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/**
* @file llsceneview.cpp
* @brief LLSceneView class implementation
*
* $LicenseInfo:firstyear=2001&license=viewerlgpl$
* Second Life Viewer Source Code
* Copyright (C) 2010, Linden Research, Inc.
*
* This library is free software; you can redistribute it and/or
* modify it under the terms of the GNU Lesser General Public
* License as published by the Free Software Foundation;
* version 2.1 of the License only.
*
* This library is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
* Lesser General Public License for more details.
*
* You should have received a copy of the GNU Lesser General Public
* License along with this library; if not, write to the Free Software
* Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA
*
* Linden Research, Inc., 945 Battery Street, San Francisco, CA 94111 USA
* $/LicenseInfo$
*/
#include "llviewerprecompiledheaders.h"
#include "llsceneview.h"
#include "llviewerwindow.h"
#include "pipeline.h"
#include "llviewerobjectlist.h"
#include "llviewerregion.h"
#include "llagent.h"
#include "llvolumemgr.h"
LLSceneView* gSceneView = NULL;
//borrow this helper function from llfasttimerview.cpp
template <class VEC_TYPE>
void removeOutliers(std::vector<VEC_TYPE>& data, F32 k);
LLSceneView::LLSceneView(const LLRect& rect)
: LLFloater(LLSD())
{
setRect(rect);
setVisible(FALSE);
setCanMinimize(false);
setCanClose(true);
}
void LLSceneView::onClickCloseBtn()
{
setVisible(false);
}
void LLSceneView::draw()
{
S32 margin = 10;
S32 height = (S32) (gViewerWindow->getWindowRectScaled().getHeight()*0.75f);
S32 width = (S32) (gViewerWindow->getWindowRectScaled().getWidth() * 0.75f);
LLRect new_rect;
new_rect.setLeftTopAndSize(getRect().mLeft, getRect().mTop, width, height);
setRect(new_rect);
// Draw the window background
gGL.getTexUnit(0)->unbind(LLTexUnit::TT_TEXTURE);
gl_rect_2d(0, getRect().getHeight(), getRect().getWidth(), 0, LLColor4(0.f, 0.f, 0.f, 0.25f));
//aggregate some statistics
//object sizes
std::vector<F32> size[2];
//triangle counts
std::vector<S32> triangles[2];
std::vector<S32> visible_triangles[2];
S32 total_visible_triangles[] = {0, 0};
S32 total_triangles[] = {0, 0};
//streaming cost
std::vector<F32> streaming_cost[2];
F32 total_streaming[] = { 0.f, 0.f };
//physics cost
std::vector<F32> physics_cost[2];
F32 total_physics[] = { 0.f, 0.f };
U32 object_count = 0;
LLViewerRegion* region = gAgent.getRegion();
if (region)
{
for (U32 i = 0; i < gObjectList.getNumObjects(); ++i)
{
LLViewerObject* object = gObjectList.getObject(i);
if (object &&
object->getVolume()&&
object->getRegion() == region)
{
U32 idx = object->isAttachment() ? 1 : 0;
LLVolume* volume = object->getVolume();
object_count++;
F32 radius = object->getScale().magVec();
size[idx].push_back(radius);
S32 visible = volume->getNumTriangles();
S32 high_triangles = object->getHighLODTriangleCount();
total_visible_triangles[idx] += visible;
total_triangles[idx] += high_triangles;
visible_triangles[idx].push_back(visible);
triangles[idx].push_back(high_triangles);
F32 streaming = object->getStreamingCost();
total_streaming[idx] += streaming;
streaming_cost[idx].push_back(streaming);
F32 physics = object->getPhysicsCost();
total_physics[idx] += physics;
physics_cost[idx].push_back(physics);
}
}
}
const char* category[] =
{
"Region",
"Attachment"
};
S32 graph_pos[4];
for (U32 i = 0; i < 4; ++i)
