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|
/*
* 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;
import java.io.*;
import java.util.*;
import java.text.MessageFormat;
import com.sun.gluegen.cgram.types.*;
import com.sun.gluegen.cgram.*;
/**
* An emitter that emits only the interface for a Java<->C JNI binding.
*/
public class JavaMethodBindingEmitter extends FunctionEmitter {
public static final EmissionModifier PUBLIC = new EmissionModifier("public");
public static final EmissionModifier PROTECTED = new EmissionModifier("protected");
public static final EmissionModifier PRIVATE = new EmissionModifier("private");
public static final EmissionModifier ABSTRACT = new EmissionModifier("abstract");
public static final EmissionModifier FINAL = new EmissionModifier("final");
public static final EmissionModifier NATIVE = new EmissionModifier("native");
public static final EmissionModifier SYNCHRONIZED = new EmissionModifier("synchronized");
protected final CommentEmitter defaultJavaCommentEmitter = new DefaultCommentEmitter();
protected final CommentEmitter defaultInterfaceCommentEmitter = new InterfaceCommentEmitter();
// Exception type raised in the generated code if runtime checks fail
private String runtimeExceptionType;
private String unsupportedExceptionType;
protected boolean emitBody;
protected boolean eraseBufferAndArrayTypes;
protected boolean directNIOOnly;
protected boolean forImplementingMethodCall;
protected boolean forDirectBufferImplementation;
protected boolean forIndirectBufferAndArrayImplementation;
protected boolean isUnimplemented;
protected boolean tagNativeBinding;
protected MethodBinding binding;
// Manually-specified prologue and epilogue code
protected List<String> prologue;
protected List<String> epilogue;
// A non-null value indicates that rather than returning a compound
// type accessor we are returning an array of such accessors; this
// expression is a MessageFormat string taking the names of the
// incoming Java arguments as parameters and computing as an int the
// number of elements of the returned array.
private String returnedArrayLengthExpression;
// A suffix used to create a temporary outgoing array of Buffers to
// represent an array of compound type wrappers
private static final String COMPOUND_ARRAY_SUFFIX = "_buf_array_copy";
// Only present to provide more clear comments
private JavaConfiguration cfg;
public JavaMethodBindingEmitter(MethodBinding binding,
PrintWriter output,
String runtimeExceptionType,
String unsupportedExceptionType,
boolean emitBody,
boolean tagNativeBinding,
boolean eraseBufferAndArrayTypes,
boolean directNIOOnly,
boolean forImplementingMethodCall,
boolean forDirectBufferImplementation,
boolean forIndirectBufferAndArrayImplementation,
boolean isUnimplemented,
boolean isInterface,
JavaConfiguration configuration) {
super(output, isInterface);
this.binding = binding;
this.runtimeExceptionType = runtimeExceptionType;
this.unsupportedExceptionType = unsupportedExceptionType;
this.emitBody = emitBody;
this.tagNativeBinding = tagNativeBinding;
this.eraseBufferAndArrayTypes = eraseBufferAndArrayTypes;
this.directNIOOnly = directNIOOnly;
this.forImplementingMethodCall = forImplementingMethodCall;
this.forDirectBufferImplementation = forDirectBufferImplementation;
this.forIndirectBufferAndArrayImplementation = forIndirectBufferAndArrayImplementation;
this.isUnimplemented = isUnimplemented;
if (forImplementingMethodCall) {
setCommentEmitter(defaultJavaCommentEmitter);
} else {
setCommentEmitter(defaultInterfaceCommentEmitter);
}
cfg = configuration;
}
