/* * Copyright (c) 2003 Sun Microsystems, Inc. All Rights Reserved. * Copyright (c) 2010 JogAmp Community. All rights reserved. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions are * met: * * - Redistribution of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * * - Redistribution in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in the * documentation and/or other materials provided with the distribution. * * Neither the name of Sun Microsystems, Inc. or the names of * contributors may be used to endorse or promote products derived from * this software without specific prior written permission. * * This software is provided "AS IS," without a warranty of any kind. ALL * EXPRESS OR IMPLIED CONDITIONS, REPRESENTATIONS AND WARRANTIES, * INCLUDING ANY IMPLIED WARRANTY OF MERCHANTABILITY, FITNESS FOR A * PARTICULAR PURPOSE OR NON-INFRINGEMENT, ARE HEREBY EXCLUDED. SUN * MICROSYSTEMS, INC. ("SUN") AND ITS LICENSORS SHALL NOT BE LIABLE FOR * ANY DAMAGES SUFFERED BY LICENSEE AS A RESULT OF USING, MODIFYING OR * DISTRIBUTING THIS SOFTWARE OR ITS DERIVATIVES. IN NO EVENT WILL SUN OR * ITS LICENSORS BE LIABLE FOR ANY LOST REVENUE, PROFIT OR DATA, OR FOR * DIRECT, INDIRECT, SPECIAL, CONSEQUENTIAL, INCIDENTAL OR PUNITIVE * DAMAGES, HOWEVER CAUSED AND REGARDLESS OF THE THEORY OF LIABILITY, * ARISING OUT OF THE USE OF OR INABILITY TO USE THIS SOFTWARE, EVEN IF * SUN HAS BEEN ADVISED OF THE POSSIBILITY OF SUCH DAMAGES. * * You acknowledge that this software is not designed or intended for use * in the design, construction, operation or maintenance of any nuclear * facility. * * Sun gratefully acknowledges that this software was originally authored * and developed by Kenneth Bradley Russell and Christopher John Kline. */ package com.jogamp.gluegen; import com.jogamp.common.GlueGenVersion; import java.io.*; import java.util.*; import java.util.logging.Level; import antlr.*; import com.jogamp.gluegen.cgram.*; import com.jogamp.gluegen.cgram.types.*; import com.jogamp.gluegen.jcpp.JCPP; import static java.lang.System.*; /** * Glue code generator for C functions and data structures.
*/ public class GlueGen implements GlueEmitterControls { static{ Logging.init(); } private final List forcedStructNames = new ArrayList(); private GenericCPP preprocessor; // State for SymbolFilters private List allConstants; private List allFunctions; private static boolean debug = false; private static Level logLevel = null; public static void setDebug(final boolean v) { debug=v; } public static void setLogLevel(final Level l) { logLevel=l; } public static boolean debug() { return debug; } @Override public void forceStructEmission(final String typedefName) { forcedStructNames.add(typedefName); } @Override public String findHeaderFile(final String headerFileName) { return preprocessor.findFile(headerFileName); } @Override public void runSymbolFilter(final SymbolFilter filter) { filter.filterSymbols(allConstants, allFunctions); final List newConstants = filter.getConstants(); final List newFunctions = filter.getFunctions(); if (newConstants != null) { allConstants = newConstants; } if (newFunctions != null) { allFunctions = newFunctions; } } /** GlueGen's build in macro name {@value}, when compiling w/ GlueGen. */ public static final String __GLUEGEN__ = "__GLUEGEN__"; @SuppressWarnings("unchecked") public void run(final Reader reader, final String filename, final Class emitterClass, final List includePaths, final List cfgFiles, final String outputRootDir, final boolean copyCPPOutput2Stderr) { try { if(debug) { Logging.getLogger().setLevel(Level.ALL); } else if( null != logLevel ) { Logging.getLogger().setLevel(logLevel); } final GlueEmitter emit; if (emitterClass == null) { emit = new JavaEmitter(); } else { try { emit = (GlueEmitter) emitterClass.newInstance(); } catch (final Exception e) { throw new RuntimeException("Exception occurred while instantiating emitter class.", e); } } for (final String config : cfgFiles) { emit.readConfigurationFile(config); } final JavaConfiguration cfg = emit.getConfiguration(); final File out = File.createTempFile("CPPTemp", ".cpp"); final FileOutputStream outStream = new FileOutputStream(out); // preprocessor = new PCPP(includePaths, debug, copyCPPOutput2Stderr); preprocessor = new JCPP(includePaths, debug, copyCPPOutput2Stderr); final String cppName = preprocessor.getClass().getSimpleName(); if(debug) { System.err.println("CPP <"+cppName+"> output at (persistent): " + out.getAbsolutePath()); } else { out.deleteOnExit(); } preprocessor.addDefine(__GLUEGEN__, "2"); preprocessor.setOut(outStream); preprocessor.run(reader, filename); outStream.flush(); outStream.close(); if(debug) { System.err.println("CPP <"+cppName+"> done"); } final FileInputStream inStream = new FileInputStream(out); final DataInputStream dis = new DataInputStream(inStream); final GnuCLexer lexer = new GnuCLexer(dis); lexer.setTokenObjectClass(CToken.class.getName()); lexer.initialize(); // Parse the input expression. final GnuCParser parser = new GnuCParser(lexer); // set AST node type to TNode or get nasty cast class errors parser.setASTNodeClass(TNode.class.getName()); TNode.setTokenVocabulary(GNUCTokenTypes.class.getName()); // invoke parser try { parser.translationUnit(); } catch (final RecognitionException e) { throw new RuntimeException("Fatal IO error", e); } catch (final TokenStreamException e) { throw new RuntimeException("Fatal IO error", e); } final HeaderParser headerParser = new HeaderParser(); headerParser.setDebug(debug); headerParser.setJavaConfiguration(cfg); final TypeDictionary td = new TypeDictionary(); headerParser.setTypedefDictionary(td); final TypeDictionary sd = new TypeDictionary(); headerParser.setStructDictionary(sd); // set AST node type to TNode or get nasty cast class errors headerParser.setASTNodeClass(TNode.class.getName()); // walk that tree headerParser.translationUnit(parser.getAST()); dis.close(); inStream.close(); /** // For debugging: Dump type dictionary and struct dictionary to System.err if(debug) { td.dumpDictionary(err, "All Types"); sd.dumpDictionary(err, "All Structs"); } */ // At this point we have all of the pieces we need in order to // generate glue code: the #defines to constants, the set of // typedefs, and the set of functions. if (null != outputRootDir && outputRootDir.trim().length() > 0) { if (emit instanceof JavaEmitter) { // FIXME: hack to interfere with the *Configuration setting via commandlines final JavaEmitter jemit = (JavaEmitter) emit; if (null != jemit.getConfig()) { jemit.getConfig().setOutputRootDir(outputRootDir); } } } // Repackage the enum and #define statements from the parser into a common format // so that SymbolFilters can operate upon both identically allConstants = new ArrayList(); for (final EnumType enumeration : headerParser.getEnums()) { String enumName = enumeration.getName(); if (enumName.equals("")) { enumName = null; } // iterate over all values in the enumeration for (int i = 0; i < enumeration.getNumEnumerates(); ++i) { final String enumElementName = enumeration.getEnumName(i); allConstants.add(new ConstantDefinition(enumElementName, enumeration.getEnumValue(i), enumName, enumeration.getASTLocusTag())); } } for (final Object elem : lexer.getDefines()) { final Define def = (Define) elem; allConstants.add(new ConstantDefinition(def.getName(), def.getValue(), def.getASTLocusTag())); } allConstants.addAll(preprocessor.getConstantDefinitions()); allFunctions = headerParser.getParsedFunctions(); // begin emission of glue code, // incl. firing up 'runSymbolFilter(SymbolFilter)' calls, which: // - filters all ConstantDefinition // - filters all FunctionSymbol emit.beginEmission(this); if( debug() ) { int i=0; System.err.println("Filtered Constants: "+allConstants.size()); for (final ConstantDefinition def : allConstants) { if( debug() ) { System.err.println("Filtered ["+i+"]: "+def.getAliasedString()); i++; } } i=0; System.err.println("Filtered Functions: "+allFunctions.size()); for (final FunctionSymbol cFunc : allFunctions) { System.err.println("Filtered ["+i+"]: "+cFunc.getAliasedString()); i++; } } if ( !cfg.structsOnly() ) { emit.beginDefines(); final Set emittedDefines = new HashSet(100); // emit java equivalent of enum { ... } statements final StringBuilder comment = new StringBuilder(); for (final ConstantDefinition def : allConstants) { if (!emittedDefines.contains(def.getName())) { emittedDefines.add(def.getName()); final Set aliases = cfg.getAliasedDocNames(def); if (aliases != null && aliases.size() > 0 ) { int i=0; comment.append("Alias for: "); for (final String alias : aliases) { if(0 < i) { comment.append(", "); } comment.append(alias); i++; } comment.append(""); } if (def.getEnumName() != null) { if (comment.length() > 0) comment.append("
