test case for operator*(const LLVector3 &a, const LLMatrix3 &b)
+    template<> template<>
+    void m3math_test_object_t::test<6>()
+    {
+
+        LLMatrix3 llmat_obj1;
+
+        LLVector3 llvec(1, 3, 5);
+        LLVector3 res_vec(0, 0, 0);
+        LLVector3 llvec1(1, 3, 5);
+        LLVector3 llvec2(3, 6, 1);
+        LLVector3 llvec3(4, 6, 9);
+
+        llmat_obj1.setRows(llvec1, llvec2, llvec3);
+        res_vec = llvec * llmat_obj1;
+
+        LLVector3 expected_result(30, 51, 53);
+
+        ensure("LLMatrix3::operator*(const LLVector3 &a, const LLMatrix3 &b) failed", res_vec == expected_result);
+    }
+
+    //test case for operator*(const LLVector3d &a, const LLMatrix3 &b)
+    template<> template<>
+    void m3math_test_object_t::test<7>()
+    {
+        LLMatrix3 llmat_obj1;
+        LLVector3d llvec3d1;
+        LLVector3d llvec3d2(0, 3, 4);
+
+        LLVector3 llvec1(1, 3, 5);
+        LLVector3 llvec2(3, 2, 1);
+        LLVector3 llvec3(4, 6, 0);
+
+        llmat_obj1.setRows(llvec1, llvec2, llvec3);
+        llvec3d1 = llvec3d2 * llmat_obj1;
+
+        LLVector3d expected_result(25, 30, 3);
+
+        ensure("LLMatrix3::operator*(const LLVector3 &a, const LLMatrix3 &b) failed", llvec3d1 == expected_result);
+    }
+
+    // test case for operator==(const LLMatrix3 &a, const LLMatrix3 &b)
+    template<> template<>
+    void m3math_test_object_t::test<8>()
+    {
+        LLMatrix3 llmat_obj1;
+        LLMatrix3 llmat_obj2;
+
+        LLVector3 llvec1(1, 3, 5);
+        LLVector3 llvec2(3, 6, 1);
+        LLVector3 llvec3(4, 6, 9);
+
+        llmat_obj1.setRows(llvec1, llvec2, llvec3);
+        llmat_obj2.setRows(llvec1, llvec2, llvec3);
+        ensure("LLMatrix3::operator==(const LLMatrix3 &a, const LLMatrix3 &b) failed", llmat_obj1 == llmat_obj2);
+
+        llmat_obj2.setRows(llvec2, llvec2, llvec3);
+        ensure("LLMatrix3::operator!=(const LLMatrix3 &a, const LLMatrix3 &b) failed", llmat_obj1 != llmat_obj2);
+    }
+
+    //test case for quaternion() fn.
+    template<> template<>
+    void m3math_test_object_t::test<9>()
+    {
+        LLMatrix3 llmat_obj1;
+        LLQuaternion llmat_quat;
+
+        LLVector3 llmat1(2.0f, 1.0f, 6.0f);
+        LLVector3 llmat2(1.0f, 1.0f, 3.0f);
+        LLVector3 llmat3(1.0f, 7.0f, 5.0f);
+
+        llmat_obj1.setRows(llmat1, llmat2, llmat3);
+        llmat_quat = llmat_obj1.quaternion();
+        ensure("LLMatrix3::quaternion failed ", is_approx_equal(-0.66666669f, llmat_quat.mQ[0]) &&
+                        is_approx_equal(-0.83333337f, llmat_quat.mQ[1]) &&
+                        is_approx_equal(0.0f, llmat_quat.mQ[2]) &&
+                        is_approx_equal(1.5f, llmat_quat.mQ[3]));
+    }
+
+    //test case for transpose() fn.
+    template<> template<>
+    void m3math_test_object_t::test<10>()
+    {
+        LLMatrix3 llmat_obj;
+
+        LLVector3 llvec1(1, 2, 3);
+        LLVector3 llvec2(3, 2, 1);
+        LLVector3 llvec3(2, 2, 2);
+
+        llmat_obj.setRows(llvec1, llvec2, llvec3);
+        llmat_obj.transpose();
+
+        LLVector3 resllvec1(1, 3, 2);
+        LLVector3 resllvec2(2, 2, 2);
+        LLVector3 resllvec3(3, 1, 2);
+        LLMatrix3 expectedllmat_obj;
+        expectedllmat_obj.setRows(resllvec1, resllvec2, resllvec3);
+
+        ensure("LLMatrix3::transpose failed ", llmat_obj == expectedllmat_obj);
+    }
+
+    //test case for determinant() fn.
+    template<> template<>
+    void m3math_test_object_t::test<11>()
+    {
+        LLMatrix3 llmat_obj1;
+
+        LLVector3 llvec1(1, 2, 3);
+        LLVector3 llvec2(3, 2, 1);
+        LLVector3 llvec3(2, 2, 2);
+        llmat_obj1.setRows(llvec1, llvec2, llvec3);
+        ensure("LLMatrix3::determinant failed ",  0.0f == llmat_obj1.determinant());
+    }
+
+    //test case for orthogonalize() fn.
+    template<> template<>
+    void m3math_test_object_t::test<12>()
+    {
+        LLMatrix3 llmat_obj;
+
+        LLVector3 llvec1(1, 4, 3);
+        LLVector3 llvec2(1, 2, 0);
+        LLVector3 llvec3(2, 4, 2);
 
         skip("This test fails depending on architecture. Need to fix comparison operation, is_approx_equal, to work on more than one platform.");
 
-		llmat_obj.setRows(llvec1, llvec2, llvec3);
-		llmat_obj.orthogonalize();
-
-		ensure("LLMatrix3::orthogonalize failed ",
-		       is_approx_equal(0.19611614f, llmat_obj.mMatrix[0][0]) &&
-		       is_approx_equal(0.78446454f, llmat_obj.mMatrix[0][1]) &&
-		       is_approx_equal(0.58834841f, llmat_obj.mMatrix[0][2]) &&
-		       is_approx_equal(0.47628204f, llmat_obj.mMatrix[1][0]) &&
-		       is_approx_equal(0.44826545f, llmat_obj.mMatrix[1][1]) &&
-		       is_approx_equal(-0.75644795f, llmat_obj.mMatrix[1][2]) &&
-		       is_approx_equal(-0.85714286f, llmat_obj.mMatrix[2][0]) &&
-		       is_approx_equal(0.42857143f, llmat_obj.mMatrix[2][1]) &&
-		       is_approx_equal(-0.28571429f, llmat_obj.mMatrix[2][2]));
-	}
-
-	//test case for adjointTranspose() fn.
-	template<> template<>
-	void m3math_test_object_t::test<13>()
-	{
-		LLMatrix3 llmat_obj;
-
-		LLVector3 llvec1(3, 2, 1);
-		LLVector3 llvec2(6, 2, 1);
-		LLVector3 llvec3(3, 6, 8);
-
-		llmat_obj.setRows(llvec1, llvec2, llvec3);
-		llmat_obj.adjointTranspose();
-		
-		ensure("LLMatrix3::adjointTranspose failed ", 10 == llmat_obj.mMatrix[0][0] &&
-						-45 == llmat_obj.mMatrix[1][0] &&
-						30 == llmat_obj.mMatrix[2][0] &&
-						-10 == llmat_obj.mMatrix[0][1] &&
-						21 == llmat_obj.mMatrix[1][1] &&
-						-12 == llmat_obj.mMatrix[2][1] &&
-						0  == llmat_obj.mMatrix[0][2] &&
-						3 == llmat_obj.mMatrix[1][2] &&
-						-6 == llmat_obj.mMatrix[2][2]);
-	}
-
-	/* TBD: Need to add test cases for getEulerAngles() and setRot() functions */
+        llmat_obj.setRows(llvec1, llvec2, llvec3);
+        llmat_obj.orthogonalize();
+
+        ensure("LLMatrix3::orthogonalize failed ",
+               is_approx_equal(0.19611614f, llmat_obj.mMatrix[0][0]) &&
+               is_approx_equal(0.78446454f, llmat_obj.mMatrix[0][1]) &&
+               is_approx_equal(0.58834841f, llmat_obj.mMatrix[0][2]) &&
+               is_approx_equal(0.47628204f, llmat_obj.mMatrix[1][0]) &&
+               is_approx_equal(0.44826545f, llmat_obj.mMatrix[1][1]) &&
+               is_approx_equal(-0.75644795f, llmat_obj.mMatrix[1][2]) &&
+               is_approx_equal(-0.85714286f, llmat_obj.mMatrix[2][0]) &&
+               is_approx_equal(0.42857143f, llmat_obj.mMatrix[2][1]) &&
+               is_approx_equal(-0.28571429f, llmat_obj.mMatrix[2][2]));
+    }
+
+    //test case for adjointTranspose() fn.
+    template<> template<>
+    void m3math_test_object_t::test<13>()
+    {
+        LLMatrix3 llmat_obj;
+
+        LLVector3 llvec1(3, 2, 1);
+        LLVector3 llvec2(6, 2, 1);
+        LLVector3 llvec3(3, 6, 8);
+
+        llmat_obj.setRows(llvec1, llvec2, llvec3);
+        llmat_obj.adjointTranspose();
+
+        ensure("LLMatrix3::adjointTranspose failed ", 10 == llmat_obj.mMatrix[0][0] &&
+                        -45 == llmat_obj.mMatrix[1][0] &&
+                        30 == llmat_obj.mMatrix[2][0] &&
+                        -10 == llmat_obj.mMatrix[0][1] &&
+                        21 == llmat_obj.mMatrix[1][1] &&
+                        -12 == llmat_obj.mMatrix[2][1] &&
+                        0  == llmat_obj.mMatrix[0][2] &&
+                        3 == llmat_obj.mMatrix[1][2] &&
+                        -6 == llmat_obj.mMatrix[2][2]);
+    }
+
+    /* TBD: Need to add test cases for getEulerAngles() and setRot() functions */
 }
diff --git a/indra/llmath/tests/mathmisc_test.cpp b/indra/llmath/tests/mathmisc_test.cpp
index f12140cf8f..163cf02350 100644
--- a/indra/llmath/tests/mathmisc_test.cpp
+++ b/indra/llmath/tests/mathmisc_test.cpp
@@ -1,4 +1,4 @@
-/** 
+/**
  * @file math.cpp
  * @author Phoenix
  * @date 2005-09-26
@@ -7,21 +7,21 @@
  * $LicenseInfo:firstyear=2005&license=viewerlgpl$
  * Second Life Viewer Source Code
  * Copyright (C) 2010, Linden Research, Inc.
- * 
+ *
  * This library is free software; you can redistribute it and/or
  * modify it under the terms of the GNU Lesser General Public
  * License as published by the Free Software Foundation;
  * version 2.1 of the License only.
- * 
+ *
  * This library is distributed in the hope that it will be useful,
  * but WITHOUT ANY WARRANTY; without even the implied warranty of
  * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the GNU
  * Lesser General Public License for more details.
- * 
+ *
  * You should have received a copy of the GNU Lesser General Public
  * License along with this library; if not, write to the Free Software
  * Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA  02110-1301  USA
- * 
+ *
  * Linden Research, Inc., 945 Battery Street, San Francisco, CA  94111  USA
  * $/LicenseInfo$
  */
@@ -40,684 +40,684 @@
 
 namespace tut
 {
-	struct math_data
-	{
-	};
-	typedef test_group<math_data> math_test;
-	typedef math_test::object math_object;
-	tut::math_test tm("BasicLindenMath");
-
-	template<> template<>
-	void math_object::test<1>()
-	{
-		S32 val = 89543;
-		val = llabs(val);
-		ensure("integer absolute value 1", (89543 == val));
-		val = -500;
-		val = llabs(val);
-		ensure("integer absolute value 2", (500 == val));
-	}
-
-	template<> template<>
-	void math_object::test<2>()
-	{
-		F32 val = -2583.4f;
-		val = llabs(val);
-		ensure("float absolute value 1", (2583.4f == val));
-		val = 430903.f;
-		val = llabs(val);
-		ensure("float absolute value 2", (430903.f == val));
-	}
-
-	template<> template<>
-	void math_object::test<3>()
-	{
-		F64 val = 387439393.987329839;
-		val = llabs(val);
-		ensure("double absolute value 1", (387439393.987329839 == val));
-		val = -8937843.9394878;
-		val = llabs(val);
-		ensure("double absolute value 2", (8937843.9394878 == val));
-	}
-
-	template<> template<>
-	void math_object::test<4>()
-	{
-		F32 val = 430903.9f;
-		S32 val1 = lltrunc(val);
-		ensure("float truncate value 1", (430903 == val1));
-		val = -2303.9f;
-		val1 = lltrunc(val);
-		ensure("float truncate value 2", (-2303  == val1));
-	}
-
-	template<> template<>
-	void math_object::test<5>()
-	{
-		F64 val = 387439393.987329839 ;
-		S32 val1 = lltrunc(val);
-		ensure("float truncate value 1", (387439393 == val1));
-		val = -387439393.987329839;
-		val1 = lltrunc(val);
-		ensure("float truncate value 2", (-387439393  == val1));
-	}
-
-	template<> template<>
-	void math_object::test<6>()
-	{
-		F32 val = 430903.2f;
-		S32 val1 = llfloor(val);
-		ensure("float llfloor value 1", (430903 == val1));
-		val = -430903.9f;
-		val1 = llfloor(val);
-		ensure("float llfloor value 2", (-430904 == val1));
-	}
-
-	template<> template<>
-	void math_object::test<7>()
-	{
-		F32 val = 430903.2f;
-		S32 val1 = llceil(val);
-		ensure("float llceil value 1", (430904 == val1));
-		val = -430903.9f;
-		val1 = llceil(val);
-		ensure("float llceil value 2", (-430903 == val1));
-	}
-
-	template<> template<>
-	void math_object::test<8>()
-	{
-		F32 val = 430903.2f;
-		S32 val1 = ll_round(val);
-		ensure("float ll_round value 1", (430903 == val1));
-		val = -430903.9f;
-		val1 = ll_round(val);
-		ensure("float ll_round value 2", (-430904 == val1));
-	}
-
-	template<> template<>
-	void math_object::test<9>()
-	{
-		F32 val = 430905.2654f, nearest = 100.f;
-		val = ll_round(val, nearest);
-		ensure("float ll_round value 1", (430900 == val));
-		val = -430905.2654f, nearest = 10.f;
-		val = ll_round(val, nearest);
-		ensure("float ll_round value 1", (-430910 == val));
-	}
-
-	template<> template<>
-	void math_object::test<10>()
-	{
-		F64 val = 430905.2654, nearest = 100.0;
-		val = ll_round(val, nearest);
-		ensure("double ll_round value 1", (430900 == val));
-		val = -430905.2654, nearest = 10.0;
-		val = ll_round(val, nearest);
-		ensure("double ll_round value 1", (-430910.00000 == val));
-	}
-
-	template<> template<>
-	void math_object::test<11>()
-	{
-		const F32	F_PI		= 3.1415926535897932384626433832795f;
-		F32 angle = 3506.f;
-		angle =  llsimple_angle(angle);
-		ensure("llsimple_angle  value 1", (angle <=F_PI && angle >= -F_PI));
-		angle = -431.f;
-		angle =  llsimple_angle(angle);
-		ensure("llsimple_angle  value 1", (angle <=F_PI && angle >= -F_PI));
-	}
+    struct math_data
+    {
+    };
+    typedef test_group<math_data> math_test;
+    typedef math_test::object math_object;
+    tut::math_test tm("BasicLindenMath");
+
+    template<> template<>
+    void math_object::test<1>()
+    {
+        S32 val = 89543;
+        val = llabs(val);
+        ensure("integer absolute value 1", (89543 == val));
+        val = -500;
+        val = llabs(val);
+        ensure("integer absolute value 2", (500 == val));
+    }
+
+    template<> template<>
+    void math_object::test<2>()
+    {
+        F32 val = -2583.4f;
+        val = llabs(val);
+        ensure("float absolute value 1", (2583.4f == val));
+        val = 430903.f;
+        val = llabs(val);
+        ensure("float absolute value 2", (430903.f == val));
+    }
+
+    template<> template<>
+    void math_object::test<3>()
+    {
+        F64 val = 387439393.987329839;
+        val = llabs(val);
+        ensure("double absolute value 1", (387439393.987329839 == val));
+        val = -8937843.9394878;
+        val = llabs(val);
+        ensure("double absolute value 2", (8937843.9394878 == val));
+    }
+
+    template<> template<>
+    void math_object::test<4>()
+    {
+        F32 val = 430903.9f;
+        S32 val1 = lltrunc(val);
+        ensure("float truncate value 1", (430903 == val1));
+        val = -2303.9f;
+        val1 = lltrunc(val);
+        ensure("float truncate value 2", (-2303  == val1));
+    }
+
+    template<> template<>
+    void math_object::test<5>()
+    {
+        F64 val = 387439393.987329839 ;
+        S32 val1 = lltrunc(val);
+        ensure("float truncate value 1", (387439393 == val1));
+        val = -387439393.987329839;
+        val1 = lltrunc(val);
+        ensure("float truncate value 2", (-387439393  == val1));
+    }
+
+    template<> template<>
+    void math_object::test<6>()
+    {
+        F32 val = 430903.2f;
+        S32 val1 = llfloor(val);
+        ensure("float llfloor value 1", (430903 == val1));
+        val = -430903.9f;
+        val1 = llfloor(val);
+        ensure("float llfloor value 2", (-430904 == val1));
+    }
+
+    template<> template<>
+    void math_object::test<7>()
+    {
+        F32 val = 430903.2f;
+        S32 val1 = llceil(val);
+        ensure("float llceil value 1", (430904 == val1));
+        val = -430903.9f;
+        val1 = llceil(val);
+        ensure("float llceil value 2", (-430903 == val1));
+    }
+
+    template<> template<>
+    void math_object::test<8>()
+    {
+        F32 val = 430903.2f;
+        S32 val1 = ll_round(val);
+        ensure("float ll_round value 1", (430903 == val1));
+        val = -430903.9f;
+        val1 = ll_round(val);
+        ensure("float ll_round value 2", (-430904 == val1));
+    }
+
+    template<> template<>
+    void math_object::test<9>()
+    {
+        F32 val = 430905.2654f, nearest = 100.f;
+        val = ll_round(val, nearest);
+        ensure("float ll_round value 1", (430900 == val));
+        val = -430905.2654f, nearest = 10.f;
+        val = ll_round(val, nearest);
+        ensure("float ll_round value 1", (-430910 == val));
+    }
+
+    template<> template<>
+    void math_object::test<10>()
+    {
+        F64 val = 430905.2654, nearest = 100.0;
+        val = ll_round(val, nearest);
+        ensure("double ll_round value 1", (430900 == val));
+        val = -430905.2654, nearest = 10.0;
+        val = ll_round(val, nearest);
+        ensure("double ll_round value 1", (-430910.00000 == val));
+    }
+
+    template<> template<>
+    void math_object::test<11>()
+    {
+        const F32   F_PI        = 3.1415926535897932384626433832795f;
+        F32 angle = 3506.f;
+        angle =  llsimple_angle(angle);
+        ensure("llsimple_angle  value 1", (angle <=F_PI && angle >= -F_PI));
+        angle = -431.f;
+        angle =  llsimple_angle(angle);
+        ensure("llsimple_angle  value 1", (angle <=F_PI && angle >= -F_PI));
+    }
 }
 
 namespace tut
 {
-	struct uuid_data
-	{
-		LLUUID id;
-	};
-	typedef test_group<uuid_data> uuid_test;
-	typedef uuid_test::object uuid_object;
-	tut::uuid_test tu("LLUUID");
-
-	template<> template<>
-	void uuid_object::test<1>()
-	{
-		ensure("uuid null", id.isNull());
-		id.generate();
-		ensure("generate not null", id.notNull());
-		id.setNull();
-		ensure("set null", id.isNull());
-	}
-
-	template<> template<>
-	void uuid_object::test<2>()
-	{
-		id.generate();
-		LLUUID a(id);
-		ensure_equals("copy equal", id, a);
-		a.generate();
-		ensure_not_equals("generate not equal", id, a);
-		a = id;
-		ensure_equals("assignment equal", id, a);
-	}
-
-	template<> template<>
-	void uuid_object::test<3>()
-	{
-		id.generate();
-		LLUUID copy(id);
-		LLUUID mask;
-		mask.generate();
-		copy ^= mask;
-		ensure_not_equals("mask not equal", id, copy);
-		copy ^= mask;
-		ensure_equals("mask back", id, copy);
-	}
-
-	template<> template<>
-	void uuid_object::test<4>()
-	{
-		id.generate();
-		std::string id_str = id.asString();
-		LLUUID copy(id_str.c_str());
-		ensure_equals("string serialization", id, copy);
-	}
-	
+    struct uuid_data
+    {
+        LLUUID id;
+    };
+    typedef test_group<uuid_data> uuid_test;
+    typedef uuid_test::object uuid_object;
+    tut::uuid_test tu("LLUUID");
+
+    template<> template<>
+    void uuid_object::test<1>()
+    {
+        ensure("uuid null", id.isNull());
+        id.generate();
+        ensure("generate not null", id.notNull());
+        id.setNull();
+        ensure("set null", id.isNull());
+    }
+
+    template<> template<>
+    void uuid_object::test<2>()
+    {
+        id.generate();
+        LLUUID a(id);
+        ensure_equals("copy equal", id, a);
+        a.generate();
+        ensure_not_equals("generate not equal", id, a);
+        a = id;
+        ensure_equals("assignment equal", id, a);
+    }
+
+    template<> template<>
+    void uuid_object::test<3>()
+    {
+        id.generate();
+        LLUUID copy(id);
+        LLUUID mask;
+        mask.generate();
+        copy ^= mask;
+        ensure_not_equals("mask not equal", id, copy);
+        copy ^= mask;
+        ensure_equals("mask back", id, copy);
+    }
+
+    template<> template<>
+    void uuid_object::test<4>()
+    {
+        id.generate();
+        std::string id_str = id.asString();
+        LLUUID copy(id_str.c_str());
+        ensure_equals("string serialization", id, copy);
+    }
+
 }
 
 namespace tut
 {
-	struct crc_data
-	{
-	};
-	typedef test_group<crc_data> crc_test;
-	typedef crc_test::object crc_object;
-	tut::crc_test tc("LLCrc");
-
-	template<> template<>
-	void crc_object::test<1>()
-	{
-		/* Test buffer update and individual char update */
-		const char TEST_BUFFER[] = "hello &#$)$&Nd0";
-		LLCRC c1, c2;
-		c1.update((U8*)TEST_BUFFER, sizeof(TEST_BUFFER) - 1);
-		char* rh = (char*)TEST_BUFFER;
-		while(*rh != '\0')
-		{
-			c2.update(*rh);
-			++rh;
-		}
-		ensure_equals("crc update 1", c1.getCRC(), c2.getCRC());
-	}
-
-	template<> template<>
-	void crc_object::test<2>()
-	{
-		/* Test mixing of buffer and individual char update */
-		const char TEST_BUFFER1[] = "Split Buffer one $^%$%#@$";
-		const char TEST_BUFFER2[] = "Split Buffer two )(8723#5dsds";
-		LLCRC c1, c2;
-		c1.update((U8*)TEST_BUFFER1, sizeof(TEST_BUFFER1) - 1);
-		char* rh = (char*)TEST_BUFFER2;
-		while(*rh != '\0')
-		{
-			c1.update(*rh);
-			++rh;
-		}
-
-		rh = (char*)TEST_BUFFER1;
-		while(*rh != '\0')
-		{
-			c2.update(*rh);
-			++rh;
-		}
-		c2.update((U8*)TEST_BUFFER2, sizeof(TEST_BUFFER2) - 1);
-
-		ensure_equals("crc update 2", c1.getCRC(), c2.getCRC());
-	}
+    struct crc_data
+    {
+    };
+    typedef test_group<crc_data> crc_test;
+    typedef crc_test::object crc_object;
+    tut::crc_test tc("LLCrc");
+
+    template<> template<>
+    void crc_object::test<1>()
+    {
+        /* Test buffer update and individual char update */
+        const char TEST_BUFFER[] = "hello &#$)$&Nd0";
+        LLCRC c1, c2;
+        c1.update((U8*)TEST_BUFFER, sizeof(TEST_BUFFER) - 1);
+        char* rh = (char*)TEST_BUFFER;
+        while(*rh != '\0')
+        {
+            c2.update(*rh);
+            ++rh;
+        }
+        ensure_equals("crc update 1", c1.getCRC(), c2.getCRC());
+    }
+
+    template<> template<>
+    void crc_object::test<2>()
+    {
+        /* Test mixing of buffer and individual char update */
+        const char TEST_BUFFER1[] = "Split Buffer one $^%$%#@$";
+        const char TEST_BUFFER2[] = "Split Buffer two )(8723#5dsds";
+        LLCRC c1, c2;
+        c1.update((U8*)TEST_BUFFER1, sizeof(TEST_BUFFER1) - 1);
+        char* rh = (char*)TEST_BUFFER2;
+        while(*rh != '\0')
+        {
+            c1.update(*rh);
+            ++rh;
+        }
+
+        rh = (char*)TEST_BUFFER1;
+        while(*rh != '\0')
+        {
+            c2.update(*rh);
+            ++rh;
+        }
+        c2.update((U8*)TEST_BUFFER2, sizeof(TEST_BUFFER2) - 1);
+
+        ensure_equals("crc update 2", c1.getCRC(), c2.getCRC());
+    }
 }
 
 namespace tut
 {
-	struct sphere_data
-	{
-	};
-	typedef test_group<sphere_data> sphere_test;
-	typedef sphere_test::object sphere_object;
-	tut::sphere_test tsphere("LLSphere");
-
-	template<> template<>
-	void sphere_object::test<1>()
-	{
-		// test LLSphere::contains() and ::overlaps()
-		S32 number_of_tests = 10;
-		for (S32 test = 0; test < number_of_tests; ++test)
-		{
-			LLVector3 first_center(1.f, 1.f, 1.f);
-			F32 first_radius = 3.f;
-			LLSphere first_sphere( first_center, first_radius );
-	
-			F32 half_millimeter = 0.0005f;
-			LLVector3 direction( ll_frand(2.f) - 1.f, ll_frand(2.f) - 1.f, ll_frand(2.f) - 1.f);
-			direction.normalize();
-	
-			F32 distance = ll_frand(first_radius - 2.f * half_millimeter);
-			LLVector3 second_center = first_center + distance * direction;
-			F32 second_radius = first_radius - distance - half_millimeter;
-			LLSphere second_sphere( second_center, second_radius );
-			ensure("first sphere should contain the second", first_sphere.contains(second_sphere));
-			ensure("first sphere should overlap the second", first_sphere.overlaps(second_sphere));
-	
-			distance = first_radius + ll_frand(first_radius);
-			second_center = first_center + distance * direction;
-			second_radius = distance - first_radius + half_millimeter;
-			second_sphere.set( second_center, second_radius );
-			ensure("first sphere should NOT contain the second", !first_sphere.contains(second_sphere));
-			ensure("first sphere should overlap the second", first_sphere.overlaps(second_sphere));
-	
-			distance = first_radius + ll_frand(first_radius) + half_millimeter;
-			second_center = first_center + distance * direction;
-			second_radius = distance - first_radius - half_millimeter;
-			second_sphere.set( second_center, second_radius );
-			ensure("first sphere should NOT contain the second", !first_sphere.contains(second_sphere));
-			ensure("first sphere should NOT overlap the second", !first_sphere.overlaps(second_sphere));
-		}
-	}
-
-	template<> template<>
-	void sphere_object::test<2>()
-	{
-		skip("See SNOW-620.  Neither the test nor the code being tested seem good.  Also sim-only.");
-
-		// test LLSphere::getBoundingSphere()
-		S32 number_of_tests = 100;
-		S32 number_of_spheres = 10;
-		F32 sphere_center_range = 32.f;
-		F32 sphere_radius_range = 5.f;
-
-		for (S32 test = 0; test < number_of_tests; ++test)
-		{
-			// gegnerate a bunch of random sphere
-			std::vector< LLSphere > sphere_list;
-			for (S32 sphere_count=0; sphere_count < number_of_spheres; ++sphere_count)
-			{
-				LLVector3 direction( ll_frand(2.f) - 1.f, ll_frand(2.f) - 1.f, ll_frand(2.f) - 1.f);
-				direction.normalize();
-				F32 distance = ll_frand(sphere_center_range);
-				LLVector3 center = distance * direction;
-				F32 radius = ll_frand(sphere_radius_range);
-				LLSphere sphere( center, radius );
-				sphere_list.push_back(sphere);
-			}
-
-			// compute the bounding sphere
-			LLSphere bounding_sphere = LLSphere::getBoundingSphere(sphere_list);
-
-			// make sure all spheres are inside the bounding sphere
-			{
-				std::vector< LLSphere >::const_iterator sphere_itr;
-				for (sphere_itr = sphere_list.begin(); sphere_itr != sphere_list.end(); ++sphere_itr)
-				{
-					ensure("sphere should be contained by the bounding sphere", bounding_sphere.contains(*sphere_itr));
-				}
-			}
-
-			// TODO -- improve LLSphere::getBoundingSphere() to the point where
-			// we can reduce the 'expansion' in the two tests below to about 
-			// 2 mm or less
-
-			F32 expansion = 0.005f;
-			// move all spheres out a little bit 
-			// and count how many are NOT contained
-			{
-				std::vector< LLVector3 > uncontained_directions;
-				std::vector< LLSphere >::iterator sphere_itr;
-				for (sphere_itr = sphere_list.begin(); sphere_itr != sphere_list.end(); ++sphere_itr)
-				{
-					LLVector3 direction = sphere_itr->getCenter() - bounding_sphere.getCenter();
-					direction.normalize();
-	
-					sphere_itr->setCenter( sphere_itr->getCenter() + expansion * direction );
-					if (! bounding_sphere.contains( *sphere_itr ) )
-					{
-						uncontained_directions.push_back(direction);
-					}
-				}
-				ensure("when moving spheres out there should be at least two uncontained spheres", 
-						uncontained_directions.size() > 1);
-
-				/* TODO -- when the bounding sphere algorithm is improved we can open up this test
-				 * at the moment it occasionally fails when the sphere collection is tight and small
-				 * (2 meters or less)
-				if (2 == uncontained_directions.size() )
-				{
-					// if there were only two uncontained spheres then
-					// the two directions should be nearly opposite
-					F32 dir_dot = uncontained_directions[0] * uncontained_directions[1];
-					ensure("two uncontained spheres should lie opposite the bounding center", dir_dot < -0.95f);
-				}
-				*/
-			}
-
-			// compute the new bounding sphere
-			bounding_sphere = LLSphere::getBoundingSphere(sphere_list);
-
-			// increase the size of all spheres a little bit
-			// and count how many are NOT contained
-			{
-				std::vector< LLVector3 > uncontained_directions;
-				std::vector< LLSphere >::iterator sphere_itr;
-				for (sphere_itr = sphere_list.begin(); sphere_itr != sphere_list.end(); ++sphere_itr)
-				{
-					LLVector3 direction = sphere_itr->getCenter() - bounding_sphere.getCenter();
-					direction.normalize();
-	
-					sphere_itr->setRadius( sphere_itr->getRadius() + expansion );
-					if (! bounding_sphere.contains( *sphere_itr ) )
-					{
-						uncontained_directions.push_back(direction);
-					}
-				}
-				ensure("when boosting sphere radii there should be at least two uncontained spheres", 
-						uncontained_directions.size() > 1);
-
-				/* TODO -- when the bounding sphere algorithm is improved we can open up this test
-				 * at the moment it occasionally fails when the sphere collection is tight and small
-				 * (2 meters or less)
-				if (2 == uncontained_directions.size() )
-				{
-					// if there were only two uncontained spheres then
-					// the two directions should be nearly opposite
-					F32 dir_dot = uncontained_directions[0] * uncontained_directions[1];
-					ensure("two uncontained spheres should lie opposite the bounding center", dir_dot < -0.95f);
-				}
-				*/
-			}
-		}
-	}
+    struct sphere_data
+    {
+    };
+    typedef test_group<sphere_data> sphere_test;
+    typedef sphere_test::object sphere_object;
+    tut::sphere_test tsphere("LLSphere");
+
+    template<> template<>
+    void sphere_object::test<1>()
+    {
+        // test LLSphere::contains() and ::overlaps()
+        S32 number_of_tests = 10;
+        for (S32 test = 0; test < number_of_tests; ++test)
+        {
+            LLVector3 first_center(1.f, 1.f, 1.f);
+            F32 first_radius = 3.f;
+            LLSphere first_sphere( first_center, first_radius );
+
+            F32 half_millimeter = 0.0005f;
+            LLVector3 direction( ll_frand(2.f) - 1.f, ll_frand(2.f) - 1.f, ll_frand(2.f) - 1.f);
+            direction.normalize();
+
+            F32 distance = ll_frand(first_radius - 2.f * half_millimeter);
+            LLVector3 second_center = first_center + distance * direction;
+            F32 second_radius = first_radius - distance - half_millimeter;
+            LLSphere second_sphere( second_center, second_radius );
+            ensure("first sphere should contain the second", first_sphere.contains(second_sphere));
+            ensure("first sphere should overlap the second", first_sphere.overlaps(second_sphere));
+
+            distance = first_radius + ll_frand(first_radius);
+            second_center = first_center + distance * direction;
+            second_radius = distance - first_radius + half_millimeter;
+            second_sphere.set( second_center, second_radius );
+            ensure("first sphere should NOT contain the second", !first_sphere.contains(second_sphere));
+            ensure("first sphere should overlap the second", first_sphere.overlaps(second_sphere));
+
+            distance = first_radius + ll_frand(first_radius) + half_millimeter;
+            second_center = first_center + distance * direction;
+            second_radius = distance - first_radius - half_millimeter;
+            second_sphere.set( second_center, second_radius );
+            ensure("first sphere should NOT contain the second", !first_sphere.contains(second_sphere));
+            ensure("first sphere should NOT overlap the second", !first_sphere.overlaps(second_sphere));
+        }
+    }
+
+    template<> template<>
+    void sphere_object::test<2>()
+    {
+        skip("See SNOW-620.  Neither the test nor the code being tested seem good.  Also sim-only.");
+
+        // test LLSphere::getBoundingSphere()
+        S32 number_of_tests = 100;
+        S32 number_of_spheres = 10;
+        F32 sphere_center_range = 32.f;
+        F32 sphere_radius_range = 5.f;
+
+        for (S32 test = 0; test < number_of_tests; ++test)
+        {
+            // gegnerate a bunch of random sphere
+            std::vector< LLSphere > sphere_list;
+            for (S32 sphere_count=0; sphere_count < number_of_spheres; ++sphere_count)
+            {
+                LLVector3 direction( ll_frand(2.f) - 1.f, ll_frand(2.f) - 1.f, ll_frand(2.f) - 1.f);
+                direction.normalize();
+                F32 distance = ll_frand(sphere_center_range);
+                LLVector3 center = distance * direction;
+                F32 radius = ll_frand(sphere_radius_range);
+                LLSphere sphere( center, radius );
+                sphere_list.push_back(sphere);
+            }
+
+            // compute the bounding sphere
+            LLSphere bounding_sphere = LLSphere::getBoundingSphere(sphere_list);
+
+            // make sure all spheres are inside the bounding sphere
+            {
+                std::vector< LLSphere >::const_iterator sphere_itr;
+                for (sphere_itr = sphere_list.begin(); sphere_itr != sphere_list.end(); ++sphere_itr)
+                {
+                    ensure("sphere should be contained by the bounding sphere", bounding_sphere.contains(*sphere_itr));
+                }
+            }
+
+            // TODO -- improve LLSphere::getBoundingSphere() to the point where
+            // we can reduce the 'expansion' in the two tests below to about
+            // 2 mm or less
+
+            F32 expansion = 0.005f;
+            // move all spheres out a little bit
+            // and count how many are NOT contained
+            {
+                std::vector< LLVector3 > uncontained_directions;
+                std::vector< LLSphere >::iterator sphere_itr;
+                for (sphere_itr = sphere_list.begin(); sphere_itr != sphere_list.end(); ++sphere_itr)
+                {
+                    LLVector3 direction = sphere_itr->getCenter() - bounding_sphere.getCenter();
+                    direction.normalize();
+
+                    sphere_itr->setCenter( sphere_itr->getCenter() + expansion * direction );
+                    if (! bounding_sphere.contains( *sphere_itr ) )
+                    {
+                        uncontained_directions.push_back(direction);
+                    }
+                }
+                ensure("when moving spheres out there should be at least two uncontained spheres",
+                        uncontained_directions.size() > 1);
+
+                /* TODO -- when the bounding sphere algorithm is improved we can open up this test
+                 * at the moment it occasionally fails when the sphere collection is tight and small
+                 * (2 meters or less)
+                if (2 == uncontained_directions.size() )
+                {
+                    // if there were only two uncontained spheres then
+                    // the two directions should be nearly opposite
+                    F32 dir_dot = uncontained_directions[0] * uncontained_directions[1];
+                    ensure("two uncontained spheres should lie opposite the bounding center", dir_dot < -0.95f);
+                }
+                */
+            }
+
+            // compute the new bounding sphere
+            bounding_sphere = LLSphere::getBoundingSphere(sphere_list);
+
+            // increase the size of all spheres a little bit
+            // and count how many are NOT contained
+            {
+                std::vector< LLVector3 > uncontained_directions;
+                std::vector< LLSphere >::iterator sphere_itr;
+                for (sphere_itr = sphere_list.begin(); sphere_itr != sphere_list.end(); ++sphere_itr)
+                {
+                    LLVector3 direction = sphere_itr->getCenter() - bounding_sphere.getCenter();
+                    direction.normalize();
+
+                    sphere_itr->setRadius( sphere_itr->getRadius() + expansion );
+                    if (! bounding_sphere.contains( *sphere_itr ) )
+                    {
+                        uncontained_directions.push_back(direction);
+                    }
+                }
+                ensure("when boosting sphere radii there should be at least two uncontained spheres",
+                        uncontained_directions.size() > 1);
+
+                /* TODO -- when the bounding sphere algorithm is improved we can open up this test
+                 * at the moment it occasionally fails when the sphere collection is tight and small
+                 * (2 meters or less)
+                if (2 == uncontained_directions.size() )
+                {
+                    // if there were only two uncontained spheres then
+                    // the two directions should be nearly opposite
+                    F32 dir_dot = uncontained_directions[0] * uncontained_directions[1];
+                    ensure("two uncontained spheres should lie opposite the bounding center", dir_dot < -0.95f);
+                }
+                */
+            }
+        }
+    }
 }
 
