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author | Matt Strapp <matt@mattstrapp.net> | 2021-09-20 18:15:14 -0500 |
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committer | Matt Strapp <matt@mattstrapp.net> | 2021-09-20 18:15:14 -0500 |
commit | 342403a02f8063903d0f38327430721d4d0ae331 (patch) | |
tree | 29d020a27bc16939c568dd4b29166566d1c0e658 /dev/MinGfx/src/bvh.cc | |
parent | Fix parenthesis (diff) | |
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do ass1submission-p1.0
Diffstat (limited to 'dev/MinGfx/src/bvh.cc')
-rw-r--r-- | dev/MinGfx/src/bvh.cc | 240 |
1 files changed, 120 insertions, 120 deletions
diff --git a/dev/MinGfx/src/bvh.cc b/dev/MinGfx/src/bvh.cc index ff8dbbc..350f09a 100644 --- a/dev/MinGfx/src/bvh.cc +++ b/dev/MinGfx/src/bvh.cc @@ -1,120 +1,120 @@ -#include "bvh.h" - -#include "mesh.h" -#include "ray.h" - -#include <float.h> -#include <algorithm> - -namespace mingfx { - - -BVH::BVH() : root_(NULL) { -} - -BVH::~BVH() { - FreeNodeRecursive(root_); -} - -void BVH::CreateFromMesh(const Mesh &mesh) { - FreeNodeRecursive(root_); - - std::vector<AABB> tri_boxes; - for (int i=0; i<mesh.num_triangles(); i++) { - AABB box = AABB(mesh, i); - box.set_user_data(i); - tri_boxes.push_back(box); - } - - root_ = new Node(); - BuildHierarchyRecursive(root_, tri_boxes); -} - -void BVH::CreateFromListOfBoxes(const std::vector<AABB> &boxes) { - FreeNodeRecursive(root_); - - root_ = new Node(); - BuildHierarchyRecursive(root_, boxes); -} - - -void BVH::FreeNodeRecursive(Node* node) { - if (node == NULL) return; - FreeNodeRecursive(node->child1); - FreeNodeRecursive(node->child2); - delete node; -} - -bool sort_by_x(const AABB &lhs, const AABB &rhs) { - return (lhs.min()[0] + lhs.max()[0]) < (rhs.min()[0] + rhs.max()[0]); -} - -bool sort_by_y(const AABB &lhs, const AABB &rhs) { - return (lhs.min()[1] + lhs.max()[1]) < (rhs.min()[1] + rhs.max()[1]); -} - -bool sort_by_z(const AABB &lhs, const AABB &rhs) { - return (lhs.min()[2] + lhs.max()[2]) < (rhs.min()[2] + rhs.max()[2]); -} - -void BVH::BuildHierarchyRecursive(Node *node, std::vector<AABB> tri_boxes) { - // got down to a leaf, a single box - if (tri_boxes.size() == 1) { - node->box = tri_boxes[0]; - return; - } - - // calc the full bounding box for this node - for (int i=0; i<tri_boxes.size(); i++) { - node->box = node->box + tri_boxes[i]; - } - - // sort boxes along the longest axis - Vector3 dims = node->box.Dimensions(); - dims[0] = fabsf(dims[0]); - dims[1] = fabsf(dims[1]); - dims[2] = fabsf(dims[2]); - - if ((dims[0] > dims[1]) && (dims[0] > dims[2])) { - std::sort(tri_boxes.begin(), tri_boxes.end(), sort_by_x); - } - else if ((dims[1] > dims[0]) && (dims[1] > dims[2])) { - std::sort(tri_boxes.begin(), tri_boxes.end(), sort_by_y); - } - else { - std::sort(tri_boxes.begin(), tri_boxes.end(), sort_by_z); - } - - // assign half to child1 and half to child2 - std::size_t const half_size = tri_boxes.size() / 2; - std::vector<AABB> left_boxes(tri_boxes.begin(), tri_boxes.begin() + half_size); - std::vector<AABB> right_boxes(tri_boxes.begin() + half_size, tri_boxes.end()); - - node->child1 = new Node(); - BuildHierarchyRecursive(node->child1, left_boxes); - node->child2 = new Node(); - BuildHierarchyRecursive(node->child2, right_boxes); -} - -std::vector<int> BVH::IntersectAndReturnUserData(const Ray &r) const { - std::vector<int> data_list; - IntersectRecursive(r, root_, &data_list); - return data_list; -} - -void BVH::IntersectRecursive(const Ray &r, Node *node, std::vector<int> *data_list) const { - float t; - if (r.IntersectAABB(node->box, &t)) { - if ((node->child1 == NULL) && (node->child2 == NULL)) { - // reached a leaf node, add the object's user data to the list - data_list->push_back(node->box.user_data()); - } - else { - // go deeper and check children - IntersectRecursive(r, node->child1, data_list); - IntersectRecursive(r, node->child2, data_list); - } - } -} - -} // end namespace +#include "bvh.h"
