void ColoredCubeApp::drawScene()
{
D3DApp::drawScene();
// Restore default states, input layout and primitive topology
// because mFont->DrawText changes them. Note that we can
// restore the default states by passing null.
md3dDevice->OMSetDepthStencilState(0, 0);
float blendFactors[] = {0.0f, 0.0f, 0.0f, 0.0f};
md3dDevice->OMSetBlendState(0, blendFactors, 0xffffffff);
md3dDevice->IASetInputLayout(mVertexLayout);
// set some variables for the shader
int foo[1];
foo[0] = 0;
// set the point to the shader technique
D3D10_TECHNIQUE_DESC techDesc;
mTech->GetDesc(&techDesc);
//setting the color flip variable in the shader
mfxFLIPVar->SetRawValue(&foo[0], 0, sizeof(int));
rightWall.draw(mView, mProj, mTech);
//floor.draw(mView, mProj, mTech);
leftWall.draw(mView, mProj, mTech);
//ceiling.draw(mView, mProj, mTech);
shootCube.draw(mView, mProj, mTech);
hitCubes->draw(mView,mProj,mTech);
avoidCubes->draw(mView,mProj,mTech);
//for(int i = 0; i < 20; i++)
//{
// tiles[i].draw(mView, mProj, mTech);
// //wall[i].draw(mView,mProj,mTech);
//}
//draw the origin
origin.draw(mView, mProj, mTech);
// We specify DT_NOCLIP, so we do not care about width/height of the rect.
RECT R = {5, 5, 0, 0};
mFont->DrawText(0, mTimer.c_str(), -1, &R, DT_NOCLIP, BLUE);
mSwapChain->Present(0, 0);
}
void ColoredCubeApp::drawScene()
{
D3DApp::drawScene();
// Restore default states, input layout and primitive topology
// because mFont->DrawText changes them. Note that we can
// restore the default states by passing null.
md3dDevice->OMSetDepthStencilState(0, 0);
float blendFactors[] = {0.0f, 0.0f, 0.0f, 0.0f};
md3dDevice->OMSetBlendState(0, blendFactors, 0xffffffff);
md3dDevice->IASetInputLayout(mVertexLayout);
mfxEyePosVar->SetRawValue(&player.getPosition(), 0, sizeof(D3DXVECTOR3));
//set the number of lights to use
mfxNumLights->SetInt(numLights);
// set the light array
lights[0] = flashLightObject.lightSource;
//lights[2] = lightObject1.getLight();
if(gamestate == level2)
{
for(int i = 0; i < ghosts.getNumEnemies(); i++)
{
lights[2+i] = ghosts.getEnemies()[i].getLight();
}
}
for(int i = 0; i < numLightObjects; i++)
{
lights[2+ghosts.getNumEnemies()+i] = lamps[i].getLight();
}
lights[numLights-1] = endLight;
mfxLightVar->SetRawValue(&lights[0], 0, numLights*sizeof(Light));
// Don't transform texture coordinates, so just use identity transformation.
D3DXMATRIX texMtx;
D3DXMatrixIdentity(&texMtx);
mfxTexMtxVar->SetMatrix((float*)&texMtx);
// set the point to the shader technique
D3D10_TECHNIQUE_DESC techDesc;
mTech->GetDesc(&techDesc);
//draw the maze
maze.draw(mTech,mView,mProj);
//draw the keys
if(gamestate == level1)
{
for(int i = 0; i < totalKeys; i++)
{
keyObject[i].draw(mView,mProj,mTech);
}
}
//draw the end cube
endCube.draw(mView,mProj,mTech);
//draw the origin
origin.draw(mView, mProj, mTech);
for(int i = 0; i < numLightObjects; i++)
{
lamps[i].draw(mView,mProj,mTech);
}
for(int i = 0; i < numBatteries; i++)
{
batteries[i].draw(mView,mProj,mTechColor2);
}
//flashLightObject.draw(mView,mProj,mTechColor2);
//flashLightObject.hitBox.draw(mView,mProj,mTechColor2);
//batteryObject.draw(mView,mProj,mTechColor2);
//player.draw(mView,mProj,mTechColor2);
ghosts.draw(mView,mProj,mTech);
/*floor.draw(mView, mProj, mTech);
wall1.draw(mView, mProj, mTech);
wall2.draw(mView, mProj, mTech);
wall3.draw(mView, mProj, mTech);
wall4.draw(mView, mProj, mTech);*/
//lightObject1.draw(mView,mProj,mTech);
// We specify DT_NOCLIP, so we do not care about width/height of the rect.
RECT R = {5, 5, 0, 0};
mFont->DrawText(0, mTimer.c_str(), -1, &R, DT_NOCLIP, BLUE);
mSwapChain->Present(0, 0);
}