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-rw-r--r--indra/llmath/llvolume.cpp2843
-rw-r--r--indra/llmath/llvolume.h2212
-rw-r--r--indra/llmath/llvolumeoctree.h70
3 files changed, 3423 insertions, 1702 deletions
diff --git a/indra/llmath/llvolume.cpp b/indra/llmath/llvolume.cpp
index 316eed679d..617a8b4ca3 100644
--- a/indra/llmath/llvolume.cpp
+++ b/indra/llmath/llvolume.cpp
@@ -1,4 +1,5 @@
/**
+
* @file llvolume.cpp
*
* $LicenseInfo:firstyear=2002&license=viewerlgpl$
@@ -24,9 +25,13 @@
*/
#include "linden_common.h"
+#include "llmemory.h"
#include "llmath.h"
#include <set>
+#if !LL_WINDOWS
+#include <stdint.h>
+#endif
#include "llerror.h"
#include "llmemtype.h"
@@ -37,9 +42,15 @@
#include "v4math.h"
#include "m4math.h"
#include "m3math.h"
+#include "llmatrix3a.h"
+#include "lloctree.h"
#include "lldarray.h"
#include "llvolume.h"
+#include "llvolumeoctree.h"
#include "llstl.h"
+#include "llsdserialize.h"
+#include "llvector4a.h"
+#include "llmatrix4a.h"
#define DEBUG_SILHOUETTE_BINORMALS 0
#define DEBUG_SILHOUETTE_NORMALS 0 // TomY: Use this to display normals using the silhouette
@@ -80,7 +91,18 @@ const F32 SKEW_MAX = 0.95f;
const F32 SCULPT_MIN_AREA = 0.002f;
const S32 SCULPT_MIN_AREA_DETAIL = 1;
-#define GEN_TRI_STRIP 0
+extern BOOL gDebugGL;
+
+void assert_aligned(void* ptr, uintptr_t alignment)
+{
+#if 0
+ uintptr_t t = (uintptr_t) ptr;
+ if (t%alignment != 0)
+ {
+ llerrs << "WTF?" << llendl;
+ }
+#endif
+}
BOOL check_same_clock_dir( const LLVector3& pt1, const LLVector3& pt2, const LLVector3& pt3, const LLVector3& norm)
{
@@ -99,128 +121,262 @@ BOOL check_same_clock_dir( const LLVector3& pt1, const LLVector3& pt2, const LLV
BOOL LLLineSegmentBoxIntersect(const LLVector3& start, const LLVector3& end, const LLVector3& center, const LLVector3& size)
{
- float fAWdU[3];
- LLVector3 dir;
- LLVector3 diff;
+ return LLLineSegmentBoxIntersect(start.mV, end.mV, center.mV, size.mV);
+}
+
+BOOL LLLineSegmentBoxIntersect(const F32* start, const F32* end, const F32* center, const F32* size)
+{
+ F32 fAWdU[3];
+ F32 dir[3];
+ F32 diff[3];
for (U32 i = 0; i < 3; i++)
{
- dir.mV[i] = 0.5f * (end.mV[i] - start.mV[i]);
- diff.mV[i] = (0.5f * (end.mV[i] + start.mV[i])) - center.mV[i];
- fAWdU[i] = fabsf(dir.mV[i]);
- if(fabsf(diff.mV[i])>size.mV[i] + fAWdU[i]) return false;
+ dir[i] = 0.5f * (end[i] - start[i]);
+ diff[i] = (0.5f * (end[i] + start[i])) - center[i];
+ fAWdU[i] = fabsf(dir[i]);
+ if(fabsf(diff[i])>size[i] + fAWdU[i]) return false;
}
float f;
- f = dir.mV[1] * diff.mV[2] - dir.mV[2] * diff.mV[1]; if(fabsf(f)>size.mV[1]*fAWdU[2] + size.mV[2]*fAWdU[1]) return false;
- f = dir.mV[2] * diff.mV[0] - dir.mV[0] * diff.mV[2]; if(fabsf(f)>size.mV[0]*fAWdU[2] + size.mV[2]*fAWdU[0]) return false;
- f = dir.mV[0] * diff.mV[1] - dir.mV[1] * diff.mV[0]; if(fabsf(f)>size.mV[0]*fAWdU[1] + size.mV[1]*fAWdU[0]) return false;
+ f = dir[1] * diff[2] - dir[2] * diff[1]; if(fabsf(f)>size[1]*fAWdU[2] + size[2]*fAWdU[1]) return false;
+ f = dir[2] * diff[0] - dir[0] * diff[2]; if(fabsf(f)>size[0]*fAWdU[2] + size[2]*fAWdU[0]) return false;
+ f = dir[0] * diff[1] - dir[1] * diff[0]; if(fabsf(f)>size[0]*fAWdU[1] + size[1]*fAWdU[0]) return false;
return true;
}
+
// intersect test between triangle vert0, vert1, vert2 and a ray from orig in direction dir.
// returns TRUE if intersecting and returns barycentric coordinates in intersection_a, intersection_b,
// and returns the intersection point along dir in intersection_t.
// Moller-Trumbore algorithm
-BOOL LLTriangleRayIntersect(const LLVector3& vert0, const LLVector3& vert1, const LLVector3& vert2, const LLVector3& orig, const LLVector3& dir,
- F32* intersection_a, F32* intersection_b, F32* intersection_t, BOOL two_sided)
+BOOL LLTriangleRayIntersect(const LLVector4a& vert0, const LLVector4a& vert1, const LLVector4a& vert2, const LLVector4a& orig, const LLVector4a& dir,
+ F32& intersection_a, F32& intersection_b, F32& intersection_t)
{
- F32 u, v, t;
/* find vectors for two edges sharing vert0 */
- LLVector3 edge1 = vert1 - vert0;
+ LLVector4a edge1;
+ edge1.setSub(vert1, vert0);
- LLVector3 edge2 = vert2 - vert0;;
+ LLVector4a edge2;
+ edge2.setSub(vert2, vert0);
/* begin calculating determinant - also used to calculate U parameter */
- LLVector3 pvec = dir % edge2;
-
- /* if determinant is near zero, ray lies in plane of triangle */
- F32 det = edge1 * pvec;
+ LLVector4a pvec;
+ pvec.setCross3(dir, edge2);
- if (!two_sided)
+ /* if determinant is near zero, ray lies in plane of triangle */
+ LLVector4a det;
+ det.setAllDot3(edge1, pvec);
+
+ if (det.greaterEqual(LLVector4a::getEpsilon()).getGatheredBits() & 0x7)
{
- if (det < F_APPROXIMATELY_ZERO)
- {
- return FALSE;
- }
-
/* calculate distance from vert0 to ray origin */
- LLVector3 tvec = orig - vert0;
+ LLVector4a tvec;
+ tvec.setSub(orig, vert0);
/* calculate U parameter and test bounds */
- u = tvec * pvec;
+ LLVector4a u;
+ u.setAllDot3(tvec,pvec);
- if (u < 0.f || u > det)
+ if ((u.greaterEqual(LLVector4a::getZero()).getGatheredBits() & 0x7) &&
+ (u.lessEqual(det).getGatheredBits() & 0x7))
{
- return FALSE;
+ /* prepare to test V parameter */
+ LLVector4a qvec;
+ qvec.setCross3(tvec, edge1);
+
+ /* calculate V parameter and test bounds */
+ LLVector4a v;
+ v.setAllDot3(dir, qvec);
+
+
+ //if (!(v < 0.f || u + v > det))
+
+ LLVector4a sum_uv;
+ sum_uv.setAdd(u, v);
+
+ S32 v_gequal = v.greaterEqual(LLVector4a::getZero()).getGatheredBits() & 0x7;
+ S32 sum_lequal = sum_uv.lessEqual(det).getGatheredBits() & 0x7;
+
+ if (v_gequal && sum_lequal)
+ {
+ /* calculate t, scale parameters, ray intersects triangle */
+ LLVector4a t;
+ t.setAllDot3(edge2,qvec);
+
+ t.div(det);
+ u.div(det);
+ v.div(det);
+
+ intersection_a = u[0];
+ intersection_b = v[0];
+ intersection_t = t[0];
+ return TRUE;
+ }
}
-
- /* prepare to test V parameter */
- LLVector3 qvec = tvec % edge1;
+ }
- /* calculate V parameter and test bounds */
- v = dir * qvec;
- if (v < 0.f || u + v > det)
- {
- return FALSE;
- }
+ return FALSE;
+}
- /* calculate t, scale parameters, ray intersects triangle */
- t = edge2 * qvec;
- F32 inv_det = 1.0 / det;
- t *= inv_det;
- u *= inv_det;
- v *= inv_det;
- }
+BOOL LLTriangleRayIntersectTwoSided(const LLVector4a& vert0, const LLVector4a& vert1, const LLVector4a& vert2, const LLVector4a& orig, const LLVector4a& dir,
+ F32& intersection_a, F32& intersection_b, F32& intersection_t)
+{
+ F32 u, v, t;
- else // two sided
- {
- if (det > -F_APPROXIMATELY_ZERO && det < F_APPROXIMATELY_ZERO)
- {
- return FALSE;
- }
- F32 inv_det = 1.0 / det;
+ /* find vectors for two edges sharing vert0 */
+ LLVector4a edge1;
+ edge1.setSub(vert1, vert0);
+
+
+ LLVector4a edge2;
+ edge2.setSub(vert2, vert0);
- /* calculate distance from vert0 to ray origin */
- LLVector3 tvec = orig - vert0;
-
- /* calculate U parameter and test bounds */
- u = (tvec * pvec) * inv_det;
- if (u < 0.f || u > 1.f)
- {
- return FALSE;
- }
+ /* begin calculating determinant - also used to calculate U parameter */
+ LLVector4a pvec;
+ pvec.setCross3(dir, edge2);
- /* prepare to test V parameter */
- LLVector3 qvec = tvec - edge1;
-
- /* calculate V parameter and test bounds */
- v = (dir * qvec) * inv_det;
-
- if (v < 0.f || u + v > 1.f)
- {
- return FALSE;
- }
+ /* if determinant is near zero, ray lies in plane of triangle */
+ F32 det = edge1.dot3(pvec).getF32();
- /* calculate t, ray intersects triangle */
- t = (edge2 * qvec) * inv_det;
+
+ if (det > -F_APPROXIMATELY_ZERO && det < F_APPROXIMATELY_ZERO)
+ {
+ return FALSE;
+ }
+
+ F32 inv_det = 1.f / det;
+
+ /* calculate distance from vert0 to ray origin */
+ LLVector4a tvec;
+ tvec.setSub(orig, vert0);
+
+ /* calculate U parameter and test bounds */
+ u = (tvec.dot3(pvec).getF32()) * inv_det;
+ if (u < 0.f || u > 1.f)
+ {
+ return FALSE;
+ }
+
+ /* prepare to test V parameter */
+ tvec.sub(edge1);
+
+ /* calculate V parameter and test bounds */
+ v = (dir.dot3(tvec).getF32()) * inv_det;
+
+ if (v < 0.f || u + v > 1.f)
+ {
+ return FALSE;
}
+
+ /* calculate t, ray intersects triangle */
+ t = (edge2.dot3(tvec).getF32()) * inv_det;
- if (intersection_a != NULL)
- *intersection_a = u;
- if (intersection_b != NULL)
- *intersection_b = v;
- if (intersection_t != NULL)
- *intersection_t = t;
+ intersection_a = u;
+ intersection_b = v;
+ intersection_t = t;
return TRUE;
}
+//helper for non-aligned vectors
+BOOL LLTriangleRayIntersect(const LLVector3& vert0, const LLVector3& vert1, const LLVector3& vert2, const LLVector3& orig, const LLVector3& dir,
+ F32& intersection_a, F32& intersection_b, F32& intersection_t, BOOL two_sided)
+{
+ LLVector4a vert0a, vert1a, vert2a, origa, dira;
+ vert0a.load3(vert0.mV);
+ vert1a.load3(vert1.mV);
+ vert2a.load3(vert2.mV);
+ origa.load3(orig.mV);
+ dira.load3(dir.mV);
+
+ if (two_sided)
+ {
+ return LLTriangleRayIntersectTwoSided(vert0a, vert1a, vert2a, origa, dira,
+ intersection_a, intersection_b, intersection_t);
+ }
+ else
+ {
+ return LLTriangleRayIntersect(vert0a, vert1a, vert2a, origa, dira,
+ intersection_a, intersection_b, intersection_t);
+ }
+}
+
+class LLVolumeOctreeRebound : public LLOctreeTravelerDepthFirst<LLVolumeTriangle>
+{
+public:
+ const LLVolumeFace* mFace;
+
+ LLVolumeOctreeRebound(const LLVolumeFace* face)
+ {
+ mFace = face;
+ }
+
+ virtual void visit(const LLOctreeNode<LLVolumeTriangle>* branch)
+ { //this is a depth first traversal, so it's safe to assum all children have complete
+ //bounding data
+
+ LLVolumeOctreeListener* node = (LLVolumeOctreeListener*) branch->getListener(0);
+
+ LLVector4a& min = node->mExtents[0];
+ LLVector4a& max = node->mExtents[1];
+
+ if (!branch->getData().empty())
+ { //node has data, find AABB that binds data set
+ const LLVolumeTriangle* tri = *(branch->getData().begin());
+
+ //initialize min/max to first available vertex
+ min = *(tri->mV[0]);
+ max = *(tri->mV[0]);
+
+ for (LLOctreeNode<LLVolumeTriangle>::const_element_iter iter =
+ branch->getData().begin(); iter != branch->getData().end(); ++iter)
+ { //for each triangle in node
+
+ //stretch by triangles in node
+ tri = *iter;
+
+ min.setMin(min, *tri->mV[0]);
+ min.setMin(min, *tri->mV[1]);
+ min.setMin(min, *tri->mV[2]);
+
+ max.setMax(max, *tri->mV[0]);
+ max.setMax(max, *tri->mV[1]);
+ max.setMax(max, *tri->mV[2]);
+ }
+ }
+ else if (!branch->getChildren().empty())
+ { //no data, but child nodes exist
+ LLVolumeOctreeListener* child = (LLVolumeOctreeListener*) branch->getChild(0)->getListener(0);
+
+ //initialize min/max to extents of first child
+ min = child->mExtents[0];
+ max = child->mExtents[1];
+ }
+ else
+ {
+ llerrs << "WTF? Empty leaf" << llendl;
+ }
+
+ for (S32 i = 0; i < branch->getChildCount(); ++i)
+ { //stretch by child extents
+ LLVolumeOctreeListener* child = (LLVolumeOctreeListener*) branch->getChild(i)->getListener(0);
+ min.setMin(min, child->mExtents[0]);
+ max.setMax(max, child->mExtents[1]);
+ }
+
+ node->mBounds[0].setAdd(min, max);
+ node->mBounds[0].mul(0.5f);
+
+ node->mBounds[1].setSub(max,min);
+ node->mBounds[1].mul(0.5f);
+ }
+};
//-------------------------------------------------------------------
// statics
@@ -1669,7 +1825,13 @@ LLVolume::LLVolume(const LLVolumeParams &params, const F32 detail, const BOOL ge
mFaceMask = 0x0;
mDetail = detail;
mSculptLevel = -2;
-
+ mIsTetrahedron = FALSE;
+ mLODScaleBias.setVec(1,1,1);
+ mHullPoints = NULL;
+ mHullIndices = NULL;
+ mNumHullPoints = 0;
+ mNumHullIndices = 0;
+
// set defaults
if (mParams.getPathParams().getCurveType() == LL_PCODE_PATH_FLEXIBLE)
{
@@ -1684,7 +1846,8 @@ LLVolume::LLVolume(const LLVolumeParams &params, const F32 detail, const BOOL ge
mGenerateSingleFace = generate_single_face;
generate();
- if (mParams.getSculptID().isNull() && params.getSculptType() == LL_SCULPT_TYPE_NONE)
+
+ if (mParams.getSculptID().isNull() && mParams.getSculptType() == LL_SCULPT_TYPE_NONE)
{
createVolumeFaces();
}
@@ -1719,6 +1882,11 @@ LLVolume::~LLVolume()
mPathp = NULL;
mProfilep = NULL;
mVolumeFaces.clear();
+
+ free(mHullPoints);
+ mHullPoints = NULL;
+ free(mHullIndices);
+ mHullIndices = NULL;
}
BOOL LLVolume::generate()
@@ -1835,6 +2003,617 @@ BOOL LLVolume::generate()
return FALSE;
}
+void LLVolumeFace::VertexData::init()
+{
+ if (!mData)
+ {
+ mData = (LLVector4a*) malloc(sizeof(LLVector4a)*2);
+ }
+}
+
+LLVolumeFace::VertexData::VertexData()
+{
+ mData = NULL;
+ init();
+}
+
+LLVolumeFace::VertexData::VertexData(const VertexData& rhs)
+{
+ mData = NULL;
+ *this = rhs;
+}
+
+const LLVolumeFace::VertexData& LLVolumeFace::VertexData::operator=(const LLVolumeFace::VertexData& rhs)
+{
+ if (this != &rhs)
+ {
+ init();
+ LLVector4a::memcpyNonAliased16((F32*) mData, (F32*) rhs.mData, 2*sizeof(LLVector4a));
+ mTexCoord = rhs.mTexCoord;
+ }
+ return *this;
+}
+
+LLVolumeFace::VertexData::~VertexData()
+{
+ free(mData);
+ mData = NULL;
+}
+
+LLVector4a& LLVolumeFace::VertexData::getPosition()
+{
+ return mData[POSITION];
+}
+
+LLVector4a& LLVolumeFace::VertexData::getNormal()
+{
+ return mData[NORMAL];
+}
+
+const LLVector4a& LLVolumeFace::VertexData::getPosition() const
+{
+ return mData[POSITION];
+}
+
+const LLVector4a& LLVolumeFace::VertexData::getNormal() const
+{
+ return mData[NORMAL];
+}
+
+
+void LLVolumeFace::VertexData::setPosition(const LLVector4a& pos)
+{
+ mData[POSITION] = pos;
+}
+
+void LLVolumeFace::VertexData::setNormal(const LLVector4a& norm)
+{
+ mData[NORMAL] = norm;
+}
+
+bool LLVolumeFace::VertexData::operator<(const LLVolumeFace::VertexData& rhs)const
+{
+ const F32* lp = this->getPosition().getF32ptr();
+ const F32* rp = rhs.getPosition().getF32ptr();
+
+ if (lp[0] != rp[0])
+ {
+ return lp[0] < rp[0];
+ }
+
+ if (rp[1] != lp[1])
+ {
+ return lp[1] < rp[1];
+ }
+
+ if (rp[2] != lp[2])
+ {
+ return lp[2] < rp[2];
+ }
+
+ lp = getNormal().getF32ptr();
+ rp = rhs.getNormal().getF32ptr();
+
+ if (lp[0] != rp[0])
+ {
+ return lp[0] < rp[0];
+ }
+
+ if (rp[1] != lp[1])
+ {
+ return lp[1] < rp[1];
+ }
+
+ if (rp[2] != lp[2])
+ {
+ return lp[2] < rp[2];
+ }
+
+ if (mTexCoord.mV[0] != rhs.mTexCoord.mV[0])
+ {
+ return mTexCoord.mV[0] < rhs.mTexCoord.mV[0];
+ }
+
+ return mTexCoord.mV[1] < rhs.mTexCoord.mV[1];
+}
+
+bool LLVolumeFace::VertexData::operator==(const LLVolumeFace::VertexData& rhs)const
+{
+ return mData[POSITION].equals3(rhs.getPosition()) &&
+ mData[NORMAL].equals3(rhs.getNormal()) &&
+ mTexCoord == rhs.mTexCoord;
+}
+
+bool LLVolumeFace::VertexData::compareNormal(const LLVolumeFace::VertexData& rhs, F32 angle_cutoff) const
+{
+ bool retval = false;
+ if (rhs.mData[POSITION].equals3(mData[POSITION]) && rhs.mTexCoord == mTexCoord)
+ {
+ if (angle_cutoff > 1.f)
+ {
+ retval = (mData[NORMAL].equals3(rhs.mData[NORMAL]));
+ }
+ else
+ {
+ F32 cur_angle = rhs.mData[NORMAL].dot3(mData[NORMAL]).getF32();
+ retval = cur_angle > angle_cutoff;
+ }
+ }
+
+ return retval;
+}
+
+BOOL LLVolume::createVolumeFacesFromFile(const std::string& file_name)
+{
+ std::ifstream is;
+
+ is.open(file_name.c_str(), std::ifstream::in | std::ifstream::binary);
+
+ BOOL success = createVolumeFacesFromStream(is);
+
+ is.close();
+
+ return success;
+}
+
+BOOL LLVolume::createVolumeFacesFromStream(std::istream& is)
+{
+ mSculptLevel = -1; // default is an error occured
+
+ LLSD header;
+ {
+ if (!LLSDSerialize::deserialize(header, is, 1024*1024*1024))
+ {
+ llwarns << "Mesh header parse error. Not a valid mesh asset!" << llendl;
+ return FALSE;
+ }
+ }
+
+ std::string nm[] =
+ {
+ "lowest_lod",
+ "low_lod",
+ "medium_lod",
+ "high_lod"
+ };
+
+ S32 lod = llclamp((S32) mDetail, 0, 3);
+
+ while (lod < 4 &&
+ (header[nm[lod]]["offset"].asInteger() == -1 ||
+ header[nm[lod]]["size"].asInteger() == 0 ))
+ {
+ ++lod;
+ }
+
+ if (lod >= 4)
+ {
+ lod = llclamp((S32) mDetail, 0, 3);
+
+ while (lod >= 0 &&
+ (header[nm[lod]]["offset"].asInteger() == -1 ||
+ header[nm[lod]]["size"].asInteger() == 0) )
+ {
+ --lod;
+ }
+
+ if (lod < 0)
+ {
+ llwarns << "Mesh header missing LOD offsets. Not a valid mesh asset!" << llendl;
+ return FALSE;
+ }
+ }
+
+ is.seekg(header[nm[lod]]["offset"].asInteger(), std::ios_base::cur);
+
+ return unpackVolumeFaces(is, header[nm[lod]]["size"].asInteger());
+}
+
+bool LLVolume::unpackVolumeFaces(std::istream& is, S32 size)
+{
+ //input stream is now pointing at a zlib compressed block of LLSD
+ //decompress block
+ LLSD mdl;
+ if (!unzip_llsd(mdl, is, size))
+ {
+ llwarns << "not a valid mesh asset!" << llendl;
+ return false;
+ }
+
+ {
+ U32 face_count = mdl.size();
+
+ if (face_count == 0)
+ {
+ llerrs << "WTF?" << llendl;
+ }
+
+ mVolumeFaces.resize(face_count);
+
+ for (U32 i = 0; i < face_count; ++i)
+ {
+ LLSD::Binary pos = mdl[i]["Position"];
+ LLSD::Binary norm = mdl[i]["Normal"];
+ LLSD::Binary tc = mdl[i]["TexCoord0"];
+ LLSD::Binary idx = mdl[i]["TriangleList"];
+
+ LLVolumeFace& face = mVolumeFaces[i];
+
+ //copy out indices
+ face.resizeIndices(idx.size()/2);
+
+ if (idx.empty() || face.mNumIndices < 3)
+ { //why is there an empty index list?
+ llerrs <<"WTF?" << llendl;
+ continue;
+ }
+
+ U16* indices = (U16*) &(idx[0]);
+ for (U32 j = 0; j < idx.size()/2; ++j)
+ {
+ face.mIndices[j] = indices[j];
+ }
+
+ //copy out vertices
+ U32 num_verts = pos.size()/(3*2);
+ face.resizeVertices(num_verts);
+
+ if (mdl[i].has("Weights"))
+ {
+ face.allocateWeights(num_verts);
+
+ LLSD::Binary weights = mdl[i]["Weights"];
+
+ U32 idx = 0;
+
+ U32 cur_vertex = 0;
+ while (idx < weights.size() && cur_vertex < num_verts)
+ {
+ const U8 END_INFLUENCES = 0xFF;
+ U8 joint = weights[idx++];
+
+ U32 cur_influence = 0;
+ LLVector4 wght(0,0,0,0);
+
+ while (joint != END_INFLUENCES && idx < weights.size())
+ {
+ U16 influence = weights[idx++];
+ influence |= ((U16) weights[idx++] << 8);
+
+ F32 w = llclamp((F32) influence / 65535.f, 0.f, 0.99999f);
+ wght.mV[cur_influence++] = (F32) joint + w;
+
+ if (cur_influence >= 4)
+ {
+ joint = END_INFLUENCES;
+ }
+ else
+ {
+ joint = weights[idx++];
+ }
+ }
+
+ face.mWeights[cur_vertex].loadua(wght.mV);
+
+ cur_vertex++;
+ }
+
+ if (cur_vertex != num_verts || idx != weights.size())
+ {
+ llwarns << "Vertex weight count does not match vertex count!" << llendl;
+ }
+
+ }
+
+ LLVector3 minp;
+ LLVector3 maxp;
+ LLVector2 min_tc;
+ LLVector2 max_tc;
+
+ minp.setValue(mdl[i]["PositionDomain"]["Min"]);
+ maxp.setValue(mdl[i]["PositionDomain"]["Max"]);
+ LLVector4a min_pos, max_pos;
+ min_pos.load3(minp.mV);
+ max_pos.load3(maxp.mV);
+
+ min_tc.setValue(mdl[i]["TexCoord0Domain"]["Min"]);
+ max_tc.setValue(mdl[i]["TexCoord0Domain"]["Max"]);
+
+ LLVector4a pos_range;
+ pos_range.setSub(max_pos, min_pos);
+ LLVector2 tc_range = max_tc - min_tc;
+
+ LLVector4a* pos_out = face.mPositions;
+ LLVector4a* norm_out = face.mNormals;
+ LLVector2* tc_out = face.mTexCoords;
+
+ for (U32 j = 0; j < num_verts; ++j)
+ {
+ U16* v = (U16*) &(pos[j*3*2]);
+
+ pos_out->set((F32) v[0], (F32) v[1], (F32) v[2]);
+ pos_out->div(65535.f);
+ pos_out->mul(pos_range);
+ pos_out->add(min_pos);
+
+ pos_out++;
+
+ U16* n = (U16*) &(norm[j*3*2]);
+
+ norm_out->set((F32) n[0], (F32) n[1], (F32) n[2]);
+ norm_out->div(65535.f);
+ norm_out->mul(2.f);
+ norm_out->sub(1.f);
+ norm_out++;
+
+ U16* t = (U16*) &(tc[j*2*2]);
+
+ tc_out->mV[0] = (F32) t[0] / 65535.f * tc_range.mV[0] + min_tc.mV[0];
+ tc_out->mV[1] = (F32) t[1] / 65535.f * tc_range.mV[1] + min_tc.mV[1];
+
+ tc_out++;
+ }
+
+
+ // modifier flags?
