public static Arg createVarArgs() { Arg a = new Arg(null, null); a.varArg = true; return a; }
private boolean checkNoCycles(SourceFiles sourceFiles) { final LinkedHashMap<Integer, Throwable> ids = new LinkedHashMap<Integer, Throwable>(new Arg().getId()); sourceFiles.accept(new Scanner() { @Override protected void visitElement(Element d) { if (d != null && ids.put(d.getId(), new RuntimeException().fillInStackTrace()) != null) { Throwable previous = ids.get(d.getId()); throw new RuntimeException("Cycle : " + d, previous); } super.visitElement(d); } }); return true; } }
private boolean checkNoCycles(SourceFiles sourceFiles) { final LinkedHashMap<Integer, Throwable> ids = new LinkedHashMap<Integer, Throwable>(new Arg().getId()); sourceFiles.accept(new Scanner() { @Override protected void visitElement(Element d) { if (d != null && ids.put(d.getId(), new RuntimeException().fillInStackTrace()) != null) { Throwable previous = ids.get(d.getId()); throw new RuntimeException("Cycle : " + d, previous); } super.visitElement(d); } }); return true; } }
@Override protected Struct createFakePointerClass(Identifier fakePointer) { Struct ptClass = result.declarationsConverter.publicStaticClass(fakePointer, ident(TypedPointer.class), Struct.Type.JavaClass, null); String addressVarName = "address"; ptClass.addDeclaration(new Function(Function.Type.JavaMethod, fakePointer, null, new Arg(addressVarName, typeRef(long.class))).addModifiers(ModifierType.Public).setBody( block(stat(methodCall("super", varRef(addressVarName)))))); ptClass.addDeclaration(new Function(Function.Type.JavaMethod, fakePointer, null, new Arg(addressVarName, typeRef(org.bridj.Pointer.class))).addModifiers(ModifierType.Public).setBody( block(stat(methodCall("super", varRef(addressVarName)))))); return ptClass; }
int i = 0; for (Class<?> c : m.getParameterTypes()) { f.addArg(new Arg("arg" + (i++), typeRef(c)));
@Override protected Struct createFakePointerClass(Identifier fakePointer) { Struct ptClass = result.declarationsConverter.publicStaticClass(fakePointer, ident(TypedPointer.class), Struct.Type.JavaClass, null); String addressVarName = "address"; ptClass.addDeclaration(new Function(Function.Type.JavaMethod, fakePointer, null, new Arg(addressVarName, typeRef(long.class))).addModifiers(ModifierType.Public).setBody( block(stat(methodCall("super", varRef(addressVarName)))))); ptClass.addDeclaration(new Function(Function.Type.JavaMethod, fakePointer, null, new Arg(addressVarName, typeRef(org.bridj.Pointer.class))).addModifiers(ModifierType.Public).setBody( block(stat(methodCall("super", varRef(addressVarName)))))); return ptClass; }
private void fillIn(Signatures signatures, Identifier functionName, Function nativeMethod, NL4JConversion returnType, List<NL4JConversion> paramTypes, List<String> paramNames, Identifier varArgType, String varArgName, boolean isCallback, boolean useRawTypes) { for (int i = 0, n = paramTypes.size(); i < n; i++) { NL4JConversion paramType = paramTypes.get(i); String paramName = paramNames.get(i); nativeMethod.addArg(paramType.annotateTypedType(new Arg(paramName, paramType.getTypeRef(useRawTypes)), useRawTypes));//.getTypedTypeRef()))); } if (varArgType != null) { nativeMethod.addArg(new Arg(varArgName, typeRef(varArgType.clone()))).setVarArg(true); } if (returnType != null) { returnType.annotateTypedType(nativeMethod, useRawTypes); nativeMethod.setValueType(returnType.getTypeRef(useRawTypes)); } String natSig = nativeMethod.computeSignature(SignatureType.JavaStyle); Identifier javaMethodName = signatures == null ? functionName : signatures.findNextMethodName(natSig, functionName); if (!javaMethodName.equals(functionName)) { nativeMethod.setName(javaMethodName); } }
private void fillIn(Signatures signatures, Identifier functionName, Function nativeMethod, NL4JConversion returnType, List<NL4JConversion> paramTypes, List<String> paramNames, Identifier varArgType, String varArgName, boolean isCallback, boolean useRawTypes) { for (int i = 0, n = paramTypes.size(); i < n; i++) { NL4JConversion paramType = paramTypes.get(i); String paramName = paramNames.get(i); nativeMethod.addArg(paramType.annotateTypedType(new Arg(paramName, paramType.getTypeRef(useRawTypes)), useRawTypes));//.getTypedTypeRef()))); } if (varArgType != null) { nativeMethod.addArg(new Arg(varArgName, typeRef(varArgType.clone()))).setVarArg(true); } if (returnType != null) { returnType.annotateTypedType(nativeMethod, useRawTypes); nativeMethod.setValueType(returnType.getTypeRef(useRawTypes)); } String natSig = nativeMethod.computeSignature(SignatureType.JavaStyle); Identifier javaMethodName = signatures == null ? functionName : signatures.findNextMethodName(natSig, functionName); if (!javaMethodName.equals(functionName)) { nativeMethod.setName(javaMethodName); } }
