public void setCallingConvention(Convention.Style style) { if (style == null) return; if (!Platform.isWindows() || Platform.is64Bits()) return; switch (style) { case FastCall: this.direct = false; setDcCallingConvention( Platform.isWindows() ? DC_CALL_C_X86_WIN32_FAST_MS : DC_CALL_C_DEFAULT); // TODO allow GCC-compiled C++ libs on windows break; case Pascal: case StdCall: this.direct = false; setDcCallingConvention(DC_CALL_C_X86_WIN32_STD); break; case ThisCall: this.direct = false; setDcCallingConvention( Platform.isWindows() ? DC_CALL_C_X86_WIN32_THIS_MS : DC_CALL_C_DEFAULT); } if (BridJ.veryVerbose) BridJ.info("Setting CC " + style + " (-> " + dcCallingConvention + ") for " + methodName); }
/** * Used for C++ virtual indexes and for struct fields ids * * @param virtualIndex */ public void setVirtualIndex(int virtualIndex) { // new RuntimeException("Setting virtualIndex of " + getMethod().getName() + " = " + // virtualIndex).printStackTrace(); this.virtualIndex = virtualIndex; if (BridJ.veryVerbose) { BridJ.info("\t-> virtualIndex " + virtualIndex); } }
public ValueType getValueType( int iParam, int nParams, Class<?> c, Type t, AnnotatedElement element, Annotation... directAnnotations) { boolean isPtr = isAnnotationPresent(Ptr.class, element, directAnnotations); boolean isCLong = isAnnotationPresent(org.bridj.ann.CLong.class, element, directAnnotations); Constructor cons = getAnnotation(Constructor.class, element, directAnnotations); if (isPtr || cons != null || isCLong) { if (!(c == Long.class || c == Long.TYPE)) throw new RuntimeException( "Annotation should only be used on a long parameter, not on a " + c.getName()); if (isPtr) { if (!Platform.is64Bits()) direct = false; } else if (isCLong) { if (Platform.CLONG_SIZE != 8) direct = false; } else if (cons != null) { isCPlusPlus = true; startsWithThis = true; if (iParam != 0) throw new RuntimeException( "Annotation " + Constructor.class.getName() + " cannot have more than one (long) argument"); } return ValueType.eSizeTValue; } if (c == null || c.equals(Void.TYPE)) return ValueType.eVoidValue; if (c == Integer.class || c == Integer.TYPE) return ValueType.eIntValue; if (c == Long.class || c == Long.TYPE) { return !isPtr || Platform.is64Bits() ? ValueType.eLongValue : ValueType.eIntValue; } if (c == Short.class || c == Short.TYPE) return ValueType.eShortValue; if (c == Byte.class || c == Byte.TYPE) return ValueType.eByteValue; if (c == Boolean.class || c == Boolean.TYPE) return ValueType.eBooleanValue; if (c == Float.class || c == Float.TYPE) { usesFloats(); return ValueType.eFloatValue; } if (c == char.class || c == Character.TYPE) { if (Platform.WCHAR_T_SIZE != 2) direct = false; return ValueType.eWCharValue; } if (c == Double.class || c == Double.TYPE) { usesFloats(); return ValueType.eDoubleValue; } if (c == CLong.class) { direct = false; return ValueType.eCLongObjectValue; } if (c == SizeT.class) { direct = false; return ValueType.eSizeTObjectValue; } if (c == TimeT.class) { direct = false; return ValueType.eTimeTObjectValue; } if (Pointer.class.isAssignableFrom(c)) { direct = false; CallIO cio = CallIO.Utils.createPointerCallIO(c, t); if (BridJ.veryVerbose) BridJ.info("CallIO : " + cio); addCallIO(cio); return ValueType.ePointerValue; } if (c.isArray() && iParam == nParams - 1) { direct = false; return ValueType.eEllipsis; } if (ValuedEnum.class.isAssignableFrom(c)) { direct = false; CallIO cio = CallIO.Utils.createValuedEnumCallIO( (Class) Utils.getClass(Utils.getUniqueParameterizedTypeParameter(t))); if (BridJ.veryVerbose) BridJ.info("CallIO : " + cio); addCallIO(cio); return ValueType.eIntFlagSet; } if (NativeObject.class.isAssignableFrom(c)) { Pointer<DCstruct> pStruct = null; if (StructObject.class.isAssignableFrom(c)) { StructIO io = StructIO.getInstance(c, t); try { pStruct = DyncallStructs.buildDCstruct(io.desc); } catch (Throwable th) { BridJ.error( "Unable to create low-level struct metadata for " + Utils.toString(t) + " : won't be able to use it as a by-value function argument.", th); } } addCallIO(new CallIO.NativeObjectHandler((Class<? extends NativeObject>) c, t, pStruct)); direct = false; return ValueType.eNativeObjectValue; } throw new NoSuchElementException( "No " + ValueType.class.getSimpleName() + " for class " + c.getName()); }
