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/*
* Copyright (c) 2003-2005 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.procaddress;
import java.io.*;
import java.text.MessageFormat;
import java.util.*;
import com.sun.gluegen.*;
import com.sun.gluegen.cgram.types.*;
import com.jogamp.gluegen.runtime.*;
/**
* A subclass of JavaEmitter that modifies the normal emission of C
* and Java code to allow dynamic lookups of the C entry points
* associated with the Java methods.
*/
public class ProcAddressEmitter extends JavaEmitter {
public static final String PROCADDRESS_VAR_PREFIX = ProcAddressTable.PROCADDRESS_VAR_PREFIX;
protected static final String WRAP_PREFIX = "dispatch_";
private TypeDictionary typedefDictionary;
protected PrintWriter tableWriter;
protected Set<String> emittedTableEntries;
protected String tableClassPackage;
protected String tableClassName;
@Override
public void beginFunctions(TypeDictionary typedefDictionary, TypeDictionary structDictionary, Map<Type, Type> canonMap) throws Exception {
this.typedefDictionary = typedefDictionary;
if (getProcAddressConfig().emitProcAddressTable()) {
beginProcAddressTable();
}
super.beginFunctions(typedefDictionary, structDictionary, canonMap);
}
@Override
public void endFunctions() throws Exception {
if (getProcAddressConfig().emitProcAddressTable()) {
endProcAddressTable();
}
super.endFunctions();
}
@Override
public void beginStructs(TypeDictionary typedefDictionary, TypeDictionary structDictionary, Map<Type, Type> canonMap) throws Exception {
super.beginStructs(typedefDictionary, structDictionary, canonMap);
}
public String runtimeExceptionType() {
return getConfig().runtimeExceptionType();
}
public String unsupportedExceptionType() {
return getConfig().unsupportedExceptionType();
}
@Override
protected JavaConfiguration createConfig() {
return new ProcAddressConfiguration();
}
@Override
protected List<? extends FunctionEmitter> generateMethodBindingEmitters(Set<MethodBinding> methodBindingSet, FunctionSymbol sym) throws Exception {
return generateMethodBindingEmittersImpl(methodBindingSet, sym);
}
protected boolean needsModifiedEmitters(FunctionSymbol sym) {
if (!needsProcAddressWrapper(sym)
|| getConfig().isUnimplemented(getAliasedSymName(sym))) {
return false;
}
return true;
}
private List<? extends FunctionEmitter> generateMethodBindingEmittersImpl(Set<MethodBinding> methodBindingSet, FunctionSymbol sym) throws Exception {
List<? extends FunctionEmitter> defaultEmitters = super.generateMethodBindingEmitters(methodBindingSet, sym);
// if the superclass didn't generate any bindings for the symbol, let's
// honor that (for example, the superclass might have caught an Ignore
// direction that matched the symbol's name).
if (defaultEmitters.isEmpty()) {
return defaultEmitters;
}
// Don't do anything special if this symbol doesn't require
// modifications
if (!needsModifiedEmitters(sym)) {
return defaultEmitters;
}
ArrayList<FunctionEmitter> modifiedEmitters = new ArrayList<FunctionEmitter>(defaultEmitters.size());
if (needsProcAddressWrapper(sym)) {
if (getProcAddressConfig().emitProcAddressTable()) {
// emit an entry in the GL proc address table for this method.
emitProcAddressTableEntryForString(getAliasedSymName(sym));
}
}
for (FunctionEmitter emitter : defaultEmitters) {
if (emitter instanceof JavaMethodBindingEmitter) {
generateModifiedEmitters((JavaMethodBindingEmitter)emitter, modifiedEmitters);
} else if (emitter instanceof CMethodBindingEmitter) {
generateModifiedEmitters((CMethodBindingEmitter) emitter, modifiedEmitters);
} else {
throw new RuntimeException("Unexpected emitter type: " + emitter.getClass().getName());
}
}
return modifiedEmitters;
}
/**
* Returns the name of the typedef for a pointer to the function
* represented by the argument as defined by the ProcAddressNameExpr
* in the .cfg file. For example, in the OpenGL headers, if the
* argument is the function "glFuncName", the value returned will be
* "PFNGLFUNCNAMEPROC". This returns a valid string regardless of
* whether or not the typedef is actually defined.
