source: GTP/trunk/App/Demos/Illum/pathmap/SubEntity.cpp @ 2212

#include "dxstdafx.h"
#include ".\subentity.h"
#include "Entity.h"
#include "SubMesh.h"
#include "Mesh.h"
#include "PathMapEffect.h"
#include "DepthRenderStrategy.h"
#include "Radion.hpp"
#include "Transformed.h"
#include "L.h"
#include <queue>
#include <fstream>

#define NFINDNEARSAMPLES 100

SubEntity::SubEntity(Entity* parent, SubMesh* subMesh, int nNearClusters)
{
        this->parent = parent;
        this->subMesh = subMesh;
        this->nNearClusters = nNearClusters;

        LPDIRECT3DDEVICE9 device = subMesh->parent->pathMapEffect->device;

        prmxres = subMesh->parent->prmAtlasSize * nNearClusters;
        prmyres = subMesh->parent->prmAtlasSize;
        while(prmxres > 4096)
        {
                prmxres /= 2;
                prmyres *= 2;
                if(prmyres > 4096)
                {
                        MessageBoxA( NULL, "PRM too big", "Error", MB_OK);
                        exit(-1);
                }
        }

        device->CreateTexture(prmxres,  prmyres, 1, D3DUSAGE_RENDERTARGET,D3DFMT_A16B16G16R16F,D3DPOOL_DEFAULT,&prmTexture,NULL);
        prmTexture->GetSurfaceLevel(0,&prmSurface);

        createRayTraceEntity();
}

SubEntity::~SubEntity(void)
{
        prmTexture->Release();
        prmSurface->Release();
        delete rayTraceEntity;
}

void SubEntity::createRayTraceEntity()
{
        if(subMesh->rayTraceMesh)
        {
                rayTraceEntity = new Transformed(subMesh->rayTraceMesh);
                rayTraceEntity->setTransforms(parent->modelWorldTransform, parent->inverseTransposedModelWorldTransform);
        }
        else
                rayTraceEntity = NULL;

}

void SubEntity::renderPRM(      std::vector<Radion>& clusterRadions, unsigned int clusterId     )
{
        LPDIRECT3DDEVICE9 device = subMesh->parent->pathMapEffect->device;
        LPD3DXEFFECT effect = subMesh->parent->pathMapEffect->effect;

        HRESULT hr;     UINT nPasses=1;

        //# clusterId -> nearestIdx
        int radinx = 0xffffff;
        for(int i=0; i<nNearClusters; i++)
                if(nearClusterIndices[i] == clusterId)
                        radinx = i;
        if(radinx == 0xffffff)
                return;

/*      if(clusterId != 0)
                return;*/

        hr = device->SetRenderTarget(0, prmSurface);
        int tilex = radinx % (prmxres / subMesh->parent->prmAtlasSize);
        int tiley = radinx / (prmxres / subMesh->parent->prmAtlasSize);

        D3DVIEWPORT9 vp, defaultViewPort;
        vp.X = tilex * subMesh->parent->prmAtlasSize;                   vp.Y = tiley * subMesh->parent->prmAtlasSize;
        vp.Width = vp.Height = subMesh->parent->prmAtlasSize;
        vp.MinZ = 0.0; vp.MaxZ = 1.0;

        defaultViewPort.X = defaultViewPort.Y = 0;
        defaultViewPort.Width = defaultViewPort.Height = subMesh->parent->pathMapEffect->DEPTHMAPRES;

        //clear everything
        device->SetRenderTarget(0, prmSurface);
        device->SetDepthStencilSurface(NULL);
        device->SetViewport(&vp);

        DWORD ccol = D3DCOLOR_RGBA(0,0,0,0);
        device->Clear( 0, NULL, D3DCLEAR_TARGET,
                                                ccol, 1.0f, 0 );

        unsigned int nRadions = clusterRadions.size();
        for(int ir=0; ir < nRadions; ir++)
        {
                device->SetViewport(&defaultViewPort);
                DepthRenderStrategy depthRenderStrategy(subMesh->parent->pathMapEffect);

                depthRenderStrategy.camera.SetViewParams((D3DXVECTOR3*)&clusterRadions[ir].position, (D3DXVECTOR3*)&(clusterRadions[ir].position + clusterRadions[ir].normal));
                depthRenderStrategy.camera.SetProjParams( D3DX_PI/1.9, 1.0f, 0.1f, 300.0f ); //#WARN scene size!

