mirror of
https://github.com/bulletphysics/bullet3
synced 2024-12-14 05:40:05 +00:00
9213f944f1
show camera position in example browser disable per-vertex and per-fragment profile timings
617 lines
21 KiB
C++
617 lines
21 KiB
C++
#include "TinyRenderer.h"
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#include <vector>
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#include <limits>
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#include <iostream>
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#include "tgaimage.h"
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#include "model.h"
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#include "geometry.h"
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#include "our_gl.h"
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#include "../Utils/b3ResourcePath.h"
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#include "Bullet3Common/b3MinMax.h"
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#include "../OpenGLWindow/ShapeData.h"
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#include "LinearMath/btAlignedObjectArray.h"
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#include "LinearMath/btVector3.h"
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#include "Bullet3Common/b3Logging.h"
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struct DepthShader : public IShader {
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Model* m_model;
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Matrix& m_modelMat;
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Matrix m_invModelMat;
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Matrix& m_projectionMat;
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Vec3f m_localScaling;
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Matrix& m_lightModelView;
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float m_lightDistance;
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mat<2,3,float> varying_uv; // triangle uv coordinates, written by the vertex shader, read by the fragment shader
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mat<4,3,float> varying_tri; // triangle coordinates (clip coordinates), written by VS, read by FS
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mat<3,3,float> varying_nrm; // normal per vertex to be interpolated by FS
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DepthShader(Model* model, Matrix& lightModelView, Matrix& projectionMat, Matrix& modelMat, Vec3f localScaling, float lightDistance)
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:m_model(model),
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m_modelMat(modelMat),
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m_projectionMat(projectionMat),
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m_localScaling(localScaling),
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m_lightModelView(lightModelView),
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m_lightDistance(lightDistance)
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{
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m_nearPlane = m_projectionMat.col(3)[2]/(m_projectionMat.col(2)[2]-1);
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m_farPlane = m_projectionMat.col(3)[2]/(m_projectionMat.col(2)[2]+1);
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m_invModelMat = m_modelMat.invert_transpose();
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}
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virtual Vec4f vertex(int iface, int nthvert) {
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Vec2f uv = m_model->uv(iface, nthvert);
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varying_uv.set_col(nthvert, uv);
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varying_nrm.set_col(nthvert, proj<3>(m_invModelMat*embed<4>(m_model->normal(iface, nthvert), 0.f)));
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Vec3f unScaledVert = m_model->vert(iface, nthvert);
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Vec3f scaledVert=Vec3f(unScaledVert[0]*m_localScaling[0],
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unScaledVert[1]*m_localScaling[1],
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unScaledVert[2]*m_localScaling[2]);
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Vec4f gl_Vertex = m_projectionMat*m_lightModelView*embed<4>(scaledVert);
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varying_tri.set_col(nthvert, gl_Vertex);
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return gl_Vertex;
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}
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virtual bool fragment(Vec3f bar, TGAColor &color) {
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Vec4f p = varying_tri*bar;
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color = TGAColor(255, 255, 255)*(p[2]/m_lightDistance);
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return false;
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}
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};
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struct Shader : public IShader {
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Model* m_model;
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Vec3f m_light_dir_local;
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Vec3f m_light_color;
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Matrix& m_modelMat;
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Matrix m_invModelMat;
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Matrix& m_modelView1;
