pandemonium_engine/modules/voxelman/world/jobs/voxel_prop_job.cpp

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/*
Copyright (c) 2019-2020 Péter Magyar
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 included in all
copies or substantial portions of the Software.
THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE
SOFTWARE.
*/
#include "voxel_prop_job.h"
#include "../../defines.h"
#include "../../library/voxel_library.h"
#include "../../library/voxel_surface.h"
#include "../../meshers/voxel_mesher.h"
#include "../default/voxel_chunk_default.h"
#include "../../library/voxel_material_cache.h"
#include "../default/voxel_chunk_default.h"
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#include "scene/resources/world.h"
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#include "servers/physics_server.h"
#ifdef MESH_DATA_RESOURCE_PRESENT
#include "../../../mesh_data_resource/mesh_data_resource.h"
#endif
#include "../../world/default/voxel_world_default.h"
#ifdef MESH_UTILS_PRESENT
#include "../../../mesh_utils/fast_quadratic_mesh_simplifier.h"
#endif
Ref<VoxelMesher> VoxelPropJob::get_prop_mesher() const {
return _prop_mesher;
}
void VoxelPropJob::set_prop_mesher(const Ref<VoxelMesher> &mesher) {
_prop_mesher = mesher;
}
Ref<VoxelMesherJobStep> VoxelPropJob::get_jobs_step(int index) const {
ERR_FAIL_INDEX_V(index, _job_steps.size(), Ref<VoxelMesherJobStep>());
return _job_steps.get(index);
}
void VoxelPropJob::set_jobs_step(int index, const Ref<VoxelMesherJobStep> &step) {
ERR_FAIL_INDEX(index, _job_steps.size());
_job_steps.set(index, step);
}
void VoxelPropJob::remove_jobs_step(const int index) {
ERR_FAIL_INDEX(index, _job_steps.size());
_job_steps.remove(index);
}
void VoxelPropJob::add_jobs_step(const Ref<VoxelMesherJobStep> &step) {
_job_steps.push_back(step);
}
int VoxelPropJob::get_jobs_step_count() const {
return _job_steps.size();
}
void VoxelPropJob::phase_physics_process() {
ERR_FAIL_COND(!_chunk.is_valid());
Ref<VoxelChunkDefault> chunk = _chunk;
//TODO this should only update the differences
for (int i = 0; i < chunk->collider_get_count(); ++i) {
PhysicsServer::get_singleton()->free(chunk->collider_get_body(i));
}
chunk->colliders_clear();
#ifdef MESH_DATA_RESOURCE_PRESENT
for (int i = 0; i < chunk->mesh_data_resource_get_count(); ++i) {
Ref<MeshDataResource> mdr = chunk->mesh_data_resource_get(i);
for (int j = 0; j < mdr->get_collision_shape_count(); ++j) {
Ref<Shape> shape = mdr->get_collision_shape(j);
Transform offset = mdr->get_collision_shape_offset(j);
if (!shape.is_valid()) {
continue;
}
RID body = PhysicsServer::get_singleton()->body_create(PhysicsServer::BODY_MODE_STATIC);
Transform transform = chunk->mesh_data_resource_get_transform(i);
transform *= offset;
PhysicsServer::get_singleton()->body_add_shape(body, shape->get_rid());
//TODO store the layer mask somewhere
PhysicsServer::get_singleton()->body_set_collision_layer(body, 1);
PhysicsServer::get_singleton()->body_set_collision_mask(body, 1);
if (chunk->get_voxel_world()->is_inside_tree() && chunk->get_voxel_world()->is_inside_world()) {
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Ref<World3D> world = chunk->get_voxel_world()->get_world();
if (world.is_valid() && world->get_space() != RID()) {
PhysicsServer::get_singleton()->body_set_space(body, world->get_space());
}
}
PhysicsServer::get_singleton()->body_set_state(body, PhysicsServer::BODY_STATE_TRANSFORM, chunk->get_transform() * transform);
chunk->collider_add(transform, shape, shape->get_rid(), body);
}
}
#endif
#if TOOLS_ENABLED
if (SceneTree::get_singleton()->is_debugging_collisions_hint() && chunk->collider_get_count() > 0) {
chunk->draw_debug_mdr_colliders();
