blender/source/gameengine/Rasterizer/RAS_OpenGLRasterizer/RAS_OpenGLRasterizer.cpp

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/**
* $Id$
* ***** BEGIN GPL LICENSE BLOCK *****
*
* This program is free software; you can redistribute it and/or
* modify it under the terms of the GNU General Public License
* as published by the Free Software Foundation; either version 2
* of the License, or (at your option) any later version.
*
* This program 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 General Public License for more details.
*
* You should have received a copy of the GNU General Public License
* along with this program; if not, write to the Free Software Foundation,
2010-02-12 13:34:04 +00:00
* Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA.
*
* The Original Code is Copyright (C) 2001-2002 by NaN Holding BV.
* All rights reserved.
*
* The Original Code is: all of this file.
*
* Contributor(s): none yet.
*
* ***** END GPL LICENSE BLOCK *****
*/
#include <math.h>
#include <stdlib.h>
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#include "RAS_OpenGLRasterizer.h"
Merge of apricot branch game engine changes into trunk, excluding GLSL. GLEW ==== Added the GLEW opengl extension library into extern/, always compiled into Blender now. This is much nicer than doing this kind of extension management manually, and will be used in the game engine, for GLSL, and other opengl extensions. * According to the GLEW website it works on Windows, Linux, Mac OS X, FreeBSD, Irix, and Solaris. There might still be platform specific issues due to this commit, so let me know and I'll look into it. * This means also that all extensions will now always be compiled in, regardless of the glext.h on the platform where compilation happens. Game Engine =========== Refactoring of the use of opengl extensions and other drawing code in the game engine, and cleaning up some hacks related to GLSL integration. These changes will be merged into trunk too after this. The game engine graphics demos & apricot level survived my tests, but this could use some good testing of course. For users: please test with the options "Generate Display Lists" and "Vertex Arrays" enabled, these should be the fastest and are supposed to be "unreliable", but if that's the case that's probably due to bugs that can be fixed. * The game engine now also uses GLEW for extensions, replacing the custom opengl extensions code that was there. Removes a lot of #ifdef's, but the runtime checks stay of course. * Removed the WITHOUT_GLEXT environment variable. This was added to work around a specific bug and only disabled multitexturing anyway. It might also have caused a slowdown since it was retrieving the environment variable for every vertex in immediate mode (bug #13680). * Refactored the code to allow drawing skinned meshes with vertex arrays too, removing some specific immediate mode drawing functions for this that only did extra normal calculation. Now it always splits vertices of flat faces instead. * Refactored normal recalculation with some minor optimizations, required for the above change. * Removed some outdated code behind the __NLA_OLDDEFORM #ifdef. * Fixed various bugs in setting of multitexture coordinates and vertex attributes for vertex arrays. These were not being enabled/disabled correct according to the opengl spec, leading to crashes. Also tangent attributes used an immediate mode call for vertex arrays, which can't work. * Fixed use of uninitialized variable in RAS_TexVert. * Exporting skinned meshes was doing O(n^2) lookups for vertices and deform weights, now uses same trick as regular meshes.
2008-06-17 10:27:34 +00:00
#include "GL/glew.h"
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#include "RAS_Rect.h"
#include "RAS_TexVert.h"
#include "RAS_MeshObject.h"
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#include "MT_CmMatrix4x4.h"
#include "RAS_IRenderTools.h" // rendering text
#include "GPU_draw.h"
#include "GPU_material.h"
#include "GPU_extensions.h"
#include "DNA_image_types.h"
#include "DNA_meshdata_types.h"
#include "DNA_material_types.h"
#include "DNA_scene_types.h"
#include "BKE_DerivedMesh.h"
/**
* 32x32 bit masks for vinterlace stereo mode
*/
static GLuint left_eye_vinterlace_mask[32];
static GLuint right_eye_vinterlace_mask[32];
/**
* 32x32 bit masks for hinterlace stereo mode.
* Left eye = &hinterlace_mask[0]
* Right eye = &hinterlace_mask[1]
*/
static GLuint hinterlace_mask[33];
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RAS_OpenGLRasterizer::RAS_OpenGLRasterizer(RAS_ICanvas* canvas)
:RAS_IRasterizer(canvas),
m_2DCanvas(canvas),
m_fogenabled(false),
m_time(0.0),
m_campos(0.0f, 0.0f, 0.0f),
m_camortho(false),
m_stereomode(RAS_STEREO_NOSTEREO),
m_curreye(RAS_STEREO_LEFTEYE),
m_eyeseparation(0.0),
m_focallength(0.0),
m_setfocallength(false),
m_noOfScanlines(32),
m_motionblur(0),
Merge of apricot branch game engine changes into trunk, excluding GLSL. GLEW ==== Added the GLEW opengl extension library into extern/, always compiled into Blender now. This is much nicer than doing this kind of extension management manually, and will be used in the game engine, for GLSL, and other opengl extensions. * According to the GLEW website it works on Windows, Linux, Mac OS X, FreeBSD, Irix, and Solaris. There might still be platform specific issues due to this commit, so let me know and I'll look into it. * This means also that all extensions will now always be compiled in, regardless of the glext.h on the platform where compilation happens. Game Engine =========== Refactoring of the use of opengl extensions and other drawing code in the game engine, and cleaning up some hacks related to GLSL integration. These changes will be merged into trunk too after this. The game engine graphics demos & apricot level survived my tests, but this could use some good testing of course. For users: please test with the options "Generate Display Lists" and "Vertex Arrays" enabled, these should be the fastest and are supposed to be "unreliable", but if that's the case that's probably due to bugs that can be fixed. * The game engine now also uses GLEW for extensions, replacing the custom opengl extensions code that was there. Removes a lot of #ifdef's, but the runtime checks stay of course. * Removed the WITHOUT_GLEXT environment variable. This was added to work around a specific bug and only disabled multitexturing anyway. It might also have caused a slowdown since it was retrieving the environment variable for every vertex in immediate mode (bug #13680). * Refactored the code to allow drawing skinned meshes with vertex arrays too, removing some specific immediate mode drawing functions for this that only did extra normal calculation. Now it always splits vertices of flat faces instead. * Refactored normal recalculation with some minor optimizations, required for the above change. * Removed some outdated code behind the __NLA_OLDDEFORM #ifdef. * Fixed various bugs in setting of multitexture coordinates and vertex attributes for vertex arrays. These were not being enabled/disabled correct according to the opengl spec, leading to crashes. Also tangent attributes used an immediate mode call for vertex arrays, which can't work. * Fixed use of uninitialized variable in RAS_TexVert. * Exporting skinned meshes was doing O(n^2) lookups for vertices and deform weights, now uses same trick as regular meshes.
2008-06-17 10:27:34 +00:00
m_motionblurvalue(-1.0),
m_texco_num(0),
m_attrib_num(0),
//m_last_blendmode(GPU_BLEND_SOLID),
m_last_frontface(true),
Merge of apricot branch game engine changes into trunk, excluding GLSL. GLEW ==== Added the GLEW opengl extension library into extern/, always compiled into Blender now. This is much nicer than doing this kind of extension management manually, and will be used in the game engine, for GLSL, and other opengl extensions. * According to the GLEW website it works on Windows, Linux, Mac OS X, FreeBSD, Irix, and Solaris. There might still be platform specific issues due to this commit, so let me know and I'll look into it. * This means also that all extensions will now always be compiled in, regardless of the glext.h on the platform where compilation happens. Game Engine =========== Refactoring of the use of opengl extensions and other drawing code in the game engine, and cleaning up some hacks related to GLSL integration. These changes will be merged into trunk too after this. The game engine graphics demos & apricot level survived my tests, but this could use some good testing of course. For users: please test with the options "Generate Display Lists" and "Vertex Arrays" enabled, these should be the fastest and are supposed to be "unreliable", but if that's the case that's probably due to bugs that can be fixed. * The game engine now also uses GLEW for extensions, replacing the custom opengl extensions code that was there. Removes a lot of #ifdef's, but the runtime checks stay of course. * Removed the WITHOUT_GLEXT environment variable. This was added to work around a specific bug and only disabled multitexturing anyway. It might also have caused a slowdown since it was retrieving the environment variable for every vertex in immediate mode (bug #13680). * Refactored the code to allow drawing skinned meshes with vertex arrays too, removing some specific immediate mode drawing functions for this that only did extra normal calculation. Now it always splits vertices of flat faces instead. * Refactored normal recalculation with some minor optimizations, required for the above change. * Removed some outdated code behind the __NLA_OLDDEFORM #ifdef. * Fixed various bugs in setting of multitexture coordinates and vertex attributes for vertex arrays. These were not being enabled/disabled correct according to the opengl spec, leading to crashes. Also tangent attributes used an immediate mode call for vertex arrays, which can't work. * Fixed use of uninitialized variable in RAS_TexVert. * Exporting skinned meshes was doing O(n^2) lookups for vertices and deform weights, now uses same trick as regular meshes.