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Matrix& m_projectionMat;
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Vec3f m_localScaling;
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Matrix& m_lightModelView;
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Vec4f m_colorRGBA;
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Matrix& m_viewportMat;
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Matrix m_projectionModelViewMat;
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Matrix m_projectionLightViewMat;
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float m_ambient_coefficient;
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float m_diffuse_coefficient;
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float m_specular_coefficient;
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b3AlignedObjectArray<float>* m_shadowBuffer;
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int m_width;
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int m_height;
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int m_index;
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mat<2,3,float> varying_uv; // triangle uv coordinates, written by the vertex shader, read by the fragment shader
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mat<4,3,float> varying_tri; // triangle coordinates (clip coordinates), written by VS, read by FS
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mat<4,3,float> varying_tri_light_view;
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mat<3,3,float> varying_nrm; // normal per vertex to be interpolated by FS
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mat<4,3,float> world_tri; // model triangle coordinates in the world space used for backface culling, written by VS
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Shader(Model* model, Vec3f light_dir_local, Vec3f light_color, Matrix& modelView, Matrix& lightModelView, Matrix& projectionMat, Matrix& modelMat, Matrix& viewportMat, Vec3f localScaling, const Vec4f& colorRGBA, int width, int height, b3AlignedObjectArray<float>* shadowBuffer, float ambient_coefficient=0.6, float diffuse_coefficient=0.35, float specular_coefficient=0.05)
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:m_model(model),
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m_light_dir_local(light_dir_local),
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m_light_color(light_color),
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m_modelMat(modelMat),
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m_modelView1(modelView),
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m_projectionMat(projectionMat),
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m_localScaling(localScaling),
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m_lightModelView(lightModelView),
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m_colorRGBA(colorRGBA),
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m_viewportMat(viewportMat),
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m_ambient_coefficient(ambient_coefficient),
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m_diffuse_coefficient(diffuse_coefficient),
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m_specular_coefficient(specular_coefficient),
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m_shadowBuffer(shadowBuffer),
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m_width(width),
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m_height(height)
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{
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m_nearPlane = m_projectionMat.col(3)[2]/(m_projectionMat.col(2)[2]-1);
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m_farPlane = m_projectionMat.col(3)[2]/(m_projectionMat.col(2)[2]+1);
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//printf("near=%f, far=%f\n", m_nearPlane, m_farPlane);
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m_invModelMat = m_modelMat.invert_transpose();
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m_projectionModelViewMat = m_projectionMat*m_modelView1;
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m_projectionLightViewMat = m_projectionMat*m_lightModelView;
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}
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virtual Vec4f vertex(int iface, int nthvert) {
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//B3_PROFILE("vertex");
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Vec2f uv = m_model->uv(iface, nthvert);
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varying_uv.set_col(nthvert, uv);
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varying_nrm.set_col(nthvert, proj<3>(m_invModelMat*embed<4>(m_model->normal(iface, nthvert), 0.f)));
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Vec3f unScaledVert = m_model->vert(iface, nthvert);
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Vec3f scaledVert=Vec3f(unScaledVert[0]*m_localScaling[0],
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unScaledVert[1]*m_localScaling[1],
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unScaledVert[2]*m_localScaling[2]);
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Vec4f gl_Vertex = m_projectionModelViewMat*embed<4>(scaledVert);
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varying_tri.set_col(nthvert, gl_Vertex);
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Vec4f world_Vertex = m_modelMat*embed<4>(scaledVert);
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world_tri.set_col(nthvert, world_Vertex);
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Vec4f gl_VertexLightView = m_projectionLightViewMat*embed<4>(scaledVert);