public JavaMethodBindingEmitter(JavaMethodBindingEmitter arg) {
super(arg);
binding = arg.binding;
runtimeExceptionType = arg.runtimeExceptionType;
unsupportedExceptionType = arg.unsupportedExceptionType;
emitBody = arg.emitBody;
tagNativeBinding = arg.tagNativeBinding;
eraseBufferAndArrayTypes = arg.eraseBufferAndArrayTypes;
directNIOOnly = arg.directNIOOnly;
forImplementingMethodCall = arg.forImplementingMethodCall;
forDirectBufferImplementation = arg.forDirectBufferImplementation;
forIndirectBufferAndArrayImplementation = arg.forIndirectBufferAndArrayImplementation;
isUnimplemented = arg.isUnimplemented;
prologue = arg.prologue;
epilogue = arg.epilogue;
returnedArrayLengthExpression = arg.returnedArrayLengthExpression;
cfg = arg.cfg;
}
public final MethodBinding getBinding() { return binding; }
public boolean isForImplementingMethodCall() { return forImplementingMethodCall; }
public boolean isForDirectBufferImplementation() { return forDirectBufferImplementation; }
public boolean isForIndirectBufferAndArrayImplementation() { return forIndirectBufferAndArrayImplementation; }
public String getName() {
return binding.getName();
}
protected String getArgumentName(int i) {
return binding.getArgumentName(i);
}
/** The type of exception (must subclass
<code>java.lang.RuntimeException</code>) raised if runtime
checks fail in the generated code. */
public String getRuntimeExceptionType() {
return runtimeExceptionType;
}
public String getUnsupportedExceptionType() {
return unsupportedExceptionType;
}
/** If the underlying function returns an array (currently only
arrays of compound types are supported) as opposed to a pointer
to an object, this method should be called to provide a
MessageFormat string containing an expression that computes the
number of elements of the returned array. The parameters to the
MessageFormat expression are the names of the incoming Java
arguments. */
public void setReturnedArrayLengthExpression(String expr) {
returnedArrayLengthExpression = expr;
}
/** Sets the manually-generated prologue code for this emitter. */
public void setPrologue(List<String> prologue) {
this.prologue = prologue;
}
/** Sets the manually-generated epilogue code for this emitter. */
public void setEpilogue(List<String> epilogue) {
this.epilogue = epilogue;
}
/** Indicates whether this emitter will print only a signature, or
whether it will emit Java code for the body of the method as
well. */
public boolean signatureOnly() {
return !emitBody;
}
/** Accessor for subclasses. */
public void setEmitBody(boolean emitBody) {
this.emitBody = emitBody;
}
/** Accessor for subclasses. */
public void setEraseBufferAndArrayTypes(boolean erase) {
this.eraseBufferAndArrayTypes = erase;
}
/** Accessor for subclasses. */
public void setForImplementingMethodCall(boolean impl) {
this.forImplementingMethodCall = impl;
}
/** Accessor for subclasses. */
public void setForDirectBufferImplementation(boolean direct) {
this.forDirectBufferImplementation = direct;
}
/** Accessor for subclasses. */
public void setForIndirectBufferAndArrayImplementation(boolean indirect) {
this.forIndirectBufferAndArrayImplementation = indirect;
}
protected void emitReturnType(PrintWriter writer) {
writer.print(getReturnTypeString(false));
}
protected String erasedTypeString(JavaType type, boolean skipBuffers) {
if (eraseBufferAndArrayTypes) {
if (type.isNIOBuffer()) {
if (!skipBuffers) {
// Direct buffers and arrays sent down as Object (but
// returned as e.g. ByteBuffer)
return "Object";
}
if (!type.isNIOByteBuffer()) {
// Return buffer requiring change of view from ByteBuffer to e.g. LongBuffer
