/* --------------------------------------------------- */ /* Automatically generated by mwrap */ /* --------------------------------------------------- */ /* Code generated by mwrap 1.3 */ /* Copyright statement for mwrap: mwrap -- MEX file generation for MATLAB and Octave Copyright (c) 2007-2008 David Bindel Permission is hereby granted, free of charge, to any person obtaining a copy of this software and associated documentation files (the "Software"), to deal in the Software without restriction, including without limitation the rights to use, copy, modify, merge, publish, distribute, sublicense, and/or sell copies of the Software, and to permit persons to whom the Software is furnished to do so, subject to the following conditions: The above copyright notice and this permission notice shall be included in all copies or substantial portions of the Software. You may distribute a work that contains part or all of the source code generated by mwrap under the terms of your choice. THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. */ #include #include #include #include #if MX_HAS_INTERLEAVED_COMPLEX #include #endif /* * Records for call profile. */ int* mexprofrecord_= NULL; double mxWrapGetScalar_char(const mxArray* a, const char** e) { if (!a || mxGetClassID(a) != mxCHAR_CLASS || mxGetM(a)*mxGetN(a) != 1) { *e = "Invalid char argument"; return 0; } return (char) (*mxGetChars(a)); } /* * Support routines for copying data into and out of the MEX stubs, R2018a */ #if MX_HAS_INTERLEAVED_COMPLEX void* mxWrapGetP(const mxArray* a, const char* fmt, const char** e) { void* p = NULL; #ifdef R2008OO mxArray* ap; #endif if (mxGetClassID(a) == mxDOUBLE_CLASS && mxIsComplex(a) ) { if( mxGetM(a)*mxGetN(a) == 1 && (*mxGetComplexDoubles(a)).real == 0 ) return NULL; } if (mxGetClassID(a) == mxDOUBLE_CLASS && !mxIsComplex(a) ) { if( mxGetM(a)*mxGetN(a) == 1 && *mxGetDoubles(a) == 0) return NULL; } if (mxIsChar(a)) { char pbuf[128]; mxGetString(a, pbuf, sizeof(pbuf)); sscanf(pbuf, fmt, &p); } #ifdef R2008OO else if (ap = mxGetProperty(a, 0, "mwptr")) { return mxWrapGetP(ap, fmt, e); } #endif if (p == 0) *e = "Invalid pointer"; return p; } mxArray* mxWrapCreateP(void* p, const char* fmt) { if (p == 0) { mxArray* z = mxCreateDoubleMatrix(1,1, mxREAL); *mxGetDoubles(z) = 0; return z; } else { char pbuf[128]; snprintf(pbuf, sizeof(pbuf), fmt, p); return mxCreateString(pbuf); } } mxArray* mxWrapStrncpy(const char* s) { if (s) { return mxCreateString(s); } else { mxArray* z = mxCreateDoubleMatrix(1,1, mxREAL); *mxGetDoubles(z) = 0; return z; } } char* mxWrapGetString(const mxArray* a, const char** e) { char* s; mwSize slen; if (!a || (!mxIsChar(a) && mxGetM(a)*mxGetN(a) > 0)) { *e = "Invalid string argument"; return NULL; } slen = mxGetM(a)*mxGetN(a) + 1; s = (char*) mxMalloc(slen); if (mxGetM(a)*mxGetN(a) == 0) *s = 0; else mxGetString(a, s, slen); return s; } double mxWrapGetScalar(const mxArray* a, const char** e) { if (!a || mxGetClassID(a) != mxDOUBLE_CLASS || mxGetM(a)*mxGetN(a) != 