| /* ------------------------------------------------------------ |
| * |
| * Define the IN/OUTPUT typemaps assuming the output parameters are |
| * returned in a list, i.e., they are not directly modified. |
| * |
| * The user should provide the %append_output(result, obj) method, |
| * via a macro, which append a particular object to the result. |
| * |
| * |
| * In Tcl, for example, the file is used as: |
| * |
| * #define %append_output(obj) Tcl_ListObjAppendElement(interp,Tcl_GetObjResult(interp),obj); |
| * %include <typemaps/inoutlist.swg> |
| * |
| * while in Python it is used as: |
| * |
| * #define %append_output(obj) $result = SWIG_Python_AppendResult($result, obj) |
| * %include <typemaps/inoutlist.swg> |
| * |
| * where the method SWIG_Python_AppendResult is defined inside the |
| * %append_output fragment. |
| * |
| * If you forget to define %append_output, this file will generate |
| * an error. |
| * |
| * ------------------------------------------------------------ */ |
| |
| |
| // |
| // Uncomment the following definition if you don't want the in/out |
| // typemaps by default, ie, you prefer to use typemaps.i. |
| // |
| //#define SWIG_INOUT_NODEF |
| |
| // |
| // Use the following definition to enable the INPUT parameters to |
| // accept both 'by value' and 'pointer' objects. |
| // |
| #define SWIG_INPUT_ACCEPT_PTRS |
| |
| // ------------------------------------------------------------------------ |
| // Pointer handling |
| // |
| // These mappings provide support for input/output arguments and common |
| // uses for C/C++ pointers. |
| // ------------------------------------------------------------------------ |
| |
| // INPUT typemaps. |
| // These remap a C pointer to be an "INPUT" value which is passed by value |
| // instead of reference. |
| |
| /* |
| The following methods can be applied to turn a pointer into a simple |
| "input" value. That is, instead of passing a pointer to an object, |
| you would use a real value instead. |
| |
| To use these, suppose you had a C function like this : |
| |
| double fadd(double *a, double *b) { |
| return *a+*b; |
| } |
| |
| You could wrap it with SWIG as follows : |
| |
| double fadd(double *INPUT, double *INPUT); |
| |
| or you can use the %apply directive : |
| |
| %apply double *INPUT { double *a, double *b }; |
| double fadd(double *a, double *b); |
| |
| */ |
| #if defined(SWIG_INPUT_ACCEPT_PTRS) |
| #define %check_input_ptr(input,arg,desc,disown) (SWIG_IsOK((res = SWIG_ConvertPtr(input,%as_voidptrptr(arg),desc,disown)))) |
| #else |
| #define %check_input_ptr(input,arg,desc,disown) (SWIG_IsOK((res = SWIG_ERROR))) |
| #endif |
| |
| %define %_value_input_typemap(code, asval_meth, asval_frag, Type) |
| %typemap(in,noblock=1,fragment=asval_frag) Type *INPUT ($*ltype temp, int res = 0) { |
| if (!%check_input_ptr($input,&$1,$descriptor,$disown)) { |
| Type val; |
| int ecode = asval_meth($input, &val); |
| if (!SWIG_IsOK(ecode)) { |
| %argument_fail(ecode, "$*ltype",$symname, $argnum); |
| } |
| temp = %static_cast(val, $*ltype); |
| $1 = &temp; |
| res = SWIG_AddTmpMask(ecode); |
| } |
| } |
| %typemap(in,noblock=1,fragment=asval_frag) Type &INPUT($*ltype temp, int res = 0) { |
| if (!%check_input_ptr($input,&$1,$descriptor,$disown)) { |
| Type val; |
| int ecode = asval_meth($input, &val); |
| if (!SWIG_IsOK(ecode)) { |