+ bool do_mirror = (mParams.getSculptType() & LL_SCULPT_FLAG_MIRROR);
+ bool do_invert = (mParams.getSculptType() &LL_SCULPT_FLAG_INVERT);
+
+
+ // translate to actions:
+ bool do_reflect_x = false;
+ bool do_reverse_triangles = false;
+ bool do_invert_normals = false;
+
+ if (do_mirror)
+ {
+ do_reflect_x = true;
+ do_reverse_triangles = !do_reverse_triangles;
+ }
+
+ if (do_invert)
+ {
+ do_invert_normals = true;
+ do_reverse_triangles = !do_reverse_triangles;
+ }
+
+ // now do the work
+
+ if (do_reflect_x)
+ {
+ LLVector4a* p = (LLVector4a*) face.mPositions;
+ LLVector4a* n = (LLVector4a*) face.mNormals;
+
+ for (S32 i = 0; i < face.mNumVertices; i++)
+ {
+ p[i].mul(-1.0f);
+ n[i].mul(-1.0f);
+ }
+ }
+
+ if (do_invert_normals)
+ {
+ LLVector4a* n = (LLVector4a*) face.mNormals;
+
+ for (S32 i = 0; i < face.mNumVertices; i++)
+ {
+ n[i].mul(-1.0f);
+ }
+ }
+
+ if (do_reverse_triangles)
+ {
+ for (U32 j = 0; j < face.mNumIndices; j += 3)
+ {
+ // swap the 2nd and 3rd index
+ S32 swap = face.mIndices[j+1];
+ face.mIndices[j+1] = face.mIndices[j+2];
+ face.mIndices[j+2] = swap;
+ }
+ }
+
+ //calculate bounding box
+ LLVector4a& min = face.mExtents[0];
+ LLVector4a& max = face.mExtents[1];
+
+ min.clear();
+ max.clear();
+ min = max = face.mPositions[0];
+
+ for (S32 i = 1; i < face.mNumVertices; ++i)
+ {
+ min.setMin(min, face.mPositions[i]);
+ max.setMax(max, face.mPositions[i]);
+ }
+ }
+ }
+
+ mSculptLevel = 0; // success!
+
+ cacheOptimize();
+
+ return true;
+}
+
+void tetrahedron_set_normal(LLVolumeFace::VertexData* cv)
+{
+ LLVector4a v0;
+ v0.setSub(cv[1].getPosition(), cv[0].getNormal());
+ LLVector4a v1;
+ v1.setSub(cv[2].getNormal(), cv[0].getPosition());
+
+ cv[0].getNormal().setCross3(v0,v1);
+ cv[0].getNormal().normalize3fast();
+ cv[1].setNormal(cv[0].getNormal());
+ cv[2].setNormal(cv[1].getNormal());
+}
+
+BOOL LLVolume::isTetrahedron()
+{
+ return mIsTetrahedron;
+}
+
+void LLVolume::makeTetrahedron()
+{
+ mVolumeFaces.clear();
+
+ LLVolumeFace face;
+
+ F32 x = 0.25f;
+ LLVector4a p[] =
+ { //unit tetrahedron corners
+ LLVector4a(x,x,x),
+ LLVector4a(-x,-x,x),
+ LLVector4a(-x,x,-x),
+ LLVector4a(x,-x,-x)
+ };
+
+ face.mExtents[0].splat(-x);
+ face.mExtents[1].splat(x);
+
+ LLVolumeFace::VertexData cv[3];
+
+ //set texture coordinates
+ cv[0].mTexCoord = LLVector2(0,0);
+ cv[1].mTexCoord = LLVector2(1,0);
+ cv[2].mTexCoord = LLVector2(0.5f, 0.5f*F_SQRT3);
+
+
+ //side 1
+ cv[0].setPosition(p[1]);
+ cv[1].setPosition(p[0]);
+ cv[2].setPosition(p[2]);
+
+ tetrahedron_set_normal(cv);
+
+ face.resizeVertices(12);
+ face.resizeIndices(12);
+
+ LLVector4a* v = (LLVector4a*) face.mPositions;
+ LLVector4a* n = (LLVector4a*) face.mNormals;
+ LLVector2* tc = (LLVector2*) face.mTexCoords;
+
+ v[0] = cv[0].getPosition();
+ v[1] = cv[1].getPosition();
+ v[2] = cv[2].getPosition();
+ v += 3;
+
+ n[0] = cv[0].getNormal();
+ n[1] = cv[1].getNormal();
+ n[2] = cv[2].getNormal();
+ n += 3;
+
+ tc[0] = cv[0].mTexCoord;
+ tc[1] = cv[1].mTexCoord;
+ tc[2] = cv[2].mTexCoord;
+ tc += 3;
+
+
+ //side 2
+ cv[0].setPosition(p[3]);
+ cv[1].setPosition(p[0]);
+ cv[2].setPosition(p[1]);
+
+ tetrahedron_set_normal(cv);
+
+ v[0] = cv[0].getPosition();
+ v[1] = cv[1].getPosition();
+ v[2] = cv[2].getPosition();
+ v += 3;
+
+ n[0] = cv[0].getNormal();
+ n[1] = cv[1].getNormal();
+ n[2] = cv[2].getNormal();
+ n += 3;
+
+ tc[0] = cv[0].mTexCoord;
+ tc[1] = cv[1].mTexCoord;
+ tc[2] = cv[2].mTexCoord;
+ tc += 3;
+
+ //side 3
+ cv[0].setPosition(p[3]);
+ cv[1].setPosition(p[1]);
+ cv[2].setPosition(p[2]);
+
+ tetrahedron_set_normal(cv);
+
+ v[0] = cv[0].getPosition();
+ v[1] = cv[1].getPosition();
+ v[2] = cv[2].getPosition();
+ v += 3;
+
+ n[0] = cv[0].getNormal();
+ n[1] = cv[1].getNormal();
+ n[2] = cv[2].getNormal();
+ n += 3;
+
+ tc[0] = cv[0].mTexCoord;
+ tc[1] = cv[1].mTexCoord;
+ tc[2] = cv[2].mTexCoord;
+ tc += 3;
+
+ //side 4
+ cv[0].setPosition(p[2]);
+ cv[1].setPosition(p[0]);
+ cv[2].setPosition(p[3]);
+
+ tetrahedron_set_normal(cv);
+
+ v[0] = cv[0].getPosition();
+ v[1] = cv[1].getPosition();
+ v[2] = cv[2].getPosition();
+ v += 3;
+
+ n[0] = cv[0].getNormal();
+ n[1] = cv[1].getNormal();
+ n[2] = cv[2].getNormal();
+ n += 3;
+
+ tc[0] = cv[0].mTexCoord;
+ tc[1] = cv[1].mTexCoord;
+ tc[2] = cv[2].mTexCoord;
+ tc += 3;
+
+ //set index buffer
+ for (U16 i = 0; i < 12; i++)
+ {
+ face.mIndices[i] = i;
+ }
+
+ mVolumeFaces.push_back(face);
+ mSculptLevel = 0;
+ mIsTetrahedron = TRUE;
+}
+
+void LLVolume::copyVolumeFaces(const LLVolume* volume)
+{
+ mVolumeFaces = volume->mVolumeFaces;
+ mSculptLevel = 0;
+ mIsTetrahedron = FALSE;
+}
+
+void LLVolume::cacheOptimize()
+{
+ for (S32 i = 0; i < mVolumeFaces.size(); ++i)
+ {
+ mVolumeFaces[i].cacheOptimize();
+ }
+}
+
+
+S32 LLVolume::getNumFaces() const
+{
+ U8 sculpt_type = (mParams.getSculptType() & LL_SCULPT_TYPE_MASK);
+
+ if (sculpt_type == LL_SCULPT_TYPE_MESH)
+ {
+ return LL_SCULPT_MESH_MAX_FACES;
+ }
+
+ return (S32)mProfilep->mFaces.size();
+}
+
void LLVolume::createVolumeFaces()
{
@@ -2188,7 +2967,7 @@ void sculpt_calc_mesh_resolution(U16 width, U16 height, U8 type, F32 detail, S32
ratio = (F32) width / (F32) height;
- s = (S32)fsqrtf(((F32)vertices / ratio));
+ s = (S32)(F32) sqrt(((F32)vertices / ratio));
s = llmax(s, 4); // no degenerate sizes, please
t = vertices / s;
@@ -2281,6 +3060,16 @@ BOOL LLVolume::isFlat(S32 face)
}
+bool LLVolumeParams::isSculpt() const
+{
+ return mSculptID.notNull();
+}
+
+bool LLVolumeParams::isMeshSculpt() const
+{
+ return isSculpt() && ((mSculptType & LL_SCULPT_TYPE_MASK) == LL_SCULPT_TYPE_MESH);
+}
+
bool LLVolumeParams::operator==(const LLVolumeParams &params) const
{
return ( (getPathParams() == params.getPathParams()) &&
@@ -2314,7 +3103,6 @@ bool LLVolumeParams::operator<(const LLVolumeParams &params) const
return mSculptID < params.mSculptID;
}
-
return mSculptType < params.mSculptType;
@@ -3372,34 +4160,64 @@ S32 LLVolume::getNumTriangleIndices() const
return count;
}
+
+S32 LLVolume::getNumTriangles() const
+{
+ U32 triangle_count = 0;
+
+ for (S32 i = 0; i < getNumVolumeFaces(); ++i)
+ {
+ triangle_count += getVolumeFace(i).mNumIndices/3;
+ }
+
+ return triangle_count;
+}
+
+
//-----------------------------------------------------------------------------
// generateSilhouetteVertices()
//-----------------------------------------------------------------------------
void LLVolume::generateSilhouetteVertices(std::vector<LLVector3> &vertices,
std::vector<LLVector3> &normals,
std::vector<S32> &segments,
- const LLVector3& obj_cam_vec,
- const LLMatrix4& mat,
- const LLMatrix3& norm_mat,
+ const LLVector3& obj_cam_vec_in,
+ const LLMatrix4& mat_in,
+ const LLMatrix3& norm_mat_in,
S32 face_mask)
{
LLMemType m1(LLMemType::MTYPE_VOLUME);
-
+
+ LLMatrix4a mat;
+ mat.loadu(mat_in);
+
+ LLMatrix4a norm_mat;
+ norm_mat.loadu(norm_mat_in);
+
+ LLVector4a obj_cam_vec;
+ obj_cam_vec.load3(obj_cam_vec_in.mV);
+
vertices.clear();
normals.clear();
segments.clear();
+ if ((mParams.getSculptType() & LL_SCULPT_TYPE_MASK) == LL_SCULPT_TYPE_MESH)
+ {
+ return;
+ }
+
S32 cur_index = 0;
//for each face
for (face_list_t::iterator iter = mVolumeFaces.begin();
iter != mVolumeFaces.end(); ++iter)
{
- const LLVolumeFace& face = *iter;
+ LLVolumeFace& face = *iter;
- if (!(face_mask & (0x1 << cur_index++)))
+ if (!(face_mask & (0x1 << cur_index++)) ||
+ face.mNumIndices == 0 || face.mEdge.empty())
{
continue;
}
+
if (face.mTypeMask & (LLVolumeFace::CAP_MASK)) {
}
@@ -3412,7 +4230,7 @@ void LLVolume::generateSilhouetteVertices(std::vector<LLVector3> &vertices,
#if DEBUG_SILHOUETTE_EDGE_MAP
//for each triangle
- U32 count = face.mIndices.size();
+ U32 count = face.mNumIndices;
for (U32 j = 0; j < count/3; j++) {
//get vertices
S32 v1 = face.mIndices[j*3+0];
@@ -3420,9 +4238,9 @@ void LLVolume::generateSilhouetteVertices(std::vector<LLVector3> &vertices,
S32 v3 = face.mIndices[j*3+2];
//get current face center
- LLVector3 cCenter = (face.mVertices[v1].mPosition +
- face.mVertices[v2].mPosition +
- face.mVertices[v3].mPosition) / 3.0f;
+ LLVector3 cCenter = (face.mVertices[v1].getPosition() +
+ face.mVertices[v2].getPosition() +
+ face.mVertices[v3].getPosition()) / 3.0f;
//for each edge
for (S32 k = 0; k < 3; k++) {
@@ -3440,9 +4258,9 @@ void LLVolume::generateSilhouetteVertices(std::vector<LLVector3> &vertices,
v3 = face.mIndices[nIndex*3+2];
//get neighbor face center
- LLVector3 nCenter = (face.mVertices[v1].mPosition +
- face.mVertices[v2].mPosition +
- face.mVertices[v3].mPosition) / 3.0f;
+ LLVector3 nCenter = (face.mVertices[v1].getPosition() +
+ face.mVertices[v2].getPosition() +
+ face.mVertices[v3].getPosition()) / 3.0f;
//draw line
vertices.push_back(cCenter);
@@ -3465,15 +4283,15 @@ void LLVolume::generateSilhouetteVertices(std::vector<LLVector3> &vertices,
#elif DEBUG_SILHOUETTE_NORMALS
//for each vertex
- for (U32 j = 0; j < face.mVertices.size(); j++) {
- vertices.push_back(face.mVertices[j].mPosition);
- vertices.push_back(face.mVertices[j].mPosition + face.mVertices[j].mNormal*0.1f);
+ for (U32 j = 0; j < face.mNumVertices; j++) {
+ vertices.push_back(face.mVertices[j].getPosition());
+ vertices.push_back(face.mVertices[j].getPosition() + face.mVertices[j].getNormal()*0.1f);
normals.push_back(LLVector3(0,0,1));
normals.push_back(LLVector3(0,0,1));
segments.push_back(vertices.size());
#if DEBUG_SILHOUETTE_BINORMALS
- vertices.push_back(face.mVertices[j].mPosition);
- vertices.push_back(face.mVertices[j].mPosition + face.mVertices[j].mBinormal*0.1f);
+ vertices.push_back(face.mVertices[j].getPosition());
+ vertices.push_back(face.mVertices[j].getPosition() + face.mVertices[j].mBinormal*0.1f);
normals.push_back(LLVector3(0,0,1));
normals.push_back(LLVector3(0,0,1));
segments.push_back(vertices.size());
@@ -3491,26 +4309,36 @@ void LLVolume::generateSilhouetteVertices(std::vector<LLVector3> &vertices,
//for each triangle
std::vector<U8> fFacing;
- vector_append(fFacing, face.mIndices.size()/3);
- for (U32 j = 0; j < face.mIndices.size()/3; j++)
+ vector_append(fFacing, face.mNumIndices/3);
+
+ LLVector4a* v = (LLVector4a*) face.mPositions;
+ LLVector4a* n = (LLVector4a*) face.mNormals;
+
+ for (U32 j = 0; j < face.mNumIndices/3; j++)
{
//approximate normal
S32 v1 = face.mIndices[j*3+0];
S32 v2 = face.mIndices[j*3+1];
S32 v3 = face.mIndices[j*3+2];
- LLVector3 norm = (face.mVertices[v1].mPosition - face.mVertices[v2].mPosition) %
- (face.mVertices[v2].mPosition - face.mVertices[v3].mPosition);
-
- if (norm.magVecSquared() < 0.00000001f)
+ LLVector4a c1,c2;
+ c1.setSub(v[v1], v[v2]);
+ c2.setSub(v[v2], v[v3]);
+
+ LLVector4a norm;
+
+ norm.setCross3(c1, c2);
+
+ if (norm.dot3(norm) < 0.00000001f)
{
fFacing[j] = AWAY | TOWARDS;
}
else
{
//get view vector
- LLVector3 view = (obj_cam_vec-face.mVertices[v1].mPosition);
- bool away = view * norm > 0.0f;
+ LLVector4a view;
+ view.setSub(obj_cam_vec, v[v1]);
+ bool away = view.dot3(norm) > 0.0f;
if (away)
{
fFacing[j] = AWAY;
@@ -3523,7 +4351,7 @@ void LLVolume::generateSilhouetteVertices(std::vector<LLVector3> &vertices,
}
//for each triangle
- for (U32 j = 0; j < face.mIndices.size()/3; j++)
+ for (U32 j = 0; j < face.mNumIndices/3; j++)
{
if (fFacing[j] == (AWAY | TOWARDS))
{ //this is a degenerate triangle
@@ -3556,15 +4384,21 @@ void LLVolume::generateSilhouetteVertices(std::vector<LLVector3> &vertices,
S32 v1 = face.mIndices[j*3+k];
S32 v2 = face.mIndices[j*3+((k+1)%3)];
- vertices.push_back(face.mVertices[v1].mPosition*mat);
- LLVector3 norm1 = face.mVertices[v1].mNormal * norm_mat;
- norm1.normVec();
- normals.push_back(norm1);
+ LLVector4a t;
+ mat.affineTransform(v[v1], t);
+ vertices.push_back(LLVector3(t[0], t[1], t[2]));
+
+ norm_mat.rotate(n[v1], t);
+
+ t.normalize3fast();
+ normals.push_back(LLVector3(t[0], t[1], t[2]));
- vertices.push_back(face.mVertices[v2].mPosition*mat);
- LLVector3 norm2 = face.mVertices[v2].mNormal * norm_mat;
- norm2.normVec();
- normals.push_back(norm2);
+ mat.affineTransform(v[v2], t);
+ vertices.push_back(LLVector3(t[0], t[1], t[2]));
+
+ norm_mat.rotate(n[v2], t);
+ t.normalize3fast();
+ normals.push_back(LLVector3(t[0], t[1], t[2]));
segments.push_back(vertices.size());
}
@@ -3579,6 +4413,19 @@ S32 LLVolume::lineSegmentIntersect(const LLVector3& start, const LLVector3& end,
S32 face,
LLVector3* intersection,LLVector2* tex_coord, LLVector3* normal, LLVector3* bi_normal)
{
+ LLVector4a starta, enda;
+ starta.load3(start.mV);
+ enda.load3(end.mV);
+
+ return lineSegmentIntersect(starta, enda, face, intersection, tex_coord, normal, bi_normal);
+
+}
+
+
+S32 LLVolume::lineSegmentIntersect(const LLVector4a& start, const LLVector4a& end,
+ S32 face,
+ LLVector3* intersection,LLVector2* tex_coord, LLVector3* normal, LLVector3* bi_normal)
+{
S32 hit_face = -1;
S32 start_face;
@@ -3595,16 +4442,23 @@ S32 LLVolume::lineSegmentIntersect(const LLVector3& start, const LLVector3& end,
end_face = face;
}
- LLVector3 dir = end - start;
+ LLVector4a dir;
+ dir.setSub(end, start);
F32 closest_t = 2.f; // must be larger than 1
+ end_face = llmin(end_face, getNumVolumeFaces()-1);
+
for (S32 i = start_face; i <= end_face; i++)
{
- const LLVolumeFace &face = getVolumeFace((U32)i);
+ LLVolumeFace &face = mVolumeFaces[i];
- LLVector3 box_center = (face.mExtents[0] + face.mExtents[1]) / 2.f;
- LLVector3 box_size = face.mExtents[1] - face.mExtents[0];
+ LLVector4a box_center;
+ box_center.setAdd(face.mExtents[0], face.mExtents[1]);
+ box_center.mul(0.5f);
+
+ LLVector4a box_size;
+ box_size.setSub(face.mExtents[1], face.mExtents[0]);
if (LLLineSegmentBoxIntersect(start, end, box_center, box_size))
{
@@ -3612,56 +4466,19 @@ S32 LLVolume::lineSegmentIntersect(const LLVector3& start, const LLVector3& end,
{
genBinormals(i);
}
-
- for (U32 tri = 0; tri < face.mIndices.size()/3; tri++)
- {
- S32 index1 = face.mIndices[tri*3+0];
- S32 index2 = face.mIndices[tri*3+1];
- S32 index3 = face.mIndices[tri*3+2];
- F32 a, b, t;
+ if (!face.mOctree)
+ {
+ face.createOctree();
+ }
- if (LLTriangleRayIntersect(face.mVertices[index1].mPosition,
- face.mVertices[index2].mPosition,
- face.mVertices[index3].mPosition,
- start, dir, &a, &b, &t, FALSE))
- {
- if ((t >= 0.f) && // if hit is after start
- (t <= 1.f) && // and before end
- (t < closest_t)) // and this hit is closer
- {
- closest_t = t;
- hit_face = i;
+ //LLVector4a* p = (LLVector4a*) face.mPositions;
- if (intersection != NULL)
- {
- *intersection = start + dir * closest_t;
- }
-
- if (tex_coord != NULL)
+ LLOctreeTriangleRayIntersect intersect(start, dir, &face, &closest_t, intersection, tex_coord, normal, bi_normal);
+ intersect.traverse(face.mOctree);
+ if (intersect.mHitFace)
{
- *tex_coord = ((1.f - a - b) * face.mVertices[index1].mTexCoord +
- a * face.mVertices[index2].mTexCoord +
- b * face.mVertices[index3].mTexCoord);
-
- }
-
- if (normal != NULL)
- {
- *normal = ((1.f - a - b) * face.mVertices[index1].mNormal +
- a * face.mVertices[index2].mNormal +
- b * face.mVertices[index3].mNormal);
- }
-
- if (bi_normal != NULL)
- {
- *bi_normal = ((1.f - a - b) * face.mVertices[index1].mBinormal +
- a * face.mVertices[index2].mBinormal +
- b * face.mVertices[index3].mBinormal);
- }
-
- }
- }
+ hit_face = i;
}
}
}
@@ -4109,11 +4926,28 @@ BOOL LLVolumeParams::exportLegacyStream(std::ostream& output_stream) const
return TRUE;
}
+LLSD LLVolumeParams::sculptAsLLSD() const
+{
+ LLSD sd = LLSD();
+ sd["id"] = getSculptID();
+ sd["type"] = getSculptType();
+
+ return sd;
+}
+
+bool LLVolumeParams::sculptFromLLSD(LLSD& sd)
+{
+ setSculptID(sd["id"].asUUID(), (U8)sd["type"].asInteger());
+ return true;
+}
+
LLSD LLVolumeParams::asLLSD() const
{
LLSD sd = LLSD();
sd["path"] = mPathParams;
sd["profile"] = mProfileParams;
+ sd["sculpt"] = sculptAsLLSD();
+
return sd;
}
@@ -4121,6 +4955,8 @@ bool LLVolumeParams::fromLLSD(LLSD& sd)
{
mPathParams.fromLLSD(sd["path"]);
mProfileParams.fromLLSD(sd["profile"]);
+ sculptFromLLSD(sd["sculpt"]);
+
return true;
}
@@ -4163,6 +4999,12 @@ const F32 MIN_CONCAVE_PATH_WEDGE = 0.111111f; // 1/9 unity
// for collison purposes
BOOL LLVolumeParams::isConvex() const
{
+ if (!getSculptID().isNull())
+ {
+ // can't determine, be safe and say no:
+ return FALSE;
+ }
+
F32 path_length = mPathParams.getEnd() - mPathParams.getBegin();
F32 hollow = mProfileParams.getHollow();
@@ -4403,57 +5245,771 @@ std::ostream& operator<<(std::ostream &s, const LLVolume *volumep)
return s;
}
+LLVolumeFace::LLVolumeFace() :
+ mID(0),
+ mTypeMask(0),
+ mBeginS(0),
+ mBeginT(0),
+ mNumS(0),
+ mNumT(0),
+ mNumVertices(0),
+ mNumIndices(0),
+ mPositions(NULL),
+ mNormals(NULL),
+ mBinormals(NULL),
+ mTexCoords(NULL),
+ mIndices(NULL),
+ mWeights(NULL),
+ mOctree(NULL)
+{
+ mExtents = (LLVector4a*) malloc(sizeof(LLVector4a)*3);
+ mCenter = mExtents+2;
+}
+
+LLVolumeFace::LLVolumeFace(const LLVolumeFace& src)
+: mID(0),
+ mTypeMask(0),
+ mBeginS(0),
+ mBeginT(0),
+ mNumS(0),
+ mNumT(0),
+ mNumVertices(0),
+ mNumIndices(0),
+ mPositions(NULL),
+ mNormals(NULL),
+ mBinormals(NULL),
+ mTexCoords(NULL),
+ mIndices(NULL),
+ mWeights(NULL),
+ mOctree(NULL)
+{
+ mExtents = (LLVector4a*) malloc(sizeof(LLVector4a)*3);
+ mCenter = mExtents+2;
+ *this = src;
+}
+
+LLVolumeFace& LLVolumeFace::operator=(const LLVolumeFace& src)
+{
+ if (&src == this)
+ { //self assignment, do nothing
+ return *this;
+ }
+
+ mID = src.mID;
+ mTypeMask = src.mTypeMask;
+ mBeginS = src.mBeginS;
+ mBeginT = src.mBeginT;
+ mNumS = src.mNumS;
+ mNumT = src.mNumT;
+
+ mExtents[0] = src.mExtents[0];
+ mExtents[1] = src.mExtents[1];
+ *mCenter = *src.mCenter;
+
+ mNumVertices = 0;
+ mNumIndices = 0;
+
+ freeData();
+
+ LLVector4a::memcpyNonAliased16((F32*) mExtents, (F32*) src.mExtents, 3*sizeof(LLVector4a));
+
+ resizeVertices(src.mNumVertices);
+ resizeIndices(src.mNumIndices);
+
+ if (mNumVertices)
+ {
+ S32 vert_size = mNumVertices*sizeof(LLVector4a);
+ S32 tc_size = (mNumVertices*sizeof(LLVector2)+0xF) & ~0xF;
+
+ LLVector4a::memcpyNonAliased16((F32*) mPositions, (F32*) src.mPositions, vert_size);
+ LLVector4a::memcpyNonAliased16((F32*) mNormals, (F32*) src.mNormals, vert_size);
+ LLVector4a::memcpyNonAliased16((F32*) mTexCoords, (F32*) src.mTexCoords, tc_size);
+
+
+ if (src.mBinormals)
+ {
+ allocateBinormals(src.mNumVertices);
+ LLVector4a::memcpyNonAliased16((F32*) mBinormals, (F32*) src.mBinormals, vert_size);
+ }
+ else
+ {
+ free(mBinormals);
+ mBinormals = NULL;
+ }
+
+ if (src.mWeights)
+ {
+ allocateWeights(src.mNumVertices);
+ LLVector4a::memcpyNonAliased16((F32*) mWeights, (F32*) src.mWeights, vert_size);
+ }
+ else
+ {
+ free(mWeights);
+ mWeights = NULL;
+ }
+ }
+
+ if (mNumIndices)
+ {
+ S32 idx_size = (mNumIndices*sizeof(U16)+0xF) & ~0xF;
+
+ LLVector4a::memcpyNonAliased16((F32*) mIndices, (F32*) src.mIndices, idx_size);
+ }
+
+ //delete
+ return *this;
+}
+
+LLVolumeFace::~LLVolumeFace()
+{
+ free(mExtents);
+ mExtents = NULL;
+
+ freeData();
+}
+
+void LLVolumeFace::freeData()
+{
+ free(mPositions);
+ mPositions = NULL;
+ free( mNormals);
+ mNormals = NULL;
+ free(mTexCoords);
+ mTexCoords = NULL;
+ free(mIndices);
+ mIndices = NULL;
+ free(mBinormals);
+ mBinormals = NULL;
+ free(mWeights);
+ mWeights = NULL;
+
+ delete mOctree;
+ mOctree = NULL;
+}
BOOL LLVolumeFace::create(LLVolume* volume, BOOL partial_build)
{
- BOOL ret = FALSE ;
+ //tree for this face is no longer valid
+ delete mOctree;
+ mOctree = NULL;
+
if (mTypeMask & CAP_MASK)
{
- ret = createCap(volume, partial_build);
+ return createCap(volume, partial_build);
}
else if ((mTypeMask & END_MASK) || (mTypeMask & SIDE_MASK))
{
- ret = createSide(volume, partial_build);
+ return createSide(volume, partial_build);
}
else
{
llerrs << "Unknown/uninitialized face type!" << llendl;
+ return FALSE;
+ }
+}
+
+void LLVolumeFace::getVertexData(U16 index, LLVolumeFace::VertexData& cv)
+{
+ cv.setPosition(mPositions[index]);
+ cv.setNormal(mNormals[index]);
+ cv.mTexCoord = mTexCoords[index];
+}
+
+bool LLVolumeFace::VertexMapData::operator==(const LLVolumeFace::VertexData& rhs) const
+{
+ return getPosition().equals3(rhs.getPosition()) &&
+ mTexCoord == rhs.mTexCoord &&
+ getNormal().equals3(rhs.getNormal());
+}
+
+bool LLVolumeFace::VertexMapData::ComparePosition::operator()(const LLVector3& a, const LLVector3& b) const
+{
+ if (a.mV[0] != b.mV[0])
+ {
+ return a.mV[0] < b.mV[0];
+ }
+
+ if (a.mV[1] != b.mV[1])
+ {
+ return a.mV[1] < b.mV[1];
+ }
+
+ return a.mV[2] < b.mV[2];
+}
+
+void LLVolumeFace::optimize(F32 angle_cutoff)
+{
+ LLVolumeFace new_face;
+
+ //map of points to vector of vertices at that point
+ VertexMapData::PointMap point_map;
+
+ //remove redundant vertices
+ for (U32 i = 0; i < mNumIndices; ++i)
+ {
+ U16 index = mIndices[i];
+