{
graph_pos[i] = new_rect.getHeight()/4*(i+1);
}
for (U32 idx = 0; idx < 2; idx++)
{
if (!size[idx].empty())
{ //display graph of object sizes
std::sort(size[idx].begin(), size[idx].end());
ll_remove_outliers(size[idx], 1.f);
LLRect size_rect;
if (idx == 0)
{
size_rect = LLRect(margin, graph_pos[0]-margin, new_rect.getWidth()/2-margin, margin*2);
}
else
{
size_rect = LLRect(margin+new_rect.getWidth()/2, graph_pos[0]-margin, new_rect.getWidth()-margin, margin*2);
}
gl_rect_2d(size_rect, LLColor4::white, false);
F32 size_domain[] = { 128.f, 0.f };
//get domain of sizes
for (U32 i = 0; i < size[idx].size(); ++i)
{
size_domain[0] = llmin(size_domain[0], size[idx][i]);
size_domain[1] = llmax(size_domain[1], size[idx][i]);
}
F32 size_range = size_domain[1]-size_domain[0];
U32 count = size[idx].size();
F32 total = 0.f;
gGL.begin(LLRender::LINE_STRIP);
for (U32 i = 0; i < count; ++i)
{
F32 rad = size[idx][i];
total += rad;
F32 y = (rad-size_domain[0])/size_range*size_rect.getHeight()+size_rect.mBottom;
F32 x = (F32) i / count * size_rect.getWidth() + size_rect.mLeft;
gGL.vertex2f(x,y);
if (i%4096 == 0)
{
gGL.end();
gGL.flush();
gGL.begin(LLRender::LINE_STRIP);
}
}
gGL.end();
gGL.flush();
std::string label = llformat("%s Object Sizes (m) -- [%.1f, %.1f] Mean: %.1f Median: %.1f -- %d samples",
category[idx], size_domain[0], size_domain[1], total/count, size[idx][count/2], count);
LLFontGL::getFontMonospace()->renderUTF8(label,
0 , size_rect.mLeft, size_rect.mTop+margin, LLColor4::white, LLFontGL::LEFT, LLFontGL::TOP);
}
}
for (U32 idx = 0; idx < 2; ++idx)
{
if (!triangles[idx].empty())
{ //plot graph of visible/total triangles
std::sort(triangles[idx].begin(), triangles[idx].end());
ll_remove_outliers(triangles[idx], 1.f);
LLRect tri_rect;
if (idx == 0)
{
tri_rect = LLRect(margin, graph_pos[1]-margin, new_rect.getWidth()/2-margin, graph_pos[0]+margin);
}
else
{
tri_rect = LLRect(new_rect.getWidth()/2+margin, graph_pos[1]-margin, new_rect.getWidth()-margin, graph_pos[0]+margin);
}
gl_rect_2d(tri_rect, LLColor4::white, false);
S32 tri_domain[] = { 65536, 0 };
//get domain of triangle counts
for (U32 i = 0; i < triangles[idx].size(); ++i)
{
tri_domain[0] = llmin(tri_domain[0], triangles[idx][i]);
tri_domain[1] = llmax(tri_domain[1], triangles[idx][i]);
}
U32 triangle_range = tri_domain[1]-tri_domain[0];
U32 count = triangles[idx].size();
U32 total = 0;
gGL.begin(LLRender::LINE_STRIP);
//plot triangles
for (U32 i = 0; i < count; ++i)
{
U32 tri_count = triangles[idx][i];
total += tri_count;
F32 y = (F32) (tri_count-tri_domain[0])/triangle_range*tri_rect.getHeight()+tri_rect.mBottom;
F32 x = (F32) i / count * tri_rect.getWidth() + tri_rect.mLeft;
gGL.vertex2f(x,y);
if (i%4096 == 0)
{
gGL.end();
gGL.flush();
gGL.begin(LLRender::LINE_STRIP);
}
}
gGL.end();
gGL.flush();
U32 total_visible = 0;
count = visible_triangles[idx].size();
for (U32 i = 0; i < count; ++i)
{
U32 tri_count = visible_triangles[idx][i];
total_visible += tri_count;
}
std::string label = llformat("%s Object Triangle Counts (Ktris) -- [%.2f, %.2f] Mean: %.2f Median: %.2f Visible: %.2f/%.2f",
category[idx], tri_domain[0]/1024.f, tri_domain[1]/1024.f, (total/count)/1024.f, triangles[idx][count/2]/1024.f, total_visible_triangles[idx]/1024.f, total_triangles[idx]/1024.f);
LLFontGL::getFontMonospace()->renderUTF8(label,