2008-06-17 10:27:34 +00:00
m_materialCachingInfo(0)
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{
m_viewmatrix.setIdentity();
m_viewinvmatrix.setIdentity();
for (int i = 0; i < 32; i++)
{
left_eye_vinterlace_mask[i] = 0x55555555;
right_eye_vinterlace_mask[i] = 0xAAAAAAAA;
hinterlace_mask[i] = (i&1)*0xFFFFFFFF;
}
hinterlace_mask[32] = 0;
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}
RAS_OpenGLRasterizer::~RAS_OpenGLRasterizer()
{
}
bool RAS_OpenGLRasterizer::Init()
{
GPU_state_init();
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m_ambr = 0.0f;
m_ambg = 0.0f;
m_ambb = 0.0f;
glDisable(GL_BLEND);
glDisable(GL_ALPHA_TEST);
//m_last_blendmode = GPU_BLEND_SOLID;
GPU_set_material_blend_mode(GPU_BLEND_SOLID);
glFrontFace(GL_CCW);
m_last_frontface = true;
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glClearColor(m_redback,m_greenback,m_blueback,m_alphaback);
glColorMask(GL_TRUE, GL_TRUE, GL_TRUE, GL_TRUE);
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glClear(GL_COLOR_BUFFER_BIT | GL_DEPTH_BUFFER_BIT);
m_redback = 0.4375;
m_greenback = 0.4375;
m_blueback = 0.4375;
m_alphaback = 0.0;
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glShadeModel(GL_SMOOTH);
return true;
}
void RAS_OpenGLRasterizer::SetAmbientColor(float red, float green, float blue)
{
m_ambr = red;
m_ambg = green;
m_ambb = blue;
}
void RAS_OpenGLRasterizer::SetAmbient(float factor)
{
float ambient[] = { m_ambr*factor, m_ambg*factor, m_ambb*factor, 1.0f };
glLightModelfv(GL_LIGHT_MODEL_AMBIENT, ambient);
}
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void RAS_OpenGLRasterizer::SetBackColor(float red,
float green,
float blue,
float alpha)
{
m_redback = red;
m_greenback = green;
m_blueback = blue;
m_alphaback = alpha;
}
void RAS_OpenGLRasterizer::SetFogColor(float r,
float g,
float b)
{
m_fogr = r;
m_fogg = g;
m_fogb = b;
m_fogenabled = true;
}
void RAS_OpenGLRasterizer::SetFogStart(float start)
{
m_fogstart = start;
m_fogenabled = true;
}
void RAS_OpenGLRasterizer::SetFogEnd(float fogend)
{
m_fogdist = fogend;
m_fogenabled = true;
}
void RAS_OpenGLRasterizer::SetFog(float start,
float dist,
float r,
float g,
float b)
{
m_fogstart = start;
m_fogdist = dist;
m_fogr = r;
m_fogg = g;
m_fogb = b;
m_fogenabled = true;
}
void RAS_OpenGLRasterizer::DisableFog()
{
m_fogenabled = false;
}
bool RAS_OpenGLRasterizer::IsFogEnabled()
{
return m_fogenabled;
}
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void RAS_OpenGLRasterizer::DisplayFog()
{
if ((m_drawingmode >= KX_SOLID) && m_fogenabled)
{
float params[5];
glFogi(GL_FOG_MODE, GL_LINEAR);
glFogf(GL_FOG_DENSITY, 0.1f);
glFogf(GL_FOG_START, m_fogstart);
glFogf(GL_FOG_END, m_fogstart + m_fogdist);
params[0]= m_fogr;
params[1]= m_fogg;
params[2]= m_fogb;
params[3]= 0.0;
glFogfv(GL_FOG_COLOR, params);
glEnable(GL_FOG);
}
else
{
glDisable(GL_FOG);
}
}
bool RAS_OpenGLRasterizer::SetMaterial(const RAS_IPolyMaterial& mat)
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{
return mat.Activate(this, m_materialCachingInfo);
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}
void RAS_OpenGLRasterizer::Exit()
{
glEnable(GL_CULL_FACE);
glEnable(GL_DEPTH_TEST);
glClearDepth(1.0);
glColorMask(GL_TRUE, GL_TRUE, GL_TRUE, GL_TRUE);
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glClearColor(m_redback, m_greenback, m_blueback, m_alphaback);
glClear(GL_COLOR_BUFFER_BIT | GL_DEPTH_BUFFER_BIT);
glDepthMask (GL_TRUE);
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glDepthFunc(GL_LEQUAL);
glBlendFunc(GL_ONE, GL_ZERO);
glDisable(GL_POLYGON_STIPPLE);
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glDisable(GL_LIGHTING);
Merge of apricot branch game engine changes into trunk, excluding GLSL. GLEW ==== Added the GLEW opengl extension library into extern/, always compiled into Blender now. This is much nicer than doing this kind of extension management manually, and will be used in the game engine, for GLSL, and other opengl extensions. * According to the GLEW website it works on Windows, Linux, Mac OS X, FreeBSD, Irix, and Solaris. There might still be platform specific issues due to this commit, so let me know and I'll look into it. * This means also that all extensions will now always be compiled in, regardless of the glext.h on the platform where compilation happens. Game Engine =========== Refactoring of the use of opengl extensions and other drawing code in the game engine, and cleaning up some hacks related to GLSL integration. These changes will be merged into trunk too after this. The game engine graphics demos & apricot level survived my tests, but this could use some good testing of course. For users: please test with the options "Generate Display Lists" and "Vertex Arrays" enabled, these should be the fastest and are supposed to be "unreliable", but if that's the case that's probably due to bugs that can be fixed. * The game engine now also uses GLEW for extensions, replacing the custom opengl extensions code that was there. Removes a lot of #ifdef's, but the runtime checks stay of course. * Removed the WITHOUT_GLEXT environment variable. This was added to work around a specific bug and only disabled multitexturing anyway. It might also have caused a slowdown since it was retrieving the environment variable for every vertex in immediate mode (bug #13680). * Refactored the code to allow drawing skinned meshes with vertex arrays too, removing some specific immediate mode drawing functions for this that only did extra normal calculation. Now it always splits vertices of flat faces instead. * Refactored normal recalculation with some minor optimizations, required for the above change. * Removed some outdated code behind the __NLA_OLDDEFORM #ifdef. * Fixed various bugs in setting of multitexture coordinates and vertex attributes for vertex arrays. These were not being enabled/disabled correct according to the opengl spec, leading to crashes. Also tangent attributes used an immediate mode call for vertex arrays, which can't work. * Fixed use of uninitialized variable in RAS_TexVert. * Exporting skinned meshes was doing O(n^2) lookups for vertices and deform weights, now uses same trick as regular meshes.
2008-06-17 10:27:34 +00:00
if (GLEW_EXT_separate_specular_color || GLEW_VERSION_1_2)
glLightModeli(GL_LIGHT_MODEL_COLOR_CONTROL, GL_SINGLE_COLOR);
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EndFrame();
}
bool RAS_OpenGLRasterizer::BeginFrame(int drawingmode, double time)
{
m_time = time;
m_drawingmode = drawingmode;
// Blender camera routine destroys the settings
if (m_drawingmode < KX_SOLID)
{
glDisable (GL_CULL_FACE);
glDisable (GL_DEPTH_TEST);
}
else
{
glEnable(GL_DEPTH_TEST);
glEnable (GL_CULL_FACE);
}
glDisable(GL_BLEND);
glDisable(GL_ALPHA_TEST);
//m_last_blendmode = GPU_BLEND_SOLID;
GPU_set_material_blend_mode(GPU_BLEND_SOLID);
glFrontFace(GL_CCW);
m_last_frontface = true;
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glShadeModel(GL_SMOOTH);
m_2DCanvas->BeginFrame();
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return true;
}
void RAS_OpenGLRasterizer::SetDrawingMode(int drawingmode)
{
m_drawingmode = drawingmode;
if(m_drawingmode == KX_WIREFRAME)
glDisable(GL_CULL_FACE);
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}
int RAS_OpenGLRasterizer::GetDrawingMode()
{
return m_drawingmode;
}
void RAS_OpenGLRasterizer::SetDepthMask(DepthMask depthmask)
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{
glDepthMask(depthmask == KX_DEPTHMASK_DISABLED ? GL_FALSE : GL_TRUE);
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}
void RAS_OpenGLRasterizer::ClearColorBuffer()
{
m_2DCanvas->ClearColor(m_redback,m_greenback,m_blueback,m_alphaback);
m_2DCanvas->ClearBuffer(RAS_ICanvas::COLOR_BUFFER);
}
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void RAS_OpenGLRasterizer::ClearDepthBuffer()
{
m_2DCanvas->ClearBuffer(RAS_ICanvas::DEPTH_BUFFER);
}
void RAS_OpenGLRasterizer::ClearCachingInfo(void)
{
m_materialCachingInfo = 0;
}
void RAS_OpenGLRasterizer::FlushDebugLines()
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{
if(!m_debugLines.size())
return;
// DrawDebugLines
GLboolean light, tex;
light= glIsEnabled(GL_LIGHTING);
tex= glIsEnabled(GL_TEXTURE_2D);
if(light) glDisable(GL_LIGHTING);
if(tex) glDisable(GL_TEXTURE_2D);
glBegin(GL_LINES);
for (unsigned int i=0;i<m_debugLines.size();i++)
{
glColor4f(m_debugLines[i].m_color[0],m_debugLines[i].m_color[1],m_debugLines[i].m_color[2],1.f);
const MT_Scalar* fromPtr = &m_debugLines[i].m_from.x();
const MT_Scalar* toPtr= &m_debugLines[i].m_to.x();
glVertex3dv(fromPtr);
glVertex3dv(toPtr);
}
glEnd();
if(light) glEnable(GL_LIGHTING);
if(tex) glEnable(GL_TEXTURE_2D);
m_debugLines.clear();
}
void RAS_OpenGLRasterizer::EndFrame()
{
FlushDebugLines();
glColorMask(GL_TRUE, GL_TRUE, GL_TRUE, GL_TRUE);