+
+#include "mesh.h"
+#include "ray.h"
+
+#include <float.h>
+#include <algorithm>
+
+namespace mingfx {
+
+
+BVH::BVH() : root_(NULL) {
+}
+
+BVH::~BVH() {
+ FreeNodeRecursive(root_);
+}
+
+void BVH::CreateFromMesh(const Mesh &mesh) {
+ FreeNodeRecursive(root_);
+
+ std::vector<AABB> tri_boxes;
+ for (int i=0; i<mesh.num_triangles(); i++) {
+ AABB box = AABB(mesh, i);
+ box.set_user_data(i);
+ tri_boxes.push_back(box);
+ }
+
+ root_ = new Node();
+ BuildHierarchyRecursive(root_, tri_boxes);
+}
+
+void BVH::CreateFromListOfBoxes(const std::vector<AABB> &boxes) {
+ FreeNodeRecursive(root_);
+
+ root_ = new Node();
+ BuildHierarchyRecursive(root_, boxes);
+}
+
+
+void BVH::FreeNodeRecursive(Node* node) {
+ if (node == NULL) return;
+ FreeNodeRecursive(node->child1);
+ FreeNodeRecursive(node->child2);
+ delete node;
+}
+
+bool sort_by_x(const AABB &lhs, const AABB &rhs) {
+ return (lhs.min()[0] + lhs.max()[0]) < (rhs.min()[0] + rhs.max()[0]);
+}
+
+bool sort_by_y(const AABB &lhs, const AABB &rhs) {
+ return (lhs.min()[1] + lhs.max()[1]) < (rhs.min()[1] + rhs.max()[1]);
+}
+
+bool sort_by_z(const AABB &lhs, const AABB &rhs) {
+ return (lhs.min()[2] + lhs.max()[2]) < (rhs.min()[2] + rhs.max()[2]);
+}
+
+void BVH::BuildHierarchyRecursive(Node *node, std::vector<AABB> tri_boxes) {
+ // got down to a leaf, a single box
+ if (tri_boxes.size() == 1) {
+ node->box = tri_boxes[0];
+ return;
+ }
+
+ // calc the full bounding box for this node
+ for (int i=0; i<tri_boxes.size(); i++) {
+ node->box = node->box + tri_boxes[i];
+ }
+
+ // sort boxes along the longest axis
+ Vector3 dims = node->box.Dimensions();
+ dims[0] = fabsf(dims[0]);
+ dims[1] = fabsf(dims[1]);
+ dims[2] = fabsf(dims[2]);
+
+ if ((dims[0] > dims[1]) && (dims[0] > dims[2])) {
+ std::sort(tri_boxes.begin(), tri_boxes.end(), sort_by_x);
+ }
+ else if ((dims[1] > dims[0]) && (dims[1] > dims[2])) {
+ std::sort(tri_boxes.begin(), tri_boxes.end(), sort_by_y);
+ }
+ else {
+ std::sort(tri_boxes.begin(), tri_boxes.end(), sort_by_z);
+ }
+
+ // assign half to child1 and half to child2
+ std::size_t const half_size = tri_boxes.size() / 2;
+ std::vector<AABB> left_boxes(tri_boxes.begin(), tri_boxes.begin() + half_size);
+ std::vector<AABB> right_boxes(tri_boxes.begin() + half_size, tri_boxes.end());
+
+ node->child1 = new Node();
+ BuildHierarchyRecursive(node->child1, left_boxes);
+ node->child2 = new Node();
+ BuildHierarchyRecursive(node->child2, right_boxes);
+}
+
+std::vector<int> BVH::IntersectAndReturnUserData(const Ray &r) const {
+ std::vector<int> data_list;
+ IntersectRecursive(r, root_, &data_list);
+ return data_list;
+}
+
+void BVH::IntersectRecursive(const Ray &r, Node *node, std::vector<int> *data_list) const {
+ float t;
+ if (r.IntersectAABB(node->box, &t)) {
+ if ((node->child1 == NULL) && (node->child2 == NULL)) {
+ // reached a leaf node, add the object's user data to the list
+ data_list->push_back(node->box.user_data());
+ }
+ else {
+ // go deeper and check children
+ IntersectRecursive(r, node->child1, data_list);
+ IntersectRecursive(r, node->child2, data_list);
+ }
+ }
+}
+
+} // end namespace
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