+ LLVolumeFace::VertexData cv;
+ getVertexData(index, cv);
+
+ BOOL found = FALSE;
+ VertexMapData::PointMap::iterator point_iter = point_map.find(LLVector3(cv.getPosition().getF32ptr()));
+ if (point_iter != point_map.end())
+ { //duplicate point might exist
+ for (U32 j = 0; j < point_iter->second.size(); ++j)
+ {
+ LLVolumeFace::VertexData& tv = (point_iter->second)[j];
+ if (tv.compareNormal(cv, angle_cutoff))
+ {
+ found = TRUE;
+ new_face.pushIndex((point_iter->second)[j].mIndex);
+ break;
+ }
+ }
+ }
+
+ if (!found)
+ {
+ new_face.pushVertex(cv);
+ U16 index = (U16) new_face.mNumVertices-1;
+ new_face.pushIndex(index);
+
+ VertexMapData d;
+ d.setPosition(cv.getPosition());
+ d.mTexCoord = cv.mTexCoord;
+ d.setNormal(cv.getNormal());
+ d.mIndex = index;
+ if (point_iter != point_map.end())
+ {
+ point_iter->second.push_back(d);
+ }
+ else
+ {
+ point_map[LLVector3(d.getPosition().getF32ptr())].push_back(d);
+ }
+ }
+ }
+
+ swapData(new_face);
+}
+
+class LLVCacheTriangleData;
+
+class LLVCacheVertexData
+{
+public:
+ S32 mIdx;
+ S32 mCacheTag;
+ F32 mScore;
+ U32 mActiveTriangles;
+ std::vector<LLVCacheTriangleData*> mTriangles;
+
+ LLVCacheVertexData()
+ {
+ mCacheTag = -1;
+ mScore = 0.f;
+ mActiveTriangles = 0;
+ mIdx = -1;
+ }
+};
+
+class LLVCacheTriangleData
+{
+public:
+ bool mActive;
+ F32 mScore;
+ LLVCacheVertexData* mVertex[3];
+
+ LLVCacheTriangleData()
+ {
+ mActive = true;
+ mScore = 0.f;
+ mVertex[0] = mVertex[1] = mVertex[2] = NULL;
+ }
+
+ void complete()
+ {
+ mActive = false;
+ for (S32 i = 0; i < 3; ++i)
+ {
+ if (mVertex[i])
+ {
+ llassert_always(mVertex[i]->mActiveTriangles > 0);
+ mVertex[i]->mActiveTriangles--;
+ }
+ }
+ }
+
+ bool operator<(const LLVCacheTriangleData& rhs) const
+ { //highest score first
+ return rhs.mScore < mScore;
+ }
+};
+
+const F32 FindVertexScore_CacheDecayPower = 1.5f;
+const F32 FindVertexScore_LastTriScore = 0.75f;
+const F32 FindVertexScore_ValenceBoostScale = 2.0f;
+const F32 FindVertexScore_ValenceBoostPower = 0.5f;
+const U32 MaxSizeVertexCache = 32;
+
+F32 find_vertex_score(LLVCacheVertexData& data)
+{
+ if (data.mActiveTriangles == 0)
+ { //no triangle references this vertex
+ return -1.f;
+ }
+
+ F32 score = 0.f;
+
+ S32 cache_idx = data.mCacheTag;
+
+ if (cache_idx < 0)
+ {
+ //not in cache
+ }
+ else
+ {
+ if (cache_idx < 3)
+ { //vertex was in the last triangle
+ score = FindVertexScore_LastTriScore;
+ }
+ else
+ { //more points for being higher in the cache
+ F32 scaler = 1.f/(MaxSizeVertexCache-3);
+ score = 1.f-((cache_idx-3)*scaler);
+ score = powf(score, FindVertexScore_CacheDecayPower);
+ }
+ }
+
+ //bonus points for having low valence
+ F32 valence_boost = powf(data.mActiveTriangles, -FindVertexScore_ValenceBoostPower);
+ score += FindVertexScore_ValenceBoostScale * valence_boost;
+
+ return score;
+}
+
+class LLVCacheFIFO
+{
+public:
+ LLVCacheVertexData* mCache[MaxSizeVertexCache];
+ U32 mMisses;
+
+ LLVCacheFIFO()
+ {
+ mMisses = 0;
+ for (U32 i = 0; i < MaxSizeVertexCache; ++i)
+ {
+ mCache[i] = NULL;
+ }
+ }
+
+ void addVertex(LLVCacheVertexData* data)
+ {
+ if (data->mCacheTag == -1)
+ {
+ mMisses++;
+
+ S32 end = MaxSizeVertexCache-1;
+
+ if (mCache[end])
+ {
+ mCache[end]->mCacheTag = -1;
+ }
+
+ for (S32 i = end; i > 0; --i)
+ {
+ mCache[i] = mCache[i-1];
+ if (mCache[i])
+ {
+ mCache[i]->mCacheTag = i;
+ }
+ }
+
+ mCache[0] = data;
+ data->mCacheTag = 0;
+ }
+ }
+};
+
+class LLVCacheLRU
+{
+public:
+ LLVCacheVertexData* mCache[MaxSizeVertexCache+3];
+
+ LLVCacheTriangleData* mBestTriangle;
+
+ U32 mMisses;
+
+ LLVCacheLRU()
+ {
+ for (U32 i = 0; i < MaxSizeVertexCache+3; ++i)
+ {
+ mCache[i] = NULL;
+ }
+
+ mBestTriangle = NULL;
+ mMisses = 0;
+ }
+
+ void addVertex(LLVCacheVertexData* data)
+ {
+ S32 end = MaxSizeVertexCache+2;
+ if (data->mCacheTag != -1)
+ { //just moving a vertex to the front of the cache
+ end = data->mCacheTag;
+ }
+ else
+ {
+ mMisses++;
+ if (mCache[end])
+ { //adding a new vertex, vertex at end of cache falls off
+ mCache[end]->mCacheTag = -1;
+ }
+ }
+
+ for (S32 i = end; i > 0; --i)
+ { //adjust cache pointers and tags
+ mCache[i] = mCache[i-1];
+
+ if (mCache[i])
+ {
+ mCache[i]->mCacheTag = i;
+ }
+ }
+
+ mCache[0] = data;
+ mCache[0]->mCacheTag = 0;
+ }
+
+ void addTriangle(LLVCacheTriangleData* data)
+ {
+ addVertex(data->mVertex[0]);
+ addVertex(data->mVertex[1]);
+ addVertex(data->mVertex[2]);
}
- //update the range of the texture coordinates
- if(ret)
+ void updateScores()
{
- mTexCoordExtents[0].setVec(1.f, 1.f) ;
- mTexCoordExtents[1].setVec(0.f, 0.f) ;
+ for (U32 i = MaxSizeVertexCache; i < MaxSizeVertexCache+3; ++i)
+ { //trailing 3 vertices aren't actually in the cache for scoring purposes
+ if (mCache[i])
+ {
+ mCache[i]->mCacheTag = -1;
+ }
+ }
+
+ for (U32 i = 0; i < MaxSizeVertexCache; ++i)
+ { //update scores of vertices in cache
+ if (mCache[i])
+ {
+ mCache[i]->mScore = find_vertex_score(*(mCache[i]));
+ llassert_always(mCache[i]->mCacheTag == i);
+ }
+ }
+
+ mBestTriangle = NULL;
+ //update triangle scores
+ for (U32 i = 0; i < MaxSizeVertexCache+3; ++i)
+ {
+ if (mCache[i])
+ {
+ for (U32 j = 0; j < mCache[i]->mTriangles.size(); ++j)
+ {
+ LLVCacheTriangleData* tri = mCache[i]->mTriangles[j];
+ if (tri->mActive)
+ {
+ tri->mScore = tri->mVertex[0]->mScore;
+ tri->mScore += tri->mVertex[1]->mScore;
+ tri->mScore += tri->mVertex[2]->mScore;
- U32 end = mVertices.size() ;
- for(U32 i = 0 ; i < end ; i++)
+ if (!mBestTriangle || mBestTriangle->mScore < tri->mScore)
+ {
+ mBestTriangle = tri;
+ }
+ }
+ }
+ }
+ }
+
+ //knock trailing 3 vertices off the cache
+ for (U32 i = MaxSizeVertexCache; i < MaxSizeVertexCache+3; ++i)
{
- if(mTexCoordExtents[0].mV[0] > mVertices[i].mTexCoord.mV[0])
+ if (mCache[i])
{
- mTexCoordExtents[0].mV[0] = mVertices[i].mTexCoord.mV[0] ;
+ llassert_always(mCache[i]->mCacheTag == -1);
+ mCache[i] = NULL;
}
- if(mTexCoordExtents[1].mV[0] < mVertices[i].mTexCoord.mV[0])
+ }
+ }
+};
+
+
+void LLVolumeFace::cacheOptimize()
+{ //optimize for vertex cache according to Forsyth method:
+ // http://home.comcast.net/~tom_forsyth/papers/fast_vert_cache_opt.html
+
+ LLVCacheLRU cache;
+
+ //mapping of vertices to triangles and indices
+ std::vector<LLVCacheVertexData> vertex_data;
+
+ //mapping of triangles do vertices
+ std::vector<LLVCacheTriangleData> triangle_data;
+
+ triangle_data.resize(mNumIndices/3);
+ vertex_data.resize(mNumVertices);
+
+ for (U32 i = 0; i < mNumIndices; i++)
+ { //populate vertex data and triangle data arrays
+ U16 idx = mIndices[i];
+ U32 tri_idx = i/3;
+
+ vertex_data[idx].mTriangles.push_back(&(triangle_data[tri_idx]));
+ vertex_data[idx].mIdx = idx;
+ triangle_data[tri_idx].mVertex[i%3] = &(vertex_data[idx]);
+ }
+
+ /*F32 pre_acmr = 1.f;
+ //measure cache misses from before rebuild
+ {
+ LLVCacheFIFO test_cache;
+ for (U32 i = 0; i < mNumIndices; ++i)
+ {
+ test_cache.addVertex(&vertex_data[mIndices[i]]);
+ }
+
+ for (U32 i = 0; i < mNumVertices; i++)
+ {
+ vertex_data[i].mCacheTag = -1;
+ }
+
+ pre_acmr = (F32) test_cache.mMisses/(mNumIndices/3);
+ }*/
+
+ for (U32 i = 0; i < mNumVertices; i++)
+ { //initialize score values (no cache -- might try a fifo cache here)
+ vertex_data[i].mScore = find_vertex_score(vertex_data[i]);
+ vertex_data[i].mActiveTriangles = vertex_data[i].mTriangles.size();
+
+ for (U32 j = 0; j < vertex_data[i].mTriangles.size(); ++j)
+ {
+ vertex_data[i].mTriangles[j]->mScore += vertex_data[i].mScore;
+ }
+ }
+
+ //sort triangle data by score
+ std::sort(triangle_data.begin(), triangle_data.end());
+
+ std::vector<U16> new_indices;
+
+ LLVCacheTriangleData* tri;
+
+ //prime pump by adding first triangle to cache;
+ tri = &(triangle_data[0]);
+ cache.addTriangle(tri);
+ new_indices.push_back(tri->mVertex[0]->mIdx);
+ new_indices.push_back(tri->mVertex[1]->mIdx);
+ new_indices.push_back(tri->mVertex[2]->mIdx);
+ tri->complete();
+
+ U32 breaks = 0;
+ for (U32 i = 1; i < mNumIndices/3; ++i)
+ {
+ cache.updateScores();
+ tri = cache.mBestTriangle;
+ if (!tri)
+ {
+ breaks++;
+ for (U32 j = 0; j < triangle_data.size(); ++j)
{
- mTexCoordExtents[1].mV[0] = mVertices[i].mTexCoord.mV[0] ;
+ if (triangle_data[j].mActive)
+ {
+ tri = &(triangle_data[j]);
+ break;
+ }
}
+ }
+
+ cache.addTriangle(tri);
+ new_indices.push_back(tri->mVertex[0]->mIdx);
+ new_indices.push_back(tri->mVertex[1]->mIdx);
+ new_indices.push_back(tri->mVertex[2]->mIdx);
+ tri->complete();
+ }
+
+ for (U32 i = 0; i < mNumIndices; ++i)
+ {
+ mIndices[i] = new_indices[i];
+ }
+
+ /*F32 post_acmr = 1.f;
+ //measure cache misses from after rebuild
+ {
+ LLVCacheFIFO test_cache;
+ for (U32 i = 0; i < mNumVertices; i++)
+ {
+ vertex_data[i].mCacheTag = -1;
+ }
+
+ for (U32 i = 0; i < mNumIndices; ++i)
+ {
+ test_cache.addVertex(&vertex_data[mIndices[i]]);
+ }
+
+ post_acmr = (F32) test_cache.mMisses/(mNumIndices/3);
+ }*/
+
+ //optimize for pre-TnL cache
+
+ //allocate space for new buffer
+ S32 num_verts = mNumVertices;
+ LLVector4a* pos = (LLVector4a*) malloc(sizeof(LLVector4a)*num_verts);
+ LLVector4a* norm = (LLVector4a*) malloc(sizeof(LLVector4a)*num_verts);
+ S32 size = ((num_verts*sizeof(LLVector2)) + 0xF) & ~0xF;
+ LLVector2* tc = (LLVector2*) malloc(size);
+
+ LLVector4a* wght = NULL;
+ if (mWeights)
+ {
+ wght = (LLVector4a*) malloc(sizeof(LLVector4a)*num_verts);
+ }
+
+ LLVector4a* binorm = NULL;
+ if (mBinormals)
+ {
+ binorm = (LLVector4a*) malloc(sizeof(LLVector4a)*num_verts);
+ }
+
+ //allocate mapping of old indices to new indices
+ std::vector<S32> new_idx;
+ new_idx.resize(mNumVertices, -1);
- if(mTexCoordExtents[0].mV[1] > mVertices[i].mTexCoord.mV[1])
+ S32 cur_idx = 0;
+ for (U32 i = 0; i < mNumIndices; ++i)
+ {
+ U16 idx = mIndices[i];
+ if (new_idx[idx] == -1)
+ { //this vertex hasn't been added yet
+ new_idx[idx] = cur_idx;
+
+ //copy vertex data
+ pos[cur_idx] = mPositions[idx];
+ norm[cur_idx] = mNormals[idx];
+ tc[cur_idx] = mTexCoords[idx];
+ if (mWeights)
{
- mTexCoordExtents[0].mV[1] = mVertices[i].mTexCoord.mV[1] ;
+ wght[cur_idx] = mWeights[idx];
}
- if(mTexCoordExtents[1].mV[1] < mVertices[i].mTexCoord.mV[1])
+ if (mBinormals)
{
- mTexCoordExtents[1].mV[1] = mVertices[i].mTexCoord.mV[1] ;
- }
+ binorm[cur_idx] = mBinormals[idx];
+ }
+
+ cur_idx++;
}
- mTexCoordExtents[0].mV[0] = llmax(0.f, mTexCoordExtents[0].mV[0]) ;
- mTexCoordExtents[0].mV[1] = llmax(0.f, mTexCoordExtents[0].mV[1]) ;
- mTexCoordExtents[1].mV[0] = llmin(1.f, mTexCoordExtents[1].mV[0]) ;
- mTexCoordExtents[1].mV[1] = llmin(1.f, mTexCoordExtents[1].mV[1]) ;
}
- return ret ;
+ for (U32 i = 0; i < mNumIndices; ++i)
+ {
+ mIndices[i] = new_idx[mIndices[i]];
+ }
+
+ free(mPositions);
+ free(mNormals);
+ free(mTexCoords);
+ free(mWeights);
+ free(mBinormals);
+
+ mPositions = pos;
+ mNormals = norm;
+ mTexCoords = tc;
+ mWeights = wght;
+ mBinormals = binorm;
+
+ //std::string result = llformat("ACMR pre/post: %.3f/%.3f -- %d triangles %d breaks", pre_acmr, post_acmr, mNumIndices/3, breaks);
+ //llinfos << result << llendl;
+
+}
+
+void LLVolumeFace::createOctree(F32 scaler, const LLVector4a& center, const LLVector4a& size)
+{
+ if (mOctree)
+ {
+ return;
+ }
+
+ mOctree = new LLOctreeRoot<LLVolumeTriangle>(center, size, NULL);
+ new LLVolumeOctreeListener(mOctree);
+
+ for (U32 i = 0; i < mNumIndices; i+= 3)
+ { //for each triangle
+ LLPointer<LLVolumeTriangle> tri = new LLVolumeTriangle();
+
+ const LLVector4a& v0 = mPositions[mIndices[i]];
+ const LLVector4a& v1 = mPositions[mIndices[i+1]];
+ const LLVector4a& v2 = mPositions[mIndices[i+2]];
+
+ //store pointers to vertex data
+ tri->mV[0] = &v0;
+ tri->mV[1] = &v1;
+ tri->mV[2] = &v2;
+
+ //store indices
+ tri->mIndex[0] = mIndices[i];
+ tri->mIndex[1] = mIndices[i+1];
+ tri->mIndex[2] = mIndices[i+2];
+
+ //get minimum point
+ LLVector4a min = v0;
+ min.setMin(min, v1);
+ min.setMin(min, v2);
+
+ //get maximum point
+ LLVector4a max = v0;
+ max.setMax(max, v1);
+ max.setMax(max, v2);
+
+ //compute center
+ LLVector4a center;
+ center.setAdd(min, max);
+ center.mul(0.5f);
+
+ tri->mPositionGroup = center;
+
+ //compute "radius"
+ LLVector4a size;
+ size.setSub(max,min);
+
+ tri->mRadius = size.getLength3().getF32() * scaler;
+
+ //insert
+ mOctree->insert(tri);
+ }
+
+ //remove unneeded octree layers
+ while (!mOctree->balance()) { }
+
+ //calculate AABB for each node
+ LLVolumeOctreeRebound rebound(this);
+ rebound.traverse(mOctree);
+
+ if (gDebugGL)
+ {
+ LLVolumeOctreeValidate validate;
+ validate.traverse(mOctree);
+ }
+}
+
+
+void LLVolumeFace::swapData(LLVolumeFace& rhs)
+{
+ llswap(rhs.mPositions, mPositions);
+ llswap(rhs.mNormals, mNormals);
+ llswap(rhs.mBinormals, mBinormals);
+ llswap(rhs.mTexCoords, mTexCoords);
+ llswap(rhs.mIndices,mIndices);
+ llswap(rhs.mNumVertices, mNumVertices);
+ llswap(rhs.mNumIndices, mNumIndices);
}
void LerpPlanarVertex(LLVolumeFace::VertexData& v0,
@@ -4463,10 +6019,21 @@ void LerpPlanarVertex(LLVolumeFace::VertexData& v0,
F32 coef01,
F32 coef02)
{
- vout.mPosition = v0.mPosition + ((v1.mPosition-v0.mPosition)*coef01)+((v2.mPosition-v0.mPosition)*coef02);
+
+ LLVector4a lhs;
+ lhs.setSub(v1.getPosition(), v0.getPosition());
+ lhs.mul(coef01);
+ LLVector4a rhs;
+ rhs.setSub(v2.getPosition(), v0.getPosition());
+ rhs.mul(coef02);
+
+ rhs.add(lhs);
+ rhs.add(v0.getPosition());
+
+ vout.setPosition(rhs);
+
vout.mTexCoord = v0.mTexCoord + ((v1.mTexCoord-v0.mTexCoord)*coef01)+((v2.mTexCoord-v0.mTexCoord)*coef02);
- vout.mNormal = v0.mNormal;
- vout.mBinormal = v0.mBinormal;
+ vout.setNormal(v0.getNormal());
}
BOOL LLVolumeFace::createUnCutCubeCap(LLVolume* volume, BOOL partial_build)
@@ -4486,84 +6053,113 @@ BOOL LLVolumeFace::createUnCutCubeCap(LLVolume* volume, BOOL partial_build)
num_vertices = (grid_size+1)*(grid_size+1);
num_indices = quad_count * 4;
- LLVector3& min = mExtents[0];
- LLVector3& max = mExtents[1];
+ LLVector4a& min = mExtents[0];
+ LLVector4a& max = mExtents[1];
S32 offset = 0;
if (mTypeMask & TOP_MASK)
+ {
offset = (max_t-1) * max_s;
+ }
else
+ {
offset = mBeginS;
+ }
- VertexData corners[4];
- VertexData baseVert;
- for(int t = 0; t < 4; t++){
- corners[t].mPosition = mesh[offset + (grid_size*t)].mPos;
- corners[t].mTexCoord.mV[0] = profile[grid_size*t].mV[0]+0.5f;
- corners[t].mTexCoord.mV[1] = 0.5f - profile[grid_size*t].mV[1];
- }
- baseVert.mNormal =
- ((corners[1].mPosition-corners[0].mPosition) %
- (corners[2].mPosition-corners[1].mPosition));
- baseVert.mNormal.normVec();
- if(!(mTypeMask & TOP_MASK)){
- baseVert.mNormal *= -1.0f;
- }else{
- //Swap the UVs on the U(X) axis for top face
- LLVector2 swap;
- swap = corners[0].mTexCoord;
- corners[0].mTexCoord=corners[3].mTexCoord;
- corners[3].mTexCoord=swap;
- swap = corners[1].mTexCoord;
- corners[1].mTexCoord=corners[2].mTexCoord;
- corners[2].mTexCoord=swap;
- }
- baseVert.mBinormal = calc_binormal_from_triangle(
- corners[0].mPosition, corners[0].mTexCoord,
- corners[1].mPosition, corners[1].mTexCoord,
- corners[2].mPosition, corners[2].mTexCoord);
- for(int t = 0; t < 4; t++){
- corners[t].mBinormal = baseVert.mBinormal;
- corners[t].mNormal = baseVert.mNormal;
- }
- mHasBinormals = TRUE;
-
- if (partial_build)
{
- mVertices.clear();
- }
+ VertexData corners[4];
+ VertexData baseVert;
+ for(S32 t = 0; t < 4; t++)
+ {
+ corners[t].getPosition().load3( mesh[offset + (grid_size*t)].mPos.mV);
+ corners[t].mTexCoord.mV[0] = profile[grid_size*t].mV[0]+0.5f;
+ corners[t].mTexCoord.mV[1] = 0.5f - profile[grid_size*t].mV[1];
+ }
- S32 vtop = mVertices.size();
- for(int gx = 0;gx<grid_size+1;gx++){
- for(int gy = 0;gy<grid_size+1;gy++){
- VertexData newVert;
- LerpPlanarVertex(
- corners[0],
- corners[1],
- corners[3],
- newVert,
- (F32)gx/(F32)grid_size,
- (F32)gy/(F32)grid_size);
- mVertices.push_back(newVert);
+ {
+ LLVector4a lhs;
+ lhs.setSub(corners[1].getPosition(), corners[0].getPosition());
+ LLVector4a rhs;
+ rhs.setSub(corners[2].getPosition(), corners[1].getPosition());
+ baseVert.getNormal().setCross3(lhs, rhs);
+ baseVert.getNormal().normalize3fast();
+ }
- if (gx == 0 && gy == 0)
- {
- min = max = newVert.mPosition;
- }
- else
+ if(!(mTypeMask & TOP_MASK))
+ {
+ baseVert.getNormal().mul(-1.0f);
+ }
+ else
+ {
+ //Swap the UVs on the U(X) axis for top face
+ LLVector2 swap;
+ swap = corners[0].mTexCoord;
+ corners[0].mTexCoord=corners[3].mTexCoord;
+ corners[3].mTexCoord=swap;
+ swap = corners[1].mTexCoord;
+ corners[1].mTexCoord=corners[2].mTexCoord;
+ corners[2].mTexCoord=swap;
+ }
+
+ LLVector4a binormal;
+
+ calc_binormal_from_triangle( binormal,
+ corners[0].getPosition(), corners[0].mTexCoord,
+ corners[1].getPosition(), corners[1].mTexCoord,
+ corners[2].getPosition(), corners[2].mTexCoord);
+
+ binormal.normalize3fast();
+
+ S32 size = (grid_size+1)*(grid_size+1);
+ resizeVertices(size);
+ allocateBinormals(size);
+
+ LLVector4a* pos = (LLVector4a*) mPositions;
+ LLVector4a* norm = (LLVector4a*) mNormals;
+ LLVector4a* binorm = (LLVector4a*) mBinormals;
+ LLVector2* tc = (LLVector2*) mTexCoords;
+
+ for(int gx = 0;gx<grid_size+1;gx++)
+ {
+ for(int gy = 0;gy<grid_size+1;gy++)
{
- update_min_max(min,max,newVert.mPosition);
+ VertexData newVert;
+ LerpPlanarVertex(
+ corners[0],
+ corners[1],
+ corners[3],
+ newVert,
+ (F32)gx/(F32)grid_size,
+ (F32)gy/(F32)grid_size);
+
+ *pos++ = newVert.getPosition();
+ *norm++ = baseVert.getNormal();
+ *tc++ = newVert.mTexCoord;
+ *binorm++ = binormal;
+
+ if (gx == 0 && gy == 0)
+ {
+ min = newVert.getPosition();
+ max = min;
+ }
+ else
+ {
+ min.setMin(min, newVert.getPosition());
+ max.setMax(max, newVert.getPosition());
+ }
}
}
- }
- mCenter = (min + max) * 0.5f;
+ mCenter->setAdd(min, max);
+ mCenter->mul(0.5f);
+ }
if (!partial_build)
{
-#if GEN_TRI_STRIP
- mTriStrip.clear();
-#endif
+ resizeIndices(grid_size*grid_size*6);
+
+ U16* out = mIndices;
+
S32 idxs[] = {0,1,(grid_size+1)+1,(grid_size+1)+1,(grid_size+1),0};
for(S32 gx = 0;gx<grid_size;gx++)
{
@@ -4574,61 +6170,18 @@ BOOL LLVolumeFace::createUnCutCubeCap(LLVolume* volume, BOOL partial_build)
{
for(S32 i=5;i>=0;i--)
{
- mIndices.push_back(vtop+(gy*(grid_size+1))+gx+idxs[i]);
- }
-
-#if GEN_TRI_STRIP
- if (gy == 0)
- {
- mTriStrip.push_back((gx+1)*(grid_size+1));
- mTriStrip.push_back((gx+1)*(grid_size+1));
- mTriStrip.push_back(gx*(grid_size+1));
- }
-
- mTriStrip.push_back(gy+1+(gx+1)*(grid_size+1));
- mTriStrip.push_back(gy+1+gx*(grid_size+1));
-
-
- if (gy == grid_size-1)
- {
- mTriStrip.push_back(gy+1+gx*(grid_size+1));
- }
-#endif
+ *out++ = ((gy*(grid_size+1))+gx+idxs[i]);
+ }
}
else
{
for(S32 i=0;i<6;i++)
{
- mIndices.push_back(vtop+(gy*(grid_size+1))+gx+idxs[i]);
+ *out++ = ((gy*(grid_size+1))+gx+idxs[i]);
}
-
-#if GEN_TRI_STRIP
- if (gy == 0)
- {
- mTriStrip.push_back(gx*(grid_size+1));
- mTriStrip.push_back(gx*(grid_size+1));
- mTriStrip.push_back((gx+1)*(grid_size+1));
- }
-
- mTriStrip.push_back(gy+1+gx*(grid_size+1));
- mTriStrip.push_back(gy+1+(gx+1)*(grid_size+1));
-
- if (gy == grid_size-1)
- {
- mTriStrip.push_back(gy+1+(gx+1)*(grid_size+1));
- }
-#endif
}
- }
-
- }
-
-#if GEN_TRI_STRIP
- if (mTriStrip.size()%2 == 1)
- {
- mTriStrip.push_back(mTriStrip[mTriStrip.size()-1]);
+ }
}
-#endif
}
return TRUE;
@@ -4658,17 +6211,31 @@ BOOL LLVolumeFace::createCap(LLVolume* volume, BOOL partial_build)
num_vertices = profile.size();
num_indices = (profile.size() - 2)*3;
- mVertices.resize(num_vertices);
+ if (!(mTypeMask & HOLLOW_MASK) && !(mTypeMask & OPEN_MASK))
+ {
+ resizeVertices(num_vertices+1);
+ allocateBinormals(num_vertices+1);
- if (!partial_build)
+ if (!partial_build)
+ {
+ resizeIndices(num_indices+3);
+ }
+ }
+ else
{
- mIndices.resize(num_indices);
+ resizeVertices(num_vertices);
+ allocateBinormals(num_vertices);
+
+ if (!partial_build)
+ {
+ resizeIndices(num_indices);
+ }
}
S32 max_s = volume->getProfile().getTotal();
S32 max_t = volume->getPath().mPath.size();
- mCenter.clearVec();
+ mCenter->clear();
S32 offset = 0;
if (mTypeMask & TOP_MASK)
@@ -4686,82 +6253,91 @@ BOOL LLVolumeFace::createCap(LLVolume* volume, BOOL partial_build)
LLVector2 cuv;
LLVector2 min_uv, max_uv;
- LLVector3& min = mExtents[0];
- LLVector3& max = mExtents[1];
+ LLVector4a& min = mExtents[0];
+ LLVector4a& max = mExtents[1];
+
+ LLVector2* tc = (LLVector2*) mTexCoords;
+ LLVector4a* pos = (LLVector4a*) mPositions;
+ LLVector4a* norm = (LLVector4a*) mNormals;
+ LLVector4a* binorm = (LLVector4a*) mBinormals;
// Copy the vertices into the array
for (S32 i = 0; i < num_vertices; i++)
{
if (mTypeMask & TOP_MASK)
{
- mVertices[i].mTexCoord.mV[0] = profile[i].mV[0]+0.5f;
- mVertices[i].mTexCoord.mV[1] = profile[i].mV[1]+0.5f;
+ tc[i].mV[0] = profile[i].mV[0]+0.5f;
+ tc[i].mV[1] = profile[i].mV[1]+0.5f;
}
else
{
// Mirror for underside.