1) { *e = "Invalid scalar argument"; return 0; } if( mxIsComplex(a) ) return (double) (*mxGetComplexDoubles(a)).real; else return (double) (*mxGetDoubles(a)); } #define mxWrapGetArrayDef(func, T) \ T* func(const mxArray* a, const char** e) \ { \ T* array; \ mwSize arraylen; \ mwIndex i; \ T* p; \ double* q; \ mxComplexDouble* z; \ if (!a || mxGetClassID(a) != mxDOUBLE_CLASS) { \ *e = "Invalid array argument, mxDOUBLE_CLASS expected"; \ return 0; \ } \ arraylen = mxGetM(a)*mxGetN(a); \ array = (T*) mxMalloc(mxGetM(a)*mxGetN(a) * sizeof(T)); \ p = array; \ if( mxIsComplex(a) ) \ { \ z = mxGetComplexDoubles(a); \ for (i = 0; i < arraylen; ++i) \ *p++ = (T) (*z++).real; \ } \ else \ { \ q = mxGetDoubles(a); \ for (i = 0; i < arraylen; ++i) \ *p++ = (T) (*q++); \ } \ return array; \ } #define mxWrapCopyDef(func, T) \ void func(mxArray* a, const T* q, mwSize n) \ { \ mwIndex i; \ double* p; \ mxComplexDouble* z; \ if( mxIsComplex(a) ) \ { \ z = mxGetComplexDoubles(a); \ for (i = 0; i < n; ++i) \ (*z++).real = (double) *q++; \ (*z++).imag = 0; \ } \ else \ { \ p = mxGetDoubles(a); \ for (i = 0; i < n; ++i) \ *p++ = (double) *q++; \ } \ } #define mxWrapReturnDef(func, T) \ mxArray* func(const T* q, mwSize m, mwSize n) \ { \ mwIndex i; \ double* p; \ if (!q) { \ return mxCreateDoubleMatrix(0,0, mxREAL); \ } else { \ mxArray* a = mxCreateDoubleMatrix(m,n, mxREAL); \ p = mxGetDoubles(a); \ for (i = 0; i < m*n; ++i) \ *p++ = (double) *q++; \ return a; \ } \ } #define mxWrapGetScalarZDef(func, T, ZT, setz) \ void func(T* z, const mxArray* a) \ { \ if( mxIsComplex(a) ) \ { \ setz(z, (ZT) (*mxGetComplexDoubles(a)).real, (ZT) (*mxGetComplexDoubles(a)).imag); \ } \ else \ { \ setz(z, (ZT) (*mxGetComplexDoubles(a)).real, (ZT) 0); \ } \ } #define mxWrapGetArrayZDef(func, T, ZT, setz) \ T* func(const mxArray* a, const char** e) \ { \ T* array; \ mwSize arraylen; \ mwIndex i; \ T* p; \ double* q; \ mxComplexDouble* z; \ if (!a || mxGetClassID(a) != mxDOUBLE_CLASS) { \ *e = "Invalid array argument, mxDOUBLE_CLASS expected"; \ return 0; \ } \ arraylen = mxGetM(a)*mxGetN(a); \ array = (T*) mxMalloc(mxGetM(a)*mxGetN(a) * sizeof(T)); \ p = array; \ if( mxIsComplex(a) ) \ { \ z = mxGetComplexDoubles(a); \ for (i = 0; i < arraylen; ++i) { \ setz(p, (ZT) (*z).real, (ZT) (*z).imag); \ ++p; ++z; } \ } \ else \ { \ q = mxGetDoubles(a); \ for (i = 0; i < arraylen; ++i) { \ setz(p, (ZT) (*q), (ZT) 0 ); \ ++p; ++q; } \ } \ return array; \ } #define mxWrapCopyZDef(func, T, freal, fimag) \ void func(mxArray* a, const T* q, mwSize n) \ { \ mwIndex i; \ double* p; \ mxComplexDouble* z; \ if( mxIsComplex(a) ) \ { \ z = mxGetComplexDoubles(a); \ for (i = 0; i < n; ++i) { \ (*z).real = freal(*q); \ (*z).imag = fimag(*q); \ ++z; ++q; } \ } \ else \ { \ p = mxGetDoubles(a); \ for (i = 0; i < n; ++i) \ *p++ = freal(*q++); \ } \ } #define mxWrapReturnZDef(func, T, freal, fimag) \ mxArray* func(const T* q, mwSize m, mwSize n) \ { \ mwIndex i; \ mxComplexDouble* p; \ if (!q) { \ return