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our_gl.cpp
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our_gl.cpp
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#include "our_gl.h"
mat<4,4> ModelView;
mat<4,4> Viewport;
mat<4,4> Projection;
void viewport(const int x, const int y, const int w, const int h) {
Viewport = {{{w/2., 0, 0, x+w/2.}, {0, h/2., 0, y+h/2.}, {0,0,1,0}, {0,0,0,1}}};
}
void projection(const double f) { // check https://en.wikipedia.org/wiki/Camera_matrix
Projection = {{{1,0,0,0}, {0,-1,0,0}, {0,0,1,0}, {0,0,-1/f,0}}};
}
void lookat(const vec3 eye, const vec3 center, const vec3 up) { // check https://github.com/ssloy/tinyrenderer/wiki/Lesson-5-Moving-the-camera
vec3 z = (center-eye).normalized();
vec3 x = cross(up,z).normalized();
vec3 y = cross(z, x).normalized();
mat<4,4> Minv = {{{x.x,x.y,x.z,0}, {y.x,y.y,y.z,0}, {z.x,z.y,z.z,0}, {0,0,0,1}}};
mat<4,4> Tr = {{{1,0,0,-eye.x}, {0,1,0,-eye.y}, {0,0,1,-eye.z}, {0,0,0,1}}};
ModelView = Minv*Tr;
}
vec3 barycentric(const vec2 tri[3], const vec2 P) {
mat<3,3> ABC = {{embed<3>(tri[0]), embed<3>(tri[1]), embed<3>(tri[2])}};
if (ABC.det()<1e-3) return {-1,1,1}; // for a degenerate triangle generate negative coordinates, it will be thrown away by the rasterizator
return ABC.invert_transpose() * embed<3>(P);
}
void triangle(const vec4 clip_verts[3], IShader &shader, TGAImage &image, std::vector<double> &zbuffer) {
vec4 pts[3] = { Viewport*clip_verts[0], Viewport*clip_verts[1], Viewport*clip_verts[2] }; // triangle screen coordinates before persp. division
vec2 pts2[3] = { proj<2>(pts[0]/pts[0][3]), proj<2>(pts[1]/pts[1][3]), proj<2>(pts[2]/pts[2][3]) }; // triangle screen coordinates after perps. division
int bboxmin[2] = {image.width()-1, image.height()-1};
int bboxmax[2] = {0, 0};
for (int i=0; i<3; i++)
for (int j=0; j<2; j++) {
bboxmin[j] = std::min(bboxmin[j], static_cast<int>(pts2[i][j]));
bboxmax[j] = std::max(bboxmax[j], static_cast<int>(pts2[i][j]));
}
#pragma omp parallel for
for (int x=std::max(bboxmin[0], 0); x<=std::min(bboxmax[0], image.width()-1); x++) {
for (int y=std::max(bboxmin[1], 0); y<=std::min(bboxmax[1], image.height()-1); y++) {
vec3 bc_screen = barycentric(pts2, {static_cast<double>(x), static_cast<double>(y)});
vec3 bc_clip = {bc_screen.x/pts[0][3], bc_screen.y/pts[1][3], bc_screen.z/pts[2][3]};
bc_clip = bc_clip/(bc_clip.x+bc_clip.y+bc_clip.z); // check https://github.com/ssloy/tinyrenderer/wiki/Technical-difficulties-linear-interpolation-with-perspective-deformations
double frag_depth = vec3{clip_verts[0][2], clip_verts[1][2], clip_verts[2][2]}*bc_clip;
if (bc_screen.x<0 || bc_screen.y<0 || bc_screen.z<0 || frag_depth > zbuffer[x+y*image.width()]) continue;
TGAColor color;
if (shader.fragment(bc_clip, color)) continue; // fragment shader can discard current fragment
zbuffer[x+y*image.width()] = frag_depth;
image.set(x, y, color);
}
}
}