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m_2DCanvas->EndFrame();
}
void RAS_OpenGLRasterizer::SetRenderArea()
{
RAS_Rect area;
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// only above/below stereo method needs viewport adjustment
switch (m_stereomode)
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{
case RAS_STEREO_ABOVEBELOW:
switch(m_curreye)
{
case RAS_STEREO_LEFTEYE:
// upper half of window
area.SetLeft(0);
area.SetBottom(m_2DCanvas->GetHeight() -
int(m_2DCanvas->GetHeight() - m_noOfScanlines) / 2);
area.SetRight(int(m_2DCanvas->GetWidth()));
area.SetTop(int(m_2DCanvas->GetHeight()));
m_2DCanvas->SetDisplayArea(&area);
break;
case RAS_STEREO_RIGHTEYE:
// lower half of window
area.SetLeft(0);
area.SetBottom(0);
area.SetRight(int(m_2DCanvas->GetWidth()));
area.SetTop(int(m_2DCanvas->GetHeight() - m_noOfScanlines) / 2);
m_2DCanvas->SetDisplayArea(&area);
break;
}
break;
case RAS_STEREO_SIDEBYSIDE:
switch (m_curreye)
{
case RAS_STEREO_LEFTEYE:
// Left half of window
area.SetLeft(0);
area.SetBottom(0);
area.SetRight(m_2DCanvas->GetWidth()/2);
area.SetTop(m_2DCanvas->GetHeight());
m_2DCanvas->SetDisplayArea(&area);
break;
case RAS_STEREO_RIGHTEYE:
// Right half of window
area.SetLeft(m_2DCanvas->GetWidth()/2);
area.SetBottom(0);
area.SetRight(m_2DCanvas->GetWidth());
area.SetTop(m_2DCanvas->GetHeight());
m_2DCanvas->SetDisplayArea(&area);
break;
}
break;
default:
// every available pixel
area.SetLeft(0);
area.SetBottom(0);
area.SetRight(int(m_2DCanvas->GetWidth()));
area.SetTop(int(m_2DCanvas->GetHeight()));
m_2DCanvas->SetDisplayArea(&area);
break;
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}
}
void RAS_OpenGLRasterizer::SetStereoMode(const StereoMode stereomode)
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{
m_stereomode = stereomode;
}
RAS_IRasterizer::StereoMode RAS_OpenGLRasterizer::GetStereoMode()
{
return m_stereomode;
}
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bool RAS_OpenGLRasterizer::Stereo()
{
if(m_stereomode > RAS_STEREO_NOSTEREO) // > 0
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return true;
else
return false;
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}
bool RAS_OpenGLRasterizer::InterlacedStereo()
{
return m_stereomode == RAS_STEREO_VINTERLACE || m_stereomode == RAS_STEREO_INTERLACED;
}
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void RAS_OpenGLRasterizer::SetEye(const StereoEye eye)
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{
m_curreye = eye;
switch (m_stereomode)
{
case RAS_STEREO_QUADBUFFERED:
glDrawBuffer(m_curreye == RAS_STEREO_LEFTEYE ? GL_BACK_LEFT : GL_BACK_RIGHT);
break;
case RAS_STEREO_ANAGLYPH:
if (m_curreye == RAS_STEREO_LEFTEYE)
{
glColorMask(GL_FALSE, GL_TRUE, GL_TRUE, GL_FALSE);
} else {
//glAccum(GL_LOAD, 1.0);
glColorMask(GL_TRUE, GL_FALSE, GL_FALSE, GL_FALSE);
ClearDepthBuffer();
}
break;
case RAS_STEREO_VINTERLACE:
{
glEnable(GL_POLYGON_STIPPLE);
glPolygonStipple((const GLubyte*) ((m_curreye == RAS_STEREO_LEFTEYE) ? left_eye_vinterlace_mask : right_eye_vinterlace_mask));
if (m_curreye == RAS_STEREO_RIGHTEYE)
ClearDepthBuffer();
break;
}
case RAS_STEREO_INTERLACED:
{
glEnable(GL_POLYGON_STIPPLE);
glPolygonStipple((const GLubyte*) &hinterlace_mask[m_curreye == RAS_STEREO_LEFTEYE?0:1]);
if (m_curreye == RAS_STEREO_RIGHTEYE)
ClearDepthBuffer();
break;
}
default:
break;
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}
}
RAS_IRasterizer::StereoEye RAS_OpenGLRasterizer::GetEye()
{
return m_curreye;
}
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void RAS_OpenGLRasterizer::SetEyeSeparation(const float eyeseparation)
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{
m_eyeseparation = eyeseparation;
}
float RAS_OpenGLRasterizer::GetEyeSeparation()
{
return m_eyeseparation;
}
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void RAS_OpenGLRasterizer::SetFocalLength(const float focallength)
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{
m_focallength = focallength;
m_setfocallength = true;
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}
float RAS_OpenGLRasterizer::GetFocalLength()
{
return m_focallength;
}
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void RAS_OpenGLRasterizer::SwapBuffers()
{
m_2DCanvas->SwapBuffers();
}
const MT_Matrix4x4& RAS_OpenGLRasterizer::GetViewMatrix() const
{
return m_viewmatrix;
}
const MT_Matrix4x4& RAS_OpenGLRasterizer::GetViewInvMatrix() const
{
return m_viewinvmatrix;
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}
void RAS_OpenGLRasterizer::IndexPrimitives_3DText(RAS_MeshSlot& ms,
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class RAS_IPolyMaterial* polymat,
class RAS_IRenderTools* rendertools)
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{
bool obcolor = ms.m_bObjectColor;
MT_Vector4& rgba = ms.m_RGBAcolor;
RAS_MeshSlot::iterator it;
// handle object color
if (obcolor) {
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glDisableClientState(GL_COLOR_ARRAY);
glColor4d(rgba[0], rgba[1], rgba[2], rgba[3]);
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}
else
glEnableClientState(GL_COLOR_ARRAY);
for(ms.begin(it); !ms.end(it); ms.next(it)) {
RAS_TexVert *vertex;
size_t i, j, numvert;
2002-10-12 11:37:38 +00:00
numvert = it.array->m_type;
if(it.array->m_type == RAS_DisplayArray::LINE) {
// line drawing, no text
glBegin(GL_LINES);
for(i=0; i<it.totindex; i+=2)
2002-10-12 11:37:38 +00:00
{
vertex = &it.vertex[it.index[i]];
glVertex3fv(vertex->getXYZ());
vertex = &it.vertex[it.index[i+1]];
glVertex3fv(vertex->getXYZ());
2002-10-12 11:37:38 +00:00
}
glEnd();
}
else {
// triangle and quad text drawing
for(i=0; i<it.totindex; i+=numvert)
2002-10-12 11:37:38 +00:00
{
float v[4][3];
int glattrib, unit;
for(j=0; j<numvert; j++) {
vertex = &it.vertex[it.index[i+j]];
v[j][0] = vertex->getXYZ()[0];
v[j][1] = vertex->getXYZ()[1];
v[j][2] = vertex->getXYZ()[2];
2002-10-12 11:37:38 +00:00
}
// find the right opengl attribute
glattrib = -1;
if(GLEW_ARB_vertex_program)
for(unit=0; unit<m_attrib_num; unit++)
if(m_attrib[unit] == RAS_TEXCO_UV1)
glattrib = unit;
rendertools->RenderText(polymat->GetDrawingMode(), polymat,
v[0], v[1], v[2], (numvert == 4)? v[3]: NULL, glattrib);
ClearCachingInfo();
2002-10-12 11:37:38 +00:00
}
}
}
glDisableClientState(GL_COLOR_ARRAY);
2002-10-12 11:37:38 +00:00
}
Merge of apricot branch game engine changes into trunk, excluding GLSL. GLEW ==== Added the GLEW opengl extension library into extern/, always compiled into Blender now. This is much nicer than doing this kind of extension management manually, and will be used in the game engine, for GLSL, and other opengl extensions. * According to the GLEW website it works on Windows, Linux, Mac OS X, FreeBSD, Irix, and Solaris. There might still be platform specific issues due to this commit, so let me know and I'll look into it. * This means also that all extensions will now always be compiled in, regardless of the glext.h on the platform where compilation happens. Game Engine =========== Refactoring of the use of opengl extensions and other drawing code in the game engine, and cleaning up some hacks related to GLSL integration. These changes will be merged into trunk too after this. The game engine graphics demos & apricot level survived my tests, but this could use some good testing of course. For users: please test with the options "Generate Display Lists" and "Vertex Arrays" enabled, these should be the fastest and are supposed to be "unreliable", but if that's the case that's probably due to bugs that can be fixed. * The game engine now also uses GLEW for extensions, replacing the custom opengl extensions code that was there. Removes a lot of #ifdef's, but the runtime checks stay of course. * Removed the WITHOUT_GLEXT environment variable. This was added to work around a specific bug and only disabled multitexturing anyway. It might also have caused a slowdown since it was retrieving the environment variable for every vertex in immediate mode (bug #13680). * Refactored the code to allow drawing skinned meshes with vertex arrays too, removing some specific immediate mode drawing functions for this that only did extra normal calculation. Now it always splits vertices of flat faces instead. * Refactored normal recalculation with some minor optimizations, required for the above change. * Removed some outdated code behind the __NLA_OLDDEFORM #ifdef. * Fixed various bugs in setting of multitexture coordinates and vertex attributes for vertex arrays. These were not being enabled/disabled correct according to the opengl spec, leading to crashes. Also tangent attributes used an immediate mode call for vertex arrays, which can't work. * Fixed use of uninitialized variable in RAS_TexVert. * Exporting skinned meshes was doing O(n^2) lookups for vertices and deform weights, now uses same trick as regular meshes.