0 , tri_rect.mLeft, tri_rect.mTop+margin, LLColor4::white, LLFontGL::LEFT, LLFontGL::TOP);
}
}
for (U32 idx = 0; idx < 2; ++idx)
{
if (!streaming_cost[idx].empty())
{ //plot graph of streaming cost
std::sort(streaming_cost[idx].begin(), streaming_cost[idx].end());
ll_remove_outliers(streaming_cost[idx], 1.f);
LLRect tri_rect;
if (idx == 0)
{
tri_rect = LLRect(margin, graph_pos[2]-margin, new_rect.getWidth()/2-margin, graph_pos[1]+margin);
}
else
{
tri_rect = LLRect(new_rect.getWidth()/2+margin, graph_pos[2]-margin, new_rect.getWidth()-margin, graph_pos[1]+margin);
}
gl_rect_2d(tri_rect, LLColor4::white, false);
F32 streaming_domain[] = { 65536, 0 };
//get domain of triangle counts
for (U32 i = 0; i < streaming_cost[idx].size(); ++i)
{
streaming_domain[0] = llmin(streaming_domain[0], streaming_cost[idx][i]);
streaming_domain[1] = llmax(streaming_domain[1], streaming_cost[idx][i]);
}
F32 cost_range = streaming_domain[1]-streaming_domain[0];
U32 count = streaming_cost[idx].size();
F32 total = 0;
gGL.begin(LLRender::LINE_STRIP);
//plot triangles
for (U32 i = 0; i < count; ++i)
{
F32 sc = streaming_cost[idx][i];
total += sc;
F32 y = (F32) (sc-streaming_domain[0])/cost_range*tri_rect.getHeight()+tri_rect.mBottom;
F32 x = (F32) i / count * tri_rect.getWidth() + tri_rect.mLeft;
gGL.vertex2f(x,y);
if (i%4096 == 0)
{
gGL.end();
gGL.flush();
gGL.begin(LLRender::LINE_STRIP);
}
}
gGL.end();
gGL.flush();
std::string label = llformat("%s Object Streaming Cost -- [%.2f, %.2f] Mean: %.2f Total: %.2f",
category[idx], streaming_domain[0], streaming_domain[1], total/count, total_streaming[idx]);
LLFontGL::getFontMonospace()->renderUTF8(label,
0 , tri_rect.mLeft, tri_rect.mTop+margin, LLColor4::white, LLFontGL::LEFT, LLFontGL::TOP);
}
}
for (U32 idx = 0; idx < 2; ++idx)
{
if (!physics_cost[idx].empty())
{ //plot graph of physics cost
std::sort(physics_cost[idx].begin(), physics_cost[idx].end());
ll_remove_outliers(physics_cost[idx], 1.f);
LLRect tri_rect;
if (idx == 0)
{
tri_rect = LLRect(margin, graph_pos[3]-margin, new_rect.getWidth()/2-margin, graph_pos[2]+margin);
}
else
{
tri_rect = LLRect(new_rect.getWidth()/2+margin, graph_pos[3]-margin, new_rect.getWidth()-margin, graph_pos[2]+margin);
}
gl_rect_2d(tri_rect, LLColor4::white, false);
F32 physics_domain[] = { 65536, 0 };
//get domain of triangle counts
for (U32 i = 0; i < physics_cost[idx].size(); ++i)
{
physics_domain[0] = llmin(physics_domain[0], physics_cost[idx][i]);
physics_domain[1] = llmax(physics_domain[1], physics_cost[idx][i]);
}
F32 cost_range = physics_domain[1]-physics_domain[0];
U32 count = physics_cost[idx].size();
F32 total = 0;
gGL.begin(LLRender::LINE_STRIP);
//plot triangles
for (U32 i = 0; i < count; ++i)
{
F32 pc = physics_cost[idx][i];
total += pc;
F32 y = (F32) (pc-physics_domain[0])/cost_range*tri_rect.getHeight()+tri_rect.mBottom;
F32 x = (F32) i / count * tri_rect.getWidth() + tri_rect.mLeft;
gGL.vertex2f(x,y);
if (i%4096 == 0)
{
gGL.end();
gGL.flush();
gGL.begin(LLRender::LINE_STRIP);
}
}
gGL.end();
gGL.flush();
std::string label = llformat("%s Object Physics Cost -- [%.2f, %.2f] Mean: %.2f Total: %.2f",
category[idx], physics_domain[0], physics_domain[1], total/count, total_physics[idx]);
LLFontGL::getFontMonospace()->renderUTF8(label,
0 , tri_rect.mLeft, tri_rect.mTop+margin, LLColor4::white, LLFontGL::LEFT, LLFontGL::TOP);
}
}
LLView::draw();
}
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