{ This file is part of the Free Pascal run time library. Copyright (c) 2011 by Jonas Maebe, members of the Free Pascal development team. This file implements support infrastructure for procvars under the JVM See the file COPYING.FPC, included in this distribution, for details about the copyright. This program is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. **********************************************************************} constructor FpcBaseProcVarType.create(inst: jlobject; const methodName: unicodestring; const argTypes: array of JLClass); begin method.data:=inst; setFpcBaseProcVarTypeBySignature(methodName,argtypes); end; constructor FpcBaseProcVarType.create(const meth: tmethod); begin method:=meth; end; procedure FpcBaseProcVarType.setFpcBaseProcVarTypeBySignature(const methodName: unicodestring; const argTypes: array of JLClass); var owningClass: JLClass; begin { class method or instance method } if method.data is JLClass then owningClass:=JLClass(method.data) else owningClass:=method.data.getClass; method.code:=nil; { getDeclaredMethod does not search superclasses -> manually traverse until found. If we don't find it anywhere, we'll traverse up to the parent of java.lang.Object = null and throw a NullPointerException } repeat try method.code:=owningClass.getDeclaredMethod(methodName,argTypes); except on JLNoSuchMethodException do owningClass:=owningClass.getSuperClass; end; until assigned(method.code); { required to enable calling private methods in one class from another class -- can cause security exceptions if the security manager doesn't allow this though... } if not method.code.isAccessible then method.code.setAccessible(true); end; function FpcBaseProcVarType.getClassProcArgs(const args: array of jlobject): TJLObjectDynArray; var arglen: longint; begin { add the self pointer as first argument (Java class methods don't take an implicit self parameters, Pascal ones do) } arglen:=length(args); setlength(result,arglen+1); JLSystem.ArrayCopy(JLObject(@args),0,JLObject(result),1,arglen); result[0]:=method.data; end; procedure FpcBaseProcVarType.fpcDeepCopy(result: FpcBaseProcVarType); begin result.method:=method; end; function FpcBaseProcVarType.clone: JLObject; var field: JLRField; newmethodrec: tmethod; begin result:=inherited; { replace the method record pointer (the inherited clone will have copied it, and there is no way we can change it using Pascal code since it's not a pointer at the Pascal level) } newmethodrec:=method; field:=getClass.getField('method'); { doesn't matter that it's a local variable, everything is garbage collected } field.&set(result,JLObject(@newmethodrec)); end; procedure FpcBaseProcVarType.invokeProc(const args: array of jlobject); begin { caching the length would be faster, but that would have to be done in a synchronised way. Doing it at construction time and in fpcDeepCopy/ clone is not enough, because the method field can be manipulated directly } try if length(method.code.getParameterTypes)=length(args) then method.code.invoke(method.data,args) else method.code.invoke(method.data,getClassProcArgs(args)); except on e: JLRInvocationTargetException do raise e.getCause end; end; function FpcBaseProcVarType.invokeBooleanFunc(const args: array of jlobject): jboolean; begin try if length(method.code.getParameterTypes)=length(args) then result:=JLBoolean(method.code.invoke(method.data,args)).booleanValue else result:=JLBoolean(method.code.invoke(method.data,getClassProcArgs(args))).booleanValue except on e: JLRInvocationTargetException do raise e.getCause end; end; function FpcBaseProcVarType.invokeCharFunc(const args: array of jlobject): jchar; begin try if length(method.code.getParameterTypes)=length(args) then result:=JLCharacter(method.code.invoke(method.data,args)).charValue else result:=JLCharacter(method.code.invoke(method.data,getClassProcArgs(args))).charValue; except on e: JLRInvocationTargetException do raise e.getCause end; end; function FpcBaseProcVarType.invokeByteFunc(const args: array of jlobject): jbyte; begin try if length(method.code.getParameterTypes)=length(args) then result:=JLByte(method.code.invoke(method.data,args)).byteValue else result:=JLByte(method.code.invoke(method.data,getClassProcArgs(args))).byteValue except on e: JLRInvocationTargetException do raise e.getCause end; end; function FpcBaseProcVarType.invokeShortFunc(const args: array of jlobject): jshort; begin try if length(method.code.getParameterTypes)=length(args) then