| %argument_fail(ecode, "$*ltype",$symname, $argnum); |
| } |
| temp = %static_cast(val, $*ltype); |
| $1 = &temp; |
| res = SWIG_AddTmpMask(ecode); |
| } |
| } |
| %typemap(freearg,noblock=1,match="in") Type *INPUT, Type &INPUT { |
| if (SWIG_IsNewObj(res$argnum)) %delete($1); |
| } |
| %typemap(typecheck,noblock=1,precedence=code,fragment=asval_frag) Type *INPUT, Type &INPUT { |
| void *ptr = 0; |
| int res = asval_meth($input, 0); |
| $1 = SWIG_CheckState(res); |
| if (!$1) { |
| $1 = %check_input_ptr($input,&ptr,$1_descriptor,0); |
| } |
| } |
| %enddef |
| |
| %define %_ptr_input_typemap(code,asptr_meth,asptr_frag,Type) |
| %typemap(in,noblock=1,fragment=asptr_frag) Type *INPUT(int res = 0) { |
| res = asptr_meth($input, &$1); |
| if (!SWIG_IsOK(res)) { |
| %argument_fail(res,"$type",$symname, $argnum); |
| } |
| res = SWIG_AddTmpMask(res); |
| } |
| %typemap(in,noblock=1,fragment=asptr_frag) Type &INPUT(int res = 0) { |
| res = asptr_meth($input, &$1); |
| if (!SWIG_IsOK(res)) { |
| %argument_fail(res,"$type",$symname, $argnum); |
| } |
| if (!$1) { |
| %argument_nullref("$type",$symname, $argnum); |
| } |
| res = SWIG_AddTmpMask(res); |
| } |
| %typemap(freearg,noblock=1,match="in") Type *INPUT, Type &INPUT { |
| if (SWIG_IsNewObj(res$argnum)) %delete($1); |
| } |
| %typemap(typecheck,noblock=1,precedence=code,fragment=asptr_frag) Type *INPUT, Type &INPUT { |
| int res = asptr_meth($input, (Type**)0); |
| $1 = SWIG_CheckState(res); |
| } |
| %enddef |
| |
| // OUTPUT typemaps. These typemaps are used for parameters that |
| // are output only. The output value is appended to the result as |
| // a list element. |
| |
| /* |
| The following methods can be applied to turn a pointer into an "output" |
| value. When calling a function, no input value would be given for |
| a parameter, but an output value would be returned. In the case of |
| multiple output values, they are returned in the form of a list. |
| |
| |
| For example, suppose you were trying to wrap the modf() function in the |
| C math library which splits x into integral and fractional parts (and |
| returns the integer part in one of its parameters): |
| |
| double modf(double x, double *ip); |
| |
| You could wrap it with SWIG as follows : |
| |
| double modf(double x, double *OUTPUT); |
| |
| or you can use the %apply directive : |
| |
| %apply double *OUTPUT { double *ip }; |
| double modf(double x, double *ip); |
| |
| The output of the function would be a list containing both output |
| values. |
| |
| */ |
| |
| %define %_value_output_typemap(from_meth, from_frag, Type) |
| %typemap(in,numinputs=0,noblock=1) |
| Type *OUTPUT ($*1_ltype temp, int res = SWIG_TMPOBJ), |
| Type &OUTPUT ($*1_ltype temp, int res = SWIG_TMPOBJ) { |
| $1 = &temp; |
| } |
| %typemap(argout,noblock=1,fragment=from_frag) Type *OUTPUT, Type &OUTPUT { |
| if (SWIG_IsTmpObj(res$argnum)) { |
| %append_output(from_meth((*$1))); |
| } else { |
| int new_flags = SWIG_IsNewObj(res$argnum) ? (SWIG_POINTER_OWN | %newpointer_flags) : %newpointer_flags; |
| %append_output(SWIG_NewPointerObj((void*)($1), $1_descriptor, new_flags)); |
| } |
| } |
| %enddef |
| |
| |
| // INOUT |
| // Mappings for an argument that is both an input and output |
| // parameter |
| |
| /* |
| The following methods can be applied to make a function parameter both |