mxCreateDoubleMatrix(0,0, mxCOMPLEX); \ } else { \ mxArray* a = mxCreateDoubleMatrix(m,n, mxCOMPLEX); \ p = mxGetComplexDoubles(a); \ for (i = 0; i < m*n; ++i) { \ (*p).real = freal(*q); \ (*p).imag = fimag(*q); \ ++p; ++q; } \ return a; \ } \ } void* mxWrapGetP_single(const mxArray* a, const char* fmt, const char** e) { void* p = NULL; #ifdef R2008OO mxArray* ap; #endif if (mxGetClassID(a) == mxSINGLE_CLASS && mxIsComplex(a) ) { if( mxGetM(a)*mxGetN(a) == 1 && (*mxGetComplexSingles(a)).real == 0 ) return NULL; } if (mxGetClassID(a) == mxSINGLE_CLASS && !mxIsComplex(a) ) { if( mxGetM(a)*mxGetN(a) == 1 && *mxGetSingles(a) == 0) return NULL; } if (mxIsChar(a)) { char pbuf[128]; mxGetString(a, pbuf, sizeof(pbuf)); sscanf(pbuf, fmt, &p); } #ifdef R2008OO else if (ap = mxGetProperty(a, 0, "mwptr")) { return mxWrapGetP(ap, fmt, e); } #endif if (p == 0) *e = "Invalid pointer"; return p; } mxArray* mxWrapCreateP_single(void* p, const char* fmt) { if (p == 0) { mxArray* z = mxCreateNumericMatrix(1,1, mxSINGLE_CLASS, mxREAL); *mxGetSingles(z) = 0; return z; } else { char pbuf[128]; snprintf(pbuf, sizeof(pbuf), fmt, p); return mxCreateString(pbuf); } } mxArray* mxWrapStrncpy_single(const char* s) { if (s) { return mxCreateString(s); } else { mxArray* z = mxCreateNumericMatrix(1,1, mxSINGLE_CLASS, mxREAL); *mxGetSingles(z) = 0; return z; } } float mxWrapGetScalar_single(const mxArray* a, const char** e) { if (!a || mxGetClassID(a) != mxSINGLE_CLASS || mxGetM(a)*mxGetN(a) != 1) { *e = "Invalid scalar argument"; return 0; } if( mxIsComplex(a) ) return (float) (*mxGetComplexSingles(a)).real; else return (float) (*mxGetSingles(a)); } char* mxWrapGetString_single(const mxArray* a, const char** e) { char* s; mwSize slen; if (!a || (!mxIsChar(a) && mxGetM(a)*mxGetN(a) > 0)) { *e = "Invalid string argument"; return NULL; } slen = mxGetM(a)*mxGetN(a) + 1; s = (char*) mxMalloc(slen); if (mxGetM(a)*mxGetN(a) == 0) *s = 0; else mxGetString(a, s, slen); return s; } #define mxWrapGetArrayDef_single(func, T) \ T* func(const mxArray* a, const char** e) \ { \ T* array; \ mwSize arraylen; \ mwIndex i; \ T* p; \ float* q; \ mxComplexSingle* z; \ if (!a || mxGetClassID(a) != mxSINGLE_CLASS) { \ *e = "Invalid array argument, mxSINGLE_CLASS expected"; \ return 0; \ } \ arraylen = mxGetM(a)*mxGetN(a); \ array = (T*) mxMalloc(mxGetM(a)*mxGetN(a) * sizeof(T)); \ p = array; \ if( mxIsComplex(a) ) \ { \ z = mxGetComplexSingles(a); \ for (i = 0; i < arraylen; ++i) \ *p++ = (T) (*z++).real; \ } \ else \ { \ q = mxGetSingles(a); \ for (i = 0; i < arraylen; ++i) \ *p++ = (T) (*q++); \ } \ return array; \ } #define mxWrapCopyDef_single(func, T) \ void func(mxArray* a, const T* q, mwSize n) \ { \ mwIndex i; \ float* p; \ mxComplexSingle* z; \ if( mxIsComplex(a) ) \ { \ z = mxGetComplexSingles(a); \ for (i = 0; i < n; ++i) \ (*z++).real = (float) *q++; \ (*z++).imag = 0; \ } \ else \ { \ p = mxGetSingles(a); \ for (i = 0; i < n; ++i) \ *p++ = (float) *q++; \ } \ } #define mxWrapReturnDef_single(func, T) \ mxArray* func(const