return "ByteBuffer";
}
} else if (type.isPrimitiveArray()) {
if (!skipBuffers) {
// Direct buffers and arrays sent down as Object (but
// returned as e.g. ByteBuffer)
return "Object";
}
} else if (type.isNIOBufferArray()) {
// Arrays of direct Buffers sent down as Object[]
// (Note we don't yet support returning void**)
return "Object[]";
} else if (type.isCompoundTypeWrapper()) {
// Compound type wrappers are unwrapped to ByteBuffer
return "ByteBuffer";
} else if (type.isArrayOfCompoundTypeWrappers()) {
if (skipBuffers) {
return "ByteBuffer";
} else {
// In the case where this is called with a false skipBuffers
// argument we want to erase the array of compound type
// wrappers to ByteBuffer[]
return "ByteBuffer[]";
}
}
}
String name = type.getName();
int index = name.lastIndexOf('.')+1; // always >= 0
name = name.substring(index);
if (type.isArrayOfCompoundTypeWrappers()) {
// We don't want to bake the array specification into the type name
return name + "[]";
}
return name;
}
protected String getReturnTypeString(boolean skipArray) {
// The first arm of the "if" clause is used by the glue code
// generation for arrays of compound type wrappers
if (skipArray ||
// The following arm is used by most other kinds of return types
(getReturnedArrayLengthExpression() == null &&
!binding.getJavaReturnType().isArrayOfCompoundTypeWrappers()) ||
// The following arm is used specifically to get the splitting up
// of one returned ByteBuffer into an array of compound type
// wrappers to work (e.g., XGetVisualInfo)
(eraseBufferAndArrayTypes &&
binding.getJavaReturnType().isCompoundTypeWrapper() &&
(getReturnedArrayLengthExpression() != null))) {
return erasedTypeString(binding.getJavaReturnType(), true);
}
return erasedTypeString(binding.getJavaReturnType(), true) + "[]";
}
protected void emitName(PrintWriter writer) {
if (forImplementingMethodCall) {
writer.print(getImplMethodName());
} else {
writer.print(getName());
}
}
protected int emitArguments(PrintWriter writer) {
boolean needComma = false;
int numEmitted = 0;
if (forImplementingMethodCall && binding.hasContainingType()) {
// Always emit outgoing "this" argument
writer.print("ByteBuffer ");
writer.print(javaThisArgumentName());
++numEmitted;
needComma = true;
}
for (int i = 0; i < binding.getNumArguments(); i++) {
JavaType type = binding.getJavaArgumentType(i);
if (type.isVoid()) {
// Make sure this is the only param to the method; if it isn't,
// there's something wrong with our parsing of the headers.
if (binding.getNumArguments() != 1) {
throw new InternalError(
"\"void\" argument type found in " +
"multi-argument function \"" + binding + "\"");
}
continue;
}
if (type.isJNIEnv() || binding.isArgumentThisPointer(i)) {
// Don't need to expose these at the Java level
continue;
}
if (needComma) {
writer.print(", ");
}
writer.print(erasedTypeString(type, false));
writer.print(" ");
writer.print(getArgumentName(i));
++numEmitted;
needComma = true;
// Add Buffer and array index offset arguments after each associated argument
if (forDirectBufferImplementation || forIndirectBufferAndArrayImplementation) {
if (type.isNIOBuffer()) {
writer.print(", int " + byteOffsetArgName(i));
if(!directNIOOnly) {
writer.print(", boolean " + isNIOArgName(i));
}
} else if (type.isNIOBufferArray()) {
writer.print(", int[] " + byteOffsetArrayArgName(i));
}
}
// Add offset argument after each primitive array
if (type.isPrimitiveArray()) {
if(directNIOOnly) {
throw new RuntimeException("NIODirectOnly "+binding+" is set, but "+getArgumentName(i)+" is a primitive array");
}
writer.print(", int " + offsetArgName(i));
}