 namespace tut
 {
-	F32 SMALL_RADIUS = 1.0f;
-	F32 MEDIUM_RADIUS = 5.0f;
-	F32 LARGE_RADIUS = 10.0f;
-
-	struct line_data
-	{
-	};
-	typedef test_group<line_data> line_test;
-	typedef line_test::object line_object;
-	tut::line_test tline("LLLine");
-
-	template<> template<>
-	void line_object::test<1>()
-	{
-		// this is a test for LLLine::intersects(point) which returns TRUE 
-		// if the line passes within some tolerance of point
-
-		// these tests will have some floating point error, 
-		// so we need to specify how much error is ok
-		F32 allowable_relative_error = 0.00001f;
-		S32 number_of_tests = 100;
-		for (S32 test = 0; test < number_of_tests; ++test)
-		{
-			// generate some random point to be on the line
-			LLVector3 point_on_line( ll_frand(2.f) - 1.f, 
-			   						 ll_frand(2.f) - 1.f, 
-			   						 ll_frand(2.f) - 1.f);
-			point_on_line.normalize();
-			point_on_line *= ll_frand(LARGE_RADIUS);
-
-			// generate some random point to "intersect"
-			LLVector3 random_direction ( ll_frand(2.f) - 1.f, 
-			   							 ll_frand(2.f) - 1.f, 
-			   							 ll_frand(2.f) - 1.f);
-			random_direction.normalize();
-
-			LLVector3 random_offset( ll_frand(2.f) - 1.f, 
-			   						 ll_frand(2.f) - 1.f, 
-			   						 ll_frand(2.f) - 1.f);
-			random_offset.normalize();
-			random_offset *= ll_frand(SMALL_RADIUS);
-
-			LLVector3 point = point_on_line + MEDIUM_RADIUS * random_direction
-				+ random_offset;
-	
-			// compute the axis of approach (a unit vector between the points)
-			LLVector3 axis_of_approach = point - point_on_line;
-			axis_of_approach.normalize();
-	
-			// compute the direction of the the first line (perp to axis_of_approach)
-			LLVector3 first_dir( ll_frand(2.f) - 1.f, 
-			   					 ll_frand(2.f) - 1.f, 
-			   					 ll_frand(2.f) - 1.f);
-			first_dir.normalize();
-			F32 dot = first_dir * axis_of_approach;		
-			first_dir -= dot * axis_of_approach;	// subtract component parallel to axis
-			first_dir.normalize();
-	
-			// construct the line
-			LLVector3 another_point_on_line = point_on_line + ll_frand(LARGE_RADIUS) * first_dir;
-			LLLine line(another_point_on_line, point_on_line);
-	
-			// test that the intersection point is within MEDIUM_RADIUS + SMALL_RADIUS
-			F32 test_radius = MEDIUM_RADIUS + SMALL_RADIUS;
-			test_radius += (LARGE_RADIUS * allowable_relative_error);
-			ensure("line should pass near intersection point", line.intersects(point, test_radius));
-
-			test_radius = allowable_relative_error * (point - point_on_line).length();
-			ensure("line should intersect point used to define it", line.intersects(point_on_line, test_radius));
-		}
-	}
-
-	template<> template<>
-	void line_object::test<2>()
-	{
+    F32 SMALL_RADIUS = 1.0f;
+    F32 MEDIUM_RADIUS = 5.0f;
+    F32 LARGE_RADIUS = 10.0f;
+
+    struct line_data
+    {
+    };
+    typedef test_group<line_data> line_test;
+    typedef line_test::object line_object;
+    tut::line_test tline("LLLine");
+
+    template<> template<>
+    void line_object::test<1>()
+    {
+        // this is a test for LLLine::intersects(point) which returns TRUE
+        // if the line passes within some tolerance of point
+
+        // these tests will have some floating point error,
+        // so we need to specify how much error is ok
+        F32 allowable_relative_error = 0.00001f;
+        S32 number_of_tests = 100;
+        for (S32 test = 0; test < number_of_tests; ++test)
+        {
+            // generate some random point to be on the line
+            LLVector3 point_on_line( ll_frand(2.f) - 1.f,
+                                     ll_frand(2.f) - 1.f,
+                                     ll_frand(2.f) - 1.f);
+            point_on_line.normalize();
+            point_on_line *= ll_frand(LARGE_RADIUS);
+
+            // generate some random point to "intersect"
+            LLVector3 random_direction ( ll_frand(2.f) - 1.f,
+                                         ll_frand(2.f) - 1.f,
+                                         ll_frand(2.f) - 1.f);
+            random_direction.normalize();
+
+            LLVector3 random_offset( ll_frand(2.f) - 1.f,
+                                     ll_frand(2.f) - 1.f,
+                                     ll_frand(2.f) - 1.f);
+            random_offset.normalize();
+            random_offset *= ll_frand(SMALL_RADIUS);
+
+            LLVector3 point = point_on_line + MEDIUM_RADIUS * random_direction
+                + random_offset;
+
+            // compute the axis of approach (a unit vector between the points)
+            LLVector3 axis_of_approach = point - point_on_line;
+            axis_of_approach.normalize();
+
+            // compute the direction of the the first line (perp to axis_of_approach)
+            LLVector3 first_dir( ll_frand(2.f) - 1.f,
+                                 ll_frand(2.f) - 1.f,
+                                 ll_frand(2.f) - 1.f);
+            first_dir.normalize();
+            F32 dot = first_dir * axis_of_approach;
+            first_dir -= dot * axis_of_approach;    // subtract component parallel to axis
+            first_dir.normalize();
+
+            // construct the line
+            LLVector3 another_point_on_line = point_on_line + ll_frand(LARGE_RADIUS) * first_dir;
+            LLLine line(another_point_on_line, point_on_line);
+
+            // test that the intersection point is within MEDIUM_RADIUS + SMALL_RADIUS
+            F32 test_radius = MEDIUM_RADIUS + SMALL_RADIUS;
+            test_radius += (LARGE_RADIUS * allowable_relative_error);
+            ensure("line should pass near intersection point", line.intersects(point, test_radius));
+
+            test_radius = allowable_relative_error * (point - point_on_line).length();
+            ensure("line should intersect point used to define it", line.intersects(point_on_line, test_radius));
+        }
+    }
+
+    template<> template<>
+    void line_object::test<2>()
+    {
           /*
             These tests fail intermittently on all platforms - see DEV-16600
             Commenting this out until dev has time to investigate.
-            
-		// this is a test for LLLine::nearestApproach(LLLIne) method
-		// which computes the point on a line nearest another line
-
-		// these tests will have some floating point error, 
-		// so we need to specify how much error is ok
-		// TODO -- make nearestApproach() algorithm more accurate so
-		// we can tighten the allowable_error.  Most tests are tighter
-		// than one milimeter, however when doing randomized testing
-		// you can walk into inaccurate cases.
-		F32 allowable_relative_error = 0.001f;
-		S32 number_of_tests = 100;
-		for (S32 test = 0; test < number_of_tests; ++test)
-		{
-			// generate two points to be our known nearest approaches
-			LLVector3 some_point( ll_frand(2.f) - 1.f, 
-			   					  ll_frand(2.f) - 1.f, 
-			   					  ll_frand(2.f) - 1.f);
-			some_point.normalize();
-			some_point *= ll_frand(LARGE_RADIUS);
-
-			LLVector3 another_point( ll_frand(2.f) - 1.f, 
-			   						 ll_frand(2.f) - 1.f, 
-			   						 ll_frand(2.f) - 1.f);
-			another_point.normalize();
-			another_point *= ll_frand(LARGE_RADIUS);
-
-			// compute the axis of approach (a unit vector between the points)
-			LLVector3 axis_of_approach = another_point - some_point;
-			axis_of_approach.normalize();
-	
-			// compute the direction of the the first line (perp to axis_of_approach)
-			LLVector3 first_dir( ll_frand(2.f) - 1.f, 
-			   					 ll_frand(2.f) - 1.f, 
-			   					 ll_frand(2.f) - 1.f);
-			F32 dot = first_dir * axis_of_approach;		
-			first_dir -= dot * axis_of_approach;		// subtract component parallel to axis
-			first_dir.normalize();						// normalize
-	
-			// compute the direction of the the second line
-			LLVector3 second_dir( ll_frand(2.f) - 1.f, 
-			   					  ll_frand(2.f) - 1.f, 
-			   					  ll_frand(2.f) - 1.f);
-			dot = second_dir * axis_of_approach;		
-			second_dir -= dot * axis_of_approach;
-			second_dir.normalize();
-
-			// make sure the lines aren't too parallel, 
-			dot = fabsf(first_dir * second_dir);
-			if (dot > 0.99f)
-			{
-				// skip this test, we're not interested in testing 
-				// the intractible cases
-				continue;
-			}
-	
-			// construct the lines
-			LLVector3 first_point = some_point + ll_frand(LARGE_RADIUS) * first_dir;
-			LLLine first_line(first_point, some_point);
-	
-			LLVector3 second_point = another_point + ll_frand(LARGE_RADIUS) * second_dir;
-			LLLine second_line(second_point, another_point);
-	
-			// compute the points of nearest approach
-			LLVector3 some_computed_point = first_line.nearestApproach(second_line);
-			LLVector3 another_computed_point = second_line.nearestApproach(first_line);
-	
-			// compute the error
-			F32 first_error = (some_point - some_computed_point).length();
-			F32 scale = llmax((some_point - another_point).length(), some_point.length());
-			scale = llmax(scale, another_point.length());
-			scale = llmax(scale, 1.f);
-			F32 first_relative_error = first_error / scale;
-
-			F32 second_error = (another_point - another_computed_point).length();
-			F32 second_relative_error = second_error / scale;
-
-			//if (first_relative_error > allowable_relative_error)
-			//{
-			//	std::cout << "first_error = " << first_error 
-			//		<< "  first_relative_error = " << first_relative_error 
-			//		<< "  scale = " << scale 
-			//		<< "  dir_dot = " << (first_dir * second_dir)
-			//		<< std::endl;
-			//}
-			//if (second_relative_error > allowable_relative_error)
-			//{
-			//	std::cout << "second_error = " << second_error 
-			//		<< "  second_relative_error = " << second_relative_error 
-			//		<< "  scale = " << scale 
-			//		<< "  dist = " << (some_point - another_point).length()
-			//		<< "  dir_dot = " << (first_dir * second_dir)
-			//		<< std::endl;
-			//}
-
-			// test that the errors are small
-
-			ensure("first line should accurately compute its closest approach", 
-					first_relative_error <= allowable_relative_error);
-			ensure("second line should accurately compute its closest approach", 
-					second_relative_error <= allowable_relative_error);
-		}
+
+        // this is a test for LLLine::nearestApproach(LLLIne) method
+        // which computes the point on a line nearest another line
+
+        // these tests will have some floating point error,
+        // so we need to specify how much error is ok
+        // TODO -- make nearestApproach() algorithm more accurate so
+        // we can tighten the allowable_error.  Most tests are tighter
+        // than one milimeter, however when doing randomized testing
+        // you can walk into inaccurate cases.
+        F32 allowable_relative_error = 0.001f;
+        S32 number_of_tests = 100;
+        for (S32 test = 0; test < number_of_tests; ++test)
+        {
+            // generate two points to be our known nearest approaches
+            LLVector3 some_point( ll_frand(2.f) - 1.f,
+                                  ll_frand(2.f) - 1.f,
+                                  ll_frand(2.f) - 1.f);
+            some_point.normalize();
+            some_point *= ll_frand(LARGE_RADIUS);
+
+            LLVector3 another_point( ll_frand(2.f) - 1.f,
+                                     ll_frand(2.f) - 1.f,
+                                     ll_frand(2.f) - 1.f);
+            another_point.normalize();
+            another_point *= ll_frand(LARGE_RADIUS);
+
+            // compute the axis of approach (a unit vector between the points)
+            LLVector3 axis_of_approach = another_point - some_point;
+            axis_of_approach.normalize();
+
+            // compute the direction of the the first line (perp to axis_of_approach)
+            LLVector3 first_dir( ll_frand(2.f) - 1.f,
+                                 ll_frand(2.f) - 1.f,
+                                 ll_frand(2.f) - 1.f);
+            F32 dot = first_dir * axis_of_approach;
+            first_dir -= dot * axis_of_approach;        // subtract component parallel to axis
+            first_dir.normalize();                      // normalize
+
+            // compute the direction of the the second line
+            LLVector3 second_dir( ll_frand(2.f) - 1.f,
+                                  ll_frand(2.f) - 1.f,
+                                  ll_frand(2.f) - 1.f);
+            dot = second_dir * axis_of_approach;
+            second_dir -= dot * axis_of_approach;
+            second_dir.normalize();
+
+            // make sure the lines aren't too parallel,
+            dot = fabsf(first_dir * second_dir);
+            if (dot > 0.99f)
+            {
+                // skip this test, we're not interested in testing
+                // the intractible cases
+                continue;
+            }
+
+            // construct the lines
+            LLVector3 first_point = some_point + ll_frand(LARGE_RADIUS) * first_dir;
+            LLLine first_line(first_point, some_point);
+
+            LLVector3 second_point = another_point + ll_frand(LARGE_RADIUS) * second_dir;
+            LLLine second_line(second_point, another_point);
+
+            // compute the points of nearest approach
+            LLVector3 some_computed_point = first_line.nearestApproach(second_line);
+            LLVector3 another_computed_point = second_line.nearestApproach(first_line);
+
+            // compute the error
+            F32 first_error = (some_point - some_computed_point).length();
+            F32 scale = llmax((some_point - another_point).length(), some_point.length());
+            scale = llmax(scale, another_point.length());
+            scale = llmax(scale, 1.f);
+            F32 first_relative_error = first_error / scale;
+
+            F32 second_error = (another_point - another_computed_point).length();
+            F32 second_relative_error = second_error / scale;
+
+            //if (first_relative_error > allowable_relative_error)
+            //{
+            //  std::cout << "first_error = " << first_error
+            //      << "  first_relative_error = " << first_relative_error
+            //      << "  scale = " << scale
+            //      << "  dir_dot = " << (first_dir * second_dir)
+            //      << std::endl;
+            //}
+            //if (second_relative_error > allowable_relative_error)
+            //{
+            //  std::cout << "second_error = " << second_error
+            //      << "  second_relative_error = " << second_relative_error
+            //      << "  scale = " << scale
+            //      << "  dist = " << (some_point - another_point).length()
+            //      << "  dir_dot = " << (first_dir * second_dir)
+            //      << std::endl;
+            //}
+
+            // test that the errors are small
+
+            ensure("first line should accurately compute its closest approach",
+                    first_relative_error <= allowable_relative_error);
+            ensure("second line should accurately compute its closest approach",
+                    second_relative_error <= allowable_relative_error);
+        }
           */
-	}
-
-	F32 ALMOST_PARALLEL = 0.99f;
-	template<> template<>
-	void line_object::test<3>()
-	{
-		// this is a test for LLLine::getIntersectionBetweenTwoPlanes() method
-
-		// first some known tests
-		LLLine xy_plane(LLVector3(0.f, 0.f, 2.f), LLVector3(0.f, 0.f, 3.f));
-		LLLine yz_plane(LLVector3(2.f, 0.f, 0.f), LLVector3(3.f, 0.f, 0.f));
-		LLLine zx_plane(LLVector3(0.f, 2.f, 0.f), LLVector3(0.f, 3.f, 0.f));
-
-		LLLine x_line;
-		LLLine y_line;
-		LLLine z_line;
-
-		bool x_success = LLLine::getIntersectionBetweenTwoPlanes(x_line, xy_plane, zx_plane);
-		bool y_success = LLLine::getIntersectionBetweenTwoPlanes(y_line, yz_plane, xy_plane);
-		bool z_success = LLLine::getIntersectionBetweenTwoPlanes(z_line, zx_plane, yz_plane);
-
-		ensure("xy and zx planes should intersect", x_success);
-		ensure("yz and xy planes should intersect", y_success);
-		ensure("zx and yz planes should intersect", z_success);
-
-		LLVector3 direction = x_line.getDirection();
-		ensure("x_line should be parallel to x_axis", fabs(direction.mV[VX]) == 1.f
-				                                      && 0.f == direction.mV[VY]
-				                                      && 0.f == direction.mV[VZ] );
-		direction = y_line.getDirection();
-		ensure("y_line should be parallel to y_axis", 0.f == direction.mV[VX]
-													  && fabs(direction.mV[VY]) == 1.f
-				                                      && 0.f == direction.mV[VZ] );
-		direction = z_line.getDirection();
-		ensure("z_line should be parallel to z_axis", 0.f == direction.mV[VX]
-				                                      && 0.f == direction.mV[VY]
-													  && fabs(direction.mV[VZ]) == 1.f );
-
-		// next some random tests
-		F32 allowable_relative_error = 0.0001f;
-		S32 number_of_tests = 20;
-		for (S32 test = 0; test < number_of_tests; ++test)
-		{
-			// generate the known line
-			LLVector3 some_point( ll_frand(2.f) - 1.f, 
-			   					  ll_frand(2.f) - 1.f, 
-			   					  ll_frand(2.f) - 1.f);
-			some_point.normalize();
-			some_point *= ll_frand(LARGE_RADIUS);
-			LLVector3 another_point( ll_frand(2.f) - 1.f, 
-			   						 ll_frand(2.f) - 1.f, 
-			   						 ll_frand(2.f) - 1.f);
-			another_point.normalize();
-			another_point *= ll_frand(LARGE_RADIUS);
-			LLLine known_intersection(some_point, another_point);
-
-			// compute a plane that intersect the line
-			LLVector3 point_on_plane( ll_frand(2.f) - 1.f, 
-			   						  ll_frand(2.f) - 1.f, 
-			   						  ll_frand(2.f) - 1.f);
-			point_on_plane.normalize();
-			point_on_plane *= ll_frand(LARGE_RADIUS);
-			LLVector3 plane_normal = (point_on_plane - some_point) % known_intersection.getDirection();
-			plane_normal.normalize();
-			LLLine first_plane(point_on_plane, point_on_plane + plane_normal);
-
-			// compute a different plane that intersect the line
-			LLVector3 point_on_different_plane( ll_frand(2.f) - 1.f, 
-			   									ll_frand(2.f) - 1.f, 
-			   									ll_frand(2.f) - 1.f);
-			point_on_different_plane.normalize();
-			point_on_different_plane *= ll_frand(LARGE_RADIUS);
-			LLVector3 different_plane_normal = (point_on_different_plane - another_point) % known_intersection.getDirection();
-			different_plane_normal.normalize();
-			LLLine second_plane(point_on_different_plane, point_on_different_plane + different_plane_normal);
-
-			if (fabs(plane_normal * different_plane_normal) > ALMOST_PARALLEL)
-			{
-				// the two planes are approximately parallel, so we won't test this case
-				continue;
-			}
-
-			LLLine measured_intersection;
-			bool success = LLLine::getIntersectionBetweenTwoPlanes(
-					measured_intersection,
-					first_plane,
-					second_plane);
-
-			ensure("plane intersection should succeed", success);
-
-			F32 dot = fabs(known_intersection.getDirection() * measured_intersection.getDirection());
-			ensure("measured intersection should be parallel to known intersection",
-					dot > ALMOST_PARALLEL);
-
-			ensure("measured intersection should pass near known point",
-					measured_intersection.intersects(some_point, LARGE_RADIUS * allowable_relative_error));
-		}
-	}
+    }
+
+    F32 ALMOST_PARALLEL = 0.99f;
+    template<> template<>
+    void line_object::test<3>()
+    {
+        // this is a test for LLLine::getIntersectionBetweenTwoPlanes() method
+
+        // first some known tests
+        LLLine xy_plane(LLVector3(0.f, 0.f, 2.f), LLVector3(0.f, 0.f, 3.f));
+        LLLine yz_plane(LLVector3(2.f, 0.f, 0.f), LLVector3(3.f, 0.f, 0.f));
+        LLLine zx_plane(LLVector3(0.f, 2.f, 0.f), LLVector3(0.f, 3.f, 0.f));
+
+        LLLine x_line;
+        LLLine y_line;
+        LLLine z_line;
+
+        bool x_success = LLLine::getIntersectionBetweenTwoPlanes(x_line, xy_plane, zx_plane);
+        bool y_success = LLLine::getIntersectionBetweenTwoPlanes(y_line, yz_plane, xy_plane);
+        bool z_success = LLLine::getIntersectionBetweenTwoPlanes(z_line, zx_plane, yz_plane);
+
+        ensure("xy and zx planes should intersect", x_success);
+        ensure("yz and xy planes should intersect", y_success);
+        ensure("zx and yz planes should intersect", z_success);
+
+        LLVector3 direction = x_line.getDirection();
+        ensure("x_line should be parallel to x_axis", fabs(direction.mV[VX]) == 1.f
+                                                      && 0.f == direction.mV[VY]
+                                                      && 0.f == direction.mV[VZ] );
+        direction = y_line.getDirection();
+        ensure("y_line should be parallel to y_axis", 0.f == direction.mV[VX]
+                                                      && fabs(direction.mV[VY]) == 1.f
+                                                      && 0.f == direction.mV[VZ] );
+        direction = z_line.getDirection();
+        ensure("z_line should be parallel to z_axis", 0.f == direction.mV[VX]
+                                                      && 0.f == direction.mV[VY]
+                                                      && fabs(direction.mV[VZ]) == 1.f );
+
+        // next some random tests
+        F32 allowable_relative_error = 0.0001f;
+        S32 number_of_tests = 20;
+        for (S32 test = 0; test < number_of_tests; ++test)
+        {
+            // generate the known line
+            LLVector3 some_point( ll_frand(2.f) - 1.f,
+                                  ll_frand(2.f) - 1.f,
+                                  ll_frand(2.f) - 1.f);
+            some_point.normalize();
+            some_point *= ll_frand(LARGE_RADIUS);
+            LLVector3 another_point( ll_frand(2.f) - 1.f,
+                                     ll_frand(2.f) - 1.f,
+                                     ll_frand(2.f) - 1.f);
+            another_point.normalize();
+            another_point *= ll_frand(LARGE_RADIUS);
+            LLLine known_intersection(some_point, another_point);
+
+            // compute a plane that intersect the line
+            LLVector3 point_on_plane( ll_frand(2.f) - 1.f,
+                                      ll_frand(2.f) - 1.f,
+                                      ll_frand(2.f) - 1.f);
+            point_on_plane.normalize();
+            point_on_plane *= ll_frand(LARGE_RADIUS);
+            LLVector3 plane_normal = (point_on_plane - some_point) % known_intersection.getDirection();
+            plane_normal.normalize();
+            LLLine first_plane(point_on_plane, point_on_plane + plane_normal);
+
+            // compute a different plane that intersect the line
+            LLVector3 point_on_different_plane( ll_frand(2.f) - 1.f,
+                                                ll_frand(2.f) - 1.f,
+                                                ll_frand(2.f) - 1.f);
+            point_on_different_plane.normalize();
+            point_on_different_plane *= ll_frand(LARGE_RADIUS);
+            LLVector3 different_plane_normal = (point_on_different_plane - another_point) % known_intersection.getDirection();
+            different_plane_normal.normalize();
+            LLLine second_plane(point_on_different_plane, point_on_different_plane + different_plane_normal);
+
+            if (fabs(plane_normal * different_plane_normal) > ALMOST_PARALLEL)
+            {
+                // the two planes are approximately parallel, so we won't test this case
+                continue;
+            }
+
+            LLLine measured_intersection;
+            bool success = LLLine::getIntersectionBetweenTwoPlanes(
+                    measured_intersection,
+                    first_plane,
+                    second_plane);
+
+            ensure("plane intersection should succeed", success);
+
+            F32 dot = fabs(known_intersection.getDirection() * measured_intersection.getDirection());
+            ensure("measured intersection should be parallel to known intersection",
+                    dot > ALMOST_PARALLEL);
+
+            ensure("measured intersection should pass near known point",
+                    measured_intersection.intersects(some_point, LARGE_RADIUS * allowable_relative_error));
+        }
+    }
 }
 
diff --git a/indra/llmath/tests/v2math_test.cpp b/indra/llmath/tests/v2math_test.cpp
index 4d6a2eca93..f66142c6a7 100644
--- a/indra/llmath/tests/v2math_test.cpp
+++ b/indra/llmath/tests/v2math_test.cpp
@@ -7,442 +7,442 @@
  * $LicenseInfo:firstyear=2007&license=viewerlgpl$
  * Second Life Viewer Source Code
  * Copyright (C) 2010, Linden Research, Inc.
- * 
+ *
  * This library is free software; you can redistribute it and/or
  * modify it under the terms of the GNU Lesser General Public
  * License as published by the Free Software Foundation;
  * version 2.1 of the License only.
- * 
+ *
  * This library is distributed in the hope that it will be useful,
  * but WITHOUT ANY WARRANTY; without even the implied warranty of
  * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the GNU
  * Lesser General Public License for more details.
- * 
+ *
  * You should have received a copy of the GNU Lesser General Public
  * License along with this library; if not, write to the Free Software
  * Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA  02110-1301  USA
- * 
+ *
  * Linden Research, Inc., 945 Battery Street, San Francisco, CA  94111  USA
  * $/LicenseInfo$
  */
 
 #include "linden_common.h"
-#include "../test/lltut.h" 
+#include "../test/lltut.h"
 
 #include "../v2math.h"
 
 
 namespace tut
 {
-	struct v2math_data
-	{
-	};
-	typedef test_group<v2math_data> v2math_test;
-	typedef v2math_test::object v2math_object;
-	tut::v2math_test v2math_testcase("v2math_h");
-
-	template<> template<>
-	void v2math_object::test<1>()
-	{
-		LLVector2 vec2;
-		ensure("LLVector2:Fail to initialize ", (0.f == vec2.mV[VX] && 0.f == vec2.mV[VY]));
-
-		F32 x =2.0f, y = 3.2f ;
-		LLVector2 vec3(x,y);
-		ensure("LLVector2(F32 x, F32 y):Fail to initialize ", (x == vec3.mV[VX]) && (y == vec3.mV[VY]));
-
-		const F32 vec[2] = {3.2f, 4.5f};
-		LLVector2 vec4(vec);
-		ensure("LLVector2(const F32 *vec):Fail to initialize ", (vec[0] == vec4.mV[VX]) && (vec[1] == vec4.mV[VY]));
-
-		vec4.clearVec();
-		ensure("clearVec():Fail to clean the values ", (0.f == vec4.mV[VX] && 0.f == vec4.mV[VY]));
-
-		vec3.zeroVec();
-		ensure("zeroVec():Fail to fill the zero ", (0.f == vec3.mV[VX] && 0.f == vec3.mV[VY]));
-	}
-
-	template<> template<>
-	void v2math_object::test<2>()
-	{
-		F32 x = 123.356f, y = 2387.453f;
-		LLVector2 vec2,vec3;
-		vec2.setVec(x, y);
-		ensure("1:setVec: Fail  ", (x == vec2.mV[VX]) && (y == vec2.mV[VY]));
-
-		vec3.setVec(vec2);
-		ensure("2:setVec: Fail   " ,(vec2 == vec3));
-
-		vec3.zeroVec();
-		const F32 vec[2] = {3.24653f, 457653.4f};
-		vec3.setVec(vec);
-		ensure("3:setVec: Fail  ", (vec[0] == vec3.mV[VX]) && (vec[1] == vec3.mV[VY]));
-	}
-
-	template<> template<>
-	void v2math_object::test<3>()
-	{
-		F32 x = 2.2345f, y = 3.5678f ;
-		LLVector2 vec2(x,y);
-		ensure("magVecSquared:Fail ", is_approx_equal(vec2.magVecSquared(), (x*x + y*y)));
-		ensure("magVec:Fail ", is_approx_equal(vec2.magVec(), (F32) sqrt(x*x + y*y)));
-	}
-
-	template<> template<>
-	void v2math_object::test<4>()
-	{
-		F32 x =-2.0f, y = -3.0f ;
-		LLVector2 vec2(x,y);
-		ensure_equals("abs():Fail", vec2.abs(), TRUE);
-		ensure("abs() x", is_approx_equal(vec2.mV[VX], 2.f));
-		ensure("abs() y", is_approx_equal(vec2.mV[VY], 3.f));
-
-		ensure("isNull():Fail ", FALSE == vec2.isNull());	//Returns TRUE if vector has a _very_small_ length
-
-		x =.00000001f, y = .000001001f;
-		vec2.setVec(x, y);
-		ensure("isNull(): Fail ", TRUE == vec2.isNull());	
-	}
-
-	template<> template<>
-	void v2math_object::test<5>()
-	{
-		F32 x =1.f, y = 2.f;
-		LLVector2 vec2(x, y), vec3;
-		vec3 = vec3.scaleVec(vec2);
-		ensure("scaleVec: Fail ", vec3.mV[VX] == 0. && vec3.mV[VY] == 0.);
-		ensure("isExactlyZero(): Fail", TRUE == vec3.isExactlyZero());
-
-		vec3.setVec(2.f, 1.f);
-		vec3 = vec3.scaleVec(vec2);
-		ensure("scaleVec: Fail ", (2.f == vec3.mV[VX]) && (2.f == vec3.mV[VY]));
-		ensure("isExactlyZero():Fail", FALSE == vec3.isExactlyZero());
-	}
-
-	template<> template<>
-	void v2math_object::test<6>()
-	{
-		F32 x1 =1.f, y1 = 2.f, x2 = -2.3f, y2 = 1.11f;
-		F32 val1, val2;
-		LLVector2 vec2(x1, y1), vec3(x2, y2), vec4;
-		vec4 = vec2 + vec3 ;
-		val1 = x1+x2;
-		val2 = y1+y2;
-		ensure("1:operator+ failed",(val1 == vec4.mV[VX]) && ((val2 == vec4.mV[VY]))); 
-
-		vec2.clearVec();
-		vec3.clearVec();
-		x1 = -.235f, y1 = -24.32f,  x2 = -2.3f, y2 = 1.f;
-		vec2.setVec(x1, y1);
-		vec3.setVec(x2, y2);
-		vec4 = vec2 + vec3;
-		val1 = x1+x2;
-		val2 = y1+y2;
-		ensure("2:operator+ failed",(val1 == vec4.mV[VX]) && ((val2 == vec4.mV[VY]))); 
-	}
-
-	template<> template<>
-	void v2math_object::test<7>()
-	{
-		F32 x1 =1.f, y1 = 2.f,  x2 = -2.3f, y2 = 1.11f;
-		F32 val1, val2;
-		LLVector2 vec2(x1, y1), vec3(x2, y2), vec4;
-		vec4 = vec2 - vec3 ;
-		val1 = x1-x2;
-		val2 = y1-y2;
-		ensure("1:operator- failed",(val1 == vec4.mV[VX]) && ((val2 == vec4.mV[VY]))); 
-
-		vec2.clearVec();
-		vec3.clearVec();
-		vec4.clearVec();
-		x1 = -.235f, y1 = -24.32f,  x2 = -2.3f, y2 = 1.f;
-		vec2.setVec(x1, y1);
-		vec3.setVec(x2, y2);
-		vec4 = vec2 - vec3;
-		val1 = x1-x2;
-		val2 = y1-y2;
-		ensure("2:operator- failed",(val1 == vec4.mV[VX]) && ((val2 == vec4.mV[VY]))); 
-	}
-
-	template<> template<>
-	void v2math_object::test<8>()
-	{
-		F32 x1 =1.f, y1 = 2.f,  x2 = -2.3f, y2 = 1.11f;
-		F32 val1, val2;
-		LLVector2 vec2(x1, y1), vec3(x2, y2);
-		val1 = vec2 * vec3;
-		val2 = x1*x2 + y1*y2;
-		ensure("1:operator* failed",(val1 == val2));
-
-		vec3.clearVec();
-		F32 mulVal = 4.332f;
-		vec3 = vec2 * mulVal;
-		val1 = x1*mulVal;
-		val2 = y1*mulVal;
-		ensure("2:operator* failed",(val1 == vec3.mV[VX]) && (val2 == vec3.mV[VY]));
-
-		vec3.clearVec();
-		vec3 = mulVal * vec2;
-		ensure("3:operator* failed",(val1 == vec3.mV[VX]) && (val2 == vec3.mV[VY]));		
-	}
-
-	template<> template<>
-	void v2math_object::test<9>()
-	{
-		F32 x1 =1.f, y1 = 2.f, div = 3.2f;
-		F32 val1, val2;
-		LLVector2 vec2(x1, y1), vec3;
-		vec3 = vec2 / div;
-		val1 = x1 / div;
-		val2 = y1 / div;
-		ensure("1:operator/ failed", is_approx_equal(val1, vec3.mV[VX]) && is_approx_equal(val2, vec3.mV[VY]));		
-
-		vec3.clearVec();
-		x1 = -.235f, y1 = -24.32f, div = -2.2f;
-		vec2.setVec(x1, y1);
-		vec3 = vec2 / div;
-		val1 = x1 / div;
-		val2 = y1 / div;
-		ensure("2:operator/ failed", is_approx_equal(val1, vec3.mV[VX]) && is_approx_equal(val2, vec3.mV[VY]));		
-	}
-
-	template<> template<>
-	void v2math_object::test<10>()
-	{
-		F32 x1 =1.f, y1 = 2.f,  x2 = -2.3f, y2 = 1.11f;
-		F32 val1, val2;
-		LLVector2 vec2(x1, y1), vec3(x2, y2), vec4;
-		vec4 = vec2 % vec3;
-		val1 = x1*y2 - x2*y1;
-		val2 = y1*x2 - y2*x1;
-		ensure("1:operator% failed",(val1 == vec4.mV[VX]) && (val2 == vec4.mV[VY]));	
-
-		vec2.clearVec();
-		vec3.clearVec();
-		vec4.clearVec();
-		x1 = -.235f, y1 = -24.32f,  x2 = -2.3f, y2 = 1.f;
-		vec2.setVec(x1, y1);
-		vec3.setVec(x2, y2);
-		vec4 = vec2 % vec3;
-		val1 = x1*y2 - x2*y1;
-		val2 = y1*x2 - y2*x1;
-		ensure("2:operator% failed",(val1 == vec4.mV[VX]) && (val2 == vec4.mV[VY]));	
-	}
-	template<> template<>
-	void v2math_object::test<11>()
-	{
-		F32 x1 =1.f, y1 = 2.f;
-		LLVector2 vec2(x1, y1), vec3(x1, y1);
-		ensure("1:operator== failed",(vec2 == vec3));
-		
-		vec2.clearVec();
-		vec3.clearVec();
-		x1 = -.235f, y1 = -24.32f;
-		vec2.setVec(x1, y1);
-		vec3.setVec(vec2);
-		ensure("2:operator== failed",(vec2 == vec3));
-	}
-
-	template<> template<>
-	void v2math_object::test<12>()
-	{
-		F32 x1 = 1.f, y1 = 2.f,x2 = 2.332f, y2 = -1.23f;
-		LLVector2 vec2(x1, y1), vec3(x2, y2);
-		ensure("1:operator!= failed",(vec2 != vec3));
-		
-		vec2.clearVec();
-		vec3.clearVec();
-		vec2.setVec(x1, y1);
-		vec3.setVec(vec2);
-		ensure("2:operator!= failed", (FALSE == (vec2 != vec3)));
-	}
-	template<> template<>
-	void v2math_object::test<13>()
-	{
-		F32 x1 = 1.f, y1 = 2.f,x2 = 2.332f, y2 = -1.23f;
-		F32 val1, val2;
-		LLVector2 vec2(x1, y1), vec3(x2, y2);
-		vec2 +=vec3;
-		val1 = x1+x2;
-		val2 = y1+y2;
-		ensure("1:operator+= failed",(val1 == vec2.mV[VX]) && (val2 == vec2.mV[VY]));
-		
-		vec2.setVec(x1, y1);
-		vec2 -=vec3;
-		val1 = x1-x2;
-		val2 = y1-y2;
-		ensure("2:operator-= failed",(val1 == vec2.mV[VX]) && (val2 == vec2.mV[VY]));
-		
-		vec2.clearVec();
-		vec3.clearVec();
-		x1 = -21.000466f, y1 = 2.98382f,x2 = 0.332f, y2 = -01.23f;
-		vec2.setVec(x1, y1);
-		vec3.setVec(x2, y2);
-		vec2 +=vec3;
-		val1 = x1+x2;
-		val2 = y1+y2;
-		ensure("3:operator+= failed",(val1 == vec2.mV[VX]) && (val2 == vec2.mV[VY]));
-
-		vec2.setVec(x1, y1);
-		vec2 -=vec3;
-		val1 = x1-x2;
-		val2 = y1-y2;
-		ensure("4:operator-= failed", is_approx_equal(val1, vec2.mV[VX]) && is_approx_equal(val2, vec2.mV[VY]));
-	}
-
-	template<> template<>
-	void v2math_object::test<14>()
-	{
-		F32 x1 =1.f, y1 = 2.f;
-		F32 val1, val2, mulVal = 4.332f;
-		LLVector2 vec2(x1, y1);
-		vec2 /=mulVal;
-		val1 = x1 / mulVal;
-		val2 = y1 / mulVal;
-		ensure("1:operator/= failed", is_approx_equal(val1, vec2.mV[VX]) && is_approx_equal(val2, vec2.mV[VY]));
-		
-		vec2.clearVec();
-		x1 = .213f, y1 = -2.34f, mulVal = -.23f;
-		vec2.setVec(x1, y1);
-		vec2 /=mulVal;
-		val1 = x1 / mulVal;
-		val2 = y1 / mulVal;
-		ensure("2:operator/= failed", is_approx_equal(val1, vec2.mV[VX]) && is_approx_equal(val2, vec2.mV[VY]));
-	}
-
-	template<> template<>
-	void v2math_object::test<15>()
-	{
-		F32 x1 =1.f, y1 = 2.f;
-		F32 val1, val2, mulVal = 4.332f;
-		LLVector2 vec2(x1, y1);
-		vec2 *=mulVal;
-		val1 = x1*mulVal;
-		val2 = y1*mulVal;
-		ensure("1:operator*= failed",(val1 == vec2.mV[VX]) && (val2 == vec2.mV[VY]));
-		
-		vec2.clearVec();
-		x1 = .213f, y1 = -2.34f, mulVal = -.23f;
-		vec2.setVec(x1, y1);
-		vec2 *=mulVal;
-		val1 = x1*mulVal;
-		val2 = y1*mulVal;
-		ensure("2:operator*= failed",(val1 == vec2.mV[VX]) && (val2 == vec2.mV[VY]));
-	}
-	
-	template<> template<>
-	void v2math_object::test<16>()
-	{
-		F32 x1 =1.f, y1 = 2.f,  x2 = -2.3f, y2 = 1.11f;
-		F32 val1, val2;
-		LLVector2 vec2(x1, y1), vec3(x2, y2);
-		vec2 %= vec3;
-		val1 = x1*y2 - x2*y1;
-		val2 = y1*x2 - y2*x1;
-		ensure("1:operator%= failed",(val1 == vec2.mV[VX]) && (val2 == vec2.mV[VY]));	
-	}
-
-	template<> template<>
-	void v2math_object::test<17>()
-	{
-		F32 x1 =1.f, y1 = 2.f;
-		LLVector2 vec2(x1, y1),vec3;
-		vec3 = -vec2;
-		ensure("1:operator- failed",(-vec3 == vec2));	
-	}
-
-	template<> template<>
-	void v2math_object::test<18>()
-	{
-		F32 x1 =1.f, y1 = 2.f;
-		std::ostringstream stream1, stream2;
-		LLVector2 vec2(x1, y1),vec3;
-		stream1 << vec2;
-		vec3.setVec(x1, y1);
-		stream2 << vec3;
-		ensure("1:operator << failed",(stream1.str() == stream2.str()));	
-	}
-
-	template<> template<>
-	void v2math_object::test<19>()
-	{
-		F32 x1 =1.0f, y1 = 2.0f, x2 = -.32f, y2 = .2234f;
-		LLVector2 vec2(x1, y1),vec3(x2, y2);
-		ensure("1:operator < failed",(vec3 < vec2));	
-
-		x1 = 1.0f, y1 = 2.0f, x2 = 1.0f, y2 = 3.2234f;
-		vec2.setVec(x1, y1);
-		vec3.setVec(x2, y2);
-		ensure("2:operator < failed", (FALSE == (vec3 < vec2)));	
-	}
-
-	template<> template<>
-	void v2math_object::test<20>()
-	{
-		F32 x1 =1.0f, y1 = 2.0f;
-		LLVector2 vec2(x1, y1);
-		ensure("1:operator [] failed",( x1 ==  vec2[0]));	
-		ensure("2:operator [] failed",( y1 ==  vec2[1]));
-
-		vec2.clearVec();
-		x1 = 23.0f, y1 = -.2361f;
-		vec2.setVec(x1, y1);
-		F32 ref1 = vec2[0];
-		ensure("3:operator [] failed", ( ref1 ==  x1));
-		F32 ref2 = vec2[1];
-		ensure("4:operator [] failed", ( ref2 ==  y1));
-	}
-
-	template<> template<>
-	void v2math_object::test<21>()
-	{
-		F32 x1 =1.f, y1 = 2.f, x2 = -.32f, y2 = .2234f;
-		F32 val1, val2;
-		LLVector2 vec2(x1, y1),vec3(x2, y2);		
-		val1 = dist_vec_squared2D(vec2, vec3);
-		val2 = (x1 - x2)*(x1 - x2) + (y1 - y2)* (y1 - y2);
-		ensure_equals("dist_vec_squared2D values are not equal",val2, val1);
-
-		val1 = dist_vec_squared(vec2, vec3);
-		ensure_equals("dist_vec_squared values are not equal",val2, val1);
-
-		val1 = 	dist_vec(vec2, vec3);
-		val2 = (F32) sqrt((x1 - x2)*(x1 - x2) + (y1 - y2)* (y1 - y2));
-		ensure_equals("dist_vec values are not equal",val2, val1);
-	}
-
-	template<> template<>
-	void v2math_object::test<22>()
-	{
-		F32 x1 =1.f, y1 = 2.f, x2 = -.32f, y2 = .2234f,fVal = .0121f;
-		F32 val1, val2;
-		LLVector2 vec2(x1, y1),vec3(x2, y2);
-		LLVector2 vec4 = lerp(vec2, vec3, fVal);
-		val1 = x1 + (x2 - x1) * fVal;
-		val2 = y1 + (y2 - y1) * fVal;
-		ensure("lerp values are not equal", ((val1 == vec4.mV[VX]) && (val2 == vec4.mV[VY])));
-	}
-
-	template<> template<>
-	void v2math_object::test<23>()
-	{
-		F32 x1 =1.f, y1 = 2.f;
-		F32 val1, val2;
-		LLVector2 vec2(x1, y1);
-
-		F32 vecMag = vec2.normVec();
-		F32 mag = (F32) sqrt(x1*x1 + y1*y1);
-
-		F32 oomag = 1.f / mag;
-		val1 = x1 * oomag;
-		val2 = y1 * oomag;
-
-		ensure("normVec failed", is_approx_equal(val1, vec2.mV[VX]) && is_approx_equal(val2, vec2.mV[VY]) && is_approx_equal(vecMag, mag));
-
-		x1 =.00000001f, y1 = 0.f;
-
-		vec2.setVec(x1, y1);
-		vecMag = vec2.normVec();
-		ensure("normVec failed should be 0.", 0. == vec2.mV[VX] && 0. == vec2.mV[VY] && vecMag == 0.);
-	}
+    struct v2math_data
+    {
+    };
+    typedef test_group<v2math_data> v2math_test;
+    typedef v2math_test::object v2math_object;
+    tut::v2math_test v2math_testcase("v2math_h");
+
+    template<> template<>
+    void v2math_object::test<1>()
+    {
+        LLVector2 vec2;
+        ensure("LLVector2:Fail to initialize ", (0.f == vec2.mV[VX] && 0.f == vec2.mV[VY]));
+
+        F32 x =2.0f, y = 3.2f ;
+        LLVector2 vec3(x,y);
+        ensure("LLVector2(F32 x, F32 y):Fail to initialize ", (x == vec3.mV[VX]) && (y == vec3.mV[VY]));
+
+        const F32 vec[2] = {3.2f, 4.5f};
+        LLVector2 vec4(vec);
+        ensure("LLVector2(const F32 *vec):Fail to initialize ", (vec[0] == vec4.mV[VX]) && (vec[1] == vec4.mV[VY]));
+
+        vec4.clearVec();
+        ensure("clearVec():Fail to clean the values ", (0.f == vec4.mV[VX] && 0.f == vec4.mV[VY]));
+
+        vec3.zeroVec();
+        ensure("zeroVec():Fail to fill the zero ", (0.f == vec3.mV[VX] && 0.f == vec3.mV[VY]));
+    }
+
+    template<> template<>
+    void v2math_object::test<2>()
+    {
+        F32 x = 123.356f, y = 2387.453f;
+        LLVector2 vec2,vec3;
+        vec2.setVec(x, y);
+        ensure("1:setVec: Fail  ", (x == vec2.mV[VX]) && (y == vec2.mV[VY]));
+
+        vec3.setVec(vec2);
+        ensure("2:setVec: Fail   " ,(vec2 == vec3));
+
+        vec3.zeroVec();
+        const F32 vec[2] = {3.24653f, 457653.4f};
+        vec3.setVec(vec);
+        ensure("3:setVec: Fail  ", (vec[0] == vec3.mV[VX]) && (vec[1] == vec3.mV[VY]));
+    }
+
+    template<> template<>
+    void v2math_object::test<3>()
+    {
+        F32 x = 2.2345f, y = 3.5678f ;
+        LLVector2 vec2(x,y);
+        ensure("magVecSquared:Fail ", is_approx_equal(vec2.magVecSquared(), (x*x + y*y)));
+        ensure("magVec:Fail ", is_approx_equal(vec2.magVec(), (F32) sqrt(x*x + y*y)));
+    }
+
+    template<> template<>
+    void v2math_object::test<4>()
+    {
+        F32 x =-2.0f, y = -3.0f ;
+        LLVector2 vec2(x,y);
+        ensure_equals("abs():Fail", vec2.abs(), TRUE);
+        ensure("abs() x", is_approx_equal(vec2.mV[VX], 2.f));
+        ensure("abs() y", is_approx_equal(vec2.mV[VY], 3.f));
+
+        ensure("isNull():Fail ", FALSE == vec2.isNull());   //Returns TRUE if vector has a _very_small_ length
+
+        x =.00000001f, y = .000001001f;
+        vec2.setVec(x, y);
+        ensure("isNull(): Fail ", TRUE == vec2.isNull());
+    }
+
+    template<> template<>
+    void v2math_object::test<5>()
+    {
+        F32 x =1.f, y = 2.f;
+        LLVector2 vec2(x, y), vec3;
+        vec3 = vec3.scaleVec(vec2);
+        ensure("scaleVec: Fail ", vec3.mV[VX] == 0. && vec3.mV[VY] == 0.);
+        ensure("isExactlyZero(): Fail", TRUE == vec3.isExactlyZero());
+
+        vec3.setVec(2.f, 1.f);
+        vec3 = vec3.scaleVec(vec2);
+        ensure("scaleVec: Fail ", (2.f == vec3.mV[VX]) && (2.f == vec3.mV[VY]));
+        ensure("isExactlyZero():Fail", FALSE == vec3.isExactlyZero());
+    }
+
+    template<> template<>
+    void v2math_object::test<6>()
+    {
+        F32 x1 =1.f, y1 = 2.f, x2 = -2.3f, y2 = 1.11f;
+        F32 val1, val2;
+        LLVector2 vec2(x1, y1), vec3(x2, y2), vec4;
+        vec4 = vec2 + vec3 ;
+        val1 = x1+x2;
+        val2 = y1+y2;
+        ensure("1:operator+ failed",(val1 == vec4.mV[VX]) && ((val2 == vec4.mV[VY])));
+
+        vec2.clearVec();
+        vec3.clearVec();
+        x1 = -.235f, y1 = -24.32f,  x2 = -2.3f, y2 = 1.f;
+        vec2.setVec(x1, y1);
+        vec3.setVec(x2, y2);
+        vec4 = vec2 + vec3;
+        val1 = x1+x2;
+        val2 = y1+y2;
+        ensure("2:operator+ failed",(val1 == vec4.mV[VX]) && ((val2 == vec4.mV[VY])));
+    }
+
+    template<> template<>
+    void v2math_object::test<7>()
+    {
+        F32 x1 =1.f, y1 = 2.f,  x2 = -2.3f, y2 = 1.11f;
+        F32 val1, val2;
+        LLVector2 vec2(x1, y1), vec3(x2, y2), vec4;
+        vec4 = vec2 - vec3 ;
+        val1 = x1-x2;
+        val2 = y1-y2;
+        ensure("1:operator- failed",(val1 == vec4.mV[VX]) && ((val2 == vec4.mV[VY])));
+
+        vec2.clearVec();
+        vec3.clearVec();
+        vec4.clearVec();
+        x1 = -.235f, y1 = -24.32f,  x2 = -2.3f, y2 = 1.f;
+        vec2.setVec(x1, y1);
+        vec3.setVec(x2, y2);
+        vec4 = vec2 - vec3;
+        val1 = x1-x2;
+        val2 = y1-y2;
+        ensure("2:operator- failed",(val1 == vec4.mV[VX]) && ((val2 == vec4.mV[VY])));
+    }
+
+    template<> template<>
+    void v2math_object::test<8>()
+    {
+        F32 x1 =1.f, y1 = 2.f,  x2 = -2.3f, y2 = 1.11f;
+        F32 val1, val2;
+        LLVector2 vec2(x1, y1), vec3(x2, y2);
+        val1 = vec2 * vec3;
+        val2 = x1*x2 + y1*y2;
+        ensure("1:operator* failed",(val1 == val2));
+
+        vec3.clearVec();
+        F32 mulVal = 4.332f;
+        vec3 = vec2 * mulVal;
+        val1 = x1*mulVal;
+        val2 = y1*mulVal;
+        ensure("2:operator* failed",(val1 == vec3.mV[VX]) && (val2 == vec3.mV[VY]));
+
+        vec3.clearVec();
+        vec3 = mulVal * vec2;
+        ensure("3:operator* failed",(val1 == vec3.mV[VX]) && (val2 == vec3.mV[VY]));
+    }
+
+    template<> template<>
+    void v2math_object::test<9>()
+    {
+        F32 x1 =1.f, y1 = 2.f, div = 3.2f;
+        F32 val1, val2;
+        LLVector2 vec2(x1, y1), vec3;
+        vec3 = vec2 / div;
+        val1 = x1 / div;
+        val2 = y1 / div;
+        ensure("1:operator/ failed", is_approx_equal(val1, vec3.mV[VX]) && is_approx_equal(val2, vec3.mV[VY]));
+
+        vec3.clearVec();
+        x1 = -.235f, y1 = -24.32f, div = -2.2f;
+        vec2.setVec(x1, y1);
+        vec3 = vec2 / div;
+        val1 = x1 / div;
+        val2 = y1 / div;
+        ensure("2:operator/ failed", is_approx_equal(val1, vec3.mV[VX]) && is_approx_equal(val2, vec3.mV[VY]));
+    }
+
+    template<> template<>
+    void v2math_object::test<10>()
+    {
+        F32 x1 =1.f, y1 = 2.f,  x2 = -2.3f, y2 = 1.11f;
+        F32 val1, val2;
+        LLVector2 vec2(x1, y1), vec3(x2, y2), vec4;
+        vec4 = vec2 % vec3;
+        val1 = x1*y2 - x2*y1;
+        val2 = y1*x2 - y2*x1;
+        ensure("1:operator% failed",(val1 == vec4.mV[VX]) && (val2 == vec4.mV[VY]));
+
+        vec2.clearVec();
+        vec3.clearVec();
+        vec4.clearVec();
+        x1 = -.235f, y1 = -24.32f,  x2 = -2.3f, y2 = 1.f;
+        vec2.setVec(x1, y1);
+        vec3.setVec(x2, y2);
+        vec4 = vec2 % vec3;
+        val1 = x1*y2 - x2*y1;
+        val2 = y1*x2 - y2*x1;
+        ensure("2:operator% failed",(val1 == vec4.mV[VX]) && (val2 == vec4.mV[VY]));
+    }
+    template<> template<>
+    void v2math_object::test<11>()
+    {
+        F32 x1 =1.f, y1 = 2.f;
+        LLVector2 vec2(x1, y1), vec3(x1, y1);
+        ensure("1:operator== failed",(vec2 == vec3));
+
+        vec2.clearVec();
+        vec3.clearVec();
+        x1 = -.235f, y1 = -24.32f;
+        vec2.setVec(x1, y1);
+        vec3.setVec(vec2);
+        ensure("2:operator== failed",(vec2 == vec3));
+    }
+
+    template<> template<>
+    void v2math_object::test<12>()
+    {
+        F32 x1 = 1.f, y1 = 2.f,x2 = 2.332f, y2 = -1.23f;
+        LLVector2 vec2(x1, y1), vec3(x2, y2);
+        ensure("1:operator!= failed",(vec2 != vec3));
+
+        vec2.clearVec();
+        vec3.clearVec();
+        vec2.setVec(x1, y1);
+        vec3.setVec(vec2);
+        ensure("2:operator!= failed", (FALSE == (vec2 != vec3)));
+    }
+    template<> template<>
+    void v2math_object::test<13>()
+    {
+        F32 x1 = 1.f, y1 = 2.f,x2 = 2.332f, y2 = -1.23f;
+        F32 val1, val2;
+        LLVector2 vec2(x1, y1), vec3(x2, y2);
+        vec2 +=vec3;
+        val1 = x1+x2;
+        val2 = y1+y2;
+        ensure("1:operator+= failed",(val1 == vec2.mV[VX]) && (val2 == vec2.mV[VY]));
+
+        vec2.setVec(x1, y1);
+        vec2 -=vec3;
+        val1 = x1-x2;
+        val2 = y1-y2;
+        ensure("2:operator-= failed",(val1 == vec2.mV[VX]) && (val2 == vec2.mV[VY]));
+
+        vec2.clearVec();
+        vec3.clearVec();
+        x1 = -21.000466f, y1 = 2.98382f,x2 = 0.332f, y2 = -01.23f;
+        vec2.setVec(x1, y1);
+        vec3.setVec(x2, y2);
+        vec2 +=vec3;
+        val1 = x1+x2;
+        val2 = y1+y2;
+        ensure("3:operator+= failed",(val1 == vec2.mV[VX]) && (val2 == vec2.mV[VY]));
+
+        vec2.setVec(x1, y1);
+        vec2 -=vec3;
+        val1 = x1-x2;
+        val2 = y1-y2;
+        ensure("4:operator-= failed", is_approx_equal(val1, vec2.mV[VX]) && is_approx_equal(val2, vec2.mV[VY]));
+    }
+
+    template<> template<>
+    void v2math_object::test<14>()
+    {
+        F32 x1 =1.f, y1 = 2.f;
+        F32 val1, val2, mulVal = 4.332f;
+        LLVector2 vec2(x1, y1);
+        vec2 /=mulVal;
+        val1 = x1 / mulVal;
+        val2 = y1 / mulVal;
+        ensure("1:operator/= failed", is_approx_equal(val1, vec2.mV[VX]) && is_approx_equal(val2, vec2.mV[VY]));
+
+        vec2.clearVec();
+        x1 = .213f, y1 = -2.34f, mulVal = -.23f;
+        vec2.setVec(x1, y1);
+        vec2 /=mulVal;
+        val1 = x1 / mulVal;
+        val2 = y1 / mulVal;
+        ensure("2:operator/= failed", is_approx_equal(val1, vec2.mV[VX]) && is_approx_equal(val2, vec2.mV[VY]));
+    }
+
+    template<> template<>
+    void v2math_object::test<15>()
+    {
+        F32 x1 =1.f, y1 = 2.f;
+        F32 val1, val2, mulVal = 4.332f;
+        LLVector2 vec2(x1, y1);
+        vec2 *=mulVal;
+        val1 = x1*mulVal;
+        val2 = y1*mulVal;
+        ensure("1:operator*= failed",(val1 == vec2.mV[VX]) && (val2 == vec2.mV[VY]));
+
+        vec2.clearVec();
+        x1 = .213f, y1 = -2.34f, mulVal = -.23f;
+        vec2.setVec(x1, y1);
+        vec2 *=mulVal;
+        val1 = x1*mulVal;
+        val2 = y1*mulVal;
+        ensure("2:operator*= failed",(val1 == vec2.mV[VX]) && (val2 == vec2.mV[VY]));
+    }
+
+    template<> template<>
+    void v2math_object::test<16>()
+    {
+        F32 x1 =1.f, y1 = 2.f,  x2 = -2.3f, y2 = 1.11f;
+        F32 val1, val2;
+        LLVector2 vec2(x1, y1), vec3(x2, y2);
+        vec2 %= vec3;
+        val1 = x1*y2 - x2*y1;
+        val2 = y1*x2 - y2*x1;
+        ensure("1:operator%= failed",(val1 == vec2.mV[VX]) && (val2 == vec2.mV[VY]));
+    }
+
+    template<> template<>
+    void v2math_object::test<17>()
+    {
+        F32 x1 =1.f, y1 = 2.f;
+        LLVector2 vec2(x1, y1),vec3;
+        vec3 = -vec2;
+        ensure("1:operator- failed",(-vec3 == vec2));
+    }
+
+    template<> template<>
+    void v2math_object::test<18>()
+    {
+        F32 x1 =1.f, y1 = 2.f;
+        std::ostringstream stream1, stream2;
+        LLVector2 vec2(x1, y1),vec3;
+        stream1 << vec2;
+        vec3.setVec(x1, y1);
+        stream2 << vec3;
+        ensure("1:operator << failed",(stream1.str() == stream2.str()));
+    }
+
+    template<> template<>
+    void v2math_object::test<19>()
+    {
+        F32 x1 =1.0f, y1 = 2.0f, x2 = -.32f, y2 = .2234f;
+        LLVector2 vec2(x1, y1),vec3(x2, y2);
+        ensure("1:operator < failed",(vec3 < vec2));
+
+        x1 = 1.0f, y1 = 2.0f, x2 = 1.0f, y2 = 3.2234f;
+        vec2.setVec(x1, y1);
+        vec3.setVec(x2, y2);
+        ensure("2:operator < failed", (FALSE == (vec3 < vec2)));
+    }
+
+    template<> template<>
+    void v2math_object::test<20>()
+    {
+        F32 x1 =1.0f, y1 = 2.0f;
+        LLVector2 vec2(x1, y1);
+        ensure("1:operator [] failed",( x1 ==  vec2[0]));
+        ensure("2:operator [] failed",( y1 ==  vec2[1]));
+
+        vec2.clearVec();
+        x1 = 23.0f, y1 = -.2361f;
+        vec2.setVec(x1, y1);
+        F32 ref1 = vec2[0];
+        ensure("3:operator [] failed", ( ref1 ==  x1));
+        F32 ref2 = vec2[1];
+        ensure("4:operator [] failed", ( ref2 ==  y1));
+    }
+
+    template<> template<>
+    void v2math_object::test<21>()
+    {
+        F32 x1 =1.f, y1 = 2.f, x2 = -.32f, y2 = .2234f;
+        F32 val1, val2;
+        LLVector2 vec2(x1, y1),vec3(x2, y2);
+        val1 = dist_vec_squared2D(vec2, vec3);
+        val2 = (x1 - x2)*(x1 - x2) + (y1 - y2)* (y1 - y2);
+        ensure_equals("dist_vec_squared2D values are not equal",val2, val1);
+
+        val1 = dist_vec_squared(vec2, vec3);
+        ensure_equals("dist_vec_squared values are not equal",val2, val1);
+
+        val1 =  dist_vec(vec2, vec3);
+        val2 = (F32) sqrt((x1 - x2)*(x1 - x2) + (y1 - y2)* (y1 - y2));
+        ensure_equals("dist_vec values are not equal",val2, val1);
+    }
+
+    template<> template<>
+    void v2math_object::test<22>()
+    {
+        F32 x1 =1.f, y1 = 2.f, x2 = -.32f, y2 = .2234f,fVal = .0121f;
+        F32 val1, val2;
+        LLVector2 vec2(x1, y1),vec3(x2, y2);
+        LLVector2 vec4 = lerp(vec2, vec3, fVal);
+        val1 = x1 + (x2 - x1) * fVal;
+        val2 = y1 + (y2 - y1) * fVal;
+        ensure("lerp values are not equal", ((val1 == vec4.mV[VX]) && (val2 == vec4.mV[VY])));
+    }
+
+    template<> template<>
+    void v2math_object::test<23>()
+    {
+        F32 x1 =1.f, y1 = 2.f;
+        F32 val1, val2;
+        LLVector2 vec2(x1, y1);
+
+        F32 vecMag = vec2.normVec();
+        F32 mag = (F32) sqrt(x1*x1 + y1*y1);
+
+        F32 oomag = 1.f / mag;
+        val1 = x1 * oomag;
+        val2 = y1 * oomag;
+
+        ensure("normVec failed", is_approx_equal(val1, vec2.mV[VX]) && is_approx_equal(val2, vec2.mV[VY]) && is_approx_equal(vecMag, mag));
+
+        x1 =.00000001f, y1 = 0.f;
+
+        vec2.setVec(x1, y1);
+        vecMag = vec2.normVec();
+        ensure("normVec failed should be 0.", 0. == vec2.mV[VX] && 0. == vec2.mV[VY] && vecMag == 0.);
+    }
 }
diff --git a/indra/llmath/tests/v3color_test.cpp b/indra/llmath/tests/v3color_test.cpp
index 29d1c483ab..d1baa53a9b 100644
--- a/indra/llmath/tests/v3color_test.cpp
+++ b/indra/llmath/tests/v3color_test.cpp
@@ -7,21 +7,21 @@
  * $LicenseInfo:firstyear=2007&license=viewerlgpl$
  * Second Life Viewer Source Code
  * Copyright (C) 2010, Linden Research, Inc.
- * 
+ *
  * This library is free software; you can redistribute it and/or
  * modify it under the terms of the GNU Lesser General Public
  * License as published by the Free Software Foundation;
  * version 2.1 of the License only.
- * 
+ *
  * This library is distributed in the hope that it will be useful,
  * but WITHOUT ANY WARRANTY; without even the implied warranty of
  * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the GNU
  * Lesser General Public License for more details.
- * 
+ *
  * You should have received a copy of the GNU Lesser General Public
  * License along with this library; if not, write to the Free Software
  * Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA  02110-1301  USA
- * 
+ *
  * Linden Research, Inc., 945 Battery Street, San Francisco, CA  94111  USA
  * $/LicenseInfo$
  */
@@ -34,276 +34,276 @@
 
