virtualx-engine/modules/raycast/lightmap_raycaster.cpp
JFonS e2c28675ef Batch of lightmapper fixes and minor improvements
- Fix objects with no material being considered as fully transparent by the lightmapper.
- Added "environment_min_light" property: gives artistic control over the shadow color.
- Fixed "Custom Color" environment mode, it was ignored before.
- Added "interior" property to BakedLightmapData: controls whether dynamic capture objects receive environment light or not.
- Automatically update dynamic capture objects when the capture data changes (also works for "energy" which used to require object movement to trigger the update).
- Added "use_in_baked_light" property to GridMap: controls whether the GridMap will be included in BakedLightmap bakes.
- Set "flush zero" and "denormal zero" mode for SSE2 instructions in the Embree raycaster. According to Embree docs it should give a performance improvement.
2021-03-12 12:00:53 +01:00

205 lines
7.7 KiB
C++

/*************************************************************************/
/* lightmap_raycaster.cpp */
/*************************************************************************/
/* This file is part of: */
/* GODOT ENGINE */
/* https://godotengine.org */
/*************************************************************************/
/* Copyright (c) 2007-2021 Juan Linietsky, Ariel Manzur. */
/* Copyright (c) 2014-2021 Godot Engine contributors (cf. AUTHORS.md). */
/* */
/* Permission is hereby granted, free of charge, to any person obtaining */
/* a copy of this software and associated documentation files (the */
/* "Software"), to deal in the Software without restriction, including */
/* without limitation the rights to use, copy, modify, merge, publish, */
/* distribute, sublicense, and/or sell copies of the Software, and to */
/* permit persons to whom the Software is furnished to do so, subject to */
/* the following conditions: */
/* */
/* The above copyright notice and this permission notice shall be */
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/* THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, */
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/*************************************************************************/
#include "lightmap_raycaster.h"
// From Embree.
#include <math/vec2.h>
#include <math/vec3.h>
#include <xmmintrin.h>
using namespace embree;
LightmapRaycaster *LightmapRaycasterEmbree::create_embree_raycaster() {
return memnew(LightmapRaycasterEmbree);
}
void LightmapRaycasterEmbree::make_default_raycaster() {
create_function = create_embree_raycaster;
}
void LightmapRaycasterEmbree::filter_function(const struct RTCFilterFunctionNArguments *p_args) {
RTCHit *hit = (RTCHit *)p_args->hit;
unsigned int geomID = hit->geomID;
float u = hit->u;
float v = hit->v;
LightmapRaycasterEmbree *scene = (LightmapRaycasterEmbree *)p_args->geometryUserPtr;
RTCGeometry geom = rtcGetGeometry(scene->embree_scene, geomID);
rtcInterpolate0(geom, hit->primID, hit->u, hit->v, RTC_BUFFER_TYPE_VERTEX_ATTRIBUTE, 0, &hit->u, 2);
if (scene->alpha_textures.has(geomID)) {
const AlphaTextureData &alpha_texture = scene->alpha_textures[geomID];
if (alpha_texture.sample(hit->u, hit->v) < 128) {
p_args->valid[0] = 0;
return;
}
}
rtcInterpolate0(geom, hit->primID, u, v, RTC_BUFFER_TYPE_VERTEX_ATTRIBUTE, 1, &hit->Ng_x, 3);
}
bool LightmapRaycasterEmbree::intersect(Ray &r_ray) {
RTCIntersectContext context;
rtcInitIntersectContext(&context);
rtcIntersect1(embree_scene, &context, (RTCRayHit *)&r_ray);
return r_ray.geomID != RTC_INVALID_GEOMETRY_ID;
}
void LightmapRaycasterEmbree::intersect(Vector<Ray> &r_rays) {
Ray *rays = r_rays.ptrw();
for (int i = 0; i < r_rays.size(); ++i) {
intersect(rays[i]);
}
}
void LightmapRaycasterEmbree::set_mesh_alpha_texture(Ref<Image> p_alpha_texture, unsigned int p_id) {
if (p_alpha_texture.is_valid() && p_alpha_texture->get_size() != Vector2i()) {