}
return numEmitted;
}
protected String getImplMethodName() {
return binding.getName() + ( directNIOOnly ? "0" : "1" );
}
protected String byteOffsetArgName(int i) {
return byteOffsetArgName(getArgumentName(i));
}
protected String byteOffsetArgName(String s) {
return s + "_byte_offset";
}
protected String isNIOArgName(int i) {
return isNIOArgName(binding.getArgumentName(i));
}
protected String isNIOArgName(String s) {
return s + "_is_direct";
}
protected String byteOffsetArrayArgName(int i) {
return getArgumentName(i) + "_byte_offset_array";
}
protected String offsetArgName(int i) {
return getArgumentName(i) + "_offset";
}
protected void emitBody(PrintWriter writer) {
if (!emitBody) {
writer.println(';');
} else {
MethodBinding mBinding = getBinding();
writer.println(" {");
writer.println();
if (isUnimplemented) {
writer.println(" throw new " + getUnsupportedExceptionType() + "(\"Unimplemented\");");
} else {
emitPrologueOrEpilogue(prologue, writer);
emitPreCallSetup(mBinding, writer);
//emitReturnVariableSetup(binding, writer);
emitReturnVariableSetupAndCall(mBinding, writer);
}
writer.println(" }");
}
}
protected void emitPrologueOrEpilogue(List<String> code, PrintWriter writer) {
if (code != null) {
String[] argumentNames = argumentNameArray();
for (String str : code) {
try {
MessageFormat fmt = new MessageFormat(str);
writer.println(" " + fmt.format(argumentNames));
} catch (IllegalArgumentException e) {
// (Poorly) handle case where prologue / epilogue contains blocks of code with braces
writer.println(" " + str);
}
}
}
}
protected void emitPreCallSetup(MethodBinding binding, PrintWriter writer) {
emitArrayLengthAndNIOBufferChecks(binding, writer);
emitCompoundArrayCopies(binding, writer);
}
protected void emitArrayLengthAndNIOBufferChecks(MethodBinding binding, PrintWriter writer) {
// Check lengths of any incoming arrays if necessary
for (int i = 0; i < binding.getNumArguments(); i++) {
Type type = binding.getCArgumentType(i);
if (type.isArray()) {
ArrayType arrayType = type.asArray();
writer.println(" if (" + getArgumentName(i) + ".length < " +
arrayType.getLength() + ")");
writer.println(" throw new " + getRuntimeExceptionType() +
"(\"Length of array \\\"" + getArgumentName(i) +
"\\\" was less than the required " + arrayType.getLength() + "\");");
// FIXME: What is this ??? Until resolved - throw an exception !
throw new RuntimeException("????? "+binding+": binding.getCArgumentType("+i+").isArray(): "+type);
} else {
JavaType javaType = binding.getJavaArgumentType(i);
if (javaType.isNIOBuffer()) {
if (directNIOOnly) {
writer.println(" if (!Buffers.isDirect(" + getArgumentName(i) + "))");
writer.println(" throw new " + getRuntimeExceptionType() + "(\"Argument \\\"" +
getArgumentName(i) + "\\\" was not a direct buffer\");");
} else {
writer.print(" boolean " + isNIOArgName(i) + " = ");
writer.println(getArgumentName(i) + " != null && Buffers.isDirect(" + getArgumentName(i) + ");");
}
} else if (javaType.isNIOBufferArray()) {
// All buffers passed down in an array of NIO buffers must be direct
String argName = getArgumentName(i);
String arrayName = byteOffsetArrayArgName(i);
writer.println(" int[] " + arrayName + " = new int[" + argName + ".length];");
// Check direct buffer properties of all buffers within
writer.println(" if (" + argName + " != null) {");
writer.println(" for (int _ctr = 0; _ctr < " + argName + ".length; _ctr++) {");
writer.println(" if (!Buffers.isDirect(" + argName + "[_ctr])) {");
writer.println(" throw new " + getRuntimeExceptionType() +
"(\"Element \" + _ctr + \" of argument \\\"" +