 namespace tut
 {
-	struct v3color_data
-	{
-	};
-	typedef test_group<v3color_data> v3color_test;
-	typedef v3color_test::object v3color_object;
-	tut::v3color_test v3color_testcase("v3color_h");
+    struct v3color_data
+    {
+    };
+    typedef test_group<v3color_data> v3color_test;
+    typedef v3color_test::object v3color_object;
+    tut::v3color_test v3color_testcase("v3color_h");
+
+    template<> template<>
+    void v3color_object::test<1>()
+    {
+        LLColor3 llcolor3;
+        ensure("1:LLColor3:Fail to default-initialize ", (0.0f == llcolor3.mV[0]) && (0.0f == llcolor3.mV[1]) && (0.0f == llcolor3.mV[2]));
+        F32 r = 2.0f, g = 3.2f, b = 1.f;
+        F32 v1,v2,v3;
+        LLColor3 llcolor3a(r,g,b);
+        ensure("2:LLColor3:Fail to initialize " ,(2.0f == llcolor3a.mV[0]) && (3.2f == llcolor3a.mV[1]) && (1.f == llcolor3a.mV[2]));
+
+        const F32 vec[3] = {2.0f, 3.2f,1.f};
+        LLColor3 llcolor3b(vec);
+        ensure("3:LLColor3:Fail to initialize " ,(2.0f == llcolor3b.mV[0]) && (3.2f == llcolor3b.mV[1]) && (1.f == llcolor3b.mV[2]));
+        const char* str = "561122";
+        LLColor3 llcolor3c(str);
+        v1 = (F32)86.0f/255.0f; // 0x56 = 86
+        v2 = (F32)17.0f/255.0f; // 0x11 = 17
+        v3 = (F32)34.0f/255.f;  // 0x22 = 34
+        ensure("4:LLColor3:Fail to initialize " , is_approx_equal(v1, llcolor3c.mV[0]) && is_approx_equal(v2, llcolor3c.mV[1]) && is_approx_equal(v3, llcolor3c.mV[2]));
+    }
+
+    template<> template<>
+    void v3color_object::test<2>()
+    {
+        LLColor3 llcolor3;
+        llcolor3.setToBlack();
+        ensure("setToBlack:Fail to set black ", ((llcolor3.mV[0] == 0.f) && (llcolor3.mV[1] == 0.f) && (llcolor3.mV[2] == 0.f)));
+        llcolor3.setToWhite();
+        ensure("setToWhite:Fail to set white  ", ((llcolor3.mV[0] == 1.f) && (llcolor3.mV[1] == 1.f) && (llcolor3.mV[2] == 1.f)));
+    }
+
+    template<> template<>
+    void v3color_object::test<3>()
+    {
+        F32 r = 2.3436212f, g = 1231.f, b = 4.7849321232f;
+        LLColor3 llcolor3, llcolor3a;
+        llcolor3.setVec(r,g,b);
+        ensure("1:setVec(r,g,b) Fail ",((r == llcolor3.mV[0]) && (g == llcolor3.mV[1]) && (b == llcolor3.mV[2])));
+        llcolor3a.setVec(llcolor3);
+        ensure_equals("2:setVec(LLColor3) Fail ", llcolor3,llcolor3a);
+        F32 vec[3] = {1.2324f, 2.45634f, .234563f};
+        llcolor3.setToBlack();
+        llcolor3.setVec(vec);
+        ensure("3:setVec(F32*) Fail ",((vec[0] == llcolor3.mV[0]) && (vec[1] == llcolor3.mV[1]) && (vec[2] == llcolor3.mV[2])));
+    }
 
-	template<> template<>
-	void v3color_object::test<1>()
-	{
-		LLColor3 llcolor3;
-		ensure("1:LLColor3:Fail to default-initialize ", (0.0f == llcolor3.mV[0]) && (0.0f == llcolor3.mV[1]) && (0.0f == llcolor3.mV[2]));
-		F32 r = 2.0f, g = 3.2f, b = 1.f;
-		F32 v1,v2,v3;
-		LLColor3 llcolor3a(r,g,b);
-		ensure("2:LLColor3:Fail to initialize " ,(2.0f == llcolor3a.mV[0]) && (3.2f == llcolor3a.mV[1]) && (1.f == llcolor3a.mV[2]));
-		
-		const F32 vec[3] = {2.0f, 3.2f,1.f};
-		LLColor3 llcolor3b(vec);
-		ensure("3:LLColor3:Fail to initialize " ,(2.0f == llcolor3b.mV[0]) && (3.2f == llcolor3b.mV[1]) && (1.f == llcolor3b.mV[2]));
-		const char* str = "561122";
-		LLColor3 llcolor3c(str);
-		v1 = (F32)86.0f/255.0f; // 0x56 = 86
-		v2 = (F32)17.0f/255.0f; // 0x11 = 17
-		v3 = (F32)34.0f/255.f;  // 0x22 = 34
-		ensure("4:LLColor3:Fail to initialize " , is_approx_equal(v1, llcolor3c.mV[0]) && is_approx_equal(v2, llcolor3c.mV[1]) && is_approx_equal(v3, llcolor3c.mV[2]));
-	}
+    template<> template<>
+    void v3color_object::test<4>()
+    {
+        F32 r = 2.3436212f, g = 1231.f, b = 4.7849321232f;
+        LLColor3 llcolor3(r,g,b);
+        ensure("magVecSquared:Fail ", is_approx_equal(llcolor3.magVecSquared(), (r*r + g*g + b*b)));
+        ensure("magVec:Fail ", is_approx_equal(llcolor3.magVec(), (F32) sqrt(r*r + g*g + b*b)));
+    }
 
-	template<> template<>
-	void v3color_object::test<2>()
-	{
-		LLColor3 llcolor3;
-		llcolor3.setToBlack();
-		ensure("setToBlack:Fail to set black ", ((llcolor3.mV[0] == 0.f) && (llcolor3.mV[1] == 0.f) && (llcolor3.mV[2] == 0.f)));
-		llcolor3.setToWhite();
-		ensure("setToWhite:Fail to set white  ", ((llcolor3.mV[0] == 1.f) && (llcolor3.mV[1] == 1.f) && (llcolor3.mV[2] == 1.f)));
-	}
+    template<> template<>
+    void v3color_object::test<5>()
+    {
+        F32 r = 2.3436212f, g = 1231.f, b = 4.7849321232f;
+        F32 val1, val2,val3;
+        LLColor3 llcolor3(r,g,b);
+        F32 vecMag = llcolor3.normVec();
+        F32 mag = (F32) sqrt(r*r + g*g + b*b);
+        F32 oomag = 1.f / mag;
+        val1 = r * oomag;
+        val2 = g * oomag;
+        val3 = b * oomag;
+        ensure("1:normVec failed ", (is_approx_equal(val1, llcolor3.mV[0]) && is_approx_equal(val2, llcolor3.mV[1]) && is_approx_equal(val3, llcolor3.mV[2]) && is_approx_equal(vecMag, mag)));
+        r = .000000000f, g = 0.f, b = 0.0f;
+        llcolor3.setVec(r,g,b);
+        vecMag = llcolor3.normVec();
+        ensure("2:normVec failed should be 0. ", (0. == llcolor3.mV[0] && 0. == llcolor3.mV[1] && 0. == llcolor3.mV[2] && vecMag == 0.));
+    }
 
-	template<> template<>
-	void v3color_object::test<3>()
-	{
-		F32 r = 2.3436212f, g = 1231.f, b = 4.7849321232f;
-		LLColor3 llcolor3, llcolor3a;
-		llcolor3.setVec(r,g,b);
-		ensure("1:setVec(r,g,b) Fail ",((r == llcolor3.mV[0]) && (g == llcolor3.mV[1]) && (b == llcolor3.mV[2])));
-		llcolor3a.setVec(llcolor3);
-		ensure_equals("2:setVec(LLColor3) Fail ", llcolor3,llcolor3a);
-		F32 vec[3] = {1.2324f, 2.45634f, .234563f};
-		llcolor3.setToBlack();
-		llcolor3.setVec(vec);
-		ensure("3:setVec(F32*) Fail ",((vec[0] == llcolor3.mV[0]) && (vec[1] == llcolor3.mV[1]) && (vec[2] == llcolor3.mV[2])));
-	}
+    template<> template<>
+    void v3color_object::test<6>()
+    {
+        F32 r = 2.3436212f, g = -1231.f, b = .7849321232f;
+        std::ostringstream stream1, stream2;
+        LLColor3 llcolor3(r,g,b),llcolor3a;
+        stream1 << llcolor3;
+        llcolor3a.setVec(r,g,b);
+        stream2 << llcolor3a;
+        ensure("operator << failed ", (stream1.str() == stream2.str()));
+    }
 
-	template<> template<>
-	void v3color_object::test<4>()
-	{
-		F32 r = 2.3436212f, g = 1231.f, b = 4.7849321232f;
-		LLColor3 llcolor3(r,g,b);
-		ensure("magVecSquared:Fail ", is_approx_equal(llcolor3.magVecSquared(), (r*r + g*g + b*b)));
-		ensure("magVec:Fail ", is_approx_equal(llcolor3.magVec(), (F32) sqrt(r*r + g*g + b*b)));
-	}
+    template<> template<>
+    void v3color_object::test<7>()
+    {
+        F32 r = 2.3436212f, g = -1231.f, b = .7849321232f;
+        LLColor3 llcolor3(r,g,b),llcolor3a;
+        llcolor3a = llcolor3;
+        ensure("operator == failed ", (llcolor3a == llcolor3));
+    }
 
-	template<> template<>
-	void v3color_object::test<5>()
-	{
-		F32 r = 2.3436212f, g = 1231.f, b = 4.7849321232f;
-		F32 val1, val2,val3;
-		LLColor3 llcolor3(r,g,b);
-		F32 vecMag = llcolor3.normVec();
-		F32 mag = (F32) sqrt(r*r + g*g + b*b);
-		F32 oomag = 1.f / mag;
-		val1 = r * oomag;
-		val2 = g * oomag;
-		val3 = b * oomag;
-		ensure("1:normVec failed ", (is_approx_equal(val1, llcolor3.mV[0]) && is_approx_equal(val2, llcolor3.mV[1]) && is_approx_equal(val3, llcolor3.mV[2]) && is_approx_equal(vecMag, mag)));
-		r = .000000000f, g = 0.f, b = 0.0f;
-		llcolor3.setVec(r,g,b);
-		vecMag = llcolor3.normVec();
-		ensure("2:normVec failed should be 0. ", (0. == llcolor3.mV[0] && 0. == llcolor3.mV[1] && 0. == llcolor3.mV[2] && vecMag == 0.));
-	}
+    template<> template<>
+    void v3color_object::test<8>()
+    {
+        F32 r1 =1.f, g1 = 2.f,b1 = 1.2f, r2 = -2.3f, g2 = 1.11f, b2 = 1234.234f;
+        LLColor3 llcolor3(r1,g1,b1),llcolor3a(r2,g2,b2),llcolor3b;
+        llcolor3b = llcolor3 + llcolor3a ;
+        ensure("1:operator+ failed",is_approx_equal(r1+r2 ,llcolor3b.mV[0]) && is_approx_equal(g1+g2,llcolor3b.mV[1])&& is_approx_equal(b1+b2,llcolor3b.mV[2]));
+        r1 = -.235f, g1 = -24.32f, b1 = 2.13f,  r2 = -2.3f, g2 = 1.f, b2 = 34.21f;
+        llcolor3.setVec(r1,g1,b1);
+        llcolor3a.setVec(r2,g2,b2);
+        llcolor3b = llcolor3 + llcolor3a;
+        ensure("2:operator+ failed",is_approx_equal(r1+r2 ,llcolor3b.mV[0]) && is_approx_equal(g1+g2,llcolor3b.mV[1])&& is_approx_equal(b1+b2,llcolor3b.mV[2]));
+    }
 
-	template<> template<>
-	void v3color_object::test<6>()
-	{
-		F32 r = 2.3436212f, g = -1231.f, b = .7849321232f;
-		std::ostringstream stream1, stream2;
-		LLColor3 llcolor3(r,g,b),llcolor3a;
-		stream1 << llcolor3;
-		llcolor3a.setVec(r,g,b);
-		stream2 << llcolor3a;
-		ensure("operator << failed ", (stream1.str() == stream2.str()));	
-	}
-		
-	template<> template<>
-	void v3color_object::test<7>()
-	{
-		F32 r = 2.3436212f, g = -1231.f, b = .7849321232f;
-		LLColor3 llcolor3(r,g,b),llcolor3a;
-		llcolor3a = llcolor3;
-		ensure("operator == failed ", (llcolor3a == llcolor3));	
-	}
+    template<> template<>
+    void v3color_object::test<9>()
+    {
+        F32 r1 =1.f, g1 = 2.f,b1 = 1.2f, r2 = -2.3f, g2 = 1.11f, b2 = 1234.234f;
+        LLColor3 llcolor3(r1,g1,b1),llcolor3a(r2,g2,b2),llcolor3b;
+        llcolor3b = llcolor3 - llcolor3a ;
+        ensure("1:operator- failed",is_approx_equal(r1-r2 ,llcolor3b.mV[0]) && is_approx_equal(g1-g2,llcolor3b.mV[1])&& is_approx_equal(b1-b2,llcolor3b.mV[2]));
+        r1 = -.235f, g1 = -24.32f, b1 = 2.13f,  r2 = -2.3f, g2 = 1.f, b2 = 34.21f;
+        llcolor3.setVec(r1,g1,b1);
+        llcolor3a.setVec(r2,g2,b2);
+        llcolor3b = llcolor3 - llcolor3a;
+        ensure("2:operator- failed",is_approx_equal(r1-r2 ,llcolor3b.mV[0]) && is_approx_equal(g1-g2,llcolor3b.mV[1])&& is_approx_equal(b1-b2,llcolor3b.mV[2]));
+    }
 
-	template<> template<>
-	void v3color_object::test<8>()
-	{
-		F32 r1 =1.f, g1 = 2.f,b1 = 1.2f, r2 = -2.3f, g2 = 1.11f, b2 = 1234.234f;
-		LLColor3 llcolor3(r1,g1,b1),llcolor3a(r2,g2,b2),llcolor3b;
-		llcolor3b = llcolor3 + llcolor3a ;
-		ensure("1:operator+ failed",is_approx_equal(r1+r2 ,llcolor3b.mV[0]) && is_approx_equal(g1+g2,llcolor3b.mV[1])&& is_approx_equal(b1+b2,llcolor3b.mV[2]));
-		r1 = -.235f, g1 = -24.32f, b1 = 2.13f,  r2 = -2.3f, g2 = 1.f, b2 = 34.21f;
-		llcolor3.setVec(r1,g1,b1);
-		llcolor3a.setVec(r2,g2,b2);
-		llcolor3b = llcolor3 + llcolor3a;
-		ensure("2:operator+ failed",is_approx_equal(r1+r2 ,llcolor3b.mV[0]) && is_approx_equal(g1+g2,llcolor3b.mV[1])&& is_approx_equal(b1+b2,llcolor3b.mV[2]));
-	}
+    template<> template<>
+    void v3color_object::test<10>()
+    {
+        F32 r1 =1.f, g1 = 2.f,b1 = 1.2f, r2 = -2.3f, g2 = 1.11f, b2 = 1234.234f;
+        LLColor3 llcolor3(r1,g1,b1),llcolor3a(r2,g2,b2),llcolor3b;
+        llcolor3b = llcolor3 * llcolor3a;
+        ensure("1:operator* failed",is_approx_equal(r1*r2 ,llcolor3b.mV[0]) && is_approx_equal(g1*g2,llcolor3b.mV[1])&& is_approx_equal(b1*b2,llcolor3b.mV[2]));
+        llcolor3a.setToBlack();
+        F32 mulVal = 4.332f;
+        llcolor3a = llcolor3 * mulVal;
+        ensure("2:operator* failed",is_approx_equal(r1*mulVal ,llcolor3a.mV[0]) && is_approx_equal(g1*mulVal,llcolor3a.mV[1])&& is_approx_equal(b1*mulVal,llcolor3a.mV[2]));
+        llcolor3a.setToBlack();
+        llcolor3a = mulVal * llcolor3;
+        ensure("3:operator* failed",is_approx_equal(r1*mulVal ,llcolor3a.mV[0]) && is_approx_equal(g1*mulVal,llcolor3a.mV[1])&& is_approx_equal(b1*mulVal,llcolor3a.mV[2]));
+    }
 
-	template<> template<>
-	void v3color_object::test<9>()
-	{
-		F32 r1 =1.f, g1 = 2.f,b1 = 1.2f, r2 = -2.3f, g2 = 1.11f, b2 = 1234.234f;
-		LLColor3 llcolor3(r1,g1,b1),llcolor3a(r2,g2,b2),llcolor3b;
-		llcolor3b = llcolor3 - llcolor3a ;
-		ensure("1:operator- failed",is_approx_equal(r1-r2 ,llcolor3b.mV[0]) && is_approx_equal(g1-g2,llcolor3b.mV[1])&& is_approx_equal(b1-b2,llcolor3b.mV[2]));
-		r1 = -.235f, g1 = -24.32f, b1 = 2.13f,  r2 = -2.3f, g2 = 1.f, b2 = 34.21f;
-		llcolor3.setVec(r1,g1,b1);
-		llcolor3a.setVec(r2,g2,b2);
-		llcolor3b = llcolor3 - llcolor3a;
-		ensure("2:operator- failed",is_approx_equal(r1-r2 ,llcolor3b.mV[0]) && is_approx_equal(g1-g2,llcolor3b.mV[1])&& is_approx_equal(b1-b2,llcolor3b.mV[2]));
-	}
+    template<> template<>
+    void v3color_object::test<11>()
+    {
+        F32 r = 2.3436212f, g = 1231.f, b = 4.7849321232f;
+        LLColor3 llcolor3(r,g,b),llcolor3a;
+        llcolor3a = -llcolor3;
+        ensure("operator- failed ", (-llcolor3a == llcolor3));
+    }
 
-	template<> template<>
-	void v3color_object::test<10>()
-	{
-		F32 r1 =1.f, g1 = 2.f,b1 = 1.2f, r2 = -2.3f, g2 = 1.11f, b2 = 1234.234f;
-		LLColor3 llcolor3(r1,g1,b1),llcolor3a(r2,g2,b2),llcolor3b;
-		llcolor3b = llcolor3 * llcolor3a;
-		ensure("1:operator* failed",is_approx_equal(r1*r2 ,llcolor3b.mV[0]) && is_approx_equal(g1*g2,llcolor3b.mV[1])&& is_approx_equal(b1*b2,llcolor3b.mV[2]));
-		llcolor3a.setToBlack();
-		F32 mulVal = 4.332f;
-		llcolor3a = llcolor3 * mulVal;
-		ensure("2:operator* failed",is_approx_equal(r1*mulVal ,llcolor3a.mV[0]) && is_approx_equal(g1*mulVal,llcolor3a.mV[1])&& is_approx_equal(b1*mulVal,llcolor3a.mV[2]));
-		llcolor3a.setToBlack();
-		llcolor3a = mulVal * llcolor3;
-		ensure("3:operator* failed",is_approx_equal(r1*mulVal ,llcolor3a.mV[0]) && is_approx_equal(g1*mulVal,llcolor3a.mV[1])&& is_approx_equal(b1*mulVal,llcolor3a.mV[2]));
-	}
+    template<> template<>
+    void v3color_object::test<12>()
+    {
+        F32 r = 2.3436212f, g = 1231.f, b = 4.7849321232f;
+        LLColor3 llcolor3(r,g,b),llcolor3a(r,g,b);
+        ensure_equals("1:operator== failed",llcolor3a,llcolor3);
+        r = 13.3436212f, g = -11.f, b = .7849321232f;
+        llcolor3.setVec(r,g,b);
+        llcolor3a.setVec(r,g,b);
+        ensure_equals("2:operator== failed",llcolor3a,llcolor3);
+    }
 
-	template<> template<>
-	void v3color_object::test<11>()
-	{
-		F32 r = 2.3436212f, g = 1231.f, b = 4.7849321232f;
-		LLColor3 llcolor3(r,g,b),llcolor3a;
-		llcolor3a = -llcolor3;
-		ensure("operator- failed ", (-llcolor3a == llcolor3));	
-	}
+    template<> template<>
+    void v3color_object::test<13>()
+    {
+        F32 r1 =1.f, g1 = 2.f,b1 = 1.2f, r2 = -2.3f, g2 = 1.11f, b2 = 1234.234f;
+        LLColor3 llcolor3(r1,g1,b1),llcolor3a(r2,g2,b2);
+        ensure("1:operator!= failed",(llcolor3 != llcolor3a));
+        llcolor3.setToBlack();
+        llcolor3a.setVec(llcolor3);
+        ensure("2:operator!= failed", ( FALSE == (llcolor3a != llcolor3)));
+    }
 
-	template<> template<>
-	void v3color_object::test<12>()
-	{
-		F32 r = 2.3436212f, g = 1231.f, b = 4.7849321232f;
-		LLColor3 llcolor3(r,g,b),llcolor3a(r,g,b);
-		ensure_equals("1:operator== failed",llcolor3a,llcolor3);
-		r = 13.3436212f, g = -11.f, b = .7849321232f;
-		llcolor3.setVec(r,g,b);
-		llcolor3a.setVec(r,g,b);
-		ensure_equals("2:operator== failed",llcolor3a,llcolor3);
-	}
+    template<> template<>
+    void v3color_object::test<14>()
+    {
+        F32 r1 =1.f, g1 = 2.f,b1 = 1.2f, r2 = -2.3f, g2 = 1.11f, b2 = 1234.234f;
+        LLColor3 llcolor3(r1,g1,b1),llcolor3a(r2,g2,b2);
+        llcolor3a += llcolor3;
+        ensure("1:operator+= failed",is_approx_equal(r1+r2 ,llcolor3a.mV[0]) && is_approx_equal(g1+g2,llcolor3a.mV[1])&& is_approx_equal(b1+b2,llcolor3a.mV[2]));
+        llcolor3.setVec(r1,g1,b1);
+        llcolor3a.setVec(r2,g2,b2);
+        llcolor3a += llcolor3;
+        ensure("2:operator+= failed",is_approx_equal(r1+r2 ,llcolor3a.mV[0]) && is_approx_equal(g1+g2,llcolor3a.mV[1])&& is_approx_equal(b1+b2,llcolor3a.mV[2]));
+    }
 
-	template<> template<>
-	void v3color_object::test<13>()
-	{
-		F32 r1 =1.f, g1 = 2.f,b1 = 1.2f, r2 = -2.3f, g2 = 1.11f, b2 = 1234.234f;
-		LLColor3 llcolor3(r1,g1,b1),llcolor3a(r2,g2,b2);
-		ensure("1:operator!= failed",(llcolor3 != llcolor3a));
-		llcolor3.setToBlack();
-		llcolor3a.setVec(llcolor3);
-		ensure("2:operator!= failed", ( FALSE == (llcolor3a != llcolor3)));
-	}
+    template<> template<>
+    void v3color_object::test<15>()
+    {
+        F32 r1 =1.f, g1 = 2.f,b1 = 1.2f, r2 = -2.3f, g2 = 1.11f, b2 = 1234.234f;
+        LLColor3 llcolor3(r1,g1,b1),llcolor3a(r2,g2,b2);
+        llcolor3a -= llcolor3;
+        ensure("1:operator-= failed", is_approx_equal(r2-r1, llcolor3a.mV[0]));
+        ensure("2:operator-= failed", is_approx_equal(g2-g1, llcolor3a.mV[1]));
+        ensure("3:operator-= failed", is_approx_equal(b2-b1, llcolor3a.mV[2]));
+        llcolor3.setVec(r1,g1,b1);
+        llcolor3a.setVec(r2,g2,b2);
+        llcolor3a -= llcolor3;
+        ensure("4:operator-= failed", is_approx_equal(r2-r1, llcolor3a.mV[0]));
+        ensure("5:operator-= failed", is_approx_equal(g2-g1, llcolor3a.mV[1]));
+        ensure("6:operator-= failed", is_approx_equal(b2-b1, llcolor3a.mV[2]));
+    }
 
-	template<> template<>
-	void v3color_object::test<14>()
-	{
-		F32 r1 =1.f, g1 = 2.f,b1 = 1.2f, r2 = -2.3f, g2 = 1.11f, b2 = 1234.234f;
-		LLColor3 llcolor3(r1,g1,b1),llcolor3a(r2,g2,b2);
-		llcolor3a += llcolor3;
-		ensure("1:operator+= failed",is_approx_equal(r1+r2 ,llcolor3a.mV[0]) && is_approx_equal(g1+g2,llcolor3a.mV[1])&& is_approx_equal(b1+b2,llcolor3a.mV[2]));
-		llcolor3.setVec(r1,g1,b1);
-		llcolor3a.setVec(r2,g2,b2);
-		llcolor3a += llcolor3;
-		ensure("2:operator+= failed",is_approx_equal(r1+r2 ,llcolor3a.mV[0]) && is_approx_equal(g1+g2,llcolor3a.mV[1])&& is_approx_equal(b1+b2,llcolor3a.mV[2]));
-	}
+    template<> template<>
+    void v3color_object::test<16>()
+    {
+        F32 r1 =1.f, g1 = 2.f,b1 = 1.2f, r2 = -2.3f, g2 = 1.11f, b2 = 1234.234f;
+        LLColor3 llcolor3(r1,g1,b1),llcolor3a(r2,g2,b2);
+        llcolor3a *= llcolor3;
+        ensure("1:operator*= failed",is_approx_equal(r1*r2 ,llcolor3a.mV[0]) && is_approx_equal(g1*g2,llcolor3a.mV[1])&& is_approx_equal(b1*b2,llcolor3a.mV[2]));
+        F32 mulVal = 4.332f;
+        llcolor3 *=mulVal;
+        ensure("2:operator*= failed",is_approx_equal(r1*mulVal ,llcolor3.mV[0]) && is_approx_equal(g1*mulVal,llcolor3.mV[1])&& is_approx_equal(b1*mulVal,llcolor3.mV[2]));
+    }
 
-	template<> template<>
-	void v3color_object::test<15>()
-	{
-		F32 r1 =1.f, g1 = 2.f,b1 = 1.2f, r2 = -2.3f, g2 = 1.11f, b2 = 1234.234f;
-		LLColor3 llcolor3(r1,g1,b1),llcolor3a(r2,g2,b2);
-		llcolor3a -= llcolor3;
-		ensure("1:operator-= failed", is_approx_equal(r2-r1, llcolor3a.mV[0]));
-		ensure("2:operator-= failed", is_approx_equal(g2-g1, llcolor3a.mV[1]));
-		ensure("3:operator-= failed", is_approx_equal(b2-b1, llcolor3a.mV[2]));
-		llcolor3.setVec(r1,g1,b1);
-		llcolor3a.setVec(r2,g2,b2);
-		llcolor3a -= llcolor3;
-		ensure("4:operator-= failed", is_approx_equal(r2-r1, llcolor3a.mV[0]));
-		ensure("5:operator-= failed", is_approx_equal(g2-g1, llcolor3a.mV[1]));
-		ensure("6:operator-= failed", is_approx_equal(b2-b1, llcolor3a.mV[2]));
-	}
-	
-	template<> template<>
-	void v3color_object::test<16>()
-	{
-		F32 r1 =1.f, g1 = 2.f,b1 = 1.2f, r2 = -2.3f, g2 = 1.11f, b2 = 1234.234f;
-		LLColor3 llcolor3(r1,g1,b1),llcolor3a(r2,g2,b2);
-		llcolor3a *= llcolor3;
-		ensure("1:operator*= failed",is_approx_equal(r1*r2 ,llcolor3a.mV[0]) && is_approx_equal(g1*g2,llcolor3a.mV[1])&& is_approx_equal(b1*b2,llcolor3a.mV[2]));
-		F32 mulVal = 4.332f;
-		llcolor3 *=mulVal;
-		ensure("2:operator*= failed",is_approx_equal(r1*mulVal ,llcolor3.mV[0]) && is_approx_equal(g1*mulVal,llcolor3.mV[1])&& is_approx_equal(b1*mulVal,llcolor3.mV[2]));
-	}
+    template<> template<>
+    void v3color_object::test<17>()
+    {
+        F32 r = 2.3436212f, g = -1231.f, b = .7849321232f;
+        LLColor3 llcolor3(r,g,b);
+        llcolor3.clamp();
+        ensure("1:clamp:Fail to clamp " ,(1.0f == llcolor3.mV[0]) && (0.f == llcolor3.mV[1]) && (b == llcolor3.mV[2]));
+        r = -2.3436212f, g = -1231.f, b = 67.7849321232f;
+        llcolor3.setVec(r,g,b);
+        llcolor3.clamp();
+        ensure("2:clamp:Fail to clamp " ,(0.f == llcolor3.mV[0]) && (0.f == llcolor3.mV[1]) && (1.f == llcolor3.mV[2]));
+    }
 
-	template<> template<>
-	void v3color_object::test<17>()
-	{
-		F32 r = 2.3436212f, g = -1231.f, b = .7849321232f;
-		LLColor3 llcolor3(r,g,b);
-		llcolor3.clamp();
-		ensure("1:clamp:Fail to clamp " ,(1.0f == llcolor3.mV[0]) && (0.f == llcolor3.mV[1]) && (b == llcolor3.mV[2]));
-		r = -2.3436212f, g = -1231.f, b = 67.7849321232f;
-		llcolor3.setVec(r,g,b);
-		llcolor3.clamp();
-		ensure("2:clamp:Fail to clamp " ,(0.f == llcolor3.mV[0]) && (0.f == llcolor3.mV[1]) && (1.f == llcolor3.mV[2]));
-	}
+    template<> template<>
+    void v3color_object::test<18>()
+    {
+        F32 r1 =1.f, g1 = 2.f,b1 = 1.2f, r2 = -2.3f, g2 = 1.11f, b2 = 1234.234f;
+        F32 val = 2.3f,val1,val2,val3;
+        LLColor3 llcolor3(r1,g1,b1),llcolor3a(r2,g2,b2);
+        val1 = r1 + (r2 - r1)* val;
+        val2 = g1 + (g2 - g1)* val;
+        val3 = b1 + (b2 - b1)* val;
+        LLColor3 llcolor3b = lerp(llcolor3,llcolor3a,val);
+        ensure("lerp failed ", ((val1 ==llcolor3b.mV[0])&& (val2 ==llcolor3b.mV[1]) && (val3 ==llcolor3b.mV[2])));
+    }
 
-	template<> template<>
-	void v3color_object::test<18>()
-	{
-		F32 r1 =1.f, g1 = 2.f,b1 = 1.2f, r2 = -2.3f, g2 = 1.11f, b2 = 1234.234f;
-		F32 val = 2.3f,val1,val2,val3;
-		LLColor3 llcolor3(r1,g1,b1),llcolor3a(r2,g2,b2);
-		val1 = r1 + (r2 - r1)* val;
-		val2 = g1 + (g2 - g1)* val;
-		val3 = b1 + (b2 - b1)* val;
-		LLColor3 llcolor3b = lerp(llcolor3,llcolor3a,val);
-		ensure("lerp failed ", ((val1 ==llcolor3b.mV[0])&& (val2 ==llcolor3b.mV[1]) && (val3 ==llcolor3b.mV[2])));		
-	}
+    template<> template<>
+    void v3color_object::test<19>()
+    {
+        F32 r1 =1.f, g1 = 2.f,b1 = 1.2f, r2 = -2.3f, g2 = 1.11f, b2 = 1234.234f;
+        LLColor3 llcolor3(r1,g1,b1),llcolor3a(r2,g2,b2);
+        F32 val = distVec(llcolor3,llcolor3a);
+        ensure("distVec failed ", is_approx_equal((F32) sqrt((r1-r2)*(r1-r2) + (g1-g2)*(g1-g2) + (b1-b2)*(b1-b2)) ,val));
 
-	template<> template<>
-	void v3color_object::test<19>()
-	{
-		F32 r1 =1.f, g1 = 2.f,b1 = 1.2f, r2 = -2.3f, g2 = 1.11f, b2 = 1234.234f;
-		LLColor3 llcolor3(r1,g1,b1),llcolor3a(r2,g2,b2);
-		F32 val = distVec(llcolor3,llcolor3a);
-		ensure("distVec failed ", is_approx_equal((F32) sqrt((r1-r2)*(r1-r2) + (g1-g2)*(g1-g2) + (b1-b2)*(b1-b2)) ,val));
-		
-		F32 val1 = distVec_squared(llcolor3,llcolor3a);
-		ensure("distVec_squared failed ", is_approx_equal(((r1-r2)*(r1-r2) + (g1-g2)*(g1-g2) + (b1-b2)*(b1-b2)) ,val1));
-	}
+        F32 val1 = distVec_squared(llcolor3,llcolor3a);
+        ensure("distVec_squared failed ", is_approx_equal(((r1-r2)*(r1-r2) + (g1-g2)*(g1-g2) + (b1-b2)*(b1-b2)) ,val1));
+    }
 
-	template<> template<>
-	void v3color_object::test<20>()
-	{
-		F32 r1 = 1.02223f, g1 = 22222.212f, b1 = 122222.00002f;
-		LLColor3 llcolor31(r1,g1,b1);
+    template<> template<>
+    void v3color_object::test<20>()
+    {
+        F32 r1 = 1.02223f, g1 = 22222.212f, b1 = 122222.00002f;
+        LLColor3 llcolor31(r1,g1,b1);
 
-		LLSD sd = llcolor31.getValue();
-		LLColor3 llcolor32;
-		llcolor32.setValue(sd);
-		ensure_equals("LLColor3::setValue/getValue failed", llcolor31, llcolor32);
+        LLSD sd = llcolor31.getValue();
+        LLColor3 llcolor32;
+        llcolor32.setValue(sd);
+        ensure_equals("LLColor3::setValue/getValue failed", llcolor31, llcolor32);
 
-		LLColor3 llcolor33(sd);
-		ensure_equals("LLColor3(LLSD) failed", llcolor31, llcolor33);
-	}
+        LLColor3 llcolor33(sd);
+        ensure_equals("LLColor3(LLSD) failed", llcolor31, llcolor33);
+    }
 }
diff --git a/indra/llmath/tests/v3dmath_test.cpp b/indra/llmath/tests/v3dmath_test.cpp
index c4744e1b25..6b58cbd007 100644
--- a/indra/llmath/tests/v3dmath_test.cpp
+++ b/indra/llmath/tests/v3dmath_test.cpp
@@ -7,25 +7,25 @@
  * $LicenseInfo:firstyear=2007&license=viewerlgpl$
  * Second Life Viewer Source Code
  * Copyright (C) 2010, Linden Research, Inc.
- * 
+ *
  * This library is free software; you can redistribute it and/or
  * modify it under the terms of the GNU Lesser General Public
  * License as published by the Free Software Foundation;
  * version 2.1 of the License only.
- * 
+ *
  * This library is distributed in the hope that it will be useful,
  * but WITHOUT ANY WARRANTY; without even the implied warranty of
  * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the GNU
  * Lesser General Public License for more details.
- * 
+ *
  * You should have received a copy of the GNU Lesser General Public
  * License along with this library; if not, write to the Free Software
  * Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA  02110-1301  USA
- * 
+ *
  * Linden Research, Inc., 945 Battery Street, San Francisco, CA  94111  USA
  * $/LicenseInfo$
  */
- 
+
 #include "linden_common.h"
 #include "llsd.h"
 #include "../test/lltut.h"
@@ -38,494 +38,494 @@
 
 namespace tut
 {
-	struct v3dmath_data
-	{
-	};
-	typedef test_group<v3dmath_data> v3dmath_test;
-	typedef v3dmath_test::object v3dmath_object;
-	tut::v3dmath_test v3dmath_testcase("v3dmath_h");
+    struct v3dmath_data
+    {
+    };
+    typedef test_group<v3dmath_data> v3dmath_test;
+    typedef v3dmath_test::object v3dmath_object;
+    tut::v3dmath_test v3dmath_testcase("v3dmath_h");
 
-	template<> template<>
-	void v3dmath_object::test<1>()
-	{
-		LLVector3d vec3D;
-		ensure("1:LLVector3d:Fail to initialize ", ((0 == vec3D.mdV[VX]) && (0 == vec3D.mdV[VY]) && (0 == vec3D.mdV[VZ])));
-		F64 x = 2.32f, y = 1.212f, z = -.12f;
-		LLVector3d vec3Da(x,y,z);
-		ensure("2:LLVector3d:Fail to initialize ", ((2.32f == vec3Da.mdV[VX]) && (1.212f == vec3Da.mdV[VY]) && (-.12f == vec3Da.mdV[VZ])));
-		const F64 vec[3] = {1.2f ,3.2f, -4.2f};
-		LLVector3d vec3Db(vec);
-		ensure("3:LLVector3d:Fail to initialize ", ((1.2f == vec3Db.mdV[VX]) && (3.2f == vec3Db.mdV[VY]) && (-4.2f == vec3Db.mdV[VZ])));
-		LLVector3 vec3((F32)x,(F32)y,(F32)z);
-		LLVector3d vec3Dc(vec3);
-		ensure_equals("4:LLVector3d Fail to initialize",vec3Da,vec3Dc);
-	}
+    template<> template<>
+    void v3dmath_object::test<1>()
+    {
+        LLVector3d vec3D;
+        ensure("1:LLVector3d:Fail to initialize ", ((0 == vec3D.mdV[VX]) && (0 == vec3D.mdV[VY]) && (0 == vec3D.mdV[VZ])));
+        F64 x = 2.32f, y = 1.212f, z = -.12f;
+        LLVector3d vec3Da(x,y,z);
+        ensure("2:LLVector3d:Fail to initialize ", ((2.32f == vec3Da.mdV[VX]) && (1.212f == vec3Da.mdV[VY]) && (-.12f == vec3Da.mdV[VZ])));
+        const F64 vec[3] = {1.2f ,3.2f, -4.2f};
+        LLVector3d vec3Db(vec);
+        ensure("3:LLVector3d:Fail to initialize ", ((1.2f == vec3Db.mdV[VX]) && (3.2f == vec3Db.mdV[VY]) && (-4.2f == vec3Db.mdV[VZ])));
+        LLVector3 vec3((F32)x,(F32)y,(F32)z);
+        LLVector3d vec3Dc(vec3);
+        ensure_equals("4:LLVector3d Fail to initialize",vec3Da,vec3Dc);
+    }
 
-	template<> template<>
-	void v3dmath_object::test<2>()
-	{
-		S32 a = -235;
-		LLSD llsd(a);
-		LLVector3d vec3d(llsd);
-		LLSD sd = vec3d.getValue();
-		LLVector3d vec3da(sd);
-		ensure("1:getValue:Fail ", (vec3d == vec3da));
-	}
+    template<> template<>
+    void v3dmath_object::test<2>()
+    {
+        S32 a = -235;
+        LLSD llsd(a);
+        LLVector3d vec3d(llsd);
+        LLSD sd = vec3d.getValue();
+        LLVector3d vec3da(sd);
+        ensure("1:getValue:Fail ", (vec3d == vec3da));
+    }
 
-	template<> template<>
-	void v3dmath_object::test<3>()
-	{
-		F64 a = 232345521.411132;
-		LLSD llsd(a);
-		LLVector3d vec3d;
-		vec3d.setValue(llsd);
-		LLSD sd = vec3d.getValue();
-		LLVector3d vec3da(sd);
-		ensure("1:setValue:Fail to initialize ", (vec3d == vec3da));
-	}
+    template<> template<>
+    void v3dmath_object::test<3>()
+    {
+        F64 a = 232345521.411132;
+        LLSD llsd(a);
+        LLVector3d vec3d;
+        vec3d.setValue(llsd);
+        LLSD sd = vec3d.getValue();
+        LLVector3d vec3da(sd);
+        ensure("1:setValue:Fail to initialize ", (vec3d == vec3da));
+    }
 