2008-06-17 10:27:34 +00:00
void RAS_OpenGLRasterizer::SetTexCoordNum(int num)
{
m_texco_num = num;
if(m_texco_num > RAS_MAX_TEXCO)
m_texco_num = RAS_MAX_TEXCO;
}
void RAS_OpenGLRasterizer::SetAttribNum(int num)
{
m_attrib_num = num;
if(m_attrib_num > RAS_MAX_ATTRIB)
m_attrib_num = RAS_MAX_ATTRIB;
}
void RAS_OpenGLRasterizer::SetTexCoord(TexCoGen coords, int unit)
{
// this changes from material to material
Merge of apricot branch game engine changes into trunk, excluding GLSL. GLEW ==== Added the GLEW opengl extension library into extern/, always compiled into Blender now. This is much nicer than doing this kind of extension management manually, and will be used in the game engine, for GLSL, and other opengl extensions. * According to the GLEW website it works on Windows, Linux, Mac OS X, FreeBSD, Irix, and Solaris. There might still be platform specific issues due to this commit, so let me know and I'll look into it. * This means also that all extensions will now always be compiled in, regardless of the glext.h on the platform where compilation happens. Game Engine =========== Refactoring of the use of opengl extensions and other drawing code in the game engine, and cleaning up some hacks related to GLSL integration. These changes will be merged into trunk too after this. The game engine graphics demos & apricot level survived my tests, but this could use some good testing of course. For users: please test with the options "Generate Display Lists" and "Vertex Arrays" enabled, these should be the fastest and are supposed to be "unreliable", but if that's the case that's probably due to bugs that can be fixed. * The game engine now also uses GLEW for extensions, replacing the custom opengl extensions code that was there. Removes a lot of #ifdef's, but the runtime checks stay of course. * Removed the WITHOUT_GLEXT environment variable. This was added to work around a specific bug and only disabled multitexturing anyway. It might also have caused a slowdown since it was retrieving the environment variable for every vertex in immediate mode (bug #13680). * Refactored the code to allow drawing skinned meshes with vertex arrays too, removing some specific immediate mode drawing functions for this that only did extra normal calculation. Now it always splits vertices of flat faces instead. * Refactored normal recalculation with some minor optimizations, required for the above change. * Removed some outdated code behind the __NLA_OLDDEFORM #ifdef. * Fixed various bugs in setting of multitexture coordinates and vertex attributes for vertex arrays. These were not being enabled/disabled correct according to the opengl spec, leading to crashes. Also tangent attributes used an immediate mode call for vertex arrays, which can't work. * Fixed use of uninitialized variable in RAS_TexVert. * Exporting skinned meshes was doing O(n^2) lookups for vertices and deform weights, now uses same trick as regular meshes.
2008-06-17 10:27:34 +00:00
if(unit < RAS_MAX_TEXCO)
m_texco[unit] = coords;
}
Merge of apricot branch game engine changes into trunk, excluding GLSL. GLEW ==== Added the GLEW opengl extension library into extern/, always compiled into Blender now. This is much nicer than doing this kind of extension management manually, and will be used in the game engine, for GLSL, and other opengl extensions. * According to the GLEW website it works on Windows, Linux, Mac OS X, FreeBSD, Irix, and Solaris. There might still be platform specific issues due to this commit, so let me know and I'll look into it. * This means also that all extensions will now always be compiled in, regardless of the glext.h on the platform where compilation happens. Game Engine =========== Refactoring of the use of opengl extensions and other drawing code in the game engine, and cleaning up some hacks related to GLSL integration. These changes will be merged into trunk too after this. The game engine graphics demos & apricot level survived my tests, but this could use some good testing of course. For users: please test with the options "Generate Display Lists" and "Vertex Arrays" enabled, these should be the fastest and are supposed to be "unreliable", but if that's the case that's probably due to bugs that can be fixed. * The game engine now also uses GLEW for extensions, replacing the custom opengl extensions code that was there. Removes a lot of #ifdef's, but the runtime checks stay of course. * Removed the WITHOUT_GLEXT environment variable. This was added to work around a specific bug and only disabled multitexturing anyway. It might also have caused a slowdown since it was retrieving the environment variable for every vertex in immediate mode (bug #13680). * Refactored the code to allow drawing skinned meshes with vertex arrays too, removing some specific immediate mode drawing functions for this that only did extra normal calculation. Now it always splits vertices of flat faces instead. * Refactored normal recalculation with some minor optimizations, required for the above change. * Removed some outdated code behind the __NLA_OLDDEFORM #ifdef. * Fixed various bugs in setting of multitexture coordinates and vertex attributes for vertex arrays. These were not being enabled/disabled correct according to the opengl spec, leading to crashes. Also tangent attributes used an immediate mode call for vertex arrays, which can't work. * Fixed use of uninitialized variable in RAS_TexVert. * Exporting skinned meshes was doing O(n^2) lookups for vertices and deform weights, now uses same trick as regular meshes.
2008-06-17 10:27:34 +00:00
void RAS_OpenGLRasterizer::SetAttrib(TexCoGen coords, int unit)
{
Merge of apricot branch game engine changes into trunk, excluding GLSL. GLEW ==== Added the GLEW opengl extension library into extern/, always compiled into Blender now. This is much nicer than doing this kind of extension management manually, and will be used in the game engine, for GLSL, and other opengl extensions. * According to the GLEW website it works on Windows, Linux, Mac OS X, FreeBSD, Irix, and Solaris. There might still be platform specific issues due to this commit, so let me know and I'll look into it. * This means also that all extensions will now always be compiled in, regardless of the glext.h on the platform where compilation happens. Game Engine =========== Refactoring of the use of opengl extensions and other drawing code in the game engine, and cleaning up some hacks related to GLSL integration. These changes will be merged into trunk too after this. The game engine graphics demos & apricot level survived my tests, but this could use some good testing of course. For users: please test with the options "Generate Display Lists" and "Vertex Arrays" enabled, these should be the fastest and are supposed to be "unreliable", but if that's the case that's probably due to bugs that can be fixed. * The game engine now also uses GLEW for extensions, replacing the custom opengl extensions code that was there. Removes a lot of #ifdef's, but the runtime checks stay of course. * Removed the WITHOUT_GLEXT environment variable. This was added to work around a specific bug and only disabled multitexturing anyway. It might also have caused a slowdown since it was retrieving the environment variable for every vertex in immediate mode (bug #13680). * Refactored the code to allow drawing skinned meshes with vertex arrays too, removing some specific immediate mode drawing functions for this that only did extra normal calculation. Now it always splits vertices of flat faces instead. * Refactored normal recalculation with some minor optimizations, required for the above change. * Removed some outdated code behind the __NLA_OLDDEFORM #ifdef. * Fixed various bugs in setting of multitexture coordinates and vertex attributes for vertex arrays. These were not being enabled/disabled correct according to the opengl spec, leading to crashes. Also tangent attributes used an immediate mode call for vertex arrays, which can't work. * Fixed use of uninitialized variable in RAS_TexVert. * Exporting skinned meshes was doing O(n^2) lookups for vertices and deform weights, now uses same trick as regular meshes.
2008-06-17 10:27:34 +00:00
// this changes from material to material
if(unit < RAS_MAX_ATTRIB)
m_attrib[unit] = coords;
}
Merge of apricot branch game engine changes into trunk, excluding GLSL. GLEW ==== Added the GLEW opengl extension library into extern/, always compiled into Blender now. This is much nicer than doing this kind of extension management manually, and will be used in the game engine, for GLSL, and other opengl extensions. * According to the GLEW website it works on Windows, Linux, Mac OS X, FreeBSD, Irix, and Solaris. There might still be platform specific issues due to this commit, so let me know and I'll look into it. * This means also that all extensions will now always be compiled in, regardless of the glext.h on the platform where compilation happens. Game Engine =========== Refactoring of the use of opengl extensions and other drawing code in the game engine, and cleaning up some hacks related to GLSL integration. These changes will be merged into trunk too after this. The game engine graphics demos & apricot level survived my tests, but this could use some good testing of course. For users: please test with the options "Generate Display Lists" and "Vertex Arrays" enabled, these should be the fastest and are supposed to be "unreliable", but if that's the case that's probably due to bugs that can be fixed. * The game engine now also uses GLEW for extensions, replacing the custom opengl extensions code that was there. Removes a lot of #ifdef's, but the runtime checks stay of course. * Removed the WITHOUT_GLEXT environment variable. This was added to work around a specific bug and only disabled multitexturing anyway. It might also have caused a slowdown since it was retrieving the environment variable for every vertex in immediate mode (bug #13680). * Refactored the code to allow drawing skinned meshes with vertex arrays too, removing some specific immediate mode drawing functions for this that only did extra normal calculation. Now it always splits vertices of flat faces instead. * Refactored normal recalculation with some minor optimizations, required for the above change. * Removed some outdated code behind the __NLA_OLDDEFORM #ifdef. * Fixed various bugs in setting of multitexture coordinates and vertex attributes for vertex arrays. These were not being enabled/disabled correct according to the opengl spec, leading to crashes. Also tangent attributes used an immediate mode call for vertex arrays, which can't work. * Fixed use of uninitialized variable in RAS_TexVert. * Exporting skinned meshes was doing O(n^2) lookups for vertices and deform weights, now uses same trick as regular meshes.
