425 lines
11 KiB
C++
425 lines
11 KiB
C++
/*
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Copyright (c) 2013 yvt
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This file is part of OpenSpades.
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OpenSpades is free software: you can redistribute it and/or modify
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it under the terms of the GNU General Public License as published by
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the Free Software Foundation, either version 3 of the License, or
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(at your option) any later version.
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OpenSpades is distributed in the hope that it will be useful,
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but WITHOUT ANY WARRANTY; without even the implied warranty of
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MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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GNU General Public License for more details.
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You should have received a copy of the GNU General Public License
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along with OpenSpades. If not, see <http://www.gnu.org/licenses/>.
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*/
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#include "GLAmbientShadowRenderer.h"
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#include "GLRenderer.h"
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#include "../Client/GameMap.h"
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#include <stdlib.h>
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#include "GLProfiler.h"
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#include "../Core/ConcurrentDispatch.h"
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namespace spades {
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namespace draw {
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class GLAmbientShadowRenderer::UpdateDispatch:
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public ConcurrentDispatch{
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GLAmbientShadowRenderer *renderer;
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public:
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volatile bool done;
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UpdateDispatch(GLAmbientShadowRenderer *r):
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renderer(r){
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done = false;
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}
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virtual void Run() {
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SPADES_MARK_FUNCTION();
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renderer->UpdateDirtyChunks();
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done = true;
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}
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};
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GLAmbientShadowRenderer::GLAmbientShadowRenderer(GLRenderer *r,
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client::GameMap *m):
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renderer(r), device(r->GetGLDevice()), map(m){
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SPADES_MARK_FUNCTION();
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for(int i = 0; i < NumRays; i++){
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Vector3 dir = MakeVector3(GetRandom(),
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GetRandom(),
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GetRandom());
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dir = dir.Normalize();
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rays[i] = dir;
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}
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w = map->Width();
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h = map->Height();
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d = map->Depth();
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chunkW = w / ChunkSize;
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chunkH = h / ChunkSize;
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chunkD = d / ChunkSize;
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chunks.resize(chunkW * chunkH * chunkD);
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for(int i = 0; i < chunks.size(); i++){
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Chunk& c = chunks[i];
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c.dirty = true;
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c.dirtyMinX = 0;
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c.dirtyMinY = 0;
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c.dirtyMinZ = 0;
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c.dirtyMaxX = ChunkSize - 1;
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c.dirtyMaxY = ChunkSize - 1;
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c.dirtyMaxZ = ChunkSize - 1;
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c.transfered = true;
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float *data = (float *)c.data;
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std::fill(data, data + ChunkSize*ChunkSize*ChunkSize,
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1.f);
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}
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for(int x = 0; x < chunkW; x++)
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for(int y = 0; y < chunkH; y++)
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for(int z = 0; z < chunkD; z++){
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Chunk& c = GetChunk(x, y, z);
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c.cx = x; c.cy = y; c.cz = z;
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}
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SPLog("Chunk buffer allocated (%d bytes)",
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sizeof(Chunk) * chunkW * chunkH * chunkD);
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// make texture
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texture = device->GenTexture();
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device->BindTexture(IGLDevice::Texture3D, texture);
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device->TexParamater(IGLDevice::Texture3D,
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IGLDevice::TextureMagFilter,
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IGLDevice::Linear);
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device->TexParamater(IGLDevice::Texture3D,
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IGLDevice::TextureMinFilter,
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IGLDevice::Linear);
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device->TexParamater(IGLDevice::Texture3D,
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IGLDevice::TextureWrapS,
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IGLDevice::Repeat);
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device->TexParamater(IGLDevice::Texture3D,
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IGLDevice::TextureWrapT,
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IGLDevice::Repeat);
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device->TexParamater(IGLDevice::Texture3D,
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IGLDevice::TextureWrapR,
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IGLDevice::ClampToEdge);
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device->TexImage3D(IGLDevice::Texture3D, 0,
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IGLDevice::Red,
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w, h, d+1, 0,
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IGLDevice::Red,
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IGLDevice::FloatType,
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NULL);
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SPLog("Chunk texture allocated");
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std::vector<float> v;
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v.resize(w * h);
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std::fill(v.begin(), v.end(),
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1.f);
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for(int i = 0; i < d + 1; i++){
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device->TexSubImage3D(IGLDevice::Texture3D,
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0, 0, 0, i,
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w, h, 1,
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IGLDevice::Red,
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IGLDevice::FloatType,
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v.data());
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}
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SPLog("Chunk texture initialized");
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dispatch = NULL;
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}
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GLAmbientShadowRenderer::~GLAmbientShadowRenderer() {
