/* * Copyright (c) 2003 Sun Microsystems, Inc. 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.sun.gluegen.pcpp; import java.io.*; import java.util.*; /** A minimal pseudo-C-preprocessor designed in particular to preserve #define statements defining constants so they can be observed by a glue code generator. */ public class PCPP { private static final boolean disableDebugPrint = true; public PCPP(List/**/ includePaths) { this.includePaths = includePaths; setOut(System.out); } public OutputStream out() { return out; } public void setOut(OutputStream out) { this.out = out; writer = new PrintWriter(out); } public void run(Reader reader, String filename) throws IOException { StreamTokenizer tok = null; BufferedReader bufReader = null; if (reader instanceof BufferedReader) { bufReader = (BufferedReader) reader; } else { bufReader = new BufferedReader(reader); } tok = new StreamTokenizer(new ConcatenatingReader(bufReader)); tok.resetSyntax(); tok.wordChars('a', 'z'); tok.wordChars('A', 'Z'); tok.wordChars('0', '9'); tok.wordChars('_', '_'); tok.wordChars('.', '.'); tok.wordChars(128 + 32, 255); tok.whitespaceChars(0, ' '); tok.quoteChar('"'); tok.quoteChar('\''); tok.eolIsSignificant(true); tok.slashSlashComments(true); tok.slashStarComments(true); ParseState curState = new ParseState(tok, filename); ParseState oldState = state; state = curState; lineDirective(); parse(); state = oldState; if (state != null) { lineDirective(); } } public static void main(String[] args) { try { Reader reader = null; String filename = null; if (args.length == 0) { usage(); } List includePaths = new ArrayList(); for (int i = 0; i < args.length; i++) { if (i < args.length - 1) { String arg = args[i]; if (arg.startsWith("-I")) { String[] paths = arg.substring(2).split(System.getProperty("path.separator")); for (int j = 0; j < paths.length; j++) { includePaths.add(paths[j]); } } else { usage(); } } else { String arg = args[i]; if (arg.equals("-")) { reader = new InputStreamReader(System.in); filename = "standard input"; } else { if (arg.startsWith("-")) { usage(); } filename = arg; reader = new BufferedReader(new FileReader(filename)); } } } new PCPP(includePaths).run(reader, filename); } catch (IOException e) { e.printStackTrace(); } } public String findFile(String filename) { String sep = File.separator; for (Iterator iter = includePaths.iterator(); iter.hasNext(); ) { String inclPath = (String) iter.next(); String fullPath = inclPath + sep + filename; File file = new File(fullPath); if (file.exists()) { return fullPath; } } return null; } //---------------------------------------------------------------------- // Internals only below this point // private static void usage() { System.out.println("Usage: java PCPP [filename | -]"); System.out.println("Minimal pseudo-C-preprocessor."); System.out.println("Output goes to standard output. Standard input can be used as input"); System.out.println("by passing '-' as the argument."); System.exit(1); } /** Map containing the results of #define statements. We must evaluate certain very simple definitions (to properly handle OpenGL's gl.h) but preserve the text of definitions evaluating to constants. Macros and multi-line defines (which typically contain either macro definitions or expressions) are currently not handled. */ private Map/**/ defineMap = new HashMap(); private Set/**/ nonConstantDefines = new HashSet(); /** List containing the #include paths as Strings */ private List/**/ includePaths; // State static class ParseState { private StreamTokenizer tok; private String filename; private int lineNumber; private boolean startOfLine; private boolean startOfFile; ParseState(StreamTokenizer tok, String filename) { this.tok = tok; this.filename = filename; lineNumber = 1; startOfLine = true; startOfFile = true; } StreamTokenizer tok() { return tok; } String filename() { return filename; } int lineNumber() { return tok.lineno(); } boolean startOfLine() { return startOfLine; } void setStartOfLine(boolean val) { startOfLine = val; } boolean startOfFile() { return startOfFile; } void setStartOfFile(boolean val) { startOfFile = val; } } private ParseState state; // Accessors private void pushBackToken() throws IOException { state.tok().pushBack(); } /** Equivalent to nextToken(false) */ private int nextToken() throws IOException { return nextToken(false); } private int nextToken(boolean returnEOLs) throws IOException { int lineno = lineNumber(); // Check to see whether the