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varying_tri_light_view.set_col(nthvert, gl_VertexLightView);
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return gl_Vertex;
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}
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virtual bool fragment(Vec3f bar, TGAColor &color) {
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//B3_PROFILE("fragment");
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Vec4f p = m_viewportMat*(varying_tri_light_view*bar);
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float depth = p[2];
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p = p/p[3];
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float index_x = b3Max(float(0.0), b3Min(float(m_width-1), p[0]));
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float index_y = b3Max(float(0.0), b3Min(float(m_height-1), p[1]));
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int idx = int(index_x) + int(index_y)*m_width; // index in the shadowbuffer array
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float shadow = 0.8+0.2*(m_shadowBuffer->at(idx)<-depth+0.05); // magic coeff to avoid z-fighting
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Vec3f bn = (varying_nrm*bar).normalize();
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Vec2f uv = varying_uv*bar;
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Vec3f reflection_direction = (bn * (bn * m_light_dir_local * 2.f) - m_light_dir_local).normalize();
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float specular = pow(b3Max(reflection_direction.z, 0.f), m_model->specular(uv));
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float diffuse = b3Max(0.f, bn * m_light_dir_local);
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color = m_model->diffuse(uv);
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color[0] *= m_colorRGBA[0];
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color[1] *= m_colorRGBA[1];
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color[2] *= m_colorRGBA[2];
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color[3] *= m_colorRGBA[3];
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for (int i = 0; i < 3; ++i)
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{
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color[i] = b3Min(int(m_ambient_coefficient*color[i] + shadow*(m_diffuse_coefficient*diffuse+m_specular_coefficient*specular)*color[i]*m_light_color[i]), 255);
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}
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return false;
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}
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};
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TinyRenderObjectData::TinyRenderObjectData(TGAImage& rgbColorBuffer,b3AlignedObjectArray<float>&depthBuffer,b3AlignedObjectArray<float>* shadowBuffer)
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:
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m_model(0),
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m_rgbColorBuffer(rgbColorBuffer),
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m_depthBuffer(depthBuffer),
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m_shadowBuffer(shadowBuffer),
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m_segmentationMaskBufferPtr(0),
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m_userData(0),
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m_userIndex(-1),
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m_objectIndex(-1)
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{
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Vec3f eye(1,1,3);
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Vec3f center(0,0,0);
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Vec3f up(0,0,1);
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m_lightDirWorld.setValue(0,0,0);
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m_lightColor.setValue(1, 1, 1);
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m_localScaling.setValue(1,1,1);
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m_modelMatrix = Matrix::identity();
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m_lightAmbientCoeff = 0.6;
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m_lightDiffuseCoeff = 0.35;
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m_lightSpecularCoeff = 0.05;
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}
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TinyRenderObjectData::TinyRenderObjectData(TGAImage& rgbColorBuffer,b3AlignedObjectArray<float>&depthBuffer, b3AlignedObjectArray<float>* shadowBuffer, b3AlignedObjectArray<int>* segmentationMaskBuffer, int objectIndex)
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:m_model(0),
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m_rgbColorBuffer(rgbColorBuffer),
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m_depthBuffer(depthBuffer),
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m_shadowBuffer(shadowBuffer),
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m_segmentationMaskBufferPtr(segmentationMaskBuffer),
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m_userData(0),
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m_userIndex(-1),
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m_objectIndex(objectIndex)
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{
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Vec3f eye(1,1,3);
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Vec3f center(0,0,0);