- mVertices[i].mTexCoord.mV[0] = profile[i].mV[0]+0.5f;
- mVertices[i].mTexCoord.mV[1] = 0.5f - profile[i].mV[1];
+ tc[i].mV[0] = profile[i].mV[0]+0.5f;
+ tc[i].mV[1] = 0.5f - profile[i].mV[1];
}
- mVertices[i].mPosition = mesh[i + offset].mPos;
+ pos[i].load3(mesh[i + offset].mPos.mV);
if (i == 0)
{
- min = max = mVertices[i].mPosition;
- min_uv = max_uv = mVertices[i].mTexCoord;
+ max = pos[i];
+ min = max;
+ min_uv = max_uv = tc[i];
}
else
{
- update_min_max(min,max, mVertices[i].mPosition);
- update_min_max(min_uv, max_uv, mVertices[i].mTexCoord);
+ update_min_max(min,max,pos[i]);
+ update_min_max(min_uv, max_uv, tc[i]);
}
}
- mCenter = (min+max)*0.5f;
+ mCenter->setAdd(min, max);
+ mCenter->mul(0.5f);
+
cuv = (min_uv + max_uv)*0.5f;
- LLVector3 binormal = calc_binormal_from_triangle(
- mCenter, cuv,
- mVertices[0].mPosition, mVertices[0].mTexCoord,
- mVertices[1].mPosition, mVertices[1].mTexCoord);
- binormal.normVec();
+ LLVector4a binormal;
+ calc_binormal_from_triangle(binormal,
+ *mCenter, cuv,
+ pos[0], tc[0],
+ pos[1], tc[1]);
+ binormal.normalize3fast();
- LLVector3 d0;
- LLVector3 d1;
- LLVector3 normal;
+ LLVector4a normal;
+ LLVector4a d0, d1;
+
+
+ d0.setSub(*mCenter, pos[0]);
+ d1.setSub(*mCenter, pos[1]);
- d0 = mCenter-mVertices[0].mPosition;
- d1 = mCenter-mVertices[1].mPosition;
+ if (mTypeMask & TOP_MASK)
+ {
+ normal.setCross3(d0, d1);
+ }
+ else
+ {
+ normal.setCross3(d1, d0);
+ }
- normal = (mTypeMask & TOP_MASK) ? (d0%d1) : (d1%d0);
- normal.normVec();
+ normal.normalize3fast();
VertexData vd;
- vd.mPosition = mCenter;
- vd.mNormal = normal;
- vd.mBinormal = binormal;
+ vd.setPosition(*mCenter);
vd.mTexCoord = cuv;
if (!(mTypeMask & HOLLOW_MASK) && !(mTypeMask & OPEN_MASK))
{
- mVertices.push_back(vd);
+ pos[num_vertices] = *mCenter;
+ tc[num_vertices] = cuv;
num_vertices++;
- if (!partial_build)
- {
- vector_append(mIndices, 3);
- }
}
-
for (S32 i = 0; i < num_vertices; i++)
{
- mVertices[i].mBinormal = binormal;
- mVertices[i].mNormal = normal;
+ binorm[i].load4a(binormal.getF32ptr());
+ norm[i].load4a(normal.getF32ptr());
}
- mHasBinormals = TRUE;
-
if (partial_build)
{
return TRUE;
@@ -4869,8 +6445,6 @@ BOOL LLVolumeFace::createCap(LLVolume* volume, BOOL partial_build)
pt2--;
}
}
-
- makeTriStrip();
}
else
{
@@ -4975,8 +6549,6 @@ BOOL LLVolumeFace::createCap(LLVolume* volume, BOOL partial_build)
pt2--;
}
}
-
- makeTriStrip();
}
}
else
@@ -4998,131 +6570,277 @@ BOOL LLVolumeFace::createCap(LLVolume* volume, BOOL partial_build)
mIndices[3*i+v2] = i + 1;
}
-#if GEN_TRI_STRIP
- //make tri strip
- if (mTypeMask & OPEN_MASK)
- {
- makeTriStrip();
- }
- else
- {
- S32 j = num_vertices-2;
- if (mTypeMask & TOP_MASK)
- {
- mTriStrip.push_back(0);
- for (S32 i = 0; i <= j; ++i)
- {
- mTriStrip.push_back(i);
- if (i != j)
- {
- mTriStrip.push_back(j);
- }
- --j;
- }
- }
- else
- {
- mTriStrip.push_back(j);
- for (S32 i = 0; i <= j; ++i)
- {
- if (i != j)
- {
- mTriStrip.push_back(j);
- }
- mTriStrip.push_back(i);
- --j;
- }
- }
-
- mTriStrip.push_back(mTriStrip[mTriStrip.size()-1]);
- if (mTriStrip.size()%2 == 1)
- {
- mTriStrip.push_back(mTriStrip[mTriStrip.size()-1]);
- }
- }
-#endif
}
return TRUE;
}
-void LLVolumeFace::makeTriStrip()
+void LLVolumeFace::createBinormals()
{
-#if GEN_TRI_STRIP
- for (U32 i = 0; i < mIndices.size(); i+=3)
+ LLMemType m1(LLMemType::MTYPE_VOLUME);
+
+ if (!mBinormals)
{
- U16 i0 = mIndices[i];
- U16 i1 = mIndices[i+1];
- U16 i2 = mIndices[i+2];
+ allocateBinormals(mNumVertices);
- if ((i/3)%2 == 1)
- {
- mTriStrip.push_back(i0);
- mTriStrip.push_back(i0);
- mTriStrip.push_back(i1);
- mTriStrip.push_back(i2);
- mTriStrip.push_back(i2);
- }
- else
+ //generate binormals
+ LLVector4a* pos = mPositions;
+ LLVector2* tc = (LLVector2*) mTexCoords;
+ LLVector4a* binorm = (LLVector4a*) mBinormals;
+
+ LLVector4a* end = mBinormals+mNumVertices;
+ while (binorm < end)
{
- mTriStrip.push_back(i2);
- mTriStrip.push_back(i2);
- mTriStrip.push_back(i1);
- mTriStrip.push_back(i0);
- mTriStrip.push_back(i0);
+ (*binorm++).clear();
}
- }
- if (mTriStrip.size()%2 == 1)
- {
- mTriStrip.push_back(mTriStrip[mTriStrip.size()-1]);
- }
-#endif
-}
+ binorm = mBinormals;
-void LLVolumeFace::createBinormals()
-{
- LLMemType m1(LLMemType::MTYPE_VOLUME);
-
- if (!mHasBinormals)
- {
- //generate binormals
- for (U32 i = 0; i < mIndices.size()/3; i++)
+ for (U32 i = 0; i < mNumIndices/3; i++)
{ //for each triangle
- const VertexData& v0 = mVertices[mIndices[i*3+0]];
- const VertexData& v1 = mVertices[mIndices[i*3+1]];
- const VertexData& v2 = mVertices[mIndices[i*3+2]];
+ const U16& i0 = mIndices[i*3+0];
+ const U16& i1 = mIndices[i*3+1];
+ const U16& i2 = mIndices[i*3+2];
//calculate binormal
- LLVector3 binorm = calc_binormal_from_triangle(v0.mPosition, v0.mTexCoord,
- v1.mPosition, v1.mTexCoord,
- v2.mPosition, v2.mTexCoord);
+ LLVector4a binormal;
+ calc_binormal_from_triangle(binormal,
+ pos[i0], tc[i0],
+ pos[i1], tc[i1],
+ pos[i2], tc[i2]);
- for (U32 j = 0; j < 3; j++)
- { //add triangle normal to vertices
- mVertices[mIndices[i*3+j]].mBinormal += binorm; // * (weight_sum - d[j])/weight_sum;
- }
+
+ //add triangle normal to vertices
+ binorm[i0].add(binormal);
+ binorm[i1].add(binormal);
+ binorm[i2].add(binormal);
//even out quad contributions
if (i % 2 == 0)
{
- mVertices[mIndices[i*3+2]].mBinormal += binorm;
+ binorm[i2].add(binormal);
}
else
{
- mVertices[mIndices[i*3+1]].mBinormal += binorm;
+ binorm[i1].add(binormal);
}
}
//normalize binormals
- for (U32 i = 0; i < mVertices.size(); i++)
+ for (U32 i = 0; i < mNumVertices; i++)
{
- mVertices[i].mBinormal.normVec();
- mVertices[i].mNormal.normVec();
+ binorm[i].normalize3fast();
+ //bump map/planar projection code requires normals to be normalized
+ mNormals[i].normalize3fast();
}
+ }
+}
- mHasBinormals = TRUE;
+void LLVolumeFace::resizeVertices(S32 num_verts)
+{
+ free(mPositions);
+ free(mNormals);
+ free(mBinormals);
+ free(mTexCoords);
+
+ mBinormals = NULL;
+
+ if (num_verts)
+ {
+ mPositions = (LLVector4a*) malloc(sizeof(LLVector4a)*num_verts);
+ assert_aligned(mPositions, 16);
+ mNormals = (LLVector4a*) malloc(sizeof(LLVector4a)*num_verts);
+ assert_aligned(mNormals, 16);
+
+ //pad texture coordinate block end to allow for QWORD reads
+ S32 size = ((num_verts*sizeof(LLVector2)) + 0xF) & ~0xF;
+ mTexCoords = (LLVector2*) malloc(size);
+ assert_aligned(mTexCoords, 16);
+ }
+ else
+ {
+ mPositions = NULL;
+ mNormals = NULL;
+ mTexCoords = NULL;
+ }
+
+ mNumVertices = num_verts;
+}
+
+void LLVolumeFace::pushVertex(const LLVolumeFace::VertexData& cv)
+{
+ pushVertex(cv.getPosition(), cv.getNormal(), cv.mTexCoord);
+}
+
+void LLVolumeFace::pushVertex(const LLVector4a& pos, const LLVector4a& norm, const LLVector2& tc)
+{
+ S32 new_verts = mNumVertices+1;
+ S32 new_size = new_verts*16;
+// S32 old_size = mNumVertices*16;
+
+ //positions
+ mPositions = (LLVector4a*) realloc(mPositions, new_size);
+
+ //normals
+ mNormals = (LLVector4a*) realloc(mNormals, new_size);
+
+ //tex coords
+ new_size = ((new_verts*8)+0xF) & ~0xF;
+ mTexCoords = (LLVector2*) realloc(mTexCoords, new_size);
+
+
+ //just clear binormals
+ free(mBinormals);
+ mBinormals = NULL;
+
+ mPositions[mNumVertices] = pos;
+ mNormals[mNumVertices] = norm;
+ mTexCoords[mNumVertices] = tc;
+
+ mNumVertices++;
+}
+
+void LLVolumeFace::allocateBinormals(S32 num_verts)
+{
+ free(mBinormals);
+ mBinormals = (LLVector4a*) malloc(sizeof(LLVector4a)*num_verts);
+}
+
+void LLVolumeFace::allocateWeights(S32 num_verts)
+{
+ free(mWeights);
+ mWeights = (LLVector4a*) malloc(sizeof(LLVector4a)*num_verts);
+}
+
+void LLVolumeFace::resizeIndices(S32 num_indices)
+{
+ free(mIndices);
+
+ if (num_indices)
+ {
+ //pad index block end to allow for QWORD reads
+ S32 size = ((num_indices*sizeof(U16)) + 0xF) & ~0xF;
+
+ mIndices = (U16*) malloc(size);
+ }
+ else
+ {
+ mIndices = NULL;
+ }
+
+ mNumIndices = num_indices;
+}
+
+void LLVolumeFace::pushIndex(const U16& idx)
+{
+ S32 new_count = mNumIndices + 1;
+ S32 new_size = ((new_count*2)+0xF) & ~0xF;
+
+ S32 old_size = ((mNumIndices*2)+0xF) & ~0xF;
+ if (new_size != old_size)
+ {
+ mIndices = (U16*) realloc(mIndices, new_size);
+ }
+
+ mIndices[mNumIndices++] = idx;
+}
+
+void LLVolumeFace::fillFromLegacyData(std::vector<LLVolumeFace::VertexData>& v, std::vector<U16>& idx)
+{
+ resizeVertices(v.size());
+ resizeIndices(idx.size());
+
+ for (U32 i = 0; i < v.size(); ++i)
+ {
+ mPositions[i] = v[i].getPosition();
+ mNormals[i] = v[i].getNormal();
+ mTexCoords[i] = v[i].mTexCoord;
+ }
+
+ for (U32 i = 0; i < idx.size(); ++i)
+ {
+ mIndices[i] = idx[i];
+ }
+}
+
+void LLVolumeFace::appendFace(const LLVolumeFace& face, LLMatrix4& mat_in, LLMatrix4& norm_mat_in)
+{
+ U16 offset = mNumVertices;
+
+ S32 new_count = face.mNumVertices + mNumVertices;
+
+ if (new_count > 65536)
+ {
+ llerrs << "Cannot append face -- 16-bit overflow will occur." << llendl;
+ }
+
+ if (face.mNumVertices == 0)
+ {
+ llerrs << "Cannot append empty face." << llendl;
+ }
+
+ //allocate new buffer space
+ mPositions = (LLVector4a*) realloc(mPositions, new_count*sizeof(LLVector4a));
+ assert_aligned(mPositions, 16);
+ mNormals = (LLVector4a*) realloc(mNormals, new_count*sizeof(LLVector4a));
+ assert_aligned(mNormals, 16);
+ mTexCoords = (LLVector2*) realloc(mTexCoords, (new_count*sizeof(LLVector2)+0xF) & ~0xF);
+ assert_aligned(mTexCoords, 16);
+
+ mNumVertices = new_count;
+
+ //get destination address of appended face
+ LLVector4a* dst_pos = mPositions+offset;
+ LLVector2* dst_tc = mTexCoords+offset;
+ LLVector4a* dst_norm = mNormals+offset;
+
+ //get source addresses of appended face
+ const LLVector4a* src_pos = face.mPositions;
+ const LLVector2* src_tc = face.mTexCoords;
+ const LLVector4a* src_norm = face.mNormals;
+
+ //load aligned matrices
+ LLMatrix4a mat, norm_mat;
+ mat.loadu(mat_in);
+ norm_mat.loadu(norm_mat_in);
+
+ for (U32 i = 0; i < face.mNumVertices; ++i)
+ {
+ //transform appended face position and store
+ mat.affineTransform(src_pos[i], dst_pos[i]);
+
+ //transform appended face normal and store
+ norm_mat.rotate(src_norm[i], dst_norm[i]);
+ dst_norm[i].normalize3fast();
+
+ //copy appended face texture coordinate
+ dst_tc[i] = src_tc[i];
+
+ if (offset == 0 && i == 0)
+ { //initialize bounding box
+ mExtents[0] = mExtents[1] = dst_pos[i];
+ }
+ else
+ {
+ //stretch bounding box
+ update_min_max(mExtents[0], mExtents[1], dst_pos[i]);
+ }
+ }
+
+
+ new_count = mNumIndices + face.mNumIndices;
+
+ //allocate new index buffer
+ mIndices = (U16*) realloc(mIndices, (new_count*sizeof(U16)+0xF) & ~0xF);
+
+ //get destination address into new index buffer
+ U16* dst_idx = mIndices+mNumIndices;
+ mNumIndices = new_count;
+
+ for (U32 i = 0; i < face.mNumIndices; ++i)
+ { //copy indices, offsetting by old vertex count
+ dst_idx[i] = face.mIndices[i]+offset;
}
}
@@ -5152,18 +6870,20 @@ BOOL LLVolumeFace::createSide(LLVolume* volume, BOOL partial_build)
num_vertices = mNumS*mNumT;
num_indices = (mNumS-1)*(mNumT-1)*6;
- mVertices.resize(num_vertices);
-
if (!partial_build)
{
- mIndices.resize(num_indices);
- mEdge.resize(num_indices);
- }
- else
- {
- mHasBinormals = FALSE;
+ resizeVertices(num_vertices);
+ resizeIndices(num_indices);
+
+ if ((volume->getParams().getSculptType() & LL_SCULPT_TYPE_MASK) != LL_SCULPT_TYPE_MESH)
+ {
+ mEdge.resize(num_indices);
+ }
}
+ LLVector4a* pos = (LLVector4a*) mPositions;
+ LLVector4a* norm = (LLVector4a*) mNormals;
+ LLVector2* tc = (LLVector2*) mTexCoords;
S32 begin_stex = llfloor( profile[mBeginS].mV[2] );
S32 num_s = ((mTypeMask & INNER_MASK) && (mTypeMask & FLAT_MASK) && mNumS > 2) ? mNumS/2 : mNumS;
@@ -5214,21 +6934,20 @@ BOOL LLVolumeFace::createSide(LLVolume* volume, BOOL partial_build)
i = mBeginS + s + max_s*t;
}
- mVertices[cur_vertex].mPosition = mesh[i].mPos;
- mVertices[cur_vertex].mTexCoord = LLVector2(ss,tt);
+ pos[cur_vertex].load3(mesh[i].mPos.mV);
+ tc[cur_vertex] = LLVector2(ss,tt);
- mVertices[cur_vertex].mNormal = LLVector3(0,0,0);
- mVertices[cur_vertex].mBinormal = LLVector3(0,0,0);
-
+ norm[cur_vertex].clear();
cur_vertex++;
if ((mTypeMask & INNER_MASK) && (mTypeMask & FLAT_MASK) && mNumS > 2 && s > 0)
{
- mVertices[cur_vertex].mPosition = mesh[i].mPos;
- mVertices[cur_vertex].mTexCoord = LLVector2(ss,tt);
+
+ pos[cur_vertex].load3(mesh[i].mPos.mV);
+ tc[cur_vertex] = LLVector2(ss,tt);
- mVertices[cur_vertex].mNormal = LLVector3(0,0,0);
- mVertices[cur_vertex].mBinormal = LLVector3(0,0,0);
+ norm[cur_vertex].clear();
+
cur_vertex++;
}
}
@@ -5246,29 +6965,29 @@ BOOL LLVolumeFace::createSide(LLVolume* volume, BOOL partial_build)
i = mBeginS + s + max_s*t;
ss = profile[mBeginS + s].mV[2] - begin_stex;
- mVertices[cur_vertex].mPosition = mesh[i].mPos;
- mVertices[cur_vertex].mTexCoord = LLVector2(ss,tt);
-
- mVertices[cur_vertex].mNormal = LLVector3(0,0,0);
- mVertices[cur_vertex].mBinormal = LLVector3(0,0,0);
-
+ pos[cur_vertex].load3(mesh[i].mPos.mV);
+ tc[cur_vertex] = LLVector2(ss,tt);
+ norm[cur_vertex].clear();
+
cur_vertex++;
}
}
//get bounding box for this side
- LLVector3& face_min = mExtents[0];
- LLVector3& face_max = mExtents[1];
- mCenter.clearVec();
+ LLVector4a& face_min = mExtents[0];
+ LLVector4a& face_max = mExtents[1];
+ mCenter->clear();
+
+ face_min = face_max = pos[0];
- face_min = face_max = mVertices[0].mPosition;
- for (U32 i = 1; i < mVertices.size(); ++i)
+ for (U32 i = 1; i < mNumVertices; ++i)
{
- update_min_max(face_min, face_max, mVertices[i].mPosition);
+ update_min_max(face_min, face_max, pos[i]);
}
- mCenter = (face_min + face_max) * 0.5f;
+ mCenter->setAdd(face_min, face_max);
+ mCenter->mul(0.5f);
S32 cur_index = 0;
S32 cur_edge = 0;
@@ -5276,18 +6995,9 @@ BOOL LLVolumeFace::createSide(LLVolume* volume, BOOL partial_build)
if (!partial_build)
{
-#if GEN_TRI_STRIP
- mTriStrip.clear();
-#endif
-
// Now we generate the indices.