-	template<> template<>
-	void v3dmath_object::test<4>()
-	{
-		F64 a[3] = {222231.43222, 12345.2343, -434343.33222};
-		LLSD llsd;
-		llsd[0] = a[0];
-		llsd[1] = a[1];
-		llsd[2] = a[2];
-		LLVector3d vec3D;
-		vec3D = (LLVector3d)llsd;
-		ensure("1:operator=:Fail to initialize ", ((llsd[0].asReal()== vec3D.mdV[VX]) && (llsd[1].asReal() == vec3D.mdV[VY]) && (llsd[2].asReal() == vec3D.mdV[VZ])));
-	}
-	
-	template<> template<>
-	void v3dmath_object::test<5>()
-	{
-		F64 x = 2.32f, y = 1.212f, z = -.12f;
-		LLVector3d vec3D(x,y,z);
-		vec3D.clearVec();
-		ensure("1:clearVec:Fail to initialize ", ((0 == vec3D.mdV[VX]) && (0 == vec3D.mdV[VY]) && (0 == vec3D.mdV[VZ])));
-		vec3D.setVec(x,y,z);
-		ensure("2:setVec:Fail to initialize ", ((x == vec3D.mdV[VX]) && (y == vec3D.mdV[VY]) && (z == vec3D.mdV[VZ])));
-		vec3D.zeroVec();
-		ensure("3:zeroVec:Fail to initialize ", ((0 == vec3D.mdV[VX]) && (0 == vec3D.mdV[VY]) && (0 == vec3D.mdV[VZ])));
-		vec3D.clearVec();
-		LLVector3 vec3((F32)x,(F32)y,(F32)z);
-		vec3D.setVec(vec3);
-		ensure("4:setVec:Fail to initialize ", ((x == vec3D.mdV[VX]) && (y == vec3D.mdV[VY]) && (z == vec3D.mdV[VZ])));
-		vec3D.clearVec();
-		const F64 vec[3] = {x,y,z};
-		vec3D.setVec(vec);
-		ensure("5:setVec:Fail to initialize ", ((x == vec3D.mdV[VX]) && (y == vec3D.mdV[VY]) && (z == vec3D.mdV[VZ])));
-		LLVector3d vec3Da;
-		vec3Da.setVec(vec3D);
-		ensure_equals("6:setVec: Fail to initialize", vec3D, vec3Da);
-	}
-	
-	template<> template<>
-	void v3dmath_object::test<6>()
-	{
-		F64 x = -2.32, y = 1.212, z = -.12;
-		LLVector3d vec3D(x,y,z);
-		vec3D.abs();
-		ensure("1:abs:Fail  ", ((-x == vec3D.mdV[VX]) && (y == vec3D.mdV[VY]) && (-z == vec3D.mdV[VZ])));
-		ensure("2:isNull():Fail ", (FALSE == vec3D.isNull()));	
-		vec3D.clearVec();
-		x =.00000001, y = .000001001, z = .000001001;
-		vec3D.setVec(x,y,z);
-		ensure("3:isNull():Fail ", (TRUE == vec3D.isNull()));	
-		ensure("4:isExactlyZero():Fail ", (FALSE == vec3D.isExactlyZero()));	
-		x =.0000000, y = .00000000, z = .00000000;
-		vec3D.setVec(x,y,z);
-		ensure("5:isExactlyZero():Fail ", (TRUE == vec3D.isExactlyZero()));	
-	}
+    template<> template<>
+    void v3dmath_object::test<4>()
+    {
+        F64 a[3] = {222231.43222, 12345.2343, -434343.33222};
+        LLSD llsd;
+        llsd[0] = a[0];
+        llsd[1] = a[1];
+        llsd[2] = a[2];
+        LLVector3d vec3D;
+        vec3D = (LLVector3d)llsd;
+        ensure("1:operator=:Fail to initialize ", ((llsd[0].asReal()== vec3D.mdV[VX]) && (llsd[1].asReal() == vec3D.mdV[VY]) && (llsd[2].asReal() == vec3D.mdV[VZ])));
+    }
 
-	template<> template<>
-	void v3dmath_object::test<7>()
-	{
-		F64 x = -2.32, y = 1.212, z = -.12;
-		LLVector3d vec3D(x,y,z);
-		
-		ensure("1:operator [] failed",( x ==  vec3D[0]));	
-		ensure("2:operator [] failed",( y ==  vec3D[1]));
-		ensure("3:operator [] failed",( z ==  vec3D[2]));
-		vec3D.clearVec();
-		x = 23.23, y = -.2361, z = 3.25;
-		vec3D.setVec(x,y,z);
-		F64 &ref1 = vec3D[0];
-		ensure("4:operator [] failed",( ref1 ==  vec3D[0]));
-		F64 &ref2 = vec3D[1];
-		ensure("5:operator [] failed",( ref2 ==  vec3D[1]));
-		F64 &ref3 = vec3D[2];
-		ensure("6:operator [] failed",( ref3 ==  vec3D[2]));
-	}
+    template<> template<>
+    void v3dmath_object::test<5>()
+    {
+        F64 x = 2.32f, y = 1.212f, z = -.12f;
+        LLVector3d vec3D(x,y,z);
+        vec3D.clearVec();
+        ensure("1:clearVec:Fail to initialize ", ((0 == vec3D.mdV[VX]) && (0 == vec3D.mdV[VY]) && (0 == vec3D.mdV[VZ])));
+        vec3D.setVec(x,y,z);
+        ensure("2:setVec:Fail to initialize ", ((x == vec3D.mdV[VX]) && (y == vec3D.mdV[VY]) && (z == vec3D.mdV[VZ])));
+        vec3D.zeroVec();
+        ensure("3:zeroVec:Fail to initialize ", ((0 == vec3D.mdV[VX]) && (0 == vec3D.mdV[VY]) && (0 == vec3D.mdV[VZ])));
+        vec3D.clearVec();
+        LLVector3 vec3((F32)x,(F32)y,(F32)z);
+        vec3D.setVec(vec3);
+        ensure("4:setVec:Fail to initialize ", ((x == vec3D.mdV[VX]) && (y == vec3D.mdV[VY]) && (z == vec3D.mdV[VZ])));
+        vec3D.clearVec();
+        const F64 vec[3] = {x,y,z};
+        vec3D.setVec(vec);
+        ensure("5:setVec:Fail to initialize ", ((x == vec3D.mdV[VX]) && (y == vec3D.mdV[VY]) && (z == vec3D.mdV[VZ])));
+        LLVector3d vec3Da;
+        vec3Da.setVec(vec3D);
+        ensure_equals("6:setVec: Fail to initialize", vec3D, vec3Da);
+    }
 
-	template<> template<>
-	void v3dmath_object::test<8>()
-	{
-		F32 x = 1.f, y = 2.f, z = -1.f;
-		LLVector4 vec4(x,y,z);		
-		LLVector3d vec3D;
-		vec3D = vec4;
-		ensure("1:operator=:Fail to initialize ", ((vec4.mV[VX] == vec3D.mdV[VX]) && (vec4.mV[VY] == vec3D.mdV[VY]) && (vec4.mV[VZ] == vec3D.mdV[VZ])));
-	}
+    template<> template<>
+    void v3dmath_object::test<6>()
+    {
+        F64 x = -2.32, y = 1.212, z = -.12;
+        LLVector3d vec3D(x,y,z);
+        vec3D.abs();
+        ensure("1:abs:Fail  ", ((-x == vec3D.mdV[VX]) && (y == vec3D.mdV[VY]) && (-z == vec3D.mdV[VZ])));
+        ensure("2:isNull():Fail ", (FALSE == vec3D.isNull()));
+        vec3D.clearVec();
+        x =.00000001, y = .000001001, z = .000001001;
+        vec3D.setVec(x,y,z);
+        ensure("3:isNull():Fail ", (TRUE == vec3D.isNull()));
+        ensure("4:isExactlyZero():Fail ", (FALSE == vec3D.isExactlyZero()));
+        x =.0000000, y = .00000000, z = .00000000;
+        vec3D.setVec(x,y,z);
+        ensure("5:isExactlyZero():Fail ", (TRUE == vec3D.isExactlyZero()));
+    }
 
-	template<> template<>
-	void v3dmath_object::test<9>()
-	{
-		F64 x1 = 1.78787878, y1 = 232322.2121, z1 = -12121.121212;
-		F64 x2 = 1.2, y2 = 2.5, z2 = 1.;
-		LLVector3d vec3D(x1,y1,z1),vec3Da(x2,y2,z2),vec3Db;
-		vec3Db = vec3Da+ vec3D;
-		ensure("1:operator+:Fail to initialize ", ((x1+x2 == vec3Db.mdV[VX]) && (y1+y2 == vec3Db.mdV[VY]) && (z1+z2 == vec3Db.mdV[VZ])));
-		x1 = -2.45, y1 = 2.1, z1 = 3.0;
-		vec3D.clearVec();
-		vec3Da.clearVec();
-		vec3D.setVec(x1,y1,z1);
-		vec3Da += vec3D;
-		ensure_equals("2:operator+=: Fail to initialize", vec3Da,vec3D);
-		vec3Da += vec3D;
-		ensure("3:operator+=:Fail to initialize ", ((2*x1 == vec3Da.mdV[VX]) && (2*y1 == vec3Da.mdV[VY]) && (2*z1 == vec3Da.mdV[VZ])));
-	}
+    template<> template<>
+    void v3dmath_object::test<7>()
+    {
+        F64 x = -2.32, y = 1.212, z = -.12;
+        LLVector3d vec3D(x,y,z);
 
-	template<> template<>
-	void v3dmath_object::test<10>()
-	{
-		F64 x1 = 1., y1 = 2., z1 = -1.1;
-		F64 x2 = 1.2, y2 = 2.5, z2 = 1.;
-		LLVector3d vec3D(x1,y1,z1),vec3Da(x2,y2,z2),vec3Db;
-		vec3Db = vec3Da - vec3D;
-		ensure("1:operator-:Fail to initialize ", ((x2-x1 == vec3Db.mdV[VX]) && (y2-y1 == vec3Db.mdV[VY]) && (z2-z1 == vec3Db.mdV[VZ])));
-		x1 = -2.45, y1 = 2.1, z1 = 3.0;
-		vec3D.clearVec();
-		vec3Da.clearVec();
-		vec3D.setVec(x1,y1,z1);
-		vec3Da -=vec3D;
-		ensure("2:operator-=:Fail to initialize ", ((2.45 == vec3Da.mdV[VX]) && (-2.1 == vec3Da.mdV[VY]) && (-3.0 == vec3Da.mdV[VZ])));
-		vec3Da -= vec3D;
-		ensure("3:operator-=:Fail to initialize ", ((-2*x1 == vec3Da.mdV[VX]) && (-2*y1 == vec3Da.mdV[VY]) && (-2*z1 == vec3Da.mdV[VZ])));
-	}
-	template<> template<>
-	void v3dmath_object::test<11>()
-	{
-		F64 x1 = 1., y1 = 2., z1 = -1.1;
-		F64 x2 = 1.2, y2 = 2.5, z2 = 1.;
-		LLVector3d vec3D(x1,y1,z1),vec3Da(x2,y2,z2);
-		F64 res = vec3D * vec3Da;
-		ensure_approximately_equals(
-			"1:operator* failed",
-			res,
-			(x1*x2 + y1*y2 + z1*z2),
-			8);
-		vec3Da.clearVec();
-		F64 mulVal = 4.2;
-		vec3Da = vec3D * mulVal;
-		ensure_approximately_equals(
-			"2a:operator* failed",
-			vec3Da.mdV[VX],
-			x1*mulVal,
-			8);
-		ensure_approximately_equals(
-			"2b:operator* failed",
-			vec3Da.mdV[VY],
-			y1*mulVal,
-			8);
-		ensure_approximately_equals(
-			"2c:operator* failed",
-			vec3Da.mdV[VZ],
-			z1*mulVal,
-			8);
-		vec3Da.clearVec();
-		vec3Da = mulVal * vec3D;
-		ensure_approximately_equals(
-			"3a:operator* failed",
-			vec3Da.mdV[VX],
-			x1*mulVal,
-			8);
-		ensure_approximately_equals(
-			"3b:operator* failed",
-			vec3Da.mdV[VY],
-			y1*mulVal,
-			8);
-		ensure_approximately_equals(
-			"3c:operator* failed",
-			vec3Da.mdV[VZ],
-			z1*mulVal,
-			8);
-		vec3D *= mulVal;
-		ensure_approximately_equals(
-			"4a:operator*= failed",
-			vec3D.mdV[VX],
-			x1*mulVal,
-			8);
-		ensure_approximately_equals(
-			"4b:operator*= failed",
-			vec3D.mdV[VY],
-			y1*mulVal,
-			8);
-		ensure_approximately_equals(
-			"4c:operator*= failed",
-			vec3D.mdV[VZ],
-			z1*mulVal,
-			8);
-	}
+        ensure("1:operator [] failed",( x ==  vec3D[0]));
+        ensure("2:operator [] failed",( y ==  vec3D[1]));
+        ensure("3:operator [] failed",( z ==  vec3D[2]));
+        vec3D.clearVec();
+        x = 23.23, y = -.2361, z = 3.25;
+        vec3D.setVec(x,y,z);
+        F64 &ref1 = vec3D[0];
+        ensure("4:operator [] failed",( ref1 ==  vec3D[0]));
+        F64 &ref2 = vec3D[1];
+        ensure("5:operator [] failed",( ref2 ==  vec3D[1]));
+        F64 &ref3 = vec3D[2];
+        ensure("6:operator [] failed",( ref3 ==  vec3D[2]));
+    }
 
-	template<> template<>
-	void v3dmath_object::test<12>()
-	{
-		F64 x1 = 1., y1 = 2., z1 = -1.1;
-		F64 x2 = 1.2, y2 = 2.5, z2 = 1.;
-		F64 val1, val2, val3;
-		LLVector3d vec3D(x1,y1,z1),vec3Da(x2,y2,z2), vec3Db;
-		vec3Db = vec3D % vec3Da;
-		val1 = y1*z2 - y2*z1;
-		val2 = z1*x2 -z2*x1;
-		val3 = x1*y2-x2*y1;
-		ensure("1:operator% failed",(val1 == vec3Db.mdV[VX]) && (val2 == vec3Db.mdV[VY]) && (val3 == vec3Db.mdV[VZ])); 
-		vec3D %= vec3Da;
-		ensure("2:operator%= failed",
-		       is_approx_equal(vec3D.mdV[VX],vec3Db.mdV[VX]) &&
-		       is_approx_equal(vec3D.mdV[VY],vec3Db.mdV[VY]) &&
-		       is_approx_equal(vec3D.mdV[VZ],vec3Db.mdV[VZ]) ); 
-	}
+    template<> template<>
+    void v3dmath_object::test<8>()
+    {
+        F32 x = 1.f, y = 2.f, z = -1.f;
+        LLVector4 vec4(x,y,z);
+        LLVector3d vec3D;
+        vec3D = vec4;
+        ensure("1:operator=:Fail to initialize ", ((vec4.mV[VX] == vec3D.mdV[VX]) && (vec4.mV[VY] == vec3D.mdV[VY]) && (vec4.mV[VZ] == vec3D.mdV[VZ])));
+    }
 
-	template<> template<>
-	void v3dmath_object::test<13>()
-	{
-		F64 x1 = 1., y1 = 2., z1 = -1.1,div = 4.2;
-		F64 t = 1.f / div;
-		LLVector3d vec3D(x1,y1,z1), vec3Da;
-		vec3Da = vec3D/div;
-		ensure_approximately_equals(
-			"1a:operator/ failed",
-			vec3Da.mdV[VX],
-			x1*t,
-			8);
-		ensure_approximately_equals(
-			"1b:operator/ failed",
-			vec3Da.mdV[VY],
-			y1*t,
-			8);
-		ensure_approximately_equals(
-			"1c:operator/ failed",
-			vec3Da.mdV[VZ],
-			z1*t,
-			8);
-		x1 = 1.23, y1 = 4., z1 = -2.32;
-		vec3D.clearVec();
-		vec3Da.clearVec();
-		vec3D.setVec(x1,y1,z1);
-		vec3Da = vec3D/div;
-		ensure_approximately_equals(
-			"2a:operator/ failed",
-			vec3Da.mdV[VX],
-			x1*t,
-			8);
-		ensure_approximately_equals(
-			"2b:operator/ failed",
-			vec3Da.mdV[VY],
-			y1*t,
-			8);
-		ensure_approximately_equals(
-			"2c:operator/ failed",
-			vec3Da.mdV[VZ],
-			z1*t,
-			8);
-		vec3D /= div;
-		ensure_approximately_equals(
-			"3a:operator/= failed",
-			vec3D.mdV[VX],
-			x1*t,
-			8);
-		ensure_approximately_equals(
-			"3b:operator/= failed",
-			vec3D.mdV[VY],
-			y1*t,
-			8);
-		ensure_approximately_equals(
-			"3c:operator/= failed",
-			vec3D.mdV[VZ],
-			z1*t,
-			8);
-	}
+    template<> template<>
+    void v3dmath_object::test<9>()
+    {
+        F64 x1 = 1.78787878, y1 = 232322.2121, z1 = -12121.121212;
+        F64 x2 = 1.2, y2 = 2.5, z2 = 1.;
+        LLVector3d vec3D(x1,y1,z1),vec3Da(x2,y2,z2),vec3Db;
+        vec3Db = vec3Da+ vec3D;
+        ensure("1:operator+:Fail to initialize ", ((x1+x2 == vec3Db.mdV[VX]) && (y1+y2 == vec3Db.mdV[VY]) && (z1+z2 == vec3Db.mdV[VZ])));
+        x1 = -2.45, y1 = 2.1, z1 = 3.0;
+        vec3D.clearVec();
+        vec3Da.clearVec();
+        vec3D.setVec(x1,y1,z1);
+        vec3Da += vec3D;
+        ensure_equals("2:operator+=: Fail to initialize", vec3Da,vec3D);
+        vec3Da += vec3D;
+        ensure("3:operator+=:Fail to initialize ", ((2*x1 == vec3Da.mdV[VX]) && (2*y1 == vec3Da.mdV[VY]) && (2*z1 == vec3Da.mdV[VZ])));
+    }
 
-	template<> template<>
-	void v3dmath_object::test<14>()
-	{
-		F64 x1 = 1., y1 = 2., z1 = -1.1;
-		LLVector3d vec3D(x1,y1,z1), vec3Da;
-		ensure("1:operator!= failed",(TRUE == (vec3D !=vec3Da)));
-		vec3Da = vec3D;
-		ensure("2:operator== failed",(vec3D ==vec3Da)); 
-		vec3D.clearVec();
-		vec3Da.clearVec();
-		x1 = .211, y1 = 21.111, z1 = 23.22;
-		vec3D.setVec(x1,y1,z1);
-		vec3Da.setVec(x1,y1,z1);
-		ensure("3:operator== failed",(vec3D ==vec3Da)); 
-		ensure("4:operator!= failed",(FALSE == (vec3D !=vec3Da)));
-	}
-		
-	template<> template<>
-	void v3dmath_object::test<15>()
-	{
-		F64 x1 = 1., y1 = 2., z1 = -1.1;
-		LLVector3d vec3D(x1,y1,z1), vec3Da;
-		std::ostringstream stream1, stream2;
-		stream1 << vec3D;
-		vec3Da.setVec(x1,y1,z1);
-		stream2 << vec3Da;
-		ensure("1:operator << failed",(stream1.str() == stream2.str()));	
-	}
+    template<> template<>
+    void v3dmath_object::test<10>()
+    {
+        F64 x1 = 1., y1 = 2., z1 = -1.1;
+        F64 x2 = 1.2, y2 = 2.5, z2 = 1.;
+        LLVector3d vec3D(x1,y1,z1),vec3Da(x2,y2,z2),vec3Db;
+        vec3Db = vec3Da - vec3D;
+        ensure("1:operator-:Fail to initialize ", ((x2-x1 == vec3Db.mdV[VX]) && (y2-y1 == vec3Db.mdV[VY]) && (z2-z1 == vec3Db.mdV[VZ])));
+        x1 = -2.45, y1 = 2.1, z1 = 3.0;
+        vec3D.clearVec();
+        vec3Da.clearVec();
+        vec3D.setVec(x1,y1,z1);
+        vec3Da -=vec3D;
+        ensure("2:operator-=:Fail to initialize ", ((2.45 == vec3Da.mdV[VX]) && (-2.1 == vec3Da.mdV[VY]) && (-3.0 == vec3Da.mdV[VZ])));
+        vec3Da -= vec3D;
+        ensure("3:operator-=:Fail to initialize ", ((-2*x1 == vec3Da.mdV[VX]) && (-2*y1 == vec3Da.mdV[VY]) && (-2*z1 == vec3Da.mdV[VZ])));
+    }
+    template<> template<>
+    void v3dmath_object::test<11>()
+    {
+        F64 x1 = 1., y1 = 2., z1 = -1.1;
+        F64 x2 = 1.2, y2 = 2.5, z2 = 1.;
+        LLVector3d vec3D(x1,y1,z1),vec3Da(x2,y2,z2);
+        F64 res = vec3D * vec3Da;
+        ensure_approximately_equals(
+            "1:operator* failed",
+            res,
+            (x1*x2 + y1*y2 + z1*z2),
+            8);
+        vec3Da.clearVec();
+        F64 mulVal = 4.2;
+        vec3Da = vec3D * mulVal;
+        ensure_approximately_equals(
+            "2a:operator* failed",
+            vec3Da.mdV[VX],
+            x1*mulVal,
+            8);
+        ensure_approximately_equals(
+            "2b:operator* failed",
+            vec3Da.mdV[VY],
+            y1*mulVal,
+            8);
+        ensure_approximately_equals(
+            "2c:operator* failed",
+            vec3Da.mdV[VZ],
+            z1*mulVal,
+            8);
+        vec3Da.clearVec();
+        vec3Da = mulVal * vec3D;
+        ensure_approximately_equals(
+            "3a:operator* failed",
+            vec3Da.mdV[VX],
+            x1*mulVal,
+            8);
+        ensure_approximately_equals(
+            "3b:operator* failed",
+            vec3Da.mdV[VY],
+            y1*mulVal,
+            8);
+        ensure_approximately_equals(
+            "3c:operator* failed",
+            vec3Da.mdV[VZ],
+            z1*mulVal,
+            8);
+        vec3D *= mulVal;
+        ensure_approximately_equals(
+            "4a:operator*= failed",
+            vec3D.mdV[VX],
+            x1*mulVal,
+            8);
+        ensure_approximately_equals(
+            "4b:operator*= failed",
+            vec3D.mdV[VY],
+            y1*mulVal,
+            8);
+        ensure_approximately_equals(
+            "4c:operator*= failed",
+            vec3D.mdV[VZ],
+            z1*mulVal,
+            8);
+    }
 
-	template<> template<>
-	void v3dmath_object::test<16>()
-	{
-		F64 x1 = 1.23, y1 = 2.0, z1 = 4.;
-		std::string buf("1.23 2. 4");
-		LLVector3d vec3D, vec3Da(x1,y1,z1);
-		LLVector3d::parseVector3d(buf, &vec3D);
-		ensure_equals("1:parseVector3d: failed " , vec3D, vec3Da);	
-	}
+    template<> template<>
+    void v3dmath_object::test<12>()
+    {
+        F64 x1 = 1., y1 = 2., z1 = -1.1;
+        F64 x2 = 1.2, y2 = 2.5, z2 = 1.;
+        F64 val1, val2, val3;
+        LLVector3d vec3D(x1,y1,z1),vec3Da(x2,y2,z2), vec3Db;
+        vec3Db = vec3D % vec3Da;
+        val1 = y1*z2 - y2*z1;
+        val2 = z1*x2 -z2*x1;
+        val3 = x1*y2-x2*y1;
+        ensure("1:operator% failed",(val1 == vec3Db.mdV[VX]) && (val2 == vec3Db.mdV[VY]) && (val3 == vec3Db.mdV[VZ]));
+        vec3D %= vec3Da;
+        ensure("2:operator%= failed",
+               is_approx_equal(vec3D.mdV[VX],vec3Db.mdV[VX]) &&
+               is_approx_equal(vec3D.mdV[VY],vec3Db.mdV[VY]) &&
+               is_approx_equal(vec3D.mdV[VZ],vec3Db.mdV[VZ]) );
+    }
 
-	template<> template<>
-	void v3dmath_object::test<17>()
-	{
-		F64 x1 = 1., y1 = 2., z1 = -1.1;
-		LLVector3d vec3D(x1,y1,z1), vec3Da;
-		vec3Da = -vec3D;
-		ensure("1:operator- failed", (vec3D == - vec3Da));	
-	}
+    template<> template<>
+    void v3dmath_object::test<13>()
+    {
+        F64 x1 = 1., y1 = 2., z1 = -1.1,div = 4.2;
+        F64 t = 1.f / div;
+        LLVector3d vec3D(x1,y1,z1), vec3Da;
+        vec3Da = vec3D/div;
+        ensure_approximately_equals(
+            "1a:operator/ failed",
+            vec3Da.mdV[VX],
+            x1*t,
+            8);
+        ensure_approximately_equals(
+            "1b:operator/ failed",
+            vec3Da.mdV[VY],
+            y1*t,
+            8);
+        ensure_approximately_equals(
+            "1c:operator/ failed",
+            vec3Da.mdV[VZ],
+            z1*t,
+            8);
+        x1 = 1.23, y1 = 4., z1 = -2.32;
+        vec3D.clearVec();
+        vec3Da.clearVec();
+        vec3D.setVec(x1,y1,z1);
+        vec3Da = vec3D/div;
+        ensure_approximately_equals(
+            "2a:operator/ failed",
+            vec3Da.mdV[VX],
+            x1*t,
+            8);
+        ensure_approximately_equals(
+            "2b:operator/ failed",
+            vec3Da.mdV[VY],
+            y1*t,
+            8);
+        ensure_approximately_equals(
+            "2c:operator/ failed",
+            vec3Da.mdV[VZ],
+            z1*t,
+            8);
+        vec3D /= div;
+        ensure_approximately_equals(
+            "3a:operator/= failed",
+            vec3D.mdV[VX],
+            x1*t,
+            8);
+        ensure_approximately_equals(
+            "3b:operator/= failed",
+            vec3D.mdV[VY],
+            y1*t,
+            8);
+        ensure_approximately_equals(
+            "3c:operator/= failed",
+            vec3D.mdV[VZ],
+            z1*t,
+            8);
+    }
 
-	template<> template<>
-	void v3dmath_object::test<18>()
-	{
-		F64 x = 1., y = 2., z = -1.1;
-		LLVector3d vec3D(x,y,z);
-		F64 res = (x*x + y*y + z*z) - vec3D.magVecSquared();
-		ensure("1:magVecSquared:Fail ", ((-F_APPROXIMATELY_ZERO <= res)&& (res <=F_APPROXIMATELY_ZERO)));
-		res = (F32) sqrt(x*x + y*y + z*z) - vec3D.magVec();
-		ensure("2:magVec: Fail ", ((-F_APPROXIMATELY_ZERO <= res)&& (res <=F_APPROXIMATELY_ZERO)));	
-	}
+    template<> template<>
+    void v3dmath_object::test<14>()
+    {
+        F64 x1 = 1., y1 = 2., z1 = -1.1;
+        LLVector3d vec3D(x1,y1,z1), vec3Da;
+        ensure("1:operator!= failed",(TRUE == (vec3D !=vec3Da)));
+        vec3Da = vec3D;
+        ensure("2:operator== failed",(vec3D ==vec3Da));
+        vec3D.clearVec();
+        vec3Da.clearVec();
+        x1 = .211, y1 = 21.111, z1 = 23.22;
+        vec3D.setVec(x1,y1,z1);
+        vec3Da.setVec(x1,y1,z1);
+        ensure("3:operator== failed",(vec3D ==vec3Da));
+        ensure("4:operator!= failed",(FALSE == (vec3D !=vec3Da)));
+    }
 
-	template<> template<>
-	void v3dmath_object::test<19>()
-	{
-		F64 x = 1., y = 2., z = -1.1;
-		LLVector3d vec3D(x,y,z);
-		F64 mag = vec3D.normVec();
-		mag = 1.f/ mag;
-		ensure_approximately_equals(
-			"1a:normVec: Fail ",
-			vec3D.mdV[VX],
-			x * mag,
-			8);
-		ensure_approximately_equals(
-			"1b:normVec: Fail ",
-			vec3D.mdV[VY],
-			y * mag,
-			8);
-		ensure_approximately_equals(
-			"1c:normVec: Fail ",
-			vec3D.mdV[VZ],
-			z * mag,
-			8);
-		x = 0.000000001, y = 0.000000001, z = 0.000000001;
-		vec3D.clearVec();
-		vec3D.setVec(x,y,z);
-		mag = vec3D.normVec();
-		ensure_approximately_equals(
-			"2a:normVec: Fail ",
-			vec3D.mdV[VX],
-			x * mag,
-			8);
-		ensure_approximately_equals(
-			"2b:normVec: Fail ",
-			vec3D.mdV[VY],
-			y * mag,
-			8);
-		ensure_approximately_equals(
-			"2c:normVec: Fail ",
-			vec3D.mdV[VZ],
-			z * mag,
-			8);
-	}
+    template<> template<>
+    void v3dmath_object::test<15>()
+    {
+        F64 x1 = 1., y1 = 2., z1 = -1.1;
+        LLVector3d vec3D(x1,y1,z1), vec3Da;
+        std::ostringstream stream1, stream2;
+        stream1 << vec3D;
+        vec3Da.setVec(x1,y1,z1);
+        stream2 << vec3Da;
+        ensure("1:operator << failed",(stream1.str() == stream2.str()));
+    }
 
-	template<> template<>
-	void v3dmath_object::test<20>()
-	{
-		F64 x1 = 1111.232222;
-		F64 y1 = 2222222222.22;
-		F64 z1 = 422222222222.0;
-		std::string buf("1111.232222 2222222222.22 422222222222");
-		LLVector3d vec3Da, vec3Db(x1,y1,z1);
-		LLVector3d::parseVector3d(buf, &vec3Da);
-		ensure_equals("1:parseVector3 failed", vec3Da, vec3Db);	
-	}
+    template<> template<>
+    void v3dmath_object::test<16>()
+    {
+        F64 x1 = 1.23, y1 = 2.0, z1 = 4.;
+        std::string buf("1.23 2. 4");
+        LLVector3d vec3D, vec3Da(x1,y1,z1);
+        LLVector3d::parseVector3d(buf, &vec3D);
+        ensure_equals("1:parseVector3d: failed " , vec3D, vec3Da);
+    }
 
-	template<> template<>
-	void v3dmath_object::test<21>()
-	{
-		F64 x1 = 1., y1 = 2., z1 = -1.1;
-		F64 x2 = 1.2, y2 = 2.5, z2 = 1.;
-		F64 val = 2.3f,val1,val2,val3;
-		val1 = x1 + (x2 - x1)* val;
-		val2 = y1 + (y2 - y1)* val;
-		val3 = z1 + (z2 - z1)* val;
-		LLVector3d vec3Da(x1,y1,z1),vec3Db(x2,y2,z2);
-		LLVector3d vec3d = lerp(vec3Da,vec3Db,val);
-		ensure("1:lerp failed", ((val1 ==vec3d.mdV[VX])&& (val2 ==vec3d.mdV[VY]) && (val3 ==vec3d.mdV[VZ])));		
-	}
+    template<> template<>
+    void v3dmath_object::test<17>()
+    {
+        F64 x1 = 1., y1 = 2., z1 = -1.1;
+        LLVector3d vec3D(x1,y1,z1), vec3Da;
+        vec3Da = -vec3D;
+        ensure("1:operator- failed", (vec3D == - vec3Da));
+    }
 
-	template<> template<>
-	void v3dmath_object::test<22>()
-	{
-		F64 x = 2.32, y = 1.212, z = -.12;
-		F64 min = 0.0001, max = 3.0;
-		LLVector3d vec3d(x,y,z);		
-		ensure("1:clamp:Fail ", (TRUE == (vec3d.clamp(min, max))));
-		x = 0.000001f, z = 5.3f;
-		vec3d.setVec(x,y,z);
-		ensure("2:clamp:Fail ", (TRUE == (vec3d.clamp(min, max))));
-	}
+    template<> template<>
+    void v3dmath_object::test<18>()
+    {
+        F64 x = 1., y = 2., z = -1.1;
+        LLVector3d vec3D(x,y,z);
+        F64 res = (x*x + y*y + z*z) - vec3D.magVecSquared();
+        ensure("1:magVecSquared:Fail ", ((-F_APPROXIMATELY_ZERO <= res)&& (res <=F_APPROXIMATELY_ZERO)));
+        res = (F32) sqrt(x*x + y*y + z*z) - vec3D.magVec();
+        ensure("2:magVec: Fail ", ((-F_APPROXIMATELY_ZERO <= res)&& (res <=F_APPROXIMATELY_ZERO)));
+    }
 
-	template<> template<>
-	void v3dmath_object::test<23>()
-	{
-		F64 x = 10., y = 20., z = -15.;
-		F64 epsilon = .23425;
-		LLVector3d vec3Da(x,y,z), vec3Db(x,y,z);
-		ensure("1:are_parallel: Fail ", (TRUE == are_parallel(vec3Da,vec3Db,epsilon)));
-		F64 x1 = -12., y1 = -20., z1 = -100.;
-		vec3Db.clearVec();
-		vec3Db.setVec(x1,y1,z1);
-		ensure("2:are_parallel: Fail ", (FALSE == are_parallel(vec3Da,vec3Db,epsilon)));
-	}
+    template<> template<>
+    void v3dmath_object::test<19>()
+    {
+        F64 x = 1., y = 2., z = -1.1;
+        LLVector3d vec3D(x,y,z);
+        F64 mag = vec3D.normVec();
+        mag = 1.f/ mag;
+        ensure_approximately_equals(
+            "1a:normVec: Fail ",
+            vec3D.mdV[VX],
+            x * mag,
+            8);
+        ensure_approximately_equals(
+            "1b:normVec: Fail ",
+            vec3D.mdV[VY],
+            y * mag,
+            8);
+        ensure_approximately_equals(
+            "1c:normVec: Fail ",
+            vec3D.mdV[VZ],
+            z * mag,
+            8);
+        x = 0.000000001, y = 0.000000001, z = 0.000000001;
+        vec3D.clearVec();
+        vec3D.setVec(x,y,z);
+        mag = vec3D.normVec();
+        ensure_approximately_equals(
+            "2a:normVec: Fail ",
+            vec3D.mdV[VX],
+            x * mag,
+            8);
+        ensure_approximately_equals(
+            "2b:normVec: Fail ",
+            vec3D.mdV[VY],
+            y * mag,
+            8);
+        ensure_approximately_equals(
+            "2c:normVec: Fail ",
+            vec3D.mdV[VZ],
+            z * mag,
+            8);
+    }
 
-	template<> template<>
-	void v3dmath_object::test<24>()
-	{
+    template<> template<>
+    void v3dmath_object::test<20>()
+    {
+        F64 x1 = 1111.232222;
+        F64 y1 = 2222222222.22;
+        F64 z1 = 422222222222.0;
+        std::string buf("1111.232222 2222222222.22 422222222222");
+        LLVector3d vec3Da, vec3Db(x1,y1,z1);
+        LLVector3d::parseVector3d(buf, &vec3Da);
+        ensure_equals("1:parseVector3 failed", vec3Da, vec3Db);
+    }
+
+    template<> template<>
+    void v3dmath_object::test<21>()
+    {
+        F64 x1 = 1., y1 = 2., z1 = -1.1;
+        F64 x2 = 1.2, y2 = 2.5, z2 = 1.;
+        F64 val = 2.3f,val1,val2,val3;
+        val1 = x1 + (x2 - x1)* val;
+        val2 = y1 + (y2 - y1)* val;
+        val3 = z1 + (z2 - z1)* val;
+        LLVector3d vec3Da(x1,y1,z1),vec3Db(x2,y2,z2);
+        LLVector3d vec3d = lerp(vec3Da,vec3Db,val);
+        ensure("1:lerp failed", ((val1 ==vec3d.mdV[VX])&& (val2 ==vec3d.mdV[VY]) && (val3 ==vec3d.mdV[VZ])));
+    }
+
+    template<> template<>
+    void v3dmath_object::test<22>()
+    {
+        F64 x = 2.32, y = 1.212, z = -.12;
+        F64 min = 0.0001, max = 3.0;
+        LLVector3d vec3d(x,y,z);
+        ensure("1:clamp:Fail ", (TRUE == (vec3d.clamp(min, max))));
+        x = 0.000001f, z = 5.3f;
+        vec3d.setVec(x,y,z);
+        ensure("2:clamp:Fail ", (TRUE == (vec3d.clamp(min, max))));
+    }
+
+    template<> template<>
+    void v3dmath_object::test<23>()
+    {
+        F64 x = 10., y = 20., z = -15.;
+        F64 epsilon = .23425;
+        LLVector3d vec3Da(x,y,z), vec3Db(x,y,z);
+        ensure("1:are_parallel: Fail ", (TRUE == are_parallel(vec3Da,vec3Db,epsilon)));
+        F64 x1 = -12., y1 = -20., z1 = -100.;
+        vec3Db.clearVec();
+        vec3Db.setVec(x1,y1,z1);
+        ensure("2:are_parallel: Fail ", (FALSE == are_parallel(vec3Da,vec3Db,epsilon)));
+    }
+
+    template<> template<>
+    void v3dmath_object::test<24>()
+    {
 #if LL_WINDOWS && _MSC_VER < 1400
-		skip("This fails on VS2003!");
+        skip("This fails on VS2003!");
 #else
-		F64 x = 10., y = 20., z = -15.;
-		F64 angle1, angle2;
-		LLVector3d vec3Da(x,y,z), vec3Db(x,y,z);
-		angle1 = angle_between(vec3Da, vec3Db);
-		ensure("1:angle_between: Fail ", (0 == angle1));
-		F64 x1 = -1., y1 = -20., z1 = -1.;
-		vec3Da.clearVec();
-		vec3Da.setVec(x1,y1,z1);
-		angle2 = angle_between(vec3Da, vec3Db);
-		vec3Db.normVec();
-		vec3Da.normVec();
-		F64 angle = vec3Db*vec3Da;
-		angle = acos(angle);
+        F64 x = 10., y = 20., z = -15.;
+        F64 angle1, angle2;
+        LLVector3d vec3Da(x,y,z), vec3Db(x,y,z);
+        angle1 = angle_between(vec3Da, vec3Db);
+        ensure("1:angle_between: Fail ", (0 == angle1));
+        F64 x1 = -1., y1 = -20., z1 = -1.;
+        vec3Da.clearVec();
+        vec3Da.setVec(x1,y1,z1);
+        angle2 = angle_between(vec3Da, vec3Db);
+        vec3Db.normVec();
+        vec3Da.normVec();
+        F64 angle = vec3Db*vec3Da;
+        angle = acos(angle);
 #if LL_WINDOWS && _MSC_VER > 1900
-		skip("This fails on VS2017!");
+        skip("This fails on VS2017!");
 #else
-		ensure("2:angle_between: Fail ", (angle == angle2));
+        ensure("2:angle_between: Fail ", (angle == angle2));
 #endif
-		
+
 #endif
-	}
+    }
 }
diff --git a/indra/llmath/tests/v3math_test.cpp b/indra/llmath/tests/v3math_test.cpp
index e4ae1c10ef..7f93aba354 100644
--- a/indra/llmath/tests/v3math_test.cpp
+++ b/indra/llmath/tests/v3math_test.cpp
@@ -7,25 +7,25 @@
  * $LicenseInfo:firstyear=2007&license=viewerlgpl$
  * Second Life Viewer Source Code
  * Copyright (C) 2010, Linden Research, Inc.
- * 
+ *
  * This library is free software; you can redistribute it and/or
  * modify it under the terms of the GNU Lesser General Public
  * License as published by the Free Software Foundation;
  * version 2.1 of the License only.
- * 
+ *
  * This library is distributed in the hope that it will be useful,
  * but WITHOUT ANY WARRANTY; without even the implied warranty of
  * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the GNU
  * Lesser General Public License for more details.
- * 
+ *
  * You should have received a copy of the GNU Lesser General Public
  * License along with this library; if not, write to the Free Software
  * Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA  02110-1301  USA
- * 
+ *
  * Linden Research, Inc., 945 Battery Street, San Francisco, CA  94111  USA
  * $/LicenseInfo$
  */
- 
+
 #include "linden_common.h"
 #include "../test/lltut.h"
 #include "llsd.h"
@@ -40,546 +40,546 @@
 