getArgumentName(i) + "\\\" was not a direct buffer\");");
writer.println(" }");
// get the Buffer Array offset values and save them into another array to send down to JNI
writer.print (" " + arrayName + "[_ctr] = Buffers.getDirectBufferByteOffset(");
writer.println(argName + "[_ctr]);");
writer.println(" }");
writer.println(" }");
} else if (javaType.isPrimitiveArray()) {
String argName = getArgumentName(i);
String offsetArg = offsetArgName(i);
writer.println(" if(" + argName + " != null && " + argName + ".length <= " + offsetArg + ")");
writer.print (" throw new " + getRuntimeExceptionType());
writer.println("(\"array offset argument \\\"" + offsetArg + "\\\" (\" + " + offsetArg +
" + \") equals or exceeds array length (\" + " + argName + ".length + \")\");");
}
}
}
}
protected void emitCompoundArrayCopies(MethodBinding binding, PrintWriter writer) {
// If the method binding uses outgoing arrays of compound type
// wrappers, we need to generate a temporary copy of this array
// into a ByteBuffer[] for processing by the native code
if (binding.signatureUsesArraysOfCompoundTypeWrappers()) {
for (int i = 0; i < binding.getNumArguments(); i++) {
JavaType javaType = binding.getJavaArgumentType(i);
if (javaType.isArrayOfCompoundTypeWrappers()) {
String argName = getArgumentName(i);
String tempArrayName = argName + COMPOUND_ARRAY_SUFFIX;
writer.println(" ByteBuffer[] " + tempArrayName + " = new ByteBuffer[" + argName + ".length];");
writer.println(" for (int _ctr = 0; _ctr < + " + argName + ".length; _ctr++) {");
writer.println(" " + javaType.getName() + " _tmp = " + argName + "[_ctr];");
writer.println(" " + tempArrayName + "[_ctr] = ((_tmp == null) ? null : _tmp.getBuffer());");
writer.println(" }");
}
}
}
}
protected void emitCall(MethodBinding binding, PrintWriter writer) {
writer.print(getImplMethodName());
writer.print("(");
emitCallArguments(binding, writer);
writer.print(");");
}
protected void emitReturnVariableSetupAndCall(MethodBinding binding, PrintWriter writer) {
writer.print(" ");
JavaType returnType = binding.getJavaReturnType();
boolean needsResultAssignment = false;
if (!returnType.isVoid()) {
if (returnType.isCompoundTypeWrapper() ||
returnType.isNIOBuffer()) {
writer.println("ByteBuffer _res;");
needsResultAssignment = true;
} else if (returnType.isArrayOfCompoundTypeWrappers()) {
writer.println("ByteBuffer[] _res;");
needsResultAssignment = true;
} else if (((epilogue != null) && (epilogue.size() > 0)) ||
binding.signatureUsesArraysOfCompoundTypeWrappers()) {
emitReturnType(writer);
writer.println(" _res;");
needsResultAssignment = true;
}
}
if (needsResultAssignment) {
writer.print(" _res = ");
} else {
writer.print(" ");
if (!returnType.isVoid()) {
writer.print("return ");
}
}
emitCall(binding, writer);
writer.println();
emitPostCallCleanup(binding, writer);
emitPrologueOrEpilogue(epilogue, writer);
if (needsResultAssignment) {
emitCallResultReturn(binding, writer);
}
}
protected int emitCallArguments(MethodBinding binding, PrintWriter writer) {
boolean needComma = false;
int numArgsEmitted = 0;
if (binding.hasContainingType()) {
// Emit this pointer
assert(binding.getContainingType().isCompoundTypeWrapper());
writer.print("getBuffer()");
needComma = true;
++numArgsEmitted;
}
for (int i = 0; i < binding.getNumArguments(); i++) {
JavaType type = binding.getJavaArgumentType(i);
if (type.isJNIEnv() || binding.isArgumentThisPointer(i)) {
// Don't need to expose these at the Java level
continue;
}
if (type.isVoid()) {
// Make sure this is the only param to the method; if it isn't,
// there's something wrong with our parsing of the headers.