for (t = 0; t < (mNumT-1); t++)
{
-#if GEN_TRI_STRIP
- //prepend terminating index to strip
- mTriStrip.push_back(mNumS*t);
-#endif
-
for (s = 0; s < (mNumS-1); s++)
{
mIndices[cur_index++] = s + mNumS*t; //bottom left
@@ -5297,16 +7007,6 @@ BOOL LLVolumeFace::createSide(LLVolume* volume, BOOL partial_build)
mIndices[cur_index++] = s+1 + mNumS*t; //bottom right
mIndices[cur_index++] = s+1 + mNumS*(t+1); //top right
-#if GEN_TRI_STRIP
- if (s == 0)
- {
- mTriStrip.push_back(s+mNumS*t);
- mTriStrip.push_back(s+mNumS*(t+1));
- }
- mTriStrip.push_back(s+1+mNumS*t);
- mTriStrip.push_back(s+1+mNumS*(t+1));
-#endif
-
mEdge[cur_edge++] = (mNumS-1)*2*t+s*2+1; //bottom left/top right neighbor face
if (t < mNumT-2) { //top right/top left neighbor face
mEdge[cur_edge++] = (mNumS-1)*2*(t+1)+s*2+1;
@@ -5347,52 +7047,61 @@ BOOL LLVolumeFace::createSide(LLVolume* volume, BOOL partial_build)
}
mEdge[cur_edge++] = (mNumS-1)*2*t+s*2; //top right/bottom left neighbor face
}
-#if GEN_TRI_STRIP
- //append terminating vertex to strip
- mTriStrip.push_back(mNumS-1+mNumS*(t+1));
-#endif
}
+ }
-#if GEN_TRI_STRIP
- if (mTriStrip.size()%2 == 1)
- {
- mTriStrip.push_back(mTriStrip[mTriStrip.size()-1]);
- }
-#endif
+ //clear normals
+ for (U32 i = 0; i < mNumVertices; i++)
+ {
+ mNormals[i].clear();
}
//generate normals
- for (U32 i = 0; i < mIndices.size()/3; i++) //for each triangle
+ for (U32 i = 0; i < mNumIndices/3; i++) //for each triangle
{
const U16* idx = &(mIndices[i*3]);
-
- VertexData* v[] =
- { &mVertices[idx[0]], &mVertices[idx[1]], &mVertices[idx[2]] };
-
- //calculate triangle normal
- LLVector3 norm = (v[0]->mPosition-v[1]->mPosition) % (v[0]->mPosition-v[2]->mPosition);
+
- v[0]->mNormal += norm;
- v[1]->mNormal += norm;
- v[2]->mNormal += norm;
+ LLVector4a* v[] =
+ { pos+idx[0], pos+idx[1], pos+idx[2] };
+
+ LLVector4a* n[] =
+ { norm+idx[0], norm+idx[1], norm+idx[2] };
+
+ //calculate triangle normal
+ LLVector4a a, b, c;
+
+ a.setSub(*v[0], *v[1]);
+ b.setSub(*v[0], *v[2]);
+ c.setCross3(a,b);
+ n[0]->add(c);
+ n[1]->add(c);
+ n[2]->add(c);
+
//even out quad contributions
- v[i%2+1]->mNormal += norm;
+ n[i%2+1]->add(c);
}
// adjust normals based on wrapping and stitching
- BOOL s_bottom_converges = ((mVertices[0].mPosition - mVertices[mNumS*(mNumT-2)].mPosition).magVecSquared() < 0.000001f);
- BOOL s_top_converges = ((mVertices[mNumS-1].mPosition - mVertices[mNumS*(mNumT-2)+mNumS-1].mPosition).magVecSquared() < 0.000001f);
+ LLVector4a top;
+ top.setSub(pos[0], pos[mNumS*(mNumT-2)]);
+ BOOL s_bottom_converges = (top.dot3(top) < 0.000001f);
+
+ top.setSub(pos[mNumS-1], pos[mNumS*(mNumT-2)+mNumS-1]);
+ BOOL s_top_converges = (top.dot3(top) < 0.000001f);
+
if (sculpt_stitching == LL_SCULPT_TYPE_NONE) // logic for non-sculpt volumes
{
if (volume->getPath().isOpen() == FALSE)
{ //wrap normals on T
for (S32 i = 0; i < mNumS; i++)
{
- LLVector3 norm = mVertices[i].mNormal + mVertices[mNumS*(mNumT-1)+i].mNormal;
- mVertices[i].mNormal = norm;
- mVertices[mNumS*(mNumT-1)+i].mNormal = norm;
+ LLVector4a n;
+ n.setAdd(norm[i], norm[mNumS*(mNumT-1)+i]);
+ norm[i] = n;
+ norm[mNumS*(mNumT-1)+i] = n;
}
}
@@ -5400,9 +7109,10 @@ BOOL LLVolumeFace::createSide(LLVolume* volume, BOOL partial_build)
{ //wrap normals on S
for (S32 i = 0; i < mNumT; i++)
{
- LLVector3 norm = mVertices[mNumS*i].mNormal + mVertices[mNumS*i+mNumS-1].mNormal;
- mVertices[mNumS * i].mNormal = norm;
- mVertices[mNumS * i+mNumS-1].mNormal = norm;
+ LLVector4a n;
+ n.setAdd(norm[mNumS*i], norm[mNumS*i+mNumS-1]);
+ norm[mNumS * i] = n;
+ norm[mNumS * i+mNumS-1] = n;
}
}
@@ -5413,7 +7123,7 @@ BOOL LLVolumeFace::createSide(LLVolume* volume, BOOL partial_build)
{ //all lower S have same normal
for (S32 i = 0; i < mNumT; i++)
{
- mVertices[mNumS*i].mNormal = LLVector3(1,0,0);
+ norm[mNumS*i].set(1,0,0);
}
}
@@ -5421,12 +7131,11 @@ BOOL LLVolumeFace::createSide(LLVolume* volume, BOOL partial_build)
{ //all upper S have same normal
for (S32 i = 0; i < mNumT; i++)
{
- mVertices[mNumS*i+mNumS-1].mNormal = LLVector3(-1,0,0);
+ norm[mNumS*i+mNumS-1].set(-1,0,0);
}
}
}
}
-
else // logic for sculpt volumes
{
BOOL average_poles = FALSE;
@@ -5449,30 +7158,33 @@ BOOL LLVolumeFace::createSide(LLVolume* volume, BOOL partial_build)
{
// average normals for north pole
- LLVector3 average(0.0, 0.0, 0.0);
+ LLVector4a average;
+ average.clear();
+
for (S32 i = 0; i < mNumS; i++)
{
- average += mVertices[i].mNormal;
+ average.add(norm[i]);
}
// set average
for (S32 i = 0; i < mNumS; i++)
{
- mVertices[i].mNormal = average;
+ norm[i] = average;
}
// average normals for south pole
- average = LLVector3(0.0, 0.0, 0.0);
+ average.clear();
+
for (S32 i = 0; i < mNumS; i++)
{
- average += mVertices[i + mNumS * (mNumT - 1)].mNormal;
+ average.add(norm[i + mNumS * (mNumT - 1)]);
}
// set average
for (S32 i = 0; i < mNumS; i++)
{
- mVertices[i + mNumS * (mNumT - 1)].mNormal = average;
+ norm[i + mNumS * (mNumT - 1)] = average;
}
}
@@ -5482,23 +7194,22 @@ BOOL LLVolumeFace::createSide(LLVolume* volume, BOOL partial_build)
{
for (S32 i = 0; i < mNumT; i++)
{
- LLVector3 norm = mVertices[mNumS*i].mNormal + mVertices[mNumS*i+mNumS-1].mNormal;
- mVertices[mNumS * i].mNormal = norm;
- mVertices[mNumS * i+mNumS-1].mNormal = norm;
+ LLVector4a n;
+ n.setAdd(norm[mNumS*i], norm[mNumS*i+mNumS-1]);
+ norm[mNumS * i] = n;
+ norm[mNumS * i+mNumS-1] = n;
}
}
-
-
if (wrap_t)
{
for (S32 i = 0; i < mNumS; i++)
{
- LLVector3 norm = mVertices[i].mNormal + mVertices[mNumS*(mNumT-1)+i].mNormal;
- mVertices[i].mNormal = norm;
- mVertices[mNumS*(mNumT-1)+i].mNormal = norm;
+ LLVector4a n;
+ n.setAdd(norm[i], norm[mNumS*(mNumT-1)+i]);
+ norm[i] = n;
+ norm[mNumS*(mNumT-1)+i] = n;
}
-
}
}
@@ -5508,41 +7219,51 @@ BOOL LLVolumeFace::createSide(LLVolume* volume, BOOL partial_build)
// Finds binormal based on three vertices with texture coordinates.
// Fills in dummy values if the triangle has degenerate texture coordinates.
-LLVector3 calc_binormal_from_triangle(
- const LLVector3& pos0,
+void calc_binormal_from_triangle(LLVector4a& binormal,
+
+ const LLVector4a& pos0,
const LLVector2& tex0,
- const LLVector3& pos1,
+ const LLVector4a& pos1,
const LLVector2& tex1,
- const LLVector3& pos2,
+ const LLVector4a& pos2,
const LLVector2& tex2)
{
- LLVector3 rx0( pos0.mV[VX], tex0.mV[VX], tex0.mV[VY] );
- LLVector3 rx1( pos1.mV[VX], tex1.mV[VX], tex1.mV[VY] );
- LLVector3 rx2( pos2.mV[VX], tex2.mV[VX], tex2.mV[VY] );
+ LLVector4a rx0( pos0[VX], tex0.mV[VX], tex0.mV[VY] );
+ LLVector4a rx1( pos1[VX], tex1.mV[VX], tex1.mV[VY] );
+ LLVector4a rx2( pos2[VX], tex2.mV[VX], tex2.mV[VY] );
- LLVector3 ry0( pos0.mV[VY], tex0.mV[VX], tex0.mV[VY] );
- LLVector3 ry1( pos1.mV[VY], tex1.mV[VX], tex1.mV[VY] );
- LLVector3 ry2( pos2.mV[VY], tex2.mV[VX], tex2.mV[VY] );
+ LLVector4a ry0( pos0[VY], tex0.mV[VX], tex0.mV[VY] );
+ LLVector4a ry1( pos1[VY], tex1.mV[VX], tex1.mV[VY] );
+ LLVector4a ry2( pos2[VY], tex2.mV[VX], tex2.mV[VY] );
- LLVector3 rz0( pos0.mV[VZ], tex0.mV[VX], tex0.mV[VY] );
- LLVector3 rz1( pos1.mV[VZ], tex1.mV[VX], tex1.mV[VY] );
- LLVector3 rz2( pos2.mV[VZ], tex2.mV[VX], tex2.mV[VY] );
+ LLVector4a rz0( pos0[VZ], tex0.mV[VX], tex0.mV[VY] );
+ LLVector4a rz1( pos1[VZ], tex1.mV[VX], tex1.mV[VY] );
+ LLVector4a rz2( pos2[VZ], tex2.mV[VX], tex2.mV[VY] );
- LLVector3 r0 = (rx0 - rx1) % (rx0 - rx2);
- LLVector3 r1 = (ry0 - ry1) % (ry0 - ry2);
- LLVector3 r2 = (rz0 - rz1) % (rz0 - rz2);
+ LLVector4a lhs, rhs;
+
+ LLVector4a r0;
+ lhs.setSub(rx0, rx1); rhs.setSub(rx0, rx2);
+ r0.setCross3(lhs, rhs);
+
+ LLVector4a r1;
+ lhs.setSub(ry0, ry1); rhs.setSub(ry0, ry2);
+ r1.setCross3(lhs, rhs);
+
+ LLVector4a r2;
+ lhs.setSub(rz0, rz1); rhs.setSub(rz0, rz2);
+ r2.setCross3(lhs, rhs);
- if( r0.mV[VX] && r1.mV[VX] && r2.mV[VX] )
+ if( r0[VX] && r1[VX] && r2[VX] )
{
- LLVector3 binormal(
- -r0.mV[VZ] / r0.mV[VX],
- -r1.mV[VZ] / r1.mV[VX],
- -r2.mV[VZ] / r2.mV[VX]);
+ binormal.set(
+ -r0[VZ] / r0[VX],
+ -r1[VZ] / r1[VX],
+ -r2[VZ] / r2[VX]);
// binormal.normVec();
- return binormal;
}
else
{
- return LLVector3( 0, 1 , 0 );
+ binormal.set( 0, 1 , 0 );
}
}
diff --git a/indra/llmath/llvolume.h b/indra/llmath/llvolume.h
index 4a25f586da..eceaced9e2 100644
--- a/indra/llmath/llvolume.h
+++ b/indra/llmath/llvolume.h
@@ -1,1106 +1,1106 @@
-/**
- * @file llvolume.h
- * @brief LLVolume base class.
- *
- * $LicenseInfo:firstyear=2002&license=viewerlgpl$
- * 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
- * $/LicenseInfo$
- */
-
-#ifndef LL_LLVOLUME_H
-#define LL_LLVOLUME_H
-
-#include <iostream>
-
-class LLProfileParams;
-class LLPathParams;
-class LLVolumeParams;
-class LLProfile;
-class LLPath;
-
-template <class T> class LLOctreeNode;
-
-class LLVector4a;
-class LLVolumeFace;
-class LLVolume;
-class LLVolumeTriangle;
-
-#include "lldarray.h"
-#include "lluuid.h"
-#include "v4color.h"
-//#include "vmath.h"
-#include "v2math.h"
-#include "v3math.h"
-#include "v3dmath.h"
-#include "v4math.h"
-#include "llquaternion.h"
-#include "llstrider.h"
-#include "v4coloru.h"
-#include "llrefcount.h"
-#include "llfile.h"
-
-//============================================================================
-
-const S32 MIN_DETAIL_FACES = 6;
-const S32 MIN_LOD = 0;
-const S32 MAX_LOD = 3;
-
-// These are defined here but are not enforced at this level,
-// rather they are here for the convenience of code that uses
-// the LLVolume class.
-const F32 MIN_VOLUME_PROFILE_WIDTH = 0.05f;
-const F32 MIN_VOLUME_PATH_WIDTH = 0.05f;
-
-const F32 CUT_QUANTA = 0.00002f;
-const F32 SCALE_QUANTA = 0.01f;
-const F32 SHEAR_QUANTA = 0.01f;
-const F32 TAPER_QUANTA = 0.01f;
-const F32 REV_QUANTA = 0.015f;
-const F32 HOLLOW_QUANTA = 0.00002f;
-
-const S32 MAX_VOLUME_TRIANGLE_INDICES = 10000;
-
-//============================================================================
-
-// useful masks
-const LLPCode LL_PCODE_HOLLOW_MASK = 0x80; // has a thickness
-const LLPCode LL_PCODE_SEGMENT_MASK = 0x40; // segments (1 angle)
-const LLPCode LL_PCODE_PATCH_MASK = 0x20; // segmented segments (2 angles)
-const LLPCode LL_PCODE_HEMI_MASK = 0x10; // half-primitives get their own type per PR's dictum
-const LLPCode LL_PCODE_BASE_MASK = 0x0F;
-
- // primitive shapes
-const LLPCode LL_PCODE_CUBE = 1;
-const LLPCode LL_PCODE_PRISM = 2;
-const LLPCode LL_PCODE_TETRAHEDRON = 3;
-const LLPCode LL_PCODE_PYRAMID = 4;
-const LLPCode LL_PCODE_CYLINDER = 5;
-const LLPCode LL_PCODE_CONE = 6;
-const LLPCode LL_PCODE_SPHERE = 7;
-const LLPCode LL_PCODE_TORUS = 8;
-const LLPCode LL_PCODE_VOLUME = 9;
-
- // surfaces
-//const LLPCode LL_PCODE_SURFACE_TRIANGLE = 10;
-//const LLPCode LL_PCODE_SURFACE_SQUARE = 11;
-//const LLPCode LL_PCODE_SURFACE_DISC = 12;
-
-const LLPCode LL_PCODE_APP = 14; // App specific pcode (for viewer/sim side only objects)
-const LLPCode LL_PCODE_LEGACY = 15;
-
-// Pcodes for legacy objects
-//const LLPCode LL_PCODE_LEGACY_ATOR = 0x10 | LL_PCODE_LEGACY; // ATOR
-const LLPCode LL_PCODE_LEGACY_AVATAR = 0x20 | LL_PCODE_LEGACY; // PLAYER
-//const LLPCode LL_PCODE_LEGACY_BIRD = 0x30 | LL_PCODE_LEGACY; // BIRD
-//const LLPCode LL_PCODE_LEGACY_DEMON = 0x40 | LL_PCODE_LEGACY; // DEMON
-const LLPCode LL_PCODE_LEGACY_GRASS = 0x50 | LL_PCODE_LEGACY; // GRASS
-const LLPCode LL_PCODE_TREE_NEW = 0x60 | LL_PCODE_LEGACY; // new trees
-//const LLPCode LL_PCODE_LEGACY_ORACLE = 0x70 | LL_PCODE_LEGACY; // ORACLE
-const LLPCode LL_PCODE_LEGACY_PART_SYS = 0x80 | LL_PCODE_LEGACY; // PART_SYS
-const LLPCode LL_PCODE_LEGACY_ROCK = 0x90 | LL_PCODE_LEGACY; // ROCK
-//const LLPCode LL_PCODE_LEGACY_SHOT = 0xA0 | LL_PCODE_LEGACY; // BASIC_SHOT
-//const LLPCode LL_PCODE_LEGACY_SHOT_BIG = 0xB0 | LL_PCODE_LEGACY;
-//const LLPCode LL_PCODE_LEGACY_SMOKE = 0xC0 | LL_PCODE_LEGACY; // SMOKE
-//const LLPCode LL_PCODE_LEGACY_SPARK = 0xD0 | LL_PCODE_LEGACY;// SPARK
-const LLPCode LL_PCODE_LEGACY_TEXT_BUBBLE = 0xE0 | LL_PCODE_LEGACY; // TEXTBUBBLE
-const LLPCode LL_PCODE_LEGACY_TREE = 0xF0 | LL_PCODE_LEGACY; // TREE
-
- // hemis
-const LLPCode LL_PCODE_CYLINDER_HEMI = LL_PCODE_CYLINDER | LL_PCODE_HEMI_MASK;
-const LLPCode LL_PCODE_CONE_HEMI = LL_PCODE_CONE | LL_PCODE_HEMI_MASK;
-const LLPCode LL_PCODE_SPHERE_HEMI = LL_PCODE_SPHERE | LL_PCODE_HEMI_MASK;
-const LLPCode LL_PCODE_TORUS_HEMI = LL_PCODE_TORUS | LL_PCODE_HEMI_MASK;
-
-
-// Volumes consist of a profile at the base that is swept around
-// a path to make a volume.