}
#endif
set_build_phase_type(BUILD_PHASE_TYPE_NORMAL);
next_phase();
}
void VoxelPropJob::phase_prop() {
#ifdef MESH_DATA_RESOURCE_PRESENT
Ref<VoxelChunkDefault> chunk = _chunk;
if (!get_prop_mesher().is_valid()) {
set_complete(true); //So threadpool knows it's done
next_job();
return;
}
if (should_do()) {
if (chunk->mesh_data_resource_get_count() == 0) {
reset_stages();
set_complete(true); //So threadpool knows it's done
next_job();
return;
}
for (int i = 0; i < chunk->mesh_data_resource_get_count(); ++i) {
if (chunk->mesh_data_resource_get_is_inside(i)) {
get_prop_mesher()->add_mesh_data_resource_transform(chunk->mesh_data_resource_get(i), chunk->mesh_data_resource_get_transform(i), chunk->mesh_data_resource_get_uv_rect(i));
}
}
if (should_return()) {
return;
}
}
if (should_do()) {
if ((chunk->get_build_flags() & VoxelChunkDefault::BUILD_FLAG_USE_LIGHTING) != 0) {
get_prop_mesher()->bake_colors(_chunk);
}
if (should_return()) {
return;
}
}
if (should_do()) {
if ((chunk->get_build_flags() & VoxelChunkDefault::BUILD_FLAG_USE_LIGHTING) != 0) {
VoxelWorldDefault *world = Object::cast_to<VoxelWorldDefault>(chunk->get_voxel_world());
if (world) {
for (int i = 0; i < chunk->mesh_data_resource_get_count(); ++i) {
if (!chunk->mesh_data_resource_get_is_inside(i)) {
Ref<MeshDataResource> mdr = chunk->mesh_data_resource_get(i);
ERR_CONTINUE(!mdr.is_valid());
Transform trf = chunk->mesh_data_resource_get_transform(i);
Array arr = mdr->get_array();
if (arr.size() <= Mesh::ARRAY_VERTEX) {
continue;
}
PoolVector3Array varr = arr[Mesh::ARRAY_VERTEX];
if (varr.size() == 0) {
continue;
}
PoolColorArray carr = world->get_vertex_colors(trf, varr);
get_prop_mesher()->add_mesh_data_resource_transform_colored(mdr, trf, carr, chunk->mesh_data_resource_get_uv_rect(i));
}
}
}
}
}
if (get_prop_mesher()->get_vertex_count() == 0) {
reset_stages();
set_complete(true); //So threadpool knows it's done
next_job();
return;
}
#endif
reset_stages();
next_phase();
}
void VoxelPropJob::_physics_process(float delta) {
if (_phase == 0)
phase_physics_process();
}
void VoxelPropJob::_execute_phase() {
ERR_FAIL_COND(!_chunk.is_valid());
Ref<VoxelLibrary> library = _chunk->get_library();
ERR_FAIL_COND(!library.is_valid());
Ref<VoxelChunkDefault> chunk = _chunk;
if (!chunk.is_valid()
#ifdef MESH_DATA_RESOURCE_PRESENT
|| chunk->mesh_data_resource_get_count() == 0
#endif
) {
set_complete(true);
next_job();
return;
}
if (_phase == 1) {
phase_setup();
} else if (_phase == 2) {
phase_prop();
} else if (_phase == 3) {
phase_steps();
} else if (_phase > 3) {
set_complete(true); //So threadpool knows it's done
next_job();
ERR_FAIL_MSG("VoxelPropJob: _phase is too high!");
}
}
void VoxelPropJob::_reset() {
VoxelJob::_reset();
_build_done = false;
_phase = 0;
_current_job_step = 0;
_current_mesh = 0;
if (get_prop_mesher().is_valid()) {
get_prop_mesher()->reset();
get_prop_mesher()->set_library(_chunk->get_library());
}
set_build_phase_type(BUILD_PHASE_TYPE_PHYSICS_PROCESS);
}
void VoxelPropJob::phase_setup() {
Ref<VoxelLibrary> library = _chunk->get_library();
if (!library->supports_caching()) {
next_phase();
return;
}
if (library->supports_caching()) {
if (!_chunk->prop_material_cache_key_has()) {
library->prop_material_cache_get_key(_chunk);
if (!_chunk->prop_material_cache_key_has()) {
//chunk does not need a key
next_phase();
return;
}
}
Ref<VoxelMaterialCache> cache = library->prop_material_cache_get(_chunk->prop_material_cache_key_get());
//Note: without threadpool and threading none of this can happen, as cache will get initialized the first time a thread requests it!
while (!cache->get_initialized()) {
//Means it's currently merging the atlases on a different thread.