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Vec3f up(0,0,1);
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m_lightDirWorld.setValue(0,0,0);
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m_lightColor.setValue(1, 1, 1);
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m_localScaling.setValue(1,1,1);
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m_modelMatrix = Matrix::identity();
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m_lightAmbientCoeff = 0.6;
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m_lightDiffuseCoeff = 0.35;
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m_lightSpecularCoeff = 0.05;
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}
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TinyRenderObjectData::TinyRenderObjectData(TGAImage& rgbColorBuffer,b3AlignedObjectArray<float>&depthBuffer)
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:m_model(0),
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m_rgbColorBuffer(rgbColorBuffer),
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m_depthBuffer(depthBuffer),
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m_segmentationMaskBufferPtr(0),
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m_userData(0),
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m_userIndex(-1),
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m_objectIndex(-1)
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{
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Vec3f eye(1,1,3);
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Vec3f center(0,0,0);
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Vec3f up(0,0,1);
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m_lightDirWorld.setValue(0,0,0);
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m_lightColor.setValue(1, 1, 1);
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m_localScaling.setValue(1,1,1);
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m_modelMatrix = Matrix::identity();
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m_lightAmbientCoeff = 0.6;
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m_lightDiffuseCoeff = 0.35;
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m_lightSpecularCoeff = 0.05;
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}
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TinyRenderObjectData::TinyRenderObjectData(TGAImage& rgbColorBuffer,b3AlignedObjectArray<float>&depthBuffer, b3AlignedObjectArray<int>* segmentationMaskBuffer, int objectIndex)
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:m_model(0),
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m_rgbColorBuffer(rgbColorBuffer),
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m_depthBuffer(depthBuffer),
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m_segmentationMaskBufferPtr(segmentationMaskBuffer),
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m_userData(0),
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m_userIndex(-1),
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m_objectIndex(objectIndex)
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{
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Vec3f eye(1,1,3);
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Vec3f center(0,0,0);
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Vec3f up(0,0,1);
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m_lightDirWorld.setValue(0,0,0);
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m_lightColor.setValue(1, 1, 1);
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m_localScaling.setValue(1,1,1);
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m_modelMatrix = Matrix::identity();
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m_lightAmbientCoeff = 0.6;
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m_lightDiffuseCoeff = 0.35;
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m_lightSpecularCoeff = 0.05;
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}
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void TinyRenderObjectData::loadModel(const char* fileName)
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{
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//todo(erwincoumans) move the file loading out of here
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char relativeFileName[1024];
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if (!b3ResourcePath::findResourcePath(fileName, relativeFileName, 1024))
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{
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printf("Cannot find file %s\n", fileName);
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} else
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{
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m_model = new Model(relativeFileName);
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}
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}
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void TinyRenderObjectData::registerMeshShape(const float* vertices, int numVertices,const int* indices, int numIndices, const float rgbaColor[4],
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unsigned char* textureImage, int textureWidth, int textureHeight)
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{
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if (0==m_model)
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{
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m_model = new Model();
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m_model->setColorRGBA(rgbaColor);
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if (textureImage)
