// // SWIG Typemap library // Dave Beazley // May 5, 1997 // // Perl5 implementation // // This library provides standard typemaps for modifying SWIG's behavior. // With enough entries in this file, I hope that very few people actually // ever need to write a typemap. // /* The SWIG typemap library provides a language independent mechanism for supporting output arguments, input values, and other C function calling mechanisms. The primary use of the library is to provide a better interface to certain C function--especially those involving 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. int *INPUT short *INPUT long *INPUT long long *INPUT unsigned int *INPUT unsigned short *INPUT unsigned long *INPUT unsigned long long *INPUT unsigned char *INPUT bool *INPUT float *INPUT double *INPUT 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 : %include typemaps.i double fadd(double *INPUT, double *INPUT); or you can use the %apply directive : %include typemaps.i %apply double *INPUT { double *a, double *b }; double fadd(double *a, double *b); */ %define INPUT_TYPEMAP(type, converter) %typemap(in) type *INPUT(type temp), type &INPUT(type temp) { temp = (type) converter($input); $1 = &temp; } %typemap(typecheck) type *INPUT = type; %typemap(typecheck) type &INPUT = type; %enddef INPUT_TYPEMAP(float, SvNV); INPUT_TYPEMAP(double, SvNV); INPUT_TYPEMAP(int, SvIV); INPUT_TYPEMAP(long, SvIV); INPUT_TYPEMAP(short, SvIV); INPUT_TYPEMAP(signed char, SvIV); INPUT_TYPEMAP(unsigned int, SvUV); INPUT_TYPEMAP(unsigned long, SvUV); INPUT_TYPEMAP(unsigned short, SvUV); INPUT_TYPEMAP(unsigned char, SvUV); INPUT_TYPEMAP(bool, SvIV); %typemap(in) long long *INPUT($*1_ltype temp), long long &INPUT($*1_ltype temp) { temp = strtoll(SvPV($input,PL_na), 0, 0); $1 = &temp; } %typemap(typecheck) long long *INPUT = long long; %typemap(typecheck) long long &INPUT = long long; %typemap(in) unsigned long long *INPUT($*1_ltype temp), unsigned long long &INPUT($*1_ltype temp) { temp = strtoull(SvPV($input,PL_na), 0, 0); $1 = &temp; } %typemap(typecheck) unsigned long long *INPUT = unsigned long long; %typemap(typecheck) unsigned long long &INPUT = unsigned long long; #undef INPUT_TYPEMAP // 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, functions will return a Perl array. int *OUTPUT short *OUTPUT long *OUTPUT long long *OUTPUT unsigned int *OUTPUT unsigned short *OUTPUT unsigned long *OUTPUT unsigned long long *OUTPUT unsigned char *OUTPUT bool *OUTPUT float *OUTPUT double *OUTPUT 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 : %include typemaps.i double modf(double x, double *OUTPUT); or you can use the %apply directive : %include typemaps.i %apply double *OUTPUT { double *ip }; double modf(double x, double *ip); The Perl output of the function would be an array containing both output values. */ // Force the argument to be ignored. %typemap(in,numinputs=0) int *OUTPUT(int temp), int &OUTPUT(int temp), short *OUTPUT(short temp), short &OUTPUT(short temp), long *OUTPUT(long temp), long &OUTPUT(long temp), unsigned int *OUTPUT(unsigned int temp), unsigned int &OUTPUT(unsigned int temp), unsigned short *OUTPUT(unsigned short temp), unsigned short &OUTPUT(unsigned short temp), unsigned long *OUTPUT(unsigned long temp), unsigned long &OUTPUT(unsigned long temp), unsigned char *OUTPUT(unsigned char temp), unsigned char &OUTPUT(unsigned char temp), signed char *OUTPUT(signed char temp), signed char &OUTPUT(signed char temp), bool *OUTPUT(bool temp), bool &OUTPUT(bool temp), float *OUTPUT(float temp), float &OUTPUT(float temp), double *OUTPUT(double temp), double &OUTPUT(double temp), long long *OUTPUT($*1_ltype