// // Created by Keuin on 2022/4/12. // #ifndef RT_VIEWPORT_H #define RT_VIEWPORT_H #include "timer.h" #include "bitmap.h" #include "ray.h" #include "vec.h" #include "hitlist.h" #include "tracelog.h" #include #include #include #include #include #include #include #include // bias context, used for placing sub-pixels class bias_ctx { bool enabled; // put all together, eliminating a virtual function call std::mt19937_64 mt; std::uniform_real_distribution uni{0.0, 1.0}; public: bias_ctx() : enabled(false) {} bias_ctx(uint64_t seed) : enabled(true), mt(std::mt19937_64{seed}) {} void operator()(double &bx, double &by) { if (enabled) { bx = uni(mt); by = uni(mt); } else { bx = 0.0; by = 0.0; } } }; // TODO rename to camera // Single sampled viewport which supports bias sampling // U: color depth, V: pos template class basic_viewport { vec3 cxyz; // coordinate of the focus point vec3 screen_center; // double pitch; // TODO implement // double yaw; // TODO implement uint32_t image_width; // how many pixels every row has uint32_t image_height; // how many pixels every column has V screen_hw; // determined if screen_height is known V screen_hh; // determined if screen_width is known // double fov_h; // horizontal FOV, determined if screen_width or screen_height is known // double focus_length; // distance between the focus point and the image screen hitlist &world; vec3 vup{0, 1, 0}; // vector determine the camera rotating public: basic_viewport(const vec3 &cxyz, const vec3 &screen_center, uint32_t image_width, uint32_t image_height, double fov_h, hitlist &world) : cxyz{cxyz}, screen_center{screen_center}, image_width{image_width}, image_height{image_height}, screen_hw{(cxyz - screen_center).norm() * tan((double) fov_h / 2.0)}, screen_hh{screen_hw * ((double) image_height / image_width)}, world{world} {} basic_viewport(const vec3 &cxyz, const vec3 &screen_center, uint32_t image_width, uint32_t image_height, double screen_hw, double screen_hh, hitlist &world) : cxyz{cxyz}, screen_center{screen_center}, image_width{image_width}, image_height{image_height}, screen_hw{screen_hw}, screen_hh{screen_hh}, world{world} { assert(std::abs(1.0 * image_width / image_height - 1.0 * screen_hw / screen_hh) < 1e-8); } /** * Generate the image seen on given viewpoint. * @param bx bias on x axis (0.0 <= bx < 1.0) * @param by bias on y axis (0.0 <= by < 1.0) * @return */ bitmap render(uint64_t diffuse_seed, bias_ctx &bias /* by putting thread-specific parameters in call argument list, make users convenient*/) const { // The implementation keep all mutable state in local stack, // keeping the class immutable and thread-safe. bitmap image{image_width, image_height}; random_uv_gen_3d ruvg{diffuse_seed}; V bx, by; const auto r = screen_center - cxyz; const int img_hw = image_width / 2, img_hh = image_height / 2; // screen plane is determined by coord system x`Vy`, where V is screen_center // for variable name we let u := x`, v := y` const auto u = cross(r, vup).unit_vec() * screen_hw, v = cross(u, r).unit_vec() * screen_hh; assert(dot(u, v) < 1e-8); assert(dot(u, r) < 1e-8); // iterate over every pixel on the image for (int j = -img_hh; j < img_hh; ++j) { // axis y, transformation is needed for (int i = -img_hw; i < img_hw; ++i) { // axis x bias(bx, by); // get a random bias (bx, by) for sub-pixel sampling assert(0 <= bx); assert(0 <= by); assert(bx < 1.0); assert(by < 1.0); const auto off_u = (1.0 * i + bx) / img_hw; const auto off_v = (1.0 * j + by) / img_hh; const auto off = off_u * u + off_v * v; // offset on screen plane const auto dir = r + off; // direction vector from camera to current pixel on screen ray3d ray{cxyz, dir}; // from camera to pixel (on the viewport) const auto pixel = world.color(ray, ruvg); const auto x_ = i + img_hw, y_ = j + img_hh; image.set(x_, y_, pixel); #ifdef LOG_TRACE const auto ret = pixel; const auto ret8b = pixel8b::from(ret); const auto ret8bg2 = pixel8b::from(ret.gamma2()); TRACELOG(" ^ apply to pixel: (%d, %d), color: [%f, %f, %f] (8bit: [%d, %d, %d], 8bit-gamma2: [%d, %d, %d])\n", x_, y_, (double) ret.r, (double) ret.g, (double) ret.b, ret8b.r, ret8b.g, ret8b.b, ret8bg2.r, ret8bg2.g, ret8bg2.b); #endif } } return image; } }; #endif //RT_VIEWPORT_H