CJSatnarine/tiny_renderer
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implement backface culling; basic lighting direction

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CJSatnarine
2025-05-22 22:17:20 -04:00
parent cf5d5c6171
commit 4251cd1824
1 changed files with 68 additions and 34 deletions
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102
src/main.cpp
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@@ -12,6 +12,32 @@ const int windowHeight = 800;
const int windowWidth = 800; const int windowWidth = 800;
Model *model = NULL; Model *model = NULL;
void line(Vec2i t0, Vec2i t1, TGAImage &image, TGAColor color) {
bool steep = false;
// if the line is steep, we transpose the image.
if (abs(t0.x - t1.x) < abs(t0.y - t1.y)) {
swap(t0.x, t0.y);
swap(t1.x, t1.y);
steep = true;
}
// Make it left to right.
if (t0.x > t1.x) {
swap(t0.x, t1.x);
swap(t0.y, t1.y);
}
for (int x = t0.x; x <= t1.x; x++) {
float t = (x - t0.x) / (float)(t1.x - t0.x);
int y = t0.y * (1.0 - t) + t1.y * t;
if (steep) {
image.set(y, x, color); // if transposed, de-transpose.
} else {
image.set(x, y, color);
}
}
}
Vec3f barycentric(Vec2i *pts, Vec2i P) { Vec3f barycentric(Vec2i *pts, Vec2i P) {
Vec3f u = Vec3f(pts[2].x - pts[0].x, pts[1].x - pts[0].x, pts[0].x - P.x) ^ Vec3f u = Vec3f(pts[2].x - pts[0].x, pts[1].x - pts[0].x, pts[0].x - P.x) ^
Vec3f(pts[2].y - pts[0].y, pts[1].y - pts[0].y, pts[0].y - P.y); Vec3f(pts[2].y - pts[0].y, pts[1].y - pts[0].y, pts[0].y - P.y);
@@ -25,32 +51,7 @@ Vec3f barycentric(Vec2i *pts, Vec2i P) {
return Vec3f(1.f - (u.x + u.y) / u.z, u.y / u.z, u.x / u.z); return Vec3f(1.f - (u.x + u.y) / u.z, u.y / u.z, u.x / u.z);
} }
void triangle(Vec2i t0, Vec2i t1, Vec2i t2, TGAImage &image, TGAColor color) { // Triangle function with binding box.
if (t0.y == t1.y && t0.y == t2.y)
return;
if (t0.y > t1.y)
swap(t0, t1);
if (t0.y > t2.y)
swap(t0, t2);
if (t1.y > t2.y)
swap(t1, t2);
int total_height = t2.y - t0.y;
for (int i = 0; i < total_height; i++) {
bool second_half = i > t1.y - t0.y || t1.y == t0.y;
int segment_height = second_half ? t2.y - t1.y : t1.y - t0.y;
float alpha = (float)i / total_height;
float beta =
(float)(i - (second_half ? t1.y - t0.y : 0)) / segment_height;
Vec2i A = t0 + (t2 - t0) * alpha;
Vec2i B = second_half ? t1 + (t2 - t1) * beta : t0 + (t1 - t0) * beta;
if (A.x > B.x)
std::swap(A, B);
for (int j = A.x; j <= B.x; j++) {
image.set(j, t0.y + i, color);
}
}
}
void triangle(Vec2i *pts, TGAImage &image, TGAColor colour) { void triangle(Vec2i *pts, TGAImage &image, TGAColor colour) {
Vec2i boundingBoxMinimum(image.get_width() - 1, image.get_height() - 1); Vec2i boundingBoxMinimum(image.get_width() - 1, image.get_height() - 1);
Vec2i boundingBoxMaximum(0, 0); Vec2i boundingBoxMaximum(0, 0);
@@ -77,10 +78,37 @@ void triangle(Vec2i *pts, TGAImage &image, TGAColor colour) {
} }
} }
// Triangle function via line sweeping.
void triangle(Vec2i t0, Vec2i t1, Vec2i t2, TGAImage &image, TGAColor color) {
if (t0.y == t1.y && t0.y == t2.y)
return;
if (t0.y > t1.y)
swap(t0, t1);
if (t0.y > t2.y)
swap(t0, t2);
if (t1.y > t2.y)
swap(t1, t2);
int total_height = t2.y - t0.y;
for (int i = 0; i < total_height; i++) {
bool second_half = i > t1.y - t0.y || t1.y == t0.y;
int segment_height = second_half ? t2.y - t1.y : t1.y - t0.y;
float alpha = (float)i / total_height;
float beta =
(float)(i - (second_half ? t1.y - t0.y : 0)) / segment_height;
Vec2i A = t0 + (t2 - t0) * alpha;
Vec2i B = second_half ? t1 + (t2 - t1) * beta : t0 + (t1 - t0) * beta;
if (A.x > B.x)
std::swap(A, B);
for (int j = A.x; j <= B.x; j++) {
image.set(j, t0.y + i, color);
}
}
}
int main(int argc, char **argv) { int main(int argc, char **argv) {
TGAImage image(windowWidth, windowHeight, TGAImage::RGB); TGAImage image(windowWidth, windowHeight, TGAImage::RGB);
Vec2i pts[3] = {Vec2i(30, 30), Vec2i(300, 90), Vec2i(570, 480)};
// triangle(pts, image, purple);
// Model stuff. // Model stuff.
if (2 == argc) if (2 == argc)
@@ -88,18 +116,24 @@ int main(int argc, char **argv) {
else else
model = new Model("../obj/wolf_head.obj"); model = new Model("../obj/wolf_head.obj");
Vec3f lightDirection(0,0,-1);
for (int i = 0; i < model->nfaces(); i++) { for (int i = 0; i < model->nfaces(); i++) {
vector<int> face = model->face(i); vector<int> face = model->face(i);
Vec2i screenCoordinates[3]; Vec2i screenCoordinates[3];
Vec3f worldCoordinates[3];
for (int j = 0; j < 3; j++) { for (int j = 0; j < 3; j++) {
Vec3f worldCoordinates = model->vert(face[j]); Vec3f v = model->vert(face[j]);
screenCoordinates[j] = screenCoordinates[j] = Vec2i((v.x + 1.0) * windowWidth / 2.0, (v.y + 1.0) * windowHeight / 2.0);
Vec2i((worldCoordinates.x + 1) * windowWidth / 2.0, worldCoordinates[j] = v;
(worldCoordinates.y + 1.0) * windowHeight / 2.0);
} }
triangle(screenCoordinates[0], screenCoordinates[1], Vec3f n = (worldCoordinates[2] - worldCoordinates[0]) ^ (worldCoordinates[1] - worldCoordinates[0]);
n.normalize();
float intensity = n * lightDirection;
if (intensity > 0) triangle(screenCoordinates[0], screenCoordinates[1],
screenCoordinates[2], image, screenCoordinates[2], image,
TGAColor(rand() % 255, rand() % 255, rand() % 255, 255)); TGAColor(intensity * 255, intensity * 255, intensity * 255, 255));
} }
image.flip_vertically(); image.flip_vertically();
image.write_tga_file("output.tga"); image.write_tga_file("output.tga");