previous call to nextToken() left an // EOL on the stream if (curToken() == StreamTokenizer.TT_EOL) { state.setStartOfLine(true); } else if (!state.startOfFile()) { state.setStartOfLine(false); } state.setStartOfFile(false); int val = state.tok().nextToken(); if (!returnEOLs) { if (val == StreamTokenizer.TT_EOL) { do { // Consume and return next token, setting state appropriately val = state.tok().nextToken(); state.setStartOfLine(true); println(); } while (val == StreamTokenizer.TT_EOL); } } if (lineNumber() > lineno + 1) { // This is a little noisier than it needs to be, but does handle // the case of multi-line comments properly lineDirective(); } return val; } /** * Reads the next token and throws an IOException if it is not the specified * token character. */ private void nextRequiredToken(int requiredToken) throws IOException { int nextTok = nextToken(); if (nextTok != requiredToken) { String msg = "Expected token '" + requiredToken + "' but got "; switch (nextTok) { case StreamTokenizer.TT_EOF: msg += ""; break; case StreamTokenizer.TT_EOL: msg += ""; break; default: msg += "'" + curTokenAsString() + "'"; break; } msg += " at file " + filename() + ", line " + lineNumber(); throw new IOException(msg); } } private int curToken() { return state.tok().ttype; } private String curTokenAsString() { int t = curToken(); if (t == StreamTokenizer.TT_WORD) { return curWord(); } if (t == StreamTokenizer.TT_EOL) { throw new RuntimeException("Should not be converting EOL characters to strings"); } char c = (char) t; if (c == '"' || c == '\'') { StringBuffer buf = new StringBuffer(); buf.append(c); buf.append(state.tok().sval); buf.append(c); return buf.toString(); } return new String(new char[] { c }); } private String nextWord() throws IOException { int val = nextToken(); if (val != StreamTokenizer.TT_WORD) { throw new RuntimeException("Expected word at file " + filename() + ", line " + lineNumber()); } return curWord(); } private String curWord() { return state.tok().sval; } private boolean startOfLine() { return state.startOfLine(); } private String filename() { return state.filename(); } private int lineNumber() { return state.lineNumber(); } ///////////// // Parsing // ///////////// private void parse() throws IOException { int tok = 0; while ((tok = nextToken()) != StreamTokenizer.TT_EOF) { // A '#' at the beginning of a line is a preprocessor directive if (startOfLine() && (tok == '#')) { preprocessorDirective(); } else { // Output white space plus current token, handling #defines // (though not properly -- only handling #defines to constants and the empty string) print(" "); String s = curTokenAsString(); String newS = (String) defineMap.get(s); if (newS == null) { newS = s; } print(newS); } } flush(); } private void preprocessorDirective() throws IOException { String w = nextWord(); boolean shouldPrint = true; if (w.equals("define")) { handleDefine(); shouldPrint = false; } else if (w.equals("undef")) { handleUndefine(); shouldPrint = false; } else if (w.equals("if") || w.equals("elif")) { handleIf(w.equals("if")); shouldPrint = false; } else if (w.equals("ifdef") || w.equals("ifndef")) { handleIfdef(w.equals("ifdef")); shouldPrint = false; } else if (w.equals("else")) { handleElse(); shouldPrint = false; } else if (w.equals("endif")) { handleEndif(); shouldPrint = false; } else if (w.equals("include")) { handleInclude(); shouldPrint = false; } else { // Unknown preprocessor directive (#pragma?) -- ignore } if (shouldPrint) { print("# "); printToken(); } } //////////////////////////////////// // Handling of #define directives // //////////////////////////////////// private void handleUndefine() throws IOException { // Next token is the name of the #undef String name = nextWord(); debugPrint(true, "#undef " + name); // there shouldn't be any extra symbols after the name, but just in case... List values = new ArrayList(); while (nextToken(true) != StreamTokenizer.TT_EOL) { values.add(curTokenAsString()); } if (enabled()) { String oldDef = (String)defineMap.remove(name); if (oldDef == null) { System.err.println("WARNING: ignoring redundant \"#undef " + name + "\", at \"" + filename() + "\" line " + lineNumber() + ": \"" + name + "\" was not previously defined"); } else { // System.err.println("UNDEFINED: '" + name + "' (line " + lineNumber() + " file " + filename() + ")"); } nonConstantDefines.remove(name); } else System.err.println("FAILED TO UNDEFINE: '" + name + "' (line " + lineNumber() + " file " + filename() + ")"); } private void handleDefine() throws IOException { // Next token is the name of the #define String name = nextWord(); //System.err.println("IN HANDLE_DEFINE: '" + name + "' (line " + lineNumber() + " file " + filename() + ")"); // (Note that this is not actually proper handling for multi-line #defines) List values = new ArrayList(); while (nextToken(true) != StreamTokenizer.TT_EOL) { values.add(curTokenAsString()); } // if we're not within an active block of code (like inside an "#ifdef // FOO" where FOO isn't defined), then don't actually alter the definition // map. debugPrint(true, "#define " + name); if (enabled()) { boolean emitDefine = true; // Handle #definitions to nothing or to a constant value int sz = values.size(); if (sz == 0) { // definition to nothing, like "#define FOO" String oldDef = (String)defineMap.put(name, ""); if (oldDef != null) { System.err.println("WARNING: \"" + name + "\" redefined from \"" + oldDef + "\" to \"\""); } // We don't want to emit the define, because it would serve no purpose // and cause GlueGen errors (confuse the GnuCParser) emitDefine = false; //System.out.println("//---DEFINED: " + name + "to \"\""); } else if (sz == 1) { // See whether the value is a constant String value = (String) values.get(0); if (isConstant(value)) { // Value is numeric constant like "#define FOO 5". // Put it in the #define map String oldDef = (String)defineMap.put(name, value); if (oldDef != null) { System.err.println("WARNING: \"" + name + "\" redefined from \"" + oldDef + "\" to \"" + value + "\""); } //System.out.println("//---DEFINED: " + name + " to \"" + value + "\""); } else { // Value is a symbolic constant like "#define FOO BAR". // Try to look up the symbol's value String newValue = resolveDefine(value, true); if (newValue != null) { // Set the value to the value of the symbol. // // TO DO: Is this correct? Why not output the symbol unchanged? // I think that it's a good thing to see that some symbols are // defined in terms of others. -chris values.set(0, newValue); } else { // Still perform textual replacement defineMap.put(name, value); nonConstantDefines.add(name); emitDefine = false; } } } else { // Non-constant define; try to do reasonable textual substitution anyway // (FIXME: should identify some of these, like (-1), as constants) emitDefine = false; StringBuffer val = new StringBuffer(); for (int i = 0; i < sz; i++) { if (i != 0) { val.append(" "); } val.append(resolveDefine((String) values.get(i), false)); } if (defineMap.get(name) != null) { // This is probably something the user should investigate. throw new RuntimeException("Cannot redefine symbol \"" + name + " from \"" + defineMap.get(name) + "\" to non-constant " + " definition \"" + val.toString() + "\""); } defineMap.put(name, val.toString()); nonConstantDefines.add(name); } if (emitDefine) { // Print name and value print("# define "); print(name); for (Iterator iter = values.iterator(); iter.hasNext(); ) { print(" "); print((String) iter.next()); } println(); } } // end if (enabled()) //System.err.println("OUT HANDLE_DEFINE: " + name); } private boolean isConstant(String s) { if (s.startsWith("0x") || s.startsWith("0X")) { return checkHex(s); } else { return checkDecimal(s); } } private boolean checkHex(String s) { for (int i = 2; i < s.length(); i++) { char c = s.charAt(i); if (!((c >= '0' && c <= '9') || (c >= 'a' && c <= 'f') || (c >= 'A' && c <= 'F'))) { return false; } } return true; } private boolean checkDecimal(String s) { try { Float.valueOf(s); } catch (NumberFormatException e) { // not parsable as a number return false; } return true; } private String resolveDefine(String word, boolean returnNullIfNotFound) { String lastWord = (String) defineMap.get(word); if (lastWord == null) { if (returnNullIfNotFound) { return null; } return word; } String nextWord = null; do { nextWord = (String) defineMap.get(lastWord); if (nextWord != null) { lastWord = nextWord; } } while (nextWord != null); return lastWord; } //////////////////////////////////////////////// // Handling of #if/#ifdef/ifndef/endif directives // //////////////////////////////////////////////// /** * @param isIfdef if true, we're processing #ifdef; if false, we're * processing #ifndef. */ private void handleIfdef(boolean isIfdef) throws IOException { // Next token is the name of the #ifdef String symbolName = nextWord(); debugPrint(true, (isIfdef ? "#ifdef " : "#ifndef ") + symbolName); boolean