*/
protected String getFunctionPointerTypedefName(FunctionSymbol sym) {
return getProcAddressConfig().convertToFunctionPointerName(sym.getName());
}
//----------------------------------------------------------------------
// Internals only below this point
//
protected void generateModifiedEmitters(JavaMethodBindingEmitter baseJavaEmitter, List<FunctionEmitter> emitters) {
if (getConfig().manuallyImplement(baseJavaEmitter.getName())) {
// User will provide Java-side implementation of this routine;
// pass through any emitters which will produce signatures for
// it unmodified
emitters.add(baseJavaEmitter);
return;
}
// See whether we need a proc address entry for this one
boolean callThroughProcAddress = needsProcAddressWrapper(baseJavaEmitter.getBinding().getCSymbol());
ProcAddressJavaMethodBindingEmitter emitter =
new ProcAddressJavaMethodBindingEmitter(baseJavaEmitter,
callThroughProcAddress,
getProcAddressConfig().getProcAddressTableExpr(),
baseJavaEmitter.isForImplementingMethodCall(),
this);
emitters.add(emitter);
// If this emitter doesn't have a body (i.e., is a direct native
// call with no intervening argument processing), we need to force
// it to emit a body, and produce another one to act as the entry
// point
// FIXME: the negative test against the PRIVATE modifier is a
// nasty hack to prevent the ProcAddressJavaMethodBindingEmitter
// from incorrectly introducing method bodies to the private
// native implementing methods; want this to work at least for
// public and package-private methods
if (baseJavaEmitter.signatureOnly()
&& !baseJavaEmitter.hasModifier(JavaMethodBindingEmitter.PRIVATE)
&& baseJavaEmitter.hasModifier(JavaMethodBindingEmitter.NATIVE)
&& callThroughProcAddress) {
emitter.setEmitBody(true);
emitter.removeModifier(JavaMethodBindingEmitter.NATIVE);
emitter = new ProcAddressJavaMethodBindingEmitter(baseJavaEmitter,
callThroughProcAddress,
getProcAddressConfig().getProcAddressTableExpr(),
true,
this);
emitter.setForImplementingMethodCall(true);
emitters.add(emitter);
}
}
protected void generateModifiedEmitters(CMethodBindingEmitter baseCEmitter, List<FunctionEmitter> emitters) {
FunctionSymbol cSymbol = baseCEmitter.getBinding().getCSymbol();
// See whether we need a proc address entry for this one
boolean callThroughProcAddress = needsProcAddressWrapper(cSymbol);
boolean forceProcAddress = getProcAddressConfig().forceProcAddressGen(cSymbol.getName());
String forcedCallingConvention = null;
if (forceProcAddress) {
forcedCallingConvention = getProcAddressConfig().getLocalProcAddressCallingConvention(cSymbol.getName());
}
// Note that we don't care much about the naming of the C argument
// variables so to keep things simple we ignore the buffer object
// property for the binding
// The C-side JNI binding for this particular function will have an
// extra final argument, which is the address (the OpenGL procedure
// address) of the function it needs to call
ProcAddressCMethodBindingEmitter res = new ProcAddressCMethodBindingEmitter(
baseCEmitter, callThroughProcAddress, forceProcAddress, forcedCallingConvention, this);
MessageFormat exp = baseCEmitter.getReturnValueCapacityExpression();
if (exp != null) {
res.setReturnValueCapacityExpression(exp);
}
emitters.add(res);
}
private String getAliasedSymName(FunctionSymbol sym) {
String symName = getConfig().getJavaSymbolRename(sym.getName());
if (null == symName) {
symName = sym.getName();
}
return symName;
}
protected boolean needsProcAddressWrapper(FunctionSymbol sym) {
String symName = getAliasedSymName(sym);
ProcAddressConfiguration config = getProcAddressConfig();
// We should only generate code to call through a function pointer
// if the symbol has an associated function pointer typedef.
String funcPointerTypedefName = getFunctionPointerTypedefName(sym);
boolean shouldWrap = typedefDictionary.containsKey(funcPointerTypedefName);
//System.err.println(funcPointerTypedefName + " defined: " + shouldWrap);
if (config.skipProcAddressGen(symName)) {
shouldWrap = false;
}
if (config.forceProcAddressGen(symName)) {
shouldWrap = true;
}
if (shouldWrap) {
// Hoist argument names from function pointer if not supplied in prototype
Type funcPointerType = typedefDictionary.get(funcPointerTypedefName);
if (funcPointerType != null) {
FunctionType typedef = funcPointerType.asPointer().getTargetType().asFunction();
FunctionType fun = sym.getType();
int numarg = typedef.getNumArguments();
for (int i = 0; i < numarg; i++) {
if (fun.getArgumentName(i) == null) {
fun.setArgumentName(i, typedef.getArgumentName(i));
}
}
}
}
return shouldWrap;
}
protected void beginProcAddressTable() throws Exception {
tableClassPackage = getProcAddressConfig().tableClassPackage();
tableClassName = getProcAddressConfig().tableClassName();
// Table defaults to going into the impl directory unless otherwise overridden
String implPackageName = tableClassPackage;
if (implPackageName == null) {
implPackageName = getImplPackageName();
}
String jImplRoot = getJavaOutputDir() + File.separator + CodeGenUtils.packageAsPath(implPackageName);
tableWriter = openFile(jImplRoot + File.separator + tableClassName + ".java");
emittedTableEntries = new HashSet<String>();
CodeGenUtils.emitAutogeneratedWarning(tableWriter, this);
tableWriter.println("package " + implPackageName + ";");
tableWriter.println();
for (String imporT : getConfig().imports()) {
tableWriter.println("import " + imporT + ";");
}
tableWriter.println("import " + ProcAddressTable.class.getName() + ";");
tableWriter.println();
tableWriter.println("/**");
tableWriter.println(" * This table is a cache of pointers to the dynamically-linkable C library.");
tableWriter.println(" * @see " + ProcAddressTable.class.getSimpleName());
tableWriter.println(" */");
tableWriter.println("public class " + tableClassName + " extends "+ ProcAddressTable.class.getSimpleName() + " {");
tableWriter.println();
for (String string : getProcAddressConfig().getForceProcAddressGen()) {
emitProcAddressTableEntryForString(string);
}
tableWriter.println();
tableWriter.println(" public "+tableClassName+"(){ super(); }");
tableWriter.println();
tableWriter.println(" public "+tableClassName+"("+FunctionAddressResolver.class.getName()+" resolver){ super(resolver); }");
tableWriter.println();
}
protected void endProcAddressTable() throws Exception {
tableWriter.println("} // end of class " + tableClassName);
tableWriter.flush();
tableWriter.close();
}
protected void emitProcAddressTableEntryForString(String str) {
// Deal gracefully with forced proc address generation in the face
// of having the function pointer typedef in the header file too
if (emittedTableEntries.contains(str)) {
return;
}
emittedTableEntries.add(str);
tableWriter.print(" public long ");
tableWriter.print(PROCADDRESS_VAR_PREFIX);
tableWriter.print(str);
tableWriter.println(";");
}
protected ProcAddressConfiguration getProcAddressConfig() {
return (ProcAddressConfiguration) getConfig();
}
}
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