-// The profile code
-const U8 LL_PCODE_PROFILE_MASK = 0x0f;
-const U8 LL_PCODE_PROFILE_MIN = 0x00;
-const U8 LL_PCODE_PROFILE_CIRCLE = 0x00;
-const U8 LL_PCODE_PROFILE_SQUARE = 0x01;
-const U8 LL_PCODE_PROFILE_ISOTRI = 0x02;
-const U8 LL_PCODE_PROFILE_EQUALTRI = 0x03;
-const U8 LL_PCODE_PROFILE_RIGHTTRI = 0x04;
-const U8 LL_PCODE_PROFILE_CIRCLE_HALF = 0x05;
-const U8 LL_PCODE_PROFILE_MAX = 0x05;
-
-// Stored in the profile byte
-const U8 LL_PCODE_HOLE_MASK = 0xf0;
-const U8 LL_PCODE_HOLE_MIN = 0x00;
-const U8 LL_PCODE_HOLE_SAME = 0x00; // same as outside profile
-const U8 LL_PCODE_HOLE_CIRCLE = 0x10;
-const U8 LL_PCODE_HOLE_SQUARE = 0x20;
-const U8 LL_PCODE_HOLE_TRIANGLE = 0x30;
-const U8 LL_PCODE_HOLE_MAX = 0x03; // min/max needs to be >> 4 of real min/max
-
-const U8 LL_PCODE_PATH_IGNORE = 0x00;
-const U8 LL_PCODE_PATH_MIN = 0x01; // min/max needs to be >> 4 of real min/max
-const U8 LL_PCODE_PATH_LINE = 0x10;
-const U8 LL_PCODE_PATH_CIRCLE = 0x20;
-const U8 LL_PCODE_PATH_CIRCLE2 = 0x30;
-const U8 LL_PCODE_PATH_TEST = 0x40;
-const U8 LL_PCODE_PATH_FLEXIBLE = 0x80;
-const U8 LL_PCODE_PATH_MAX = 0x08;
-
-//============================================================================
-
-// face identifiers
-typedef U16 LLFaceID;
-
-const LLFaceID LL_FACE_PATH_BEGIN = 0x1 << 0;
-const LLFaceID LL_FACE_PATH_END = 0x1 << 1;
-const LLFaceID LL_FACE_INNER_SIDE = 0x1 << 2;
-const LLFaceID LL_FACE_PROFILE_BEGIN = 0x1 << 3;
-const LLFaceID LL_FACE_PROFILE_END = 0x1 << 4;
-const LLFaceID LL_FACE_OUTER_SIDE_0 = 0x1 << 5;
-const LLFaceID LL_FACE_OUTER_SIDE_1 = 0x1 << 6;
-const LLFaceID LL_FACE_OUTER_SIDE_2 = 0x1 << 7;
-const LLFaceID LL_FACE_OUTER_SIDE_3 = 0x1 << 8;
-
-//============================================================================
-
-// sculpt types + flags
-
-const U8 LL_SCULPT_TYPE_NONE = 0;
-const U8 LL_SCULPT_TYPE_SPHERE = 1;
-const U8 LL_SCULPT_TYPE_TORUS = 2;
-const U8 LL_SCULPT_TYPE_PLANE = 3;
-const U8 LL_SCULPT_TYPE_CYLINDER = 4;
-const U8 LL_SCULPT_TYPE_MESH = 5;
-const U8 LL_SCULPT_TYPE_MASK = LL_SCULPT_TYPE_SPHERE | LL_SCULPT_TYPE_TORUS | LL_SCULPT_TYPE_PLANE |
- LL_SCULPT_TYPE_CYLINDER | LL_SCULPT_TYPE_MESH;
-
-const U8 LL_SCULPT_FLAG_INVERT = 64;
-const U8 LL_SCULPT_FLAG_MIRROR = 128;
-
-const S32 LL_SCULPT_MESH_MAX_FACES = 8;
-
-class LLProfileParams
-{
-public:
- LLProfileParams()
- : mCurveType(LL_PCODE_PROFILE_SQUARE),
- mBegin(0.f),
- mEnd(1.f),
- mHollow(0.f),
- mCRC(0)
- {
- }
-
- LLProfileParams(U8 curve, F32 begin, F32 end, F32 hollow)
- : mCurveType(curve),
- mBegin(begin),
- mEnd(end),
- mHollow(hollow),
- mCRC(0)
- {
- }
-
- LLProfileParams(U8 curve, U16 begin, U16 end, U16 hollow)
- {
- mCurveType = curve;
- F32 temp_f32 = begin * CUT_QUANTA;
- if (temp_f32 > 1.f)
- {
- temp_f32 = 1.f;
- }
- mBegin = temp_f32;
- temp_f32 = end * CUT_QUANTA;
- if (temp_f32 > 1.f)
- {
- temp_f32 = 1.f;
- }
- mEnd = 1.f - temp_f32;
- temp_f32 = hollow * HOLLOW_QUANTA;
- if (temp_f32 > 1.f)
- {
- temp_f32 = 1.f;
- }
- mHollow = temp_f32;
- mCRC = 0;
- }
-
- bool operator==(const LLProfileParams &params) const;
- bool operator!=(const LLProfileParams &params) const;
- bool operator<(const LLProfileParams &params) const;
-
- void copyParams(const LLProfileParams &params);
-
- BOOL importFile(LLFILE *fp);
- BOOL exportFile(LLFILE *fp) const;
-
- BOOL importLegacyStream(std::istream& input_stream);
- BOOL exportLegacyStream(std::ostream& output_stream) const;
-
- LLSD asLLSD() const;
- operator LLSD() const { return asLLSD(); }
- bool fromLLSD(LLSD& sd);
-
- const F32& getBegin () const { return mBegin; }
- const F32& getEnd () const { return mEnd; }
- const F32& getHollow() const { return mHollow; }
- const U8& getCurveType () const { return mCurveType; }
-
- void setCurveType(const U32 type) { mCurveType = type;}
- void setBegin(const F32 begin) { mBegin = (begin >= 1.0f) ? 0.0f : ((int) (begin * 100000))/100000.0f;}
- void setEnd(const F32 end) { mEnd = (end <= 0.0f) ? 1.0f : ((int) (end * 100000))/100000.0f;}
- void setHollow(const F32 hollow) { mHollow = ((int) (hollow * 100000))/100000.0f;}
-
- friend std::ostream& operator<<(std::ostream &s, const LLProfileParams &profile_params);
-
-protected:
- // Profile params
- U8 mCurveType;
- F32 mBegin;
- F32 mEnd;
- F32 mHollow;
-
- U32 mCRC;
-};
-
-inline bool LLProfileParams::operator==(const LLProfileParams &params) const
-{
- return
- (getCurveType() == params.getCurveType()) &&
- (getBegin() == params.getBegin()) &&
- (getEnd() == params.getEnd()) &&
- (getHollow() == params.getHollow());
-}
-
-inline bool LLProfileParams::operator!=(const LLProfileParams &params) const
-{
- return
- (getCurveType() != params.getCurveType()) ||
- (getBegin() != params.getBegin()) ||
- (getEnd() != params.getEnd()) ||
- (getHollow() != params.getHollow());
-}
-
-
-inline bool LLProfileParams::operator<(const LLProfileParams &params) const
-{
- if (getCurveType() != params.getCurveType())
- {
- return getCurveType() < params.getCurveType();
- }
- else
- if (getBegin() != params.getBegin())
- {
- return getBegin() < params.getBegin();
- }
- else
- if (getEnd() != params.getEnd())
- {
- return getEnd() < params.getEnd();
- }
- else
- {
- return getHollow() < params.getHollow();
- }
-}
-
-#define U8_TO_F32(x) (F32)(*((S8 *)&x))
-
-class LLPathParams
-{
-public:
- LLPathParams()
- :
- mCurveType(LL_PCODE_PATH_LINE),
- mBegin(0.f),
- mEnd(1.f),
- mScale(1.f,1.f),
- mShear(0.f,0.f),
- mTwistBegin(0.f),
- mTwistEnd(0.f),
- mRadiusOffset(0.f),
- mTaper(0.f,0.f),
- mRevolutions(1.f),
- mSkew(0.f),
- mCRC(0)
- {
- }
-
- LLPathParams(U8 curve, F32 begin, F32 end, F32 scx, F32 scy, F32 shx, F32 shy, F32 twistend, F32 twistbegin, F32 radiusoffset, F32 tx, F32 ty, F32 revolutions, F32 skew)
- : mCurveType(curve),
- mBegin(begin),
- mEnd(end),
- mScale(scx,scy),
- mShear(shx,shy),
- mTwistBegin(twistbegin),
- mTwistEnd(twistend),
- mRadiusOffset(radiusoffset),
- mTaper(tx,ty),
- mRevolutions(revolutions),
- mSkew(skew),
- mCRC(0)
- {
- }
-
- LLPathParams(U8 curve, U16 begin, U16 end, U8 scx, U8 scy, U8 shx, U8 shy, U8 twistend, U8 twistbegin, U8 radiusoffset, U8 tx, U8 ty, U8 revolutions, U8 skew)
- {
- mCurveType = curve;
- mBegin = (F32)(begin * CUT_QUANTA);
- mEnd = (F32)(100.f - end) * CUT_QUANTA;
- if (mEnd > 1.f)
- mEnd = 1.f;
- mScale.setVec((F32) (200 - scx) * SCALE_QUANTA,(F32) (200 - scy) * SCALE_QUANTA);
- mShear.setVec(U8_TO_F32(shx) * SHEAR_QUANTA,U8_TO_F32(shy) * SHEAR_QUANTA);
- mTwistBegin = U8_TO_F32(twistbegin) * SCALE_QUANTA;
- mTwistEnd = U8_TO_F32(twistend) * SCALE_QUANTA;
- mRadiusOffset = U8_TO_F32(radiusoffset) * SCALE_QUANTA;
- mTaper.setVec(U8_TO_F32(tx) * TAPER_QUANTA,U8_TO_F32(ty) * TAPER_QUANTA);
- mRevolutions = ((F32)revolutions) * REV_QUANTA + 1.0f;
- mSkew = U8_TO_F32(skew) * SCALE_QUANTA;
-
- mCRC = 0;
- }
-
- bool operator==(const LLPathParams &params) const;
- bool operator!=(const LLPathParams &params) const;
- bool operator<(const LLPathParams &params) const;
-
- void copyParams(const LLPathParams &params);
-
- BOOL importFile(LLFILE *fp);
- BOOL exportFile(LLFILE *fp) const;
-
- BOOL importLegacyStream(std::istream& input_stream);
- BOOL exportLegacyStream(std::ostream& output_stream) const;
-
- LLSD asLLSD() const;
- operator LLSD() const { return asLLSD(); }
- bool fromLLSD(LLSD& sd);
-
- const F32& getBegin() const { return mBegin; }
- const F32& getEnd() const { return mEnd; }
- const LLVector2 &getScale() const { return mScale; }
- const F32& getScaleX() const { return mScale.mV[0]; }
- const F32& getScaleY() const { return mScale.mV[1]; }
- const LLVector2 getBeginScale() const;
- const LLVector2 getEndScale() const;
- const LLVector2 &getShear() const { return mShear; }
- const F32& getShearX() const { return mShear.mV[0]; }
- const F32& getShearY() const { return mShear.mV[1]; }
- const U8& getCurveType () const { return mCurveType; }
-
- const F32& getTwistBegin() const { return mTwistBegin; }
- const F32& getTwistEnd() const { return mTwistEnd; }
- const F32& getTwist() const { return mTwistEnd; } // deprecated
- const F32& getRadiusOffset() const { return mRadiusOffset; }
- const LLVector2 &getTaper() const { return mTaper; }
- const F32& getTaperX() const { return mTaper.mV[0]; }
- const F32& getTaperY() const { return mTaper.mV[1]; }
- const F32& getRevolutions() const { return mRevolutions; }
- const F32& getSkew() const { return mSkew; }
-
- void setCurveType(const U8 type) { mCurveType = type; }
- void setBegin(const F32 begin) { mBegin = begin; }
- void setEnd(const F32 end) { mEnd = end; }
-
- void setScale(const F32 x, const F32 y) { mScale.setVec(x,y); }
- void setScaleX(const F32 v) { mScale.mV[VX] = v; }
- void setScaleY(const F32 v) { mScale.mV[VY] = v; }
- void setShear(const F32 x, const F32 y) { mShear.setVec(x,y); }
- void setShearX(const F32 v) { mShear.mV[VX] = v; }
- void setShearY(const F32 v) { mShear.mV[VY] = v; }
-
- void setTwistBegin(const F32 twist_begin) { mTwistBegin = twist_begin; }
- void setTwistEnd(const F32 twist_end) { mTwistEnd = twist_end; }
- void setTwist(const F32 twist) { setTwistEnd(twist); } // deprecated
- void setRadiusOffset(const F32 radius_offset){ mRadiusOffset = radius_offset; }
- void setTaper(const F32 x, const F32 y) { mTaper.setVec(x,y); }
- void setTaperX(const F32 v) { mTaper.mV[VX] = v; }
- void setTaperY(const F32 v) { mTaper.mV[VY] = v; }
- void setRevolutions(const F32 revolutions) { mRevolutions = revolutions; }
- void setSkew(const F32 skew) { mSkew = skew; }
-
- friend std::ostream& operator<<(std::ostream &s, const LLPathParams &path_params);
-
-protected:
- // Path params
- U8 mCurveType;
- F32 mBegin;
- F32 mEnd;
- LLVector2 mScale;
- LLVector2 mShear;
-
- F32 mTwistBegin;
- F32 mTwistEnd;
- F32 mRadiusOffset;
- LLVector2 mTaper;
- F32 mRevolutions;
- F32 mSkew;
-
- U32 mCRC;
-};
-
-inline bool LLPathParams::operator==(const LLPathParams &params) const
-{
- return
- (getCurveType() == params.getCurveType()) &&
- (getScale() == params.getScale()) &&
- (getBegin() == params.getBegin()) &&
- (getEnd() == params.getEnd()) &&
- (getShear() == params.getShear()) &&
- (getTwist() == params.getTwist()) &&
- (getTwistBegin() == params.getTwistBegin()) &&
- (getRadiusOffset() == params.getRadiusOffset()) &&
- (getTaper() == params.getTaper()) &&
- (getRevolutions() == params.getRevolutions()) &&
- (getSkew() == params.getSkew());
-}
-
-inline bool LLPathParams::operator!=(const LLPathParams &params) const
-{
- return
- (getCurveType() != params.getCurveType()) ||
- (getScale() != params.getScale()) ||
- (getBegin() != params.getBegin()) ||
- (getEnd() != params.getEnd()) ||
- (getShear() != params.getShear()) ||
- (getTwist() != params.getTwist()) ||
- (getTwistBegin() !=params.getTwistBegin()) ||
- (getRadiusOffset() != params.getRadiusOffset()) ||
- (getTaper() != params.getTaper()) ||
- (getRevolutions() != params.getRevolutions()) ||
- (getSkew() != params.getSkew());
-}
-
-
-inline bool LLPathParams::operator<(const LLPathParams &params) const
-{
- if( getCurveType() != params.getCurveType())
- {
- return getCurveType() < params.getCurveType();
- }
- else
- if( getScale() != params.getScale())
- {
- return getScale() < params.getScale();
- }
- else
- if( getBegin() != params.getBegin())
- {
- return getBegin() < params.getBegin();
- }
- else
- if( getEnd() != params.getEnd())
- {
- return getEnd() < params.getEnd();
- }
- else
- if( getShear() != params.getShear())
- {
- return getShear() < params.getShear();
- }
- else
- if( getTwist() != params.getTwist())
- {
- return getTwist() < params.getTwist();
- }
- else
- if( getTwistBegin() != params.getTwistBegin())
- {
- return getTwistBegin() < params.getTwistBegin();
- }
- else
- if( getRadiusOffset() != params.getRadiusOffset())
- {
- return getRadiusOffset() < params.getRadiusOffset();
- }
- else
- if( getTaper() != params.getTaper())
- {
- return getTaper() < params.getTaper();
- }
- else
- if( getRevolutions() != params.getRevolutions())
- {
- return getRevolutions() < params.getRevolutions();
- }
- else
- {
- return getSkew() < params.getSkew();
- }
-}
-
-typedef LLVolumeParams* LLVolumeParamsPtr;
-typedef const LLVolumeParams* const_LLVolumeParamsPtr;
-
-class LLVolumeParams
-{
-public:
- LLVolumeParams()
- : mSculptType(LL_SCULPT_TYPE_NONE)
- {
- }
-
- LLVolumeParams(LLProfileParams &profile, LLPathParams &path,
- LLUUID sculpt_id = LLUUID::null, U8 sculpt_type = LL_SCULPT_TYPE_NONE)
- : mProfileParams(profile), mPathParams(path), mSculptID(sculpt_id), mSculptType(sculpt_type)
- {
- }
-
- bool operator==(const LLVolumeParams &params) const;
- bool operator!=(const LLVolumeParams &params) const;
- bool operator<(const LLVolumeParams &params) const;
-
-
- void copyParams(const LLVolumeParams &params);
-
- const LLProfileParams &getProfileParams() const {return mProfileParams;}
- LLProfileParams &getProfileParams() {return mProfileParams;}
- const LLPathParams &getPathParams() const {return mPathParams;}
- LLPathParams &getPathParams() {return mPathParams;}
-
- BOOL importFile(LLFILE *fp);
- BOOL exportFile(LLFILE *fp) const;
-
- BOOL importLegacyStream(std::istream& input_stream);
- BOOL exportLegacyStream(std::ostream& output_stream) const;
-
- LLSD sculptAsLLSD() const;
- bool sculptFromLLSD(LLSD& sd);
-
- LLSD asLLSD() const;
- operator LLSD() const { return asLLSD(); }
- bool fromLLSD(LLSD& sd);
-
- bool setType(U8 profile, U8 path);
-
- //void setBeginS(const F32 beginS) { mProfileParams.setBegin(beginS); } // range 0 to 1
- //void setBeginT(const F32 beginT) { mPathParams.setBegin(beginT); } // range 0 to 1
- //void setEndS(const F32 endS) { mProfileParams.setEnd(endS); } // range 0 to 1, must be greater than begin
- //void setEndT(const F32 endT) { mPathParams.setEnd(endT); } // range 0 to 1, must be greater than begin
-
- bool setBeginAndEndS(const F32 begin, const F32 end); // both range from 0 to 1, begin must be less than end
- bool setBeginAndEndT(const F32 begin, const F32 end); // both range from 0 to 1, begin must be less than end
-
- bool setHollow(const F32 hollow); // range 0 to 1
- bool setRatio(const F32 x) { return setRatio(x,x); } // 0 = point, 1 = same as base
- bool setShear(const F32 x) { return setShear(x,x); } // 0 = no movement,
- bool setRatio(const F32 x, const F32 y); // 0 = point, 1 = same as base
- bool setShear(const F32 x, const F32 y); // 0 = no movement
-
- bool setTwistBegin(const F32 twist_begin); // range -1 to 1
- bool setTwistEnd(const F32 twist_end); // range -1 to 1
- bool setTwist(const F32 twist) { return setTwistEnd(twist); } // deprecated
- bool setTaper(const F32 x, const F32 y) { bool pass_x = setTaperX(x); bool pass_y = setTaperY(y); return pass_x && pass_y; }
- bool setTaperX(const F32 v); // -1 to 1
- bool setTaperY(const F32 v); // -1 to 1
- bool setRevolutions(const F32 revolutions); // 1 to 4
- bool setRadiusOffset(const F32 radius_offset);
- bool setSkew(const F32 skew);
- bool setSculptID(const LLUUID sculpt_id, U8 sculpt_type);
-
- static bool validate(U8 prof_curve, F32 prof_begin, F32 prof_end, F32 hollow,
- U8 path_curve, F32 path_begin, F32 path_end,
- F32 scx, F32 scy, F32 shx, F32 shy,
- F32 twistend, F32 twistbegin, F32 radiusoffset,
- F32 tx, F32 ty, F32 revolutions, F32 skew);
-
- const F32& getBeginS() const { return mProfileParams.getBegin(); }
- const F32& getBeginT() const { return mPathParams.getBegin(); }
- const F32& getEndS() const { return mProfileParams.getEnd(); }
- const F32& getEndT() const { return mPathParams.getEnd(); }
-
- const F32& getHollow() const { return mProfileParams.getHollow(); }
- const F32& getTwist() const { return mPathParams.getTwist(); }
- const F32& getRatio() const { return mPathParams.getScaleX(); }
- const F32& getRatioX() const { return mPathParams.getScaleX(); }
- const F32& getRatioY() const { return mPathParams.getScaleY(); }
- const F32& getShearX() const { return mPathParams.getShearX(); }
- const F32& getShearY() const { return mPathParams.getShearY(); }
-
- const F32& getTwistBegin()const { return mPathParams.getTwistBegin(); }
- const F32& getRadiusOffset() const { return mPathParams.getRadiusOffset(); }
- const F32& getTaper() const { return mPathParams.getTaperX(); }
- const F32& getTaperX() const { return mPathParams.getTaperX(); }
- const F32& getTaperY() const { return mPathParams.getTaperY(); }
- const F32& getRevolutions() const { return mPathParams.getRevolutions(); }
- const F32& getSkew() const { return mPathParams.getSkew(); }
- const LLUUID& getSculptID() const { return mSculptID; }
- const U8& getSculptType() const { return mSculptType; }
- bool isSculpt() const;
- bool isMeshSculpt() const;
- BOOL isConvex() const;
-
- // 'begin' and 'end' should be in range [0, 1] (they will be clamped)
- // (begin, end) = (0, 1) will not change the volume
- // (begin, end) = (0, 0.5) will reduce the volume to the first half of its profile/path (S/T)
- void reduceS(F32 begin, F32 end);
- void reduceT(F32 begin, F32 end);
-
- struct compare
- {
- bool operator()( const const_LLVolumeParamsPtr& first, const const_LLVolumeParamsPtr& second) const
- {
- return (*first < *second);
- }
- };
-
- friend std::ostream& operator<<(std::ostream &s, const LLVolumeParams &volume_params);
-
- // debug helper functions
- void setCube();
-
-protected:
- LLProfileParams mProfileParams;
- LLPathParams mPathParams;
- LLUUID mSculptID;
- U8 mSculptType;
-};
-
-
-class LLProfile
-{
-public:
- LLProfile()
- : mOpen(FALSE),
- mConcave(FALSE),
- mDirty(TRUE),
- mTotalOut(0),
- mTotal(2)
- {
- }
-
- ~LLProfile();
-
- S32 getTotal() const { return mTotal; }
- S32 getTotalOut() const { return mTotalOut; } // Total number of outside points
- BOOL isFlat(S32 face) const { return (mFaces[face].mCount == 2); }
- BOOL isOpen() const { return mOpen; }
- void setDirty() { mDirty = TRUE; }
- BOOL generate(const LLProfileParams& params, BOOL path_open, F32 detail = 1.0f, S32 split = 0,
- BOOL is_sculpted = FALSE, S32 sculpt_size = 0);
- BOOL isConcave() const { return mConcave; }
-public:
- struct Face
- {
- S32 mIndex;
- S32 mCount;
- F32 mScaleU;
- BOOL mCap;
- BOOL mFlat;
- LLFaceID mFaceID;
- };
-
- std::vector<LLVector3> mProfile;
- std::vector<LLVector2> mNormals;
- std::vector<Face> mFaces;
- std::vector<LLVector3> mEdgeNormals;
- std::vector<LLVector3> mEdgeCenters;
-
- friend std::ostream& operator<<(std::ostream &s, const LLProfile &profile);
-
-protected:
- void genNormals(const LLProfileParams& params);
- void genNGon(const LLProfileParams& params, S32 sides, F32 offset=0.0f, F32 bevel = 0.0f, F32 ang_scale = 1.f, S32 split = 0);
-
- Face* addHole(const LLProfileParams& params, BOOL flat, F32 sides, F32 offset, F32 box_hollow, F32 ang_scale, S32 split = 0);
- Face* addCap (S16 faceID);
- Face* addFace(S32 index, S32 count, F32 scaleU, S16 faceID, BOOL flat);
-
-protected:
- BOOL mOpen;
- BOOL mConcave;
- BOOL mDirty;
-
- S32 mTotalOut;
- S32 mTotal;
-};
-
-//-------------------------------------------------------------------
-// SWEEP/EXTRUDE PATHS
-//-------------------------------------------------------------------
-
-class LLPath
-{
-public:
- struct PathPt
- {
- LLVector3 mPos;
- LLVector2 mScale;
- LLQuaternion mRot;
- F32 mTexT;
- PathPt() { mPos.setVec(0,0,0); mTexT = 0; mScale.setVec(0,0); mRot.loadIdentity(); }
- };
-
-public:
- LLPath()
- : mOpen(FALSE),
- mTotal(0),
- mDirty(TRUE),
- mStep(1)
- {
- }
-
- virtual ~LLPath();
-
- void genNGon(const LLPathParams& params, S32 sides, F32 offset=0.0f, F32 end_scale = 1.f, F32 twist_scale = 1.f);
- virtual BOOL generate(const LLPathParams& params, F32 detail=1.0f, S32 split = 0,
- BOOL is_sculpted = FALSE, S32 sculpt_size = 0);
-
- BOOL isOpen() const { return mOpen; }
- F32 getStep() const { return mStep; }
- void setDirty() { mDirty = TRUE; }
-
- S32 getPathLength() const { return (S32)mPath.size(); }
-
- void resizePath(S32 length) { mPath.resize(length); }
-
- friend std::ostream& operator<<(std::ostream &s, const LLPath &path);
-
-public:
- std::vector<PathPt> mPath;
-
-protected:
- BOOL mOpen;
- S32 mTotal;
- BOOL mDirty;
- F32 mStep;
-};
-
-class LLDynamicPath : public LLPath
-{
-public:
- LLDynamicPath() : LLPath() { }
- /*virtual*/ BOOL generate(const LLPathParams& params, F32 detail=1.0f, S32 split = 0,
- BOOL is_sculpted = FALSE, S32 sculpt_size = 0);
-};
-
-// Yet another "face" class - caches volume-specific, but not instance-specific data for faces)
-class LLVolumeFace
-{
-public:
- class VertexData
- {
- enum
- {
- POSITION = 0,
- NORMAL = 1
- };
-
- private:
- void init();
- public:
- VertexData();
- VertexData(const VertexData& rhs);
- const VertexData& operator=(const VertexData& rhs);
-
- ~VertexData();
- LLVector4a& getPosition();
- LLVector4a& getNormal();
- const LLVector4a& getPosition() const;
- const LLVector4a& getNormal() const;
- void setPosition(const LLVector4a& pos);
- void setNormal(const LLVector4a& norm);
-
-
- LLVector2 mTexCoord;
-
- bool operator<(const VertexData& rhs) const;
- bool operator==(const VertexData& rhs) const;
- bool compareNormal(const VertexData& rhs, F32 angle_cutoff) const;
-
- private:
- LLVector4a* mData;
- };
-
- LLVolumeFace();
- LLVolumeFace(const LLVolumeFace& src);
- LLVolumeFace& operator=(const LLVolumeFace& rhs);
-
- ~LLVolumeFace();
-private:
- void freeData();
-public:
-
- BOOL create(LLVolume* volume, BOOL partial_build = FALSE);
- void createBinormals();
-
- void appendFace(const LLVolumeFace& face, LLMatrix4& transform, LLMatrix4& normal_tranform);
-
- void resizeVertices(S32 num_verts);
- void allocateBinormals(S32 num_verts);
- void allocateWeights(S32 num_verts);
- void resizeIndices(S32 num_indices);
- void fillFromLegacyData(std::vector<LLVolumeFace::VertexData>& v, std::vector<U16>& idx);
-
- void pushVertex(const VertexData& cv);
- void pushVertex(const LLVector4a& pos, const LLVector4a& norm, const LLVector2& tc);
- void pushIndex(const U16& idx);
-
- void swapData(LLVolumeFace& rhs);
-
- void getVertexData(U16 indx, LLVolumeFace::VertexData& cv);
-
- class VertexMapData : public LLVolumeFace::VertexData
- {
- public:
- U16 mIndex;
-
- bool operator==(const LLVolumeFace::VertexData& rhs) const;
-
- struct ComparePosition
- {
- bool operator()(const LLVector3& a, const LLVector3& b) const;
- };
-
- typedef std::map<LLVector3, std::vector<VertexMapData>, VertexMapData::ComparePosition > PointMap;
- };
-
- void optimize(F32 angle_cutoff = 2.f);
- void cacheOptimize();
-
- void createOctree(F32 scaler = 0.25f, const LLVector4a& center = LLVector4a(0,0,0), const LLVector4a& size = LLVector4a(0.5f,0.5f,0.5f));
-
- enum
- {
- SINGLE_MASK = 0x0001,
- CAP_MASK = 0x0002,
- END_MASK = 0x0004,
- SIDE_MASK = 0x0008,
- INNER_MASK = 0x0010,
- OUTER_MASK = 0x0020,
- HOLLOW_MASK = 0x0040,
- OPEN_MASK = 0x0080,
- FLAT_MASK = 0x0100,
- TOP_MASK = 0x0200,
- BOTTOM_MASK = 0x0400
- };
-
-public:
- S32 mID;
- U32 mTypeMask;
-
- // Only used for INNER/OUTER faces
- S32 mBeginS;
- S32 mBeginT;
- S32 mNumS;
- S32 mNumT;
-
- LLVector4a* mExtents; //minimum and maximum point of face
- LLVector4a* mCenter;
- LLVector2 mTexCoordExtents[2]; //minimum and maximum of texture coordinates of the face.
-
- S32 mNumVertices;
- S32 mNumIndices;
-
- LLVector4a* mPositions;
- LLVector4a* mNormals;
- LLVector4a* mBinormals;
- LLVector2* mTexCoords;
- U16* mIndices;
-
- std::vector<S32> mEdge;
-
- //list of skin weights for rigged volumes
- // format is mWeights[vertex_index].mV[influence] = <joint_index>.<weight>
- // mWeights.size() should be empty or match mVertices.size()
- LLVector4a* mWeights;
-
- LLOctreeNode<LLVolumeTriangle>* mOctree;
-
-private:
- BOOL createUnCutCubeCap(LLVolume* volume, BOOL partial_build = FALSE);
- BOOL createCap(LLVolume* volume, BOOL partial_build = FALSE);
- BOOL createSide(LLVolume* volume, BOOL partial_build = FALSE);
-};
-
-class LLVolume : public LLRefCount
-{
- friend class LLVolumeLODGroup;
-
-protected:
- ~LLVolume(); // use unref
-
-public:
- struct Point
- {
- LLVector3 mPos;
- };
-
- struct FaceParams
- {
- LLFaceID mFaceID;
- S32 mBeginS;
- S32 mCountS;
- S32 mBeginT;
- S32 mCountT;
- };
-
- LLVolume(const LLVolumeParams &params, const F32 detail, const BOOL generate_single_face = FALSE, const BOOL is_unique = FALSE);
-
- U8 getProfileType() const { return mParams.getProfileParams().getCurveType(); }
- U8 getPathType() const { return mParams.getPathParams().getCurveType(); }
- S32 getNumFaces() const;
- S32 getNumVolumeFaces() const { return mVolumeFaces.size(); }
- F32 getDetail() const { return mDetail; }
- const LLVolumeParams& getParams() const { return mParams; }
- LLVolumeParams getCopyOfParams() const { return mParams; }
- const LLProfile& getProfile() const { return *mProfilep; }
- LLPath& getPath() const { return *mPathp; }
- void resizePath(S32 length);
- const std::vector<Point>& getMesh() const { return mMesh; }
- const LLVector3& getMeshPt(const U32 i) const { return mMesh[i].mPos; }
-
- void setDirty() { mPathp->setDirty(); mProfilep->setDirty(); }
-
- void regen();
- void genBinormals(S32 face);
-
- BOOL isConvex() const;
- BOOL isCap(S32 face);
- BOOL isFlat(S32 face);
- BOOL isUnique() const { return mUnique; }
-
- S32 getSculptLevel() const { return mSculptLevel; }
- void setSculptLevel(S32 level) { mSculptLevel = level; }
-
- S32 *getTriangleIndices(U32 &num_indices) const;
-
- // returns number of triangle indeces required for path/profile mesh
- S32 getNumTriangleIndices() const;
-
- S32 getNumTriangles() const;
-
- void generateSilhouetteVertices(std::vector<LLVector3> &vertices,
- std::vector<LLVector3> &normals,
- std::vector<S32> &segments,
- const LLVector3& view_vec,
- const LLMatrix4& mat,
- const LLMatrix3& norm_mat,
- S32 face_index);
-
- //get the face index of the face that intersects with the given line segment at the point
- //closest to start. Moves end to the point of intersection. Returns -1 if no intersection.
- //Line segment must be in volume space.
- S32 lineSegmentIntersect(const LLVector3& start, const LLVector3& end,
- S32 face = -1, // which face to check, -1 = ALL_SIDES
- LLVector3* intersection = NULL, // return the intersection point
- LLVector2* tex_coord = NULL, // return the texture coordinates of the intersection point
- LLVector3* normal = NULL, // return the surface normal at the intersection point
- LLVector3* bi_normal = NULL // return the surface bi-normal at the intersection point
- );
-
- S32 lineSegmentIntersect(const LLVector4a& start, const LLVector4a& end,
- S32 face = 1,
- LLVector3* intersection = NULL,
- LLVector2* tex_coord = NULL,
- LLVector3* normal = NULL,
- LLVector3* bi_normal = NULL);
-
- // The following cleans up vertices and triangles,
- // getting rid of degenerate triangles and duplicate vertices,
- // and allocates new arrays with the clean data.