2008-06-17 10:27:34 +00:00
void RAS_OpenGLRasterizer::TexCoord(const RAS_TexVert &tv)
{
Merge of apricot branch game engine changes into trunk, excluding GLSL. GLEW ==== Added the GLEW opengl extension library into extern/, always compiled into Blender now. This is much nicer than doing this kind of extension management manually, and will be used in the game engine, for GLSL, and other opengl extensions. * According to the GLEW website it works on Windows, Linux, Mac OS X, FreeBSD, Irix, and Solaris. There might still be platform specific issues due to this commit, so let me know and I'll look into it. * This means also that all extensions will now always be compiled in, regardless of the glext.h on the platform where compilation happens. Game Engine =========== Refactoring of the use of opengl extensions and other drawing code in the game engine, and cleaning up some hacks related to GLSL integration. These changes will be merged into trunk too after this. The game engine graphics demos & apricot level survived my tests, but this could use some good testing of course. For users: please test with the options "Generate Display Lists" and "Vertex Arrays" enabled, these should be the fastest and are supposed to be "unreliable", but if that's the case that's probably due to bugs that can be fixed. * The game engine now also uses GLEW for extensions, replacing the custom opengl extensions code that was there. Removes a lot of #ifdef's, but the runtime checks stay of course. * Removed the WITHOUT_GLEXT environment variable. This was added to work around a specific bug and only disabled multitexturing anyway. It might also have caused a slowdown since it was retrieving the environment variable for every vertex in immediate mode (bug #13680). * Refactored the code to allow drawing skinned meshes with vertex arrays too, removing some specific immediate mode drawing functions for this that only did extra normal calculation. Now it always splits vertices of flat faces instead. * Refactored normal recalculation with some minor optimizations, required for the above change. * Removed some outdated code behind the __NLA_OLDDEFORM #ifdef. * Fixed various bugs in setting of multitexture coordinates and vertex attributes for vertex arrays. These were not being enabled/disabled correct according to the opengl spec, leading to crashes. Also tangent attributes used an immediate mode call for vertex arrays, which can't work. * Fixed use of uninitialized variable in RAS_TexVert. * Exporting skinned meshes was doing O(n^2) lookups for vertices and deform weights, now uses same trick as regular meshes.
2008-06-17 10:27:34 +00:00
int unit;
if(GLEW_ARB_multitexture) {
for(unit=0; unit<m_texco_num; unit++) {
if(tv.getFlag() & RAS_TexVert::SECOND_UV && (int)tv.getUnit() == unit) {
Merge of apricot branch game engine changes into trunk, excluding GLSL. GLEW ==== Added the GLEW opengl extension library into extern/, always compiled into Blender now. This is much nicer than doing this kind of extension management manually, and will be used in the game engine, for GLSL, and other opengl extensions. * According to the GLEW website it works on Windows, Linux, Mac OS X, FreeBSD, Irix, and Solaris. There might still be platform specific issues due to this commit, so let me know and I'll look into it. * This means also that all extensions will now always be compiled in, regardless of the glext.h on the platform where compilation happens. Game Engine =========== Refactoring of the use of opengl extensions and other drawing code in the game engine, and cleaning up some hacks related to GLSL integration. These changes will be merged into trunk too after this. The game engine graphics demos & apricot level survived my tests, but this could use some good testing of course. For users: please test with the options "Generate Display Lists" and "Vertex Arrays" enabled, these should be the fastest and are supposed to be "unreliable", but if that's the case that's probably due to bugs that can be fixed. * The game engine now also uses GLEW for extensions, replacing the custom opengl extensions code that was there. Removes a lot of #ifdef's, but the runtime checks stay of course. * Removed the WITHOUT_GLEXT environment variable. This was added to work around a specific bug and only disabled multitexturing anyway. It might also have caused a slowdown since it was retrieving the environment variable for every vertex in immediate mode (bug #13680). * Refactored the code to allow drawing skinned meshes with vertex arrays too, removing some specific immediate mode drawing functions for this that only did extra normal calculation. Now it always splits vertices of flat faces instead. * Refactored normal recalculation with some minor optimizations, required for the above change. * Removed some outdated code behind the __NLA_OLDDEFORM #ifdef. * Fixed various bugs in setting of multitexture coordinates and vertex attributes for vertex arrays. These were not being enabled/disabled correct according to the opengl spec, leading to crashes. Also tangent attributes used an immediate mode call for vertex arrays, which can't work. * Fixed use of uninitialized variable in RAS_TexVert. * Exporting skinned meshes was doing O(n^2) lookups for vertices and deform weights, now uses same trick as regular meshes.
2008-06-17 10:27:34 +00:00
glMultiTexCoord2fvARB(GL_TEXTURE0_ARB+unit, tv.getUV2());
continue;
}
switch(m_texco[unit]) {
case RAS_TEXCO_ORCO:
case RAS_TEXCO_GLOB:
glMultiTexCoord3fvARB(GL_TEXTURE0_ARB+unit, tv.getXYZ());
Merge of apricot branch game engine changes into trunk, excluding GLSL. GLEW ==== Added the GLEW opengl extension library into extern/, always compiled into Blender now. This is much nicer than doing this kind of extension management manually, and will be used in the game engine, for GLSL, and other opengl extensions. * According to the GLEW website it works on Windows, Linux, Mac OS X, FreeBSD, Irix, and Solaris. There might still be platform specific issues due to this commit, so let me know and I'll look into it. * This means also that all extensions will now always be compiled in, regardless of the glext.h on the platform where compilation happens. Game Engine =========== Refactoring of the use of opengl extensions and other drawing code in the game engine, and cleaning up some hacks related to GLSL integration. These changes will be merged into trunk too after this. The game engine graphics demos & apricot level survived my tests, but this could use some good testing of course. For users: please test with the options "Generate Display Lists" and "Vertex Arrays" enabled, these should be the fastest and are supposed to be "unreliable", but if that's the case that's probably due to bugs that can be fixed. * The game engine now also uses GLEW for extensions, replacing the custom opengl extensions code that was there. Removes a lot of #ifdef's, but the runtime checks stay of course. * Removed the WITHOUT_GLEXT environment variable. This was added to work around a specific bug and only disabled multitexturing anyway. It might also have caused a slowdown since it was retrieving the environment variable for every vertex in immediate mode (bug #13680). * Refactored the code to allow drawing skinned meshes with vertex arrays too, removing some specific immediate mode drawing functions for this that only did extra normal calculation. Now it always splits vertices of flat faces instead. * Refactored normal recalculation with some minor optimizations, required for the above change. * Removed some outdated code behind the __NLA_OLDDEFORM #ifdef. * Fixed various bugs in setting of multitexture coordinates and vertex attributes for vertex arrays. These were not being enabled/disabled correct according to the opengl spec, leading to crashes. Also tangent attributes used an immediate mode call for vertex arrays, which can't work. * Fixed use of uninitialized variable in RAS_TexVert. * Exporting skinned meshes was doing O(n^2) lookups for vertices and deform weights, now uses same trick as regular meshes.
2008-06-17 10:27:34 +00:00
break;
case RAS_TEXCO_UV1:
glMultiTexCoord2fvARB(GL_TEXTURE0_ARB+unit, tv.getUV1());
break;
case RAS_TEXCO_NORM:
glMultiTexCoord3fvARB(GL_TEXTURE0_ARB+unit, tv.getNormal());
break;
case RAS_TEXTANGENT:
glMultiTexCoord4fvARB(GL_TEXTURE0_ARB+unit, tv.getTangent());
break;
case RAS_TEXCO_UV2:
glMultiTexCoord2fvARB(GL_TEXTURE0_ARB+unit, tv.getUV2());
break;
default:
break;
}
}
}
Merge of apricot branch game engine changes into trunk, excluding GLSL. GLEW ==== Added the GLEW opengl extension library into extern/, always compiled into Blender now. This is much nicer than doing this kind of extension management manually, and will be used in the game engine, for GLSL, and other opengl extensions. * According to the GLEW website it works on Windows, Linux, Mac OS X, FreeBSD, Irix, and Solaris. There might still be platform specific issues due to this commit, so let me know and I'll look into it. * This means also that all extensions will now always be compiled in, regardless of the glext.h on the platform where compilation happens. Game Engine =========== Refactoring of the use of opengl extensions and other drawing code in the game engine, and cleaning up some hacks related to GLSL integration. These changes will be merged into trunk too after this. The game engine graphics demos & apricot level survived my tests, but this could use some good testing of course. For users: please test with the options "Generate Display Lists" and "Vertex Arrays" enabled, these should be the fastest and are supposed to be "unreliable", but if that's the case that's probably due to bugs that can be fixed. * The game engine now also uses GLEW for extensions, replacing the custom opengl extensions code that was there. Removes a lot of #ifdef's, but the runtime checks stay of course. * Removed the WITHOUT_GLEXT environment variable. This was added to work around a specific bug and only disabled multitexturing anyway. It might also have caused a slowdown since it was retrieving the environment variable for every vertex in immediate mode (bug #13680). * Refactored the code to allow drawing skinned meshes with vertex arrays too, removing some specific immediate mode drawing functions for this that only did extra normal calculation. Now it always splits vertices of flat faces instead. * Refactored normal recalculation with some minor optimizations, required for the above change. * Removed some outdated code behind the __NLA_OLDDEFORM #ifdef. * Fixed various bugs in setting of multitexture coordinates and vertex attributes for vertex arrays. These were not being enabled/disabled correct according to the opengl spec, leading to crashes. Also tangent attributes used an immediate mode call for vertex arrays, which can't work. * Fixed use of uninitialized variable in RAS_TexVert. * Exporting skinned meshes was doing O(n^2) lookups for vertices and deform weights, now uses same trick as regular meshes.