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{
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m_model->setDiffuseTextureFromData(textureImage,textureWidth,textureHeight);
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} else
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{
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/*char relativeFileName[1024];
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if (b3ResourcePath::findResourcePath("floor_diffuse.tga", relativeFileName, 1024))
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{
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m_model->loadDiffuseTexture(relativeFileName);
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}
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*/
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}
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m_model->reserveMemory(numVertices,numIndices);
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for (int i=0;i<numVertices;i++)
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{
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m_model->addVertex(vertices[i*9],
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vertices[i*9+1],
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vertices[i*9+2],
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vertices[i*9+4],
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vertices[i*9+5],
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vertices[i*9+6],
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vertices[i*9+7],
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vertices[i*9+8]);
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}
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for (int i=0;i<numIndices;i+=3)
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{
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m_model->addTriangle(indices[i],indices[i],indices[i],
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indices[i+1],indices[i+1],indices[i+1],
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indices[i+2],indices[i+2],indices[i+2]);
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}
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}
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}
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void TinyRenderObjectData::registerMesh2(btAlignedObjectArray<btVector3>& vertices, btAlignedObjectArray<btVector3>& normals,btAlignedObjectArray<int>& indices)
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{
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if (0==m_model)
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{
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int numVertices = vertices.size();
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int numIndices = indices.size();
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m_model = new Model();
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char relativeFileName[1024];
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if (b3ResourcePath::findResourcePath("floor_diffuse.tga", relativeFileName, 1024))
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{
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m_model->loadDiffuseTexture(relativeFileName);
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}
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for (int i=0;i<numVertices;i++)
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{
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m_model->addVertex(vertices[i].x(),
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vertices[i].y(),
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vertices[i].z(),
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normals[i].x(),
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normals[i].y(),
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normals[i].z(),
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0.5,0.5);
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}
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for (int i=0;i<numIndices;i+=3)
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{
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m_model->addTriangle(indices[i],indices[i],indices[i],
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indices[i+1],indices[i+1],indices[i+1],
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indices[i+2],indices[i+2],indices[i+2]);
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}
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}
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}
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void TinyRenderObjectData::createCube(float halfExtentsX,float halfExtentsY,float halfExtentsZ)
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{
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m_model = new Model();
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char relativeFileName[1024];
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if (b3ResourcePath::findResourcePath("floor_diffuse.tga", relativeFileName, 1024))
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{
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m_model->loadDiffuseTexture(relativeFileName);
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}
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int strideInBytes = 9*sizeof(float);
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int numVertices = sizeof(cube_vertices_textured)/strideInBytes;
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int numIndices = sizeof(cube_indices)/sizeof(int);