assert(binding.getNumArguments() == 1);
continue;
}
if (needComma) {
writer.print(", ");
}
if (type.isCompoundTypeWrapper()) {
writer.print("((");
}
if (type.isNIOBuffer()) {
if(type.isNIOInt64Buffer() || type.isNIOPointerBuffer()) {
if (directNIOOnly) {
writer.print( getArgumentName(i)+ " != null ? " + getArgumentName(i) + ".getBuffer() : null");
} else {
writer.print( isNIOArgName(i) + " ? ( " + getArgumentName(i)+ " != null ? " + getArgumentName(i) + ".getBuffer() : null )");
writer.print( " : Buffers.getArray(" + getArgumentName(i) + ")" );
}
} else {
if (directNIOOnly) {
writer.print( getArgumentName(i) );
} else {
writer.print( isNIOArgName(i) + " ? " + getArgumentName(i) + " : Buffers.getArray(" + getArgumentName(i) + ")" );
}
}
} else if (type.isArrayOfCompoundTypeWrappers()) {
writer.print(getArgumentName(i) + COMPOUND_ARRAY_SUFFIX);
} else {
writer.print(getArgumentName(i));
}
if (type.isCompoundTypeWrapper()) {
writer.print(" == null) ? null : ");
writer.print(getArgumentName(i));
writer.print(".getBuffer())");
}
if (type.isNIOBuffer()) {
if (directNIOOnly) {
writer.print( ", Buffers.getDirectBufferByteOffset(" + getArgumentName(i) + ")");
} else {
writer.print( ", " + isNIOArgName(i) + " ? Buffers.getDirectBufferByteOffset(" + getArgumentName(i) + ")");
writer.print( " : Buffers.getIndirectBufferByteOffset(" + getArgumentName(i) + ")");
}
} else if (type.isNIOBufferArray()) {
writer.print(", " + byteOffsetArrayArgName(i));
} else if (type.isPrimitiveArray()) {
if(type.isFloatArray()) {
writer.print(", Buffers.SIZEOF_FLOAT * ");
} else if(type.isDoubleArray()) {
writer.print(", Buffers.SIZEOF_DOUBLE * ");
} else if(type.isByteArray()) {
writer.print(", ");
} else if(type.isLongArray()) {
writer.print(", Buffers.SIZEOF_LONG * ");
} else if(type.isShortArray()) {
writer.print(", Buffers.SIZEOF_SHORT * ");
} else if(type.isIntArray()) {
writer.print(", Buffers.SIZEOF_INT * ");
} else {
throw new RuntimeException("Unsupported type for calculating array offset argument for " +
getArgumentName(i) +
" -- error occurred while processing Java glue code for " + getName());
}
writer.print(offsetArgName(i));
}
if (type.isNIOBuffer()) {
if (!directNIOOnly) {
writer.print( ", " + isNIOArgName(i) );
}
} else if (type.isPrimitiveArray()) {
if (directNIOOnly) {
throw new RuntimeException("NIODirectOnly "+binding+" is set, but "+getArgumentName(i)+" is a primitive array");
}
writer.print( ", false");
}
needComma = true;
++numArgsEmitted;
}
return numArgsEmitted;
}
protected void emitPostCallCleanup(MethodBinding binding, PrintWriter writer) {
if (binding.signatureUsesArraysOfCompoundTypeWrappers()) {
// For each such array, we need to take the ByteBuffer[] that
// came back from the C method invocation and wrap the
// ByteBuffers back into the wrapper types
for (int i = 0; i < binding.getNumArguments(); i++) {
JavaType javaArgType = binding.getJavaArgumentType(i);
if (javaArgType.isArrayOfCompoundTypeWrappers()) {
String argName = binding.getArgumentName(i);
writer.println(" for (int _ctr = 0; _ctr < " + argName + ".length; _ctr++) {");
writer.println(" if ((" + argName + "[_ctr] == null && " + argName + COMPOUND_ARRAY_SUFFIX + "[_ctr] == null) ||");
writer.println(" (" + argName + "[_ctr] != null && " + argName + "[_ctr].getBuffer() == " + argName + COMPOUND_ARRAY_SUFFIX + "[_ctr])) {");
writer.println(" // No copy back needed");
writer.println(" } else {");