- static BOOL cleanupTriangleData( const S32 num_input_vertices,
- const std::vector<Point> &input_vertices,
- const S32 num_input_triangles,
- S32 *input_triangles,
- S32 &num_output_vertices,
- LLVector3 **output_vertices,
- S32 &num_output_triangles,
- S32 **output_triangles);
- LLFaceID generateFaceMask();
-
- BOOL isFaceMaskValid(LLFaceID face_mask);
- static S32 sNumMeshPoints;
-
- friend std::ostream& operator<<(std::ostream &s, const LLVolume &volume);
- friend std::ostream& operator<<(std::ostream &s, const LLVolume *volumep); // HACK to bypass Windoze confusion over
- // conversion if *(LLVolume*) to LLVolume&
- const LLVolumeFace &getVolumeFace(const S32 f) const {return mVolumeFaces[f];} // DO NOT DELETE VOLUME WHILE USING THIS REFERENCE, OR HOLD A POINTER TO THIS VOLUMEFACE
-
- U32 mFaceMask; // bit array of which faces exist in this volume
- LLVector3 mLODScaleBias; // vector for biasing LOD based on scale
-
- void sculpt(U16 sculpt_width, U16 sculpt_height, S8 sculpt_components, const U8* sculpt_data, S32 sculpt_level);
- void copyVolumeFaces(const LLVolume* volume);
- void cacheOptimize();
-
-private:
- void sculptGenerateMapVertices(U16 sculpt_width, U16 sculpt_height, S8 sculpt_components, const U8* sculpt_data, U8 sculpt_type);
- F32 sculptGetSurfaceArea();
- void sculptGeneratePlaceholder();
- void sculptCalcMeshResolution(U16 width, U16 height, U8 type, S32& s, S32& t);
-
-
-protected:
- BOOL generate();
- void createVolumeFaces();
-public:
- virtual BOOL createVolumeFacesFromFile(const std::string& file_name);
- virtual BOOL createVolumeFacesFromStream(std::istream& is);
- virtual bool unpackVolumeFaces(std::istream& is, S32 size);
-
- virtual void makeTetrahedron();
- virtual BOOL isTetrahedron();
-
- protected:
- BOOL mUnique;
- F32 mDetail;
- S32 mSculptLevel;
- BOOL mIsTetrahedron;
-
- LLVolumeParams mParams;
- LLPath *mPathp;
- LLProfile *mProfilep;
- std::vector<Point> mMesh;
-
- BOOL mGenerateSingleFace;
- typedef std::vector<LLVolumeFace> face_list_t;
- face_list_t mVolumeFaces;
-
-public:
- LLVector4a* mHullPoints;
- U16* mHullIndices;
- S32 mNumHullPoints;
- S32 mNumHullIndices;
-};
-
-std::ostream& operator<<(std::ostream &s, const LLVolumeParams &volume_params);
-
-void calc_binormal_from_triangle(
- LLVector4a& binormal,
- const LLVector4a& pos0,
- const LLVector2& tex0,
- const LLVector4a& pos1,
- const LLVector2& tex1,
- const LLVector4a& pos2,
- const LLVector2& tex2);
-
-BOOL LLLineSegmentBoxIntersect(const F32* start, const F32* end, const F32* center, const F32* size);
-BOOL LLLineSegmentBoxIntersect(const LLVector3& start, const LLVector3& end, const LLVector3& center, const LLVector3& size);
-BOOL LLLineSegmentBoxIntersect(const LLVector4a& start, const LLVector4a& end, const LLVector4a& center, const LLVector4a& size);
-
-BOOL LLTriangleRayIntersect(const LLVector3& vert0, const LLVector3& vert1, const LLVector3& vert2, const LLVector3& orig, const LLVector3& dir,
- F32& intersection_a, F32& intersection_b, F32& intersection_t, BOOL two_sided);
-
-BOOL LLTriangleRayIntersect(const LLVector4a& vert0, const LLVector4a& vert1, const LLVector4a& vert2, const LLVector4a& orig, const LLVector4a& dir,
- F32& intersection_a, F32& intersection_b, F32& intersection_t);
-BOOL LLTriangleRayIntersectTwoSided(const LLVector4a& vert0, const LLVector4a& vert1, const LLVector4a& vert2, const LLVector4a& orig, const LLVector4a& dir,
- F32& intersection_a, F32& intersection_b, F32& intersection_t);
-
-
-
-#endif
+/**
+ * @file llvolume.h
+ * @brief LLVolume base class.
+ *
+ * $LicenseInfo:firstyear=2002&license=viewerlgpl$
+ * 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
+ * $/LicenseInfo$
+ */
+
+#ifndef LL_LLVOLUME_H
+#define LL_LLVOLUME_H
+
+#include <iostream>
+
+class LLProfileParams;
+class LLPathParams;
+class LLVolumeParams;
+class LLProfile;
+class LLPath;
+
+template <class T> class LLOctreeNode;
+
+class LLVector4a;
+class LLVolumeFace;
+class LLVolume;
+class LLVolumeTriangle;
+
+#include "lldarray.h"
+#include "lluuid.h"
+#include "v4color.h"
+//#include "vmath.h"
+#include "v2math.h"
+#include "v3math.h"
+#include "v3dmath.h"
+#include "v4math.h"
+#include "llquaternion.h"
+#include "llstrider.h"
+#include "v4coloru.h"
+#include "llrefcount.h"
+#include "llfile.h"
+
+//============================================================================
+
+const S32 MIN_DETAIL_FACES = 6;
+const S32 MIN_LOD = 0;
+const S32 MAX_LOD = 3;
+
+// These are defined here but are not enforced at this level,
+// rather they are here for the convenience of code that uses
+// the LLVolume class.
+const F32 MIN_VOLUME_PROFILE_WIDTH = 0.05f;
+const F32 MIN_VOLUME_PATH_WIDTH = 0.05f;
+
+const F32 CUT_QUANTA = 0.00002f;
+const F32 SCALE_QUANTA = 0.01f;
+const F32 SHEAR_QUANTA = 0.01f;
+const F32 TAPER_QUANTA = 0.01f;
+const F32 REV_QUANTA = 0.015f;
+const F32 HOLLOW_QUANTA = 0.00002f;
+
+const S32 MAX_VOLUME_TRIANGLE_INDICES = 10000;
+
+//============================================================================
+
+// useful masks
+const LLPCode LL_PCODE_HOLLOW_MASK = 0x80; // has a thickness
+const LLPCode LL_PCODE_SEGMENT_MASK = 0x40; // segments (1 angle)
+const LLPCode LL_PCODE_PATCH_MASK = 0x20; // segmented segments (2 angles)
+const LLPCode LL_PCODE_HEMI_MASK = 0x10; // half-primitives get their own type per PR's dictum
+const LLPCode LL_PCODE_BASE_MASK = 0x0F;
+
+ // primitive shapes
+const LLPCode LL_PCODE_CUBE = 1;
+const LLPCode LL_PCODE_PRISM = 2;
+const LLPCode LL_PCODE_TETRAHEDRON = 3;
+const LLPCode LL_PCODE_PYRAMID = 4;
+const LLPCode LL_PCODE_CYLINDER = 5;
+const LLPCode LL_PCODE_CONE = 6;
+const LLPCode LL_PCODE_SPHERE = 7;
+const LLPCode LL_PCODE_TORUS = 8;
+const LLPCode LL_PCODE_VOLUME = 9;
+
+ // surfaces
+//const LLPCode LL_PCODE_SURFACE_TRIANGLE = 10;
+//const LLPCode LL_PCODE_SURFACE_SQUARE = 11;
+//const LLPCode LL_PCODE_SURFACE_DISC = 12;
+
+const LLPCode LL_PCODE_APP = 14; // App specific pcode (for viewer/sim side only objects)
+const LLPCode LL_PCODE_LEGACY = 15;
+
+// Pcodes for legacy objects
+//const LLPCode LL_PCODE_LEGACY_ATOR = 0x10 | LL_PCODE_LEGACY; // ATOR
+const LLPCode LL_PCODE_LEGACY_AVATAR = 0x20 | LL_PCODE_LEGACY; // PLAYER
+//const LLPCode LL_PCODE_LEGACY_BIRD = 0x30 | LL_PCODE_LEGACY; // BIRD
+//const LLPCode LL_PCODE_LEGACY_DEMON = 0x40 | LL_PCODE_LEGACY; // DEMON
+const LLPCode LL_PCODE_LEGACY_GRASS = 0x50 | LL_PCODE_LEGACY; // GRASS
+const LLPCode LL_PCODE_TREE_NEW = 0x60 | LL_PCODE_LEGACY; // new trees
+//const LLPCode LL_PCODE_LEGACY_ORACLE = 0x70 | LL_PCODE_LEGACY; // ORACLE
+const LLPCode LL_PCODE_LEGACY_PART_SYS = 0x80 | LL_PCODE_LEGACY; // PART_SYS
+const LLPCode LL_PCODE_LEGACY_ROCK = 0x90 | LL_PCODE_LEGACY; // ROCK
+//const LLPCode LL_PCODE_LEGACY_SHOT = 0xA0 | LL_PCODE_LEGACY; // BASIC_SHOT
+//const LLPCode LL_PCODE_LEGACY_SHOT_BIG = 0xB0 | LL_PCODE_LEGACY;
+//const LLPCode LL_PCODE_LEGACY_SMOKE = 0xC0 | LL_PCODE_LEGACY; // SMOKE
+//const LLPCode LL_PCODE_LEGACY_SPARK = 0xD0 | LL_PCODE_LEGACY;// SPARK
+const LLPCode LL_PCODE_LEGACY_TEXT_BUBBLE = 0xE0 | LL_PCODE_LEGACY; // TEXTBUBBLE
+const LLPCode LL_PCODE_LEGACY_TREE = 0xF0 | LL_PCODE_LEGACY; // TREE
+
+ // hemis
+const LLPCode LL_PCODE_CYLINDER_HEMI = LL_PCODE_CYLINDER | LL_PCODE_HEMI_MASK;
+const LLPCode LL_PCODE_CONE_HEMI = LL_PCODE_CONE | LL_PCODE_HEMI_MASK;
+const LLPCode LL_PCODE_SPHERE_HEMI = LL_PCODE_SPHERE | LL_PCODE_HEMI_MASK;
+const LLPCode LL_PCODE_TORUS_HEMI = LL_PCODE_TORUS | LL_PCODE_HEMI_MASK;
+
+
+// Volumes consist of a profile at the base that is swept around
+// a path to make a volume.
+// The profile code
+const U8 LL_PCODE_PROFILE_MASK = 0x0f;
+const U8 LL_PCODE_PROFILE_MIN = 0x00;
+const U8 LL_PCODE_PROFILE_CIRCLE = 0x00;
+const U8 LL_PCODE_PROFILE_SQUARE = 0x01;
+const U8 LL_PCODE_PROFILE_ISOTRI = 0x02;
+const U8 LL_PCODE_PROFILE_EQUALTRI = 0x03;
+const U8 LL_PCODE_PROFILE_RIGHTTRI = 0x04;
+const U8 LL_PCODE_PROFILE_CIRCLE_HALF = 0x05;
+const U8 LL_PCODE_PROFILE_MAX = 0x05;
+
+// Stored in the profile byte
+const U8 LL_PCODE_HOLE_MASK = 0xf0;
+const U8 LL_PCODE_HOLE_MIN = 0x00;
+const U8 LL_PCODE_HOLE_SAME = 0x00; // same as outside profile
+const U8 LL_PCODE_HOLE_CIRCLE = 0x10;
+const U8 LL_PCODE_HOLE_SQUARE = 0x20;
+const U8 LL_PCODE_HOLE_TRIANGLE = 0x30;
+const U8 LL_PCODE_HOLE_MAX = 0x03; // min/max needs to be >> 4 of real min/max
+
+const U8 LL_PCODE_PATH_IGNORE = 0x00;
+const U8 LL_PCODE_PATH_MIN = 0x01; // min/max needs to be >> 4 of real min/max
+const U8 LL_PCODE_PATH_LINE = 0x10;
+const U8 LL_PCODE_PATH_CIRCLE = 0x20;
+const U8 LL_PCODE_PATH_CIRCLE2 = 0x30;
+const U8 LL_PCODE_PATH_TEST = 0x40;
+const U8 LL_PCODE_PATH_FLEXIBLE = 0x80;
+const U8 LL_PCODE_PATH_MAX = 0x08;
+
+//============================================================================
+
+// face identifiers
+typedef U16 LLFaceID;
+
+const LLFaceID LL_FACE_PATH_BEGIN = 0x1 << 0;
+const LLFaceID LL_FACE_PATH_END = 0x1 << 1;
+const LLFaceID LL_FACE_INNER_SIDE = 0x1 << 2;
+const LLFaceID LL_FACE_PROFILE_BEGIN = 0x1 << 3;
+const LLFaceID LL_FACE_PROFILE_END = 0x1 << 4;
+const LLFaceID LL_FACE_OUTER_SIDE_0 = 0x1 << 5;
+const LLFaceID LL_FACE_OUTER_SIDE_1 = 0x1 << 6;
+const LLFaceID LL_FACE_OUTER_SIDE_2 = 0x1 << 7;
+const LLFaceID LL_FACE_OUTER_SIDE_3 = 0x1 << 8;
+
+//============================================================================
+
+// sculpt types + flags
+
+const U8 LL_SCULPT_TYPE_NONE = 0;
+const U8 LL_SCULPT_TYPE_SPHERE = 1;
+const U8 LL_SCULPT_TYPE_TORUS = 2;
+const U8 LL_SCULPT_TYPE_PLANE = 3;
+const U8 LL_SCULPT_TYPE_CYLINDER = 4;
+const U8 LL_SCULPT_TYPE_MESH = 5;
+const U8 LL_SCULPT_TYPE_MASK = LL_SCULPT_TYPE_SPHERE | LL_SCULPT_TYPE_TORUS | LL_SCULPT_TYPE_PLANE |
+ LL_SCULPT_TYPE_CYLINDER | LL_SCULPT_TYPE_MESH;
+
+const U8 LL_SCULPT_FLAG_INVERT = 64;
+const U8 LL_SCULPT_FLAG_MIRROR = 128;
+
+const S32 LL_SCULPT_MESH_MAX_FACES = 8;
+
+class LLProfileParams
+{
+public:
+ LLProfileParams()
+ : mCurveType(LL_PCODE_PROFILE_SQUARE),
+ mBegin(0.f),
+ mEnd(1.f),
+ mHollow(0.f),
+ mCRC(0)
+ {
+ }
+
+ LLProfileParams(U8 curve, F32 begin, F32 end, F32 hollow)
+ : mCurveType(curve),
+ mBegin(begin),
+ mEnd(end),
+ mHollow(hollow),
+ mCRC(0)
+ {
+ }
+
+ LLProfileParams(U8 curve, U16 begin, U16 end, U16 hollow)
+ {
+ mCurveType = curve;
+ F32 temp_f32 = begin * CUT_QUANTA;
+ if (temp_f32 > 1.f)
+ {
+ temp_f32 = 1.f;
+ }
+ mBegin = temp_f32;
+ temp_f32 = end * CUT_QUANTA;
+ if (temp_f32 > 1.f)
+ {
+ temp_f32 = 1.f;
+ }
+ mEnd = 1.f - temp_f32;
+ temp_f32 = hollow * HOLLOW_QUANTA;
+ if (temp_f32 > 1.f)
+ {
+ temp_f32 = 1.f;
+ }
+ mHollow = temp_f32;
+ mCRC = 0;
+ }
+
+ bool operator==(const LLProfileParams &params) const;
+ bool operator!=(const LLProfileParams &params) const;
+ bool operator<(const LLProfileParams &params) const;
+
+ void copyParams(const LLProfileParams &params);
+
+ BOOL importFile(LLFILE *fp);
+ BOOL exportFile(LLFILE *fp) const;
+
+ BOOL importLegacyStream(std::istream& input_stream);
+ BOOL exportLegacyStream(std::ostream& output_stream) const;
+
+ LLSD asLLSD() const;
+ operator LLSD() const { return asLLSD(); }
+ bool fromLLSD(LLSD& sd);
+
+ const F32& getBegin () const { return mBegin; }
+ const F32& getEnd () const { return mEnd; }
+ const F32& getHollow() const { return mHollow; }
+ const U8& getCurveType () const { return mCurveType; }
+
+ void setCurveType(const U32 type) { mCurveType = type;}
+ void setBegin(const F32 begin) { mBegin = (begin >= 1.0f) ? 0.0f : ((int) (begin * 100000))/100000.0f;}
+ void setEnd(const F32 end) { mEnd = (end <= 0.0f) ? 1.0f : ((int) (end * 100000))/100000.0f;}
+ void setHollow(const F32 hollow) { mHollow = ((int) (hollow * 100000))/100000.0f;}
+
+ friend std::ostream& operator<<(std::ostream &s, const LLProfileParams &profile_params);
+
+protected:
+ // Profile params
+ U8 mCurveType;
+ F32 mBegin;
+ F32 mEnd;
+ F32 mHollow;
+
+ U32 mCRC;
+};
+
+inline bool LLProfileParams::operator==(const LLProfileParams &params) const
+{
+ return
+ (getCurveType() == params.getCurveType()) &&
+ (getBegin() == params.getBegin()) &&
+ (getEnd() == params.getEnd()) &&
+ (getHollow() == params.getHollow());
+}
+
+inline bool LLProfileParams::operator!=(const LLProfileParams &params) const
+{
+ return
+ (getCurveType() != params.getCurveType()) ||
+ (getBegin() != params.getBegin()) ||
+ (getEnd() != params.getEnd()) ||
+ (getHollow() != params.getHollow());
+}
+
+
+inline bool LLProfileParams::operator<(const LLProfileParams &params) const
+{
+ if (getCurveType() != params.getCurveType())
+ {
+ return getCurveType() < params.getCurveType();
+ }
+ else
+ if (getBegin() != params.getBegin())
+ {
+ return getBegin() < params.getBegin();
+ }
+ else
+ if (getEnd() != params.getEnd())
+ {
+ return getEnd() < params.getEnd();
+ }
+ else
+ {
+ return getHollow() < params.getHollow();
+ }
+}
+
+#define U8_TO_F32(x) (F32)(*((S8 *)&x))
+
+class LLPathParams
+{
+public:
+ LLPathParams()
+ :
+ mCurveType(LL_PCODE_PATH_LINE),
+ mBegin(0.f),
+ mEnd(1.f),
+ mScale(1.f,1.f),
+ mShear(0.f,0.f),
+ mTwistBegin(0.f),
+ mTwistEnd(0.f),
+ mRadiusOffset(0.f),
+ mTaper(0.f,0.f),
+ mRevolutions(1.f),
+ mSkew(0.f),
+ mCRC(0)
+ {
+ }
+
+ LLPathParams(U8 curve, F32 begin, F32 end, F32 scx, F32 scy, F32 shx, F32 shy, F32 twistend, F32 twistbegin, F32 radiusoffset, F32 tx, F32 ty, F32 revolutions, F32 skew)
+ : mCurveType(curve),
+ mBegin(begin),
+ mEnd(end),
+ mScale(scx,scy),
+ mShear(shx,shy),
+ mTwistBegin(twistbegin),
+ mTwistEnd(twistend),
+ mRadiusOffset(radiusoffset),
+ mTaper(tx,ty),
+ mRevolutions(revolutions),
+ mSkew(skew),
+ mCRC(0)
+ {
+ }
+
+ LLPathParams(U8 curve, U16 begin, U16 end, U8 scx, U8 scy, U8 shx, U8 shy, U8 twistend, U8 twistbegin, U8 radiusoffset, U8 tx, U8 ty, U8 revolutions, U8 skew)
+ {
+ mCurveType = curve;
+ mBegin = (F32)(begin * CUT_QUANTA);
+ mEnd = (F32)(100.f - end) * CUT_QUANTA;
+ if (mEnd > 1.f)
+ mEnd = 1.f;
+ mScale.setVec((F32) (200 - scx) * SCALE_QUANTA,(F32) (200 - scy) * SCALE_QUANTA);
+ mShear.setVec(U8_TO_F32(shx) * SHEAR_QUANTA,U8_TO_F32(shy) * SHEAR_QUANTA);
+ mTwistBegin = U8_TO_F32(twistbegin) * SCALE_QUANTA;
+ mTwistEnd = U8_TO_F32(twistend) * SCALE_QUANTA;
+ mRadiusOffset = U8_TO_F32(radiusoffset) * SCALE_QUANTA;
+ mTaper.setVec(U8_TO_F32(tx) * TAPER_QUANTA,U8_TO_F32(ty) * TAPER_QUANTA);
+ mRevolutions = ((F32)revolutions) * REV_QUANTA + 1.0f;
+ mSkew = U8_TO_F32(skew) * SCALE_QUANTA;
+
+ mCRC = 0;
+ }
+
+ bool operator==(const LLPathParams &params) const;
+ bool operator!=(const LLPathParams &params) const;
+ bool operator<(const LLPathParams &params) const;
+
+ void copyParams(const LLPathParams &params);
+
+ BOOL importFile(LLFILE *fp);
+ BOOL exportFile(LLFILE *fp) const;
+
+ BOOL importLegacyStream(std::istream& input_stream);
+ BOOL exportLegacyStream(std::ostream& output_stream) const;
+
+ LLSD asLLSD() const;
+ operator LLSD() const { return asLLSD(); }
+ bool fromLLSD(LLSD& sd);
+
+ const F32& getBegin() const { return mBegin; }
+ const F32& getEnd() const { return mEnd; }
+ const LLVector2 &getScale() const { return mScale; }
+ const F32& getScaleX() const { return mScale.mV[0]; }
+ const F32& getScaleY() const { return mScale.mV[1]; }
+ const LLVector2 getBeginScale() const;
+ const LLVector2 getEndScale() const;
+ const LLVector2 &getShear() const { return mShear; }
+ const F32& getShearX() const { return mShear.mV[0]; }
+ const F32& getShearY() const { return mShear.mV[1]; }
+ const U8& getCurveType () const { return mCurveType; }
+
+ const F32& getTwistBegin() const { return mTwistBegin; }
+ const F32& getTwistEnd() const { return mTwistEnd; }
+ const F32& getTwist() const { return mTwistEnd; } // deprecated
+ const F32& getRadiusOffset() const { return mRadiusOffset; }
+ const LLVector2 &getTaper() const { return mTaper; }
+ const F32& getTaperX() const { return mTaper.mV[0]; }
+ const F32& getTaperY() const { return mTaper.mV[1]; }
+ const F32& getRevolutions() const { return mRevolutions; }
+ const F32& getSkew() const { return mSkew; }
+
+ void setCurveType(const U8 type) { mCurveType = type; }
+ void setBegin(const F32 begin) { mBegin = begin; }
+ void setEnd(const F32 end) { mEnd = end; }
+
+ void setScale(const F32 x, const F32 y) { mScale.setVec(x,y); }
+ void setScaleX(const F32 v) { mScale.mV[VX] = v; }
+ void setScaleY(const F32 v) { mScale.mV[VY] = v; }
+ void setShear(const F32 x, const F32 y) { mShear.setVec(x,y); }
+ void setShearX(const F32 v) { mShear.mV[VX] = v; }
+ void setShearY(const F32 v) { mShear.mV[VY] = v; }
+
+ void setTwistBegin(const F32 twist_begin) { mTwistBegin = twist_begin; }
+ void setTwistEnd(const F32 twist_end) { mTwistEnd = twist_end; }
+ void setTwist(const F32 twist) { setTwistEnd(twist); } // deprecated
+ void setRadiusOffset(const F32 radius_offset){ mRadiusOffset = radius_offset; }
+ void setTaper(const F32 x, const F32 y) { mTaper.setVec(x,y); }
+ void setTaperX(const F32 v) { mTaper.mV[VX] = v; }
+ void setTaperY(const F32 v) { mTaper.mV[VY] = v; }
+ void setRevolutions(const F32 revolutions) { mRevolutions = revolutions; }
+ void setSkew(const F32 skew) { mSkew = skew; }
+
+ friend std::ostream& operator<<(std::ostream &s, const LLPathParams &path_params);
+
+protected:
+ // Path params
+ U8 mCurveType;
+ F32 mBegin;
+ F32 mEnd;
+ LLVector2 mScale;
+ LLVector2 mShear;
+
+ F32 mTwistBegin;
+ F32 mTwistEnd;
+ F32 mRadiusOffset;
+ LLVector2 mTaper;
+ F32 mRevolutions;
+ F32 mSkew;
+
+ U32 mCRC;
+};
+
+inline bool LLPathParams::operator==(const LLPathParams &params) const
+{
+ return
+ (getCurveType() == params.getCurveType()) &&
+ (getScale() == params.getScale()) &&
+ (getBegin() == params.getBegin()) &&
+ (getEnd() == params.getEnd()) &&
+ (getShear() == params.getShear()) &&
+ (getTwist() == params.getTwist()) &&
+ (getTwistBegin() == params.getTwistBegin()) &&
+ (getRadiusOffset() == params.getRadiusOffset()) &&
+ (getTaper() == params.getTaper()) &&
+ (getRevolutions() == params.getRevolutions()) &&
+ (getSkew() == params.getSkew());
+}
+
+inline bool LLPathParams::operator!=(const LLPathParams &params) const
+{
+ return
+ (getCurveType() != params.getCurveType()) ||
+ (getScale() != params.getScale()) ||
+ (getBegin() != params.getBegin()) ||
+ (getEnd() != params.getEnd()) ||
+ (getShear() != params.getShear()) ||
+ (getTwist() != params.getTwist()) ||
+ (getTwistBegin() !=params.getTwistBegin()) ||
+ (getRadiusOffset() != params.getRadiusOffset()) ||
+ (getTaper() != params.getTaper()) ||
+ (getRevolutions() != params.getRevolutions()) ||
+ (getSkew() != params.getSkew());
+}
+
+
+inline bool LLPathParams::operator<(const LLPathParams &params) const
+{
+ if( getCurveType() != params.getCurveType())
+ {
+ return getCurveType() < params.getCurveType();
+ }
+ else
+ if( getScale() != params.getScale())
+ {
+ return getScale() < params.getScale();
+ }
+ else
+ if( getBegin() != params.getBegin())
+ {
+ return getBegin() < params.getBegin();
+ }
+ else
+ if( getEnd() != params.getEnd())
+ {
+ return getEnd() < params.getEnd();
+ }
+ else
+ if( getShear() != params.getShear())
+ {
+ return getShear() < params.getShear();
+ }
+ else
+ if( getTwist() != params.getTwist())
+ {
+ return getTwist() < params.getTwist();
+ }
+ else
+ if( getTwistBegin() != params.getTwistBegin())
+ {
+ return getTwistBegin() < params.getTwistBegin();
+ }
+ else
+ if( getRadiusOffset() != params.getRadiusOffset())
+ {
+ return getRadiusOffset() < params.getRadiusOffset();
+ }
+ else
+ if( getTaper() != params.getTaper())
+ {
+ return getTaper() < params.getTaper();
+ }
+ else
+ if( getRevolutions() != params.getRevolutions())
+ {
+ return getRevolutions() < params.getRevolutions();
+ }
+ else
+ {
+ return getSkew() < params.getSkew();
+ }
+}
+
+typedef LLVolumeParams* LLVolumeParamsPtr;