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for (int i=0;i<numVertices;i++)
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{
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m_model->addVertex(halfExtentsX*cube_vertices_textured[i*9],
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halfExtentsY*cube_vertices_textured[i*9+1],
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halfExtentsY*cube_vertices_textured[i*9+2],
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cube_vertices_textured[i*9+4],
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cube_vertices_textured[i*9+5],
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cube_vertices_textured[i*9+6],
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cube_vertices_textured[i*9+7],
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cube_vertices_textured[i*9+8]);
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}
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for (int i=0;i<numIndices;i+=3)
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{
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m_model->addTriangle(cube_indices[i],cube_indices[i],cube_indices[i],
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cube_indices[i+1],cube_indices[i+1],cube_indices[i+1],
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cube_indices[i+2],cube_indices[i+2],cube_indices[i+2]);
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}
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}
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TinyRenderObjectData::~TinyRenderObjectData()
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{
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delete m_model;
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}
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static bool equals(const Vec4f& vA, const Vec4f& vB)
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{
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return false;
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}
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static void clipEdge(const mat<4,3,float>& triangleIn, int vertexIndexA, int vertexIndexB, b3AlignedObjectArray<Vec4f>& vertices)
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{
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Vec4f v0New = triangleIn.col(vertexIndexA);
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Vec4f v1New = triangleIn.col(vertexIndexB);
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bool v0Inside = v0New[3] > 0.f && v0New[2] > -v0New[3];
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bool v1Inside= v1New[3] > 0.f && v1New[2] > -v1New[3];
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if (v0Inside && v1Inside)
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{
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} else if (v0Inside || v1Inside)
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{
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float d0 = v0New[2]+v0New[3];
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float d1 = v1New[2]+v1New[3];
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float factor = 1.0 / (d1-d0);
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Vec4f newVertex =(v0New*d1-v1New*d0)*factor;
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if (v0Inside)
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{
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v1New = newVertex;
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} else
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{
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v0New = newVertex;
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}
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} else
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{
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return;
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}
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if (vertices.size()==0 || !(equals(vertices[vertices.size()-1],v0New)))
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{
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vertices.push_back(v0New);
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}
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vertices.push_back(v1New);
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}
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static bool clipTriangleAgainstNearplane(const mat<4,3,float>& triangleIn, b3AlignedObjectArray<mat<4,3,float> >& clippedTrianglesOut)
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{
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//discard triangle if all vertices are behind near-plane
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|
if (triangleIn[3][0]<0 && triangleIn[3][1] <0 && triangleIn[3][2] <0)
|
|
{
|
|
return true;
|
|
}
|
|
|
|
//accept triangle if all vertices are in front of the near-plane
|
|
if (triangleIn[3][0]>=0 && triangleIn[3][1] >=0 && triangleIn[3][2] >=0)
|
|
{
|
|
clippedTrianglesOut.push_back(triangleIn);
|
|
return false;
|
|
}
|
|
|
|
Vec4f vtxCache[5];
|
|
|
|
b3AlignedObjectArray<Vec4f> vertices;
|
|
vertices.initializeFromBuffer(vtxCache,0,5);
|
|
clipEdge(triangleIn,0,1,vertices);
|
|
clipEdge(triangleIn,1,2,vertices);
|
|
clipEdge(triangleIn,2,0,vertices);
|
|
|
|
if (vertices.size()<3)
|
|
return true;
|
|
|
|
if (equals(vertices[0],vertices[vertices.size()-1]))
|
|
{
|
|
vertices.pop_back();
|
|
}
|
|
|
|
//create a fan of triangles
|
|
for (int i=1;i<vertices.size()-1;i++)
|
|
{
|
|
mat<4,3,float>& vtx = clippedTrianglesOut.expand();
|
|