 namespace tut
 {
-	struct v3math_data
-	{
-	};
-	typedef test_group<v3math_data> v3math_test;
-	typedef v3math_test::object v3math_object;
-	tut::v3math_test v3math_testcase("v3math_h");
-
-	template<> template<>
-	void v3math_object::test<1>()
-	{
-		LLVector3 vec3;
-		ensure("1:LLVector3:Fail to initialize ", ((0.f == vec3.mV[VX]) && (0.f == vec3.mV[VY]) && (0.f == vec3.mV[VZ])));
-		F32 x = 2.32f, y = 1.212f, z = -.12f;
-		LLVector3 vec3a(x,y,z);
-		ensure("2:LLVector3:Fail to initialize ", ((2.32f == vec3a.mV[VX]) && (1.212f == vec3a.mV[VY]) && (-.12f == vec3a.mV[VZ])));
-		const F32 vec[3] = {1.2f ,3.2f, -4.2f};
-		LLVector3 vec3b(vec);
-		ensure("3:LLVector3:Fail to initialize ", ((1.2f == vec3b.mV[VX]) && (3.2f == vec3b.mV[VY]) && (-4.2f == vec3b.mV[VZ])));
-	}
-
-	template<> template<>
-	void v3math_object::test<2>()
-	{
-		F32 x = 2.32f, y = 1.212f, z = -.12f;
-		LLVector3 vec3(x,y,z);
-		LLVector3d vector3d(vec3);
-		LLVector3 vec3a(vector3d);
-		ensure("1:LLVector3:Fail to initialize ", vec3 == vec3a);
-		LLVector4 vector4(vec3);
-		LLVector3 vec3b(vector4);
-		ensure("2:LLVector3:Fail to initialize ", vec3 == vec3b);
-	}
-
-	template<> template<>
-	void v3math_object::test<3>()
-	{
-		S32 a = 231;
-		LLSD llsd(a);
-		LLVector3 vec3(llsd);
-		LLSD sd = vec3.getValue();
-		LLVector3 vec3a(sd);
-		ensure("1:LLVector3:Fail to initialize ", (vec3 == vec3a));
-	}
-
-	template<> template<>
-	void v3math_object::test<4>()
-	{
-		S32 a = 231;
-		LLSD llsd(a);
-		LLVector3 vec3(llsd),vec3a;
-		vec3a = vec3;
-		ensure("1:Operator= Fail to initialize " ,(vec3 == vec3a));
-	}
-	
-	template<> template<>
-	void v3math_object::test<5>()
-	{
-		F32 x = 2.32f, y = 1.212f, z = -.12f;
-		LLVector3 vec3(x,y,z);
-		ensure("1:isFinite= Fail to initialize ", (TRUE == vec3.isFinite()));//need more test cases:
-		vec3.clearVec();
-		ensure("2:clearVec:Fail to set values ", ((0.f == vec3.mV[VX]) && (0.f == vec3.mV[VY]) && (0.f == vec3.mV[VZ])));
-		vec3.setVec(x,y,z);
-		ensure("3:setVec:Fail to set values ", ((2.32f == vec3.mV[VX]) && (1.212f == vec3.mV[VY]) && (-.12f == vec3.mV[VZ])));
-		vec3.zeroVec();
-		ensure("4:zeroVec:Fail to set values ", ((0.f == vec3.mV[VX]) && (0.f == vec3.mV[VY]) && (0.f == vec3.mV[VZ])));
-	}
-	
-	template<> template<>
-	void v3math_object::test<6>()
-	{
-		F32 x = 2.32f, y = 1.212f, z = -.12f;
-		LLVector3 vec3(x,y,z),vec3a;
-		vec3.abs();
-		ensure("1:abs:Fail ", ((x == vec3.mV[VX]) && (y == vec3.mV[VY]) && (-z == vec3.mV[VZ])));
-		vec3a.setVec(vec3);
-		ensure("2:setVec:Fail to initialize ", (vec3a == vec3));	
-		const F32 vec[3] = {1.2f ,3.2f, -4.2f};
-		vec3.clearVec();
-		vec3.setVec(vec);
-		ensure("3:setVec:Fail to initialize ", ((1.2f == vec3.mV[VX]) && (3.2f == vec3.mV[VY]) && (-4.2f == vec3.mV[VZ])));
-		vec3a.clearVec();
-		LLVector3d vector3d(vec3);
-		vec3a.setVec(vector3d);
-		ensure("4:setVec:Fail to initialize ", (vec3 == vec3a));
-		LLVector4 vector4(vec3);
-		vec3a.clearVec();
-		vec3a.setVec(vector4);
-		ensure("5:setVec:Fail to initialize ", (vec3 == vec3a));
-	}
-
-	template<> template<>
-	void v3math_object::test<7>()
-	{
-		F32 x = 2.32f, y = 3.212f, z = -.12f;
-		F32 min = 0.0001f, max = 3.0f;
-		LLVector3 vec3(x,y,z);		
-		ensure("1:clamp:Fail  ", TRUE == vec3.clamp(min, max) && x == vec3.mV[VX] && max == vec3.mV[VY] && min == vec3.mV[VZ]);
-		x = 1.f, y = 2.2f, z = 2.8f;
-		vec3.setVec(x,y,z);
-		ensure("2:clamp:Fail  ", FALSE == vec3.clamp(min, max));
-	}
-
-	template<> template<>
-	void v3math_object::test<8>()
-	{
-		F32 x = 2.32f, y = 1.212f, z = -.12f;
-		LLVector3 vec3(x,y,z);		
-		ensure("1:magVecSquared:Fail ", is_approx_equal(vec3.magVecSquared(), (x*x + y*y + z*z)));
-		ensure("2:magVec:Fail ", is_approx_equal(vec3.magVec(), (F32) sqrt(x*x + y*y + z*z)));
-	}
-
-	template<> template<>
-	void v3math_object::test<9>()
-	{
-		F32 x =-2.0f, y = -3.0f, z = 1.23f ;
-		LLVector3 vec3(x,y,z);
-		ensure("1:abs():Fail ", (TRUE == vec3.abs()));	
-		ensure("2:isNull():Fail", (FALSE == vec3.isNull()));	//Returns TRUE if vector has a _very_small_ length
-		x =.00000001f, y = .000001001f, z = .000001001f;
-		vec3.setVec(x,y,z);
-		ensure("3:isNull(): Fail ", (TRUE == vec3.isNull()));	
-	}
-
-	template<> template<>
-	void v3math_object::test<10>()
-	{
-		F32 x =-2.0f, y = -3.0f, z = 1.f ;
-		LLVector3 vec3(x,y,z),vec3a;
-		ensure("1:isExactlyZero():Fail ", (TRUE == vec3a.isExactlyZero()));
-		vec3a = vec3a.scaleVec(vec3);
-		ensure("2:scaleVec: Fail ", vec3a.mV[VX] == 0.f && vec3a.mV[VY] == 0.f && vec3a.mV[VZ] == 0.f);
-		vec3a.setVec(x,y,z);
-		vec3a = vec3a.scaleVec(vec3);
-		ensure("3:scaleVec: Fail ", ((4 == vec3a.mV[VX]) && (9 == vec3a.mV[VY]) &&(1 == vec3a.mV[VZ])));
-		ensure("4:isExactlyZero():Fail ", (FALSE == vec3.isExactlyZero()));
-	}
-
-	template<> template<>
-	void v3math_object::test<11>()
-	{
-		F32 x =20.0f, y = 30.0f, z = 15.f ;
-		F32 angle = 100.f;
-		LLVector3 vec3(x,y,z),vec3a(1.f,2.f,3.f);
-		vec3a = vec3a.rotVec(angle, vec3);
-		LLVector3 vec3b(1.f,2.f,3.f);
-		vec3b = vec3b.rotVec(angle, vec3);
-		ensure_equals("rotVec():Fail" ,vec3b,vec3a);
-	}
-
-	template<> template<>
-	void v3math_object::test<12>()
-	{
-		F32 x =-2.0f, y = -3.0f, z = 1.f ;
-		LLVector3 vec3(x,y,z);
-		ensure("1:operator [] failed",( x ==  vec3[0]));	
-		ensure("2:operator [] failed",( y ==  vec3[1]));
-		ensure("3:operator [] failed",( z ==  vec3[2]));
-
-		vec3.clearVec();
-		x = 23.f, y = -.2361f, z = 3.25;
-		vec3.setVec(x,y,z);
-		F32 &ref1 = vec3[0];
-		ensure("4:operator [] failed",( ref1 ==  vec3[0]));
-		F32 &ref2 = vec3[1];
-		ensure("5:operator [] failed",( ref2 ==  vec3[1]));
-		F32 &ref3 = vec3[2];
-		ensure("6:operator [] failed",( ref3 ==  vec3[2]));
-	}
-
-	template<> template<>
-	void v3math_object::test<13>()
-	{
-		F32 x1 =1.f, y1 = 2.f,z1 = 1.2f, x2 = -2.3f, y2 = 1.11f, z2 = 1234.234f;
-		F32 val1, val2, val3;
-		LLVector3 vec3(x1,y1,z1), vec3a(x2,y2,z2), vec3b;
-		vec3b = vec3 + vec3a ;
-		val1 = x1+x2;
-		val2 = y1+y2;
-		val3 = z1+z2;
-		ensure("1:operator+ failed",(val1 == vec3b.mV[VX]) && (val2 == vec3b.mV[VY]) && (val3 == vec3b.mV[VZ])); 
-
-		vec3.clearVec();
-		vec3a.clearVec();
-		vec3b.clearVec();
-		x1 = -.235f, y1 = -24.32f,z1 = 2.13f,  x2 = -2.3f, y2 = 1.f, z2 = 34.21f;
-		vec3.setVec(x1,y1,z1);
-		vec3a.setVec(x2,y2,z2);
-		vec3b = vec3 + vec3a;
-		val1 = x1+x2;
-		val2 = y1+y2;
-		val3 = z1+z2;
-		ensure("2:operator+ failed",(val1 == vec3b.mV[VX]) && (val2 == vec3b.mV[VY]) && (val3 == vec3b.mV[VZ])); 
-	}
-
-	template<> template<>
-	void v3math_object::test<14>()
-	{
-		F32 x1 =1.f, y1 = 2.f,z1 = 1.2f, x2 = -2.3f, y2 = 1.11f, z2 = 1234.234f;
-		F32 val1, val2, val3;
-		LLVector3 vec3(x1,y1,z1), vec3a(x2,y2,z2), vec3b;
-		vec3b = vec3 - vec3a ;
-		val1 = x1-x2;
-		val2 = y1-y2;
-		val3 = z1-z2;
-		ensure("1:operator- failed",(val1 == vec3b.mV[VX]) && (val2 == vec3b.mV[VY]) && (val3 == vec3b.mV[VZ])); 
-
-		vec3.clearVec();
-		vec3a.clearVec();
-		vec3b.clearVec();
-		x1 = -.235f, y1 = -24.32f,z1 = 2.13f,  x2 = -2.3f, y2 = 1.f, z2 = 34.21f;
-		vec3.setVec(x1,y1,z1);
-		vec3a.setVec(x2,y2,z2);
-		vec3b = vec3 - vec3a;
-		val1 = x1-x2;
-		val2 = y1-y2;
-		val3 = z1-z2;
-		ensure("2:operator- failed",(val1 == vec3b.mV[VX]) && (val2 == vec3b.mV[VY]) && (val3 == vec3b.mV[VZ])); 
-	}
-
-	template<> template<>
-	void v3math_object::test<15>()
-	{
-		F32 x1 =1.f, y1 = 2.f,z1 = 1.2f, x2 = -2.3f, y2 = 1.11f, z2 = 1234.234f;
-		F32 val1, val2, val3;
-		LLVector3 vec3(x1,y1,z1), vec3a(x2,y2,z2);
-		val1 = vec3 * vec3a;
-		val2 = x1*x2 + y1*y2 + z1*z2;
-		ensure_equals("1:operator* failed",val1,val2);
-
-		vec3a.clearVec();
-		F32 mulVal = 4.332f;
-		vec3a = vec3 * mulVal;
-		val1 = x1*mulVal;
-		val2 = y1*mulVal;
-		val3 = z1*mulVal;
-		ensure("2:operator* failed",(val1 == vec3a.mV[VX]) && (val2 == vec3a.mV[VY])&& (val3 == vec3a.mV[VZ]));
-		vec3a.clearVec();
-		vec3a = mulVal * vec3;
-		ensure("3:operator* failed ", (val1 == vec3a.mV[VX]) && (val2 == vec3a.mV[VY])&& (val3 == vec3a.mV[VZ]));
-	}
-
-	template<> template<>
-	void v3math_object::test<16>()
-	{
-		F32 x1 =1.f, y1 = 2.f,z1 = 1.2f, x2 = -2.3f, y2 = 1.11f, z2 = 1234.234f;
-		F32 val1, val2, val3;
-		LLVector3 vec3(x1,y1,z1), vec3a(x2,y2,z2), vec3b;
-		vec3b = vec3 % vec3a ;
-		val1 = y1*z2 - y2*z1;
-		val2 = z1*x2 -z2*x1;
-		val3 = x1*y2-x2*y1;
-		ensure("1:operator% failed",(val1 == vec3b.mV[VX]) && (val2 == vec3b.mV[VY]) && (val3 == vec3b.mV[VZ])); 
-
-		vec3.clearVec();
-		vec3a.clearVec();
-		vec3b.clearVec();
-		x1 =112.f, y1 = 22.3f,z1 = 1.2f, x2 = -2.3f, y2 = 341.11f, z2 = 1234.234f;
-		vec3.setVec(x1,y1,z1);
-		vec3a.setVec(x2,y2,z2);
-		vec3b = vec3 % vec3a ;
-		val1 = y1*z2 - y2*z1;
-		val2 = z1*x2 -z2*x1;
-		val3 = x1*y2-x2*y1;
-		ensure("2:operator% failed ", (val1 == vec3b.mV[VX]) && (val2 == vec3b.mV[VY]) && (val3 == vec3b.mV[VZ])); 
-	}
-
-	template<> template<>
-	void v3math_object::test<17>()
-	{
-		F32 x1 =1.f, y1 = 2.f,z1 = 1.2f, div = 3.2f;
-		F32 t = 1.f / div, val1, val2, val3;
-		LLVector3 vec3(x1,y1,z1), vec3a;
-		vec3a = vec3 / div;
-		val1 = x1 * t;
-		val2 = y1 * t;
-		val3 = z1 *t;
-		ensure("1:operator/ failed",(val1 == vec3a.mV[VX]) && (val2 == vec3a.mV[VY]) && (val3 == vec3a.mV[VZ]));		
-
-		vec3a.clearVec();
-		x1 = -.235f, y1 = -24.32f, z1 = .342f, div = -2.2f;
-		t = 1.f / div;
-		vec3.setVec(x1,y1,z1);
-		vec3a = vec3 / div;
-		val1 = x1 * t;
-		val2 = y1 * t;
-		val3 = z1 *t;
-		ensure("2:operator/ failed",(val1 == vec3a.mV[VX]) && (val2 == vec3a.mV[VY]) && (val3 == vec3a.mV[VZ]));		
-	}
-
-	template<> template<>
-	void v3math_object::test<18>()
-	{
-		F32 x1 =1.f, y1 = 2.f,z1 = 1.2f;
-		LLVector3 vec3(x1,y1,z1), vec3a(x1,y1,z1);
-		ensure("1:operator== failed",(vec3 == vec3a));		
-
-		vec3a.clearVec();
-		x1 = -.235f, y1 = -24.32f, z1 = .342f;
-		vec3.clearVec();
-		vec3a.clearVec();
-		vec3.setVec(x1,y1,z1);
-		vec3a.setVec(x1,y1,z1);
-		ensure("2:operator== failed ", (vec3 == vec3a));		
-	}
-
-	template<> template<>
-	void v3math_object::test<19>()
-	{
-		F32 x1 =1.f, y1 = 2.f,z1 = 1.2f, x2 =112.f, y2 = 2.234f,z2 = 11.2f;;
-		LLVector3 vec3(x1,y1,z1), vec3a(x2,y2,z2);
-		ensure("1:operator!= failed",(vec3a != vec3));
-
-		vec3.clearVec();
-		vec3.clearVec();
-		vec3a.setVec(vec3);
-		ensure("2:operator!= failed", ( FALSE == (vec3a != vec3)));
-	}
-
-	template<> template<>
-	void v3math_object::test<20>()
-	{
-		F32 x1 =1.f, y1 = 2.f,z1 = 1.2f, x2 =112.f, y2 = 2.2f,z2 = 11.2f;;
-		LLVector3 vec3(x1,y1,z1), vec3a(x2,y2,z2);
-		vec3a += vec3;
-		F32 val1, val2, val3;
-		val1 = x1+x2;
-		val2 = y1+y2;
-		val3 = z1+z2;
-		ensure("1:operator+= failed",(val1 == vec3a.mV[VX]) && (val2 == vec3a.mV[VY])&& (val3 == vec3a.mV[VZ]));
-	}
-	
-	template<> template<>
-	void v3math_object::test<21>()
-	{
-		F32 x1 =1.f, y1 = 2.f,z1 = 1.2f, x2 =112.f, y2 = 2.2f,z2 = 11.2f;;
-		LLVector3 vec3(x1,y1,z1), vec3a(x2,y2,z2);
-		vec3a -= vec3;
-		F32 val1, val2, val3;
-		val1 = x2-x1;
-		val2 = y2-y1;
-		val3 = z2-z1;
-		ensure("1:operator-= failed",(val1 == vec3a.mV[VX]) && (val2 == vec3a.mV[VY])&& (val3 == vec3a.mV[VZ]));
-	}
-
-	template<> template<>
-	void v3math_object::test<22>()
-	{
-		F32 x1 =1.f, y1 = 2.f,z1 = 1.2f, x2 = -2.3f, y2 = 1.11f, z2 = 1234.234f;
-		F32 val1,val2,val3;
-		LLVector3 vec3(x1,y1,z1), vec3a(x2,y2,z2);
-		vec3a *= vec3;
-		val1 = x1*x2;
-		val2 = y1*y2;
-		val3 = z1*z2;
-		ensure("1:operator*= failed",(val1 == vec3a.mV[VX]) && (val2 == vec3a.mV[VY])&& (val3 == vec3a.mV[VZ]));
-
-		F32 mulVal = 4.332f;
-		vec3 *=mulVal;
-		val1 = x1*mulVal;
-		val2 = y1*mulVal;
-		val3 = z1*mulVal;
-		ensure("2:operator*= failed ", is_approx_equal(val1, vec3.mV[VX]) && is_approx_equal(val2, vec3.mV[VY]) && is_approx_equal(val3, vec3.mV[VZ]));
-	}
-
-	template<> template<>
-	void v3math_object::test<23>()
-	{
-		F32 x1 =1.f, y1 = 2.f,z1 = 1.2f, x2 = -2.3f, y2 = 1.11f, z2 = 1234.234f;
-		LLVector3 vec3(x1,y1,z1), vec3a(x2,y2,z2),vec3b;
-		vec3b = vec3a % vec3;
-		vec3a %= vec3;
-		ensure_equals("1:operator%= failed",vec3a,vec3b); 
-	}
-
-	template<> template<>
-	void v3math_object::test<24>()
-	{
-		F32 x1 =1.f, y1 = 2.f,z1 = 1.2f, div = 3.2f;
-		F32 t = 1.f / div, val1, val2, val3;
-		LLVector3 vec3a(x1,y1,z1);
-		vec3a /= div;
-		val1 = x1 * t;
-		val2 = y1 * t;
-		val3 = z1 *t;
-		ensure("1:operator/= failed",(val1 == vec3a.mV[VX]) && (val2 == vec3a.mV[VY]) && (val3 == vec3a.mV[VZ]));		
-	}
-
-	template<> template<>
-	void v3math_object::test<25>()
-	{
-		F32 x1 =1.f, y1 = 2.f,z1 = 1.2f;
-		LLVector3 vec3(x1,y1,z1), vec3a;
-		vec3a = -vec3;
-		ensure("1:operator- failed",(-vec3a == vec3));	
-	}
-
-	template<> template<>
-	void v3math_object::test<26>()
-	{
-		F32 x1 =1.f, y1 = 2.f,z1 = 1.2f;
-		std::ostringstream stream1, stream2;
-		LLVector3 vec3(x1,y1,z1), vec3a;
-		stream1 << vec3;
-		vec3a.setVec(x1,y1,z1);
-		stream2 << vec3a;
-		ensure("1:operator << failed",(stream1.str() == stream2.str()));	
-	}
-
-	template<> template<>
-	void v3math_object::test<27>()
-	{
-		F32 x1 =-2.3f, y1 = 2.f,z1 = 1.2f, x2 = 1.3f, y2 = 1.11f, z2 = 1234.234f;
-		LLVector3 vec3(x1,y1,z1), vec3a(x2,y2,z2);
-		ensure("1:operator< failed", (TRUE == (vec3 < vec3a)));
-		x1 =-2.3f, y1 = 2.f,z1 = 1.2f, x2 = 1.3f, y2 = 2.f, z2 = 1234.234f;
-		vec3.setVec(x1,y1,z1);
-		vec3a.setVec(x2,y2,z2);
-		ensure("2:operator< failed ", (TRUE == (vec3 < vec3a)));
-		x1 =2.3f, y1 = 2.f,z1 = 1.2f, x2 = 1.3f,
-		vec3.setVec(x1,y1,z1);
-		vec3a.setVec(x2,y2,z2);
-		ensure("3:operator< failed ", (FALSE == (vec3 < vec3a)));
-	}
-
-	template<> template<>
-	void v3math_object::test<28>()
-	{
-		F32 x1 =1.23f, y1 = 2.f,z1 = 4.f;
-		std::string buf("1.23 2. 4");
-		LLVector3 vec3, vec3a(x1,y1,z1);
-		LLVector3::parseVector3(buf, &vec3);
-		ensure_equals("1:parseVector3 failed", vec3, vec3a);	
-	}
-
-	template<> template<>
-	void v3math_object::test<29>()
-	{
-		F32 x1 =1.f, y1 = 2.f,z1 = 4.f;
-		LLVector3 vec3(x1,y1,z1),vec3a,vec3b;
-		vec3a.setVec(1,1,1);
-		vec3a.scaleVec(vec3);
-		ensure_equals("1:scaleVec failed", vec3, vec3a);	
-		vec3a.clearVec();
-		vec3a.setVec(x1,y1,z1);
-		vec3a.scaleVec(vec3);
-		ensure("2:scaleVec failed", ((1.f ==vec3a.mV[VX])&& (4.f ==vec3a.mV[VY]) && (16.f ==vec3a.mV[VZ])));		
-	}
-	
-	template<> template<>
-	void v3math_object::test<30>()
-	{
-		F32 x1 =-2.3f, y1 = 2.f,z1 = 1.2f, x2 = 1.3f, y2 = 1.11f, z2 = 1234.234f;
-		F32 val = 2.3f,val1,val2,val3;
-		val1 = x1 + (x2 - x1)* val;
-		val2 = y1 + (y2 - y1)* val;
-		val3 = z1 + (z2 - z1)* val;
-		LLVector3 vec3(x1,y1,z1),vec3a(x2,y2,z2);
-		LLVector3 vec3b = lerp(vec3,vec3a,val);
-		ensure("1:lerp failed", ((val1 ==vec3b.mV[VX])&& (val2 ==vec3b.mV[VY]) && (val3 ==vec3b.mV[VZ])));		
-	}
-
-	template<> template<>
-	void v3math_object::test<31>()
-	{
-		F32 x1 =-2.3f, y1 = 2.f,z1 = 1.2f, x2 = 1.3f, y2 = 1.f, z2 = 1.f;
-		F32 val1,val2;
-		LLVector3 vec3(x1,y1,z1),vec3a(x2,y2,z2);
-		val1 = dist_vec(vec3,vec3a);
-		val2 = (F32) sqrt((x1 - x2)*(x1 - x2) + (y1 - y2)* (y1 - y2) + (z1 - z2)* (z1 -z2));
-		ensure_equals("1:dist_vec: Fail ",val2, val1);
-		val1 = dist_vec_squared(vec3,vec3a);
-		val2 =((x1 - x2)*(x1 - x2) + (y1 - y2)* (y1 - y2) + (z1 - z2)* (z1 -z2));
-		ensure_equals("2:dist_vec_squared: Fail ",val2, val1);
-		val1 = dist_vec_squared2D(vec3, vec3a);
-		val2 =(x1 - x2)*(x1 - x2) + (y1 - y2)* (y1 - y2);
-		ensure_equals("3:dist_vec_squared2D: Fail ",val2, val1);
-	}
-
-	template<> template<>
-	void v3math_object::test<32>()
-	{
-		F32 x =12.3524f, y = -342.f,z = 4.126341f;
-		LLVector3 vec3(x,y,z);
-		F32 mag = vec3.normVec();
-		mag = 1.f/ mag;
-		F32 val1 = x* mag, val2 = y* mag, val3 = z* mag;
-		ensure("1:normVec: Fail ", is_approx_equal(val1, vec3.mV[VX]) && is_approx_equal(val2, vec3.mV[VY]) && is_approx_equal(val3, vec3.mV[VZ]));
-		x = 0.000000001f, y = 0.f, z = 0.f;
-		vec3.clearVec();
-		vec3.setVec(x,y,z);
-		mag = vec3.normVec();
-		val1 = x* mag, val2 = y* mag, val3 = z* mag;
-		ensure("2:normVec: Fail ", (mag == 0.) && (0. == vec3.mV[VX]) && (0. == vec3.mV[VY])&& (0. == vec3.mV[VZ]));
-	}
-
-	template<> template<>
-	void v3math_object::test<33>()
-	{
-		F32 x = -202.23412f, y = 123.2312f, z = -89.f;
-		LLVector3 vec(x,y,z);
-		vec.snap(2);
-		ensure("1:snap: Fail ", is_approx_equal(-202.23f, vec.mV[VX]) && is_approx_equal(123.23f, vec.mV[VY]) && is_approx_equal(-89.f, vec.mV[VZ]));
-	}
-		
-	template<> template<>
-	void v3math_object::test<34>()
-	{
-		F32 x = 10.f, y = 20.f, z = -15.f;
-		F32 x1, y1, z1;
-		F32 lowerxy = 0.f, upperxy = 1.0f, lowerz = -1.0f, upperz = 1.f;
-		LLVector3 vec3(x,y,z);
-		vec3.quantize16(lowerxy,upperxy,lowerz,upperz);
-		x1 = U16_to_F32(F32_to_U16(x, lowerxy, upperxy), lowerxy, upperxy);
-		y1 = U16_to_F32(F32_to_U16(y, lowerxy, upperxy), lowerxy, upperxy);
-		z1 = U16_to_F32(F32_to_U16(z, lowerz,  upperz),  lowerz,  upperz);
-		ensure("1:quantize16: Fail ", is_approx_equal(x1, vec3.mV[VX]) && is_approx_equal(y1, vec3.mV[VY]) && is_approx_equal(z1, vec3.mV[VZ]));
-		LLVector3 vec3a(x,y,z);
-		vec3a.quantize8(lowerxy,upperxy,lowerz,upperz);
-		x1 = U8_to_F32(F32_to_U8(x, lowerxy, upperxy), lowerxy, upperxy);
-		y1 = U8_to_F32(F32_to_U8(y, lowerxy, upperxy), lowerxy, upperxy);
-		z1 = U8_to_F32(F32_to_U8(z, lowerz, upperz), lowerz, upperz);
-		ensure("2:quantize8: Fail ", is_approx_equal(x1, vec3a.mV[VX]) && is_approx_equal(y1, vec3a.mV[VY]) && is_approx_equal(z1, vec3a.mV[VZ]));
-	}
-
-	template<> template<>
-	void v3math_object::test<35>()
-	{
-		LLSD sd = LLSD::emptyArray();
-		sd[0] = 1.f;
-
-		LLVector3 parsed_1(sd);
-		ensure("1:LLSD parse: Fail ", is_approx_equal(parsed_1.mV[VX], 1.f) && is_approx_equal(parsed_1.mV[VY], 0.f) && is_approx_equal(parsed_1.mV[VZ], 0.f));
-
-		sd[1] = 2.f;
-		LLVector3 parsed_2(sd);
-		ensure("2:LLSD parse: Fail ", is_approx_equal(parsed_2.mV[VX], 1.f) && is_approx_equal(parsed_2.mV[VY], 2.f) && is_approx_equal(parsed_2.mV[VZ], 0.f));
-
-		sd[2] = 3.f;
-		LLVector3 parsed_3(sd);
-		ensure("3:LLSD parse: Fail ", is_approx_equal(parsed_3.mV[VX], 1.f) && is_approx_equal(parsed_3.mV[VY], 2.f) && is_approx_equal(parsed_3.mV[VZ], 3.f));
-	}
+    struct v3math_data
+    {
+    };
+    typedef test_group<v3math_data> v3math_test;
+    typedef v3math_test::object v3math_object;
+    tut::v3math_test v3math_testcase("v3math_h");
+
+    template<> template<>
+    void v3math_object::test<1>()
+    {
+        LLVector3 vec3;
+        ensure("1:LLVector3:Fail to initialize ", ((0.f == vec3.mV[VX]) && (0.f == vec3.mV[VY]) && (0.f == vec3.mV[VZ])));
+        F32 x = 2.32f, y = 1.212f, z = -.12f;
+        LLVector3 vec3a(x,y,z);
+        ensure("2:LLVector3:Fail to initialize ", ((2.32f == vec3a.mV[VX]) && (1.212f == vec3a.mV[VY]) && (-.12f == vec3a.mV[VZ])));
+        const F32 vec[3] = {1.2f ,3.2f, -4.2f};
+        LLVector3 vec3b(vec);
+        ensure("3:LLVector3:Fail to initialize ", ((1.2f == vec3b.mV[VX]) && (3.2f == vec3b.mV[VY]) && (-4.2f == vec3b.mV[VZ])));
+    }
+
+    template<> template<>
+    void v3math_object::test<2>()
+    {
+        F32 x = 2.32f, y = 1.212f, z = -.12f;
+        LLVector3 vec3(x,y,z);
+        LLVector3d vector3d(vec3);
+        LLVector3 vec3a(vector3d);
+        ensure("1:LLVector3:Fail to initialize ", vec3 == vec3a);
+        LLVector4 vector4(vec3);
+        LLVector3 vec3b(vector4);
+        ensure("2:LLVector3:Fail to initialize ", vec3 == vec3b);
+    }
+
+    template<> template<>
+    void v3math_object::test<3>()
+    {
+        S32 a = 231;
+        LLSD llsd(a);
+        LLVector3 vec3(llsd);
+        LLSD sd = vec3.getValue();
+        LLVector3 vec3a(sd);
+        ensure("1:LLVector3:Fail to initialize ", (vec3 == vec3a));
+    }
+
+    template<> template<>
+    void v3math_object::test<4>()
+    {
+        S32 a = 231;
+        LLSD llsd(a);
+        LLVector3 vec3(llsd),vec3a;
+        vec3a = vec3;
+        ensure("1:Operator= Fail to initialize " ,(vec3 == vec3a));
+    }
+
+    template<> template<>
+    void v3math_object::test<5>()
+    {
+        F32 x = 2.32f, y = 1.212f, z = -.12f;
+        LLVector3 vec3(x,y,z);
+        ensure("1:isFinite= Fail to initialize ", (TRUE == vec3.isFinite()));//need more test cases:
+        vec3.clearVec();
+        ensure("2:clearVec:Fail to set values ", ((0.f == vec3.mV[VX]) && (0.f == vec3.mV[VY]) && (0.f == vec3.mV[VZ])));
+        vec3.setVec(x,y,z);
+        ensure("3:setVec:Fail to set values ", ((2.32f == vec3.mV[VX]) && (1.212f == vec3.mV[VY]) && (-.12f == vec3.mV[VZ])));
+        vec3.zeroVec();
+        ensure("4:zeroVec:Fail to set values ", ((0.f == vec3.mV[VX]) && (0.f == vec3.mV[VY]) && (0.f == vec3.mV[VZ])));
+    }
+
+    template<> template<>
+    void v3math_object::test<6>()
+    {
+        F32 x = 2.32f, y = 1.212f, z = -.12f;
+        LLVector3 vec3(x,y,z),vec3a;
+        vec3.abs();
+        ensure("1:abs:Fail ", ((x == vec3.mV[VX]) && (y == vec3.mV[VY]) && (-z == vec3.mV[VZ])));
+        vec3a.setVec(vec3);
+        ensure("2:setVec:Fail to initialize ", (vec3a == vec3));
+        const F32 vec[3] = {1.2f ,3.2f, -4.2f};
+        vec3.clearVec();
+        vec3.setVec(vec);
+        ensure("3:setVec:Fail to initialize ", ((1.2f == vec3.mV[VX]) && (3.2f == vec3.mV[VY]) && (-4.2f == vec3.mV[VZ])));
+        vec3a.clearVec();
+        LLVector3d vector3d(vec3);
+        vec3a.setVec(vector3d);
+        ensure("4:setVec:Fail to initialize ", (vec3 == vec3a));
+        LLVector4 vector4(vec3);
+        vec3a.clearVec();
+        vec3a.setVec(vector4);
+        ensure("5:setVec:Fail to initialize ", (vec3 == vec3a));
+    }
+
+    template<> template<>
+    void v3math_object::test<7>()
+    {
+        F32 x = 2.32f, y = 3.212f, z = -.12f;
+        F32 min = 0.0001f, max = 3.0f;
+        LLVector3 vec3(x,y,z);
+        ensure("1:clamp:Fail  ", TRUE == vec3.clamp(min, max) && x == vec3.mV[VX] && max == vec3.mV[VY] && min == vec3.mV[VZ]);
+        x = 1.f, y = 2.2f, z = 2.8f;
+        vec3.setVec(x,y,z);
+        ensure("2:clamp:Fail  ", FALSE == vec3.clamp(min, max));
+    }
+
+    template<> template<>
+    void v3math_object::test<8>()
+    {
+        F32 x = 2.32f, y = 1.212f, z = -.12f;
+        LLVector3 vec3(x,y,z);
+        ensure("1:magVecSquared:Fail ", is_approx_equal(vec3.magVecSquared(), (x*x + y*y + z*z)));
+        ensure("2:magVec:Fail ", is_approx_equal(vec3.magVec(), (F32) sqrt(x*x + y*y + z*z)));
+    }
+
+    template<> template<>
+    void v3math_object::test<9>()
+    {
+        F32 x =-2.0f, y = -3.0f, z = 1.23f ;
+        LLVector3 vec3(x,y,z);
+        ensure("1:abs():Fail ", (TRUE == vec3.abs()));
+        ensure("2:isNull():Fail", (FALSE == vec3.isNull()));    //Returns TRUE if vector has a _very_small_ length
+        x =.00000001f, y = .000001001f, z = .000001001f;
+        vec3.setVec(x,y,z);
+        ensure("3:isNull(): Fail ", (TRUE == vec3.isNull()));
+    }
+
+    template<> template<>
+    void v3math_object::test<10>()
+    {
+        F32 x =-2.0f, y = -3.0f, z = 1.f ;
+        LLVector3 vec3(x,y,z),vec3a;
+        ensure("1:isExactlyZero():Fail ", (TRUE == vec3a.isExactlyZero()));
+        vec3a = vec3a.scaleVec(vec3);
+        ensure("2:scaleVec: Fail ", vec3a.mV[VX] == 0.f && vec3a.mV[VY] == 0.f && vec3a.mV[VZ] == 0.f);
+        vec3a.setVec(x,y,z);
+        vec3a = vec3a.scaleVec(vec3);
+        ensure("3:scaleVec: Fail ", ((4 == vec3a.mV[VX]) && (9 == vec3a.mV[VY]) &&(1 == vec3a.mV[VZ])));
+        ensure("4:isExactlyZero():Fail ", (FALSE == vec3.isExactlyZero()));
+    }
+
+    template<> template<>
+    void v3math_object::test<11>()
+    {
+        F32 x =20.0f, y = 30.0f, z = 15.f ;
+        F32 angle = 100.f;
+        LLVector3 vec3(x,y,z),vec3a(1.f,2.f,3.f);
+        vec3a = vec3a.rotVec(angle, vec3);
+        LLVector3 vec3b(1.f,2.f,3.f);
+        vec3b = vec3b.rotVec(angle, vec3);
+        ensure_equals("rotVec():Fail" ,vec3b,vec3a);
+    }
+
+    template<> template<>
+    void v3math_object::test<12>()
+    {
+        F32 x =-2.0f, y = -3.0f, z = 1.f ;
+        LLVector3 vec3(x,y,z);
+        ensure("1:operator [] failed",( x ==  vec3[0]));
+        ensure("2:operator [] failed",( y ==  vec3[1]));
+        ensure("3:operator [] failed",( z ==  vec3[2]));
+
+        vec3.clearVec();
+        x = 23.f, y = -.2361f, z = 3.25;
+        vec3.setVec(x,y,z);
+        F32 &ref1 = vec3[0];
+        ensure("4:operator [] failed",( ref1 ==  vec3[0]));
+        F32 &ref2 = vec3[1];
+        ensure("5:operator [] failed",( ref2 ==  vec3[1]));
+        F32 &ref3 = vec3[2];
+        ensure("6:operator [] failed",( ref3 ==  vec3[2]));
+    }
+
+    template<> template<>
+    void v3math_object::test<13>()
+    {
+        F32 x1 =1.f, y1 = 2.f,z1 = 1.2f, x2 = -2.3f, y2 = 1.11f, z2 = 1234.234f;
+        F32 val1, val2, val3;
+        LLVector3 vec3(x1,y1,z1), vec3a(x2,y2,z2), vec3b;
+        vec3b = vec3 + vec3a ;
+        val1 = x1+x2;
+        val2 = y1+y2;
+        val3 = z1+z2;
+        ensure("1:operator+ failed",(val1 == vec3b.mV[VX]) && (val2 == vec3b.mV[VY]) && (val3 == vec3b.mV[VZ]));
+
+        vec3.clearVec();
+        vec3a.clearVec();
+        vec3b.clearVec();
+        x1 = -.235f, y1 = -24.32f,z1 = 2.13f,  x2 = -2.3f, y2 = 1.f, z2 = 34.21f;
+        vec3.setVec(x1,y1,z1);
+        vec3a.setVec(x2,y2,z2);
+        vec3b = vec3 + vec3a;
+        val1 = x1+x2;
+        val2 = y1+y2;
+        val3 = z1+z2;
+        ensure("2:operator+ failed",(val1 == vec3b.mV[VX]) && (val2 == vec3b.mV[VY]) && (val3 == vec3b.mV[VZ]));
+    }
+
+    template<> template<>
+    void v3math_object::test<14>()
+    {
+        F32 x1 =1.f, y1 = 2.f,z1 = 1.2f, x2 = -2.3f, y2 = 1.11f, z2 = 1234.234f;
+        F32 val1, val2, val3;
+        LLVector3 vec3(x1,y1,z1), vec3a(x2,y2,z2), vec3b;
+        vec3b = vec3 - vec3a ;
+        val1 = x1-x2;
+        val2 = y1-y2;
+        val3 = z1-z2;
+        ensure("1:operator- failed",(val1 == vec3b.mV[VX]) && (val2 == vec3b.mV[VY]) && (val3 == vec3b.mV[VZ]));
+
+        vec3.clearVec();
+        vec3a.clearVec();
+        vec3b.clearVec();
+        x1 = -.235f, y1 = -24.32f,z1 = 2.13f,  x2 = -2.3f, y2 = 1.f, z2 = 34.21f;
+        vec3.setVec(x1,y1,z1);
+        vec3a.setVec(x2,y2,z2);
+        vec3b = vec3 - vec3a;
+        val1 = x1-x2;
+        val2 = y1-y2;
+        val3 = z1-z2;
+        ensure("2:operator- failed",(val1 == vec3b.mV[VX]) && (val2 == vec3b.mV[VY]) && (val3 == vec3b.mV[VZ]));
+    }
+
+    template<> template<>
+    void v3math_object::test<15>()
+    {
+        F32 x1 =1.f, y1 = 2.f,z1 = 1.2f, x2 = -2.3f, y2 = 1.11f, z2 = 1234.234f;
+        F32 val1, val2, val3;
+        LLVector3 vec3(x1,y1,z1), vec3a(x2,y2,z2);
+        val1 = vec3 * vec3a;
+        val2 = x1*x2 + y1*y2 + z1*z2;
+        ensure_equals("1:operator* failed",val1,val2);
+
+        vec3a.clearVec();
+        F32 mulVal = 4.332f;
+        vec3a = vec3 * mulVal;
+        val1 = x1*mulVal;
+        val2 = y1*mulVal;
+        val3 = z1*mulVal;
+        ensure("2:operator* failed",(val1 == vec3a.mV[VX]) && (val2 == vec3a.mV[VY])&& (val3 == vec3a.mV[VZ]));
+        vec3a.clearVec();
+        vec3a = mulVal * vec3;
+        ensure("3:operator* failed ", (val1 == vec3a.mV[VX]) && (val2 == vec3a.mV[VY])&& (val3 == vec3a.mV[VZ]));
+    }
+
+    template<> template<>
+    void v3math_object::test<16>()
+    {
+        F32 x1 =1.f, y1 = 2.f,z1 = 1.2f, x2 = -2.3f, y2 = 1.11f, z2 = 1234.234f;
+        F32 val1, val2, val3;
+        LLVector3 vec3(x1,y1,z1), vec3a(x2,y2,z2), vec3b;
+        vec3b = vec3 % vec3a ;
+        val1 = y1*z2 - y2*z1;
+        val2 = z1*x2 -z2*x1;
+        val3 = x1*y2-x2*y1;
+        ensure("1:operator% failed",(val1 == vec3b.mV[VX]) && (val2 == vec3b.mV[VY]) && (val3 == vec3b.mV[VZ]));
+
+        vec3.clearVec();
+        vec3a.clearVec();
+        vec3b.clearVec();
+        x1 =112.f, y1 = 22.3f,z1 = 1.2f, x2 = -2.3f, y2 = 341.11f, z2 = 1234.234f;
+        vec3.setVec(x1,y1,z1);
+        vec3a.setVec(x2,y2,z2);
+        vec3b = vec3 % vec3a ;
+        val1 = y1*z2 - y2*z1;
+        val2 = z1*x2 -z2*x1;
+        val3 = x1*y2-x2*y1;
+        ensure("2:operator% failed ", (val1 == vec3b.mV[VX]) && (val2 == vec3b.mV[VY]) && (val3 == vec3b.mV[VZ]));
+    }
+
+    template<> template<>
+    void v3math_object::test<17>()
+    {
+        F32 x1 =1.f, y1 = 2.f,z1 = 1.2f, div = 3.2f;
+        F32 t = 1.f / div, val1, val2, val3;
+        LLVector3 vec3(x1,y1,z1), vec3a;
+        vec3a = vec3 / div;
+        val1 = x1 * t;
+        val2 = y1 * t;
+        val3 = z1 *t;
+        ensure("1:operator/ failed",(val1 == vec3a.mV[VX]) && (val2 == vec3a.mV[VY]) && (val3 == vec3a.mV[VZ]));
+
+        vec3a.clearVec();
+        x1 = -.235f, y1 = -24.32f, z1 = .342f, div = -2.2f;
+        t = 1.f / div;
+        vec3.setVec(x1,y1,z1);
+        vec3a = vec3 / div;
+        val1 = x1 * t;
+        val2 = y1 * t;
+        val3 = z1 *t;
+        ensure("2:operator/ failed",(val1 == vec3a.mV[VX]) && (val2 == vec3a.mV[VY]) && (val3 == vec3a.mV[VZ]));
+    }
+
+    template<> template<>
+    void v3math_object::test<18>()
+    {
+        F32 x1 =1.f, y1 = 2.f,z1 = 1.2f;
+        LLVector3 vec3(x1,y1,z1), vec3a(x1,y1,z1);
+        ensure("1:operator== failed",(vec3 == vec3a));
+
+        vec3a.clearVec();
+        x1 = -.235f, y1 = -24.32f, z1 = .342f;
+        vec3.clearVec();
+        vec3a.clearVec();
+        vec3.setVec(x1,y1,z1);
+        vec3a.setVec(x1,y1,z1);
+        ensure("2:operator== failed ", (vec3 == vec3a));
+    }
+
+    template<> template<>
+    void v3math_object::test<19>()
+    {
+        F32 x1 =1.f, y1 = 2.f,z1 = 1.2f, x2 =112.f, y2 = 2.234f,z2 = 11.2f;;
+        LLVector3 vec3(x1,y1,z1), vec3a(x2,y2,z2);
+        ensure("1:operator!= failed",(vec3a != vec3));
+
+        vec3.clearVec();
+        vec3.clearVec();
+        vec3a.setVec(vec3);
+        ensure("2:operator!= failed", ( FALSE == (vec3a != vec3)));
+    }
+
+    template<> template<>
+    void v3math_object::test<20>()
+    {
+        F32 x1 =1.f, y1 = 2.f,z1 = 1.2f, x2 =112.f, y2 = 2.2f,z2 = 11.2f;;
+        LLVector3 vec3(x1,y1,z1), vec3a(x2,y2,z2);
+        vec3a += vec3;
+        F32 val1, val2, val3;
+        val1 = x1+x2;
+        val2 = y1+y2;
+        val3 = z1+z2;
+        ensure("1:operator+= failed",(val1 == vec3a.mV[VX]) && (val2 == vec3a.mV[VY])&& (val3 == vec3a.mV[VZ]));
+    }
+
+    template<> template<>
+    void v3math_object::test<21>()
+    {
+        F32 x1 =1.f, y1 = 2.f,z1 = 1.2f, x2 =112.f, y2 = 2.2f,z2 = 11.2f;;
+        LLVector3 vec3(x1,y1,z1), vec3a(x2,y2,z2);
+        vec3a -= vec3;
+        F32 val1, val2, val3;
+        val1 = x2-x1;
+        val2 = y2-y1;
+        val3 = z2-z1;
+        ensure("1:operator-= failed",(val1 == vec3a.mV[VX]) && (val2 == vec3a.mV[VY])&& (val3 == vec3a.mV[VZ]));
+    }
+
+    template<> template<>
+    void v3math_object::test<22>()
+    {
+        F32 x1 =1.f, y1 = 2.f,z1 = 1.2f, x2 = -2.3f, y2 = 1.11f, z2 = 1234.234f;
+        F32 val1,val2,val3;
+        LLVector3 vec3(x1,y1,z1), vec3a(x2,y2,z2);
+        vec3a *= vec3;
+        val1 = x1*x2;
+        val2 = y1*y2;
+        val3 = z1*z2;
+        ensure("1:operator*= failed",(val1 == vec3a.mV[VX]) && (val2 == vec3a.mV[VY])&& (val3 == vec3a.mV[VZ]));
+
+        F32 mulVal = 4.332f;
+        vec3 *=mulVal;
+        val1 = x1*mulVal;
+        val2 = y1*mulVal;
+        val3 = z1*mulVal;
+        ensure("2:operator*= failed ", is_approx_equal(val1, vec3.mV[VX]) && is_approx_equal(val2, vec3.mV[VY]) && is_approx_equal(val3, vec3.mV[VZ]));
+    }
+
+    template<> template<>
+    void v3math_object::test<23>()
+    {
+        F32 x1 =1.f, y1 = 2.f,z1 = 1.2f, x2 = -2.3f, y2 = 1.11f, z2 = 1234.234f;
+        LLVector3 vec3(x1,y1,z1), vec3a(x2,y2,z2),vec3b;
+        vec3b = vec3a % vec3;
+        vec3a %= vec3;
+        ensure_equals("1:operator%= failed",vec3a,vec3b);
+    }
+
+    template<> template<>
+    void v3math_object::test<24>()
+    {
+        F32 x1 =1.f, y1 = 2.f,z1 = 1.2f, div = 3.2f;
+        F32 t = 1.f / div, val1, val2, val3;
+        LLVector3 vec3a(x1,y1,z1);
+        vec3a /= div;
+        val1 = x1 * t;
+        val2 = y1 * t;
+        val3 = z1 *t;
+        ensure("1:operator/= failed",(val1 == vec3a.mV[VX]) && (val2 == vec3a.mV[VY]) && (val3 == vec3a.mV[VZ]));
+    }
+
+    template<> template<>
+    void v3math_object::test<25>()
+    {
+        F32 x1 =1.f, y1 = 2.f,z1 = 1.2f;
+        LLVector3 vec3(x1,y1,z1), vec3a;
+        vec3a = -vec3;
+        ensure("1:operator- failed",(-vec3a == vec3));
+    }
+
+    template<> template<>
+    void v3math_object::test<26>()
+    {
+        F32 x1 =1.f, y1 = 2.f,z1 = 1.2f;
+        std::ostringstream stream1, stream2;
+        LLVector3 vec3(x1,y1,z1), vec3a;
+        stream1 << vec3;
+        vec3a.setVec(x1,y1,z1);
+        stream2 << vec3a;
+        ensure("1:operator << failed",(stream1.str() == stream2.str()));
+    }
+
+    template<> template<>
+    void v3math_object::test<27>()
+    {
+        F32 x1 =-2.3f, y1 = 2.f,z1 = 1.2f, x2 = 1.3f, y2 = 1.11f, z2 = 1234.234f;
+        LLVector3 vec3(x1,y1,z1), vec3a(x2,y2,z2);
+        ensure("1:operator< failed", (TRUE == (vec3 < vec3a)));
+        x1 =-2.3f, y1 = 2.f,z1 = 1.2f, x2 = 1.3f, y2 = 2.f, z2 = 1234.234f;
+        vec3.setVec(x1,y1,z1);
+        vec3a.setVec(x2,y2,z2);
+        ensure("2:operator< failed ", (TRUE == (vec3 < vec3a)));
+        x1 =2.3f, y1 = 2.f,z1 = 1.2f, x2 = 1.3f,
+        vec3.setVec(x1,y1,z1);
+        vec3a.setVec(x2,y2,z2);
+        ensure("3:operator< failed ", (FALSE == (vec3 < vec3a)));
+    }
+
+    template<> template<>
+    void v3math_object::test<28>()
+    {
+        F32 x1 =1.23f, y1 = 2.f,z1 = 4.f;
+        std::string buf("1.23 2. 4");
+        LLVector3 vec3, vec3a(x1,y1,z1);
+        LLVector3::parseVector3(buf, &vec3);
+        ensure_equals("1:parseVector3 failed", vec3, vec3a);
+    }
+
+    template<> template<>
+    void v3math_object::test<29>()
+    {
+        F32 x1 =1.f, y1 = 2.f,z1 = 4.f;
+        LLVector3 vec3(x1,y1,z1),vec3a,vec3b;
+        vec3a.setVec(1,1,1);
+        vec3a.scaleVec(vec3);
+        ensure_equals("1:scaleVec failed", vec3, vec3a);
+        vec3a.clearVec();
+        vec3a.setVec(x1,y1,z1);
+        vec3a.scaleVec(vec3);
+        ensure("2:scaleVec failed", ((1.f ==vec3a.mV[VX])&& (4.f ==vec3a.mV[VY]) && (16.f ==vec3a.mV[VZ])));
+    }
+
+    template<> template<>
+    void v3math_object::test<30>()
+    {
+        F32 x1 =-2.3f, y1 = 2.f,z1 = 1.2f, x2 = 1.3f, y2 = 1.11f, z2 = 1234.234f;
+        F32 val = 2.3f,val1,val2,val3;
+        val1 = x1 + (x2 - x1)* val;
+        val2 = y1 + (y2 - y1)* val;
+        val3 = z1 + (z2 - z1)* val;
+        LLVector3 vec3(x1,y1,z1),vec3a(x2,y2,z2);
+        LLVector3 vec3b = lerp(vec3,vec3a,val);
+        ensure("1:lerp failed", ((val1 ==vec3b.mV[VX])&& (val2 ==vec3b.mV[VY]) && (val3 ==vec3b.mV[VZ])));
+    }
+
+    template<> template<>
+    void v3math_object::test<31>()
+    {
+        F32 x1 =-2.3f, y1 = 2.f,z1 = 1.2f, x2 = 1.3f, y2 = 1.f, z2 = 1.f;
+        F32 val1,val2;
+        LLVector3 vec3(x1,y1,z1),vec3a(x2,y2,z2);
+        val1 = dist_vec(vec3,vec3a);
+        val2 = (F32) sqrt((x1 - x2)*(x1 - x2) + (y1 - y2)* (y1 - y2) + (z1 - z2)* (z1 -z2));
+        ensure_equals("1:dist_vec: Fail ",val2, val1);
+        val1 = dist_vec_squared(vec3,vec3a);
+        val2 =((x1 - x2)*(x1 - x2) + (y1 - y2)* (y1 - y2) + (z1 - z2)* (z1 -z2));
+        ensure_equals("2:dist_vec_squared: Fail ",val2, val1);
+        val1 = dist_vec_squared2D(vec3, vec3a);
+        val2 =(x1 - x2)*(x1 - x2) + (y1 - y2)* (y1 - y2);
+        ensure_equals("3:dist_vec_squared2D: Fail ",val2, val1);
+    }
+
+    template<> template<>
+    void v3math_object::test<32>()
+    {
+        F32 x =12.3524f, y = -342.f,z = 4.126341f;
+        LLVector3 vec3(x,y,z);
+        F32 mag = vec3.normVec();
+        mag = 1.f/ mag;
+        F32 val1 = x* mag, val2 = y* mag, val3 = z* mag;
+        ensure("1:normVec: Fail ", is_approx_equal(val1, vec3.mV[VX]) && is_approx_equal(val2, vec3.mV[VY]) && is_approx_equal(val3, vec3.mV[VZ]));
+        x = 0.000000001f, y = 0.f, z = 0.f;
+        vec3.clearVec();
+        vec3.setVec(x,y,z);
+        mag = vec3.normVec();
+        val1 = x* mag, val2 = y* mag, val3 = z* mag;
+        ensure("2:normVec: Fail ", (mag == 0.) && (0. == vec3.mV[VX]) && (0. == vec3.mV[VY])&& (0. == vec3.mV[VZ]));
+    }
+
+    template<> template<>
+    void v3math_object::test<33>()
+    {
+        F32 x = -202.23412f, y = 123.2312f, z = -89.f;
+        LLVector3 vec(x,y,z);
+        vec.snap(2);
+        ensure("1:snap: Fail ", is_approx_equal(-202.23f, vec.mV[VX]) && is_approx_equal(123.23f, vec.mV[VY]) && is_approx_equal(-89.f, vec.mV[VZ]));
+    }
+
+    template<> template<>
+    void v3math_object::test<34>()
+    {
+        F32 x = 10.f, y = 20.f, z = -15.f;
+        F32 x1, y1, z1;
+        F32 lowerxy = 0.f, upperxy = 1.0f, lowerz = -1.0f, upperz = 1.f;
+        LLVector3 vec3(x,y,z);
+        vec3.quantize16(lowerxy,upperxy,lowerz,upperz);
+        x1 = U16_to_F32(F32_to_U16(x, lowerxy, upperxy), lowerxy, upperxy);
+        y1 = U16_to_F32(F32_to_U16(y, lowerxy, upperxy), lowerxy, upperxy);
+        z1 = U16_to_F32(F32_to_U16(z, lowerz,  upperz),  lowerz,  upperz);
+        ensure("1:quantize16: Fail ", is_approx_equal(x1, vec3.mV[VX]) && is_approx_equal(y1, vec3.mV[VY]) && is_approx_equal(z1, vec3.mV[VZ]));
+        LLVector3 vec3a(x,y,z);
+        vec3a.quantize8(lowerxy,upperxy,lowerz,upperz);
+        x1 = U8_to_F32(F32_to_U8(x, lowerxy, upperxy), lowerxy, upperxy);
+        y1 = U8_to_F32(F32_to_U8(y, lowerxy, upperxy), lowerxy, upperxy);
+        z1 = U8_to_F32(F32_to_U8(z, lowerz, upperz), lowerz, upperz);
+        ensure("2:quantize8: Fail ", is_approx_equal(x1, vec3a.mV[VX]) && is_approx_equal(y1, vec3a.mV[VY]) && is_approx_equal(z1, vec3a.mV[VZ]));
+    }
+
+    template<> template<>
+    void v3math_object::test<35>()
+    {
+        LLSD sd = LLSD::emptyArray();
+        sd[0] = 1.f;
+
+        LLVector3 parsed_1(sd);
+        ensure("1:LLSD parse: Fail ", is_approx_equal(parsed_1.mV[VX], 1.f) && is_approx_equal(parsed_1.mV[VY], 0.f) && is_approx_equal(parsed_1.mV[VZ], 0.f));
+
+        sd[1] = 2.f;
+        LLVector3 parsed_2(sd);
+        ensure("2:LLSD parse: Fail ", is_approx_equal(parsed_2.mV[VX], 1.f) && is_approx_equal(parsed_2.mV[VY], 2.f) && is_approx_equal(parsed_2.mV[VZ], 0.f));
+
+        sd[2] = 3.f;
+        LLVector3 parsed_3(sd);
+        ensure("3:LLSD parse: Fail ", is_approx_equal(parsed_3.mV[VX], 1.f) && is_approx_equal(parsed_3.mV[VY], 2.f) && is_approx_equal(parsed_3.mV[VZ], 3.f));
+    }
 }
diff --git a/indra/llmath/tests/v4color_test.cpp b/indra/llmath/tests/v4color_test.cpp
index d7eec3c87f..3b3adbda0d 100644
--- a/indra/llmath/tests/v4color_test.cpp
+++ b/indra/llmath/tests/v4color_test.cpp
@@ -7,21 +7,21 @@
  * $LicenseInfo:firstyear=2007&license=viewerlgpl$
  * Second Life Viewer Source Code
  * Copyright (C) 2010, Linden Research, Inc.
- * 
+ *
  * This library is free software; you can redistribute it and/or
  * modify it under the terms of the GNU Lesser General Public
  * License as published by the Free Software Foundation;
  * version 2.1 of the License only.
- * 
+ *
  * This library is distributed in the hope that it will be useful,
  * but WITHOUT ANY WARRANTY; without even the implied warranty of
  * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the GNU
  * Lesser General Public License for more details.
- * 
+ *
  * You should have received a copy of the GNU Lesser General Public
  * License along with this library; if not, write to the Free Software
  * Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA  02110-1301  USA
- * 
+ *
  * Linden Research, Inc., 945 Battery Street, San Francisco, CA  94111  USA
  * $/LicenseInfo$
  */
@@ -38,322 +38,322 @@
 
