Mercurial > pub > dyncall > bindings
view R/rdc/src/api.c @ 16:a40084782546
- added support for more return values to python binding
- python binding readme update
author | cslag |
---|---|
date | Sat, 26 Mar 2016 22:31:42 +0100 |
parents | 0cfcc391201f |
children |
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#include <R.h> #define USE_RINTERNALS #include <Rinternals.h> #include <R_ext/Rdynload.h> #include "dynload.h" #include "dyncall.h" #include "dyncall_signature.h" /* rdcLoad */ SEXP rdcLoad(SEXP sLibPath) { void* libHandle; const char* libPath; SEXP r; libPath = CHAR(STRING_ELT(sLibPath,0)); libHandle = dlLoadLibrary(libPath); if (!libHandle) { error("rdcLoad failed on path %s", libPath ); } r = R_NilValue; PROTECT( r = R_MakeExternalPtr(libHandle, R_NilValue, R_NilValue) ); UNPROTECT(1); return r; } /* rdcFree */ SEXP rdcFree(SEXP sLibHandle) { void* libHandle; libHandle = R_ExternalPtrAddr(sLibHandle); dlFreeLibrary( libHandle ); R_SetExternalPtrAddr(sLibHandle, 0); return R_NilValue; } /* rdcFind */ SEXP rdcFind(SEXP sLibHandle, SEXP sSymbol) { void* libHandle; const char* symbol; void* addr; SEXP r; libHandle = R_ExternalPtrAddr(sLibHandle); symbol = CHAR(STRING_ELT(sSymbol,0) ); addr = dlFindSymbol( libHandle, symbol ); r = R_NilValue; PROTECT( r = R_MakeExternalPtr(addr, R_NilValue, R_NilValue) ); UNPROTECT(1); return r; } SEXP r_dcCall(SEXP sCallVM, SEXP sFuncPtr, SEXP sSignature, SEXP sArgs) { DCCallVM* pvm; void* funcPtr; const char* signature; const char* ptr; int i,l,protect_count; SEXP r; pvm = R_ExternalPtrAddr(sCallVM); if (!pvm) error("callvm is null"); funcPtr = R_ExternalPtrAddr(sFuncPtr); if (!funcPtr) error("funcptr is null"); signature = CHAR(STRING_ELT(sSignature,0) ); if (!signature) error("signature is null"); dcReset(pvm); ptr = signature; l = LENGTH(sArgs); i = 0; protect_count = 0; for(;;) { char ch = *ptr++; SEXP arg; if (ch == '\0') error("invalid signature - no return type specified"); if (ch == ')') break; if (i >= l) error("not enough arguments for given signature (arg length = %d %d %c)", l,i,ch ); arg = VECTOR_ELT(sArgs,i); switch(ch) { case DC_SIGCHAR_BOOL: { DCbool value; if ( isLogical(arg) ) { value = ( LOGICAL(arg)[0] == 0 ) ? DC_FALSE : DC_TRUE; } else { value = LOGICAL( coerceVector(arg, LGLSXP) )[0] ? DC_FALSE : DC_TRUE; } dcArgBool(pvm, value ); break; } case DC_SIGCHAR_INT: { int value; if ( isInteger(arg) ) { value = INTEGER(arg)[0]; } else { value = INTEGER( coerceVector(arg, INTSXP) )[0]; } dcArgInt(pvm, value); break; } case DC_SIGCHAR_FLOAT: { dcArgFloat( pvm, (float) REAL( coerceVector(arg, REALSXP) )[0] ); break; } case DC_SIGCHAR_DOUBLE: { double value; if ( isReal(arg) ) { value = REAL(arg)[0]; } else { value = REAL( coerceVector(arg,REALSXP) )[0]; } dcArgDouble( pvm, value ); break; } /* case DC_SIGCHAR_LONG: { PROTECT(arg = coerceVector(arg, REALSXP) ); dcArgLong( pvm, (DClong) ( REAL(arg)[0] ) ); UNPROTECT(1); break; } */ case DC_SIGCHAR_STRING: { DCpointer ptr; if (arg == R_NilValue) ptr = (DCpointer) 0; else if (isString(arg)) ptr = (DCpointer) CHAR( STRING_ELT(arg,0) ); else { if (protect_count) UNPROTECT(protect_count); error("invalid value for C string argument"); break; } } case DC_SIGCHAR_POINTER: { DCpointer ptr; if ( arg == R_NilValue ) ptr = (DCpointer) 0; else if (isString(arg) ) ptr = (DCpointer) CHAR( STRING_ELT(arg,0) ); else if (isReal(arg) ) ptr = (DCpointer) REAL(arg); else if (isInteger(arg) ) ptr = (DCpointer) INTEGER(arg); else if (isLogical(arg) ) ptr = (DCpointer) LOGICAL(arg); else if (TYPEOF(arg) == EXTPTRSXP) ptr = R_ExternalPtrAddr(arg); else { if (protect_count) UNPROTECT(protect_count); error("invalid signature"); break; } dcArgPointer(pvm, ptr); break; } } ++i; } if ( i != l ) { if (protect_count) UNPROTECT(protect_count); error ("signature claims to have %d arguments while %d arguments are given", i, l); } switch(*ptr) { case DC_SIGCHAR_BOOL: PROTECT( r = allocVector(LGLSXP, 1) ); protect_count++; LOGICAL(r)[0] = ( dcCallBool(pvm, funcPtr) == DC_FALSE ) ? FALSE : TRUE; UNPROTECT(protect_count); return r; case DC_SIGCHAR_CHAR: PROTECT( r = allocVector(INTSXP, 1) ); protect_count++; INTEGER(r)[0] = dcCallChar(pvm, funcPtr); UNPROTECT(protect_count); return r; case DC_SIGCHAR_SHORT: PROTECT( r = allocVector(INTSXP, 1) ); protect_count++; INTEGER(r)[0] = dcCallShort(pvm, funcPtr); UNPROTECT(protect_count); return r; case DC_SIGCHAR_LONG: PROTECT( r = allocVector(INTSXP, 1) ); protect_count++; INTEGER(r)[0] = dcCallLong(pvm, funcPtr); UNPROTECT(protect_count); return r; case DC_SIGCHAR_INT: PROTECT( r = allocVector(INTSXP, 1) ); protect_count++; INTEGER(r)[0] = dcCallInt(pvm, funcPtr); UNPROTECT(protect_count); return r; case DC_SIGCHAR_LONGLONG: PROTECT( r = allocVector(REALSXP, 1) ); protect_count++; REAL(r)[0] = (double) ( dcCallLong(pvm, funcPtr) ); UNPROTECT(protect_count); return r; case DC_SIGCHAR_FLOAT: PROTECT( r = allocVector(REALSXP, 1) ); protect_count++; REAL(r)[0] = (double) ( dcCallFloat(pvm, funcPtr) ); UNPROTECT(protect_count); return r; case DC_SIGCHAR_DOUBLE: PROTECT( r = allocVector(REALSXP, 1) ); protect_count++; REAL(r)[0] = dcCallDouble(pvm, funcPtr); UNPROTECT(protect_count); return r; case DC_SIGCHAR_POINTER: PROTECT( r = R_MakeExternalPtr( dcCallPointer(pvm,funcPtr), R_NilValue, R_NilValue ) ); protect_count++; UNPROTECT(protect_count); return r; case DC_SIGCHAR_VOID: dcCallVoid(pvm,funcPtr); if (protect_count) UNPROTECT(protect_count); break; default: { if (protect_count) UNPROTECT(protect_count); error("invalid return type