initMethod.addArg(new Arg(initTarget, typeRef(v8Ident("Handle", v8Ident("Object"))))); initMethod.setBody(new Block()); ident(dummyNodeBufferFreeCallbackName), typeRef(void.class), new Arg("data", new TypeRef.Pointer(typeRef("char"), Declarator.PointerStyle.Pointer)), new Arg("hint", new TypeRef.Pointer(typeRef("void"), Declarator.PointerStyle.Pointer))); dummyNodeBufferFreeCallback.setBody(new Block()); sourceFile.addDeclaration(dummyNodeBufferFreeCallback);
@Override protected Struct createFakePointerClass(Identifier fakePointer) { Struct ptClass = result.declarationsConverter.publicStaticClass(fakePointer, ident(PointerType.class), Struct.Type.JavaClass, null); String pointerVarName = "address"; ptClass.addDeclaration(new Function(Function.Type.JavaMethod, fakePointer, null, new Arg(pointerVarName, typeRef(com.sun.jna.Pointer.class))).addModifiers(ModifierType.Public).setBody( block(stat(methodCall("super", varRef(pointerVarName)))))); ptClass.addDeclaration(new Function(Function.Type.JavaMethod, fakePointer, null) .addModifiers(ModifierType.Public) .setBody( block(stat(methodCall("super"))))); return ptClass; }
@Override protected Struct createFakePointerClass(Identifier fakePointer) { Struct ptClass = result.declarationsConverter.publicStaticClass(fakePointer, ident(PointerType.class), Struct.Type.JavaClass, null); String pointerVarName = "address"; ptClass.addDeclaration(new Function(Function.Type.JavaMethod, fakePointer, null, new Arg(pointerVarName, typeRef(com.sun.jna.Pointer.class))).addModifiers(ModifierType.Public).setBody( block(stat(methodCall("super", varRef(pointerVarName)))))); ptClass.addDeclaration(new Function(Function.Type.JavaMethod, fakePointer, null) .addModifiers(ModifierType.Public) .setBody( block(stat(methodCall("super"))))); return ptClass; }
protected Function createNewStructArrayMethod(Struct struct, boolean isUnion) { if (result.config.runtime == JNAeratorConfig.Runtime.JNA) { return null; } TypeRef tr = typeRef(struct.getTag().clone()); TypeRef ar = new TypeRef.ArrayRef(tr); String varName = "arrayLength"; Function f = new Function(Function.Type.JavaMethod, ident("newArray"), ar, new Arg(varName, typeRef(Integer.TYPE))); f.addModifiers(ModifierType.Public, ModifierType.Static); f.setBody(block( new Statement.Return( methodCall( expr(typeRef(isUnion ? result.config.runtime.unionClass : result.config.runtime.structClass)), MemberRefStyle.Dot, "newArray", result.typeConverter.typeLiteral(tr), varRef(varName))))); return f; }
protected Function createNewStructArrayMethod(Struct struct, boolean isUnion) { if (result.config.runtime == JNAeratorConfig.Runtime.JNA) { return null; } TypeRef tr = typeRef(struct.getTag().clone()); TypeRef ar = new TypeRef.ArrayRef(tr); String varName = "arrayLength"; Function f = new Function(Function.Type.JavaMethod, ident("newArray"), ar, new Arg(varName, typeRef(Integer.TYPE))); f.addModifiers(ModifierType.Public, ModifierType.Static); f.setBody(block( new Statement.Return( methodCall( expr(typeRef(isUnion ? result.config.runtime.unionClass : result.config.runtime.structClass)), MemberRefStyle.Dot, "newArray", result.typeConverter.typeLiteral(tr), varRef(varName))))); return f; }
arg = new Arg((n!=null?n.getText():null), t);
return null; Arg a = new Arg(); a.setName(XMLUtils.getAttribute(arg, "name")); a.setValueType(at);
return null; Arg a = new Arg(); a.setName(XMLUtils.getAttribute(arg, "name")); a.setValueType(at);
method.addArg(new Arg(null, at));
Function setMethod = new Function(Function.Type.JavaMethod, ident("set" + StringUtils.capitalize(name)), typeRef(Void.TYPE), new Arg(name, vd.getValueType().clone())).setBody(block( stat(expr(memberRef(thisRef(), MemberRefStyle.Dot, ident(name)), AssignmentOperator.Equal, varRef(name))))).addModifiers(ModifierType.Public); if (signatures.addMethod(setMethod)) {
Function setMethod = new Function(Function.Type.JavaMethod, ident("set" + StringUtils.capitalize(name)), typeRef(Void.TYPE), new Arg(name, vd.getValueType().clone())).setBody(block( stat(expr(memberRef(thisRef(), MemberRefStyle.Dot, ident(name)), AssignmentOperator.Equal, varRef(name))))).addModifiers(ModifierType.Public); if (signatures.addMethod(setMethod)) {
en.addInterface(ident(IntValuedEnum.class, expr(typeRef(enumName.clone())))); String valueArgName = "value"; body.addDeclaration(new Function(Type.JavaMethod, enumName.clone(), null, new Arg(valueArgName, typeRef(Long.TYPE))).setBody(block( stat(expr(memberRef(thisRef(), MemberRefStyle.Dot, valueArgName), AssignmentOperator.Equal, varRef(valueArgName)))))); body.addDeclaration(new VariablesDeclaration(typeRef(Long.TYPE), new DirectDeclarator(valueArgName)).addModifiers(ModifierType.Public, ModifierType.Final)); "iterator")))).addModifiers(ModifierType.Public)); body.addDeclaration(new Function(Type.JavaMethod, ident("fromValue"), typeRef(ident(IntValuedEnum.class, expr(typeRef(enumName.clone())))), new Arg(valueArgName, typeRef(Integer.TYPE))).setBody(block( new Statement.Return( methodCall(