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SPADES_MARK_FUNCTION();
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if(dispatch){
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dispatch->Join();
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delete dispatch;
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}
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device->DeleteTexture(texture);
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}
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float GLAmbientShadowRenderer::Evaluate(IntVector3 ipos) {
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SPADES_MARK_FUNCTION_DEBUG();
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float sum = 0;
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Vector3 pos = MakeVector3((float)ipos.x, (float)ipos.y, (float)ipos.z);
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float muzzleDiff = 0.02f;
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// check allowed ray direction
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uint8_t directions[8] = {
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0, 1, 2, 3, 4, 5, 6, 7
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};
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int numDirections = 0;
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for(int x = -1; x <= 0; x++)
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for(int y = -1; y <= 0; y++)
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for(int z = -1; z <= 0; z++){
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if(!map->IsSolidWrapped(ipos.x+x, ipos.y+y, ipos.z+z)){
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unsigned int bits = 0;
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if(x) bits |= 1;
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if(y) bits |= 2;
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if(z) bits |= 4;
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directions[numDirections++] = bits;
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}
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}
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if(numDirections == 0)
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numDirections = 8;
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int dirId = 0;
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for(int i = 0; i < NumRays; i++){
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Vector3 dir = rays[i];
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unsigned int bits = directions[dirId];
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if(bits & 1)
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dir.x = -dir.x;
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if(bits & 2)
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dir.y = -dir.y;
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if(bits & 4)
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dir.z = -dir.z;
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dirId++;
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if(dirId >= numDirections)
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dirId = 0;
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Vector3 muzzle = pos + dir * muzzleDiff;
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IntVector3 hitBlock;
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float brightness = 1.f;
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if(map->IsSolidWrapped((int)floorf(muzzle.x),
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(int)floorf(muzzle.y),
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(int)floorf(muzzle.z))){
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if(numDirections < 8)
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SPAssert(false);
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continue;
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}
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if(map->CastRay(muzzle, dir, 18.f, hitBlock)){
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Vector3 centerPos = MakeVector3(hitBlock.x + .5f,
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hitBlock.y + .5f,
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hitBlock.z + .5f);
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float dist = (centerPos - muzzle).GetPoweredLength();
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brightness = dist * 0.02f; // 1/7/7
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if(brightness > 1.f)
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brightness = 1.f;
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}
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sum += brightness;
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}
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sum *= 1.f / (float)NumRays;
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sum *= (float)numDirections / 4.f;
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return sum;
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}
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void GLAmbientShadowRenderer::GameMapChanged(int x, int y, int z, client::GameMap * map){
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SPADES_MARK_FUNCTION_DEBUG();
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if(map != this->map)
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return;
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Invalidate(x - 8, y - 8, z - 8,
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x + 8, y + 8, z + 8);
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}
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void GLAmbientShadowRenderer::Invalidate(int minX, int minY, int minZ,
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int maxX, int maxY, int maxZ) {
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SPADES_MARK_FUNCTION_DEBUG();
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if(minZ < 0) minZ = 0;
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if(maxZ > d-1) maxZ = d-1;
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if(minX > maxX ||
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minY > maxY ||
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minZ > maxZ)
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return;
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// these should be floor div
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int cx1 = minX >> ChunkSizeBits;
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int cy1 = minY >> ChunkSizeBits;
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int cz1 = minZ >> ChunkSizeBits;
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int cx2 = maxX >> ChunkSizeBits;
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int cy2 = maxY >> ChunkSizeBits;
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int cz2 = maxZ >> ChunkSizeBits;
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for(int cx = cx1; cx <= cx2; cx++)
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for(int cy = cy1; cy <= cy2; cy++)
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for(int cz = cz1; cz <= cz2; cz++) {
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Chunk& c = GetChunkWrapped(cx, cy, cz);
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int originX = cx * ChunkSize;
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int originY = cy * ChunkSize;
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int originZ = cz * ChunkSize;
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int inMinX = std::max(minX - originX, 0);
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int inMinY = std::max(minY - originY, 0);
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int inMinZ = std::max(minZ - originZ, 0);
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int inMaxX = std::min(maxX - originX, ChunkSize-1);
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int inMaxY = std::min(maxY - originY, ChunkSize-1);
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int inMaxZ = std::min(maxZ - originZ, ChunkSize-1);
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if(!c.dirty){
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c.dirtyMinX = inMinX;
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c.dirtyMinY = inMinY;
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c.dirtyMinZ = inMinZ;
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c.dirtyMaxX = inMaxX;
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c.dirtyMaxY = inMaxY;
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c.dirtyMaxZ = inMaxZ;
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c.dirty = true;
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}else{
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c.dirtyMinX = std::min(inMinX, c.dirtyMinX);
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c.dirtyMinY = std::min(inMinY, c.dirtyMinY);
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c.dirtyMinZ = std::min(inMinZ, c.dirtyMinZ);
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c.dirtyMaxX = std::max(inMaxX, c.dirtyMaxX);
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c.dirtyMaxY = std::max(inMaxY, c.dirtyMaxY);