//Let's just wait
OS::get_singleton()->delay_usec(100);
}
#if MESH_DATA_RESOURCE_PRESENT
for (int i = 0; i < _chunk->mesh_data_resource_get_count(); ++i) {
Ref<Texture> tex = _chunk->mesh_data_resource_get_texture(i);
if (!tex.is_valid())
continue;
Rect2 r = cache->additional_texture_get_uv_rect(tex);
_chunk->mesh_data_resource_set_uv_rect(i, r);
}
#endif
}
next_phase();
if (should_return()) {
return;
}
}
void VoxelPropJob::phase_steps() {
Ref<VoxelChunkDefault> chunk = _chunk;
ERR_FAIL_COND(!_prop_mesher.is_valid());
if (should_return()) {
return;
}
if (_prop_mesher->get_vertex_count() == 0) {
reset_stages();
//next_phase();
set_complete(true); //So threadpool knows it's done
next_job();
return;
}
//set up the meshes
if (should_do()) {
RID mesh_rid = chunk->mesh_rid_get_index(VoxelChunkDefault::MESH_INDEX_PROP, VoxelChunkDefault::MESH_TYPE_INDEX_MESH, 0);
if (mesh_rid == RID()) {
//need to allocate the meshes
//first count how many we need
int count = 0;
for (int i = 0; i < _job_steps.size(); ++i) {
Ref<VoxelMesherJobStep> step = _job_steps[i];
ERR_FAIL_COND(!step.is_valid());
switch (step->get_job_type()) {
case VoxelMesherJobStep::TYPE_NORMAL:
++count;
break;
case VoxelMesherJobStep::TYPE_NORMAL_LOD:
++count;
break;
case VoxelMesherJobStep::TYPE_DROP_UV2:
++count;
break;
case VoxelMesherJobStep::TYPE_MERGE_VERTS:
++count;
break;
case VoxelMesherJobStep::TYPE_BAKE_TEXTURE:
++count;
break;
case VoxelMesherJobStep::TYPE_SIMPLIFY_MESH:
#ifdef MESH_UTILS_PRESENT
count += step->get_simplification_steps();
#endif
break;
default:
break;
}
}
//allocate
if (count > 0)
chunk->meshes_create(VoxelChunkDefault::MESH_INDEX_PROP, count);
} else {
//we have the meshes, just clear
int count = chunk->mesh_rid_get_count(VoxelChunkDefault::MESH_INDEX_PROP, VoxelChunkDefault::MESH_TYPE_INDEX_MESH);
for (int i = 0; i < count; ++i) {
mesh_rid = chunk->mesh_rid_get_index(VoxelChunkDefault::MESH_INDEX_PROP, VoxelChunkDefault::MESH_TYPE_INDEX_MESH, i);
if (RS::get_singleton()->mesh_get_surface_count(mesh_rid) > 0)
RS::get_singleton()->mesh_remove_surface(mesh_rid, 0);
}
}
}
for (; _current_job_step < _job_steps.size();) {
Ref<VoxelMesherJobStep> step = _job_steps[_current_job_step];
ERR_FAIL_COND(!step.is_valid());
switch (step->get_job_type()) {
case VoxelMesherJobStep::TYPE_NORMAL:
step_type_normal();
break;
case VoxelMesherJobStep::TYPE_NORMAL_LOD:
step_type_normal_lod();
break;
case VoxelMesherJobStep::TYPE_DROP_UV2:
step_type_drop_uv2();
break;
case VoxelMesherJobStep::TYPE_MERGE_VERTS:
step_type_merge_verts();
break;
case VoxelMesherJobStep::TYPE_BAKE_TEXTURE:
step_type_bake_texture();
break;
case VoxelMesherJobStep::TYPE_SIMPLIFY_MESH:
step_type_simplify_mesh();
break;
case VoxelMesherJobStep::TYPE_OTHER:
//do nothing
break;
}
++_current_job_step;
if (should_return()) {
return;
}
}
reset_stages();
//next_phase();
set_complete(true); //So threadpool knows it's done
next_job();
}
void VoxelPropJob::step_type_normal() {
//TODO add a lighting generation step