symbolIsDefined = defineMap.get(symbolName) != null; //debugPrint(true, "HANDLE_IFDEF: ifdef(" + symbolName + ") = " + symbolIsDefined ); pushEnableBit(enabled() && symbolIsDefined == isIfdef); } /** Handles #else directives */ private void handleElse() throws IOException { boolean enabledStatusBeforeElse = enabled(); popEnableBit(); pushEnableBit(enabled() && !enabledStatusBeforeElse); debugPrint(true, "#else "); } private void handleEndif() { boolean enabledBeforePopping = enabled(); popEnableBit(); // print the endif if we were enabled prior to popEnableBit() (sending // false to debugPrint means "print regardless of current enabled() state). debugPrint(!enabledBeforePopping, "#endif/end-else"); } /** * @param isIf if true, we're processing #if; if false, we're * processing #elif. */ private void handleIf(boolean isIf) throws IOException { //System.out.println("IN HANDLE_" + (isIf ? "IF" : "ELIF") + " file \"" + filename() + " line " + lineNumber()); debugPrint(true, (isIf ? "#if" : "#elif")); boolean defineEvaluatedToTrue = handleIfRecursive(true); if (!isIf) { popEnableBit(); } pushEnableBit(enabled() && defineEvaluatedToTrue == isIf); //System.out.println("OUT HANDLE_" + (isIf ? "IF" : "ELIF") +" (evaluated to " + defineEvaluatedToTrue + ")"); } //static int tmp = -1; /** * This method is called recursively to process nested sub-expressions such as: *
   *   #if !defined(OPENSTEP) && !(defined(NeXT) || !defined(NeXT_PDO))
   *
* * @param greedy if true, continue evaluating sub-expressions until EOL is * reached. If false, return as soon as the first sub-expression is * processed. * @return the value of the sub-expression or (if greedy==true) * series of sub-expressions. */ private boolean handleIfRecursive(boolean greedy) throws IOException { //System.out.println("IN HANDLE_IF_RECURSIVE (" + ++tmp + ", greedy = " + greedy + ")"); System.out.flush(); // ifValue keeps track of the current value of the potentially nested // "defined()" expressions as we process them. boolean ifValue = true; int openParens = 0; int tok; do { tok = nextToken(true); //System.out.println("-- READ: [" + (tok == StreamTokenizer.TT_EOL ? "" :curTokenAsString()) + "]"); switch (tok) { case '(': ++openParens; //System.out.println("OPEN PARENS = " + openParens); ifValue = ifValue && handleIfRecursive(true); break; case ')': --openParens; //System.out.println("OPEN PARENS = " + openParens); break; case '!': { //System.out.println("HANDLE_IF_RECURSIVE HANDLING !"); boolean rhs = handleIfRecursive(false); ifValue = !rhs; //System.out.println("HANDLE_IF_RECURSIVE HANDLED OUT !, RHS = " + rhs); } break; case '&': { nextRequiredToken('&'); //System.out.println("HANDLE_IF_RECURSIVE HANDLING &&, LHS = " + ifValue); boolean rhs = handleIfRecursive(true); //System.out.println("HANDLE_IF_RECURSIVE HANDLED &&, RHS = " + rhs); ifValue = ifValue && rhs; } break; case '|': { nextRequiredToken('|'); //System.out.println("HANDLE_IF_RECURSIVE HANDLING ||, LHS = " + ifValue); boolean rhs = handleIfRecursive(true); //System.out.println("HANDLE_IF_RECURSIVE HANDLED ||, RHS = " + rhs); ifValue = ifValue || rhs; } break; case '>': { // NOTE: we don't handle expressions like this properly boolean rhs = handleIfRecursive(true); ifValue = false; } break; case '<': { // NOTE: we don't handle expressions like this properly boolean rhs = handleIfRecursive(true); ifValue = false; } break; case '=': { // NOTE: we don't handle expressions like this properly boolean rhs = handleIfRecursive(true); ifValue = false; } break; case StreamTokenizer.TT_WORD: { String word = curTokenAsString(); if (word.equals("defined")) { // Handle things like #if defined(SOMESYMBOL) nextRequiredToken('('); String symbol = nextWord(); boolean isDefined = defineMap.get(symbol) != null; //System.out.println("HANDLE_IF_RECURSIVE HANDLING defined(" + symbol + ") = " + isDefined); ifValue = ifValue && isDefined; nextRequiredToken(')'); } else { // Handle things like #if SOME_SYMBOL. String symbolValue = (String)defineMap.get(word); // See if the statement is "true"; i.e., a non-zero expression if (symbolValue != null) { // The statement is true if the symbol is defined and is a constant expression return (!nonConstantDefines.contains(word)); } else { // The statement is true if the symbol evaluates to a non-zero value // // NOTE: This doesn't yet handle evaluable expressions like "#if // SOME_SYMBOL > 5" or "#if SOME_SYMBOL == 0", both of which are // valid syntax. It only