writer.println(" if (" + argName + COMPOUND_ARRAY_SUFFIX + "[_ctr] == null) {");
writer.println(" " + argName + "[_ctr] = null;");
writer.println(" } else {");
writer.println(" " + argName + "[_ctr] = " + javaArgType.getName() + ".create(" + argName + COMPOUND_ARRAY_SUFFIX + "[_ctr]);");
writer.println(" }");
writer.println(" }");
writer.println(" }");
}
}
}
}
protected void emitCallResultReturn(MethodBinding binding, PrintWriter writer) {
JavaType returnType = binding.getJavaReturnType();
if (returnType.isCompoundTypeWrapper()) {
String fmt = getReturnedArrayLengthExpression();
writer.println(" if (_res == null) return null;");
if (fmt == null) {
writer.print(" return " + returnType.getName() + ".create(Buffers.nativeOrder(_res))");
} else {
writer.println(" Buffers.nativeOrder(_res);");
String expr = new MessageFormat(fmt).format(argumentNameArray());
PointerType cReturnTypePointer = binding.getCReturnType().asPointer();
CompoundType cReturnType = null;
if (cReturnTypePointer != null) {
cReturnType = cReturnTypePointer.getTargetType().asCompound();
}
if (cReturnType == null) {
throw new RuntimeException("ReturnedArrayLength directive currently only supported for pointers to compound types " +
"(error occurred while generating Java glue code for " + getName() + ")");
}
writer.println(" " + getReturnTypeString(false) + " _retarray = new " + getReturnTypeString(true) + "[" + expr + "];");
writer.println(" for (int _count = 0; _count < " + expr + "; _count++) {");
// Create temporary ByteBuffer slice
// FIXME: probably need Type.getAlignedSize() for arrays of
// compound types (rounding up to machine-dependent alignment)
writer.println(" _res.position(_count * " + getReturnTypeString(true) + ".size());");
writer.println(" _res.limit ((1 + _count) * " + getReturnTypeString(true) + ".size());");
writer.println(" ByteBuffer _tmp = _res.slice();");
writer.println(" Buffers.nativeOrder(_tmp);");
writer.println(" _res.position(0);");
writer.println(" _res.limit(_res.capacity());");
writer.println(" _retarray[_count] = " + getReturnTypeString(true) + ".create(_tmp);");
writer.println(" }");
writer.print (" return _retarray");
}
writer.println(";");
} else if (returnType.isNIOBuffer()) {
writer.println(" if (_res == null) return null;");
writer.println(" Buffers.nativeOrder(_res);");
if (!returnType.isNIOByteBuffer()) {
// See whether we have to expand pointers to longs
if (getBinding().getCReturnType().pointerDepth() >= 2) {
if (returnType.isNIOPointerBuffer()) {
writer.println(" return PointerBuffer.wrap(_res);");
} else if (returnType.isNIOInt64Buffer()) {
writer.println(" return Int64Buffer.wrap(_res);");
} else {
throw new RuntimeException("While emitting glue code for " + getName() +
": can not legally make pointers opaque to anything but PointerBuffer or Int64Buffer/long");
}
} else if (getBinding().getCReturnType().pointerDepth() == 1 &&
returnType.isNIOInt64Buffer()) {
writer.println(" return Int64Buffer.wrap(_res);");
} else {
String returnTypeName = returnType.getName().substring("java.nio.".length());
writer.println(" return _res.as" + returnTypeName + "();");
}
} else {
writer.println(" return _res;");
}
} else if (returnType.isArrayOfCompoundTypeWrappers()) {
writer.println(" if (_res == null) return null;");
writer.println(" " + getReturnTypeString(false) + " _retarray = new " + getReturnTypeString(true) + "[_res.length];");
writer.println(" for (int _count = 0; _count < _res.length; _count++) {");