vtx.set_col(0,vertices[0]);
|
|
vtx.set_col(1,vertices[i]);
|
|
vtx.set_col(2,vertices[i+1]);
|
|
}
|
|
return true;
|
|
}
|
|
|
|
void TinyRenderer::renderObject(TinyRenderObjectData& renderData)
|
|
{
|
|
B3_PROFILE("renderObject");
|
|
int width = renderData.m_rgbColorBuffer.get_width();
|
|
int height = renderData.m_rgbColorBuffer.get_height();
|
|
|
|
Vec3f light_dir_local = Vec3f(renderData.m_lightDirWorld[0],renderData.m_lightDirWorld[1],renderData.m_lightDirWorld[2]);
|
|
Vec3f light_color = Vec3f(renderData.m_lightColor[0],renderData.m_lightColor[1],renderData.m_lightColor[2]);
|
|
float light_distance = renderData.m_lightDistance;
|
|
Model* model = renderData.m_model;
|
|
if (0==model)
|
|
return;
|
|
//discard invisible objects (zero alpha)
|
|
if (model->getColorRGBA()[3]==0)
|
|
return;
|
|
|
|
renderData.m_viewportMatrix = viewport(0,0,width, height);
|
|
|
|
b3AlignedObjectArray<float>& zbuffer = renderData.m_depthBuffer;
|
|
b3AlignedObjectArray<float>* shadowBufferPtr = renderData.m_shadowBuffer;
|
|
int* segmentationMaskBufferPtr = (renderData.m_segmentationMaskBufferPtr && renderData.m_segmentationMaskBufferPtr->size())?&renderData.m_segmentationMaskBufferPtr->at(0):0;
|
|
|
|
TGAImage& frame = renderData.m_rgbColorBuffer;
|
|
|
|
{
|
|
// light target is set to be the origin, and the up direction is set to be vertical up.
|
|
Matrix lightViewMatrix = lookat(light_dir_local*light_distance, Vec3f(0.0,0.0,0.0), Vec3f(0.0,0.0,1.0));
|
|
Matrix lightModelViewMatrix = lightViewMatrix*renderData.m_modelMatrix;
|
|
Matrix modelViewMatrix = renderData.m_viewMatrix*renderData.m_modelMatrix;
|
|
Vec3f localScaling(renderData.m_localScaling[0],renderData.m_localScaling[1],renderData.m_localScaling[2]);
|
|
Matrix viewMatrixInv = renderData.m_viewMatrix.invert();
|
|
btVector3 P(viewMatrixInv[0][3], viewMatrixInv[1][3], viewMatrixInv[2][3]);
|
|
|
|
Shader shader(model, light_dir_local, light_color, modelViewMatrix, lightModelViewMatrix, renderData.m_projectionMatrix,renderData.m_modelMatrix, renderData.m_viewportMatrix, localScaling, model->getColorRGBA(), width, height, shadowBufferPtr, renderData.m_lightAmbientCoeff, renderData.m_lightDiffuseCoeff, renderData.m_lightSpecularCoeff);
|
|
|
|
{
|
|
B3_PROFILE("face");
|
|
|
|
for (int i=0; i<model->nfaces(); i++)
|
|
{
|
|
for (int j=0; j<3; j++) {
|
|
shader.vertex(i, j);
|
|
}
|
|
|
|
// backface culling
|
|
btVector3 v0(shader.world_tri.col(0)[0], shader.world_tri.col(0)[1], shader.world_tri.col(0)[2]);
|
|
btVector3 v1(shader.world_tri.col(1)[0], shader.world_tri.col(1)[1], shader.world_tri.col(1)[2]);
|
|
btVector3 v2(shader.world_tri.col(2)[0], shader.world_tri.col(2)[1], shader.world_tri.col(2)[2]);
|
|
btVector3 N = (v1-v0).cross(v2-v0);
|
|
if ((v0-P).dot(N) >= 0)
|
|
continue;
|
|
|
|
mat<4,3,float> stackTris[3];
|
|
|
|
b3AlignedObjectArray< mat<4,3,float> > clippedTriangles;
|
|
clippedTriangles.initializeFromBuffer(stackTris,0,3);
|
|
|
|
bool hasClipped = clipTriangleAgainstNearplane(shader.varying_tri,clippedTriangles);
|
|
|
|
if (hasClipped)
|
|
{
|
|
for (int t=0;t<clippedTriangles.size();t++)
|
|
{
|
|
triangleClipped(clippedTriangles[t], shader.varying_tri, shader, frame, &zbuffer[0], segmentationMaskBufferPtr, renderData.m_viewportMatrix, renderData.m_objectIndex);
|
|
}
|
|
}
|
|
else
|
|
{
|
|
triangle(shader.varying_tri, shader, frame, &zbuffer[0], segmentationMaskBufferPtr, renderData.m_viewportMatrix, renderData.m_objectIndex);
|
|
}
|
|
}
|
|
}
|
|
}
|
|
|
|
}
|
|
|
|
|
|
void TinyRenderer::renderObjectDepth(TinyRenderObjectData& renderData)
|
|
{
|
|
int width = renderData.m_rgbColorBuffer.get_width();
|
|
int height = renderData.m_rgbColorBuffer.get_height();
|
|
|
|
Vec3f light_dir_local = Vec3f(renderData.m_lightDirWorld[0],renderData.m_lightDirWorld[1],renderData.m_lightDirWorld[2]);
|
|
float light_distance = renderData.m_lightDistance;
|
|
Model* model = renderData.m_model;
|
|
if (0==model)
|
|
return;
|
|
|
|
renderData.m_viewportMatrix = viewport(0,0,width, height);
|
|
|
|
float* shadowBufferPtr = (renderData.m_shadowBuffer && renderData.m_shadowBuffer->size())?&renderData.m_shadowBuffer->at(0):0;
|
|
int* segmentationMaskBufferPtr = 0;
|
|
|
|
TGAImage depthFrame(width, height, TGAImage::RGB);
|
|
|
|
{
|
|
// light target is set to be the origin, and the up direction is set to be vertical up.
|
|
Matrix lightViewMatrix = lookat(light_dir_local*light_distance, Vec3f(0.0,0.0,0.0), Vec3f(0.0,0.0,1.0));
|
|
Matrix lightModelViewMatrix = lightViewMatrix*renderData.m_modelMatrix;
|
|
Matrix lightViewProjectionMatrix = renderData.m_projectionMatrix;
|
|
Vec3f localScaling(renderData.m_localScaling[0],renderData.m_localScaling[1],renderData.m_localScaling[2]);
|
|
|
|
DepthShader shader(model, lightModelViewMatrix, lightViewProjectionMatrix,renderData.m_modelMatrix, localScaling, light_distance);
|
|
for (int i=0; i<model->nfaces(); i++)
|
|
{
|
|
for (int j=0; j<3; j++) {
|
|
shader.vertex(i, j);
|
|
}
|
|
|
|
|
|
mat<4,3,float> stackTris[3];
|
|
|
|
b3AlignedObjectArray< mat<4,3,float> > clippedTriangles;
|
|
clippedTriangles.initializeFromBuffer(stackTris,0,3);
|
|
|
|
bool hasClipped = clipTriangleAgainstNearplane(shader.varying_tri,clippedTriangles);
|
|
|
|
if (hasClipped)
|
|
{
|
|
for (int t=0;t<clippedTriangles.size();t++)
|
|
{
|
|
triangleClipped(clippedTriangles[t], shader.varying_tri, shader, depthFrame, shadowBufferPtr, segmentationMaskBufferPtr, renderData.m_viewportMatrix, renderData.m_objectIndex);
|
|
}
|
|
} else
|
|
{
|
|
triangle(shader.varying_tri, shader, depthFrame, shadowBufferPtr, segmentationMaskBufferPtr, renderData.m_viewportMatrix, renderData.m_objectIndex);
|
|
}
|
|
}
|
|
}
|
|
|
|
}
|