/* * * Copyright 2001-2004 The Ant-Contrib project * * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. */ package net.sf.antcontrib.cpptasks; import java.util.Enumeration; import java.util.Vector; import net.sf.antcontrib.cpptasks.compiler.CommandLineCompiler; import net.sf.antcontrib.cpptasks.compiler.Compiler; import net.sf.antcontrib.cpptasks.compiler.Processor; import net.sf.antcontrib.cpptasks.gcc.GccCCompiler; import net.sf.antcontrib.cpptasks.types.CompilerArgument; import net.sf.antcontrib.cpptasks.types.ConditionalPath; import net.sf.antcontrib.cpptasks.types.DefineSet; import net.sf.antcontrib.cpptasks.types.IncludePath; import net.sf.antcontrib.cpptasks.types.SystemIncludePath; import net.sf.antcontrib.cpptasks.types.UndefineArgument; import org.apache.tools.ant.BuildException; import org.apache.tools.ant.Project; /** * A compiler definition. compiler elements may be placed either as children of * a cc element or the project element. A compiler element with an id attribute * may be referenced from compiler elements with refid or extends attributes. * * @author Adam Murdoch */ public final class CompilerDef extends ProcessorDef { /** The source file sets. */ private final Vector defineSets = new Vector(); private Boolean exceptions; private Boolean rtti; private final Vector includePaths = new Vector(); private Boolean multithreaded; private final Vector precompileDefs = new Vector(); private final Vector sysIncludePaths = new Vector(); private OptimizationEnum optimization; private int warnings = -1; public CompilerDef() { } /** * Adds a compiler command-line arg. */ public void addConfiguredCompilerArg(CompilerArgument arg) { if (isReference()) { throw noChildrenAllowed(); } addConfiguredProcessorArg(arg); } /** * Adds a compiler command-line arg. */ public void addConfiguredCompilerParam(CompilerParam param) { if (isReference()) { throw noChildrenAllowed(); } addConfiguredProcessorParam(param); } /** * Adds a defineset. */ public void addConfiguredDefineset(DefineSet defs) { if (defs == null) { throw new NullPointerException("defs"); } if (isReference()) { throw noChildrenAllowed(); } defineSets.addElement(defs); } /** * Creates an include path. */ public IncludePath createIncludePath() { Project p = getProject(); if (p == null) { throw new java.lang.IllegalStateException("project must be set"); } if (isReference()) { throw noChildrenAllowed(); } IncludePath path = new IncludePath(p); includePaths.addElement(path); return path; } /** * Specifies precompilation prototype file and exclusions. * */ public PrecompileDef createPrecompile() throws BuildException { Project p = getProject(); if (isReference()) { throw noChildrenAllowed(); } PrecompileDef precomp = new PrecompileDef(); precomp.setProject(p); precompileDefs.addElement(precomp); return precomp; } /** * Creates a system include path. Locations and timestamps of files located * using the system include paths are not used in dependency analysis. * * * Standard include locations should not be specified. The compiler * adapters should recognized the settings from the appropriate environment * variables or configuration files. */ public SystemIncludePath createSysIncludePath() { Project p = getProject(); if (p == null) { throw new java.lang.IllegalStateException("project must be set"); } if (isReference()) { throw noChildrenAllowed(); } SystemIncludePath path = new SystemIncludePath(p); sysIncludePaths.addElement(path); return path; } public void execute() throws org.apache.tools.ant.BuildException { throw new org.apache.tools.ant.BuildException( "Not an actual task, but looks like one for documentation purposes"); } public UndefineArgument[] getActiveDefines() { Project p = getProject(); if (p == null) { throw new java.lang.IllegalStateException( "project must be set before this call"); } if (isReference()) { return ((CompilerDef) getCheckedRef(CompilerDef.class, "CompilerDef")).getActiveDefines(); } Vector actives = new Vector(); for (int i = 0; i < defineSets.size(); i++) { DefineSet currentSet = (DefineSet) defineSets.elementAt(i); UndefineArgument[] defines = currentSet.getDefines(); for (int j = 0; j < defines.length; j++) { if (defines[j].isActive(p)) { actives.addElement(defines[j]); } } } UndefineArgument[] retval = new UndefineArgument[actives.size()]; actives.copyInto(retval); return retval; } /** * Returns the compiler-specific include path. */ public String[] getActiveIncludePaths() { if (isReference()) { return ((CompilerDef) getCheckedRef(CompilerDef.class, "CompilerDef")).getActiveIncludePaths(); } return getActivePaths(includePaths); } private String[] getActivePaths(Vector paths) { Project p = getProject(); if (p == null) { throw new java.lang.IllegalStateException("project not set"); } Vector activePaths = new Vector(paths.size()); for (int i = 0; i < paths.size(); i++) { ConditionalPath path = (ConditionalPath) paths.elementAt(i); if (path.isActive(p)) { String[] pathEntries = path.list(); for (int j = 0; j < pathEntries.length; j++) { activePaths.addElement(pathEntries[j]); } } } String[] pathNames = new String[activePaths.size()]; activePaths.copyInto(pathNames); return pathNames; } public PrecompileDef getActivePrecompile(CompilerDef ccElement) { if (isReference()) { return ((CompilerDef) getCheckedRef(CompilerDef.class, "CompilerDef")).getActivePrecompile(ccElement); } PrecompileDef current = null; Enumeration iter = precompileDefs.elements(); while (iter.hasMoreElements()) { current = (PrecompileDef) iter.nextElement(); if (current.isActive()) { return current; } } CompilerDef extendedDef = (CompilerDef) getExtends(); if (extendedDef != null) { current = extendedDef.getActivePrecompile(null); if (current != null) { return current; } } if (ccElement != null && getInherit()) { return ccElement.getActivePrecompile(null); } return null; } public String[] getActiveSysIncludePaths() { if (isReference()) { return ((CompilerDef) getCheckedRef(CompilerDef.class, "CompilerDef")).getActiveSysIncludePaths(); } return getActivePaths(sysIncludePaths); } public final boolean getExceptions(CompilerDef[] defaultProviders, int index) { if (isReference()) { return ((CompilerDef) getCheckedRef(CompilerDef.class, "CompilerDef")).getExceptions(defaultProviders, index); } if (exceptions != null) { return exceptions.booleanValue(); } else { if (defaultProviders != null && index < defaultProviders.length) { return defaultProviders[index].getExceptions(defaultProviders, index + 1); } } return false; } public final Boolean getRtti(CompilerDef[] defaultProviders, int index) { if (isReference()) { return ((CompilerDef) getCheckedRef(CompilerDef.class, "CompilerDef")).getRtti(defaultProviders, index); } if (rtti != null) { return rtti; } else { if (defaultProviders != null && index < defaultProviders.length) { return defaultProviders[index].getRtti(defaultProviders, index + 1); } } return null; } public final OptimizationEnum getOptimization(CompilerDef[] defaultProviders, int index) { if (isReference()) { return ((CompilerDef) getCheckedRef(CompilerDef.class, "CompilerDef")).getOptimization(defaultProviders, index); } if (optimization != null) { return optimization; } else { if (defaultProviders != null && index < defaultProviders.length) { return defaultProviders[index].getOptimization(defaultProviders, index + 1); } } return null; } public boolean getMultithreaded(CompilerDef[] defaultProviders, int index) { if (isReference()) { return ((CompilerDef) getCheckedRef(CompilerDef.class, "CompilerDef")).getMultithreaded(defaultProviders, index); } if (multithreaded != null) { return multithreaded.booleanValue(); } else { if (defaultProviders != null && index < defaultProviders.length) { return defaultProviders[index].getMultithreaded( defaultProviders, index + 1); } } return true; } public Processor getProcessor() { Processor processor = super.getProcessor(); if (processor == null) { processor = GccCCompiler.getInstance(); } if (getLibtool() && processor instanceof CommandLineCompiler) { CommandLineCompiler compiler = (CommandLineCompiler) processor; processor = compiler.getLibtoolCompiler(); } return processor; } public int getWarnings(CompilerDef[] defaultProviders, int index) { if (isReference()) { return ((CompilerDef) getCheckedRef(CompilerDef.class, "CompilerDef")).getWarnings(defaultProviders, index); } if (warnings == -1) { if (defaultProviders != null && index < defaultProviders.length) { return defaultProviders[index].getWarnings(defaultProviders, index + 1); } } return warnings; } /** * Sets the default compiler adapter. Use the "name" attribute when the * compiler is a supported compiler. * * @param classname * fully qualified classname which implements CompilerAdapter */ public void setClassname(String classname) throws BuildException { if (isReference()) { throw tooManyAttributes(); } super.setClassname(classname); Processor proc = getProcessor(); if (!(proc instanceof Compiler)) { throw new BuildException(classname + " does not implement Compiler"); } } /** * Enables or disables exception support. * * @param exceptions * if true, exceptions are supported. * */ public void setExceptions(boolean exceptions) { if (isReference()) { throw tooManyAttributes(); } this.exceptions = booleanValueOf(exceptions); } /** * Enables or disables run-time type information. * * @param rtti * if true, run-time type information is supported. * */ public void setRtti(boolean rtti) { if (isReference()) { throw tooManyAttributes(); } this.rtti = booleanValueOf(rtti); } /** * Enables or disables generation of multithreaded code. Unless specified, * multithreaded code generation is enabled. * * @param multi * If true, generated code may be multithreaded. */ public void setMultithreaded(boolean multithreaded) { if (isReference()) { throw tooManyAttributes(); } this.multithreaded = booleanValueOf(multithreaded); } /** * Sets compiler type. * * * Supported compilers * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * *
gcc (default)GCC C++ compiler
g++GCC C++ compiler
c++GCC C++ compiler
g77GNU Fortran compiler
msvcMicrosoft Visual C++
bccBorland C++ Compiler
msrcMicrosoft Resource Compiler
brcBorland Resource Compiler
dfCompaq Visual Fortran Compiler
midlMicrosoft MIDL Compiler
iclIntel C++ compiler for Windows (IA-32)
eclIntel C++ compiler for Windows (IA-64)
iccIntel C++ compiler for Linux (IA-32)
eccIntel C++ compiler for Linux (IA-64)
CCSun ONE C++ compiler
aCCHP aC++ C++ Compiler
os390OS390 C Compiler
os400Icc Compiler
sunc89Sun C89 C Compiler
xlCVisualAge C Compiler
uicQt user interface compiler
mocQt meta-object compiler
wclOpenWatcom C/C++ compiler
wflOpenWatcom FORTRAN compiler
* */ public void setName(CompilerEnum name) throws BuildException { if (isReference()) { throw tooManyAttributes(); } Compiler compiler = name.getCompiler(); setProcessor(compiler); } protected void setProcessor(Processor proc) throws BuildException { try { super.setProcessor((Compiler) proc); } catch (ClassCastException ex) { throw new BuildException(ex); } } /** * Enumerated attribute with the values "none", "severe", "default", * "production", "diagnostic", and "aserror". */ public void setWarnings(WarningLevelEnum level) { warnings = level.getIndex(); } /** * Sets optimization level. * * @param value optimization level */ public void setOptimize(OptimizationEnum value) { if (isReference()) { throw tooManyAttributes(); } this.optimization = value; } }