 namespace tut
 {
-	struct v4color_data
-	{
-	};
-	typedef test_group<v4color_data> v4color_test;
-	typedef v4color_test::object v4color_object;
-	tut::v4color_test v4color_testcase("v4color_h");
-
-	template<> template<>
-	void v4color_object::test<1>()
-	{
-		LLColor4 llcolor4;
-		ensure("1:LLColor4:Fail to initialize ", ((0 == llcolor4.mV[VX]) && (0 == llcolor4.mV[VY]) && (0 == llcolor4.mV[VZ])&& (1.0f == llcolor4.mV[VW])));
-
-		F32 r = 0x20, g = 0xFFFF, b = 0xFF, a = 0xAF;
-		LLColor4 llcolor4a(r,g,b);
-		ensure("2:LLColor4:Fail to initialize ", ((r == llcolor4a.mV[VX]) && (g == llcolor4a.mV[VY]) && (b == llcolor4a.mV[VZ])&& (1.0f == llcolor4a.mV[VW])));
-		
-		LLColor4 llcolor4b(r,g,b,a);
-		ensure("3:LLColor4:Fail to initialize ", ((r == llcolor4b.mV[VX]) && (g == llcolor4b.mV[VY]) && (b == llcolor4b.mV[VZ])&& (a == llcolor4b.mV[VW])));
-		
-		const F32 vec[4] = {.112f ,23.2f, -4.2f, -.0001f};
-		LLColor4 llcolor4c(vec);
-		ensure("4:LLColor4:Fail to initialize ", ((vec[0] == llcolor4c.mV[VX]) && (vec[1] == llcolor4c.mV[VY]) && (vec[2] == llcolor4c.mV[VZ])&& (vec[3] == llcolor4c.mV[VW])));		
-		
-		LLColor3 llcolor3(-2.23f,1.01f,42.3f);
-		F32 val = -.1f;
-		LLColor4 llcolor4d(llcolor3,val);
-		ensure("5:LLColor4:Fail to initialize ", ((llcolor3.mV[VX] == llcolor4d.mV[VX]) && (llcolor3.mV[VY] == llcolor4d.mV[VY]) && (llcolor3.mV[VZ] == llcolor4d.mV[VZ])&& (val == llcolor4d.mV[VW])));
-
-		LLSD sd = llcolor4d.getValue();
-		LLColor4 llcolor4e(sd);
-		ensure_equals("6:LLColor4:(LLSD) failed ", llcolor4d, llcolor4e);
-		
-		U8 r1 = 0xF2, g1 = 0xFA, b1 = 0xBF;
-		LLColor4U color4u(r1,g1,b1);
-		LLColor4 llcolor4g(color4u);
-		const F32 SCALE = 1.f/255.f;
-		F32 r2 = r1*SCALE, g2 = g1* SCALE, b2 = b1* SCALE;
-		ensure("7:LLColor4:Fail to initialize ", ((r2 == llcolor4g.mV[VX]) && (g2 == llcolor4g.mV[VY]) && (b2 == llcolor4g.mV[VZ])));
-	}
-
-	template<> template<>
-	void v4color_object::test<2>()
-	{
-		LLColor4 llcolor(1.0, 2.0, 3.0, 4.0);
-		LLSD llsd = llcolor.getValue();
-		LLColor4 llcolor4(llsd), llcolor4a;
-		llcolor4a.setValue(llsd);
-		ensure("setValue: failed", (llcolor4 == llcolor4a));
-		LLSD sd = llcolor4a.getValue();
-		LLColor4 llcolor4b(sd);
-		ensure("getValue: Failed ", (llcolor4b == llcolor4a));
-	}
-
-	template<> template<>
-	void v4color_object::test<3>()
-	{
-		F32 r = 0x20, g = 0xFFFF, b = 0xFF,a = 0xAF;
-		LLColor4 llcolor4(r,g,b,a);
-		llcolor4.setToBlack();
-		ensure("setToBlack:Fail to set the black ", ((0 == llcolor4.mV[VX]) && (0 == llcolor4.mV[VY]) && (0 == llcolor4.mV[VZ])&& (1.0f == llcolor4.mV[VW])));
-
-		llcolor4.setToWhite();
-		ensure("setToWhite:Fail to set the white ", ((1.f == llcolor4.mV[VX]) && (1.f == llcolor4.mV[VY]) && (1.f == llcolor4.mV[VZ])&& (1.0f == llcolor4.mV[VW])));
-	}
-
-	template<> template<>
-	void v4color_object::test<4>()
-	{
-		F32 r = 0x20, g = 0xFFFF, b = 0xFF, a = 0xAF;
-		LLColor4 llcolor4;
-		llcolor4.setVec(r,g,b);
-		ensure("1:setVec:Fail to set the values ", ((r == llcolor4.mV[VX]) && (g == llcolor4.mV[VY]) && (b == llcolor4.mV[VZ])&& (1.f == llcolor4.mV[VW])));
-
-		llcolor4.setVec(r,g,b,a);
-		ensure("2:setVec:Fail to set the values ", ((r == llcolor4.mV[VX]) && (g == llcolor4.mV[VY]) && (b == llcolor4.mV[VZ])&& (a == llcolor4.mV[VW])));
-
-		LLColor4 llcolor4a; 
-		llcolor4a.setVec(llcolor4);
-		ensure_equals("3:setVec:Fail to set the values ", llcolor4a,llcolor4);
-
-		LLColor3 llcolor3(-2.23f,1.01f,42.3f);
-		llcolor4a.setVec(llcolor3);
-		ensure("4:setVec:Fail to set the values ", ((llcolor3.mV[VX] == llcolor4a.mV[VX]) && (llcolor3.mV[VY] == llcolor4a.mV[VY]) && (llcolor3.mV[VZ] == llcolor4a.mV[VZ])));
-
-		F32 val = -.33f;
-		llcolor4a.setVec(llcolor3,val);
-		ensure("4:setVec:Fail to set the values ", ((llcolor3.mV[VX] == llcolor4a.mV[VX]) && (llcolor3.mV[VY] == llcolor4a.mV[VY]) && (llcolor3.mV[VZ] == llcolor4a.mV[VZ]) && (val == llcolor4a.mV[VW])));
-
-		const F32 vec[4] = {.112f ,23.2f, -4.2f, -.0001f};
-		LLColor4 llcolor4c;
-		llcolor4c.setVec(vec);
-		ensure("5:setVec:Fail to initialize ", ((vec[0] == llcolor4c.mV[VX]) && (vec[1] == llcolor4c.mV[VY]) && (vec[2] == llcolor4c.mV[VZ])&& (vec[3] == llcolor4c.mV[VW])));		
-
-		U8 r1 = 0xF2, g1 = 0xFA, b1= 0xBF;
-		LLColor4U color4u(r1,g1,b1);
-		llcolor4.setVec(color4u);
-		const F32 SCALE = 1.f/255.f;
-		F32 r2 = r1*SCALE, g2 = g1* SCALE, b2 = b1* SCALE;
-		ensure("6:setVec:Fail to initialize ", ((r2 == llcolor4.mV[VX]) && (g2 == llcolor4.mV[VY]) && (b2 == llcolor4.mV[VZ])));
-	}
-
-	template<> template<>
-	void v4color_object::test<5>()
-	{
-		F32 alpha = 0xAF;
-		LLColor4 llcolor4;
-		llcolor4.setAlpha(alpha);
-		ensure("setAlpha:Fail to initialize ", (alpha == llcolor4.mV[VW]));
-	}
-
-	template<> template<>
-	void v4color_object::test<6>()
-	{
-		F32 r = 0x20, g = 0xFFFF, b = 0xFF;
-		LLColor4 llcolor4(r,g,b);
-		ensure("magVecSquared:Fail ", is_approx_equal(llcolor4.magVecSquared(), (r*r + g*g + b*b)));
-		ensure("magVec:Fail ", is_approx_equal(llcolor4.magVec(), (F32) sqrt(r*r + g*g + b*b)));
-	}
-
-	template<> template<>
-	void v4color_object::test<7>()
-	{
-		F32 r = 0x20, g = 0xFFFF, b = 0xFF;
-		LLColor4 llcolor4(r,g,b);
-		F32 vecMag = llcolor4.normVec();
-		F32 mag = (F32) sqrt(r*r + g*g + b*b);
-		F32 oomag = 1.f / mag;
-		F32 val1 = r * oomag, val2 = g * oomag,	val3 = b * oomag;
-		ensure("1:normVec failed ", (is_approx_equal(val1, llcolor4.mV[0]) && is_approx_equal(val2, llcolor4.mV[1]) && is_approx_equal(val3, llcolor4.mV[2]) && is_approx_equal(vecMag, mag)));
-	}
-
-	template<> template<>
-	void v4color_object::test<8>()
-	{
-		LLColor4 llcolor4;
-		ensure("1:isOpaque failed ",(1 == llcolor4.isOpaque()));
-		F32 r = 0x20, g = 0xFFFF, b = 0xFF,a = 1.f;
-		llcolor4.setVec(r,g,b,a);
-		ensure("2:isOpaque failed ",(1 == llcolor4.isOpaque()));
-		a = 2.f;
-		llcolor4.setVec(r,g,b,a);
-		ensure("3:isOpaque failed ",(0 == llcolor4.isOpaque()));
-	}
-
-	template<> template<>
-	void v4color_object::test<9>()
-	{
-		F32 r = 0x20, g = 0xFFFF, b = 0xFF;
-		LLColor4 llcolor4(r,g,b);
-		ensure("1:operator [] failed",( r ==  llcolor4[0]));	
-		ensure("2:operator [] failed",( g ==  llcolor4[1]));
-		ensure("3:operator [] failed",( b ==  llcolor4[2]));
-
-		r = 0xA20, g = 0xFBFF, b = 0xFFF;
-		llcolor4.setVec(r,g,b);
-		F32 &ref1 = llcolor4[0];
-		ensure("4:operator [] failed",( ref1 ==  llcolor4[0]));
-		F32 &ref2 = llcolor4[1];
-		ensure("5:operator [] failed",( ref2 ==  llcolor4[1]));
-		F32 &ref3 = llcolor4[2];
-		ensure("6:operator [] failed",( ref3 ==  llcolor4[2]));
-	}
-
-	template<> template<>
-	void v4color_object::test<10>()
-	{
-		F32 r = 0x20, g = 0xFFFF, b = 0xFF;
-		LLColor3 llcolor3(r,g,b);
-		LLColor4 llcolor4a,llcolor4b;
-		llcolor4a = llcolor3;
-		ensure("Operator=:Fail to initialize ", ((llcolor3.mV[0] == llcolor4a.mV[VX]) && (llcolor3.mV[1] == llcolor4a.mV[VY]) && (llcolor3.mV[2] == llcolor4a.mV[VZ])));
-		LLSD sd = llcolor4a.getValue();
-		llcolor4b = LLColor4(sd);
-		ensure_equals("Operator= LLSD:Fail ", llcolor4a, llcolor4b);
-	}
-
-	template<> template<>
-	void v4color_object::test<11>()
-	{
-		F32 r = 0x20, g = 0xFFFF, b = 0xFF;
-		std::ostringstream stream1, stream2;
-		LLColor4 llcolor4a(r,g,b),llcolor4b;
-		stream1 << llcolor4a;
-		llcolor4b.setVec(r,g,b);
-		stream2 << llcolor4b;
-		ensure("operator << failed ", (stream1.str() == stream2.str()));	
-	}
-
-	template<> template<>
-	void v4color_object::test<12>()
-	{
-		F32 r1 = 0x20, g1 = 0xFFFF, b1 = 0xFF;
-		F32 r2 = 0xABF, g2 = 0xFB, b2 = 0xFFF;
-		LLColor4 llcolor4a(r1,g1,b1),llcolor4b(r2,g2,b2),llcolor4c;
-		llcolor4c = llcolor4b + llcolor4a;
-		ensure("operator+:Fail to Add the values ",  (is_approx_equal(r1+r2,llcolor4c.mV[VX]) && is_approx_equal(g1+g2,llcolor4c.mV[VY]) && is_approx_equal(b1+b2,llcolor4c.mV[VZ])));
-
-		llcolor4b += llcolor4a;
-		ensure("operator+=:Fail to Add the values ",  (is_approx_equal(r1+r2,llcolor4b.mV[VX]) && is_approx_equal(g1+g2,llcolor4b.mV[VY]) && is_approx_equal(b1+b2,llcolor4b.mV[VZ])));
-	}
-
-	template<> template<>
-	void v4color_object::test<13>()
-	{
-		F32 r1 = 0x20, g1 = 0xFFFF, b1 = 0xFF;
-		F32 r2 = 0xABF, g2 = 0xFB, b2 = 0xFFF;
-		LLColor4 llcolor4a(r1,g1,b1),llcolor4b(r2,g2,b2),llcolor4c;
-		llcolor4c = llcolor4a - llcolor4b;
-		ensure("operator-:Fail to subtract the values ",  (is_approx_equal(r1-r2,llcolor4c.mV[VX]) && is_approx_equal(g1-g2,llcolor4c.mV[VY]) && is_approx_equal(b1-b2,llcolor4c.mV[VZ])));
-
-		llcolor4a -= llcolor4b;
-		ensure("operator-=:Fail to subtract the values ",  (is_approx_equal(r1-r2,llcolor4a.mV[VX]) && is_approx_equal(g1-g2,llcolor4a.mV[VY]) && is_approx_equal(b1-b2,llcolor4a.mV[VZ])));
-	}
-
-	template<> template<>
-	void v4color_object::test<14>()
-	{
-		F32 r1 = 0x20, g1 = 0xFFFF, b1 = 0xFF;
-		F32 r2 = 0xABF, g2 = 0xFB, b2 = 0xFFF;
-		LLColor4 llcolor4a(r1,g1,b1),llcolor4b(r2,g2,b2),llcolor4c;
-		llcolor4c = llcolor4a * llcolor4b;
-		ensure("1:operator*:Fail to multiply the values",  (is_approx_equal(r1*r2,llcolor4c.mV[VX]) && is_approx_equal(g1*g2,llcolor4c.mV[VY]) && is_approx_equal(b1*b2,llcolor4c.mV[VZ])));
-		
-		F32 mulVal = 3.33f;
-		llcolor4c = llcolor4a * mulVal;
-		ensure("2:operator*:Fail ",  (is_approx_equal(r1*mulVal,llcolor4c.mV[VX]) && is_approx_equal(g1*mulVal,llcolor4c.mV[VY]) && is_approx_equal(b1*mulVal,llcolor4c.mV[VZ])));
-		llcolor4c = mulVal * llcolor4a;
-		ensure("3:operator*:Fail to multiply the values",  (is_approx_equal(r1*mulVal,llcolor4c.mV[VX]) && is_approx_equal(g1*mulVal,llcolor4c.mV[VY]) && is_approx_equal(b1*mulVal,llcolor4c.mV[VZ])));
-
-		llcolor4a *= mulVal;
-		ensure("4:operator*=:Fail to multiply the values ",  (is_approx_equal(r1*mulVal,llcolor4a.mV[VX]) && is_approx_equal(g1*mulVal,llcolor4a.mV[VY]) && is_approx_equal(b1*mulVal,llcolor4a.mV[VZ])));
-
-		LLColor4 llcolor4d(r1,g1,b1),llcolor4e(r2,g2,b2);
-		llcolor4e *= llcolor4d;
-		ensure("5:operator*=:Fail to multiply the values ",  (is_approx_equal(r1*r2,llcolor4e.mV[VX]) && is_approx_equal(g1*g2,llcolor4e.mV[VY]) && is_approx_equal(b1*b2,llcolor4e.mV[VZ])));
-	}
-
-	template<> template<>
-	void v4color_object::test<15>()
-	{
-		F32 r = 0x20, g = 0xFFFF, b = 0xFF,a = 0x30;
-		F32 div = 12.345f;
-		LLColor4 llcolor4a(r,g,b,a),llcolor4b;
-		llcolor4b = llcolor4a % div;//chnage only alpha value nor r,g,b;
-		ensure("1operator%:Fail ",  (is_approx_equal(r,llcolor4b.mV[VX]) && is_approx_equal(g,llcolor4b.mV[VY]) && is_approx_equal(b,llcolor4b.mV[VZ])&& is_approx_equal(div*a,llcolor4b.mV[VW])));
-		
-		llcolor4b = div % llcolor4a;
-		ensure("2operator%:Fail ",  (is_approx_equal(r,llcolor4b.mV[VX]) && is_approx_equal(g,llcolor4b.mV[VY]) && is_approx_equal(b,llcolor4b.mV[VZ])&& is_approx_equal(div*a,llcolor4b.mV[VW])));
-
-		llcolor4a %= div;
-		ensure("operator%=:Fail ",  (is_approx_equal(a*div,llcolor4a.mV[VW])));
-	}
-
-	template<> template<>
-	void v4color_object::test<16>()
-	{
-		F32 r = 0x20, g = 0xFFFF, b = 0xFF,a = 0x30;
-		LLColor4 llcolor4a(r,g,b,a),llcolor4b;
-		llcolor4b = llcolor4a;
-		ensure("1:operator== failed to ensure the equality ", (llcolor4b == llcolor4a));	
-		F32 r1 = 0x2, g1 = 0xFF, b1 = 0xFA;
-		LLColor3 llcolor3(r1,g1,b1);
-		llcolor4b = llcolor3;
-		ensure("2:operator== failed to ensure the equality ", (llcolor4b == llcolor3));	
-		ensure("2:operator!= failed to ensure the equality ", (llcolor4a != llcolor3));
-	}
-
-	template<> template<>
-	void v4color_object::test<17>()
-	{
-		F32 r = 0x20, g = 0xFFFF, b = 0xFF;
-		LLColor4 llcolor4a(r,g,b),llcolor4b;
-		LLColor3 llcolor3 = vec4to3(llcolor4a);
-		ensure("vec4to3:Fail to convert vec4 to vec3 ",  (is_approx_equal(llcolor3.mV[VX],llcolor4a.mV[VX]) && is_approx_equal(llcolor3.mV[VY],llcolor4a.mV[VY]) && is_approx_equal(llcolor3.mV[VZ],llcolor4a.mV[VZ])));
-		llcolor4b = vec3to4(llcolor3);
-		ensure_equals("vec3to4:Fail to convert vec3 to vec4 ",  llcolor4b, llcolor4a);
-	}
-
-	template<> template<>
-	void v4color_object::test<18>()
-	{
-		F32 r1 = 0x20, g1 = 0xFFFF, b1 = 0xFF, val = 0x20;
-		F32 r2 = 0xABF, g2 = 0xFB, b2 = 0xFFF;
-		LLColor4 llcolor4a(r1,g1,b1),llcolor4b(r2,g2,b2),llcolor4c;
-		llcolor4c = lerp(llcolor4a,llcolor4b,val);
-		ensure("lerp:Fail ",  (is_approx_equal(r1 + (r2 - r1)* val,llcolor4c.mV[VX]) && is_approx_equal(g1 + (g2 - g1)* val,llcolor4c.mV[VY]) && is_approx_equal(b1 + (b2 - b1)* val,llcolor4c.mV[VZ])));
-	}
-
-	template<> template<>
-	void v4color_object::test<19>()
-	{
-		F32 r = 12.0f, g = -2.3f, b = 1.32f, a = 5.0f;
-		LLColor4 llcolor4a(r,g,b,a),llcolor4b;
-		std::string color("red");
-		LLColor4::parseColor(color, &llcolor4b);
-		ensure_equals("1:parseColor() failed to parse the color value ", llcolor4b, LLColor4::red);
-
-		color = "12.0, -2.3, 1.32, 5.0";
-		LLColor4::parseColor(color, &llcolor4b);
-		llcolor4a = llcolor4a * (1.f / 255.f);
-		ensure_equals("2:parseColor() failed to parse the color value ",  llcolor4a,llcolor4b);
-
-		color = "yellow5";
-		llcolor4a.setVec(r,g,b);
-		LLColor4::parseColor(color, &llcolor4a);
-		ensure_equals("3:parseColor() failed to parse the color value ", llcolor4a, LLColor4::yellow5);
-	}
-
-	template<> template<>
-	void v4color_object::test<20>()
-	{
-		F32 r = 12.0f, g = -2.3f, b = 1.32f, a = 5.0f;
-		LLColor4 llcolor4a(r,g,b,a),llcolor4b;
-		std::string color("12.0, -2.3, 1.32, 5.0");
-		LLColor4::parseColor4(color, &llcolor4b);
-		ensure_equals("parseColor4() failed to parse the color value ",  llcolor4a, llcolor4b);
-	}
+    struct v4color_data
+    {
+    };
+    typedef test_group<v4color_data> v4color_test;
+    typedef v4color_test::object v4color_object;
+    tut::v4color_test v4color_testcase("v4color_h");
+
+    template<> template<>
+    void v4color_object::test<1>()
+    {
+        LLColor4 llcolor4;
+        ensure("1:LLColor4:Fail to initialize ", ((0 == llcolor4.mV[VX]) && (0 == llcolor4.mV[VY]) && (0 == llcolor4.mV[VZ])&& (1.0f == llcolor4.mV[VW])));
+
+        F32 r = 0x20, g = 0xFFFF, b = 0xFF, a = 0xAF;
+        LLColor4 llcolor4a(r,g,b);
+        ensure("2:LLColor4:Fail to initialize ", ((r == llcolor4a.mV[VX]) && (g == llcolor4a.mV[VY]) && (b == llcolor4a.mV[VZ])&& (1.0f == llcolor4a.mV[VW])));
+
+        LLColor4 llcolor4b(r,g,b,a);
+        ensure("3:LLColor4:Fail to initialize ", ((r == llcolor4b.mV[VX]) && (g == llcolor4b.mV[VY]) && (b == llcolor4b.mV[VZ])&& (a == llcolor4b.mV[VW])));
+
+        const F32 vec[4] = {.112f ,23.2f, -4.2f, -.0001f};
+        LLColor4 llcolor4c(vec);
+        ensure("4:LLColor4:Fail to initialize ", ((vec[0] == llcolor4c.mV[VX]) && (vec[1] == llcolor4c.mV[VY]) && (vec[2] == llcolor4c.mV[VZ])&& (vec[3] == llcolor4c.mV[VW])));
+
+        LLColor3 llcolor3(-2.23f,1.01f,42.3f);
+        F32 val = -.1f;
+        LLColor4 llcolor4d(llcolor3,val);
+        ensure("5:LLColor4:Fail to initialize ", ((llcolor3.mV[VX] == llcolor4d.mV[VX]) && (llcolor3.mV[VY] == llcolor4d.mV[VY]) && (llcolor3.mV[VZ] == llcolor4d.mV[VZ])&& (val == llcolor4d.mV[VW])));
+
+        LLSD sd = llcolor4d.getValue();
+        LLColor4 llcolor4e(sd);
+        ensure_equals("6:LLColor4:(LLSD) failed ", llcolor4d, llcolor4e);
+
+        U8 r1 = 0xF2, g1 = 0xFA, b1 = 0xBF;
+        LLColor4U color4u(r1,g1,b1);
+        LLColor4 llcolor4g(color4u);
+        const F32 SCALE = 1.f/255.f;
+        F32 r2 = r1*SCALE, g2 = g1* SCALE, b2 = b1* SCALE;
+        ensure("7:LLColor4:Fail to initialize ", ((r2 == llcolor4g.mV[VX]) && (g2 == llcolor4g.mV[VY]) && (b2 == llcolor4g.mV[VZ])));
+    }
+
+    template<> template<>
+    void v4color_object::test<2>()
+    {
+        LLColor4 llcolor(1.0, 2.0, 3.0, 4.0);
+        LLSD llsd = llcolor.getValue();
+        LLColor4 llcolor4(llsd), llcolor4a;
+        llcolor4a.setValue(llsd);
+        ensure("setValue: failed", (llcolor4 == llcolor4a));
+        LLSD sd = llcolor4a.getValue();
+        LLColor4 llcolor4b(sd);
+        ensure("getValue: Failed ", (llcolor4b == llcolor4a));
+    }
+
+    template<> template<>
+    void v4color_object::test<3>()
+    {
+        F32 r = 0x20, g = 0xFFFF, b = 0xFF,a = 0xAF;
+        LLColor4 llcolor4(r,g,b,a);
+        llcolor4.setToBlack();
+        ensure("setToBlack:Fail to set the black ", ((0 == llcolor4.mV[VX]) && (0 == llcolor4.mV[VY]) && (0 == llcolor4.mV[VZ])&& (1.0f == llcolor4.mV[VW])));
+
+        llcolor4.setToWhite();
+        ensure("setToWhite:Fail to set the white ", ((1.f == llcolor4.mV[VX]) && (1.f == llcolor4.mV[VY]) && (1.f == llcolor4.mV[VZ])&& (1.0f == llcolor4.mV[VW])));
+    }
+
+    template<> template<>
+    void v4color_object::test<4>()
+    {
+        F32 r = 0x20, g = 0xFFFF, b = 0xFF, a = 0xAF;
+        LLColor4 llcolor4;
+        llcolor4.setVec(r,g,b);
+        ensure("1:setVec:Fail to set the values ", ((r == llcolor4.mV[VX]) && (g == llcolor4.mV[VY]) && (b == llcolor4.mV[VZ])&& (1.f == llcolor4.mV[VW])));
+
+        llcolor4.setVec(r,g,b,a);
+        ensure("2:setVec:Fail to set the values ", ((r == llcolor4.mV[VX]) && (g == llcolor4.mV[VY]) && (b == llcolor4.mV[VZ])&& (a == llcolor4.mV[VW])));
+
+        LLColor4 llcolor4a;
+        llcolor4a.setVec(llcolor4);
+        ensure_equals("3:setVec:Fail to set the values ", llcolor4a,llcolor4);
+
+        LLColor3 llcolor3(-2.23f,1.01f,42.3f);
+        llcolor4a.setVec(llcolor3);
+        ensure("4:setVec:Fail to set the values ", ((llcolor3.mV[VX] == llcolor4a.mV[VX]) && (llcolor3.mV[VY] == llcolor4a.mV[VY]) && (llcolor3.mV[VZ] == llcolor4a.mV[VZ])));
+
+        F32 val = -.33f;
+        llcolor4a.setVec(llcolor3,val);
+        ensure("4:setVec:Fail to set the values ", ((llcolor3.mV[VX] == llcolor4a.mV[VX]) && (llcolor3.mV[VY] == llcolor4a.mV[VY]) && (llcolor3.mV[VZ] == llcolor4a.mV[VZ]) && (val == llcolor4a.mV[VW])));
+
+        const F32 vec[4] = {.112f ,23.2f, -4.2f, -.0001f};
+        LLColor4 llcolor4c;
+        llcolor4c.setVec(vec);
+        ensure("5:setVec:Fail to initialize ", ((vec[0] == llcolor4c.mV[VX]) && (vec[1] == llcolor4c.mV[VY]) && (vec[2] == llcolor4c.mV[VZ])&& (vec[3] == llcolor4c.mV[VW])));
+
+        U8 r1 = 0xF2, g1 = 0xFA, b1= 0xBF;
+        LLColor4U color4u(r1,g1,b1);
+        llcolor4.setVec(color4u);
+        const F32 SCALE = 1.f/255.f;
+        F32 r2 = r1*SCALE, g2 = g1* SCALE, b2 = b1* SCALE;
+        ensure("6:setVec:Fail to initialize ", ((r2 == llcolor4.mV[VX]) && (g2 == llcolor4.mV[VY]) && (b2 == llcolor4.mV[VZ])));
+    }
+
+    template<> template<>
+    void v4color_object::test<5>()
+    {
+        F32 alpha = 0xAF;
+        LLColor4 llcolor4;
+        llcolor4.setAlpha(alpha);
+        ensure("setAlpha:Fail to initialize ", (alpha == llcolor4.mV[VW]));
+    }
+
+    template<> template<>
+    void v4color_object::test<6>()
+    {
+        F32 r = 0x20, g = 0xFFFF, b = 0xFF;
+        LLColor4 llcolor4(r,g,b);
+        ensure("magVecSquared:Fail ", is_approx_equal(llcolor4.magVecSquared(), (r*r + g*g + b*b)));
+        ensure("magVec:Fail ", is_approx_equal(llcolor4.magVec(), (F32) sqrt(r*r + g*g + b*b)));
+    }
+
+    template<> template<>
+    void v4color_object::test<7>()
+    {
+        F32 r = 0x20, g = 0xFFFF, b = 0xFF;
+        LLColor4 llcolor4(r,g,b);
+        F32 vecMag = llcolor4.normVec();
+        F32 mag = (F32) sqrt(r*r + g*g + b*b);
+        F32 oomag = 1.f / mag;
+        F32 val1 = r * oomag, val2 = g * oomag, val3 = b * oomag;
+        ensure("1:normVec failed ", (is_approx_equal(val1, llcolor4.mV[0]) && is_approx_equal(val2, llcolor4.mV[1]) && is_approx_equal(val3, llcolor4.mV[2]) && is_approx_equal(vecMag, mag)));
+    }
+
+    template<> template<>
+    void v4color_object::test<8>()
+    {
+        LLColor4 llcolor4;
+        ensure("1:isOpaque failed ",(1 == llcolor4.isOpaque()));
+        F32 r = 0x20, g = 0xFFFF, b = 0xFF,a = 1.f;
+        llcolor4.setVec(r,g,b,a);
+        ensure("2:isOpaque failed ",(1 == llcolor4.isOpaque()));
+        a = 2.f;
+        llcolor4.setVec(r,g,b,a);
+        ensure("3:isOpaque failed ",(0 == llcolor4.isOpaque()));
+    }
+
+    template<> template<>
+    void v4color_object::test<9>()
+    {
+        F32 r = 0x20, g = 0xFFFF, b = 0xFF;
+        LLColor4 llcolor4(r,g,b);
+        ensure("1:operator [] failed",( r ==  llcolor4[0]));
+        ensure("2:operator [] failed",( g ==  llcolor4[1]));
+        ensure("3:operator [] failed",( b ==  llcolor4[2]));
+
+        r = 0xA20, g = 0xFBFF, b = 0xFFF;
+        llcolor4.setVec(r,g,b);
+        F32 &ref1 = llcolor4[0];
+        ensure("4:operator [] failed",( ref1 ==  llcolor4[0]));
+        F32 &ref2 = llcolor4[1];
+        ensure("5:operator [] failed",( ref2 ==  llcolor4[1]));
+        F32 &ref3 = llcolor4[2];
+        ensure("6:operator [] failed",( ref3 ==  llcolor4[2]));
+    }
+
+    template<> template<>
+    void v4color_object::test<10>()
+    {
+        F32 r = 0x20, g = 0xFFFF, b = 0xFF;
+        LLColor3 llcolor3(r,g,b);
+        LLColor4 llcolor4a,llcolor4b;
+        llcolor4a = llcolor3;
+        ensure("Operator=:Fail to initialize ", ((llcolor3.mV[0] == llcolor4a.mV[VX]) && (llcolor3.mV[1] == llcolor4a.mV[VY]) && (llcolor3.mV[2] == llcolor4a.mV[VZ])));
+        LLSD sd = llcolor4a.getValue();
+        llcolor4b = LLColor4(sd);
+        ensure_equals("Operator= LLSD:Fail ", llcolor4a, llcolor4b);
+    }
+
+    template<> template<>
+    void v4color_object::test<11>()
+    {
+        F32 r = 0x20, g = 0xFFFF, b = 0xFF;
+        std::ostringstream stream1, stream2;
+        LLColor4 llcolor4a(r,g,b),llcolor4b;
+        stream1 << llcolor4a;
+        llcolor4b.setVec(r,g,b);
+        stream2 << llcolor4b;
+        ensure("operator << failed ", (stream1.str() == stream2.str()));
+    }
+
+    template<> template<>
+    void v4color_object::test<12>()
+    {
+        F32 r1 = 0x20, g1 = 0xFFFF, b1 = 0xFF;
+        F32 r2 = 0xABF, g2 = 0xFB, b2 = 0xFFF;
+        LLColor4 llcolor4a(r1,g1,b1),llcolor4b(r2,g2,b2),llcolor4c;
+        llcolor4c = llcolor4b + llcolor4a;
+        ensure("operator+:Fail to Add the values ",  (is_approx_equal(r1+r2,llcolor4c.mV[VX]) && is_approx_equal(g1+g2,llcolor4c.mV[VY]) && is_approx_equal(b1+b2,llcolor4c.mV[VZ])));
+
+        llcolor4b += llcolor4a;
+        ensure("operator+=:Fail to Add the values ",  (is_approx_equal(r1+r2,llcolor4b.mV[VX]) && is_approx_equal(g1+g2,llcolor4b.mV[VY]) && is_approx_equal(b1+b2,llcolor4b.mV[VZ])));
+    }
+
+    template<> template<>
+    void v4color_object::test<13>()
+    {
+        F32 r1 = 0x20, g1 = 0xFFFF, b1 = 0xFF;
+        F32 r2 = 0xABF, g2 = 0xFB, b2 = 0xFFF;
+        LLColor4 llcolor4a(r1,g1,b1),llcolor4b(r2,g2,b2),llcolor4c;
+        llcolor4c = llcolor4a - llcolor4b;
+        ensure("operator-:Fail to subtract the values ",  (is_approx_equal(r1-r2,llcolor4c.mV[VX]) && is_approx_equal(g1-g2,llcolor4c.mV[VY]) && is_approx_equal(b1-b2,llcolor4c.mV[VZ])));
+
+        llcolor4a -= llcolor4b;
+        ensure("operator-=:Fail to subtract the values ",  (is_approx_equal(r1-r2,llcolor4a.mV[VX]) && is_approx_equal(g1-g2,llcolor4a.mV[VY]) && is_approx_equal(b1-b2,llcolor4a.mV[VZ])));
+    }
+
+    template<> template<>
+    void v4color_object::test<14>()
+    {
+        F32 r1 = 0x20, g1 = 0xFFFF, b1 = 0xFF;
+        F32 r2 = 0xABF, g2 = 0xFB, b2 = 0xFFF;
+        LLColor4 llcolor4a(r1,g1,b1),llcolor4b(r2,g2,b2),llcolor4c;
+        llcolor4c = llcolor4a * llcolor4b;
+        ensure("1:operator*:Fail to multiply the values",  (is_approx_equal(r1*r2,llcolor4c.mV[VX]) && is_approx_equal(g1*g2,llcolor4c.mV[VY]) && is_approx_equal(b1*b2,llcolor4c.mV[VZ])));
+
+        F32 mulVal = 3.33f;
+        llcolor4c = llcolor4a * mulVal;
+        ensure("2:operator*:Fail ",  (is_approx_equal(r1*mulVal,llcolor4c.mV[VX]) && is_approx_equal(g1*mulVal,llcolor4c.mV[VY]) && is_approx_equal(b1*mulVal,llcolor4c.mV[VZ])));
+        llcolor4c = mulVal * llcolor4a;
+        ensure("3:operator*:Fail to multiply the values",  (is_approx_equal(r1*mulVal,llcolor4c.mV[VX]) && is_approx_equal(g1*mulVal,llcolor4c.mV[VY]) && is_approx_equal(b1*mulVal,llcolor4c.mV[VZ])));
+
+        llcolor4a *= mulVal;
+        ensure("4:operator*=:Fail to multiply the values ",  (is_approx_equal(r1*mulVal,llcolor4a.mV[VX]) && is_approx_equal(g1*mulVal,llcolor4a.mV[VY]) && is_approx_equal(b1*mulVal,llcolor4a.mV[VZ])));
+
+        LLColor4 llcolor4d(r1,g1,b1),llcolor4e(r2,g2,b2);
+        llcolor4e *= llcolor4d;
+        ensure("5:operator*=:Fail to multiply the values ",  (is_approx_equal(r1*r2,llcolor4e.mV[VX]) && is_approx_equal(g1*g2,llcolor4e.mV[VY]) && is_approx_equal(b1*b2,llcolor4e.mV[VZ])));
+    }
+
+    template<> template<>
+    void v4color_object::test<15>()
+    {
+        F32 r = 0x20, g = 0xFFFF, b = 0xFF,a = 0x30;
+        F32 div = 12.345f;
+        LLColor4 llcolor4a(r,g,b,a),llcolor4b;
+        llcolor4b = llcolor4a % div;//chnage only alpha value nor r,g,b;
+        ensure("1operator%:Fail ",  (is_approx_equal(r,llcolor4b.mV[VX]) && is_approx_equal(g,llcolor4b.mV[VY]) && is_approx_equal(b,llcolor4b.mV[VZ])&& is_approx_equal(div*a,llcolor4b.mV[VW])));
+
+        llcolor4b = div % llcolor4a;
+        ensure("2operator%:Fail ",  (is_approx_equal(r,llcolor4b.mV[VX]) && is_approx_equal(g,llcolor4b.mV[VY]) && is_approx_equal(b,llcolor4b.mV[VZ])&& is_approx_equal(div*a,llcolor4b.mV[VW])));
+
+        llcolor4a %= div;
+        ensure("operator%=:Fail ",  (is_approx_equal(a*div,llcolor4a.mV[VW])));
+    }
+
+    template<> template<>
+    void v4color_object::test<16>()
+    {
+        F32 r = 0x20, g = 0xFFFF, b = 0xFF,a = 0x30;
+        LLColor4 llcolor4a(r,g,b,a),llcolor4b;
+        llcolor4b = llcolor4a;
+        ensure("1:operator== failed to ensure the equality ", (llcolor4b == llcolor4a));
+        F32 r1 = 0x2, g1 = 0xFF, b1 = 0xFA;
+        LLColor3 llcolor3(r1,g1,b1);
+        llcolor4b = llcolor3;
+        ensure("2:operator== failed to ensure the equality ", (llcolor4b == llcolor3));
+        ensure("2:operator!= failed to ensure the equality ", (llcolor4a != llcolor3));
+    }
+
+    template<> template<>
+    void v4color_object::test<17>()
+    {
+        F32 r = 0x20, g = 0xFFFF, b = 0xFF;
+        LLColor4 llcolor4a(r,g,b),llcolor4b;
+        LLColor3 llcolor3 = vec4to3(llcolor4a);
+        ensure("vec4to3:Fail to convert vec4 to vec3 ",  (is_approx_equal(llcolor3.mV[VX],llcolor4a.mV[VX]) && is_approx_equal(llcolor3.mV[VY],llcolor4a.mV[VY]) && is_approx_equal(llcolor3.mV[VZ],llcolor4a.mV[VZ])));
+        llcolor4b = vec3to4(llcolor3);
+        ensure_equals("vec3to4:Fail to convert vec3 to vec4 ",  llcolor4b, llcolor4a);
+    }
+
+    template<> template<>
+    void v4color_object::test<18>()
+    {
+        F32 r1 = 0x20, g1 = 0xFFFF, b1 = 0xFF, val = 0x20;
+        F32 r2 = 0xABF, g2 = 0xFB, b2 = 0xFFF;
+        LLColor4 llcolor4a(r1,g1,b1),llcolor4b(r2,g2,b2),llcolor4c;
+        llcolor4c = lerp(llcolor4a,llcolor4b,val);
+        ensure("lerp:Fail ",  (is_approx_equal(r1 + (r2 - r1)* val,llcolor4c.mV[VX]) && is_approx_equal(g1 + (g2 - g1)* val,llcolor4c.mV[VY]) && is_approx_equal(b1 + (b2 - b1)* val,llcolor4c.mV[VZ])));
+    }
+
+    template<> template<>
+    void v4color_object::test<19>()
+    {
+        F32 r = 12.0f, g = -2.3f, b = 1.32f, a = 5.0f;
+        LLColor4 llcolor4a(r,g,b,a),llcolor4b;
+        std::string color("red");
+        LLColor4::parseColor(color, &llcolor4b);
+        ensure_equals("1:parseColor() failed to parse the color value ", llcolor4b, LLColor4::red);
+
+        color = "12.0, -2.3, 1.32, 5.0";
+        LLColor4::parseColor(color, &llcolor4b);
+        llcolor4a = llcolor4a * (1.f / 255.f);
+        ensure_equals("2:parseColor() failed to parse the color value ",  llcolor4a,llcolor4b);
+
+        color = "yellow5";
+        llcolor4a.setVec(r,g,b);
+        LLColor4::parseColor(color, &llcolor4a);
+        ensure_equals("3:parseColor() failed to parse the color value ", llcolor4a, LLColor4::yellow5);
+    }
+
+    template<> template<>
+    void v4color_object::test<20>()
+    {
+        F32 r = 12.0f, g = -2.3f, b = 1.32f, a = 5.0f;
+        LLColor4 llcolor4a(r,g,b,a),llcolor4b;
+        std::string color("12.0, -2.3, 1.32, 5.0");
+        LLColor4::parseColor4(color, &llcolor4b);
+        ensure_equals("parseColor4() failed to parse the color value ",  llcolor4a, llcolor4b);
+    }
 }
diff --git a/indra/llmath/tests/v4coloru_test.cpp b/indra/llmath/tests/v4coloru_test.cpp
index 12e607a820..2b6ee952a3 100644
--- a/indra/llmath/tests/v4coloru_test.cpp
+++ b/indra/llmath/tests/v4coloru_test.cpp
@@ -7,21 +7,21 @@
  * $LicenseInfo:firstyear=2007&license=viewerlgpl$
  * Second Life Viewer Source Code
  * Copyright (C) 2010, Linden Research, Inc.
- * 
+ *
  * This library is free software; you can redistribute it and/or
  * modify it under the terms of the GNU Lesser General Public
  * License as published by the Free Software Foundation;
  * version 2.1 of the License only.
- * 
+ *
  * This library is distributed in the hope that it will be useful,
  * but WITHOUT ANY WARRANTY; without even the implied warranty of
  * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the GNU
  * Lesser General Public License for more details.
- * 
+ *
  * You should have received a copy of the GNU Lesser General Public
  * License along with this library; if not, write to the Free Software
  * Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA  02110-1301  USA
- * 
+ *
  * Linden Research, Inc., 945 Battery Street, San Francisco, CA  94111  USA
  * $/LicenseInfo$
  */
@@ -37,300 +37,300 @@
 