signature"); } break; } return R_NilValue; } /* rdcCall */ DCCallVM* gCall; SEXP rdcCall(SEXP sFuncPtr, SEXP sSignature, SEXP sArgs) { void* funcPtr; const char* signature; const char* ptr; int i,l,protect_count; SEXP r; funcPtr = R_ExternalPtrAddr(sFuncPtr); if (!funcPtr) error("funcptr is null"); signature = CHAR(STRING_ELT(sSignature,0) ); if (!signature) error("signature is null"); dcReset(gCall); ptr = signature; l = LENGTH(sArgs); i = 0; protect_count = 0; for(;;) { char ch = *ptr++; SEXP arg; if (ch == '\0') error("invalid signature - no return type specified"); if (ch == ')') break; if (i >= l) error("not enough arguments for given signature (arg length = %d %d %c)", l,i,ch ); arg = VECTOR_ELT(sArgs,i); switch(ch) { case DC_SIGCHAR_BOOL: { if ( !isLogical(arg) ) { PROTECT(arg = coerceVector(arg, LGLSXP)); protect_count++; } dcArgBool(gCall, ( LOGICAL(arg)[0] == 0 ) ? DC_FALSE : DC_TRUE ); // UNPROTECT(1); break; } case DC_SIGCHAR_INT: { if ( !isInteger(arg) ) { PROTECT(arg = coerceVector(arg, INTSXP)); protect_count++; } dcArgInt(gCall, INTEGER(arg)[0]); // UNPROTECT(1); break; } case DC_SIGCHAR_FLOAT: { PROTECT(arg = coerceVector(arg, REALSXP) ); dcArgFloat( gCall, REAL(arg)[0] ); UNPROTECT(1); break; } case DC_SIGCHAR_DOUBLE: { if ( !isReal(arg) ) { PROTECT(arg = coerceVector(arg, REALSXP) ); protect_count++; } dcArgDouble( gCall, REAL(arg)[0] ); // UNPROTECT(1); break; } /* case DC_SIGCHAR_LONG: { PROTECT(arg = coerceVector(arg, REALSXP) ); dcArgLong( gCall, (DClong) ( REAL(arg)[0] ) ); UNPROTECT(1); break; } */ case DC_SIGCHAR_STRING: { DCpointer ptr; if (arg == R_NilValue) ptr = (DCpointer) 0; else if (isString(arg)) ptr = (DCpointer) CHAR( STRING_ELT(arg,0) ); else { if (protect_count) UNPROTECT(protect_count); error("invalid value for C string argument"); break; } } case DC_SIGCHAR_POINTER: { DCpointer ptr; if ( arg == R_NilValue ) ptr = (DCpointer) 0; else if (isString(arg) ) ptr = (DCpointer) CHAR( STRING_ELT(arg,0) ); else if (isReal(arg) ) ptr = (DCpointer) REAL(arg); else if (isInteger(arg) ) ptr = (DCpointer) INTEGER(arg); else if (isLogical(arg) ) ptr = (DCpointer) LOGICAL(arg); else if (TYPEOF(arg) == EXTPTRSXP) ptr = R_ExternalPtrAddr(arg); else { if (protect_count) UNPROTECT(protect_count); error("invalid signature"); break; } dcArgPointer(gCall, ptr); break; } } ++i; } if ( i != l ) { if (protect_count) UNPROTECT(protect_count); error ("signature claims to have %d arguments while %d arguments are given", i, l); } switch(*ptr) { case DC_SIGCHAR_BOOL: PROTECT( r = allocVector(LGLSXP, 1) ); protect_count++; LOGICAL(r)[0] = ( dcCallBool(gCall, funcPtr) == DC_FALSE ) ? FALSE : TRUE; UNPROTECT(protect_count); return r; case DC_SIGCHAR_INT: PROTECT( r = allocVector(INTSXP, 