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@ -11,107 +11,114 @@ |
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// TODO: Namespace this correctly
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// TODO: Namespace this correctly
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using vec2 = gp::math::vec2_g<>; |
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using vec3 = gp::math::vec3_g<>; |
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using vec4 = gp::math::vec4_g<>; |
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struct camera{ |
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vec3 position; |
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vec3 normal; |
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}; |
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using index_t = size_t; |
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using distance_t = gp_config::rendering::default_type; |
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using color_t = GP_CONFIG__RENDERING__COLOR_T; |
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struct render_point{ |
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distance_t distance; |
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index_t material; |
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bool operator<(const render_point& rhs) { |
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return distance < rhs.distance; |
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} |
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}; |
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using sdf_t = gp::function<render_point(vec3&)>; |
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using material_t = gp::function<color_t(vec3&)>; |
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/**
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* @brief A pure ray-marching renderer. Prints pixels on order. |
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*/ |
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class renderer { |
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using g_t = gp_config::rendering::default_type; |
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constexpr static auto epsilon = gp_config::rendering::epsilon; |
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public: |
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gp::indexed_array<sdf_t, 4096> scene_elements; |
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gp::indexed_array<material_t, 4096> materials; |
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gp::buddy<> allocator; |
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material_t sky_box; |
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vec2 _resolution{128,64}; |
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camera _camera{{0, 0, -1}, {0, 0, 0}}; |
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vec2 _fov{90, 45}; |
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distance_t projection_start = 1; |
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distance_t projection_end = 50; |
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size_t passes = 12; |
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renderer(gp::buffer<char> allocation_buffer) |
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: allocator(allocation_buffer.begin().data, allocation_buffer.size()) |
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, sky_box{gp::reference_wrapper<gp::buddy<>>{allocator}} |
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{} |
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render_point sdf(vec3& render_target) { |
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return gp::min_of( |
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scene_elements.begin(), |
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scene_elements.end(), |
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[&](auto& p){ |
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return p(render_target); |
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} |
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); |
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} |
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auto& get_allocator() { |
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return allocator; |
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} |
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color_t render(vec2 pixel) { |
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g_t depth = projection_start; |
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vec3 target = _camera.normal; |
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auto half_res = _resolution/vec2{2.0, 2.0}; |
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pixel = pixel - half_res; |
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pixel = pixel / half_res; |
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pixel = pixel * _fov; |
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pixel = pixel / vec2{180, 180} * vec2{gp::math::pi<g_t>,gp::math::pi<g_t>}; |
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// Y-rot (adjusts x)
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target = vec3{ |
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target.x*gp::math::cos(pixel.x) + target.z*gp::math::sin(pixel.x), |
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target.y, |
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-target.x*gp::math::sin(pixel.x)+target.z*gp::math::cos(pixel.x) |
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}; |
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// X-rot (adjusts y)
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target = vec3{ |
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target.x, |
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target.y*gp::math::cos(pixel.y) - target.z*gp::math::sin(pixel.y), |
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target.y*gp::math::sin(pixel.y) + target.z*gp::math::cos(pixel.y) |
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}; |
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vec3 render_target{_camera.position}; |
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for(int i = 1; i < passes; ++i) { |
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render_point distance = sdf(render_target); |
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if(distance.distance < epsilon) { |
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return materials[distance.material](render_target); |
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} |
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depth += distance.distance; |
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if(depth >= projection_end) { |
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break; |
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} |
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render_target = _camera.position+depth*target; |
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namespace gp { |
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namespace math { |
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namespace rendering { |
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using vec2 = gp::math::vec2_g<>; |
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using vec3 = gp::math::vec3_g<>; |
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using vec4 = gp::math::vec4_g<>; |
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struct camera{ |
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vec3 position; |
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vec3 normal; |
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}; |
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using index_t = size_t; |
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using distance_t = gp_config::rendering::default_type; |
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using color_t = GP_CONFIG__RENDERING__COLOR_T; |
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struct render_point{ |
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distance_t distance; |
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index_t material; |
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bool operator<(const render_point& rhs) { |
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return distance < rhs.distance; |
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} |
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}; |
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using sdf_t = gp::function<render_point(vec3&)>; |
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using material_t = gp::function<color_t(vec3&)>; |
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/**
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* @brief A pure ray-marching renderer. Prints pixels on order. |
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|
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*/ |
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class renderer { |
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using g_t = gp_config::rendering::default_type; |
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constexpr static auto epsilon = gp_config::rendering::epsilon; |
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public: |
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gp::indexed_array<sdf_t, 4096> scene_elements; |
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gp::indexed_array<material_t, 4096> materials; |
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gp::buddy<> allocator; |
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material_t sky_box; |
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vec2 _resolution{128,64}; |
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camera _camera{{0, 0, -5}, {0, 0, 0}}; |
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vec2 _fov{90, 45}; |
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distance_t projection_start = 1; |
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distance_t projection_end = 50; |
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size_t passes = 12; |
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renderer(gp::buffer<char> allocation_buffer) |
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: allocator(allocation_buffer.begin().data, allocation_buffer.size()) |
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, sky_box{gp::reference_wrapper<gp::buddy<>>{allocator}} |
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{} |
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render_point sdf(vec3& render_target) { |
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return gp::min_of( |
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scene_elements.begin(), |
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scene_elements.end(), |
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[&](auto& p){ |
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return p(render_target); |
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} |
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); |
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} |
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auto& get_allocator() { |
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return allocator; |
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} |
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color_t render(vec2 pixel) { |
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g_t depth = projection_start; |
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vec3 target = _camera.normal; |
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auto half_res = _resolution/vec2{2.0, 2.0}; |
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pixel = pixel - half_res; |
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pixel = pixel / half_res; |
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pixel = pixel * _fov; |
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pixel = pixel / vec2{180, 180} * vec2{gp::math::pi<g_t>,gp::math::pi<g_t>}; |
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// Y-rot (adjusts x)
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target = vec3{ |
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target.x*gp::math::cos(pixel.x) + target.z*gp::math::sin(pixel.x), |
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target.y, |
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-target.x*gp::math::sin(pixel.x)+target.z*gp::math::cos(pixel.x) |
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}; |
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// X-rot (adjusts y)
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target = vec3{ |
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target.x, |
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target.y*gp::math::cos(pixel.y) - target.z*gp::math::sin(pixel.y), |
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target.y*gp::math::sin(pixel.y) + target.z*gp::math::cos(pixel.y) |
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}; |
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vec3 render_target{_camera.position}; |
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for(int i = 0; i < passes; ++i) { |
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render_point distance = sdf(render_target); |
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if(distance.distance < epsilon) { |
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return materials[distance.material](render_target); |
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} |
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depth += distance.distance; |
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if(depth >= projection_end) { |
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break; |
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} |
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render_target = _camera.position+depth*target; |
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} |
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return sky_box(render_target); |
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} |
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}; |
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} |
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} |
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return sky_box(render_target); |
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} |
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} |
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}; |
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} |