2008-06-17 10:27:34 +00:00
if(GLEW_ARB_vertex_program) {
for(unit=0; unit<m_attrib_num; unit++) {
switch(m_attrib[unit]) {
case RAS_TEXCO_ORCO:
case RAS_TEXCO_GLOB:
glVertexAttrib3fvARB(unit, tv.getXYZ());
Merge of apricot branch game engine changes into trunk, excluding GLSL. GLEW ==== Added the GLEW opengl extension library into extern/, always compiled into Blender now. This is much nicer than doing this kind of extension management manually, and will be used in the game engine, for GLSL, and other opengl extensions. * According to the GLEW website it works on Windows, Linux, Mac OS X, FreeBSD, Irix, and Solaris. There might still be platform specific issues due to this commit, so let me know and I'll look into it. * This means also that all extensions will now always be compiled in, regardless of the glext.h on the platform where compilation happens. Game Engine =========== Refactoring of the use of opengl extensions and other drawing code in the game engine, and cleaning up some hacks related to GLSL integration. These changes will be merged into trunk too after this. The game engine graphics demos & apricot level survived my tests, but this could use some good testing of course. For users: please test with the options "Generate Display Lists" and "Vertex Arrays" enabled, these should be the fastest and are supposed to be "unreliable", but if that's the case that's probably due to bugs that can be fixed. * The game engine now also uses GLEW for extensions, replacing the custom opengl extensions code that was there. Removes a lot of #ifdef's, but the runtime checks stay of course. * Removed the WITHOUT_GLEXT environment variable. This was added to work around a specific bug and only disabled multitexturing anyway. It might also have caused a slowdown since it was retrieving the environment variable for every vertex in immediate mode (bug #13680). * Refactored the code to allow drawing skinned meshes with vertex arrays too, removing some specific immediate mode drawing functions for this that only did extra normal calculation. Now it always splits vertices of flat faces instead. * Refactored normal recalculation with some minor optimizations, required for the above change. * Removed some outdated code behind the __NLA_OLDDEFORM #ifdef. * Fixed various bugs in setting of multitexture coordinates and vertex attributes for vertex arrays. These were not being enabled/disabled correct according to the opengl spec, leading to crashes. Also tangent attributes used an immediate mode call for vertex arrays, which can't work. * Fixed use of uninitialized variable in RAS_TexVert. * Exporting skinned meshes was doing O(n^2) lookups for vertices and deform weights, now uses same trick as regular meshes.
2008-06-17 10:27:34 +00:00
break;
case RAS_TEXCO_UV1:
glVertexAttrib2fvARB(unit, tv.getUV1());
break;
case RAS_TEXCO_NORM:
glVertexAttrib3fvARB(unit, tv.getNormal());
break;
case RAS_TEXTANGENT:
glVertexAttrib4fvARB(unit, tv.getTangent());
break;
case RAS_TEXCO_UV2:
glVertexAttrib2fvARB(unit, tv.getUV2());
break;
case RAS_TEXCO_VCOL:
glVertexAttrib4ubvARB(unit, tv.getRGBA());
break;
Merge of apricot branch game engine changes into trunk, excluding GLSL. GLEW ==== Added the GLEW opengl extension library into extern/, always compiled into Blender now. This is much nicer than doing this kind of extension management manually, and will be used in the game engine, for GLSL, and other opengl extensions. * According to the GLEW website it works on Windows, Linux, Mac OS X, FreeBSD, Irix, and Solaris. There might still be platform specific issues due to this commit, so let me know and I'll look into it. * This means also that all extensions will now always be compiled in, regardless of the glext.h on the platform where compilation happens. Game Engine =========== Refactoring of the use of opengl extensions and other drawing code in the game engine, and cleaning up some hacks related to GLSL integration. These changes will be merged into trunk too after this. The game engine graphics demos & apricot level survived my tests, but this could use some good testing of course. For users: please test with the options "Generate Display Lists" and "Vertex Arrays" enabled, these should be the fastest and are supposed to be "unreliable", but if that's the case that's probably due to bugs that can be fixed. * The game engine now also uses GLEW for extensions, replacing the custom opengl extensions code that was there. Removes a lot of #ifdef's, but the runtime checks stay of course. * Removed the WITHOUT_GLEXT environment variable. This was added to work around a specific bug and only disabled multitexturing anyway. It might also have caused a slowdown since it was retrieving the environment variable for every vertex in immediate mode (bug #13680). * Refactored the code to allow drawing skinned meshes with vertex arrays too, removing some specific immediate mode drawing functions for this that only did extra normal calculation. Now it always splits vertices of flat faces instead. * Refactored normal recalculation with some minor optimizations, required for the above change. * Removed some outdated code behind the __NLA_OLDDEFORM #ifdef. * Fixed various bugs in setting of multitexture coordinates and vertex attributes for vertex arrays. These were not being enabled/disabled correct according to the opengl spec, leading to crashes. Also tangent attributes used an immediate mode call for vertex arrays, which can't work. * Fixed use of uninitialized variable in RAS_TexVert. * Exporting skinned meshes was doing O(n^2) lookups for vertices and deform weights, now uses same trick as regular meshes.
2008-06-17 10:27:34 +00:00
default:
break;
}
}
}
}
void RAS_OpenGLRasterizer::IndexPrimitives(RAS_MeshSlot& ms)
{
IndexPrimitivesInternal(ms, false);
}
void RAS_OpenGLRasterizer::IndexPrimitivesMulti(RAS_MeshSlot& ms)
{
IndexPrimitivesInternal(ms, true);
}
static bool current_wireframe;
static RAS_MaterialBucket *current_bucket;
static RAS_IPolyMaterial *current_polymat;
static RAS_MeshSlot *current_ms;
static RAS_MeshObject *current_mesh;
static int current_blmat_nr;
static GPUVertexAttribs current_gpu_attribs;
static int CheckMaterialDM(int matnr, void *attribs)
{
// only draw the current material
if (matnr != current_blmat_nr)
return 0;
GPUVertexAttribs *gattribs = (GPUVertexAttribs *)attribs;
if (gattribs)
memcpy(gattribs, &current_gpu_attribs, sizeof(GPUVertexAttribs));
return 1;
}
static int CheckTexfaceDM(void *mcol, int index)
{
// index is the original face index, retrieve the polygon
RAS_Polygon* polygon = (index >= 0 && index < current_mesh->NumPolygons()) ?
current_mesh->GetPolygon(index) : NULL;
if (polygon && polygon->GetMaterial() == current_bucket) {
// must handle color.