result:=JLShort(method.code.invoke(method.data,args)).shortValue else result:=JLShort(method.code.invoke(method.data,getClassProcArgs(args))).shortValue except on e: JLRInvocationTargetException do raise e.getCause end; end; function FpcBaseProcVarType.invokeIntFunc(const args: array of jlobject): jint; begin try if length(method.code.getParameterTypes)=length(args) then result:=JLInteger(method.code.invoke(method.data,args)).intValue else result:=JLInteger(method.code.invoke(method.data,getClassProcArgs(args))).intValue except on e: JLRInvocationTargetException do raise e.getCause end; end; function FpcBaseProcVarType.invokeLongFunc(const args: array of jlobject): jlong; begin try if length(method.code.getParameterTypes)=length(args) then result:=JLLong(method.code.invoke(method.data,args)).longValue else result:=JLLong(method.code.invoke(method.data,getClassProcArgs(args))).longValue; except on e: JLRInvocationTargetException do raise e.getCause end; end; function FpcBaseProcVarType.invokeSingleFunc(const args: array of jlobject): jfloat; begin try if length(method.code.getParameterTypes)=length(args) then result:=JLFloat(method.code.invoke(method.data,args)).floatValue else result:=JLFloat(method.code.invoke(method.data,getClassProcArgs(args))).floatValue except on e: JLRInvocationTargetException do raise e.getCause end; end; function FpcBaseProcVarType.invokeDoubleFunc(const args: array of jlobject): jdouble; begin try if length(method.code.getParameterTypes)=length(args) then result:=JLDouble(method.code.invoke(method.data,args)).doubleValue else result:=JLDouble(method.code.invoke(method.data,getClassProcArgs(args))).doubleValue except on e: JLRInvocationTargetException do raise e.getCause end; end; function FpcBaseProcVarType.invokeObjectFunc(const args: array of jlobject): jlobject; begin try if length(method.code.getParameterTypes)=length(args) then result:=method.code.invoke(method.data,args) else result:=method.code.invoke(method.data,getClassProcArgs(args)) except on e: JLRInvocationTargetException do raise e.getCause end; end; function FpcBaseNestedProcVarType.getNestedArgs(const args: array of jlobject): TJLObjectDynArray; var arglen: longint; begin { add the parentfp struct pointer as last argument (delphi nested cc "calling convention") } arglen:=length(args); setlength(result,arglen+1); JLSystem.ArrayCopy(JLObject(@args),0,JLObject(result),0,arglen); result[arglen]:=nestedfpstruct; end; constructor FpcBaseNestedProcVarType.create(inst, context: jlobject; const methodName: unicodestring; const argTypes: array of JLClass); begin inherited create(inst,methodName,argTypes); nestedfpstruct:=context; end; procedure FpcBaseNestedProcVarType.fpcDeepCopy(result: FpcBaseProcVarType); begin inherited fpcDeepCopy(result); FpcBaseNestedProcVarType(result).nestedfpstruct:=nestedfpstruct; end; function FpcBaseNestedProcVarType.clone: JLObject; begin result:=inherited; FpcBaseNestedProcVarType(result).nestedfpstruct:=nestedfpstruct; end; procedure FpcBaseNestedProcVarType.invokeProc(const args: array of jlobject); begin inherited invokeProc(getNestedArgs(args)); end; function FpcBaseNestedProcVarType.invokeBooleanFunc(const args: array of jlobject): jboolean; begin result:=inherited invokeBooleanFunc(getNestedArgs(args)); end; function FpcBaseNestedProcVarType.invokeCharFunc(const args: array of jlobject): jchar; begin result:=inherited invokeCharFunc(getNestedArgs(args)); end; function FpcBaseNestedProcVarType.invokeByteFunc(const args: array of jlobject): jbyte; begin result:=inherited invokeByteFunc(getNestedArgs(args)); end; function FpcBaseNestedProcVarType.invokeShortFunc(const args: array of jlobject): jshort; begin result:=inherited invokeShortFunc(getNestedArgs(args)); end; function FpcBaseNestedProcVarType.invokeIntFunc(const args: array of jlobject): jint; begin result:=inherited invokeIntFunc(getNestedArgs(args)); end; function FpcBaseNestedProcVarType.invokeLongFunc(const args: array of jlobject): jlong; begin result:=inherited invokeLongFunc(getNestedArgs(args)); end; function FpcBaseNestedProcVarType.invokeSingleFunc(const args: array of jlobject): jfloat; begin result:=inherited invokeSingleFunc(getNestedArgs(args)); end; function FpcBaseNestedProcVarType.invokeDoubleFunc(const args: array of jlobject): jdouble; begin result:=inherited invokeDoubleFunc(getNestedArgs(args)); end; function FpcBaseNestedProcVarType.invokeObjectFunc(const args: array of jlobject): jlobject; begin result:=inherited invokeObjectFunc(getNestedArgs(args)); end;