/* ----------------------------------------------------------------------------- This source file is part of OGRE (Object-oriented Graphics Rendering Engine) For the latest info, see http://www.ogre3d.org/ Copyright (c) 2000-2009 Torus Knot Software Ltd Permission is hereby granted, free of charge, to any person obtaining a copy of this software and associated documentation files (the "Software"), to deal in the Software without restriction, including without limitation the rights to use, copy, modify, merge, publish, distribute, sublicense, and/or sell copies of the Software, and to permit persons to whom the Software is furnished to do so, subject to the following conditions: The above copyright notice and this permission notice shall be included in all copies or substantial portions of the Software. THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. ----------------------------------------------------------------------------- */ #include "OgreQuake3Shader.h" #include "OgreSceneManager.h" #include "OgreMaterial.h" #include "OgreTechnique.h" #include "OgrePass.h" #include "OgreTextureUnitState.h" #include "OgreMath.h" #include "OgreLogManager.h" #include "OgreTextureManager.h" #include "OgreRoot.h" #include "OgreMaterialManager.h" namespace Ogre { //----------------------------------------------------------------------- Quake3Shader::Quake3Shader(const String& name) { mName = name; numPasses = 0; deformFunc = DEFORM_FUNC_NONE; farbox = false; skyDome = false; flags = 0; fog = false; cullMode = MANUAL_CULL_BACK; } //----------------------------------------------------------------------- Quake3Shader::~Quake3Shader() { } //----------------------------------------------------------------------- MaterialPtr Quake3Shader::createAsMaterial(int lightmapNumber) { String matName; StringUtil::StrStreamType str; String resourceGroup = ResourceGroupManager::getSingleton().getWorldResourceGroupName(); str << mName << "#" << lightmapNumber; matName = str.str(); MaterialPtr mat = MaterialManager::getSingleton().create(matName, resourceGroup); Ogre::Pass* ogrePass = mat->getTechnique(0)->getPass(0); LogManager::getSingleton().logMessage("Using Q3 shader " + mName, LML_CRITICAL); for (int p = 0; p < numPasses; ++p) { TextureUnitState* t; // Create basic texture if (pass[p].textureName == "$lightmap") { StringUtil::StrStreamType str2; str2 << "@lightmap" << lightmapNumber; t = ogrePass->createTextureUnitState(str2.str()); } // Animated texture support else if (pass[p].animNumFrames > 0) { Real sequenceTime = pass[p].animNumFrames / pass[p].animFps; /* Pre-load textures We need to know if each one was loaded OK since extensions may change for each Quake3 can still include alternate extension filenames e.g. jpg instead of tga Pain in the arse - have to check for each frame as letters.tga for example is different per frame! */ for (unsigned int alt = 0; alt < pass[p].animNumFrames; ++alt) { if (!ResourceGroupManager::getSingleton().resourceExists( resourceGroup, pass[p].frames[alt])) { // Try alternate extension pass[p].frames[alt] = getAlternateName(pass[p].frames[alt]); if (!ResourceGroupManager::getSingleton().resourceExists( resourceGroup, pass[p].frames[alt])) { // stuffed - no texture continue; } } } t = ogrePass->createTextureUnitState(""); t->setAnimatedTextureName(pass[p].frames, pass[p].animNumFrames, sequenceTime); } else { // Quake3 can still include alternate extension filenames e.g. jpg instead of tga // Pain in the arse - have to check for failure if (!ResourceGroupManager::getSingleton().resourceExists( resourceGroup, pass[p].textureName)) { // Try alternate extension pass[p].textureName = getAlternateName(pass[p].textureName); if (!ResourceGroupManager::getSingleton().resourceExists( resourceGroup, pass[p].textureName)) { // stuffed - no texture continue; } } t = ogrePass->createTextureUnitState(pass[p].textureName); } // Blending if (p == 0) { // scene blend mat->setSceneBlending(pass[p].blendSrc, pass[p].blendDest); if (mat->isTransparent()) mat->setDepthWriteEnabled(false); t->setColourOperation(LBO_REPLACE); // Alpha mode ogrePass->setAlphaRejectSettings( pass[p].alphaFunc, pass[p].alphaVal); } else { if (pass[p].customBlend) { // Fallback for now t->setColourOperation(LBO_MODULATE); } else { // simple layer blend t->setColourOperation(pass[p].blend); } // Alpha mode, prefer 'most alphary' CompareFunction currFunc = ogrePass->getAlphaRejectFunction(); unsigned char currVal = ogrePass->getAlphaRejectValue(); if (pass[p].alphaFunc > currFunc || (pass[p].alphaFunc == currFunc && pass[p].alphaVal < currVal)) { ogrePass->setAlphaRejectSettings( pass[p].alphaFunc, pass[p].alphaVal); } } // Tex coords if (pass[p].texGen == TEXGEN_BASE) { t->setTextureCoordSet(0); } else if (pass[p].texGen == TEXGEN_LIGHTMAP) { t->setTextureCoordSet(1); } else if (pass[p].texGen == TEXGEN_ENVIRONMENT) { t->setEnvironmentMap(true, TextureUnitState::ENV_PLANAR); } // Tex mod // Scale t->setTextureUScale(pass[p].tcModScale[0]); t->setTextureVScale(pass[p].tcModScale[1]); // Procedural mods // Custom - don't use mod if generating environment // Because I do env a different way it look horrible if (pass[p].texGen != TEXGEN_ENVIRONMENT) { if (pass[p].tcModRotate) { t->setRotateAnimation(pass[p].tcModRotate); } if (pass[p].tcModScroll[0] || pass[p].tcModScroll[1]) { if (pass[p].tcModTurbOn) { // Turbulent scroll if (pass[p].tcModScroll[0]) { t->setTransformAnimation(TextureUnitState::TT_TRANSLATE_U, WFT_SINE, pass[p].tcModTurb[0], pass[p].tcModTurb[3], pass[p].tcModTurb[2], pass[p].tcModTurb[1]); } if (pass[p].tcModScroll[1]) { t->setTransformAnimation(TextureUnitState::TT_TRANSLATE_V, WFT_SINE, pass[p].tcModTurb[0], pass[p].tcModTurb[3], pass[p].tcModTurb[2], pass[p].tcModTurb[1]); } } else { // Constant scroll t->setScrollAnimation(pass[p].tcModScroll[0], pass[p].tcModScroll[1]); } } if (pass[p].tcModStretchWave != SHADER_FUNC_NONE) { WaveformType wft = WFT_SINE; switch(pass[p].tcModStretchWave) { case SHADER_FUNC_SIN: wft = WFT_SINE; break; case SHADER_FUNC_TRIANGLE: wft = WFT_TRIANGLE; break; case SHADER_FUNC_SQUARE: wft = WFT_SQUARE; break; case SHADER_FUNC_SAWTOOTH: wft = WFT_SAWTOOTH; break; case SHADER_FUNC_INVERSESAWTOOTH: wft = WFT_INVERSE_SAWTOOTH; break; default: break; } // Create wave-based stretcher t->setTransformAnimation(TextureUnitState::TT_SCALE_U, wft, pass[p].tcModStretchParams[3], pass[p].tcModStretchParams[0], pass[p].tcModStretchParams[2], pass[p].tcModStretchParams[1]); t->setTransformAnimation(TextureUnitState::TT_SCALE_V, wft, pass[p].tcModStretchParams[3], pass[p].tcModStretchParams[0], pass[p].tcModStretchParams[2], pass[p].tcModStretchParams[1]); } } // Address mode t->setTextureAddressingMode(pass[p].addressMode); //assert(!t->isBlank()); } // Do farbox (create new material) // Set culling mode and lighting to defaults mat->setCullingMode(CULL_NONE); mat->setManualCullingMode(cullMode); mat->setLightingEnabled(false); mat->load(); return mat; } String Quake3Shader::getAlternateName(const String& texName) { // Get alternative JPG to TGA and vice versa size_t pos; String ext, base; pos = texName.find_last_of("."); ext = texName.substr(pos, 4); StringUtil::toLowerCase(ext); base = texName.substr(0,pos); if (ext == ".jpg") { return base + ".tga"; } else { return base + ".jpg"; } } }