// <DEFINENAME> [ ":" <PARAMNAME> ] private void readDefine(String statement) throws IOException { String[] split = statement.split(":"); if (split.length == 1) { String defineName = split[0].trim(); presetDefines.add(defineName); } else if (split.length == 2) { String defineName = split[0].trim(); String paramName = split[1].trim(); MatParam param = materialDef.getMaterialParam(paramName); if (param == null) { logger.log( Level.WARNING, "In technique ''{0}'':\n" + "Define ''{1}'' mapped to non-existent" + " material parameter ''{2}'', ignoring.", new Object[] {technique.getName(), defineName, paramName}); return; } VarType paramType = param.getVarType(); technique.addShaderParamDefine(paramName, paramType, defineName); } else { throw new IOException("Define syntax incorrect"); } }
private void readForcedRenderState(List<Statement> renderStates) throws IOException { renderState = new RenderState(); for (Statement statement : renderStates) { readRenderStateStatement(statement); } technique.setForcedRenderState(renderState); renderState = null; }
// ShadowMode <MODE> private void readShadowMode(String statement) throws IOException { String[] split = statement.split(whitespacePattern); if (split.length != 2) { throw new IOException("ShadowMode statement syntax incorrect"); } ShadowMode sm = ShadowMode.valueOf(split[1]); technique.setShadowMode(sm); }
// LightMode <SPACE> private void readLightSpace(String statement) throws IOException { String[] split = statement.split(whitespacePattern); if (split.length != 2) { throw new IOException("LightSpace statement syntax incorrect"); } TechniqueDef.LightSpace ls = TechniqueDef.LightSpace.valueOf(split[1]); technique.setLightSpace(ls); }
private void readShaderDefinition( Shader.ShaderType shaderType, String name, String... languages) { shaderNames.put(shaderType, name); if (langSize != 0 && langSize != languages.length) { throw new AssetLoadException( "Technique " + technique.getName() + " must have the same number of languages for each shader type."); } langSize = languages.length; for (int i = 0; i < languages.length; i++) { if (i >= shaderLanguages.size()) { shaderLanguages.add(new EnumMap<Shader.ShaderType, String>(Shader.ShaderType.class)); } shaderLanguages.get(i).put(shaderType, languages[i]); } }
private void readTechniqueStatement(Statement statement) throws IOException { String[] split = statement.getLine().split("[ \\{]"); if (split[0].equals("VertexShader") || split[0].equals("FragmentShader") || split[0].equals("GeometryShader") || split[0].equals("TessellationControlShader") || split[0].equals("TessellationEvaluationShader")) { readShaderStatement(statement.getLine()); } else if (split[0].equals("LightMode")) { readLightMode(statement.getLine()); } else if (split[0].equals("LightSpace")) { readLightSpace(statement.getLine()); } else if (split[0].equals("ShadowMode")) { readShadowMode(statement.getLine()); } else if (split[0].equals("WorldParameters")) { readWorldParams(statement.getContents()); } else if (split[0].equals("RenderState")) { readRenderState(statement.getContents()); } else if (split[0].equals("ForcedRenderState")) { readForcedRenderState(statement.getContents()); } else if (split[0].equals("Defines")) { readDefines(statement.getContents()); } else if (split[0].equals("ShaderNodesDefinitions")) { initNodesLoader(); if (isUseNodes) { nodesLoaderDelegate.readNodesDefinitions(statement.getContents()); } } else if (split[0].equals("VertexShaderNodes")) { initNodesLoader(); if (isUseNodes) { nodesLoaderDelegate.readVertexShaderNodes(statement.getContents()); } } else if (split[0].equals("FragmentShaderNodes")) { initNodesLoader(); if (isUseNodes) { nodesLoaderDelegate.readFragmentShaderNodes(statement.getContents()); } } else if (split[0].equals("NoRender")) { technique.setNoRender(true); } else { throw new MatParseException(null, split[0], statement); } }
private void readTechnique(Statement techStat) throws IOException { isUseNodes = false; String[] split = techStat.getLine().split(whitespacePattern); String name; if (split.length == 1) { name = TechniqueDef.DEFAULT_TECHNIQUE_NAME; } else if (split.length == 2) { name = split[1]; } else { throw new IOException("Technique statement syntax incorrect"); } String techniqueUniqueName = materialDef.getAssetName() + "@" + name; technique = new TechniqueDef(name, techniqueUniqueName.hashCode()); for (Statement statement : techStat.getContents()) { readTechniqueStatement(statement); } technique.setShaderPrologue(createShaderPrologue(presetDefines)); switch (technique.getLightMode()) { case Disable: technique.setLogic(new DefaultTechniqueDefLogic(technique)); break; case MultiPass: technique.setLogic(new MultiPassLightingLogic(technique)); break; case SinglePass: technique.setLogic(new SinglePassLightingLogic(technique)); break; case StaticPass: technique.setLogic(new StaticPassLightingLogic(technique)); break; case SinglePassAndImageBased: technique.setLogic(new SinglePassAndImageBasedLightingLogic(technique)); break; default: throw new UnsupportedOperationException(); } List<TechniqueDef> techniqueDefs = new ArrayList<>(); if (isUseNodes) { nodesLoaderDelegate.computeConditions(); // used for caching later, the shader here is not a file. // KIRILL 9/19/2015 // Not sure if this is needed anymore, since shader caching // is now done by TechniqueDef. technique.setShaderFile( technique.hashCode() + "", technique.hashCode() + "", "GLSL100", "GLSL100"); techniqueDefs.add(technique); } else if (shaderNames.containsKey(Shader.ShaderType.Vertex) && shaderNames.containsKey(Shader.ShaderType.Fragment)) { if (shaderLanguages.size() > 1) { for (int i = 1; i < shaderLanguages.size(); i++) { TechniqueDef td = null; try { td = (TechniqueDef) technique.clone(); } catch (CloneNotSupportedException e) { e.printStackTrace(); } td.setShaderFile(shaderNames, shaderLanguages.get(i)); techniqueDefs.add(td); } } technique.setShaderFile(shaderNames, shaderLanguages.get(0)); techniqueDefs.add(technique); } else { technique = null; shaderLanguages.clear(); shaderNames.clear(); presetDefines.clear(); langSize = 0; logger.log(Level.WARNING, "Fixed function technique was ignored"); logger.log( Level.WARNING, "Fixed function technique ''{0}'' was ignored for material {1}", new Object[] {name, key}); return; } for (TechniqueDef techniqueDef : techniqueDefs) { materialDef.addTechniqueDef(techniqueDef); } technique = null; langSize = 0; shaderLanguages.clear(); shaderNames.clear(); presetDefines.clear(); }
private void readWorldParams(List<Statement> worldParams) throws IOException { for (Statement statement : worldParams) { technique.addWorldParam(statement.getLine()); } }