if (current_wireframe)
return 2;
if (current_ms->m_bObjectColor) {
MT_Vector4& rgba = current_ms->m_RGBAcolor;
glColor4d(rgba[0], rgba[1], rgba[2], rgba[3]);
// don't use mcol
return 2;
}
if (!mcol) {
// we have to set the color from the material
unsigned char rgba[4];
current_polymat->GetMaterialRGBAColor(rgba);
glColor4ubv((const GLubyte *)rgba);
return 2;
}
return 1;
}
return 0;
}
void RAS_OpenGLRasterizer::IndexPrimitivesInternal(RAS_MeshSlot& ms, bool multi)
{
bool obcolor = ms.m_bObjectColor;
bool wireframe = m_drawingmode <= KX_WIREFRAME;
MT_Vector4& rgba = ms.m_RGBAcolor;
RAS_MeshSlot::iterator it;
if (ms.m_pDerivedMesh) {
// mesh data is in derived mesh,
current_bucket = ms.m_bucket;
current_polymat = current_bucket->GetPolyMaterial();
current_ms = &ms;
current_mesh = ms.m_mesh;
current_wireframe = wireframe;
MCol *mcol = (MCol*)ms.m_pDerivedMesh->getFaceDataArray(ms.m_pDerivedMesh, CD_MCOL);
// handle two-side
if (current_polymat->GetDrawingMode() & RAS_IRasterizer::KX_TWOSIDE)
this->SetCullFace(false);
else
this->SetCullFace(true);
if (current_polymat->GetFlag() & RAS_BLENDERGLSL) {
// GetMaterialIndex return the original mface material index,
// increment by 1 to match what derived mesh is doing
current_blmat_nr = current_polymat->GetMaterialIndex()+1;
// For GLSL we need to retrieve the GPU material attribute
Material* blmat = current_polymat->GetBlenderMaterial();
Scene* blscene = current_polymat->GetBlenderScene();
if (!wireframe && blscene && blmat)
GPU_material_vertex_attributes(GPU_material_from_blender(blscene, blmat), &current_gpu_attribs);
else
memset(&current_gpu_attribs, 0, sizeof(current_gpu_attribs));
// DM draw can mess up blending mode, restore at the end
int current_blend_mode = GPU_get_material_blend_mode();
ms.m_pDerivedMesh->drawFacesGLSL(ms.m_pDerivedMesh, CheckMaterialDM);
GPU_set_material_blend_mode(current_blend_mode);
} else {
ms.m_pDerivedMesh->drawMappedFacesTex(ms.m_pDerivedMesh, CheckTexfaceDM, mcol);
}
return;
}
// iterate over display arrays, each containing an index + vertex array
for(ms.begin(it); !ms.end(it); ms.next(it)) {
RAS_TexVert *vertex;
size_t i, j, numvert;
numvert = it.array->m_type;
if(it.array->m_type == RAS_DisplayArray::LINE) {
// line drawing
glBegin(GL_LINES);
for(i=0; i<it.totindex; i+=2)
{
vertex = &it.vertex[it.index[i]];
glVertex3fv(vertex->getXYZ());
vertex = &it.vertex[it.index[i+1]];
glVertex3fv(vertex->getXYZ());
Merge of apricot branch game engine changes into trunk, excluding GLSL. GLEW ==== Added the GLEW opengl extension library into extern/, always compiled into Blender now. This is much nicer than doing this kind of extension management manually, and will be used in the game engine, for GLSL, and other opengl extensions. * According to the GLEW website it works on Windows, Linux, Mac OS X, FreeBSD, Irix, and Solaris. There might still be platform specific issues due to this commit, so let me know and I'll look into it. * This means also that all extensions will now always be compiled in, regardless of the glext.h on the platform where compilation happens. Game Engine =========== Refactoring of the use of opengl extensions and other drawing code in the game engine, and cleaning up some hacks related to GLSL integration. These changes will be merged into trunk too after this. The game engine graphics demos & apricot level survived my tests, but this could use some good testing of course. For users: please test with the options "Generate Display Lists" and "Vertex Arrays" enabled, these should be the fastest and are supposed to be "unreliable", but if that's the case that's probably due to bugs that can be fixed. * The game engine now also uses GLEW for extensions, replacing the custom opengl extensions code that was there. Removes a lot of #ifdef's, but the runtime checks stay of course. * Removed the WITHOUT_GLEXT environment variable. This was added to work around a specific bug and only disabled multitexturing anyway. It might also have caused a slowdown since it was retrieving the environment variable for every vertex in immediate mode (bug #13680). * Refactored the code to allow drawing skinned meshes with vertex arrays too, removing some specific immediate mode drawing functions for this that only did extra normal calculation. Now it always splits vertices of flat faces instead. * Refactored normal recalculation with some minor optimizations, required for the above change. * Removed some outdated code behind the __NLA_OLDDEFORM #ifdef. * Fixed various bugs in setting of multitexture coordinates and vertex attributes for vertex arrays. These were not being enabled/disabled correct according to the opengl spec, leading to crashes. Also tangent attributes used an immediate mode call for vertex arrays, which can't work. * Fixed use of uninitialized variable in RAS_TexVert. * Exporting skinned meshes was doing O(n^2) lookups for vertices and deform weights, now uses same trick as regular meshes.
2008-06-17 10:27:34 +00:00
}
glEnd();
}
else {
// triangle and quad drawing
if(it.array->m_type == RAS_DisplayArray::TRIANGLE)
glBegin(GL_TRIANGLES);
else
Merge of apricot branch game engine changes into trunk, excluding GLSL. GLEW ==== Added the GLEW opengl extension library into extern/, always compiled into Blender now. This is much nicer than doing this kind of extension management manually, and will be used in the game engine, for GLSL, and other opengl extensions. * According to the GLEW website it works on Windows, Linux, Mac OS X, FreeBSD, Irix, and Solaris. There might still be platform specific issues due to this commit, so let me know and I'll look into it. * This means also that all extensions will now always be compiled in, regardless of the glext.h on the platform where compilation happens. Game Engine =========== Refactoring of the use of opengl extensions and other drawing code in the game engine, and cleaning up some hacks related to GLSL integration. These changes will be merged into trunk too after this. The game engine graphics demos & apricot level survived my tests, but this could use some good testing of course. For users: please test with the options "Generate Display Lists" and "Vertex Arrays" enabled, these should be the fastest and are supposed to be "unreliable", but if that's the case that's probably due to bugs that can be fixed. * The game engine now also uses GLEW for extensions, replacing the custom opengl extensions code that was there. Removes a lot of #ifdef's, but the runtime checks stay of course. * Removed the WITHOUT_GLEXT environment variable. This was added to work around a specific bug and only disabled multitexturing anyway. It might also have caused a slowdown since it was retrieving the environment variable for every vertex in immediate mode (bug #13680). * Refactored the code to allow drawing skinned meshes with vertex arrays too, removing some specific immediate mode drawing functions for this that only did extra normal calculation. Now it always splits vertices of flat faces instead. * Refactored normal recalculation with some minor optimizations, required for the above change. * Removed some outdated code behind the __NLA_OLDDEFORM #ifdef. * Fixed various bugs in setting of multitexture coordinates and vertex attributes for vertex arrays. These were not being enabled/disabled correct according to the opengl spec, leading to crashes. Also tangent attributes used an immediate mode call for vertex arrays, which can't work. * Fixed use of uninitialized variable in RAS_TexVert. * Exporting skinned meshes was doing O(n^2) lookups for vertices and deform weights, now uses same trick as regular meshes.
2008-06-17 10:27:34 +00:00
glBegin(GL_QUADS);
for(i=0; i<it.totindex; i+=numvert)
Merge of apricot branch game engine changes into trunk, excluding GLSL. GLEW ==== Added the GLEW opengl extension library into extern/, always compiled into Blender now. This is much nicer than doing this kind of extension management manually, and will be used in the game engine, for GLSL, and other opengl extensions. * According to the GLEW website it works on Windows, Linux, Mac OS X, FreeBSD, Irix, and Solaris. There might still be platform specific issues due to this commit, so let me know and I'll look into it. * This means also that all extensions will now always be compiled in, regardless of the glext.h on the platform where compilation happens. Game Engine =========== Refactoring of the use of opengl extensions and other drawing code in the game engine, and cleaning up some hacks related to GLSL integration. These changes will be merged into trunk too after this. The game engine graphics demos & apricot level survived my tests, but this could use some good testing of course. For users: please test with the options "Generate Display Lists" and "Vertex Arrays" enabled, these should be the fastest and are supposed to be "unreliable", but if that's the case that's probably due to bugs that can be fixed. * The game engine now also uses GLEW for extensions, replacing the custom opengl extensions code that was there. Removes a lot of #ifdef's, but the runtime checks stay of course. * Removed the WITHOUT_GLEXT environment variable. This was added to work around a specific bug and only disabled multitexturing anyway. It might also have caused a slowdown since it was retrieving the environment variable for every vertex in immediate mode (bug #13680). * Refactored the code to allow drawing skinned meshes with vertex arrays too, removing some specific immediate mode drawing functions for this that only did extra normal calculation. Now it always splits vertices of flat faces instead. * Refactored normal recalculation with some minor optimizations, required for the above change. * Removed some outdated code behind the __NLA_OLDDEFORM #ifdef. * Fixed various bugs in setting of multitexture coordinates and vertex attributes for vertex arrays. These were not being enabled/disabled correct according to the opengl spec, leading to crashes. Also tangent attributes used an immediate mode call for vertex arrays, which can't work. * Fixed use of uninitialized variable in RAS_TexVert. * Exporting skinned meshes was doing O(n^2) lookups for vertices and deform weights, now uses same trick as regular meshes.
2008-06-17 10:27:34 +00:00
{
if(obcolor)
glColor4d(rgba[0], rgba[1], rgba[2], rgba[3]);
for(j=0; j<numvert; j++) {
vertex = &it.vertex[it.index[i+j]];
if(!wireframe) {
if(!obcolor)
glColor4ubv((const GLubyte *)(vertex->getRGBA()));
glNormal3fv(vertex->getNormal());
if(multi)
TexCoord(*vertex);
else
glTexCoord2fv(vertex->getUV1());
}
glVertex3fv(vertex->getXYZ());
}
Merge of apricot branch game engine changes into trunk, excluding GLSL. GLEW ==== Added the GLEW opengl extension library into extern/, always compiled into Blender now. This is much nicer than doing this kind of extension management manually, and will be used in the game engine, for GLSL, and other opengl extensions. * According to the GLEW website it works on Windows, Linux, Mac OS X, FreeBSD, Irix, and Solaris. There might still be platform specific issues due to this commit, so let me know and I'll look into it. * This means also that all extensions will now always be compiled in, regardless of the glext.h on the platform where compilation happens. Game Engine =========== Refactoring of the use of opengl extensions and other drawing code in the game engine, and cleaning up some hacks related to GLSL integration. These changes will be merged into trunk too after this. The game engine graphics demos & apricot level survived my tests, but this could use some good testing of course. For users: please test with the options "Generate Display Lists" and "Vertex Arrays" enabled, these should be the fastest and are supposed to be "unreliable", but if that's the case that's probably due to bugs that can be fixed. * The game engine now also uses GLEW for extensions, replacing the custom opengl extensions code that was there. Removes a lot of #ifdef's, but the runtime checks stay of course. * Removed the WITHOUT_GLEXT environment variable. This was added to work around a specific bug and only disabled multitexturing anyway. It might also have caused a slowdown since it was retrieving the environment variable for every vertex in immediate mode (bug #13680). * Refactored the code to allow drawing skinned meshes with vertex arrays too, removing some specific immediate mode drawing functions for this that only did extra normal calculation. Now it always splits vertices of flat faces instead. * Refactored normal recalculation with some minor optimizations, required for the above change. * Removed some outdated code behind the __NLA_OLDDEFORM #ifdef. * Fixed various bugs in setting of multitexture coordinates and vertex attributes for vertex arrays. These were not being enabled/disabled correct according to the opengl spec, leading to crashes. Also tangent attributes used an immediate mode call for vertex arrays, which can't work. * Fixed use of uninitialized variable in RAS_TexVert. * Exporting skinned meshes was doing O(n^2) lookups for vertices and deform weights, now uses same trick as regular meshes.