| an input and output value. This combines the behavior of both the |
| "INPUT" and "OUTPUT" methods described earlier. Output values are |
| returned in the form of a list. |
| |
| For example, suppose you were trying to wrap the following function : |
| |
| void neg(double *x) { |
| *x = -(*x); |
| } |
| |
| You could wrap it with SWIG as follows : |
| |
| void neg(double *INOUT); |
| |
| or you can use the %apply directive : |
| |
| %apply double *INOUT { double *x }; |
| void neg(double *x); |
| |
| Unlike C, this mapping does not directly modify the input value. |
| Rather, the modified input value shows up as the return value of the |
| function. Thus, to apply this function to a variable you might do |
| this : |
| |
| x = neg(x) |
| |
| Note : previous versions of SWIG used the symbol 'BOTH' to mark |
| input/output arguments. This is still supported, but will be slowly |
| phased out in future releases. |
| |
| */ |
| |
| %define %_value_inout_typemap(Type) |
| %typemap(in) Type *INOUT = Type *INPUT; |
| %typemap(in) Type &INOUT = Type &INPUT; |
| %typemap(typecheck) Type *INOUT = Type *INPUT; |
| %typemap(typecheck) Type &INOUT = Type &INPUT; |
| %typemap(argout) Type *INOUT = Type *OUTPUT; |
| %typemap(argout) Type &INOUT = Type &OUTPUT; |
| %enddef |
| |
| |
| %define %_ptr_inout_typemap(Type) |
| %_value_inout_typemap(%arg(Type)) |
| %typemap(typecheck) Type *INOUT = Type *INPUT; |
| %typemap(typecheck) Type &INOUT = Type &INPUT; |
| %typemap(freearg) Type *INOUT = Type *INPUT; |
| %typemap(freearg) Type &INOUT = Type &INPUT; |
| %enddef |
| |
| #ifndef SWIG_INOUT_NODEF |
| |
| %define %value_input_typemap(code,asval_meth, asval_frag, Type...) |
| %_value_input_typemap(%arg(code),%arg(asval_meth),%arg(asval_frag),%arg(Type)) |
| %enddef |
| |
| %define %ptr_input_typemap(code,asval_meth,asval_frag,Type...) |
| %_ptr_input_typemap(%arg(code),%arg(asval_meth),%arg(asval_frag),%arg(Type)) |
| %enddef |
| |
| %define %value_output_typemap(from_meth,from_frag,Type...) |
| %_value_output_typemap(%arg(from_meth),%arg(from_frag),%arg(Type)) |
| %enddef |
| |
| #define %value_inout_typemap(Type...) %_value_inout_typemap(%arg(Type)) |
| #define %ptr_inout_typemap(Type...) %_ptr_inout_typemap(%arg(Type)) |
| |
| #else /* You need to include typemaps.i */ |
| |
| |
| #define %value_output_typemap(Type...) |
| #define %value_input_typemap(Type...) |
| #define %value_inout_typemap(Type...) |
| #define %ptr_input_typemap(Type...) |
| #define %ptr_inout_typemap(Type...) |
| |
| #endif /* SWIG_INOUT_DEFAULT */ |
| |
| /*---------------------------------------------------------------------- |
| Front ends. |
| |
| use the following macros to define your own IN/OUTPUT/INOUT typemaps |
| |
| ------------------------------------------------------------------------*/ |
| %define %typemaps_inout(Code, AsValMeth, FromMeth, AsValFrag, FromFrag, Type...) |
| %_value_input_typemap(%arg(Code), %arg(AsValMeth), |
| %arg(AsValFrag), %arg(Type)); |
| %_value_output_typemap(%arg(FromMeth), %arg(FromFrag), %arg(Type)); |
| %_value_inout_typemap(%arg(Type)); |
| %enddef |
| |
| %define %typemaps_inoutn(Code,Type...) |
| %typemaps_inout(%arg(Code), |
| %arg(SWIG_AsVal(Type)), |
| %arg(SWIG_From(Type)), |
| %arg(SWIG_AsVal_frag(Type)), |
| %arg(SWIG_From_frag(Type)), |
| %arg(Type)); |
| %enddef |