ret std::array not std::vector in get-box-normals
"Get Box Normals" function always returns three vectors, so use std::array instead of std::vector. Minor changes related to usage of this function.
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1 changed files with 33 additions and 24 deletions
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@ -1,6 +1,7 @@
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#include "sc_sacd.h"
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// Standard library includes.
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#include <array>
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#include <cmath>
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#include <stdfloat>
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#include <vector>
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@ -60,9 +61,8 @@ SC_SACD_Vec3 operator*(const SC_SACD_Mat4 &mat, const SC_SACD_Vec3 &vec) {
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vec.x * mat.z0 + vec.y * mat.z1 + vec.z * mat.z2 + mat.z3};
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}
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std::vector<SC_SACD_Vec3> SC_SACD_Get_Box_Normals(
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std::array<SC_SACD_Vec3, 3> SC_SACD_Get_Box_Normals(
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const SC_SACD_Generic_Box *box) {
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std::vector<SC_SACD_Vec3> normals;
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SC_SACD_Vec3 a, b, c;
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// Facing positive x-axis.
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@ -85,7 +85,7 @@ std::vector<SC_SACD_Vec3> SC_SACD_Get_Box_Normals(
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b = b - a;
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c = c - a;
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normals.push_back(SC_SACD_Cross_Product(b, c));
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auto normal_x = SC_SACD_Cross_Product(b, c);
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// Facing positive y-axis.
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a.x = 0.0F;
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@ -107,7 +107,7 @@ std::vector<SC_SACD_Vec3> SC_SACD_Get_Box_Normals(
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b = b - a;
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c = c - a;
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normals.push_back(SC_SACD_Cross_Product(b, c));
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auto normal_y = SC_SACD_Cross_Product(b, c);
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// Facing positive z-axis.
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a.x = 0.0F;
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@ -129,14 +129,14 @@ std::vector<SC_SACD_Vec3> SC_SACD_Get_Box_Normals(
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b = b - a;
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c = c - a;
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normals.push_back(SC_SACD_Cross_Product(b, c));
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auto normal_z = SC_SACD_Cross_Product(b, c);
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return normals;
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return {normal_x, normal_y, normal_z};
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}
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std::vector<SC_SACD_Vec3> SC_SACD_Get_Box_Normals_Normalized(
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std::array<SC_SACD_Vec3, 3> SC_SACD_Get_Box_Normals_Normalized(
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const SC_SACD_Generic_Box *box) {
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std::vector<SC_SACD_Vec3> normals = SC_SACD_Get_Box_Normals(box);
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auto normals = SC_SACD_Get_Box_Normals(box);
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for (auto &normal : normals) {
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normal = normal / std::sqrt(SC_SACD_Dot_Product(normal, normal));
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@ -213,17 +213,18 @@ struct SC_SACD_MinMax {
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};
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std::vector<SC_SACD_MinMax> SC_SACD_Get_Box_MinMax(
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const SC_SACD_Generic_Box *box, const std::vector<SC_SACD_Vec3> &normals) {
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const SC_SACD_Generic_Box *box, const SC_SACD_Vec3 *normals,
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std::size_t size) {
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std::vector<SC_SACD_MinMax> minmaxes;
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std::vector<SC_SACD_Vec3> corners = SC_SACD_Get_Box_Corners(box);
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// Assuming normals are not normalized, and will not normalize anyway.
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// MinMax count should be same as normals count.
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for (const auto &normal : normals) {
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for (std::size_t idx = 0; idx < size; ++idx) {
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SC_SACD_MinMax minmax{INFINITY, -INFINITY};
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for (const auto &corner : corners) {
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float projected = SC_SACD_Dot_Product(corner, normal);
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float projected = SC_SACD_Dot_Product(corner, normals[idx]);
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if (projected > minmax.max) {
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minmax.max = projected;
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}
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@ -272,14 +273,21 @@ int SC_SACD_AABB_Box_Collision(const SC_SACD_AABB_Box *a,
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int SC_SACD_Generic_Box_Collision(const SC_SACD_Generic_Box *a,
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const SC_SACD_Generic_Box *b) {
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// Get all normals.
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std::vector<SC_SACD_Vec3> normals = SC_SACD_Get_Box_Normals(a);
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std::vector<SC_SACD_Vec3> normals;
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{
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for (const auto &normal : SC_SACD_Get_Box_Normals(a)) {
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normals.push_back(normal);
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}
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for (const auto &normal : SC_SACD_Get_Box_Normals(b)) {
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normals.push_back(normal);
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}
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}
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// Get all minmaxes.
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std::vector<SC_SACD_MinMax> minmaxes_a = SC_SACD_Get_Box_MinMax(a, normals);
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std::vector<SC_SACD_MinMax> minmaxes_b = SC_SACD_Get_Box_MinMax(b, normals);
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std::vector<SC_SACD_MinMax> minmaxes_a =
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SC_SACD_Get_Box_MinMax(a, normals.data(), normals.size());
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std::vector<SC_SACD_MinMax> minmaxes_b =
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SC_SACD_Get_Box_MinMax(b, normals.data(), normals.size());
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// Check minmaxes.
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for (unsigned int i = 0; i < normals.size(); ++i) {
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@ -359,7 +367,7 @@ int SC_SACD_Sphere_Box_Collision(const SC_SACD_Sphere *sphere,
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std::vector<SC_SACD_Vec3> normals{sphere_box_normal};
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std::vector<SC_SACD_MinMax> box_minmaxes =
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SC_SACD_Get_Box_MinMax(box, normals);
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SC_SACD_Get_Box_MinMax(box, normals.data(), normals.size());
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float projected_0 = SC_SACD_Dot_Product(
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sphere_box_normal, sphere_pos + sphere_box_normal * sphere->radius);
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@ -377,13 +385,14 @@ int SC_SACD_Sphere_Box_Collision(const SC_SACD_Sphere *sphere,
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// Next check the planes for the 3 normals of the box.
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normals = SC_SACD_Get_Box_Normals(box);
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box_minmaxes = SC_SACD_Get_Box_MinMax(box, normals);
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for (unsigned int i = 0; i < normals.size(); ++i) {
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projected_0 = SC_SACD_Dot_Product(normals[i],
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sphere_pos + normals[i] * sphere->radius);
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projected_1 = SC_SACD_Dot_Product(normals[i],
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sphere_pos - normals[i] * sphere->radius);
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auto box_normals = SC_SACD_Get_Box_Normals(box);
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box_minmaxes =
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SC_SACD_Get_Box_MinMax(box, box_normals.data(), box_normals.size());
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for (unsigned int i = 0; i < box_normals.size(); ++i) {
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projected_0 = SC_SACD_Dot_Product(
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box_normals[i], sphere_pos + box_normals[i] * sphere->radius);
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projected_1 = SC_SACD_Dot_Product(
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box_normals[i], sphere_pos - box_normals[i] * sphere->radius);
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if (projected_0 < projected_1) {
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if (box_minmaxes[i].max < projected_0 ||
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box_minmaxes[i].min > projected_1) {
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