#include "include/base_vs_types.hlsl" vertex_t generate_fullscreen_triangle_vertex(uint vertex_id, float2 subsample_offset, int rotate_texture_steps) { vertex_t output; float2 tex_coord; if (vertex_id == 0) { output.viewpoint_pos = float4(-1, -1, 0, 1); tex_coord = float2(0, 1); } else if (vertex_id == 1) { output.viewpoint_pos = float4(-1, 3, 0, 1); tex_coord = float2(0, -1); } else { output.viewpoint_pos = float4(3, -1, 0, 1); tex_coord = float2(2, 1); } if (rotate_texture_steps != 0) { float rotation_radians = radians(90 * rotate_texture_steps); float2x2 rotation_matrix = { cos(rotation_radians), -sin(rotation_radians), sin(rotation_radians), cos(rotation_radians) }; float2 rotation_center = { 0.5, 0.5 }; tex_coord = round(rotation_center + mul(rotation_matrix, tex_coord - rotation_center)); if (rotate_texture_steps & 1) { subsample_offset.xy = subsample_offset.yx; } } #if defined(LEFT_SUBSAMPLING) output.tex_right_left_center = float3(tex_coord.x, tex_coord.x - subsample_offset.x, tex_coord.y); #elif defined(LEFT_SUBSAMPLING_SCALE) float2 halfsample_offset = subsample_offset / 2; float3 right_center_left = float3(tex_coord.x + halfsample_offset.x, tex_coord.x - halfsample_offset.x, tex_coord.x - 3 * halfsample_offset.x); float2 top_bottom = float2(tex_coord.y - halfsample_offset.y, tex_coord.y + halfsample_offset.y); output.tex_right_center_left_top = float4(right_center_left, top_bottom.x); output.tex_right_center_left_bottom = float4(right_center_left, top_bottom.y); #elif defined(TOPLEFT_SUBSAMPLING) output.tex_right_left_top = float3(tex_coord.x, tex_coord.x - subsample_offset.x, tex_coord.y - subsample_offset.y); output.tex_right_left_bottom = float3(tex_coord.x, tex_coord.x - subsample_offset.x, tex_coord.y); #else output.tex_coord = tex_coord; #endif return output; }