writer.println(" _retarray[_count] = " + getReturnTypeString(true) + ".create(_res[_count]);");
writer.println(" }");
writer.println(" return _retarray;");
} else {
// Assume it's a primitive type or other type we don't have to
// do any conversion on
writer.println(" return _res;");
}
}
protected String[] argumentNameArray() {
String[] argumentNames = new String[binding.getNumArguments()];
for (int i = 0; i < binding.getNumArguments(); i++) {
argumentNames[i] = getArgumentName(i);
if (binding.getJavaArgumentType(i).isPrimitiveArray()) {
// Add on _offset argument in comma-separated expression
argumentNames[i] = argumentNames[i] + ", " + offsetArgName(i);
}
}
return argumentNames;
}
public static String javaThisArgumentName() {
return "jthis0";
}
@Override
protected String getCommentStartString() { return "/** "; }
@Override
protected String getBaseIndentString() { return " "; }
protected String getReturnedArrayLengthExpression() {
return returnedArrayLengthExpression;
}
/**
* Class that emits a generic comment for JavaMethodBindingEmitters; the comment
* includes the C signature of the native method that is being bound by the
* emitter java method.
*/
protected class DefaultCommentEmitter implements CommentEmitter {
public void emit(FunctionEmitter emitter, PrintWriter writer) {
emitBeginning(emitter, writer);
emitBindingCSignature(((JavaMethodBindingEmitter)emitter).getBinding(), writer);
emitEnding(emitter, writer);
}
protected void emitBeginning(FunctionEmitter emitter, PrintWriter writer) {
writer.print("Entry point to C language function: ");
}
protected void emitBindingCSignature(MethodBinding binding, PrintWriter writer) {
writer.print("<code> ");
writer.print(binding.getCSymbol().toString(tagNativeBinding));
writer.print(" </code> ");
}
protected void emitEnding(FunctionEmitter emitter, PrintWriter writer) {
// If argument type is a named enum, then emit a comment detailing the
// acceptable values of that enum.
// If we're emitting a direct buffer variant only, then declare
// that the NIO buffer arguments must be direct.
MethodBinding binding = ((JavaMethodBindingEmitter)emitter).getBinding();
for (int i = 0; i < binding.getNumArguments(); i++) {
Type type = binding.getCArgumentType(i);
JavaType javaType = binding.getJavaArgumentType(i);
// don't emit param comments for anonymous enums, since we can't
// distinguish between the values found within multiple anonymous
// enums in the same C translation unit.
if (type.isEnum() && !HeaderParser.ANONYMOUS_ENUM_NAME.equals(type.getName())) {
EnumType enumType = (EnumType)type;
writer.println();
writer.print(emitter.getBaseIndentString());
writer.print(" ");
writer.print("@param ");
writer.print(getArgumentName(i));
writer.print(" valid values are: <code>");
for (int j = 0; j < enumType.getNumEnumerates(); ++j) {
if (j>0) writer.print(", ");
writer.print(enumType.getEnumName(j));
}
writer.println("</code>");
} else if (directNIOOnly && javaType.isNIOBuffer()) {
writer.println();
writer.print(emitter.getBaseIndentString());
writer.print(" ");
writer.print("@param ");
writer.print(getArgumentName(i));
writer.print(" a direct {@link " + javaType.getName() + "}");
}
}
}
}
protected class InterfaceCommentEmitter extends JavaMethodBindingEmitter.DefaultCommentEmitter {
@Override
protected void emitBeginning(FunctionEmitter emitter,
PrintWriter writer) {
writer.print("Interface to C language function: <br> ");
}
}
}
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