Misaki
bfc94f0008
Added new function signatures in `assimp-vc143-mt.lib` for improved logging, parsing, and vector operations. Added new metadata and configuration information in `assimp-vc143-mt.dll` for versioning and licensing compliance. Added Sobol sequence generation in `Sobol.c` for quasi-random sampling. Added window message handling in `Window.c` for rendering graphics. Added ray-triangle intersection tests in `RayIntersection.c` for collision detection. Added functions for loading mesh data in `Mesh.c` to support 3D model import. Added functions for managing triangle collections in `Triangle.c` to enhance geometric data handling. Added light evaluation functions in `LightEvaluation.c` and `SkyLight.c` for realistic rendering. Added sampling and evaluation functions for simple lit materials in `SimpleLit.c`. Changed various header files to include copyright and licensing information. Changed existing functions in multiple files to improve performance and clarity. Removed unused code in several files to streamline the library.
74 lines
2.8 KiB
C
74 lines
2.8 KiB
C
#ifndef GEOMETRY_UTILITIES_H
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#define GEOMETRY_UTILITIES_H
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#include "Triangle.h"
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inline void quad_create(vec3s center, vec3s forward, vec3s up, float size, uint8_t material_id, triangle_collection_t* collection)
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{
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float half_size = size / 2.0f;
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vec3s right = glms_vec3_cross(forward, up);
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vec3s scaled_right = glms_vec3_scale(right, half_size);
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vec3s scaled_up = glms_vec3_scale(up, half_size);
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vec3s temp_sub = glms_vec3_sub(center, scaled_right);
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vec3s temp_add = glms_vec3_add(center, scaled_right);
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vec3s top_left = glms_vec3_add(temp_sub, scaled_up);
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vec3s top_right = glms_vec3_add(temp_add, scaled_up);
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vec3s bottom_right = glms_vec3_sub(temp_add, scaled_up);
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vec3s bottom_left = glms_vec3_sub(temp_sub, scaled_up);
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triangle_create(top_left, top_right, bottom_left, material_id, collection);
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triangle_create(top_right, bottom_right, bottom_left, material_id, collection);
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}
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inline void sphere_create(vec3s center, float radius, uint8_t material_id, triangle_collection_t* collection)
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{
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const int segments = 8;
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const int rings = 8;
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for (int i = 0; i < rings; i++)
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{
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float theta1 = (float)i / (float)rings * (float)M_PI;
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float theta2 = (float)(i + 1) / (float)rings * (float)M_PI;
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for (int j = 0; j < segments; j++)
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{
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float phi1 = (float)j / (float)segments * 2.0f * (float)M_PI;
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float phi2 = (float)(j + 1) / (float)segments * 2.0f * (float)M_PI;
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vec3s p1 = {
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center.x + radius * sinf(theta1) * cosf(phi1),
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center.y + radius * cosf(theta1),
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center.z + radius * sinf(theta1) * sinf(phi1)
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};
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vec3s p2 = {
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center.x + radius * sinf(theta2) * cosf(phi1),
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center.y + radius * cosf(theta2),
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center.z + radius * sinf(theta2) * sinf(phi1)
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};
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vec3s p3 = {
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center.x + radius * sinf(theta2) * cosf(phi2),
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center.y + radius * cosf(theta2),
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center.z + radius * sinf(theta2) * sinf(phi2)
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};
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vec3s p4 = {
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center.x + radius * sinf(theta1) * cosf(phi2),
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center.y + radius * cosf(theta1),
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center.z + radius * sinf(theta1) * sinf(phi2)
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};
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vec3s n1 = glms_vec3_normalize(glms_vec3_sub(p1, center));
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vec3s n2 = glms_vec3_normalize(glms_vec3_sub(p2, center));
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vec3s n3 = glms_vec3_normalize(glms_vec3_sub(p3, center));
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vec3s n4 = glms_vec3_normalize(glms_vec3_sub(p4, center));
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triangle_create_with_normals(p3, p2, p1, n3, n2, n1, material_id, collection);
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triangle_create_with_normals(p3, p1, p4, n3, n1, n4, material_id, collection);
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}
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}
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}
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#endif // GEOMETRY_UTILITIES_H
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