2008-06-17 10:27:34 +00:00
}
glEnd();
}
}
}
2002-10-12 11:37:38 +00:00
void RAS_OpenGLRasterizer::SetProjectionMatrix(MT_CmMatrix4x4 &mat)
{
glMatrixMode(GL_PROJECTION);
double* matrix = &mat(0,0);
glLoadMatrixd(matrix);
m_camortho= (mat(3, 3) != 0.0f);
}
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void RAS_OpenGLRasterizer::SetProjectionMatrix(const MT_Matrix4x4 & mat)
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{
glMatrixMode(GL_PROJECTION);
double matrix[16];
/* Get into argument. Looks a bit dodgy, but it's ok. */
mat.getValue(matrix);
/* Internally, MT_Matrix4x4 uses doubles (MT_Scalar). */
glLoadMatrixd(matrix);
m_camortho= (mat[3][3] != 0.0f);
2002-10-12 11:37:38 +00:00
}
MT_Matrix4x4 RAS_OpenGLRasterizer::GetFrustumMatrix(
float left,
float right,
float bottom,
float top,
float frustnear,
float frustfar,
float focallength,
bool
2002-10-12 11:37:38 +00:00
){
MT_Matrix4x4 result;
double mat[16];
// correction for stereo
if(Stereo())
2002-10-12 11:37:38 +00:00
{
float near_div_focallength;
float offset;
// if Rasterizer.setFocalLength is not called we use the camera focallength
if (!m_setfocallength)
// if focallength is null we use a value known to be reasonable
m_focallength = (focallength == 0.f) ? m_eyeseparation * 30.0
: focallength;
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near_div_focallength = frustnear / m_focallength;
offset = 0.5 * m_eyeseparation * near_div_focallength;
2002-10-12 11:37:38 +00:00
switch(m_curreye)
{
case RAS_STEREO_LEFTEYE:
left += offset;
right += offset;
2002-10-12 11:37:38 +00:00
break;
case RAS_STEREO_RIGHTEYE:
left -= offset;
right -= offset;
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break;
}
// leave bottom and top untouched
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}
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glMatrixMode(GL_PROJECTION);
glLoadIdentity();
glFrustum(left, right, bottom, top, frustnear, frustfar);
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glGetDoublev(GL_PROJECTION_MATRIX, mat);
result.setValue(mat);
return result;
}
MT_Matrix4x4 RAS_OpenGLRasterizer::GetOrthoMatrix(
float left,
float right,
float bottom,
float top,
float frustnear,
float frustfar
){
MT_Matrix4x4 result;
double mat[16];
// stereo is meaning less for orthographic, disable it
glMatrixMode(GL_PROJECTION);
glLoadIdentity();
glOrtho(left, right, bottom, top, frustnear, frustfar);
glGetDoublev(GL_PROJECTION_MATRIX, mat);
result.setValue(mat);
return result;
}
2002-10-12 11:37:38 +00:00
// next arguments probably contain redundant info, for later...
void RAS_OpenGLRasterizer::SetViewMatrix(const MT_Matrix4x4 &mat,
const MT_Matrix3x3 & camOrientMat3x3,
const MT_Point3 & pos,
bool perspective)
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{
m_viewmatrix = mat;
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// correction for stereo
if(Stereo() && perspective)
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{
MT_Vector3 unitViewDir(0.0, -1.0, 0.0); // minus y direction, Blender convention
MT_Vector3 unitViewupVec(0.0, 0.0, 1.0);
MT_Vector3 viewDir, viewupVec;
MT_Vector3 eyeline;
// actual viewDir
viewDir = camOrientMat3x3 * unitViewDir; // this is the moto convention, vector on right hand side
// actual viewup vec
viewupVec = camOrientMat3x3 * unitViewupVec;
// vector between eyes
eyeline = viewDir.cross(viewupVec);
switch(m_curreye)
{
case RAS_STEREO_LEFTEYE:
{
// translate to left by half the eye distance
MT_Transform transform;
transform.setIdentity();
transform.translate(-(eyeline * m_eyeseparation / 2.0));
m_viewmatrix *= transform;
2002-10-12 11:37:38 +00:00
}
break;
case RAS_STEREO_RIGHTEYE:
{
// translate to right by half the eye distance
MT_Transform transform;
transform.setIdentity();
transform.translate(eyeline * m_eyeseparation / 2.0);
m_viewmatrix *= transform;
2002-10-12 11:37:38 +00:00
}
break;
}
}
m_viewinvmatrix = m_viewmatrix;
m_viewinvmatrix.invert();
// note: getValue gives back column major as needed by OpenGL
MT_Scalar glviewmat[16];
m_viewmatrix.getValue(glviewmat);
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glMatrixMode(GL_MODELVIEW);
glLoadMatrixd(glviewmat);
m_campos = pos;
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}
const MT_Point3& RAS_OpenGLRasterizer::GetCameraPosition()
{
return m_campos;
}
bool RAS_OpenGLRasterizer::GetCameraOrtho()
{
return m_camortho;
}
2002-10-12 11:37:38 +00:00
void RAS_OpenGLRasterizer::SetCullFace(bool enable)
{
if (enable)
glEnable(GL_CULL_FACE);
else
glDisable(GL_CULL_FACE);
}
void RAS_OpenGLRasterizer::SetLines(bool enable)
{
if (enable)
glPolygonMode(GL_FRONT_AND_BACK, GL_LINE);
else
glPolygonMode(GL_FRONT_AND_BACK, GL_FILL);
}
2002-10-12 11:37:38 +00:00
void RAS_OpenGLRasterizer::SetSpecularity(float specX,
float specY,
float specZ,
float specval)
{
GLfloat mat_specular[] = {specX, specY, specZ, specval};
glMaterialfv(GL_FRONT_AND_BACK, GL_SPECULAR, mat_specular);
}
void RAS_OpenGLRasterizer::SetShinyness(float shiny)
{
GLfloat mat_shininess[] = { shiny };
glMaterialfv(GL_FRONT_AND_BACK, GL_SHININESS, mat_shininess);
}
void RAS_OpenGLRasterizer::SetDiffuse(float difX,float difY,float difZ,float diffuse)
{
GLfloat mat_diffuse [] = {difX, difY,difZ, diffuse};
glMaterialfv(GL_FRONT_AND_BACK, GL_DIFFUSE, mat_diffuse);
}
void RAS_OpenGLRasterizer::SetEmissive(float eX, float eY, float eZ, float e)
{
GLfloat mat_emit [] = {eX,eY,eZ,e};
glMaterialfv(GL_FRONT_AND_BACK, GL_EMISSION, mat_emit);
}
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double RAS_OpenGLRasterizer::GetTime()
{
return m_time;
}
void RAS_OpenGLRasterizer::SetPolygonOffset(float mult, float add)
{
glPolygonOffset(mult, add);
GLint mode = GL_POLYGON_OFFSET_FILL;
if (m_drawingmode < KX_SHADED)
mode = GL_POLYGON_OFFSET_LINE;
if (mult != 0.0f || add != 0.0f)
glEnable(mode);
else
glDisable(mode);
}
void RAS_OpenGLRasterizer::EnableMotionBlur(float motionblurvalue)
{
/* don't just set m_motionblur to 1, but check if it is 0 so
* we don't reset a motion blur that is already enabled */
if(m_motionblur == 0)
m_motionblur = 1;
m_motionblurvalue = motionblurvalue;
}
void RAS_OpenGLRasterizer::DisableMotionBlur()
{
m_motionblur = 0;
m_motionblurvalue = -1.0;
}
void RAS_OpenGLRasterizer::SetBlendingMode(int blendmode)
{
GPU_set_material_blend_mode(blendmode);
/*
if(blendmode == m_last_blendmode)
return;
if(blendmode == GPU_BLEND_SOLID) {
glDisable(GL_BLEND);
glDisable(GL_ALPHA_TEST);
glBlendFunc(GL_SRC_ALPHA, GL_ONE_MINUS_SRC_ALPHA);
}
else if(blendmode == GPU_BLEND_ADD) {
glBlendFunc(GL_ONE, GL_ONE);
glEnable(GL_BLEND);
glDisable(GL_ALPHA_TEST);
}
else if(blendmode == GPU_BLEND_ALPHA) {
glBlendFunc(GL_SRC_ALPHA, GL_ONE_MINUS_SRC_ALPHA);
glEnable(GL_BLEND);
glEnable(GL_ALPHA_TEST);
glAlphaFunc(GL_GREATER, 0.0f);
}
else if(blendmode == GPU_BLEND_CLIP) {
glDisable(GL_BLEND);
glEnable(GL_ALPHA_TEST);
glAlphaFunc(GL_GREATER, 0.5f);
}
m_last_blendmode = blendmode;
*/
}
void RAS_OpenGLRasterizer::SetFrontFace(bool ccw)
{
if(m_last_frontface == ccw)
return;
if(ccw)
glFrontFace(GL_CCW);
else
glFrontFace(GL_CW);
m_last_frontface = ccw;
}