virtual void execute (CCtrlBase * /* pCaller */, const string &/* Params */)
{
static bool minimized= false;
minimized= !minimized;
if(minimized)
{
CViewport vp;
vp.init(0, 0, 0.1f, 0.1f);
Scene->setViewport(vp);
}
else
{
CViewport vp;
vp.initFullScreen();
Scene->setViewport(vp);
}
}
void initInventoryDisplay ()
{
ConfigFile.setCallback ("InventoryDisplayState", cbUpdateInventoryDisplay);
if (ShowDebugInChat) nlinfo("Init Inventory Display (state)=%d", InventoryState);
//
// Setup the inventory scene
//
InventoryScene = Driver->createScene();
CViewport v;
v.init (0.0f, 0.0f, 1.0f, 1.0f);
InventoryScene->setViewport (v);
uint32 width, height;
Driver->getWindowSize (width, height);
ScreenWidth = (float) width;
ScreenHeight = (float) height;
SelectedTexture = Driver->createTextureFile ("selectedIcon.tga");
// invSelectPS = InventoryScene->createInstance( "invselect.ps" );
// invSelectPS->hide();
}
// TMP TMP
void tempDumpColPolys()
{
CPackedWorld *pw = R2::getEditor().getIslandCollision().getPackedIsland();
if (pw)
{
static CMaterial material;
static CMaterial wiredMaterial;
static CMaterial texturedMaterial;
static CVertexBuffer vb;
static bool initDone = false;
if (!initDone)
{
vb.setVertexFormat(CVertexBuffer::PositionFlag);
vb.setPreferredMemory(CVertexBuffer::AGPVolatile, false);
material.initUnlit();
material.setDoubleSided(true);
material.setZFunc(CMaterial::lessequal);
wiredMaterial.initUnlit();
wiredMaterial.setDoubleSided(true);
wiredMaterial.setZFunc(CMaterial::lessequal);
wiredMaterial.setColor(CRGBA(255, 255, 255, 250));
wiredMaterial.texEnvOpAlpha(0, CMaterial::Replace);
wiredMaterial.texEnvArg0Alpha(0, CMaterial::Diffuse, CMaterial::SrcAlpha);
wiredMaterial.setBlend(true);
wiredMaterial.setBlendFunc(CMaterial::srcalpha, CMaterial::invsrcalpha);
texturedMaterial.initUnlit();
texturedMaterial.setDoubleSided(true);
texturedMaterial.setZFunc(CMaterial::lessequal);
initDone = true;
}
// just add a projected texture
R2::getEditor().getIslandCollision().loadEntryPoints();
R2::CScenarioEntryPoints &sep = R2::CScenarioEntryPoints::getInstance();
CVectorD playerPos = UserEntity->pos();
R2::CScenarioEntryPoints::CCompleteIsland *island = sep.getCompleteIslandFromCoords(CVector2f((float) playerPos.x, (float) playerPos.y));
static CSString currIsland;
if (island && island->Island != currIsland)
{
currIsland = island->Island;
CTextureFile *newTex = new CTextureFile(currIsland + "_sp.tga");
newTex->setWrapS(ITexture::Clamp);
newTex->setWrapT(ITexture::Clamp);
texturedMaterial.setTexture(0, newTex);
texturedMaterial.texEnvOpRGB(0, CMaterial::Replace);
texturedMaterial.texEnvArg0RGB(0, CMaterial::Texture, CMaterial::SrcColor);
texturedMaterial.setTexCoordGen(0, true);
texturedMaterial.setTexCoordGenMode(0, CMaterial::TexCoordGenObjectSpace);
CMatrix mat;
CVector scale((float) (island->XMax - island->XMin),
(float) (island->YMax - island->YMin), 0.f);
scale.x = 1.f / favoid0(scale.x);
scale.y = 1.f / favoid0(scale.y);
scale.z = 0.f;
mat.setScale(scale);
mat.setPos(CVector(- island->XMin * scale.x, - island->YMin * scale.y, 0.f));
//
CMatrix uvScaleMat;
//
uint texWidth = (uint) (island->XMax - island->XMin);
uint texHeight = (uint) (island->YMax - island->YMin);
float UScale = (float) texWidth / raiseToNextPowerOf2(texWidth);
float VScale = (float) texHeight / raiseToNextPowerOf2(texHeight);
//
uvScaleMat.setScale(CVector(UScale, - VScale, 0.f));
uvScaleMat.setPos(CVector(0.f, VScale, 0.f));
//
texturedMaterial.enableUserTexMat(0, true);
texturedMaterial.setUserTexMat(0, uvScaleMat * mat);
}
const CFrustum &frust = MainCam.getFrustum();
//
IDriver *driver = ((CDriverUser *) Driver)->getDriver();
driver->enableFog(true);
const CRGBA clearColor = CRGBA(0, 0, 127, 0);
driver->setupFog(frust.Far * 0.8f, frust.Far, clearColor);
CViewport vp;
vp.init(0.f, 0.f, 1.f, 1.f);
driver->setupViewport(vp);
CScissor scissor;
viewportToScissor(vp, scissor);
driver->setupScissor(scissor);
//
driver->setFrustum(frust.Left, frust.Right, frust.Bottom, frust.Top, frust.Near, frust.Far, frust.Perspective);
driver->setupViewMatrix(MainCam.getMatrix().inverted());
driver->setupModelMatrix(CMatrix::Identity);
//
//
const CVector localFrustCorners[8] =
{
CVector(frust.Left, frust.Near, frust.Top),
CVector(frust.Right, frust.Near, frust.Top),
CVector(frust.Right, frust.Near, frust.Bottom),
CVector(frust.Left, frust.Near, frust.Bottom),
CVector(frust.Left * frust.Far / frust.Near, frust.Far, frust.Top * frust.Far / frust.Near),
CVector(frust.Right * frust.Far / frust.Near, frust.Far, frust.Top * frust.Far / frust.Near),
CVector(frust.Right * frust.Far / frust.Near, frust.Far, frust.Bottom * frust.Far / frust.Near),
CVector(frust.Left * frust.Far / frust.Near, frust.Far, frust.Bottom * frust.Far / frust.Near)
};
// roughly compute covered zones
//
/*
sint frustZoneMinX = INT_MAX;
sint frustZoneMaxX = INT_MIN;
sint frustZoneMinY = INT_MAX;
sint frustZoneMaxY = INT_MIN;
for(uint k = 0; k < sizeofarray(localFrustCorners); ++k)
{
CVector corner = camMat * localFrustCorners[k];
sint zoneX = (sint) (corner.x / 160.f) - zoneMinX;
sint zoneY = (sint) floorf(corner.y / 160.f) - zoneMinY;
frustZoneMinX = std::min(frustZoneMinX, zoneX);
frustZoneMinY = std::min(frustZoneMinY, zoneY);
frustZoneMaxX = std::max(frustZoneMaxX, zoneX);
frustZoneMaxY = std::max(frustZoneMaxY, zoneY);
}
*/
const uint TRI_BATCH_SIZE = 10000; // batch size for rendering
static std::vector<TPackedZoneBaseSPtr> zones;
zones.clear();
pw->getZones(zones);
for(uint k = 0; k < zones.size(); ++k)
{
zones[k]->render(vb, *driver, texturedMaterial, wiredMaterial, MainCam.getMatrix(), TRI_BATCH_SIZE, localFrustCorners);
}
}
}