protected void init( AnnotatedElement annotatedElement, Class returnType, Type genericReturnType, Annotation[] returnAnnotations, Class[] parameterTypes, Type[] genericParameterTypes, Annotation[][] paramsAnnotations, boolean prependJNIPointers, boolean isVirtual, boolean isDirectModeAllowed) { assert returnType != null; assert genericReturnType != null; assert parameterTypes != null; assert genericParameterTypes != null; assert returnAnnotations != null; assert parameterTypes.length == genericParameterTypes.length; assert paramsAnnotations.length == genericParameterTypes.length; int nParams = genericParameterTypes.length; paramsValueTypes = new int[nParams]; direct = isDirectModeAllowed; // TODO on native side : test number of parameters (on 64 bits win : // must be <= 4) StringBuilder javaSig = new StringBuilder(64), asmSig = new StringBuilder(64), dcSig = new StringBuilder(16); javaSig.append('('); asmSig.append('('); if (prependJNIPointers) // !isCPlusPlus) dcSig .append(DC_SIGCHAR_POINTER) .append(DC_SIGCHAR_POINTER); // JNIEnv*, jobject: always present in native-bound functions if (BridJ.debug) BridJ.info( "Analyzing " + (declaringClass == null ? "anonymous method" : declaringClass.getName() + "." + methodName)); if (isObjCBlock) appendToSignature( 0, ValueType.ePointerValue, Pointer.class, Pointer.class, null, dcSig, null); for (int iParam = 0; iParam < nParams; iParam++) { // Options paramOptions = paramsOptions[iParam] = new Options(); Type genericParameterType = genericParameterTypes[iParam]; Class<?> parameterType = parameterTypes[iParam]; ValueType paramValueType = getValueType( iParam, nParams, parameterType, genericParameterType, null, paramsAnnotations[iParam]); if (BridJ.veryVerbose) BridJ.info("\tparam " + paramValueType); paramsValueTypes[iParam] = paramValueType.ordinal(); appendToSignature( iParam, paramValueType, parameterType, genericParameterType, javaSig, dcSig, asmSig); } javaSig.append(')'); asmSig.append(')'); dcSig.append(')'); ValueType retType = getValueType( -1, nParams, returnType, genericReturnType, annotatedElement, returnAnnotations); if (BridJ.veryVerbose) BridJ.info("\treturns " + retType); appendToSignature(-1, retType, returnType, genericReturnType, javaSig, dcSig, asmSig); returnValueType = retType.ordinal(); javaSignature = javaSig.toString(); asmSignature = asmSig.toString(); dcSignature = dcSig.toString(); isCPlusPlus = isCPlusPlus || isVirtual; if (isCPlusPlus && !isStatic) { if (!startsWithThis) direct = false; bNeedsThisPointer = true; if (Platform.isWindows()) { if (!Platform.is64Bits()) setDcCallingConvention(DC_CALL_C_X86_WIN32_THIS_MS); } else { // if (!Platform.is64Bits()) // setDcCallingConvention(DC_CALL_C_X86_WIN32_THIS_GNU); } } if (nParams > Platform.getMaxDirectMappingArgCount()) this.direct = false; if (BridJ.veryVerbose) { BridJ.info("\t-> direct " + direct); BridJ.info("\t-> javaSignature " + javaSignature); BridJ.info("\t-> callIOs " + callIOs); BridJ.info("\t-> asmSignature " + asmSignature); BridJ.info("\t-> dcSignature " + dcSignature); } if (BridJ.veryVerbose) BridJ.info((direct ? "[mappable as direct] " : "[not mappable as direct] ") + method); }