1) ); protect_count++; INTEGER(r)[0] = dcCallInt(gCall, funcPtr); UNPROTECT(protect_count); return r; case DC_SIGCHAR_LONG: PROTECT( r = allocVector(REALSXP, 1) ); protect_count++; REAL(r)[0] = (double) ( dcCallLong(gCall, funcPtr) ); UNPROTECT(protect_count); return r; case DC_SIGCHAR_FLOAT: PROTECT( r = allocVector(REALSXP, 1) ); protect_count++; REAL(r)[0] = (double) ( dcCallFloat(gCall, funcPtr) ); UNPROTECT(protect_count); return r; case DC_SIGCHAR_DOUBLE: PROTECT( r = allocVector(REALSXP, 1) ); protect_count++; REAL(r)[0] = dcCallDouble(gCall, funcPtr); UNPROTECT(protect_count); return r; case DC_SIGCHAR_POINTER: PROTECT( r = R_MakeExternalPtr( dcCallPointer(gCall,funcPtr), R_NilValue, R_NilValue ) ); protect_count++; UNPROTECT(protect_count); return r; case DC_SIGCHAR_VOID: dcCallVoid(gCall,funcPtr); if (protect_count) UNPROTECT(protect_count); break; default: { if (protect_count) UNPROTECT(protect_count); error("invalid return type signature"); } } return R_NilValue; } SEXP rdcUnpack1(SEXP ptr_x, SEXP offset, SEXP sig_x) { char* ptr = ( (char*) R_ExternalPtrAddr(ptr_x) ) + INTEGER(offset)[0]; const char* sig = CHAR(STRING_ELT(sig_x,0) ); switch(sig[0]) { case DC_SIGCHAR_CHAR: return ScalarInteger( ( (unsigned char*)ptr)[0] ); case DC_SIGCHAR_INT: return ScalarInteger( ( (int*)ptr )[0] ); case DC_SIGCHAR_FLOAT: return ScalarReal( (double) ( (float*) ptr )[0] ); case DC_SIGCHAR_DOUBLE: return ScalarReal( ((double*)ptr)[0] ); default: error("invalid signature"); } return R_NilValue; } SEXP rdcDataPtr(SEXP x, SEXP offset) { void* ptr = ( ( (unsigned char*) DATAPTR(x) ) + INTEGER(offset)[0] ); return R_MakeExternalPtr( ptr, R_NilValue, R_NilValue ); } SEXP rdcMode(SEXP id) { dcMode( gCall, INTEGER(id)[0] ); dcReset( gCall ); return R_NilValue; } SEXP r_dcNewCallVM(SEXP size) { return R_MakeExternalPtr( dcNewCallVM( INTEGER(size)[0] ), R_NilValue, R_NilValue ); } SEXP r_dcFree(SEXP callvm) { DCCallVM* pvm = R_ExternalPtrAddr(callvm); dcFree(pvm); return R_NilValue; } SEXP r_dcMode(SEXP callvm, SEXP id) { DCCallVM* pvm = R_ExternalPtrAddr(callvm); dcMode( pvm, INTEGER(id)[0] ); dcReset( pvm ); return R_NilValue; } /* register R to C calls */ R_CallMethodDef callMethods[] = { {"rdcLoad", (DL_FUNC) &rdcLoad, 1}, {"rdcFree", (DL_FUNC) &rdcFree, 1}, {"rdcFind", (DL_FUNC) &rdcFind, 2}, {"rdcCall", (DL_FUNC) &rdcCall, 3}, {"rdcUnpack1", (DL_FUNC) &rdcUnpack1, 3}, {"rdcDataPtr", (DL_FUNC) &rdcDataPtr, 2}, {"rdcMode", (DL_FUNC) &rdcMode, 1}, {"dcNewCallVM", (DL_FUNC) &r_dcNewCallVM, 1}, {"dcFree", (DL_FUNC) &r_dcFree, 1}, {"dcCall", (DL_FUNC) &r_dcCall, 4}, {"dcMode", (DL_FUNC) &r_dcMode, 2}, {NULL, NULL, 0} }; void R_init_rdc(DllInfo *info) { R_registerRoutines(info, NULL, callMethods, NULL, NULL); gCall = dcNewCallVM(4096); } void R_unload_rdc(DllInfo *info) { }