Ref<VoxelChunkDefault> chunk = _chunk;
temp_mesh_arr = _prop_mesher->build_mesh();
RID mesh_rid = chunk->mesh_rid_get_index(VoxelChunkDefault::MESH_INDEX_PROP, VoxelChunkDefault::MESH_TYPE_INDEX_MESH, _current_mesh);
RS::get_singleton()->mesh_add_surface_from_arrays(mesh_rid, RenderingServer::PRIMITIVE_TRIANGLES, temp_mesh_arr);
Ref<Material> lmat;
if (chunk->prop_material_cache_key_has()) {
lmat = chunk->get_library()->prop_material_cache_get(_chunk->prop_material_cache_key_get())->material_lod_get(_current_mesh);
} else {
lmat = chunk->get_library()->prop_material_lod_get(_current_mesh);
}
if (lmat.is_valid()) {
RenderingServer::get_singleton()->mesh_surface_set_material(mesh_rid, 0, lmat->get_rid());
}
++_current_mesh;
}
void VoxelPropJob::step_type_normal_lod() {
print_error("Error: step_type_normal_lod doesn't work for VoxelPropJobs!");
++_current_mesh;
}
void VoxelPropJob::step_type_drop_uv2() {
Ref<VoxelChunkDefault> chunk = _chunk;
RID mesh_rid = chunk->mesh_rid_get_index(VoxelChunkDefault::MESH_INDEX_PROP, VoxelChunkDefault::MESH_TYPE_INDEX_MESH, _current_mesh);
temp_mesh_arr[RenderingServer::ARRAY_TEX_UV2] = Variant();
RenderingServer::get_singleton()->mesh_add_surface_from_arrays(mesh_rid, RenderingServer::PRIMITIVE_TRIANGLES, temp_mesh_arr);
Ref<Material> lmat;
if (chunk->prop_material_cache_key_has()) {
lmat = chunk->get_library()->prop_material_cache_get(_chunk->prop_material_cache_key_get())->material_lod_get(_current_mesh);
} else {
lmat = chunk->get_library()->prop_material_lod_get(_current_mesh);
}
if (lmat.is_valid()) {
RenderingServer::get_singleton()->mesh_surface_set_material(mesh_rid, 0, lmat->get_rid());
}
++_current_mesh;
}
void VoxelPropJob::step_type_merge_verts() {
Array temp_mesh_arr2 = merge_mesh_array(temp_mesh_arr);
temp_mesh_arr = temp_mesh_arr2;
Ref<VoxelChunkDefault> chunk = _chunk;
RID mesh_rid = chunk->mesh_rid_get_index(VoxelChunkDefault::MESH_INDEX_PROP, VoxelChunkDefault::MESH_TYPE_INDEX_MESH, _current_mesh);
RenderingServer::get_singleton()->mesh_add_surface_from_arrays(mesh_rid, RenderingServer::PRIMITIVE_TRIANGLES, temp_mesh_arr);
Ref<Material> lmat;
if (chunk->prop_material_cache_key_has()) {
lmat = chunk->get_library()->prop_material_cache_get(_chunk->prop_material_cache_key_get())->material_lod_get(_current_mesh);
} else {
lmat = chunk->get_library()->prop_material_lod_get(_current_mesh);
}
if (lmat.is_valid()) {
RenderingServer::get_singleton()->mesh_surface_set_material(mesh_rid, 0, lmat->get_rid());
}
++_current_mesh;
}
void VoxelPropJob::step_type_bake_texture() {
Ref<VoxelChunkDefault> chunk = _chunk;
Ref<Material> lmat;
if (chunk->material_cache_key_has()) {
lmat = chunk->get_library()->material_cache_get(_chunk->material_cache_key_get())->material_lod_get(_current_mesh);
} else {
lmat = chunk->get_library()->material_lod_get(_current_mesh);
}
Ref<ShaderMaterial> mat = lmat;
Ref<SpatialMaterial> spmat = lmat;
Ref<Texture> tex;
if (mat.is_valid()) {