handles numeric symbols like "#if 1" try { // see if it's in decimal form return Double.parseDouble(word) != 0; } catch (NumberFormatException nfe1) { try { // ok, it's not a valid decimal value, try hex/octal value return Long.parseLong(word) != 0; } catch (NumberFormatException nfe2) { try { // ok, it's not a valid hex/octal value, try boolean return Boolean.valueOf(word) == Boolean.TRUE; } catch (NumberFormatException nfe3) { // give up; the symbol isn't a numeric or boolean value return false; } } } } } } // end case TT_WORD break; case StreamTokenizer.TT_EOL: //System.out.println("HANDLE_IF_RECURSIVE HIT !"); pushBackToken(); // so caller hits EOL as well if we're recursing break; case StreamTokenizer.TT_EOF: throw new RuntimeException("Unexpected end of file while parsing " + "#if statement at file " + filename() + ", line " + lineNumber()); default: throw new RuntimeException("Unexpected token (" + curTokenAsString() + ") while parsing " + "#if statement at file " + filename() + ", line " + lineNumber()); } //System.out.println("END OF WHILE: greedy = " + greedy + " parens = " +openParens + " not EOL = " + (tok != StreamTokenizer.TT_EOL) + " --> " + ((greedy && openParens >= 0) && tok != StreamTokenizer.TT_EOL)); } while ((greedy && openParens >= 0) && tok != StreamTokenizer.TT_EOL); //System.out.println("OUT HANDLE_IF_RECURSIVE (" + tmp-- + ", returning " + ifValue + ")"); //System.out.flush(); return ifValue; } ///////////////////////////////////// // Handling of #include directives // ///////////////////////////////////// private void handleInclude() throws IOException { // Two kinds of #includes: one with quoted string for argument, // one with angle brackets surrounding argument int t = nextToken(); String filename = null; if (t == '"') { filename = curWord(); } else if (t == '<') { // Components of path name are coming in as separate tokens; // concatenate them StringBuffer buf = new StringBuffer(); while ((t = nextToken()) != '>' && (t != StreamTokenizer.TT_EOF)) { buf.append(curTokenAsString()); } if (t == StreamTokenizer.TT_EOF) { System.err.println("WARNING: unexpected EOF while processing #include directive"); } filename = buf.toString(); } // if we're not within an active block of code (like inside an "#ifdef // FOO" where FOO isn't defined), then don't actually process the // #included file. debugPrint(true, "#include [" + filename + "]"); if (enabled()) { // Look up file in known #include path String fullname = findFile(filename); //System.out.println("ACTIVE BLOCK, LOADING " + filename); if (fullname == null) { System.err.println("WARNING: unable to find #include file \"" + filename + "\""); return; } // Process this file in-line Reader reader = new BufferedReader(new FileReader(fullname)); run(reader, fullname); } else { //System.out.println("INACTIVE BLOCK, SKIPPING " + filename); } } //////////// // Output // //////////// private OutputStream out; private PrintWriter writer; private ArrayList enabledBits = new ArrayList(); private static int debugPrintIndentLevel = 0; private void debugPrint(boolean onlyPrintIfEnabled, String msg) { if (disableDebugPrint) { return; } if (!onlyPrintIfEnabled || (onlyPrintIfEnabled && enabled())) { for (int i = debugPrintIndentLevel; --i >0; ) { System.out.print(" "); } System.out.println(msg + " (line " + lineNumber() + " file " + filename() + ")"); } } private void pushEnableBit(boolean enabled) { enabledBits.add(new Boolean(enabled)); ++debugPrintIndentLevel; //debugPrint(false, "PUSH_ENABLED, NOW: " + enabled()); } private void popEnableBit() { if (enabledBits.size() == 0) { System.err.println("WARNING: mismatched #ifdef/endif pairs"); return; } enabledBits.remove(enabledBits.size() - 1); --debugPrintIndentLevel; //debugPrint(false, "POP_ENABLED, NOW: " + enabled()); } private boolean enabled() { return (enabledBits.size() == 0 || ((Boolean) enabledBits.get(enabledBits.size() - 1)).booleanValue()); } private void print(String s) { if (enabled()) { writer.print(s); //System.out.print(s);//debug } } private void print(char c) { if (enabled()) { writer.print(c); //System.err.print(c); //debug } } private void println() { if (enabled()) { writer.println(); //System.err.println();//debug } } private void printToken() { print(curTokenAsString()); } private void flush() { if (enabled()) { writer.flush(); //System.err.flush(); //debug } } private void lineDirective() { print("#line " + lineNumber() + " \"" + filename() + "\""); println(); } }