 namespace tut
 {
-	struct v4coloru_data
-	{
-	};
-	typedef test_group<v4coloru_data> v4coloru_test;
-	typedef v4coloru_test::object v4coloru_object;
-	tut::v4coloru_test v4coloru_testcase("v4coloru_h");
-
-	template<> template<>
-	void v4coloru_object::test<1>()
-	{
-		LLColor4U llcolor4u;
-		ensure("1:LLColor4u:Fail to initialize ", ((0 == llcolor4u.mV[VX]) && (0 == llcolor4u.mV[VY]) && (0 == llcolor4u.mV[VZ])&& (255 == llcolor4u.mV[VW])));
-
-		U8 r = 0x12, g = 0xFF, b = 0xAF, a = 0x23;
-		LLColor4U llcolor4u1(r,g,b);
-		ensure("2:LLColor4u:Fail to initialize ", ((r == llcolor4u1.mV[VX]) && (g == llcolor4u1.mV[VY]) && (b == llcolor4u1.mV[VZ])&& (255 == llcolor4u1.mV[VW])));
-		
-		LLColor4U llcolor4u2(r,g,b,a);
-		ensure("3:LLColor4u:Fail to initialize ", ((r == llcolor4u2.mV[VX]) && (g == llcolor4u2.mV[VY]) && (b == llcolor4u2.mV[VZ])&& (a == llcolor4u2.mV[VW])));
-
-		const U8 vec[4] = {0x12,0xFF,0xAF,0x23};
-		LLColor4U llcolor4u3(vec);
-		ensure("4:LLColor4u:Fail to initialize ", ((vec[0] == llcolor4u3.mV[VX]) && (vec[1] == llcolor4u3.mV[VY]) && (vec[2] == llcolor4u3.mV[VZ])&& (vec[3] == llcolor4u3.mV[VW])));		
-
-		LLSD sd = llcolor4u3.getValue();
-		LLColor4U llcolor4u4(sd);
-		ensure_equals("5:LLColor4u (LLSD) Failed ", llcolor4u4, llcolor4u3);
-	}
-	
-	template<> template<>
-	void v4coloru_object::test<2>()
-	{
-		LLColor4U llcolor4ua(1, 2, 3, 4);
-		LLSD sd = llcolor4ua.getValue();
-		LLColor4U llcolor4u;
-		llcolor4u.setValue(sd);
-		ensure_equals("setValue(LLSD)/getValue Failed ", llcolor4u, llcolor4ua);
-	}
-
-	template<> template<>
-	void v4coloru_object::test<3>()
-	{
-		U8 r = 0x12, g = 0xFF, b = 0xAF, a = 0x23;
-		LLColor4U llcolor4u(r,g,b,a);
-		llcolor4u.setToBlack();
-		ensure("setToBlack:Fail to set black ", ((0 == llcolor4u.mV[VX]) && (0 == llcolor4u.mV[VY]) && (0 == llcolor4u.mV[VZ])&& (255 == llcolor4u.mV[VW])));
-
-		llcolor4u.setToWhite();
-		ensure("setToWhite:Fail to white ", ((255 == llcolor4u.mV[VX]) && (255 == llcolor4u.mV[VY]) && (255 == llcolor4u.mV[VZ])&& (255 == llcolor4u.mV[VW])));
-	}
-	
-	template<> template<>
-	void v4coloru_object::test<4>()
-	{
-		U8 r = 0x12, g = 0xFF, b = 0xAF, a = 0x23;
-		LLColor4U llcolor4ua(r,g,b,a);
-		LLSD sd = llcolor4ua.getValue();
-		LLColor4U llcolor4u = (LLColor4U)sd;
-		ensure_equals("Operator=(LLSD) Failed ",  llcolor4u, llcolor4ua);
-	}
-
-	template<> template<>
-	void v4coloru_object::test<5>()
-	{
-		U8 r = 0x12, g = 0xFF, b = 0xAF, a = 0x23;
-		LLColor4U llcolor4u;
-		llcolor4u.setVec(r,g,b,a);
-		ensure("1:setVec:Fail to set the values ", ((r == llcolor4u.mV[VX]) && (g == llcolor4u.mV[VY]) && (b == llcolor4u.mV[VZ])&& (a == llcolor4u.mV[VW])));
-
-		llcolor4u.setToBlack();
-		llcolor4u.setVec(r,g,b);
-		ensure("2:setVec:Fail to set the values ", ((r == llcolor4u.mV[VX]) && (g == llcolor4u.mV[VY]) && (b == llcolor4u.mV[VZ])&& (255 == llcolor4u.mV[VW])));
-
-		LLColor4U llcolor4u1;
-		llcolor4u1.setVec(llcolor4u);
-		ensure_equals("3:setVec:Fail to set the values ", llcolor4u1,llcolor4u);
-		
-		const U8 vec[4] = {0x12,0xFF,0xAF,0x23};
-		LLColor4U llcolor4u2;
-		llcolor4u2.setVec(vec);
-		ensure("4:setVec:Fail to set the values ", ((vec[0] == llcolor4u2.mV[VX]) && (vec[1] == llcolor4u2.mV[VY]) && (vec[2] == llcolor4u2.mV[VZ])&& (vec[3] == llcolor4u2.mV[VW])));		
-	}
-	
-	template<> template<>
-	void v4coloru_object::test<6>()
-	{
-		U8 alpha = 0x12;
-		LLColor4U llcolor4u;
-		llcolor4u.setAlpha(alpha);
-		ensure("setAlpha:Fail to set alpha value ", (alpha == llcolor4u.mV[VW]));
-	}
-	
-	template<> template<>
-	void v4coloru_object::test<7>()
-	{
-		U8 r = 0x12, g = 0xFF, b = 0xAF;
-		LLColor4U llcolor4u(r,g,b);
-		ensure("magVecSquared:Fail ", is_approx_equal(llcolor4u.magVecSquared(), (F32)(r*r + g*g + b*b)));
-		ensure("magVec:Fail ", is_approx_equal(llcolor4u.magVec(), (F32) sqrt((F32) (r*r + g*g + b*b))));
-	}
-
-	template<> template<>
-	void v4coloru_object::test<8>()
-	{
-		U8 r = 0x12, g = 0xFF, b = 0xAF;
-		std::ostringstream stream1, stream2;
-		LLColor4U llcolor4u1(r,g,b),llcolor4u2;
-		stream1 << llcolor4u1;
-		llcolor4u2.setVec(r,g,b);
-		stream2 << llcolor4u2;
-		ensure("operator << failed ", (stream1.str() == stream2.str()));	
-	}
-
-	template<> template<>
-	void v4coloru_object::test<9>()
-	{
-		U8 r1 = 0x12, g1 = 0xFF, b1 = 0xAF;
-		U8 r2 = 0x1C, g2 = 0x9A, b2 = 0x1B;
-		LLColor4U llcolor4u1(r1,g1,b1), llcolor4u2(r2,g2,b2),llcolor4u3;
-		llcolor4u3 = llcolor4u1 + llcolor4u2;
-		ensure_equals(
-			"1a.operator+:Fail to Add the values ",
-			llcolor4u3.mV[VX],
-			(U8)(r1+r2));
-		ensure_equals(
-			"1b.operator+:Fail to Add the values ",
-			llcolor4u3.mV[VY],
-			(U8)(g1+g2));
-		ensure_equals(
-			"1c.operator+:Fail to Add the values ",
-			llcolor4u3.mV[VZ],
-			(U8)(b1+b2));
-
-		llcolor4u2 += llcolor4u1;
-		ensure_equals(
-			"2a.operator+=:Fail to Add the values ",
-			llcolor4u2.mV[VX],
-			(U8)(r1+r2));
-		ensure_equals(
-			"2b.operator+=:Fail to Add the values ",
-			llcolor4u2.mV[VY],
-			(U8)(g1+g2));
-		ensure_equals(
-			"2c.operator+=:Fail to Add the values ",
-			llcolor4u2.mV[VZ],
-			(U8)(b1+b2));
-	}
-
-	template<> template<>
-	void v4coloru_object::test<10>()
-	{
-		U8 r1 = 0x12, g1 = 0xFF, b1 = 0xAF;
-		U8 r2 = 0x1C, g2 = 0x9A, b2 = 0x1B;
-		LLColor4U llcolor4u1(r1,g1,b1), llcolor4u2(r2,g2,b2),llcolor4u3;
-		llcolor4u3 = llcolor4u1 - llcolor4u2;
-		ensure_equals(
-			"1a. operator-:Fail to Add the values ",
-			llcolor4u3.mV[VX],
-			(U8)(r1-r2));
-		ensure_equals(
-			"1b. operator-:Fail to Add the values ",
-			llcolor4u3.mV[VY],
-			(U8)(g1-g2));
-		ensure_equals(
-			"1c. operator-:Fail to Add the values ",
-			llcolor4u3.mV[VZ],
-			(U8)(b1-b2));
-
-		llcolor4u1 -= llcolor4u2;
-		ensure_equals(
-			"2a. operator-=:Fail to Add the values ",
-			llcolor4u1.mV[VX],
-			(U8)(r1-r2));
-		ensure_equals(
-			"2b. operator-=:Fail to Add the values ",
-			llcolor4u1.mV[VY],
-			(U8)(g1-g2));
-		ensure_equals(
-			"2c. operator-=:Fail to Add the values ",
-			llcolor4u1.mV[VZ],
-			(U8)(b1-b2));
-	}
-
-	template<> template<>
-	void v4coloru_object::test<11>()
-	{
-		U8 r1 = 0x12, g1 = 0xFF, b1 = 0xAF;
-		U8 r2 = 0x1C, g2 = 0x9A, b2 = 0x1B;
-		LLColor4U llcolor4u1(r1,g1,b1), llcolor4u2(r2,g2,b2),llcolor4u3;
-		llcolor4u3 = llcolor4u1 * llcolor4u2;
-		ensure_equals(
-			"1a. operator*:Fail to multiply the values",
-			llcolor4u3.mV[VX],
-			(U8)(r1*r2));
-		ensure_equals(
-			"1b. operator*:Fail to multiply the values",
-			llcolor4u3.mV[VY],
-			(U8)(g1*g2));
-		ensure_equals(
-			"1c. operator*:Fail to multiply the values",
-			llcolor4u3.mV[VZ],
-			(U8)(b1*b2));
-		
-		U8 mulVal = 123;
-		llcolor4u1 *= mulVal;
-		ensure_equals(
-			"2a. operator*=:Fail to multiply the values",
-			llcolor4u1.mV[VX],
-			(U8)(r1*mulVal));
-		ensure_equals(
-			"2b. operator*=:Fail to multiply the values",
-			llcolor4u1.mV[VY],
-			(U8)(g1*mulVal));
-		ensure_equals(
-			"2c. operator*=:Fail to multiply the values",
-			llcolor4u1.mV[VZ],
-			(U8)(b1*mulVal));
-	}
-
-	template<> template<>
-	void v4coloru_object::test<12>()
-	{
-		U8 r = 0x12, g = 0xFF, b = 0xAF;
-		LLColor4U llcolor4u(r,g,b),llcolor4u1;
-		llcolor4u1 = llcolor4u;
-		ensure("operator== failed to ensure the equality ", (llcolor4u1 == llcolor4u));	
-		llcolor4u1.setToBlack();
-		ensure("operator!= failed to ensure the equality ", (llcolor4u1 != llcolor4u));	
-	}
-
-	template<> template<>
-	void v4coloru_object::test<13>()
-	{
-		U8 r = 0x12, g = 0xFF, b = 0xAF, a = 12;
-		LLColor4U llcolor4u(r,g,b,a);
-		U8 modVal = 45;
-		llcolor4u %= modVal;
-		ensure_equals("operator%=:Fail ", llcolor4u.mV[VW], (U8)(a * modVal));
-	}
-
-	template<> template<>
-	void v4coloru_object::test<14>()
-	{
-		U8 r = 0x12, g = 0xFF, b = 0xAF, a = 12;
-		LLColor4U llcolor4u1(r,g,b,a);
-		std::string color("12, 23, 132, 50");
-		LLColor4U::parseColor4U(color, &llcolor4u1);
-		ensure("parseColor4U() failed to parse the color value ", ((12 == llcolor4u1.mV[VX]) && (23 == llcolor4u1.mV[VY]) && (132 == llcolor4u1.mV[VZ])&& (50 == llcolor4u1.mV[VW])));
-
-		color = "12, 23, 132";
-		ensure("2:parseColor4U() failed to parse the color value ",  (FALSE == LLColor4U::parseColor4U(color, &llcolor4u1)));
-
-		color = "12";
-		ensure("2:parseColor4U() failed to parse the color value ",  (FALSE == LLColor4U::parseColor4U(color, &llcolor4u1)));
-	}
-
-	template<> template<>
-	void v4coloru_object::test<15>()
-	{
-		U8 r = 12, g = 123, b = 3, a = 2;
-		LLColor4U llcolor4u(r,g,b,a),llcolor4u1;
-		const F32 fVal = 3.f;
-		llcolor4u1 = llcolor4u.multAll(fVal);
-		ensure("multAll:Fail to multiply ", (((U8)ll_round(r * fVal) == llcolor4u1.mV[VX]) && (U8)ll_round(g * fVal) == llcolor4u1.mV[VY]
-											&& ((U8)ll_round(b * fVal) == llcolor4u1.mV[VZ])&& ((U8)ll_round(a * fVal) == llcolor4u1.mV[VW])));		
-	}
-
-	template<> template<>
-	void v4coloru_object::test<16>()
-	{
-		U8 r1 = 12, g1 = 123, b1 = 3, a1 = 2;
-		U8 r2 = 23, g2 = 230, b2 = 124, a2 = 255;
-		LLColor4U llcolor4u(r1,g1,b1,a1),llcolor4u1(r2,g2,b2,a2);
-		llcolor4u1 = llcolor4u1.addClampMax(llcolor4u);
-		ensure("1:addClampMax():Fail to add the value ",  ((r1+r2 == llcolor4u1.mV[VX]) && (255 == llcolor4u1.mV[VY]) && (b1+b2 == llcolor4u1.mV[VZ])&& (255 == llcolor4u1.mV[VW])));
-
-		r1 = 132, g1 = 3, b1 = 3, a1 = 2;
-		r2 = 123, g2 = 230, b2 = 154, a2 = 25;
-		LLColor4U llcolor4u2(r1,g1,b1,a1),llcolor4u3(r2,g2,b2,a2);
-		llcolor4u3 = llcolor4u3.addClampMax(llcolor4u2);
-		ensure("2:addClampMax():Fail to add the value ",  ((255 == llcolor4u3.mV[VX]) && (g1+g2 == llcolor4u3.mV[VY]) && (b1+b2 == llcolor4u3.mV[VZ])&& (a1+a2 == llcolor4u3.mV[VW])));
-	}
-
-	template<> template<>
-	void v4coloru_object::test<17>()
-	{
-		F32 r = 23.f, g = 12.32f, b = -12.3f;
-		LLColor3 color3(r,g,b);
-		LLColor4U llcolor4u;
-		llcolor4u.setVecScaleClamp(color3);
-		const S32 MAX_COLOR = 255;
-		F32 color_scale_factor = MAX_COLOR/r;
-		S32 r2 = ll_round(r * color_scale_factor);
-		S32 g2 = ll_round(g * color_scale_factor);
-		ensure("setVecScaleClamp():Fail to add the value ",  ((r2 == llcolor4u.mV[VX]) && (g2 == llcolor4u.mV[VY]) && (0 == llcolor4u.mV[VZ])&& (255 == llcolor4u.mV[VW])));
-	}
+    struct v4coloru_data
+    {
+    };
+    typedef test_group<v4coloru_data> v4coloru_test;
+    typedef v4coloru_test::object v4coloru_object;
+    tut::v4coloru_test v4coloru_testcase("v4coloru_h");
+
+    template<> template<>
+    void v4coloru_object::test<1>()
+    {
+        LLColor4U llcolor4u;
+        ensure("1:LLColor4u:Fail to initialize ", ((0 == llcolor4u.mV[VX]) && (0 == llcolor4u.mV[VY]) && (0 == llcolor4u.mV[VZ])&& (255 == llcolor4u.mV[VW])));
+
+        U8 r = 0x12, g = 0xFF, b = 0xAF, a = 0x23;
+        LLColor4U llcolor4u1(r,g,b);
+        ensure("2:LLColor4u:Fail to initialize ", ((r == llcolor4u1.mV[VX]) && (g == llcolor4u1.mV[VY]) && (b == llcolor4u1.mV[VZ])&& (255 == llcolor4u1.mV[VW])));
+
+        LLColor4U llcolor4u2(r,g,b,a);
+        ensure("3:LLColor4u:Fail to initialize ", ((r == llcolor4u2.mV[VX]) && (g == llcolor4u2.mV[VY]) && (b == llcolor4u2.mV[VZ])&& (a == llcolor4u2.mV[VW])));
+
+        const U8 vec[4] = {0x12,0xFF,0xAF,0x23};
+        LLColor4U llcolor4u3(vec);
+        ensure("4:LLColor4u:Fail to initialize ", ((vec[0] == llcolor4u3.mV[VX]) && (vec[1] == llcolor4u3.mV[VY]) && (vec[2] == llcolor4u3.mV[VZ])&& (vec[3] == llcolor4u3.mV[VW])));
+
+        LLSD sd = llcolor4u3.getValue();
+        LLColor4U llcolor4u4(sd);
+        ensure_equals("5:LLColor4u (LLSD) Failed ", llcolor4u4, llcolor4u3);
+    }
+
+    template<> template<>
+    void v4coloru_object::test<2>()
+    {
+        LLColor4U llcolor4ua(1, 2, 3, 4);
+        LLSD sd = llcolor4ua.getValue();
+        LLColor4U llcolor4u;
+        llcolor4u.setValue(sd);
+        ensure_equals("setValue(LLSD)/getValue Failed ", llcolor4u, llcolor4ua);
+    }
+
+    template<> template<>
+    void v4coloru_object::test<3>()
+    {
+        U8 r = 0x12, g = 0xFF, b = 0xAF, a = 0x23;
+        LLColor4U llcolor4u(r,g,b,a);
+        llcolor4u.setToBlack();
+        ensure("setToBlack:Fail to set black ", ((0 == llcolor4u.mV[VX]) && (0 == llcolor4u.mV[VY]) && (0 == llcolor4u.mV[VZ])&& (255 == llcolor4u.mV[VW])));
+
+        llcolor4u.setToWhite();
+        ensure("setToWhite:Fail to white ", ((255 == llcolor4u.mV[VX]) && (255 == llcolor4u.mV[VY]) && (255 == llcolor4u.mV[VZ])&& (255 == llcolor4u.mV[VW])));
+    }
+
+    template<> template<>
+    void v4coloru_object::test<4>()
+    {
+        U8 r = 0x12, g = 0xFF, b = 0xAF, a = 0x23;
+        LLColor4U llcolor4ua(r,g,b,a);
+        LLSD sd = llcolor4ua.getValue();
+        LLColor4U llcolor4u = (LLColor4U)sd;
+        ensure_equals("Operator=(LLSD) Failed ",  llcolor4u, llcolor4ua);
+    }
+
+    template<> template<>
+    void v4coloru_object::test<5>()
+    {
+        U8 r = 0x12, g = 0xFF, b = 0xAF, a = 0x23;
+        LLColor4U llcolor4u;
+        llcolor4u.setVec(r,g,b,a);
+        ensure("1:setVec:Fail to set the values ", ((r == llcolor4u.mV[VX]) && (g == llcolor4u.mV[VY]) && (b == llcolor4u.mV[VZ])&& (a == llcolor4u.mV[VW])));
+
+        llcolor4u.setToBlack();
+        llcolor4u.setVec(r,g,b);
+        ensure("2:setVec:Fail to set the values ", ((r == llcolor4u.mV[VX]) && (g == llcolor4u.mV[VY]) && (b == llcolor4u.mV[VZ])&& (255 == llcolor4u.mV[VW])));
+
+        LLColor4U llcolor4u1;
+        llcolor4u1.setVec(llcolor4u);
+        ensure_equals("3:setVec:Fail to set the values ", llcolor4u1,llcolor4u);
+
+        const U8 vec[4] = {0x12,0xFF,0xAF,0x23};
+        LLColor4U llcolor4u2;
+        llcolor4u2.setVec(vec);
+        ensure("4:setVec:Fail to set the values ", ((vec[0] == llcolor4u2.mV[VX]) && (vec[1] == llcolor4u2.mV[VY]) && (vec[2] == llcolor4u2.mV[VZ])&& (vec[3] == llcolor4u2.mV[VW])));
+    }
+
+    template<> template<>
+    void v4coloru_object::test<6>()
+    {
+        U8 alpha = 0x12;
+        LLColor4U llcolor4u;
+        llcolor4u.setAlpha(alpha);
+        ensure("setAlpha:Fail to set alpha value ", (alpha == llcolor4u.mV[VW]));
+    }
+
+    template<> template<>
+    void v4coloru_object::test<7>()
+    {
+        U8 r = 0x12, g = 0xFF, b = 0xAF;
+        LLColor4U llcolor4u(r,g,b);
+        ensure("magVecSquared:Fail ", is_approx_equal(llcolor4u.magVecSquared(), (F32)(r*r + g*g + b*b)));
+        ensure("magVec:Fail ", is_approx_equal(llcolor4u.magVec(), (F32) sqrt((F32) (r*r + g*g + b*b))));
+    }
+
+    template<> template<>
+    void v4coloru_object::test<8>()
+    {
+        U8 r = 0x12, g = 0xFF, b = 0xAF;
+        std::ostringstream stream1, stream2;
+        LLColor4U llcolor4u1(r,g,b),llcolor4u2;
+        stream1 << llcolor4u1;
+        llcolor4u2.setVec(r,g,b);
+        stream2 << llcolor4u2;
+        ensure("operator << failed ", (stream1.str() == stream2.str()));
+    }
+
+    template<> template<>
+    void v4coloru_object::test<9>()
+    {
+        U8 r1 = 0x12, g1 = 0xFF, b1 = 0xAF;
+        U8 r2 = 0x1C, g2 = 0x9A, b2 = 0x1B;
+        LLColor4U llcolor4u1(r1,g1,b1), llcolor4u2(r2,g2,b2),llcolor4u3;
+        llcolor4u3 = llcolor4u1 + llcolor4u2;
+        ensure_equals(
+            "1a.operator+:Fail to Add the values ",
+            llcolor4u3.mV[VX],
+            (U8)(r1+r2));
+        ensure_equals(
+            "1b.operator+:Fail to Add the values ",
+            llcolor4u3.mV[VY],
+            (U8)(g1+g2));
+        ensure_equals(
+            "1c.operator+:Fail to Add the values ",
+            llcolor4u3.mV[VZ],
+            (U8)(b1+b2));
+
+        llcolor4u2 += llcolor4u1;
+        ensure_equals(
+            "2a.operator+=:Fail to Add the values ",
+            llcolor4u2.mV[VX],
+            (U8)(r1+r2));
+        ensure_equals(
+            "2b.operator+=:Fail to Add the values ",
+            llcolor4u2.mV[VY],
+            (U8)(g1+g2));
+        ensure_equals(
+            "2c.operator+=:Fail to Add the values ",
+            llcolor4u2.mV[VZ],
+            (U8)(b1+b2));
+    }
+
+    template<> template<>
+    void v4coloru_object::test<10>()
+    {
+        U8 r1 = 0x12, g1 = 0xFF, b1 = 0xAF;
+        U8 r2 = 0x1C, g2 = 0x9A, b2 = 0x1B;
+        LLColor4U llcolor4u1(r1,g1,b1), llcolor4u2(r2,g2,b2),llcolor4u3;
+        llcolor4u3 = llcolor4u1 - llcolor4u2;
+        ensure_equals(
+            "1a. operator-:Fail to Add the values ",
+            llcolor4u3.mV[VX],
+            (U8)(r1-r2));
+        ensure_equals(
+            "1b. operator-:Fail to Add the values ",
+            llcolor4u3.mV[VY],
+            (U8)(g1-g2));
+        ensure_equals(
+            "1c. operator-:Fail to Add the values ",
+            llcolor4u3.mV[VZ],
+            (U8)(b1-b2));
+
+        llcolor4u1 -= llcolor4u2;
+        ensure_equals(
+            "2a. operator-=:Fail to Add the values ",
+            llcolor4u1.mV[VX],
+            (U8)(r1-r2));
+        ensure_equals(
+            "2b. operator-=:Fail to Add the values ",
+            llcolor4u1.mV[VY],
+            (U8)(g1-g2));
+        ensure_equals(
+            "2c. operator-=:Fail to Add the values ",
+            llcolor4u1.mV[VZ],
+            (U8)(b1-b2));
+    }
+
+    template<> template<>
+    void v4coloru_object::test<11>()
+    {
+        U8 r1 = 0x12, g1 = 0xFF, b1 = 0xAF;
+        U8 r2 = 0x1C, g2 = 0x9A, b2 = 0x1B;
+        LLColor4U llcolor4u1(r1,g1,b1), llcolor4u2(r2,g2,b2),llcolor4u3;
+        llcolor4u3 = llcolor4u1 * llcolor4u2;
+        ensure_equals(
+            "1a. operator*:Fail to multiply the values",
+            llcolor4u3.mV[VX],
+            (U8)(r1*r2));
+        ensure_equals(
+            "1b. operator*:Fail to multiply the values",
+            llcolor4u3.mV[VY],
+            (U8)(g1*g2));
+        ensure_equals(
+            "1c. operator*:Fail to multiply the values",
+            llcolor4u3.mV[VZ],
+            (U8)(b1*b2));
+
+        U8 mulVal = 123;
+        llcolor4u1 *= mulVal;
+        ensure_equals(
+            "2a. operator*=:Fail to multiply the values",
+            llcolor4u1.mV[VX],
+            (U8)(r1*mulVal));
+        ensure_equals(
+            "2b. operator*=:Fail to multiply the values",
+            llcolor4u1.mV[VY],
+            (U8)(g1*mulVal));
+        ensure_equals(
+            "2c. operator*=:Fail to multiply the values",
+            llcolor4u1.mV[VZ],
+            (U8)(b1*mulVal));
+    }
+
+    template<> template<>
+    void v4coloru_object::test<12>()
+    {
+        U8 r = 0x12, g = 0xFF, b = 0xAF;
+        LLColor4U llcolor4u(r,g,b),llcolor4u1;
+        llcolor4u1 = llcolor4u;
+        ensure("operator== failed to ensure the equality ", (llcolor4u1 == llcolor4u));
+        llcolor4u1.setToBlack();
+        ensure("operator!= failed to ensure the equality ", (llcolor4u1 != llcolor4u));
+    }
+
+    template<> template<>
+    void v4coloru_object::test<13>()
+    {
+        U8 r = 0x12, g = 0xFF, b = 0xAF, a = 12;
+        LLColor4U llcolor4u(r,g,b,a);
+        U8 modVal = 45;
+        llcolor4u %= modVal;
+        ensure_equals("operator%=:Fail ", llcolor4u.mV[VW], (U8)(a * modVal));
+    }
+
+    template<> template<>
+    void v4coloru_object::test<14>()
+    {
+        U8 r = 0x12, g = 0xFF, b = 0xAF, a = 12;
+        LLColor4U llcolor4u1(r,g,b,a);
+        std::string color("12, 23, 132, 50");
+        LLColor4U::parseColor4U(color, &llcolor4u1);
+        ensure("parseColor4U() failed to parse the color value ", ((12 == llcolor4u1.mV[VX]) && (23 == llcolor4u1.mV[VY]) && (132 == llcolor4u1.mV[VZ])&& (50 == llcolor4u1.mV[VW])));
+
+        color = "12, 23, 132";
+        ensure("2:parseColor4U() failed to parse the color value ",  (FALSE == LLColor4U::parseColor4U(color, &llcolor4u1)));
+
+        color = "12";
+        ensure("2:parseColor4U() failed to parse the color value ",  (FALSE == LLColor4U::parseColor4U(color, &llcolor4u1)));
+    }
+
+    template<> template<>
+    void v4coloru_object::test<15>()
+    {
+        U8 r = 12, g = 123, b = 3, a = 2;
+        LLColor4U llcolor4u(r,g,b,a),llcolor4u1;
+        const F32 fVal = 3.f;
+        llcolor4u1 = llcolor4u.multAll(fVal);
+        ensure("multAll:Fail to multiply ", (((U8)ll_round(r * fVal) == llcolor4u1.mV[VX]) && (U8)ll_round(g * fVal) == llcolor4u1.mV[VY]
+                                            && ((U8)ll_round(b * fVal) == llcolor4u1.mV[VZ])&& ((U8)ll_round(a * fVal) == llcolor4u1.mV[VW])));
+    }
+
+    template<> template<>
+    void v4coloru_object::test<16>()
+    {
+        U8 r1 = 12, g1 = 123, b1 = 3, a1 = 2;
+        U8 r2 = 23, g2 = 230, b2 = 124, a2 = 255;
+        LLColor4U llcolor4u(r1,g1,b1,a1),llcolor4u1(r2,g2,b2,a2);
+        llcolor4u1 = llcolor4u1.addClampMax(llcolor4u);
+        ensure("1:addClampMax():Fail to add the value ",  ((r1+r2 == llcolor4u1.mV[VX]) && (255 == llcolor4u1.mV[VY]) && (b1+b2 == llcolor4u1.mV[VZ])&& (255 == llcolor4u1.mV[VW])));
+
+        r1 = 132, g1 = 3, b1 = 3, a1 = 2;
+        r2 = 123, g2 = 230, b2 = 154, a2 = 25;
+        LLColor4U llcolor4u2(r1,g1,b1,a1),llcolor4u3(r2,g2,b2,a2);
+        llcolor4u3 = llcolor4u3.addClampMax(llcolor4u2);
+        ensure("2:addClampMax():Fail to add the value ",  ((255 == llcolor4u3.mV[VX]) && (g1+g2 == llcolor4u3.mV[VY]) && (b1+b2 == llcolor4u3.mV[VZ])&& (a1+a2 == llcolor4u3.mV[VW])));
+    }
+
+    template<> template<>
+    void v4coloru_object::test<17>()
+    {
+        F32 r = 23.f, g = 12.32f, b = -12.3f;
+        LLColor3 color3(r,g,b);
+        LLColor4U llcolor4u;
+        llcolor4u.setVecScaleClamp(color3);
+        const S32 MAX_COLOR = 255;
+        F32 color_scale_factor = MAX_COLOR/r;
+        S32 r2 = ll_round(r * color_scale_factor);
+        S32 g2 = ll_round(g * color_scale_factor);
+        ensure("setVecScaleClamp():Fail to add the value ",  ((r2 == llcolor4u.mV[VX]) && (g2 == llcolor4u.mV[VY]) && (0 == llcolor4u.mV[VZ])&& (255 == llcolor4u.mV[VW])));
+    }
 }
diff --git a/indra/llmath/tests/v4math_test.cpp b/indra/llmath/tests/v4math_test.cpp
index 9779dfded3..07099cd417 100644
--- a/indra/llmath/tests/v4math_test.cpp
+++ b/indra/llmath/tests/v4math_test.cpp
@@ -7,25 +7,25 @@
  * $LicenseInfo:firstyear=2007&license=viewerlgpl$
  * Second Life Viewer Source Code
  * Copyright (C) 2010, Linden Research, Inc.
- * 
+ *
  * This library is free software; you can redistribute it and/or
  * modify it under the terms of the GNU Lesser General Public
  * License as published by the Free Software Foundation;
  * version 2.1 of the License only.
- * 
+ *
  * This library is distributed in the hope that it will be useful,
  * but WITHOUT ANY WARRANTY; without even the implied warranty of
  * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the GNU
  * Lesser General Public License for more details.
- * 
+ *
  * You should have received a copy of the GNU Lesser General Public
  * License along with this library; if not, write to the Free Software
  * Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA  02110-1301  USA
- * 
+ *
  * Linden Research, Inc., 945 Battery Street, San Francisco, CA  94111  USA
  * $/LicenseInfo$
  */
- 
+
 #include "linden_common.h"
 #include "../test/lltut.h"
 #include "llsd.h"
@@ -36,348 +36,348 @@
 
 namespace tut
 {
-	struct v4math_data
-	{
-	};
-	typedef test_group<v4math_data> v4math_test;
-	typedef v4math_test::object v4math_object;
-	tut::v4math_test v4math_testcase("v4math_h");
+    struct v4math_data
+    {
+    };
+    typedef test_group<v4math_data> v4math_test;
+    typedef v4math_test::object v4math_object;
+    tut::v4math_test v4math_testcase("v4math_h");
 
-	template<> template<>
-	void v4math_object::test<1>()
-	{
-		LLVector4 vec4;
-		ensure("1:LLVector4:Fail to initialize " ,((0 == vec4.mV[VX]) && (0 == vec4.mV[VY]) && (0 == vec4.mV[VZ])&& (1.0f == vec4.mV[VW])));
-		F32 x = 10.f, y = -2.3f, z = -.023f, w = -2.0f;
-		LLVector4 vec4a(x,y,z);
-		ensure("2:LLVector4:Fail to initialize " ,((x == vec4a.mV[VX]) && (y == vec4a.mV[VY]) && (z == vec4a.mV[VZ])&& (1.0f == vec4a.mV[VW])));
-		LLVector4 vec4b(x,y,z,w);
-		ensure("3:LLVector4:Fail to initialize " ,((x == vec4b.mV[VX]) && (y == vec4b.mV[VY]) && (z == vec4b.mV[VZ])&& (w == vec4b.mV[VW])));
-		const F32 vec[4] = {.112f ,23.2f, -4.2f, -.0001f};
-		LLVector4 vec4c(vec);
-		ensure("4:LLVector4:Fail to initialize " ,((vec[0] == vec4c.mV[VX]) && (vec[1] == vec4c.mV[VY]) && (vec[2] == vec4c.mV[VZ])&& (vec[3] == vec4c.mV[VW])));
-		LLVector3 vec3(-2.23f,1.01f,42.3f);
-		LLVector4 vec4d(vec3);
-		ensure("5:LLVector4:Fail to initialize " ,((vec3.mV[VX] == vec4d.mV[VX]) && (vec3.mV[VY] == vec4d.mV[VY]) && (vec3.mV[VZ] == vec4d.mV[VZ])&& (1.f == vec4d.mV[VW])));
-		F32 w1 = -.234f;
-		LLVector4 vec4e(vec3,w1);
-		ensure("6:LLVector4:Fail to initialize " ,((vec3.mV[VX] == vec4e.mV[VX]) && (vec3.mV[VY] == vec4e.mV[VY]) && (vec3.mV[VZ] == vec4e.mV[VZ])&& (w1 == vec4e.mV[VW])));
-	}
+    template<> template<>
+    void v4math_object::test<1>()
+    {
+        LLVector4 vec4;
+        ensure("1:LLVector4:Fail to initialize " ,((0 == vec4.mV[VX]) && (0 == vec4.mV[VY]) && (0 == vec4.mV[VZ])&& (1.0f == vec4.mV[VW])));
+        F32 x = 10.f, y = -2.3f, z = -.023f, w = -2.0f;
+        LLVector4 vec4a(x,y,z);
+        ensure("2:LLVector4:Fail to initialize " ,((x == vec4a.mV[VX]) && (y == vec4a.mV[VY]) && (z == vec4a.mV[VZ])&& (1.0f == vec4a.mV[VW])));
+        LLVector4 vec4b(x,y,z,w);
+        ensure("3:LLVector4:Fail to initialize " ,((x == vec4b.mV[VX]) && (y == vec4b.mV[VY]) && (z == vec4b.mV[VZ])&& (w == vec4b.mV[VW])));
+        const F32 vec[4] = {.112f ,23.2f, -4.2f, -.0001f};
+        LLVector4 vec4c(vec);
+        ensure("4:LLVector4:Fail to initialize " ,((vec[0] == vec4c.mV[VX]) && (vec[1] == vec4c.mV[VY]) && (vec[2] == vec4c.mV[VZ])&& (vec[3] == vec4c.mV[VW])));
+        LLVector3 vec3(-2.23f,1.01f,42.3f);
+        LLVector4 vec4d(vec3);
+        ensure("5:LLVector4:Fail to initialize " ,((vec3.mV[VX] == vec4d.mV[VX]) && (vec3.mV[VY] == vec4d.mV[VY]) && (vec3.mV[VZ] == vec4d.mV[VZ])&& (1.f == vec4d.mV[VW])));
+        F32 w1 = -.234f;
+        LLVector4 vec4e(vec3,w1);
+        ensure("6:LLVector4:Fail to initialize " ,((vec3.mV[VX] == vec4e.mV[VX]) && (vec3.mV[VY] == vec4e.mV[VY]) && (vec3.mV[VZ] == vec4e.mV[VZ])&& (w1 == vec4e.mV[VW])));
+    }
 
-	template<> template<>
-	void v4math_object::test<2>()
-	{
-		F32 x = 10.f, y = -2.3f, z = -.023f, w = -2.0f;
-		LLVector4 vec4;
-		vec4.setVec(x,y,z);
-		ensure("1:setVec:Fail to initialize " ,((x == vec4.mV[VX]) && (y == vec4.mV[VY]) && (z == vec4.mV[VZ])&& (1.0f == vec4.mV[VW])));
-		vec4.clearVec();
-		ensure("2:clearVec:Fail " ,((0 == vec4.mV[VX]) && (0 == vec4.mV[VY]) && (0 == vec4.mV[VZ])&& (1.0f == vec4.mV[VW])));
-		vec4.setVec(x,y,z,w);
-		ensure("3:setVec:Fail to initialize " ,((x == vec4.mV[VX]) && (y == vec4.mV[VY]) && (z == vec4.mV[VZ])&& (w == vec4.mV[VW])));
-		vec4.zeroVec();
-		ensure("4:zeroVec:Fail " ,((0 == vec4.mV[VX]) && (0 == vec4.mV[VY]) && (0 == vec4.mV[VZ])&& (0 == vec4.mV[VW])));
-		LLVector3 vec3(-2.23f,1.01f,42.3f);
-		vec4.clearVec();
-		vec4.setVec(vec3);
-		ensure("5:setVec:Fail to initialize " ,((vec3.mV[VX] == vec4.mV[VX]) && (vec3.mV[VY] == vec4.mV[VY]) && (vec3.mV[VZ] == vec4.mV[VZ])&& (1.f == vec4.mV[VW])));
-		F32 w1 = -.234f;
-		vec4.zeroVec();
-		vec4.setVec(vec3,w1);
-		ensure("6:setVec:Fail to initialize " ,((vec3.mV[VX] == vec4.mV[VX]) && (vec3.mV[VY] == vec4.mV[VY]) && (vec3.mV[VZ] == vec4.mV[VZ])&& (w1 == vec4.mV[VW])));
-		const F32 vec[4] = {.112f ,23.2f, -4.2f, -.0001f};
-		LLVector4 vec4a;
-		vec4a.setVec(vec);
-		ensure("7:setVec:Fail to initialize " ,((vec[0] == vec4a.mV[VX]) && (vec[1] == vec4a.mV[VY]) && (vec[2] == vec4a.mV[VZ])&& (vec[3] == vec4a.mV[VW])));
-	}
+    template<> template<>
+    void v4math_object::test<2>()
+    {
+        F32 x = 10.f, y = -2.3f, z = -.023f, w = -2.0f;
+        LLVector4 vec4;
+        vec4.setVec(x,y,z);
+        ensure("1:setVec:Fail to initialize " ,((x == vec4.mV[VX]) && (y == vec4.mV[VY]) && (z == vec4.mV[VZ])&& (1.0f == vec4.mV[VW])));
+        vec4.clearVec();
+        ensure("2:clearVec:Fail " ,((0 == vec4.mV[VX]) && (0 == vec4.mV[VY]) && (0 == vec4.mV[VZ])&& (1.0f == vec4.mV[VW])));
+        vec4.setVec(x,y,z,w);
+        ensure("3:setVec:Fail to initialize " ,((x == vec4.mV[VX]) && (y == vec4.mV[VY]) && (z == vec4.mV[VZ])&& (w == vec4.mV[VW])));
+        vec4.zeroVec();
+        ensure("4:zeroVec:Fail " ,((0 == vec4.mV[VX]) && (0 == vec4.mV[VY]) && (0 == vec4.mV[VZ])&& (0 == vec4.mV[VW])));
+        LLVector3 vec3(-2.23f,1.01f,42.3f);
+        vec4.clearVec();
+        vec4.setVec(vec3);
+        ensure("5:setVec:Fail to initialize " ,((vec3.mV[VX] == vec4.mV[VX]) && (vec3.mV[VY] == vec4.mV[VY]) && (vec3.mV[VZ] == vec4.mV[VZ])&& (1.f == vec4.mV[VW])));
+        F32 w1 = -.234f;
+        vec4.zeroVec();
+        vec4.setVec(vec3,w1);
+        ensure("6:setVec:Fail to initialize " ,((vec3.mV[VX] == vec4.mV[VX]) && (vec3.mV[VY] == vec4.mV[VY]) && (vec3.mV[VZ] == vec4.mV[VZ])&& (w1 == vec4.mV[VW])));
+        const F32 vec[4] = {.112f ,23.2f, -4.2f, -.0001f};
+        LLVector4 vec4a;
+        vec4a.setVec(vec);
+        ensure("7:setVec:Fail to initialize " ,((vec[0] == vec4a.mV[VX]) && (vec[1] == vec4a.mV[VY]) && (vec[2] == vec4a.mV[VZ])&& (vec[3] == vec4a.mV[VW])));
+    }
 
-	template<> template<>
-	void v4math_object::test<3>()
-	{
-		F32 x = 10.f, y = -2.3f, z = -.023f;
-		LLVector4 vec4(x,y,z);
-		ensure("magVec:Fail ", is_approx_equal(vec4.magVec(), (F32) sqrt(x*x + y*y + z*z)));
-		ensure("magVecSquared:Fail ", is_approx_equal(vec4.magVecSquared(), (x*x + y*y + z*z)));
-	}
+    template<> template<>
+    void v4math_object::test<3>()
+    {
+        F32 x = 10.f, y = -2.3f, z = -.023f;
+        LLVector4 vec4(x,y,z);
+        ensure("magVec:Fail ", is_approx_equal(vec4.magVec(), (F32) sqrt(x*x + y*y + z*z)));
+        ensure("magVecSquared:Fail ", is_approx_equal(vec4.magVecSquared(), (x*x + y*y + z*z)));
+    }
 
-	template<> template<>
-	void v4math_object::test<4>()
-	{
-		F32 x = 10.f, y = -2.3f, z = -.023f;
-		LLVector4 vec4(x,y,z);
-		F32 mag = vec4.normVec();
-		mag = 1.f/ mag;
-		ensure("1:normVec: Fail " ,is_approx_equal(mag*x,vec4.mV[VX]) && is_approx_equal(mag*y, vec4.mV[VY])&& is_approx_equal(mag*z, vec4.mV[VZ]));
-		x = 0.000000001f, y = 0.000000001f, z = 0.000000001f;
-		vec4.clearVec();
-		vec4.setVec(x,y,z);
-		mag = vec4.normVec();
-		ensure("2:normVec: Fail " ,is_approx_equal(mag*x,vec4.mV[VX]) && is_approx_equal(mag*y, vec4.mV[VY])&& is_approx_equal(mag*z, vec4.mV[VZ]));
-	}
+    template<> template<>
+    void v4math_object::test<4>()
+    {
+        F32 x = 10.f, y = -2.3f, z = -.023f;
+        LLVector4 vec4(x,y,z);
+        F32 mag = vec4.normVec();
+        mag = 1.f/ mag;
+        ensure("1:normVec: Fail " ,is_approx_equal(mag*x,vec4.mV[VX]) && is_approx_equal(mag*y, vec4.mV[VY])&& is_approx_equal(mag*z, vec4.mV[VZ]));
+        x = 0.000000001f, y = 0.000000001f, z = 0.000000001f;
+        vec4.clearVec();
+        vec4.setVec(x,y,z);
+        mag = vec4.normVec();
+        ensure("2:normVec: Fail " ,is_approx_equal(mag*x,vec4.mV[VX]) && is_approx_equal(mag*y, vec4.mV[VY])&& is_approx_equal(mag*z, vec4.mV[VZ]));
+    }
 
-	template<> template<>
-	void v4math_object::test<5>()
-	{
-		F32 x = 10.f, y = -2.3f, z = -.023f, w = -2.0f;
-		LLVector4 vec4(x,y,z,w);
-		vec4.abs();
-		ensure("abs:Fail " ,((x == vec4.mV[VX]) && (-y == vec4.mV[VY]) && (-z == vec4.mV[VZ])&& (-w == vec4.mV[VW])));
-		vec4.clearVec();
-		ensure("isExactlyClear:Fail " ,(TRUE == vec4.isExactlyClear()));
-		vec4.zeroVec();
-		ensure("isExactlyZero:Fail " ,(TRUE == vec4.isExactlyZero()));
-	}
+    template<> template<>
+    void v4math_object::test<5>()
+    {
+        F32 x = 10.f, y = -2.3f, z = -.023f, w = -2.0f;
+        LLVector4 vec4(x,y,z,w);
+        vec4.abs();
+        ensure("abs:Fail " ,((x == vec4.mV[VX]) && (-y == vec4.mV[VY]) && (-z == vec4.mV[VZ])&& (-w == vec4.mV[VW])));
+        vec4.clearVec();
+        ensure("isExactlyClear:Fail " ,(TRUE == vec4.isExactlyClear()));
+        vec4.zeroVec();
+        ensure("isExactlyZero:Fail " ,(TRUE == vec4.isExactlyZero()));
+    }
 
-	template<> template<>
-	void v4math_object::test<6>()
-	{
-		F32 x = 10.f, y = -2.3f, z = -.023f, w = -2.0f;
-		LLVector4 vec4(x,y,z,w),vec4a;
-		vec4a = vec4.scaleVec(vec4);
-		ensure("scaleVec:Fail " ,(is_approx_equal(x*x, vec4a.mV[VX]) && is_approx_equal(y*y, vec4a.mV[VY]) && is_approx_equal(z*z, vec4a.mV[VZ])&& is_approx_equal(w*w, vec4a.mV[VW])));
-	}
+    template<> template<>
+    void v4math_object::test<6>()
+    {
+        F32 x = 10.f, y = -2.3f, z = -.023f, w = -2.0f;
+        LLVector4 vec4(x,y,z,w),vec4a;
+        vec4a = vec4.scaleVec(vec4);
+        ensure("scaleVec:Fail " ,(is_approx_equal(x*x, vec4a.mV[VX]) && is_approx_equal(y*y, vec4a.mV[VY]) && is_approx_equal(z*z, vec4a.mV[VZ])&& is_approx_equal(w*w, vec4a.mV[VW])));
+    }
 
-	template<> template<>
-	void v4math_object::test<7>()
-	{
-		F32 x = 10.f, y = -2.3f, z = -.023f, w = -2.0f;
-		LLVector4 vec4(x,y,z,w);
-		ensure("1:operator [] failed " ,( x ==  vec4[0]));	
-		ensure("2:operator [] failed " ,( y ==  vec4[1]));
-		ensure("3:operator [] failed " ,( z ==  vec4[2]));
-		ensure("4:operator [] failed " ,( w ==  vec4[3]));
-		x = 23.f, y = -.2361f, z = 3.25;
-		vec4.setVec(x,y,z);
-		F32 &ref1 = vec4[0];
-		ensure("5:operator [] failed " ,( ref1 ==  vec4[0]));
-		F32 &ref2 = vec4[1];
-		ensure("6:operator [] failed " ,( ref2 ==  vec4[1]));
-		F32 &ref3 = vec4[2];
-		ensure("7:operator [] failed " ,( ref3 ==  vec4[2]));	
-		F32 &ref4 = vec4[3];
-		ensure("8:operator [] failed " ,( ref4 ==  vec4[3]));
-	}
+    template<> template<>
+    void v4math_object::test<7>()
+    {
+        F32 x = 10.f, y = -2.3f, z = -.023f, w = -2.0f;
+        LLVector4 vec4(x,y,z,w);
+        ensure("1:operator [] failed " ,( x ==  vec4[0]));
+        ensure("2:operator [] failed " ,( y ==  vec4[1]));
+        ensure("3:operator [] failed " ,( z ==  vec4[2]));
+        ensure("4:operator [] failed " ,( w ==  vec4[3]));
+        x = 23.f, y = -.2361f, z = 3.25;
+        vec4.setVec(x,y,z);
+        F32 &ref1 = vec4[0];
+        ensure("5:operator [] failed " ,( ref1 ==  vec4[0]));
+        F32 &ref2 = vec4[1];
+        ensure("6:operator [] failed " ,( ref2 ==  vec4[1]));
+        F32 &ref3 = vec4[2];
+        ensure("7:operator [] failed " ,( ref3 ==  vec4[2]));
+        F32 &ref4 = vec4[3];
+        ensure("8:operator [] failed " ,( ref4 ==  vec4[3]));
+    }
 