tex = mat->get_shader_param("texture_albedo");
} else if (spmat.is_valid()) {
tex = spmat->get_texture(SpatialMaterial::TEXTURE_ALBEDO);
}
if (tex.is_valid()) {
temp_mesh_arr = bake_mesh_array_uv(temp_mesh_arr, tex);
temp_mesh_arr[RenderingServer::ARRAY_TEX_UV] = Variant();
RID mesh_rid = chunk->mesh_rid_get_index(VoxelChunkDefault::MESH_INDEX_PROP, VoxelChunkDefault::MESH_TYPE_INDEX_MESH, _current_mesh);
RenderingServer::get_singleton()->mesh_add_surface_from_arrays(mesh_rid, RenderingServer::PRIMITIVE_TRIANGLES, temp_mesh_arr);
if (lmat.is_valid()) {
RenderingServer::get_singleton()->mesh_surface_set_material(mesh_rid, 0, lmat->get_rid());
}
}
++_current_mesh;
}
void VoxelPropJob::step_type_simplify_mesh() {
#ifdef MESH_UTILS_PRESENT
Ref<VoxelChunkDefault> chunk = _chunk;
Ref<VoxelMesherJobStep> step = _job_steps[_current_job_step];
ERR_FAIL_COND(!step.is_valid());
Ref<FastQuadraticMeshSimplifier> fqms = step->get_fqms();
ERR_FAIL_COND(!fqms.is_valid());
fqms->initialize(temp_mesh_arr);
for (int i = 0; i < step->get_simplification_steps(); ++i) {
fqms->simplify_mesh(temp_mesh_arr.size() * step->get_simplification_step_ratio(), step->get_simplification_agressiveness());
temp_mesh_arr = fqms->get_arrays();
RID mesh_rid = chunk->mesh_rid_get_index(VoxelChunkDefault::MESH_INDEX_PROP, VoxelChunkDefault::MESH_TYPE_INDEX_MESH, _current_mesh);
RenderingServer::get_singleton()->mesh_add_surface_from_arrays(mesh_rid, RenderingServer::PRIMITIVE_TRIANGLES, temp_mesh_arr);
Ref<Material> lmat;
if (chunk->prop_material_cache_key_has()) {
lmat = chunk->get_library()->prop_material_cache_get(_chunk->prop_material_cache_key_get())->material_lod_get(_current_mesh);
} else {
lmat = chunk->get_library()->prop_material_lod_get(_current_mesh);
}
if (lmat.is_valid()) {
RenderingServer::get_singleton()->mesh_surface_set_material(mesh_rid, 0, lmat->get_rid());
}
++_current_mesh;
}
#endif
}
VoxelPropJob::VoxelPropJob() {
set_build_phase_type(BUILD_PHASE_TYPE_PHYSICS_PROCESS);
_current_job_step = 0;
_current_mesh = 0;
}
VoxelPropJob::~VoxelPropJob() {
}
void VoxelPropJob::_bind_methods() {
ClassDB::bind_method(D_METHOD("get_prop_mesher"), &VoxelPropJob::get_prop_mesher);
ClassDB::bind_method(D_METHOD("set_prop_mesher", "mesher"), &VoxelPropJob::set_prop_mesher);
ADD_PROPERTY(PropertyInfo(Variant::OBJECT, "prop_mesher", PROPERTY_HINT_RESOURCE_TYPE, "VoxelMesher", 0), "set_prop_mesher", "get_prop_mesher");
ClassDB::bind_method(D_METHOD("get_jobs_step", "index"), &VoxelPropJob::get_jobs_step);
ClassDB::bind_method(D_METHOD("set_jobs_step", "index", "mesher"), &VoxelPropJob::set_jobs_step);
ClassDB::bind_method(D_METHOD("remove_jobs_step", "index"), &VoxelPropJob::remove_jobs_step);
ClassDB::bind_method(D_METHOD("add_jobs_step", "mesher"), &VoxelPropJob::add_jobs_step);
ClassDB::bind_method(D_METHOD("get_jobs_step_count"), &VoxelPropJob::get_jobs_step_count);
ClassDB::bind_method(D_METHOD("_physics_process", "delta"), &VoxelPropJob::_physics_process);
}