temp), long long &OUTPUT($*1_ltype temp), unsigned long long *OUTPUT($*1_ltype temp), unsigned long long &OUTPUT($*1_ltype temp) "$1 = &temp;"; %typemap(argout) int *OUTPUT, int &OUTPUT, short *OUTPUT, short &OUTPUT, long *OUTPUT, long &OUTPUT, signed char *OUTPUT, signed char &OUTPUT, bool *OUTPUT, bool &OUTPUT { if (argvi >= items) { EXTEND(sp,1); } $result = sv_newmortal(); sv_setiv($result,(IV) *($1)); argvi++; } %typemap(argout) unsigned int *OUTPUT, unsigned int &OUTPUT, unsigned short *OUTPUT, unsigned short &OUTPUT, unsigned long *OUTPUT, unsigned long &OUTPUT, unsigned char *OUTPUT, unsigned char &OUTPUT { if (argvi >= items) { EXTEND(sp,1); } $result = sv_newmortal(); sv_setuv($result,(UV) *($1)); argvi++; } %typemap(argout) float *OUTPUT, float &OUTPUT, double *OUTPUT, double &OUTPUT { if (argvi >= items) { EXTEND(sp,1); } $result = sv_newmortal(); sv_setnv($result,(double) *($1)); argvi++; } %typemap(argout) long long *OUTPUT, long long &OUTPUT { char temp[256]; if (argvi >= items) { EXTEND(sp,1); } sprintf(temp,"%lld", $1); $result = sv_newmortal(); sv_setpv($result,temp); argvi++; } %typemap(argout) unsigned long long *OUTPUT, unsigned long long &OUTPUT { char temp[256]; if (argvi >= items) { EXTEND(sp,1); } sprintf(temp,"%llu", $1); $result = sv_newmortal(); sv_setpv($result,temp); argvi++; } // 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 Perl array. int *INOUT short *INOUT long *INOUT long long *INOUT unsigned int *INOUT unsigned short *INOUT unsigned long *INOUT unsigned long long *INOUT unsigned char *INOUT bool *INOUT float *INOUT double *INOUT 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 : %include typemaps.i void neg(double *INOUT); or you can use the %apply directive : %include typemaps.i %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 Perl variable you might do this : $x = neg($x); */ %typemap(in) int *INOUT = int *INPUT; %typemap(in) short *INOUT = short *INPUT; %typemap(in) long *INOUT = long *INPUT; %typemap(in) unsigned *INOUT = unsigned *INPUT; %typemap(in) unsigned short *INOUT = unsigned short *INPUT; %typemap(in) unsigned long *INOUT = unsigned long *INPUT; %typemap(in) unsigned char *INOUT = unsigned char *INPUT; %typemap(in) signed char *INOUT = signed char *INPUT; %typemap(in) bool *INOUT = bool *INPUT; %typemap(in) float *INOUT = float *INPUT; %typemap(in) double *INOUT = double *INPUT; %typemap(in) long long *INOUT = long long *INPUT; %typemap(in) unsigned long long *INOUT = unsigned long long *INPUT; %typemap(in) int &INOUT = int &INPUT; %typemap(in) short &INOUT = short &INPUT; %typemap(in) long &INOUT = long &INPUT; %typemap(in) unsigned &INOUT = unsigned &INPUT; %typemap(in) unsigned short &INOUT = unsigned short &INPUT; %typemap(in) unsigned long &INOUT = unsigned long &INPUT; %typemap(in) unsigned char &INOUT = unsigned char &INPUT; %typemap(in) signed char &INOUT = signed char &INPUT; %typemap(in) bool &INOUT = bool &INPUT; %typemap(in) float &INOUT = float &INPUT; %typemap(in) double &INOUT = double &INPUT; %typemap(in) long long &INOUT = long long &INPUT; %typemap(in) unsigned long long &INOUT = unsigned long long &INPUT; %typemap(argout) int *INOUT = int *OUTPUT; %typemap(argout) short *INOUT = short *OUTPUT; %typemap(argout) long *INOUT = long *OUTPUT; %typemap(argout) unsigned *INOUT = unsigned *OUTPUT; %typemap(argout) unsigned short *INOUT = unsigned short *OUTPUT; %typemap(argout) unsigned long *INOUT = unsigned long *OUTPUT; %typemap(argout) unsigned char *INOUT = unsigned char *OUTPUT; %typemap(argout) signed char *INOUT = signed char *OUTPUT; %typemap(argout) bool *INOUT = bool *OUTPUT; %typemap(argout) float *INOUT = float *OUTPUT; %typemap(argout) double *INOUT = double *OUTPUT; %typemap(argout) long long *INOUT = long long *OUTPUT; %typemap(argout) unsigned long long *INOUT = unsigned long long *OUTPUT; %typemap(argout) int &INOUT = int &OUTPUT; %typemap(argout) short &INOUT = short &OUTPUT; %typemap(argout) long &INOUT = long &OUTPUT; %typemap(argout) unsigned &INOUT = unsigned &OUTPUT; %typemap(argout) unsigned short &INOUT = unsigned short &OUTPUT; %typemap(argout) unsigned long &INOUT = unsigned long &OUTPUT; %typemap(argout) unsigned char &INOUT = unsigned char &OUTPUT; %typemap(argout) signed char &INOUT = signed char &OUTPUT; %typemap(argout) bool &INOUT = bool &OUTPUT; %typemap(argout) float &INOUT = float &OUTPUT; %typemap(argout) double &INOUT = double &OUTPUT; %typemap(argout) long long &INOUT = long long &OUTPUT; %typemap(argout) unsigned long long &INOUT = unsigned long long &OUTPUT; // REFERENCE // Accept Perl references as pointers /* The following methods make Perl references work like simple C pointers. References can only be used for simple input/output values, not C arrays however. It should also be noted that REFERENCES are specific to Perl and not supported in other scripting languages at this time. int *REFERENCE short *REFERENCE long *REFERENCE unsigned int *REFERENCE unsigned short *REFERENCE unsigned long *REFERENCE unsigned char *REFERENCE float *REFERENCE double *REFERENCE 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 : %include typemaps.i void neg(double *REFERENCE); or you can use the %apply directive : %include typemaps.i %apply double *REFERENCE { double *x }; void neg(double *x); Unlike the INOUT mapping described previous, this approach directly modifies the value of a Perl reference. Thus, you could use it as follows : $x = 3; neg(\$x); print "$x\n"; # Should print out -3. */ %typemap(in) double *REFERENCE (double dvalue), double &REFERENCE(double dvalue) { SV *tempsv; if (!SvROK($input)) { SWIG_croak("expected a reference"); } tempsv = SvRV($input); if ((!SvNOK(tempsv)) && (!SvIOK(tempsv))) { printf("Received %d\n", SvTYPE(tempsv)); SWIG_croak("Expected a double reference."); } dvalue = SvNV(tempsv); $1 = &dvalue; } %typemap(in) float *REFERENCE (float dvalue), float &REFERENCE(float dvalue) { SV *tempsv; if (!SvROK($input)) { SWIG_croak("expected a reference"); } tempsv = SvRV($input); if ((!SvNOK(tempsv)) && (!SvIOK(tempsv))) { SWIG_croak("expected a double reference"); } dvalue = (float) SvNV(tempsv); $1 = &dvalue; } %typemap(in) int *REFERENCE (int dvalue), int &REFERENCE (int dvalue) { SV *tempsv; if (!SvROK($input)) { SWIG_croak("expected a reference"); } tempsv = SvRV($input); if (!SvIOK(tempsv)) { SWIG_croak("expected a integer reference"); } dvalue = SvIV(tempsv); $1 = &dvalue; } %typemap(in) short *REFERENCE (short dvalue), short &REFERENCE(short dvalue) { SV *tempsv; if (!SvROK($input)) { SWIG_croak("expected a reference"); } tempsv = SvRV($input); if (!SvIOK(tempsv)) { SWIG_croak("expected a integer reference"); } dvalue = (short) SvIV(tempsv); $1 = &dvalue; } %typemap(in) long *REFERENCE (long dvalue), long &REFERENCE(long dvalue) { SV *tempsv; if (!SvROK($input)) { SWIG_croak("expected a reference"); } tempsv = SvRV($input); if (!SvIOK(tempsv)) { SWIG_croak("expected a integer reference"); } dvalue = (long) SvIV(tempsv); $1 = &dvalue; } %typemap(in) unsigned int *REFERENCE (unsigned int dvalue), unsigned int &REFERENCE(unsigned int dvalue) { SV *tempsv; if (!SvROK($input)) { SWIG_croak("expected a reference"); } tempsv = SvRV($input); if (!SvIOK(tempsv)) { SWIG_croak("expected a integer reference"); } dvalue = (unsigned int) SvUV(tempsv); $1 = &dvalue; } %typemap(in) unsigned short *REFERENCE (unsigned short dvalue), unsigned short &REFERENCE(unsigned short dvalue) { SV *tempsv; if (!SvROK($input)) { SWIG_croak("expected a reference"); } tempsv = SvRV($input); if (!SvIOK(tempsv)) { SWIG_croak("expected a integer reference"); } dvalue = (unsigned short) SvUV(tempsv); $1 = &dvalue; } %typemap(in) unsigned long *REFERENCE (unsigned long dvalue), unsigned long &REFERENCE(unsigned long dvalue) { SV *tempsv; if (!SvROK($input)) { SWIG_croak("expected a reference"); } tempsv = SvRV($input); if (!SvIOK(tempsv)) { SWIG_croak("expected a integer reference"); } dvalue = (unsigned long) SvUV(tempsv); $1 = &dvalue; } %typemap(in) unsigned char *REFERENCE (unsigned char dvalue), unsigned char &REFERENCE(unsigned char dvalue) { SV *tempsv; if (!SvROK($input)) { SWIG_croak("expected a reference"); } tempsv = SvRV($input); if (!SvIOK(tempsv)) { SWIG_croak("expected a integer reference"); } dvalue = (unsigned char) SvUV(tempsv); $1 = &dvalue; } %typemap(in) signed char *REFERENCE (signed char dvalue), signed char &REFERENCE(signed char dvalue) { SV *tempsv; if (!SvROK($input)) { SWIG_croak("expected a reference"); } tempsv = SvRV($input); if (!SvIOK(tempsv)) { SWIG_croak("expected a integer reference"); } dvalue = (signed char) SvIV(tempsv); $1 = &dvalue; } %typemap(in) bool *REFERENCE (bool dvalue), bool &REFERENCE(bool dvalue) { SV *tempsv; if (!SvROK($input)) { SWIG_croak("expected a reference"); } tempsv = SvRV($input); if (!SvIOK(tempsv)) { SWIG_croak("expected a integer reference"); } dvalue = (bool) SvIV(tempsv); $1 = &dvalue; } %typemap(argout) double *REFERENCE, double &REFERENCE, float *REFERENCE, float &REFERENCE { SV *tempsv; tempsv = SvRV($arg); sv_setnv(tempsv, (double) *$1); } %typemap(argout) int *REFERENCE, int &REFERENCE, short *REFERENCE, short &REFERENCE, long *REFERENCE, long &REFERENCE, signed char *REFERENCE, unsigned char &REFERENCE, bool *REFERENCE, bool &REFERENCE { SV *tempsv; tempsv = SvRV($input); sv_setiv(tempsv, (IV) *$1); } %typemap(argout) unsigned int *REFERENCE, unsigned int &REFERENCE, unsigned short *REFERENCE, unsigned short &REFERENCE, unsigned long *REFERENCE, unsigned long &REFERENCE, unsigned char *REFERENCE, unsigned char &REFERENCE { SV *tempsv; tempsv = SvRV($input); sv_setuv(tempsv, (UV) *$1); } /* Overloading information */ %typemap(typecheck) double *INOUT = double; %typemap(typecheck) bool *INOUT = bool; %typemap(typecheck) signed char *INOUT = signed char; %typemap(typecheck) unsigned char *INOUT = unsigned char; %typemap(typecheck) unsigned long *INOUT = unsigned long; %typemap(typecheck) unsigned short *INOUT = unsigned short; %typemap(typecheck) unsigned int *INOUT = unsigned int; %typemap(typecheck) long *INOUT = long; %typemap(typecheck) short *INOUT = short; %typemap(typecheck) int *INOUT = int; %typemap(typecheck) float *INOUT = float; %typemap(typecheck) long long *INOUT = long long; %typemap(typecheck) unsigned long long *INOUT = unsigned long long; %typemap(typecheck) double &INOUT = double; %typemap(typecheck) bool &INOUT = bool; %typemap(typecheck) signed char &INOUT = signed char; %typemap(typecheck) unsigned char &INOUT = unsigned char; %typemap(typecheck) unsigned long &INOUT = unsigned long; %typemap(typecheck) unsigned short &INOUT = unsigned short; %typemap(typecheck) unsigned int &INOUT = unsigned int; %typemap(typecheck) long &INOUT = long; %typemap(typecheck) short &INOUT = short; %typemap(typecheck) int &INOUT = int; %typemap(typecheck) float &INOUT = float; %typemap(typecheck) long long &INOUT = long long; %typemap(typecheck) unsigned long long &INOUT = unsigned long long;