\n"); comment.append("Defined as part of enum type \""); comment.append(def.getEnumName()); comment.append("\""); } if (comment.length() > 0) { emit.emitDefine(def, comment.toString()); comment.setLength(0); } else { emit.emitDefine(def, null); } } } emit.endDefines(); } // Iterate through the functions finding structs that are referenced in // the function signatures; these will be remembered for later emission final ReferencedStructs referencedStructs = new ReferencedStructs(); for (final FunctionSymbol sym : allFunctions) { // FIXME: this doesn't take into account the possibility that some of // the functions we send to emitMethodBindings() might not actually be // emitted (e.g., if an Ignore directive in the JavaEmitter causes it to be skipped). sym.getType().visit(referencedStructs); } // Normally only referenced types will be emitted. The user can force a // type to be emitted via a .cfg file directive. Those directives are // processed here. for (final String name : forcedStructNames) { final Type type = td.get(name); if (type == null) { err.println("WARNING: during forced struct emission: struct \"" + name + "\" not found"); } else if (!type.isCompound()) { err.println("WARNING: during forced struct emission: type \"" + name + "\" was not a struct"); } else { type.visit(referencedStructs); } } // Lay out structs emit.beginStructLayout(); for (final Iterator iter = referencedStructs.layouts(); iter.hasNext();) { final CompoundType c = iter.next(); if( !c.isLayouted() ) { emit.layoutStruct(c); } } emit.endStructLayout(); // Emit structs emit.beginStructs(td, sd, headerParser.getCanonMap()); for (final Iterator iter = referencedStructs.results(); iter.hasNext();) { final Type t = iter.next(); if (t.isCompound()) { assert t.isTypedef() && t.getName() == null : "ReferencedStructs incorrectly recorded compound type " + t; emit.emitStruct(t.asCompound(), null); } else if (t.isPointer()) { final PointerType p = t.asPointer(); final CompoundType c = p.getTargetType().asCompound(); assert p.isTypedef() && c.getName() == null : "ReferencedStructs incorrectly recorded pointer type " + p; emit.emitStruct(c, p); } } emit.endStructs(); if ( !cfg.structsOnly() ) { // emit java and C code to interface with the native functions emit.beginFunctions(td, sd, headerParser.getCanonMap()); emit.emitFunctions(allFunctions); emit.endFunctions(); } // end emission of glue code emit.endEmission(); } catch (final Exception e) { throw new RuntimeException("Exception occurred while generating glue code.", e); } } public static void main(final String... args) { if (args.length == 0) { System.err.println(GlueGenVersion.getInstance()); usage(); } Reader reader = null; String filename = null; String emitterFQN = null; String outputRootDir = null; final List cfgFiles = new ArrayList(); boolean copyCPPOutput2Stderr = false; final List includePaths = new ArrayList(); for (int i = 0; i < args.length; i++) { if (i < args.length - 1) { final String arg = args[i]; if (arg.startsWith("-I")) { final String[] paths = arg.substring(2).split(getProperty("path.separator")); includePaths.addAll(Arrays.asList(paths)); } else if (arg.startsWith("-O")) { outputRootDir = arg.substring(2); } else if (arg.startsWith("-E")) { emitterFQN = arg.substring(2); } else if (arg.startsWith("-C")) { cfgFiles.add(arg.substring(2)); } else if (arg.equals("--logLevel")) { i++; logLevel = Level.parse(args[i]); } else if (arg.equals("--debug")) { debug=true; } else if (arg.equals("--dumpCPP")) { copyCPPOutput2Stderr=true; } else { usage(); } } else { final String arg = args[i]; if (arg.equals("-")) { reader = new InputStreamReader(in); filename = "standard input"; } else { if (arg.startsWith("-")) { usage(); } filename = arg; try { reader = new BufferedReader(new FileReader(filename)); } catch (final FileNotFoundException ex) { throw new RuntimeException("input file not found", ex); } } } } try { final Class emitterClass = emitterFQN == null ? null : Class.forName(emitterFQN); new GlueGen().run(reader, filename, emitterClass, includePaths, cfgFiles, outputRootDir, copyCPPOutput2Stderr); } catch (final ClassNotFoundException ex) { throw new RuntimeException("specified emitter class was not in the classpath", ex); } } //---------------------------------------------------------------------- // Internals only below this point // private static void usage() { out.println("Usage: java GlueGen [-I...] [-Eemitter_class_name] [-Ccfg_file_name...] "); out.println(); out.println("Runs C header parser on input file or standard input, first"); out.println("passing input through minimal pseudo-C-preprocessor. Use -I"); out.println("command-line arguments to specify the search path for #includes."); out.println("Emitter class name can be specified with -E option: i.e.,"); out.println("-Ecom.jogamp.gluegen.JavaEmitter (the default). Use"); out.println("-Ecom.jogamp.gluegen.DebugEmitter to print recognized entities"); out.println("(#define directives to constant numbers, typedefs, and function"); out.println("declarations) to standard output. Emitter-specific configuration"); out.println("file or files can be specified with -C option; e.g,"); out.println("-Cjava-emitter.cfg."); out.println(" --debug enables debug mode"); out.println(" --dumpCPP directs CPP to dump all output to stderr as well"); exit(1); } }