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c.dirtyMaxZ = std::max(inMaxZ, c.dirtyMaxZ);
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}
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}
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}
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int GLAmbientShadowRenderer::GetNumDirtyChunks() {
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int cnt = 0;
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for(int i = 0; i < chunks.size(); i++){
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Chunk& c = chunks[i];
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if(c.dirty) cnt++;
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}
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return cnt;
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}
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void GLAmbientShadowRenderer::Update() {
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if(GetNumDirtyChunks() > 0 &&
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(dispatch == NULL || dispatch->done)){
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if(dispatch){
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dispatch->Join();
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delete dispatch;
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}
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dispatch = new UpdateDispatch(this);
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dispatch->Start();
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}
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int cnt = 0;
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for(int i = 0; i < chunks.size(); i++) {
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if(!chunks[i].transfered)
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cnt++;
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}
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GLProfiler profiler(device, "Large Ambient Occlusion [>= %d chunk(s)]", cnt);
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device->BindTexture(IGLDevice::Texture3D, texture);
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for(int i = 0; i < chunks.size(); i++){
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Chunk& c = chunks[i];
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if(!c.transfered){
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c.transfered = true;
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device->TexSubImage3D(IGLDevice::Texture3D,
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0,
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c.cx * ChunkSize,
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c.cy * ChunkSize,
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c.cz * ChunkSize + 1,
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ChunkSize,
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ChunkSize,
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ChunkSize,
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IGLDevice::Red,
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IGLDevice::FloatType,
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c.data);
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}
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}
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}
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void GLAmbientShadowRenderer::UpdateDirtyChunks() {
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int dirtyChunkIds[256];
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int numDirtyChunks = 0;
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int nearDirtyChunks = 0;
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// first, check only chunks in near range
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Vector3 eyePos = renderer->GetSceneDef().viewOrigin;
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int eyeX = (int)(eyePos.x) >> ChunkSizeBits;
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int eyeY = (int)(eyePos.y) >> ChunkSizeBits;
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int eyeZ = (int)(eyePos.z) >> ChunkSizeBits;
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for(int i = 0; i < chunks.size(); i++){
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Chunk& c = chunks[i];
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int dx = (c.cx - eyeX) & (chunkW - 1);
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int dy = (c.cy - eyeY) & (chunkH - 1);
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int dz = (c.cz - eyeZ);
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if(dx >= 6 && dx <= chunkW - 6)
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continue;
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if(dy >= 6 && dy <= chunkW - 6)
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continue;
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if(dz >= 6 || dz <= -6)
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continue;
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if(c.dirty){
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dirtyChunkIds[numDirtyChunks++] = i;
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nearDirtyChunks++;
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if(numDirtyChunks >= 256)
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break;
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}
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}
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// far chunks
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if(numDirtyChunks == 0){
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for(int i = 0; i < chunks.size(); i++){
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Chunk& c = chunks[i];
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if(c.dirty){
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dirtyChunkIds[numDirtyChunks++] = i;
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if(numDirtyChunks >= 256)
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break;
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}
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}
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}
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// limit update count per frame
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for(int i = 0; i < 8; i++){
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if(numDirtyChunks <= 0)
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break;
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int idx = rand() % numDirtyChunks;
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Chunk& c = chunks[dirtyChunkIds[idx]];
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// remove from list (fast)
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if(idx < numDirtyChunks - 1){
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std::swap(dirtyChunkIds[idx], dirtyChunkIds[numDirtyChunks - 1]);
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}
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numDirtyChunks--;
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UpdateChunk(c.cx, c.cy, c.cz);
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}
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/*
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printf("%d (%d near) chunk update left\n",
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GetNumDirtyChunks(), nearDirtyChunks);*/
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}
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void GLAmbientShadowRenderer::UpdateChunk(int cx, int cy, int cz) {
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Chunk& c = GetChunk(cx, cy, cz);
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if(!c.dirty)
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return;
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int originX = cx * ChunkSize;
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int originY = cy * ChunkSize;
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int originZ = cz * ChunkSize;
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for(int z = c.dirtyMinZ; z <= c.dirtyMaxZ; z++)
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for(int y = c.dirtyMinY; y <= c.dirtyMaxY; y++)
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for(int x = c.dirtyMinX; x <= c.dirtyMaxX; x++)
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{
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IntVector3 pos;
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pos.x = (x + originX);
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pos.y = (y + originY);
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pos.z = (z + originZ);
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c.data[z][y][x] = Evaluate(pos);
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}
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c.dirty = false;
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c.transfered = false;
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}
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}
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}
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