AlphaTextureData tex;
tex.size = p_alpha_texture->get_size();
tex.data.resize(tex.size.x * tex.size.y);
{
PoolVector<uint8_t>::Read r = p_alpha_texture->get_data().read();
uint8_t *ptrw = tex.data.ptrw();
for (int i = 0; i < tex.size.x * tex.size.y; ++i) {
ptrw[i] = r[i];
}
}
alpha_textures.insert(p_id, tex);
}
}
float blerp(float c00, float c10, float c01, float c11, float tx, float ty) {
return Math::lerp(Math::lerp(c00, c10, tx), Math::lerp(c01, c11, tx), ty);
}
uint8_t LightmapRaycasterEmbree::AlphaTextureData::sample(float u, float v) const {
float x = u * size.x;
float y = v * size.y;
int xi = (int)x;
int yi = (int)y;
uint8_t texels[4];
for (int i = 0; i < 4; ++i) {
int sample_x = CLAMP(xi + i % 2, 0, size.x - 1);
int sample_y = CLAMP(yi + i / 2, 0, size.y - 1);
texels[i] = data[sample_y * size.x + sample_x];
}
return Math::round(blerp(texels[0], texels[1], texels[2], texels[3], x - xi, y - yi));
}
void LightmapRaycasterEmbree::add_mesh(const Vector<Vector3> &p_vertices, const Vector<Vector3> &p_normals, const Vector<Vector2> &p_uv2s, unsigned int p_id) {
RTCGeometry embree_mesh = rtcNewGeometry(embree_device, RTC_GEOMETRY_TYPE_TRIANGLE);
rtcSetGeometryVertexAttributeCount(embree_mesh, 2);
int vertex_count = p_vertices.size();
ERR_FAIL_COND(vertex_count % 3 != 0);
ERR_FAIL_COND(vertex_count != p_uv2s.size());
Vec3fa *embree_vertices = (Vec3fa *)rtcSetNewGeometryBuffer(embree_mesh, RTC_BUFFER_TYPE_VERTEX, 0, RTC_FORMAT_FLOAT3, sizeof(Vec3fa), vertex_count);
Vec2fa *embree_light_uvs = (Vec2fa *)rtcSetNewGeometryBuffer(embree_mesh, RTC_BUFFER_TYPE_VERTEX_ATTRIBUTE, 0, RTC_FORMAT_FLOAT2, sizeof(Vec2fa), vertex_count);
uint32_t *embree_triangles = (uint32_t *)rtcSetNewGeometryBuffer(embree_mesh, RTC_BUFFER_TYPE_INDEX, 0, RTC_FORMAT_UINT3, sizeof(uint32_t) * 3, vertex_count / 3);
Vec3fa *embree_normals = nullptr;
if (!p_normals.empty()) {
embree_normals = (Vec3fa *)rtcSetNewGeometryBuffer(embree_mesh, RTC_BUFFER_TYPE_VERTEX_ATTRIBUTE, 1, RTC_FORMAT_FLOAT3, sizeof(Vec3fa), vertex_count);
}
for (int i = 0; i < vertex_count; i++) {
embree_vertices[i] = Vec3fa(p_vertices[i].x, p_vertices[i].y, p_vertices[i].z);
embree_light_uvs[i] = Vec2fa(p_uv2s[i].x, p_uv2s[i].y);
if (embree_normals != nullptr) {
embree_normals[i] = Vec3fa(p_normals[i].x, p_normals[i].y, p_normals[i].z);
}
embree_triangles[i] = i;
}
rtcCommitGeometry(embree_mesh);
rtcSetGeometryIntersectFilterFunction(embree_mesh, filter_function);
rtcSetGeometryUserData(embree_mesh, this);
rtcAttachGeometryByID(embree_scene, embree_mesh, p_id);
rtcReleaseGeometry(embree_mesh);
}
void LightmapRaycasterEmbree::commit() {
rtcCommitScene(embree_scene);
}
void LightmapRaycasterEmbree::set_mesh_filter(const Set<int> &p_mesh_ids) {
for (Set<int>::Element *E = p_mesh_ids.front(); E; E = E->next()) {
rtcDisableGeometry(rtcGetGeometry(embree_scene, E->get()));
}
rtcCommitScene(embree_scene);
filter_meshes = p_mesh_ids;
}
void LightmapRaycasterEmbree::clear_mesh_filter() {
for (Set<int>::Element *E = filter_meshes.front(); E; E = E->next()) {
rtcEnableGeometry(rtcGetGeometry(embree_scene, E->get()));
}
rtcCommitScene(embree_scene);
filter_meshes.clear();
}
void embree_error_handler(void *p_user_data, RTCError p_code, const char *p_str) {
print_error("Embree error: " + String(p_str));
}
LightmapRaycasterEmbree::LightmapRaycasterEmbree() {
_MM_SET_FLUSH_ZERO_MODE(_MM_FLUSH_ZERO_ON);
_MM_SET_DENORMALS_ZERO_MODE(_MM_DENORMALS_ZERO_ON);
embree_device = rtcNewDevice(nullptr);
rtcSetDeviceErrorFunction(embree_device, &embree_error_handler, nullptr);
embree_scene = rtcNewScene(embree_device);
}
LightmapRaycasterEmbree::~LightmapRaycasterEmbree() {
_MM_SET_FLUSH_ZERO_MODE(_MM_FLUSH_ZERO_OFF);
_MM_SET_DENORMALS_ZERO_MODE(_MM_DENORMALS_ZERO_OFF);
if (embree_scene != nullptr)
rtcReleaseScene(embree_scene);
if (embree_device != nullptr)
rtcReleaseDevice(embree_device);
}