                subMesh->parent->pathMapEffect->renderScene(depthRenderStrategy);

                // blend-add contribution of virtual light source to PRM
                device->SetRenderTarget(0, prmSurface);
                device->SetDepthStencilSurface(NULL);
                device->SetViewport(&vp);
                device->SetRenderState(D3DRS_CULLMODE,  D3DCULL_NONE);
                device->SetRenderState(D3DRS_ALPHABLENDENABLE,  true);
                device->SetRenderState(D3DRS_SRCBLEND, D3DBLEND_ONE);
                device->SetRenderState(D3DRS_DESTBLEND, D3DBLEND_ONE);
                device->SetRenderState(D3DRS_BLENDOP, D3DBLENDOP_ADD);
                device->SetRenderState(D3DRS_ZENABLE, D3DZB_FALSE);

                if( SUCCEEDED( device->BeginScene() ) )
                {
                        Radion radion = clusterRadions[ir];

                        if( effect != NULL ){
                                D3DXHANDLE hTechnique = effect->GetTechniqueByName((LPSTR)"BushToAtlas");
                                if(hTechnique==NULL){
                                        return;
                                }
                                effect->SetTechnique( hTechnique );
                                
                                effect->Begin( &nPasses, 0 );
                                for(UINT j=0;j<nPasses;j++){
                                        effect->BeginPass(j);

                                        hr=effect->SetFloatArray("lightPos", (float*)&clusterRadions[ir].position, 3);
                                        hr=effect->SetFloatArray("lightDir", (float*)&clusterRadions[ir].normal, 3);
                                        static float opttme[9] = {0.5f, 0.0f, 0.0f,
                                                                                        0.0f, -0.5f, 0.0f,
                                                                                        0.5f + (0.5f / subMesh->parent->pathMapEffect->DEPTHMAPRES), 0.5f + (0.5f / subMesh->parent->pathMapEffect->DEPTHMAPRES), 1.0f};
                                        effect->SetTexture("depthMap", subMesh->parent->pathMapEffect->depthMapTexture);

                                        float acs = 4096.0f / nRadions;
                                        effect->SetFloat("alphaCounterStep", acs);

                                        Vector bb0 = this->rayTraceEntity->bbox.minPoint;
                                        Vector bb1 = this->rayTraceEntity->bbox.maxPoint;
                                        float nne = 5.0f / clusterRadions[ir].probability;
                                        effect->SetFloat("cutNearness2", nne);
                                        
                                        //set global params
                                        effect->SetFloatArray("occProjToTexMatrix", opttme, 9);
                                        effect->SetMatrix("occWorldToProjMatrix", &(*depthRenderStrategy.camera.GetViewMatrix() * *depthRenderStrategy.camera.GetProjMatrix()));
                                        effect->SetMatrix("modelToWorldMatrix", &(parent->modelWorldTransform));
                                        effect->SetMatrix("inverseTransposedModelToWorldMatrix", &(parent->inverseTransposedModelWorldTransform));
                                        Vector scaledPower = clusterRadions[ir].radiance;
                                        hr=effect->SetFloatArray("lightPower", (float*)&scaledPower, 3);
                                        
                                        effect->CommitChanges();
                                        subMesh->drawToAtlas();

                                        effect->EndPass();
                                }
                                effect->End();
                        }
                        device->EndScene();

                }
                device->SetRenderState(D3DRS_CULLMODE,  D3DCULL_CCW);
                device->SetRenderState(D3DRS_ALPHABLENDENABLE,  false);
                device->SetRenderState(D3DRS_ZENABLE, D3DZB_TRUE);
        }
}

void SubEntity::normalizePRM()
{
        LPDIRECT3DDEVICE9 device = subMesh->parent->pathMapEffect->device;
        LPD3DXEFFECT effect = subMesh->parent->pathMapEffect->effect;

        device->SetRenderTarget(0, prmSurface);
        device->SetDepthStencilSurface(NULL);

        device->SetRenderState(D3DRS_ZENABLE, D3DZB_FALSE);
        if( SUCCEEDED( device->BeginScene() ) )
        {
                HRESULT dfdghr = effect->SetTechnique("NormalizePRM");
                UINT nPasses;
                effect->Begin(&nPasses, 0);
                effect->BeginPass(0);

                dfdghr = effect->SetTexture("atlas", prmTexture);
                effect->CommitChanges();

                subMesh->parent->pathMapEffect->renderFullScreen();

