//*******************************************************************************
void CWaterEnvMap::renderTestMesh(IDriver &driver)
{
doInit();
CMaterial testMat;
testMat.setLighting(false);
testMat.texEnvOpRGB(0, CMaterial::Modulate);
testMat.texEnvArg0RGB(0, CMaterial::Texture, CMaterial::SrcColor);
testMat.texEnvArg0RGB(1, CMaterial::Diffuse, CMaterial::SrcColor);
testMat.texEnvOpAlpha(0, CMaterial::Replace);
testMat.texEnvArg0Alpha(0, CMaterial::Constant, CMaterial::SrcAlpha);
testMat.texConstantColor(0, CRGBA(255, 255, 255, 255));
testMat.setDoubleSided(true);
testMat.setZWrite(false);
testMat.setZFunc(CMaterial::always);
// tmp : test cubemap
driver.activeVertexProgram(&testMeshVP);
driver.activeVertexBuffer(_TestVB);
driver.activeIndexBuffer(_TestIB);
driver.setConstantMatrix(0, IDriver::ModelViewProjection, IDriver::Identity); // tmp
_MaterialPassThruZTest.setTexture(0, _EnvCubic);
driver.setConstantMatrix(0, IDriver::ModelViewProjection, IDriver::Identity);
driver.setConstant(4, 2.f, 1.f, 0.f, 0.f);
//driver.renderTriangles(testMat, 0, TEST_VB_NUM_TRIS);
driver.renderTriangles(_MaterialPassThruZTest, 0, TEST_VB_NUM_TRIS);
driver.activeVertexProgram(NULL);
}
//*******************************************************************************
void CWaterEnvMap::update(TGlobalAnimationTime time, IDriver &driver)
{
if (_LastRenderTime == time) return;
_LastRenderTime = time;
// First five updates are used to render the cubemap faces (bottom face is not rendered)
// Sixth update project the cubemap into a 2D texture
uint numTexToRender;
if (_UpdateTime > 0)
{
uint64 currRenderTick = (uint64) (time / (_UpdateTime / (NUM_FACES_TO_RENDER + 1)));
numTexToRender = (uint) (currRenderTick - _LastRenderTick);
_LastRenderTick = currRenderTick;
}
else
{
numTexToRender = NUM_FACES_TO_RENDER + 1;
}
if (!numTexToRender) return;
if (_NumRenderedFaces == 0)
{
_StartRenderTime = time;
}
uint lastCubeFacesToRender = std::min((uint) NUM_FACES_TO_RENDER, _NumRenderedFaces + numTexToRender); // we don't render negative Z (only top hemisphere is used)
for(uint k = _NumRenderedFaces; k < lastCubeFacesToRender; ++k)
{
driver.setRenderTarget(_EnvCubic, 0, 0, _EnvCubicSize, _EnvCubicSize, 0, (uint32) k);
render((CTextureCube::TFace) k, _StartRenderTime);
}
_NumRenderedFaces = lastCubeFacesToRender;
if (_NumRenderedFaces == NUM_FACES_TO_RENDER && (_NumRenderedFaces + numTexToRender) > NUM_FACES_TO_RENDER)
{
// render to 2D map
driver.setRenderTarget(_Env2D, 0, 0, _Env2DSize, _Env2DSize);
doInit();
//
driver.activeVertexProgram(NULL);
driver.activeVertexBuffer(_FlattenVB);
driver.activeIndexBuffer(_FlattenIB);
driver.setFrustum(-1.f, 1.f, -1.f, 1.f, 0.f, 1.f, false);
driver.setupViewMatrix(CMatrix::Identity);
CMatrix mat;
//mat.scale(0.8f);
driver.setupModelMatrix(mat);
_MaterialPassThru.setTexture(0, _EnvCubic);
_MaterialPassThru.texConstantColor(0, CRGBA(255, 255, 255, _Alpha));
driver.renderTriangles(_MaterialPassThru, 0, FVB_NUM_TRIS);
_NumRenderedFaces = 0; // start to render again
}
driver.setRenderTarget(NULL);
}