+typedef const LLVolumeParams* const_LLVolumeParamsPtr;
+
+class LLVolumeParams
+{
+public:
+ LLVolumeParams()
+ : mSculptType(LL_SCULPT_TYPE_NONE)
+ {
+ }
+
+ LLVolumeParams(LLProfileParams &profile, LLPathParams &path,
+ LLUUID sculpt_id = LLUUID::null, U8 sculpt_type = LL_SCULPT_TYPE_NONE)
+ : mProfileParams(profile), mPathParams(path), mSculptID(sculpt_id), mSculptType(sculpt_type)
+ {
+ }
+
+ bool operator==(const LLVolumeParams &params) const;
+ bool operator!=(const LLVolumeParams &params) const;
+ bool operator<(const LLVolumeParams &params) const;
+
+
+ void copyParams(const LLVolumeParams &params);
+
+ const LLProfileParams &getProfileParams() const {return mProfileParams;}
+ LLProfileParams &getProfileParams() {return mProfileParams;}
+ const LLPathParams &getPathParams() const {return mPathParams;}
+ LLPathParams &getPathParams() {return mPathParams;}
+
+ BOOL importFile(LLFILE *fp);
+ BOOL exportFile(LLFILE *fp) const;
+
+ BOOL importLegacyStream(std::istream& input_stream);
+ BOOL exportLegacyStream(std::ostream& output_stream) const;
+
+ LLSD sculptAsLLSD() const;
+ bool sculptFromLLSD(LLSD& sd);
+
+ LLSD asLLSD() const;
+ operator LLSD() const { return asLLSD(); }
+ bool fromLLSD(LLSD& sd);
+
+ bool setType(U8 profile, U8 path);
+
+ //void setBeginS(const F32 beginS) { mProfileParams.setBegin(beginS); } // range 0 to 1
+ //void setBeginT(const F32 beginT) { mPathParams.setBegin(beginT); } // range 0 to 1
+ //void setEndS(const F32 endS) { mProfileParams.setEnd(endS); } // range 0 to 1, must be greater than begin
+ //void setEndT(const F32 endT) { mPathParams.setEnd(endT); } // range 0 to 1, must be greater than begin
+
+ bool setBeginAndEndS(const F32 begin, const F32 end); // both range from 0 to 1, begin must be less than end
+ bool setBeginAndEndT(const F32 begin, const F32 end); // both range from 0 to 1, begin must be less than end
+
+ bool setHollow(const F32 hollow); // range 0 to 1
+ bool setRatio(const F32 x) { return setRatio(x,x); } // 0 = point, 1 = same as base
+ bool setShear(const F32 x) { return setShear(x,x); } // 0 = no movement,
+ bool setRatio(const F32 x, const F32 y); // 0 = point, 1 = same as base
+ bool setShear(const F32 x, const F32 y); // 0 = no movement
+
+ bool setTwistBegin(const F32 twist_begin); // range -1 to 1
+ bool setTwistEnd(const F32 twist_end); // range -1 to 1
+ bool setTwist(const F32 twist) { return setTwistEnd(twist); } // deprecated
+ bool setTaper(const F32 x, const F32 y) { bool pass_x = setTaperX(x); bool pass_y = setTaperY(y); return pass_x && pass_y; }
+ bool setTaperX(const F32 v); // -1 to 1
+ bool setTaperY(const F32 v); // -1 to 1
+ bool setRevolutions(const F32 revolutions); // 1 to 4
+ bool setRadiusOffset(const F32 radius_offset);
+ bool setSkew(const F32 skew);
+ bool setSculptID(const LLUUID sculpt_id, U8 sculpt_type);
+
+ static bool validate(U8 prof_curve, F32 prof_begin, F32 prof_end, F32 hollow,
+ U8 path_curve, F32 path_begin, F32 path_end,
+ F32 scx, F32 scy, F32 shx, F32 shy,
+ F32 twistend, F32 twistbegin, F32 radiusoffset,
+ F32 tx, F32 ty, F32 revolutions, F32 skew);
+
+ const F32& getBeginS() const { return mProfileParams.getBegin(); }
+ const F32& getBeginT() const { return mPathParams.getBegin(); }
+ const F32& getEndS() const { return mProfileParams.getEnd(); }
+ const F32& getEndT() const { return mPathParams.getEnd(); }
+
+ const F32& getHollow() const { return mProfileParams.getHollow(); }
+ const F32& getTwist() const { return mPathParams.getTwist(); }
+ const F32& getRatio() const { return mPathParams.getScaleX(); }
+ const F32& getRatioX() const { return mPathParams.getScaleX(); }
+ const F32& getRatioY() const { return mPathParams.getScaleY(); }
+ const F32& getShearX() const { return mPathParams.getShearX(); }
+ const F32& getShearY() const { return mPathParams.getShearY(); }
+
+ const F32& getTwistBegin()const { return mPathParams.getTwistBegin(); }
+ const F32& getRadiusOffset() const { return mPathParams.getRadiusOffset(); }
+ const F32& getTaper() const { return mPathParams.getTaperX(); }
+ const F32& getTaperX() const { return mPathParams.getTaperX(); }
+ const F32& getTaperY() const { return mPathParams.getTaperY(); }
+ const F32& getRevolutions() const { return mPathParams.getRevolutions(); }
+ const F32& getSkew() const { return mPathParams.getSkew(); }
+ const LLUUID& getSculptID() const { return mSculptID; }
+ const U8& getSculptType() const { return mSculptType; }
+ bool isSculpt() const;
+ bool isMeshSculpt() const;
+ BOOL isConvex() const;
+
+ // 'begin' and 'end' should be in range [0, 1] (they will be clamped)
+ // (begin, end) = (0, 1) will not change the volume
+ // (begin, end) = (0, 0.5) will reduce the volume to the first half of its profile/path (S/T)
+ void reduceS(F32 begin, F32 end);
+ void reduceT(F32 begin, F32 end);
+
+ struct compare
+ {
+ bool operator()( const const_LLVolumeParamsPtr& first, const const_LLVolumeParamsPtr& second) const
+ {
+ return (*first < *second);
+ }
+ };
+
+ friend std::ostream& operator<<(std::ostream &s, const LLVolumeParams &volume_params);
+
+ // debug helper functions
+ void setCube();
+
+protected:
+ LLProfileParams mProfileParams;
+ LLPathParams mPathParams;
+ LLUUID mSculptID;
+ U8 mSculptType;
+};
+
+
+class LLProfile
+{
+public:
+ LLProfile()
+ : mOpen(FALSE),
+ mConcave(FALSE),
+ mDirty(TRUE),
+ mTotalOut(0),
+ mTotal(2)
+ {
+ }
+
+ ~LLProfile();
+
+ S32 getTotal() const { return mTotal; }
+ S32 getTotalOut() const { return mTotalOut; } // Total number of outside points
+ BOOL isFlat(S32 face) const { return (mFaces[face].mCount == 2); }
+ BOOL isOpen() const { return mOpen; }
+ void setDirty() { mDirty = TRUE; }
+ BOOL generate(const LLProfileParams& params, BOOL path_open, F32 detail = 1.0f, S32 split = 0,
+ BOOL is_sculpted = FALSE, S32 sculpt_size = 0);
+ BOOL isConcave() const { return mConcave; }
+public:
+ struct Face
+ {
+ S32 mIndex;
+ S32 mCount;
+ F32 mScaleU;
+ BOOL mCap;
+ BOOL mFlat;
+ LLFaceID mFaceID;
+ };
+
+ std::vector<LLVector3> mProfile;
+ std::vector<LLVector2> mNormals;
+ std::vector<Face> mFaces;
+ std::vector<LLVector3> mEdgeNormals;
+ std::vector<LLVector3> mEdgeCenters;
+
+ friend std::ostream& operator<<(std::ostream &s, const LLProfile &profile);
+
+protected:
+ void genNormals(const LLProfileParams& params);
+ void genNGon(const LLProfileParams& params, S32 sides, F32 offset=0.0f, F32 bevel = 0.0f, F32 ang_scale = 1.f, S32 split = 0);
+
+ Face* addHole(const LLProfileParams& params, BOOL flat, F32 sides, F32 offset, F32 box_hollow, F32 ang_scale, S32 split = 0);
+ Face* addCap (S16 faceID);
+ Face* addFace(S32 index, S32 count, F32 scaleU, S16 faceID, BOOL flat);
+
+protected:
+ BOOL mOpen;
+ BOOL mConcave;
+ BOOL mDirty;
+
+ S32 mTotalOut;
+ S32 mTotal;
+};
+
+//-------------------------------------------------------------------
+// SWEEP/EXTRUDE PATHS
+//-------------------------------------------------------------------
+
+class LLPath
+{
+public:
+ struct PathPt
+ {
+ LLVector3 mPos;
+ LLVector2 mScale;
+ LLQuaternion mRot;
+ F32 mTexT;
+ PathPt() { mPos.setVec(0,0,0); mTexT = 0; mScale.setVec(0,0); mRot.loadIdentity(); }
+ };
+
+public:
+ LLPath()
+ : mOpen(FALSE),
+ mTotal(0),
+ mDirty(TRUE),
+ mStep(1)
+ {
+ }
+
+ virtual ~LLPath();
+
+ void genNGon(const LLPathParams& params, S32 sides, F32 offset=0.0f, F32 end_scale = 1.f, F32 twist_scale = 1.f);
+ virtual BOOL generate(const LLPathParams& params, F32 detail=1.0f, S32 split = 0,
+ BOOL is_sculpted = FALSE, S32 sculpt_size = 0);
+
+ BOOL isOpen() const { return mOpen; }
+ F32 getStep() const { return mStep; }
+ void setDirty() { mDirty = TRUE; }
+
+ S32 getPathLength() const { return (S32)mPath.size(); }
+
+ void resizePath(S32 length) { mPath.resize(length); }
+
+ friend std::ostream& operator<<(std::ostream &s, const LLPath &path);
+
+public:
+ std::vector<PathPt> mPath;
+
+protected:
+ BOOL mOpen;
+ S32 mTotal;
+ BOOL mDirty;
+ F32 mStep;
+};
+
+class LLDynamicPath : public LLPath
+{
+public:
+ LLDynamicPath() : LLPath() { }
+ /*virtual*/ BOOL generate(const LLPathParams& params, F32 detail=1.0f, S32 split = 0,
+ BOOL is_sculpted = FALSE, S32 sculpt_size = 0);
+};
+
+// Yet another "face" class - caches volume-specific, but not instance-specific data for faces)
+class LLVolumeFace
+{
+public:
+ class VertexData
+ {
+ enum
+ {
+ POSITION = 0,
+ NORMAL = 1
+ };
+
+ private:
+ void init();
+ public:
+ VertexData();
+ VertexData(const VertexData& rhs);
+ const VertexData& operator=(const VertexData& rhs);
+
+ ~VertexData();
+ LLVector4a& getPosition();
+ LLVector4a& getNormal();
+ const LLVector4a& getPosition() const;
+ const LLVector4a& getNormal() const;
+ void setPosition(const LLVector4a& pos);
+ void setNormal(const LLVector4a& norm);
+
+
+ LLVector2 mTexCoord;
+
+ bool operator<(const VertexData& rhs) const;
+ bool operator==(const VertexData& rhs) const;
+ bool compareNormal(const VertexData& rhs, F32 angle_cutoff) const;
+
+ private:
+ LLVector4a* mData;
+ };
+
+ LLVolumeFace();
+ LLVolumeFace(const LLVolumeFace& src);
+ LLVolumeFace& operator=(const LLVolumeFace& rhs);
+
+ ~LLVolumeFace();
+private:
+ void freeData();
+public:
+
+ BOOL create(LLVolume* volume, BOOL partial_build = FALSE);
+ void createBinormals();
+
+ void appendFace(const LLVolumeFace& face, LLMatrix4& transform, LLMatrix4& normal_tranform);
+
+ void resizeVertices(S32 num_verts);
+ void allocateBinormals(S32 num_verts);
+ void allocateWeights(S32 num_verts);
+ void resizeIndices(S32 num_indices);
+ void fillFromLegacyData(std::vector<LLVolumeFace::VertexData>& v, std::vector<U16>& idx);
+
+ void pushVertex(const VertexData& cv);
+ void pushVertex(const LLVector4a& pos, const LLVector4a& norm, const LLVector2& tc);
+ void pushIndex(const U16& idx);
+
+ void swapData(LLVolumeFace& rhs);
+
+ void getVertexData(U16 indx, LLVolumeFace::VertexData& cv);
+
+ class VertexMapData : public LLVolumeFace::VertexData
+ {
+ public:
+ U16 mIndex;
+
+ bool operator==(const LLVolumeFace::VertexData& rhs) const;
+
+ struct ComparePosition
+ {
+ bool operator()(const LLVector3& a, const LLVector3& b) const;
+ };
+
+ typedef std::map<LLVector3, std::vector<VertexMapData>, VertexMapData::ComparePosition > PointMap;
+ };
+
+ void optimize(F32 angle_cutoff = 2.f);
+ void cacheOptimize();
+
+ void createOctree(F32 scaler = 0.25f, const LLVector4a& center = LLVector4a(0,0,0), const LLVector4a& size = LLVector4a(0.5f,0.5f,0.5f));
+
+ enum
+ {
+ SINGLE_MASK = 0x0001,
+ CAP_MASK = 0x0002,
+ END_MASK = 0x0004,
+ SIDE_MASK = 0x0008,
+ INNER_MASK = 0x0010,
+ OUTER_MASK = 0x0020,
+ HOLLOW_MASK = 0x0040,
+ OPEN_MASK = 0x0080,
+ FLAT_MASK = 0x0100,
+ TOP_MASK = 0x0200,
+ BOTTOM_MASK = 0x0400
+ };
+
+public:
+ S32 mID;
+ U32 mTypeMask;
+
+ // Only used for INNER/OUTER faces
+ S32 mBeginS;
+ S32 mBeginT;
+ S32 mNumS;
+ S32 mNumT;
+
+ LLVector4a* mExtents; //minimum and maximum point of face
+ LLVector4a* mCenter;
+ LLVector2 mTexCoordExtents[2]; //minimum and maximum of texture coordinates of the face.
+
+ S32 mNumVertices;
+ S32 mNumIndices;
+
+ LLVector4a* mPositions;
+ LLVector4a* mNormals;
+ LLVector4a* mBinormals;
+ LLVector2* mTexCoords;
+ U16* mIndices;
+
+ std::vector<S32> mEdge;
+
+ //list of skin weights for rigged volumes
+ // format is mWeights[vertex_index].mV[influence] = <joint_index>.<weight>
+ // mWeights.size() should be empty or match mVertices.size()
+ LLVector4a* mWeights;
+
+ LLOctreeNode<LLVolumeTriangle>* mOctree;
+
+private:
+ BOOL createUnCutCubeCap(LLVolume* volume, BOOL partial_build = FALSE);
+ BOOL createCap(LLVolume* volume, BOOL partial_build = FALSE);
+ BOOL createSide(LLVolume* volume, BOOL partial_build = FALSE);
+};
+
+class LLVolume : public LLRefCount
+{
+ friend class LLVolumeLODGroup;
+
+protected:
+ ~LLVolume(); // use unref
+
+public:
+ struct Point
+ {
+ LLVector3 mPos;
+ };
+
+ struct FaceParams
+ {
+ LLFaceID mFaceID;
+ S32 mBeginS;
+ S32 mCountS;
+ S32 mBeginT;
+ S32 mCountT;
+ };
+
+ LLVolume(const LLVolumeParams &params, const F32 detail, const BOOL generate_single_face = FALSE, const BOOL is_unique = FALSE);
+
+ U8 getProfileType() const { return mParams.getProfileParams().getCurveType(); }
+ U8 getPathType() const { return mParams.getPathParams().getCurveType(); }
+ S32 getNumFaces() const;
+ S32 getNumVolumeFaces() const { return mVolumeFaces.size(); }
+ F32 getDetail() const { return mDetail; }
+ const LLVolumeParams& getParams() const { return mParams; }
+ LLVolumeParams getCopyOfParams() const { return mParams; }
+ const LLProfile& getProfile() const { return *mProfilep; }
+ LLPath& getPath() const { return *mPathp; }
+ void resizePath(S32 length);
+ const std::vector<Point>& getMesh() const { return mMesh; }
+ const LLVector3& getMeshPt(const U32 i) const { return mMesh[i].mPos; }
+
+ void setDirty() { mPathp->setDirty(); mProfilep->setDirty(); }
+
+ void regen();
+ void genBinormals(S32 face);
+
+ BOOL isConvex() const;
+ BOOL isCap(S32 face);
+ BOOL isFlat(S32 face);
+ BOOL isUnique() const { return mUnique; }
+
+ S32 getSculptLevel() const { return mSculptLevel; }
+ void setSculptLevel(S32 level) { mSculptLevel = level; }
+
+ S32 *getTriangleIndices(U32 &num_indices) const;
+
+ // returns number of triangle indeces required for path/profile mesh
+ S32 getNumTriangleIndices() const;
+
+ S32 getNumTriangles() const;
+
+ void generateSilhouetteVertices(std::vector<LLVector3> &vertices,
+ std::vector<LLVector3> &normals,
+ std::vector<S32> &segments,
+ const LLVector3& view_vec,
+ const LLMatrix4& mat,
+ const LLMatrix3& norm_mat,
+ S32 face_index);
+
+ //get the face index of the face that intersects with the given line segment at the point
+ //closest to start. Moves end to the point of intersection. Returns -1 if no intersection.
+ //Line segment must be in volume space.
+ S32 lineSegmentIntersect(const LLVector3& start, const LLVector3& end,
+ S32 face = -1, // which face to check, -1 = ALL_SIDES
+ LLVector3* intersection = NULL, // return the intersection point
+ LLVector2* tex_coord = NULL, // return the texture coordinates of the intersection point
+ LLVector3* normal = NULL, // return the surface normal at the intersection point
+ LLVector3* bi_normal = NULL // return the surface bi-normal at the intersection point
+ );
+
+ S32 lineSegmentIntersect(const LLVector4a& start, const LLVector4a& end,
+ S32 face = 1,
+ LLVector3* intersection = NULL,
+ LLVector2* tex_coord = NULL,
+ LLVector3* normal = NULL,
+ LLVector3* bi_normal = NULL);
+
+ // The following cleans up vertices and triangles,
+ // getting rid of degenerate triangles and duplicate vertices,
+ // and allocates new arrays with the clean data.
+ static BOOL cleanupTriangleData( const S32 num_input_vertices,
+ const std::vector<Point> &input_vertices,
+ const S32 num_input_triangles,
+ S32 *input_triangles,
+ S32 &num_output_vertices,
+ LLVector3 **output_vertices,
+ S32 &num_output_triangles,
+ S32 **output_triangles);
+ LLFaceID generateFaceMask();
+
+ BOOL isFaceMaskValid(LLFaceID face_mask);
+ static S32 sNumMeshPoints;
+
+ friend std::ostream& operator<<(std::ostream &s, const LLVolume &volume);
+ friend std::ostream& operator<<(std::ostream &s, const LLVolume *volumep); // HACK to bypass Windoze confusion over
+ // conversion if *(LLVolume*) to LLVolume&
+ const LLVolumeFace &getVolumeFace(const S32 f) const {return mVolumeFaces[f];} // DO NOT DELETE VOLUME WHILE USING THIS REFERENCE, OR HOLD A POINTER TO THIS VOLUMEFACE
+
+ U32 mFaceMask; // bit array of which faces exist in this volume
+ LLVector3 mLODScaleBias; // vector for biasing LOD based on scale
+
+ void sculpt(U16 sculpt_width, U16 sculpt_height, S8 sculpt_components, const U8* sculpt_data, S32 sculpt_level);
+ void copyVolumeFaces(const LLVolume* volume);
+ void cacheOptimize();
+
+private:
+ void sculptGenerateMapVertices(U16 sculpt_width, U16 sculpt_height, S8 sculpt_components, const U8* sculpt_data, U8 sculpt_type);
+ F32 sculptGetSurfaceArea();
+ void sculptGeneratePlaceholder();
+ void sculptCalcMeshResolution(U16 width, U16 height, U8 type, S32& s, S32& t);
+
+
+protected:
+ BOOL generate();
+ void createVolumeFaces();
+public:
+ virtual BOOL createVolumeFacesFromFile(const std::string& file_name);
+ virtual BOOL createVolumeFacesFromStream(std::istream& is);
+ virtual bool unpackVolumeFaces(std::istream& is, S32 size);
+
+ virtual void makeTetrahedron();
+ virtual BOOL isTetrahedron();
+
+ protected:
+ BOOL mUnique;
+ F32 mDetail;
+ S32 mSculptLevel;
+ BOOL mIsTetrahedron;
+
+ LLVolumeParams mParams;
+ LLPath *mPathp;
+ LLProfile *mProfilep;
+ std::vector<Point> mMesh;
+
+ BOOL mGenerateSingleFace;
+ typedef std::vector<LLVolumeFace> face_list_t;
+ face_list_t mVolumeFaces;
+
+public:
+ LLVector4a* mHullPoints;
+ U16* mHullIndices;
+ S32 mNumHullPoints;
+ S32 mNumHullIndices;
+};
+
+std::ostream& operator<<(std::ostream &s, const LLVolumeParams &volume_params);
+
+void calc_binormal_from_triangle(
+ LLVector4a& binormal,
+ const LLVector4a& pos0,
+ const LLVector2& tex0,
+ const LLVector4a& pos1,
+ const LLVector2& tex1,
+ const LLVector4a& pos2,
+ const LLVector2& tex2);
+
+BOOL LLLineSegmentBoxIntersect(const F32* start, const F32* end, const F32* center, const F32* size);
+BOOL LLLineSegmentBoxIntersect(const LLVector3& start, const LLVector3& end, const LLVector3& center, const LLVector3& size);
+BOOL LLLineSegmentBoxIntersect(const LLVector4a& start, const LLVector4a& end, const LLVector4a& center, const LLVector4a& size);
+
+BOOL LLTriangleRayIntersect(const LLVector3& vert0, const LLVector3& vert1, const LLVector3& vert2, const LLVector3& orig, const LLVector3& dir,
+ F32& intersection_a, F32& intersection_b, F32& intersection_t, BOOL two_sided);
+
+BOOL LLTriangleRayIntersect(const LLVector4a& vert0, const LLVector4a& vert1, const LLVector4a& vert2, const LLVector4a& orig, const LLVector4a& dir,
+ F32& intersection_a, F32& intersection_b, F32& intersection_t);
+BOOL LLTriangleRayIntersectTwoSided(const LLVector4a& vert0, const LLVector4a& vert1, const LLVector4a& vert2, const LLVector4a& orig, const LLVector4a& dir,
+ F32& intersection_a, F32& intersection_b, F32& intersection_t);
+
+
+
+#endif
diff --git a/indra/llmath/llvolumeoctree.h b/indra/llmath/llvolumeoctree.h
index f696cbd976..688d91dc40 100644
--- a/indra/llmath/llvolumeoctree.h
+++ b/indra/llmath/llvolumeoctree.h
@@ -34,6 +34,41 @@
#include "llvolume.h"
#include "llvector4a.h"
+class LLVolumeTriangle : public LLRefCount
+{
+public:
+ LLVolumeTriangle()
+ {
+
+ }
+
+ LLVolumeTriangle(const LLVolumeTriangle& rhs)
+ {
+ *this = rhs;
+ }
+
+ const LLVolumeTriangle& operator=(const LLVolumeTriangle& rhs)
+ {
+ llerrs << "Illegal operation!" << llendl;
+ return *this;
+ }
+
+ ~LLVolumeTriangle()
+ {
+
+ }
+
+ LLVector4a mPositionGroup;
+
+ const LLVector4a* mV[3];
+ U16 mIndex[3];
+
+ F32 mRadius;
+
+ virtual const LLVector4a& getPositionGroup() const;
+ virtual const F32& getBinRadius() const;
+};
+
class LLVolumeOctreeListener : public LLOctreeListener<LLVolumeTriangle>
{
public:
@@ -91,41 +126,6 @@ public:
virtual void visit(const LLOctreeNode<LLVolumeTriangle>* node);
};
-class LLVolumeTriangle : public LLRefCount
-{
-public:
- LLVolumeTriangle()
- {
-
- }
-
- LLVolumeTriangle(const LLVolumeTriangle& rhs)
- {
- *this = rhs;
- }
-
- const LLVolumeTriangle& operator=(const LLVolumeTriangle& rhs)
- {
- llerrs << "Illegal operation!" << llendl;
- return *this;
- }
-
- ~LLVolumeTriangle()
- {
-
- }
-
- LLVector4a mPositionGroup;
-
- const LLVector4a* mV[3];
- U16 mIndex[3];
-
- F32 mRadius;
-
- virtual const LLVector4a& getPositionGroup() const;
- virtual const F32& getBinRadius() const;
-};
-
class LLVolumeOctreeValidate : public LLOctreeTraveler<LLVolumeTriangle>
{
virtual void visit(const LLOctreeNode<LLVolumeTriangle>* branch);