                effect->EndPass();
                effect->End();
                device->EndScene();
        }
        device->SetRenderState(D3DRS_ZENABLE, D3DZB_TRUE);
}

void SubEntity::clearPRM()
{
        LPDIRECT3DDEVICE9 device = subMesh->parent->pathMapEffect->device;
        LPD3DXEFFECT effect = subMesh->parent->pathMapEffect->effect;

        device->SetRenderTarget(0, prmSurface);
        device->SetDepthStencilSurface(NULL);

        device->Clear(0, NULL, D3DCLEAR_TARGET, D3DCOLOR_ARGB(0, 0, 0, 0), 1.0, 0);
}

struct ClusterDist2{
        unsigned int index;
        double dist2;
        ClusterDist2(unsigned int index, double dist2) {this->index = index; this->dist2 = dist2;}
        bool operator<(const ClusterDist2& o) const {return dist2 > o.dist2;}
        bool operator>(const ClusterDist2& o) const {return dist2 < o.dist2;}
        bool operator<=(const ClusterDist2& o) const {return dist2 >= o.dist2;}
        bool operator>=(const ClusterDist2& o) const {return dist2 <= o.dist2;}
};


void SubEntity::findNearClusters(const std::vector<Radion>& starters, unsigned int nClusters)
{
        D3DXVECTOR3 cc = (D3DXVECTOR3&)rayTraceEntity->bbox.getCentre();

        Radion slabRadions[NFINDNEARSAMPLES];
        for(int c=0; c < NFINDNEARSAMPLES; c++)
        {
                rayTraceEntity->sampleSurface(slabRadions[c]);
        }

        std::priority_queue<ClusterDist2> nearestClusterDists;

        unsigned int iRadion = 0;
        for(unsigned int iCluster = 0; iCluster < subMesh->parent->pathMapEffect->NCLUSTERS; iCluster++)
        {
                unsigned int nRadionsPerCluster = subMesh->parent->pathMapEffect->clusterLenghts[iCluster];
                double ffsum = 0.0;
                for(unsigned int iric=0; iric < nRadionsPerCluster; iric++, iRadion++)
                {
                        for(int ci=0; ci<NFINDNEARSAMPLES; ci++)
                        {
                                //ffsum += starters[iRadion].getFormFactorTo(slabRadions[ci]);
                                ffsum += 1.0 / (starters[iRadion].position - slabRadions[ci].position).norm2();
                        }
                }
                nearestClusterDists.push( ClusterDist2(iCluster, nRadionsPerCluster / ffsum) );
        }
        for(unsigned int i=0; i<nNearClusters; i++)
        {
//              nearClusterIndices[i] = nNearClusters - 1 - i;
                nearClusterIndices[i] = nearestClusterDists.top().index;
                nearestClusterDists.pop();
        }
}

void SubEntity::draw(const RenderStrategy& renderStrategy)
{
        renderStrategy.applyTextures(this);
        subMesh->draw();
}

float SubEntity::getSurfaceArea()
{
        return rayTraceEntity->getSurfaceArea();
}

void SubEntity::savePRM()
{
        char prmFileName[300];
        sprintf(prmFileName, "%s/%s_%d.dds", LC::c-subMesh->parent->pathMapEffect->prmDirectory, parent->prmFileName, subMesh->subsetId);
        D3DXSaveSurfaceToFile(L::l+prmFileName, D3DXIFF_DDS, prmSurface, NULL, NULL);
}

void SubEntity::loadPRM()
{
        char prmFileName[300];
        sprintf(prmFileName, "%s/%s_%d.dds", LC::c-subMesh->parent->pathMapEffect->prmDirectory, parent->prmFileName, subMesh->subsetId);
        D3DXLoadSurfaceFromFile(prmSurface, NULL, NULL, L::l+prmFileName, NULL, D3DX_DEFAULT, 0, NULL);
}

Intersectable* SubEntity::getRayTraceEntity()
{
        return rayTraceEntity;
}

const Material* SubEntity::sampleSurface(Radion& sample)
{
        rayTraceEntity->sampleSurface(sample);
        return rayTraceEntity->getMaterial();
}

void SubEntity::saveSceneInfo(std::ofstream& psf)
{
        psf << "\t\tsubentity " << subMesh->subsetId << " clusters ";
        for(int buu=0; buu<nNearClusters; buu++)
                psf << nearClusterIndices[buu] << ' ';
        psf << '\n';
}