T* q, mwSize m, mwSize n) \ { \ mwIndex i; \ float* p; \ if (!q) { \ return mxCreateNumericMatrix(0,0, mxSINGLE_CLASS, mxREAL); \ } else { \ mxArray* a = mxCreateNumericMatrix(m,n, mxSINGLE_CLASS, mxREAL); \ p = mxGetSingles(a); \ for (i = 0; i < m*n; ++i) \ *p++ = (float) *q++; \ return a; \ } \ } #define mxWrapGetScalarZDef_single(func, T, ZT, setz) \ void func(T* z, const mxArray* a) \ { \ if( mxIsComplex(a) ) \ { \ setz(z, (ZT) (*mxGetComplexSingles(a)).real, (ZT) (*mxGetComplexSingles(a)).imag); \ } \ else \ { \ setz(z, (ZT) (*mxGetComplexSingles(a)).real, (ZT) 0); \ } \ } #define mxWrapGetArrayZDef_single(func, T, ZT, setz) \ T* func(const mxArray* a, const char** e) \ { \ T* array; \ mwSize arraylen; \ mwIndex i; \ T* p; \ float* q; \ mxComplexSingle* z; \ if (!a || mxGetClassID(a) != mxSINGLE_CLASS) { \ *e = "Invalid array argument, mxSINGLE_CLASS expected"; \ return 0; \ } \ arraylen = mxGetM(a)*mxGetN(a); \ array = (T*) mxMalloc(mxGetM(a)*mxGetN(a) * sizeof(T)); \ p = array; \ if( mxIsComplex(a) ) \ { \ z = mxGetComplexSingles(a); \ for (i = 0; i < arraylen; ++i) { \ setz(p, (ZT) (*z).real, (ZT) (*z).imag); \ ++p; ++z; } \ } \ else \ { \ q = mxGetSingles(a); \ for (i = 0; i < arraylen; ++i) { \ setz(p, (ZT) (*q), (ZT) 0 ); \ ++p; ++q; } \ } \ return array; \ } #define mxWrapCopyZDef_single(func, T, freal, fimag) \ void func(mxArray* a, const T* q, mwSize n) \ { \ mwIndex i; \ float* p; \ mxComplexSingle* z; \ if( mxIsComplex(a) ) \ { \ z = mxGetComplexSingles(a); \ for (i = 0; i < n; ++i) { \ (*z).real = freal(*q); \ (*z).imag = fimag(*q); \ ++z; ++q; } \ } \ else \ { \ p = mxGetSingles(a); \ for (i = 0; i < n; ++i) \ *p++ = freal(*q++); \ } \ } #define mxWrapReturnZDef_single(func, T, freal, fimag) \ mxArray* func(const T* q, mwSize m, mwSize n) \ { \ mwIndex i; \ mxComplexSingle* p; \ if (!q) { \ return mxCreateNumericMatrix(0,0, mxSINGLE_CLASS, mxCOMPLEX); \ } else { \ mxArray* a = mxCreateNumericMatrix(m,n, mxSINGLE_CLASS, mxCOMPLEX); \ p = mxGetComplexSingles(a); \ for (i = 0; i < m*n; ++i) { \ (*p).real = freal(*q); \ (*p).imag = fimag(*q); \ ++p; ++q; } \ return a; \ } \ } #else /* * Support routines for copying data into and out of the MEX stubs, -R2017b */ void* mxWrapGetP(const mxArray* a, const char* fmt, const char** e) { void* p = 0; #ifdef R2008OO mxArray* ap; #endif if (mxGetClassID(a) == mxDOUBLE_CLASS && mxGetM(a)*mxGetN(a) == 1 && *mxGetPr(a) == 0) return p; if (mxIsChar(a)) { char pbuf[128]; mxGetString(a, pbuf, sizeof(pbuf)); sscanf(pbuf, fmt, &p); } #ifdef R2008OO else if (ap = mxGetProperty(a, 0, "mwptr")) { return mxWrapGetP(ap, fmt, e); } #endif if (p == 0) *e = "Invalid pointer"; return p; } mxArray* mxWrapCreateP(void* p, const char* fmt) { if (p == 0) { mxArray* z = mxCreateDoubleMatrix(1,1, mxREAL); *mxGetPr(z) = 0; return z; } else { char pbuf[128]; snprintf(pbuf, sizeof(pbuf), fmt, p); return mxCreateString(pbuf); } } mxArray* mxWrapStrncpy(const char* s) { if (s) { return mxCreateString(s); } else { mxArray* z = mxCreateDoubleMatrix(1,1, mxREAL); *mxGetPr(z) = 0; return z; } } double mxWrapGetScalar(const mxArray* a, const char** e) { if (!a || mxGetClassID(a) != mxDOUBLE_CLASS || mxGetM(a)*mxGetN(a) != 1) { *e = "Invalid scalar argument"; return 0; } return *mxGetPr(a); } char* mxWrapGetString(const mxArray* a, const char** e) { char* s; mwSize slen; if (!a || (!mxIsChar(a) && mxGetM(a)*mxGetN(a) > 0)) { *e = "Invalid string argument"; return NULL; } slen = mxGetM(a)*mxGetN(a) + 1; s = (char*) mxMalloc(slen); if (mxGetM(a)*mxGetN(a) == 0) *s = 0; else mxGetString(a, s, slen); return s; } #define mxWrapGetArrayDef(func, T) \ T* func(const mxArray* a, const char** e) \ { \ T* array; \ mwSize arraylen; \ mwIndex i; \ T* p; \ double* q; \ if (!a || mxGetClassID(a) != mxDOUBLE_CLASS) { \ *e = "Invalid array argument, mxDOUBLE_CLASS expected"; \ return 0; \ } \ arraylen = mxGetM(a)*mxGetN(a); \ array = (T*) mxMalloc(mxGetM(a)*mxGetN(a) * sizeof(T)); \ p = array; \ q = mxGetPr(a); \ for (i = 0; i < arraylen; ++i) \ *p++ = (T) (*q++); \ return array; \ } #define mxWrapCopyDef(func, T) \ void func(mxArray* a, const T* q, mwSize n) \ { \ mwIndex i; \ double* p = mxGetPr(a); \ for (i = 0; i < n; ++i) \ *p++ = *q++; \ } #define mxWrapReturnDef(func, T) \ mxArray* func(const T* q, mwSize m, mwSize n) \ { \ mwIndex i; \ double* p; \ if (!q) { \ return mxCreateDoubleMatrix(0,0, mxREAL); \ } else { \ mxArray* a = mxCreateDoubleMatrix(m,n, mxREAL); \ p = mxGetPr(a); \ for (i = 0; i < m*n; ++i) \ *p++ = *q++; \ return a; \ } \ } #define mxWrapGetScalarZDef(func, T, ZT, setz) \ void func(T* z, const mxArray* a) \ { \ double* pr = mxGetPr(a); \ double* pi = mxGetPi(a); \ setz(z, (ZT) *pr, (pi ? (ZT) *pi : (ZT) 0)); \ } #define mxWrapGetArrayZDef(func, T, ZT, setz) \ T* func(const mxArray* a, const char** e) \ { \ T* array; \ mwSize arraylen; \ mwIndex i; \ T* p; \ double* qr; \ double* qi; \ if (!a || mxGetClassID(a) != mxDOUBLE_CLASS) { \ *e = "Invalid array argument, mxDOUBLE_CLASS expected"; \ return 0; \ } \ arraylen = mxGetM(a)*mxGetN(a); \ array = (T*) mxMalloc(mxGetM(a)*mxGetN(a) * sizeof(T)); \ p = array; \ qr = mxGetPr(a); \ qi = mxGetPi(a); \ for (i = 0; i < arraylen; ++i) { \ ZT val_qr = *qr++; \ ZT val_qi = (qi ? (ZT) *qi++ : (ZT) 0); \ setz(p, val_qr, val_qi); \ ++p; \ } \ return array; \ } #define mxWrapCopyZDef(func, T, real, imag) \ void func(mxArray* a, const T* q, mwSize n) \ { \ mwIndex i; \ double* pr = mxGetPr(a); \ double* pi = mxGetPi(a); \ for (i = 0; i < n; ++i) { \ *pr++ = real(*q); \ *pi++ = imag(*q); \ ++q; \ } \ } #define mxWrapReturnZDef(func, T, real, imag) \ mxArray* func(const T* q, mwSize m, mwSize n) \ { \ mwIndex i; \ double* pr; \ double* pi; \ if (!q) { \ return mxCreateDoubleMatrix(0,0, mxCOMPLEX); \ } else { \ mxArray* a = mxCreateDoubleMatrix(m,n, mxCOMPLEX); \ pr = mxGetPr(a); \ pi = mxGetPi(a); \ for (i = 0; i < m*n; ++i) { \ *pr++ = real(*q); \ *pi++ = imag(*q); \ ++q; \ } \ return a; \ } \ } void* mxWrapGetP_single(const mxArray* a, const