-	template<> template<>
-	void v4math_object::test<8>()
-	{
-		F32 x = 10.f, y = -2.3f, z = -.023f, w = -2.0f;
-		const  F32 val[16] = {
+    template<> template<>
+    void v4math_object::test<8>()
+    {
+        F32 x = 10.f, y = -2.3f, z = -.023f, w = -2.0f;
+        const  F32 val[16] = {
             1.f,  2.f,   3.f,    0.f,
             .34f, .1f,   -.5f,   0.f,
             2.f,  1.23f, 1.234f, 0.f,
             .89f, 0.f,   0.f,    0.f
         };
-		LLMatrix4 mat(val);
-		LLVector4 vec4(x,y,z,w),vec4a;
-		vec4.rotVec(mat);
-		vec4a.setVec(x,y,z,w);
-		vec4a.rotVec(mat);
-		ensure_equals("1:rotVec: Fail " ,vec4a, vec4);
-		F32 a = 2.32f, b = -23.2f, c = -34.1112f, d = 1.010112f;
-		LLQuaternion q(a,b,c,d);
-		LLVector4 vec4b(a,b,c,d),vec4c;
-		vec4b.rotVec(q);
-		vec4c.setVec(a, b, c, d);
-		vec4c.rotVec(q);
-		ensure_equals("2:rotVec: Fail " ,vec4b, vec4c);
-	}
-	
-	template<> template<>
-	void v4math_object::test<9>()
-	{
-		F32 x = 10.f, y = -2.3f, z = -.023f, w = -2.0f;
-		LLVector4 vec4(x,y,z,w),vec4a;;
-		std::ostringstream stream1, stream2;
-		stream1 << vec4;
-		vec4a.setVec(x,y,z,w);
-		stream2 << vec4a;
-		ensure("operator << failed",(stream1.str() == stream2.str()));	
-	}
-	
-	template<> template<>
-	void v4math_object::test<10>()
-	{
-		F32 x1 = 1.f, y1 = 2.f, z1 = -1.1f, w1 = .23f;
-		F32 x2 = 1.2f, y2 = 2.5f, z2 = 1.f, w2 = 1.3f;
-		LLVector4 vec4(x1,y1,z1,w1),vec4a(x2,y2,z2,w2),vec4b;
-		vec4b = vec4a + vec4;
-		ensure("1:operator+:Fail to initialize " ,(is_approx_equal(x1+x2,vec4b.mV[VX]) && is_approx_equal(y1+y2,vec4b.mV[VY]) && is_approx_equal(z1+z2,vec4b.mV[VZ])));
-		x1 = -2.45f, y1 = 2.1f, z1 = 3.0f;
-		vec4.clearVec();
-		vec4a.clearVec();
-		vec4.setVec(x1,y1,z1);
-		vec4a +=vec4;
-		ensure_equals("2:operator+=: Fail to initialize", vec4a,vec4);
-		vec4a += vec4;
-		ensure("3:operator+=:Fail to initialize " ,(is_approx_equal(2*x1,vec4a.mV[VX]) && is_approx_equal(2*y1,vec4a.mV[VY]) && is_approx_equal(2*z1,vec4a.mV[VZ])));
-	}
-	template<> template<>
-	void v4math_object::test<11>()
-	{
-		F32 x1 = 1.f, y1 = 2.f, z1 = -1.1f, w1 = .23f;
-		F32 x2 = 1.2f, y2 = 2.5f, z2 = 1.f, w2 = 1.3f;
-		LLVector4 vec4(x1,y1,z1,w1),vec4a(x2,y2,z2,w2),vec4b;
-		vec4b = vec4a - vec4;
-		ensure("1:operator-:Fail to initialize " ,(is_approx_equal(x2-x1,vec4b.mV[VX]) && is_approx_equal(y2-y1,vec4b.mV[VY]) && is_approx_equal(z2-z1,vec4b.mV[VZ])));
-		x1 = -2.45f, y1 = 2.1f, z1 = 3.0f;
-		vec4.clearVec();
-		vec4a.clearVec();
-		vec4.setVec(x1,y1,z1);
-		vec4a -=vec4;
-		ensure_equals("2:operator-=: Fail to initialize" , vec4a,-vec4);
-		vec4a -=vec4;
-		ensure("3:operator-=:Fail to initialize " ,(is_approx_equal(-2*x1,vec4a.mV[VX]) && is_approx_equal(-2*y1,vec4a.mV[VY]) && is_approx_equal(-2*z1,vec4a.mV[VZ])));
-	}
+        LLMatrix4 mat(val);
+        LLVector4 vec4(x,y,z,w),vec4a;
+        vec4.rotVec(mat);
+        vec4a.setVec(x,y,z,w);
+        vec4a.rotVec(mat);
+        ensure_equals("1:rotVec: Fail " ,vec4a, vec4);
+        F32 a = 2.32f, b = -23.2f, c = -34.1112f, d = 1.010112f;
+        LLQuaternion q(a,b,c,d);
+        LLVector4 vec4b(a,b,c,d),vec4c;
+        vec4b.rotVec(q);
+        vec4c.setVec(a, b, c, d);
+        vec4c.rotVec(q);
+        ensure_equals("2:rotVec: Fail " ,vec4b, vec4c);
+    }
+
+    template<> template<>
+    void v4math_object::test<9>()
+    {
+        F32 x = 10.f, y = -2.3f, z = -.023f, w = -2.0f;
+        LLVector4 vec4(x,y,z,w),vec4a;;
+        std::ostringstream stream1, stream2;
+        stream1 << vec4;
+        vec4a.setVec(x,y,z,w);
+        stream2 << vec4a;
+        ensure("operator << failed",(stream1.str() == stream2.str()));
+    }
+
+    template<> template<>
+    void v4math_object::test<10>()
+    {
+        F32 x1 = 1.f, y1 = 2.f, z1 = -1.1f, w1 = .23f;
+        F32 x2 = 1.2f, y2 = 2.5f, z2 = 1.f, w2 = 1.3f;
+        LLVector4 vec4(x1,y1,z1,w1),vec4a(x2,y2,z2,w2),vec4b;
+        vec4b = vec4a + vec4;
+        ensure("1:operator+:Fail to initialize " ,(is_approx_equal(x1+x2,vec4b.mV[VX]) && is_approx_equal(y1+y2,vec4b.mV[VY]) && is_approx_equal(z1+z2,vec4b.mV[VZ])));
+        x1 = -2.45f, y1 = 2.1f, z1 = 3.0f;
+        vec4.clearVec();
+        vec4a.clearVec();
+        vec4.setVec(x1,y1,z1);
+        vec4a +=vec4;
+        ensure_equals("2:operator+=: Fail to initialize", vec4a,vec4);
+        vec4a += vec4;
+        ensure("3:operator+=:Fail to initialize " ,(is_approx_equal(2*x1,vec4a.mV[VX]) && is_approx_equal(2*y1,vec4a.mV[VY]) && is_approx_equal(2*z1,vec4a.mV[VZ])));
+    }
+    template<> template<>
+    void v4math_object::test<11>()
+    {
+        F32 x1 = 1.f, y1 = 2.f, z1 = -1.1f, w1 = .23f;
+        F32 x2 = 1.2f, y2 = 2.5f, z2 = 1.f, w2 = 1.3f;
+        LLVector4 vec4(x1,y1,z1,w1),vec4a(x2,y2,z2,w2),vec4b;
+        vec4b = vec4a - vec4;
+        ensure("1:operator-:Fail to initialize " ,(is_approx_equal(x2-x1,vec4b.mV[VX]) && is_approx_equal(y2-y1,vec4b.mV[VY]) && is_approx_equal(z2-z1,vec4b.mV[VZ])));
+        x1 = -2.45f, y1 = 2.1f, z1 = 3.0f;
+        vec4.clearVec();
+        vec4a.clearVec();
+        vec4.setVec(x1,y1,z1);
+        vec4a -=vec4;
+        ensure_equals("2:operator-=: Fail to initialize" , vec4a,-vec4);
+        vec4a -=vec4;
+        ensure("3:operator-=:Fail to initialize " ,(is_approx_equal(-2*x1,vec4a.mV[VX]) && is_approx_equal(-2*y1,vec4a.mV[VY]) && is_approx_equal(-2*z1,vec4a.mV[VZ])));
+    }
 
-	template<> template<>
-	void v4math_object::test<12>()
-	{
-		F32 x1 = 1.f, y1 = 2.f, z1 = -1.1f;
-		F32 x2 = 1.2f, y2 = 2.5f, z2 = 1.f;
-		LLVector4 vec4(x1,y1,z1),vec4a(x2,y2,z2);
-		F32 res = vec4 * vec4a;
-		ensure("1:operator* failed " ,is_approx_equal(res, x1*x2 + y1*y2 + z1*z2));
-		vec4a.clearVec();
-		F32 mulVal = 4.2f;
-		vec4a = vec4 * mulVal;
-		ensure("2:operator* failed " ,is_approx_equal(x1*mulVal,vec4a.mV[VX]) && is_approx_equal(y1*mulVal, vec4a.mV[VY])&& is_approx_equal(z1*mulVal, vec4a.mV[VZ]));
-		vec4a.clearVec();
-		vec4a = mulVal *  vec4 ;
-		ensure("3:operator* failed " ,is_approx_equal(x1*mulVal, vec4a.mV[VX]) && is_approx_equal(y1*mulVal, vec4a.mV[VY])&& is_approx_equal(z1*mulVal, vec4a.mV[VZ]));
-		vec4 *= mulVal;
-		ensure("4:operator*= failed " ,is_approx_equal(x1*mulVal, vec4.mV[VX]) && is_approx_equal(y1*mulVal, vec4.mV[VY])&& is_approx_equal(z1*mulVal, vec4.mV[VZ]));
-	}
+    template<> template<>
+    void v4math_object::test<12>()
+    {
+        F32 x1 = 1.f, y1 = 2.f, z1 = -1.1f;
+        F32 x2 = 1.2f, y2 = 2.5f, z2 = 1.f;
+        LLVector4 vec4(x1,y1,z1),vec4a(x2,y2,z2);
+        F32 res = vec4 * vec4a;
+        ensure("1:operator* failed " ,is_approx_equal(res, x1*x2 + y1*y2 + z1*z2));
+        vec4a.clearVec();
+        F32 mulVal = 4.2f;
+        vec4a = vec4 * mulVal;
+        ensure("2:operator* failed " ,is_approx_equal(x1*mulVal,vec4a.mV[VX]) && is_approx_equal(y1*mulVal, vec4a.mV[VY])&& is_approx_equal(z1*mulVal, vec4a.mV[VZ]));
+        vec4a.clearVec();
+        vec4a = mulVal *  vec4 ;
+        ensure("3:operator* failed " ,is_approx_equal(x1*mulVal, vec4a.mV[VX]) && is_approx_equal(y1*mulVal, vec4a.mV[VY])&& is_approx_equal(z1*mulVal, vec4a.mV[VZ]));
+        vec4 *= mulVal;
+        ensure("4:operator*= failed " ,is_approx_equal(x1*mulVal, vec4.mV[VX]) && is_approx_equal(y1*mulVal, vec4.mV[VY])&& is_approx_equal(z1*mulVal, vec4.mV[VZ]));
+    }
 
-	template<> template<>
-	void v4math_object::test<13>()
-	{
-		F32 x1 = 1.f, y1 = 2.f, z1 = -1.1f;
-		F32 x2 = 1.2f, y2 = 2.5f, z2 = 1.f;
-		LLVector4 vec4(x1,y1,z1),vec4a(x2,y2,z2),vec4b;
-		vec4b = vec4 % vec4a;
-		ensure("1:operator% failed " ,is_approx_equal(y1*z2 - y2*z1, vec4b.mV[VX]) && is_approx_equal(z1*x2 -z2*x1, vec4b.mV[VY]) && is_approx_equal(x1*y2-x2*y1, vec4b.mV[VZ])); 
-		vec4 %= vec4a;
-		ensure_equals("operator%= failed " ,vec4,vec4b); 
-	}
+    template<> template<>
+    void v4math_object::test<13>()
+    {
+        F32 x1 = 1.f, y1 = 2.f, z1 = -1.1f;
+        F32 x2 = 1.2f, y2 = 2.5f, z2 = 1.f;
+        LLVector4 vec4(x1,y1,z1),vec4a(x2,y2,z2),vec4b;
+        vec4b = vec4 % vec4a;
+        ensure("1:operator% failed " ,is_approx_equal(y1*z2 - y2*z1, vec4b.mV[VX]) && is_approx_equal(z1*x2 -z2*x1, vec4b.mV[VY]) && is_approx_equal(x1*y2-x2*y1, vec4b.mV[VZ]));
+        vec4 %= vec4a;
+        ensure_equals("operator%= failed " ,vec4,vec4b);
+    }
 
-	template<> template<>
-	void v4math_object::test<14>()
-	{
-		F32 x = 1.f, y = 2.f, z = -1.1f,div = 4.2f;
-		F32 t = 1.f / div;
-		LLVector4 vec4(x,y,z), vec4a;
-		vec4a = vec4/div;
-		ensure("1:operator/ failed " ,is_approx_equal(x*t, vec4a.mV[VX]) && is_approx_equal(y*t, vec4a.mV[VY])&& is_approx_equal(z*t, vec4a.mV[VZ]));
-		x = 1.23f, y = 4.f, z = -2.32f;
-		vec4.clearVec();
-		vec4a.clearVec();
-		vec4.setVec(x,y,z);
-		vec4a = vec4/div;
-		ensure("2:operator/ failed " ,is_approx_equal(x*t, vec4a.mV[VX]) && is_approx_equal(y*t, vec4a.mV[VY])&& is_approx_equal(z*t, vec4a.mV[VZ]));
-		vec4 /= div;
-		ensure("3:operator/ failed " ,is_approx_equal(x*t, vec4.mV[VX]) && is_approx_equal(y*t, vec4.mV[VY])&& is_approx_equal(z*t, vec4.mV[VZ]));
-	}
+    template<> template<>
+    void v4math_object::test<14>()
+    {
+        F32 x = 1.f, y = 2.f, z = -1.1f,div = 4.2f;
+        F32 t = 1.f / div;
+        LLVector4 vec4(x,y,z), vec4a;
+        vec4a = vec4/div;
+        ensure("1:operator/ failed " ,is_approx_equal(x*t, vec4a.mV[VX]) && is_approx_equal(y*t, vec4a.mV[VY])&& is_approx_equal(z*t, vec4a.mV[VZ]));
+        x = 1.23f, y = 4.f, z = -2.32f;
+        vec4.clearVec();
+        vec4a.clearVec();
+        vec4.setVec(x,y,z);
+        vec4a = vec4/div;
+        ensure("2:operator/ failed " ,is_approx_equal(x*t, vec4a.mV[VX]) && is_approx_equal(y*t, vec4a.mV[VY])&& is_approx_equal(z*t, vec4a.mV[VZ]));
+        vec4 /= div;
+        ensure("3:operator/ failed " ,is_approx_equal(x*t, vec4.mV[VX]) && is_approx_equal(y*t, vec4.mV[VY])&& is_approx_equal(z*t, vec4.mV[VZ]));
+    }
 
-	template<> template<>
-	void v4math_object::test<15>()
-	{
-		F32 x = 1.f, y = 2.f, z = -1.1f;
-		LLVector4 vec4(x,y,z), vec4a;
-		ensure("operator!= failed " ,(vec4 != vec4a));
-		vec4a = vec4;
-		ensure("operator== failed " ,(vec4 ==vec4a)); 
-	}
+    template<> template<>
+    void v4math_object::test<15>()
+    {
+        F32 x = 1.f, y = 2.f, z = -1.1f;
+        LLVector4 vec4(x,y,z), vec4a;
+        ensure("operator!= failed " ,(vec4 != vec4a));
+        vec4a = vec4;
+        ensure("operator== failed " ,(vec4 ==vec4a));
+    }
 
-	template<> template<>
-	void v4math_object::test<16>()
-	{
-		F32 x = 1.f, y = 2.f, z = -1.1f;
-		LLVector4 vec4(x,y,z), vec4a;
-		vec4a = - vec4;
-		ensure("operator- failed " , (vec4 == - vec4a));	
-	}
+    template<> template<>
+    void v4math_object::test<16>()
+    {
+        F32 x = 1.f, y = 2.f, z = -1.1f;
+        LLVector4 vec4(x,y,z), vec4a;
+        vec4a = - vec4;
+        ensure("operator- failed " , (vec4 == - vec4a));
+    }
 
-	template<> template<>
-	void v4math_object::test<17>()
-	{
-		F32 x = 1.f, y = 2.f, z = -1.1f,epsilon = .23425f;
-		LLVector4 vec4(x,y,z), vec4a(x,y,z);
-		ensure("1:are_parallel: Fail " ,(TRUE == are_parallel(vec4a,vec4,epsilon)));
-		x = 21.f, y = 12.f, z = -123.1f;
-		vec4a.clearVec();
-		vec4a.setVec(x,y,z);
-		ensure("2:are_parallel: Fail " ,(FALSE == are_parallel(vec4a,vec4,epsilon)));
-	}
+    template<> template<>
+    void v4math_object::test<17>()
+    {
+        F32 x = 1.f, y = 2.f, z = -1.1f,epsilon = .23425f;
+        LLVector4 vec4(x,y,z), vec4a(x,y,z);
+        ensure("1:are_parallel: Fail " ,(TRUE == are_parallel(vec4a,vec4,epsilon)));
+        x = 21.f, y = 12.f, z = -123.1f;
+        vec4a.clearVec();
+        vec4a.setVec(x,y,z);
+        ensure("2:are_parallel: Fail " ,(FALSE == are_parallel(vec4a,vec4,epsilon)));
+    }
 
-	template<> template<>
-	void v4math_object::test<18>()
-	{
-		F32 x = 1.f, y = 2.f, z = -1.1f;
-		F32 angle1, angle2;
-		LLVector4 vec4(x,y,z), vec4a(x,y,z);
-		angle1 = angle_between(vec4, vec4a);
-		vec4.normVec();
-		vec4a.normVec();
-		angle2 = acos(vec4 * vec4a);
-		ensure_approximately_equals("1:angle_between: Fail " ,angle1,angle2,8);
-		F32 x1 = 21.f, y1 = 2.23f, z1 = -1.1f;
-		LLVector4 vec4b(x,y,z), vec4c(x1,y1,z1);
-		angle1 = angle_between(vec4b, vec4c);
-		vec4b.normVec();
-		vec4c.normVec();
-		angle2 = acos(vec4b * vec4c);
-		ensure_approximately_equals("2:angle_between: Fail " ,angle1,angle2,8);
-	}
+    template<> template<>
+    void v4math_object::test<18>()
+    {
+        F32 x = 1.f, y = 2.f, z = -1.1f;
+        F32 angle1, angle2;
+        LLVector4 vec4(x,y,z), vec4a(x,y,z);
+        angle1 = angle_between(vec4, vec4a);
+        vec4.normVec();
+        vec4a.normVec();
+        angle2 = acos(vec4 * vec4a);
+        ensure_approximately_equals("1:angle_between: Fail " ,angle1,angle2,8);
+        F32 x1 = 21.f, y1 = 2.23f, z1 = -1.1f;
+        LLVector4 vec4b(x,y,z), vec4c(x1,y1,z1);
+        angle1 = angle_between(vec4b, vec4c);
+        vec4b.normVec();
+        vec4c.normVec();
+        angle2 = acos(vec4b * vec4c);
+        ensure_approximately_equals("2:angle_between: Fail " ,angle1,angle2,8);
+    }
 
-	template<> template<>
-	void v4math_object::test<19>()
-	{
-		F32 x1 =-2.3f, y1 = 2.f,z1 = 1.2f, x2 = 1.3f, y2 = 1.f, z2 = 1.f;
-		F32 val1,val2;
-		LLVector4 vec4(x1,y1,z1),vec4a(x2,y2,z2);
-		val1 = dist_vec(vec4,vec4a);
-		val2 = (F32) sqrt((x1 - x2)*(x1 - x2) + (y1 - y2)* (y1 - y2) + (z1 - z2)* (z1 -z2));
-		ensure_equals("dist_vec: Fail ",val2, val1);
-		val1 = dist_vec_squared(vec4,vec4a);
-		val2 =((x1 - x2)*(x1 - x2) + (y1 - y2)* (y1 - y2) + (z1 - z2)* (z1 -z2));
-		ensure_equals("dist_vec_squared: Fail ",val2, val1);
-	}
+    template<> template<>
+    void v4math_object::test<19>()
+    {
+        F32 x1 =-2.3f, y1 = 2.f,z1 = 1.2f, x2 = 1.3f, y2 = 1.f, z2 = 1.f;
+        F32 val1,val2;
+        LLVector4 vec4(x1,y1,z1),vec4a(x2,y2,z2);
+        val1 = dist_vec(vec4,vec4a);
+        val2 = (F32) sqrt((x1 - x2)*(x1 - x2) + (y1 - y2)* (y1 - y2) + (z1 - z2)* (z1 -z2));
+        ensure_equals("dist_vec: Fail ",val2, val1);
+        val1 = dist_vec_squared(vec4,vec4a);
+        val2 =((x1 - x2)*(x1 - x2) + (y1 - y2)* (y1 - y2) + (z1 - z2)* (z1 -z2));
+        ensure_equals("dist_vec_squared: Fail ",val2, val1);
+    }
 
-	template<> template<>
-	void v4math_object::test<20>()
-	{
-		F32 x1 =-2.3f, y1 = 2.f,z1 = 1.2f, w1 = -.23f, x2 = 1.3f, y2 = 1.f, z2 = 1.f,w2 = .12f;
-		F32 val = 2.3f,val1,val2,val3,val4;
-		LLVector4 vec4(x1,y1,z1,w1),vec4a(x2,y2,z2,w2);
-		val1 = x1 + (x2 - x1)* val;
-		val2 = y1 + (y2 - y1)* val;
-		val3 = z1 + (z2 - z1)* val;
-		val4 = w1 + (w2 - w1)* val;
-		LLVector4 vec4b = lerp(vec4,vec4a,val);
-		LLVector4 check(val1, val2, val3, val4);
-		ensure_equals("lerp failed", check, vec4b);
-	}
+    template<> template<>
+    void v4math_object::test<20>()
+    {
+        F32 x1 =-2.3f, y1 = 2.f,z1 = 1.2f, w1 = -.23f, x2 = 1.3f, y2 = 1.f, z2 = 1.f,w2 = .12f;
+        F32 val = 2.3f,val1,val2,val3,val4;
+        LLVector4 vec4(x1,y1,z1,w1),vec4a(x2,y2,z2,w2);
+        val1 = x1 + (x2 - x1)* val;
+        val2 = y1 + (y2 - y1)* val;
+        val3 = z1 + (z2 - z1)* val;
+        val4 = w1 + (w2 - w1)* val;
+        LLVector4 vec4b = lerp(vec4,vec4a,val);
+        LLVector4 check(val1, val2, val3, val4);
+        ensure_equals("lerp failed", check, vec4b);
+    }
 
-	template<> template<>
-	void v4math_object::test<21>()
-	{
-		F32 x = 1.f, y = 2.f, z = -1.1f;
-		LLVector4 vec4(x,y,z);
-		LLVector3 vec3 = vec4to3(vec4);
-		ensure("vec4to3 failed", ((x == vec3.mV[VX])&& (y == vec3.mV[VY]) && (z == vec3.mV[VZ])));	
-		LLVector4 vec4a = vec3to4(vec3);
-		ensure_equals("vec3to4 failed",vec4a,vec4);	
-	}
+    template<> template<>
+    void v4math_object::test<21>()
+    {
+        F32 x = 1.f, y = 2.f, z = -1.1f;
+        LLVector4 vec4(x,y,z);
+        LLVector3 vec3 = vec4to3(vec4);
+        ensure("vec4to3 failed", ((x == vec3.mV[VX])&& (y == vec3.mV[VY]) && (z == vec3.mV[VZ])));
+        LLVector4 vec4a = vec3to4(vec3);
+        ensure_equals("vec3to4 failed",vec4a,vec4);
+    }
 
-	template<> template<>
-	void v4math_object::test<22>()
-	{
-		F32 x = 1.f, y = 2.f, z = -1.1f;
-		LLVector4 vec4(x,y,z);
-		LLSD llsd = vec4.getValue();
-		LLVector3 vec3(llsd);
-		LLVector4 vec4a = vec3to4(vec3);
-		ensure_equals("getValue failed",vec4a,vec4);	
-	}		
+    template<> template<>
+    void v4math_object::test<22>()
+    {
+        F32 x = 1.f, y = 2.f, z = -1.1f;
+        LLVector4 vec4(x,y,z);
+        LLSD llsd = vec4.getValue();
+        LLVector3 vec3(llsd);
+        LLVector4 vec4a = vec3to4(vec3);
+        ensure_equals("getValue failed",vec4a,vec4);
+    }
 }
diff --git a/indra/llmath/tests/xform_test.cpp b/indra/llmath/tests/xform_test.cpp
index 49870eef3c..ad56cdb15c 100644
--- a/indra/llmath/tests/xform_test.cpp
+++ b/indra/llmath/tests/xform_test.cpp
@@ -1,27 +1,27 @@
-/** 
+/**
  * @file xform_test.cpp
  * @author Adroit
- * @date March 2007 
+ * @date March 2007
  * @brief Test cases for LLXform
  *
  * $LicenseInfo:firstyear=2007&license=viewerlgpl$
  * Second Life Viewer Source Code
  * Copyright (C) 2010, Linden Research, Inc.
- * 
+ *
  * This library is free software; you can redistribute it and/or
  * modify it under the terms of the GNU Lesser General Public
  * License as published by the Free Software Foundation;
  * version 2.1 of the License only.
- * 
+ *
  * This library is distributed in the hope that it will be useful,
  * but WITHOUT ANY WARRANTY; without even the implied warranty of
  * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the GNU
  * Lesser General Public License for more details.
- * 
+ *
  * You should have received a copy of the GNU Lesser General Public
  * License along with this library; if not, write to the Free Software
  * Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA  02110-1301  USA
- * 
+ *
  * Linden Research, Inc., 945 Battery Street, San Francisco, CA  94111  USA
  * $/LicenseInfo$
  */
@@ -33,213 +33,213 @@
 
 namespace tut
 {
-	struct xform_test
-	{
-	};
-	typedef test_group<xform_test> xform_test_t;
-	typedef xform_test_t::object xform_test_object_t;
-	tut::xform_test_t tut_xform_test("LLXForm");
-
-	//test case for init(), getParent(), getRotation(), getPositionW(), getWorldRotation() fns.
-	template<> template<>
-	void xform_test_object_t::test<1>()
-	{
-		LLXform xform_obj;
-		LLVector3 emptyVec(0.f,0.f,0.f);
-		LLVector3 initialScaleVec(1.f,1.f,1.f);
-
-		ensure("LLXform empty constructor failed: ", !xform_obj.getParent() && !xform_obj.isChanged() &&
-			xform_obj.getPosition() == emptyVec && 
-			(xform_obj.getRotation()).isIdentity() &&
-			xform_obj.getScale() == initialScaleVec && 
-			xform_obj.getPositionW() == emptyVec && 
-			(xform_obj.getWorldRotation()).isIdentity() &&
-			!xform_obj.getScaleChildOffset());
-	}
-
-	// test cases for 
-	// setScale(const LLVector3& scale) 
-	// setScale(const F32 x, const F32 y, const F32 z)
-	// setRotation(const F32 x, const F32 y, const F32 z) 
-	// setPosition(const F32 x, const F32 y, const F32 z) 
-	// getLocalMat4(LLMatrix4 &mat)
-	template<> template<>
-	void xform_test_object_t::test<2>()	
-	{
-		LLMatrix4 llmat4;
-		LLXform xform_obj;
-
-		F32 x = 3.6f;
-		F32 y = 5.5f;
-		F32 z = 4.2f;
-		F32 w = 0.f;
-		F32 posz = z + 2.122f;
-		LLVector3 vec(x, y, z);
-		xform_obj.setScale(x, y, z);
-		xform_obj.setPosition(x, y, posz);
-		ensure("setScale failed: ", xform_obj.getScale() == vec);
-
-		vec.setVec(x, y, posz);
-		ensure("getPosition failed: ", xform_obj.getPosition() == vec);
-
-		x = x * 2.f;
-		y = y + 2.3f;
-		z = posz * 4.f; 
-		vec.setVec(x, y, z);
-		xform_obj.setPositionX(x);
-		xform_obj.setPositionY(y);
-		xform_obj.setPositionZ(z);
-		ensure("setPositionX/Y/Z failed: ", xform_obj.getPosition() == vec);
-
-		xform_obj.setScaleChildOffset(TRUE);
-		ensure("setScaleChildOffset failed: ", xform_obj.getScaleChildOffset());
-
-		vec.setVec(x, y, z);
-
-		xform_obj.addPosition(vec);
-		vec += vec;
-		ensure("addPosition failed: ", xform_obj.getPosition() == vec);
-
-		xform_obj.setScale(vec);
-		ensure("setScale vector failed: ", xform_obj.getScale() == vec);
-
-		LLQuaternion quat(x, y, z, w);
-		xform_obj.setRotation(quat);
-		ensure("setRotation quat failed: ", xform_obj.getRotation() == quat);
-
-		xform_obj.setRotation(x, y, z, w);
-		ensure("getRotation 2 failed: ", xform_obj.getRotation() == quat);
-
-		xform_obj.setRotation(x, y, z);
-		quat.setQuat(x,y,z); 
-		ensure("setRotation xyz failed: ", xform_obj.getRotation() == quat);
-
-		// LLXform::setRotation(const F32 x, const F32 y, const F32 z) 
-		//		Does normalization
-		// LLXform::setRotation(const F32 x, const F32 y, const F32 z, const F32 s) 
-		//		Simply copies the individual values - does not do any normalization. 
-		// Is that the expected behavior?
-	}
-
-	// test cases for inline BOOL setParent(LLXform *parent) and getParent() fn.
-	template<> template<>
-	void xform_test_object_t::test<3>()	
-	{		
-		LLXform xform_obj;
-		LLXform par;
-		LLXform grandpar;
-		xform_obj.setParent(&par); 
-		par.setParent(&grandpar); 
-		ensure("setParent/getParent failed: ", &par == xform_obj.getParent());
-		ensure("getRoot failed: ", &grandpar == xform_obj.getRoot());
-		ensure("isRoot failed: ", grandpar.isRoot() && !par.isRoot() && !xform_obj.isRoot());
-		ensure("isRootEdit failed: ", grandpar.isRootEdit() && !par.isRootEdit() && !xform_obj.isRootEdit());
-	}
-
-	template<> template<>
-	void xform_test_object_t::test<4>()	
-	{
-		LLXform xform_obj;
-		xform_obj.setChanged(LLXform::TRANSLATED | LLXform::ROTATED | LLXform::SCALED);
-		ensure("setChanged/isChanged failed: ", xform_obj.isChanged());
-
-		xform_obj.clearChanged(LLXform::TRANSLATED | LLXform::ROTATED | LLXform::SCALED);
-		ensure("clearChanged failed: ", !xform_obj.isChanged());
-		
-		LLVector3 llvect3(12.4f, -5.6f, 0.34f);
-		xform_obj.setScale(llvect3);
-		ensure("setScale did not set SCALED flag: ", xform_obj.isChanged(LLXform::SCALED));
-		xform_obj.setPosition(1.2f, 2.3f, 3.4f);
-		ensure("setScale did not set TRANSLATED flag: ", xform_obj.isChanged(LLXform::TRANSLATED));
-		ensure("TRANSLATED reset SCALED flag: ", xform_obj.isChanged(LLXform::TRANSLATED | LLXform::SCALED));
-		xform_obj.clearChanged(LLXform::SCALED);
-		ensure("reset SCALED failed: ", !xform_obj.isChanged(LLXform::SCALED));
-		xform_obj.setRotation(1, 2, 3, 4);
-		ensure("ROTATION flag not set ", xform_obj.isChanged(LLXform::TRANSLATED | LLXform::ROTATED));
-		xform_obj.setScale(llvect3);
-		ensure("ROTATION flag not set ", xform_obj.isChanged(LLXform::MOVED));
-	}
-
-	//to test init() and getWorldMatrix() fns.
-	template<> template<>
-	void xform_test_object_t::test<5>()	
-	{
-		LLXformMatrix formMatrix_obj;
-		formMatrix_obj.init();
-		LLMatrix4 mat4_obj;
-		
-		ensure("1. The value is not NULL", 1.f == formMatrix_obj.getWorldMatrix().mMatrix[0][0]);
-		ensure("2. The value is not NULL", 0.f == formMatrix_obj.getWorldMatrix().mMatrix[0][1]);
-		ensure("3. The value is not NULL", 0.f == formMatrix_obj.getWorldMatrix().mMatrix[0][2]);
-		ensure("4. The value is not NULL", 0.f == formMatrix_obj.getWorldMatrix().mMatrix[0][3]);
-		ensure("5. The value is not NULL", 0.f == formMatrix_obj.getWorldMatrix().mMatrix[1][0]);
-		ensure("6. The value is not NULL", 1.f == formMatrix_obj.getWorldMatrix().mMatrix[1][1]);
-		ensure("7. The value is not NULL", 0.f == formMatrix_obj.getWorldMatrix().mMatrix[1][2]);
-		ensure("8. The value is not NULL", 0.f == formMatrix_obj.getWorldMatrix().mMatrix[1][3]);
-		ensure("9. The value is not NULL", 0.f == formMatrix_obj.getWorldMatrix().mMatrix[2][0]);
-		ensure("10. The value is not NULL", 0.f == formMatrix_obj.getWorldMatrix().mMatrix[2][1]);
-		ensure("11. The value is not NULL", 1.f == formMatrix_obj.getWorldMatrix().mMatrix[2][2]);
-		ensure("12. The value is not NULL", 0.f == formMatrix_obj.getWorldMatrix().mMatrix[2][3]);
-		ensure("13. The value is not NULL", 0.f == formMatrix_obj.getWorldMatrix().mMatrix[3][0]);
-		ensure("14. The value is not NULL", 0.f == formMatrix_obj.getWorldMatrix().mMatrix[3][1]);
-		ensure("15. The value is not NULL", 0.f == formMatrix_obj.getWorldMatrix().mMatrix[3][2]);
-		ensure("16. The value is not NULL", 1.f == formMatrix_obj.getWorldMatrix().mMatrix[3][3]);
-	}
-
-	//to test mMin.clearVec() and mMax.clearVec() fns
-	template<> template<>
-	void xform_test_object_t::test<6>()	
-	{
-		LLXformMatrix formMatrix_obj;
-		formMatrix_obj.init();
-		LLVector3 llmin_vec3;
-		LLVector3 llmax_vec3;
-		formMatrix_obj.getMinMax(llmin_vec3, llmax_vec3);
-		ensure("1. The value is not NULL", 0.f == llmin_vec3.mV[0]);
-		ensure("2. The value is not NULL", 0.f == llmin_vec3.mV[1]);
-		ensure("3. The value is not NULL", 0.f == llmin_vec3.mV[2]);
-		ensure("4. The value is not NULL", 0.f == llmin_vec3.mV[0]);
-		ensure("5. The value is not NULL", 0.f == llmin_vec3.mV[1]);
-		ensure("6. The value is not NULL", 0.f == llmin_vec3.mV[2]);
-	}
-
-	//test case of update() fn.
-	template<> template<>
-	void xform_test_object_t::test<7>()	
-	{
-		LLXformMatrix formMatrix_obj;
-
-		LLXformMatrix parent;
-		LLVector3 llvecpos(1.0, 2.0, 3.0);
-		LLVector3 llvecpospar(10.0, 20.0, 30.0);
-		formMatrix_obj.setPosition(llvecpos);
-		parent.setPosition(llvecpospar);
-
-		LLVector3 llvecparentscale(1.0, 2.0, 0);
-		parent.setScaleChildOffset(TRUE);
-		parent.setScale(llvecparentscale);
-
-		LLQuaternion quat(1, 2, 3, 4);
-		LLQuaternion quatparent(5, 6, 7, 8);
-		formMatrix_obj.setRotation(quat);
-		parent.setRotation(quatparent);
-		formMatrix_obj.setParent(&parent);
-
-		parent.update();
-		formMatrix_obj.update();
-
-		LLVector3 worldPos = llvecpos;
-		worldPos.scaleVec(llvecparentscale);
-		worldPos *= quatparent;
-		worldPos += llvecpospar;
-
-		LLQuaternion worldRot = quat * quatparent; 
-
-		ensure("getWorldPosition failed: ", formMatrix_obj.getWorldPosition() == worldPos);
-		ensure("getWorldRotation failed: ", formMatrix_obj.getWorldRotation() == worldRot);
-
-		ensure("getWorldPosition for parent failed: ", parent.getWorldPosition() == llvecpospar);
-		ensure("getWorldRotation for parent failed: ", parent.getWorldRotation() == quatparent);
-	}
-}	
+    struct xform_test
+    {
+    };
+    typedef test_group<xform_test> xform_test_t;
+    typedef xform_test_t::object xform_test_object_t;
+    tut::xform_test_t tut_xform_test("LLXForm");
+
+    //test case for init(), getParent(), getRotation(), getPositionW(), getWorldRotation() fns.
+    template<> template<>
+    void xform_test_object_t::test<1>()
+    {
+        LLXform xform_obj;
+        LLVector3 emptyVec(0.f,0.f,0.f);
+        LLVector3 initialScaleVec(1.f,1.f,1.f);
+
+        ensure("LLXform empty constructor failed: ", !xform_obj.getParent() && !xform_obj.isChanged() &&
+            xform_obj.getPosition() == emptyVec &&
+            (xform_obj.getRotation()).isIdentity() &&
+            xform_obj.getScale() == initialScaleVec &&
+            xform_obj.getPositionW() == emptyVec &&
+            (xform_obj.getWorldRotation()).isIdentity() &&
+            !xform_obj.getScaleChildOffset());
+    }
+
+    // test cases for
+    // setScale(const LLVector3& scale)
+    // setScale(const F32 x, const F32 y, const F32 z)
+    // setRotation(const F32 x, const F32 y, const F32 z)
+    // setPosition(const F32 x, const F32 y, const F32 z)
+    // getLocalMat4(LLMatrix4 &mat)
+    template<> template<>
+    void xform_test_object_t::test<2>()
+    {
+        LLMatrix4 llmat4;
+        LLXform xform_obj;
+
+        F32 x = 3.6f;
+        F32 y = 5.5f;
+        F32 z = 4.2f;
+        F32 w = 0.f;
+        F32 posz = z + 2.122f;
+        LLVector3 vec(x, y, z);
+        xform_obj.setScale(x, y, z);
+        xform_obj.setPosition(x, y, posz);
+        ensure("setScale failed: ", xform_obj.getScale() == vec);
+
+        vec.setVec(x, y, posz);
+        ensure("getPosition failed: ", xform_obj.getPosition() == vec);
+
+        x = x * 2.f;
+        y = y + 2.3f;
+        z = posz * 4.f;
+        vec.setVec(x, y, z);
+        xform_obj.setPositionX(x);
+        xform_obj.setPositionY(y);
+        xform_obj.setPositionZ(z);
+        ensure("setPositionX/Y/Z failed: ", xform_obj.getPosition() == vec);
+
+        xform_obj.setScaleChildOffset(TRUE);
+        ensure("setScaleChildOffset failed: ", xform_obj.getScaleChildOffset());
+
+        vec.setVec(x, y, z);
+
+        xform_obj.addPosition(vec);
+        vec += vec;
+        ensure("addPosition failed: ", xform_obj.getPosition() == vec);
+
+        xform_obj.setScale(vec);
+        ensure("setScale vector failed: ", xform_obj.getScale() == vec);
+
+        LLQuaternion quat(x, y, z, w);
+        xform_obj.setRotation(quat);
+        ensure("setRotation quat failed: ", xform_obj.getRotation() == quat);
+
+        xform_obj.setRotation(x, y, z, w);
+        ensure("getRotation 2 failed: ", xform_obj.getRotation() == quat);
+
+        xform_obj.setRotation(x, y, z);
+        quat.setQuat(x,y,z);
+        ensure("setRotation xyz failed: ", xform_obj.getRotation() == quat);
+
+        // LLXform::setRotation(const F32 x, const F32 y, const F32 z)
+        //      Does normalization
+        // LLXform::setRotation(const F32 x, const F32 y, const F32 z, const F32 s)
+        //      Simply copies the individual values - does not do any normalization.
+        // Is that the expected behavior?
+    }
+
+    // test cases for inline BOOL setParent(LLXform *parent) and getParent() fn.
+    template<> template<>
+    void xform_test_object_t::test<3>()
+    {
+        LLXform xform_obj;
+        LLXform par;
+        LLXform grandpar;
+        xform_obj.setParent(&par);
+        par.setParent(&grandpar);
+        ensure("setParent/getParent failed: ", &par == xform_obj.getParent());
+        ensure("getRoot failed: ", &grandpar == xform_obj.getRoot());
+        ensure("isRoot failed: ", grandpar.isRoot() && !par.isRoot() && !xform_obj.isRoot());
+        ensure("isRootEdit failed: ", grandpar.isRootEdit() && !par.isRootEdit() && !xform_obj.isRootEdit());
+    }
+
+    template<> template<>
+    void xform_test_object_t::test<4>()
+    {
+        LLXform xform_obj;
+        xform_obj.setChanged(LLXform::TRANSLATED | LLXform::ROTATED | LLXform::SCALED);
+        ensure("setChanged/isChanged failed: ", xform_obj.isChanged());
+
+        xform_obj.clearChanged(LLXform::TRANSLATED | LLXform::ROTATED | LLXform::SCALED);
+        ensure("clearChanged failed: ", !xform_obj.isChanged());
+
+        LLVector3 llvect3(12.4f, -5.6f, 0.34f);
+        xform_obj.setScale(llvect3);
+        ensure("setScale did not set SCALED flag: ", xform_obj.isChanged(LLXform::SCALED));
+        xform_obj.setPosition(1.2f, 2.3f, 3.4f);
+        ensure("setScale did not set TRANSLATED flag: ", xform_obj.isChanged(LLXform::TRANSLATED));
+        ensure("TRANSLATED reset SCALED flag: ", xform_obj.isChanged(LLXform::TRANSLATED | LLXform::SCALED));
+        xform_obj.clearChanged(LLXform::SCALED);
+        ensure("reset SCALED failed: ", !xform_obj.isChanged(LLXform::SCALED));
+        xform_obj.setRotation(1, 2, 3, 4);
+        ensure("ROTATION flag not set ", xform_obj.isChanged(LLXform::TRANSLATED | LLXform::ROTATED));
+        xform_obj.setScale(llvect3);
+        ensure("ROTATION flag not set ", xform_obj.isChanged(LLXform::MOVED));
+    }
+
+    //to test init() and getWorldMatrix() fns.
+    template<> template<>
+    void xform_test_object_t::test<5>()
+    {
+        LLXformMatrix formMatrix_obj;
+        formMatrix_obj.init();
+        LLMatrix4 mat4_obj;
+
+        ensure("1. The value is not NULL", 1.f == formMatrix_obj.getWorldMatrix().mMatrix[0][0]);
+        ensure("2. The value is not NULL", 0.f == formMatrix_obj.getWorldMatrix().mMatrix[0][1]);
+        ensure("3. The value is not NULL", 0.f == formMatrix_obj.getWorldMatrix().mMatrix[0][2]);
+        ensure("4. The value is not NULL", 0.f == formMatrix_obj.getWorldMatrix().mMatrix[0][3]);
+        ensure("5. The value is not NULL", 0.f == formMatrix_obj.getWorldMatrix().mMatrix[1][0]);
+        ensure("6. The value is not NULL", 1.f == formMatrix_obj.getWorldMatrix().mMatrix[1][1]);
+        ensure("7. The value is not NULL", 0.f == formMatrix_obj.getWorldMatrix().mMatrix[1][2]);
+        ensure("8. The value is not NULL", 0.f == formMatrix_obj.getWorldMatrix().mMatrix[1][3]);
+        ensure("9. The value is not NULL", 0.f == formMatrix_obj.getWorldMatrix().mMatrix[2][0]);
+        ensure("10. The value is not NULL", 0.f == formMatrix_obj.getWorldMatrix().mMatrix[2][1]);
+        ensure("11. The value is not NULL", 1.f == formMatrix_obj.getWorldMatrix().mMatrix[2][2]);
+        ensure("12. The value is not NULL", 0.f == formMatrix_obj.getWorldMatrix().mMatrix[2][3]);
+        ensure("13. The value is not NULL", 0.f == formMatrix_obj.getWorldMatrix().mMatrix[3][0]);
+        ensure("14. The value is not NULL", 0.f == formMatrix_obj.getWorldMatrix().mMatrix[3][1]);
+        ensure("15. The value is not NULL", 0.f == formMatrix_obj.getWorldMatrix().mMatrix[3][2]);
+        ensure("16. The value is not NULL", 1.f == formMatrix_obj.getWorldMatrix().mMatrix[3][3]);
+    }
+
+    //to test mMin.clearVec() and mMax.clearVec() fns
+    template<> template<>
+    void xform_test_object_t::test<6>()
+    {
+        LLXformMatrix formMatrix_obj;
+        formMatrix_obj.init();
+        LLVector3 llmin_vec3;
+        LLVector3 llmax_vec3;
+        formMatrix_obj.getMinMax(llmin_vec3, llmax_vec3);
+        ensure("1. The value is not NULL", 0.f == llmin_vec3.mV[0]);
+        ensure("2. The value is not NULL", 0.f == llmin_vec3.mV[1]);
+        ensure("3. The value is not NULL", 0.f == llmin_vec3.mV[2]);
+        ensure("4. The value is not NULL", 0.f == llmin_vec3.mV[0]);
+        ensure("5. The value is not NULL", 0.f == llmin_vec3.mV[1]);
+        ensure("6. The value is not NULL", 0.f == llmin_vec3.mV[2]);
+    }
+
+    //test case of update() fn.
+    template<> template<>
+    void xform_test_object_t::test<7>()
+    {
+        LLXformMatrix formMatrix_obj;
+
+        LLXformMatrix parent;
+        LLVector3 llvecpos(1.0, 2.0, 3.0);
+        LLVector3 llvecpospar(10.0, 20.0, 30.0);
+        formMatrix_obj.setPosition(llvecpos);
+        parent.setPosition(llvecpospar);
+
+        LLVector3 llvecparentscale(1.0, 2.0, 0);
+        parent.setScaleChildOffset(TRUE);
+        parent.setScale(llvecparentscale);
+
+        LLQuaternion quat(1, 2, 3, 4);
+        LLQuaternion quatparent(5, 6, 7, 8);
+        formMatrix_obj.setRotation(quat);
+        parent.setRotation(quatparent);
+        formMatrix_obj.setParent(&parent);
+
+        parent.update();
+        formMatrix_obj.update();
+
+        LLVector3 worldPos = llvecpos;
+        worldPos.scaleVec(llvecparentscale);
+        worldPos *= quatparent;
+        worldPos += llvecpospar;
+
+        LLQuaternion worldRot = quat * quatparent;
+
+        ensure("getWorldPosition failed: ", formMatrix_obj.getWorldPosition() == worldPos);
+        ensure("getWorldRotation failed: ", formMatrix_obj.getWorldRotation() == worldRot);
+
+        ensure("getWorldPosition for parent failed: ", parent.getWorldPosition() == llvecpospar);
+        ensure("getWorldRotation for parent failed: ", parent.getWorldRotation() == quatparent);
+    }
+}