char* fmt, const char** e) { void* p = 0; #ifdef R2008OO mxArray* ap; #endif if (mxGetClassID(a) == mxSINGLE_CLASS && mxGetM(a)*mxGetN(a) == 1 && *((float*)mxGetData(a)) == 0) return p; if (mxIsChar(a)) { char pbuf[128]; mxGetString(a, pbuf, sizeof(pbuf)); sscanf(pbuf, fmt, &p); } #ifdef R2008OO else if (ap = mxGetProperty(a, 0, "mwptr")) { return mxWrapGetP(ap, fmt, e); } #endif if (p == 0) *e = "Invalid pointer"; return p; } mxArray* mxWrapCreateP_single(void* p, const char* fmt) { if (p == 0) { mxArray* z = mxCreateNumericMatrix(1,1, mxSINGLE_CLASS, mxREAL); *((float*)mxGetData(z)) = 0; return z; } else { char pbuf[128]; snprintf(pbuf, sizeof(pbuf), fmt, p); return mxCreateString(pbuf); } } mxArray* mxWrapStrncpy_single(const char* s) { if (s) { return mxCreateString(s); } else { mxArray* z = mxCreateNumericMatrix(1,1, mxSINGLE_CLASS, mxREAL); *((float*)mxGetData(z)) = 0; return z; } } float mxWrapGetScalar_single(const mxArray* a, const char** e) { if (!a || mxGetClassID(a) != mxSINGLE_CLASS || mxGetM(a)*mxGetN(a) != 1) { *e = "Invalid scalar argument"; return 0; } return *((float*)mxGetData(a)); } char* mxWrapGetString_single(const mxArray* a, const char** e) { char* s; mwSize slen; if (!a || (!mxIsChar(a) && mxGetM(a)*mxGetN(a) > 0)) { *e = "Invalid string argument, mxSINGLE_CLASS expected"; return NULL; } slen = mxGetM(a)*mxGetN(a) + 1; s = (char*) mxMalloc(slen); if (mxGetM(a)*mxGetN(a) == 0) *s = 0; else mxGetString(a, s, slen); return s; } #define mxWrapGetArrayDef_single(func, T) \ T* func(const mxArray* a, const char** e) \ { \ T* array; \ mwSize arraylen; \ mwIndex i; \ T* p; \ float* q; \ if (!a || mxGetClassID(a) != mxSINGLE_CLASS) { \ *e = "Invalid array argument, mxSINGLE_CLASS expected"; \ return 0; \ } \ arraylen = mxGetM(a)*mxGetN(a); \ array = (T*) mxMalloc(mxGetM(a)*mxGetN(a) * sizeof(T)); \ p = array; \ q = (float*) mxGetData(a); \ for (i = 0; i < arraylen; ++i) \ *p++ = (T) (*q++); \ return array; \ } #define mxWrapCopyDef_single(func, T) \ void func(mxArray* a, const T* q, mwSize n) \ { \ mwIndex i; \ float* p = (float*) mxGetData(a); \ for (i = 0; i < n; ++i) \ *p++ = *q++; \ } #define mxWrapReturnDef_single(func, T) \ mxArray* func(const T* q, mwSize m, mwSize n) \ { \ mwIndex i; \ float* p; \ if (!q) { \ return mxCreateNumericMatrix(0,0, mxSINGLE_CLASS, mxREAL); \ } else { \ mxArray* a = mxCreateNumericMatrix(m,n, mxSINGLE_CLASS, mxREAL);\ p = (float*) mxGetData(a); \ for (i = 0; i < m*n; ++i) \ *p++ = *q++; \ return a; \ } \ } #define mxWrapGetScalarZDef_single(func, T, ZT, setz) \ void func(T* z, const mxArray* a) \ { \ float* pr = (float*) mxGetData(a); \ float* pi = (float*) mxGetImagData(a); \ setz(z, (ZT) *pr, (pi ? (ZT) *pi : (ZT) 0)); \ } #define mxWrapGetArrayZDef_single(func, T, ZT, setz) \ T* func(const mxArray* a, const char** e) \ { \ T* array; \ mwSize arraylen; \ mwIndex i; \ T* p; \ float* qr; \ float* qi; \ if (!a || mxGetClassID(a) != mxSINGLE_CLASS) { \ *e = "Invalid array argument, mxSINGLE_CLASS expected"; \ return 0; \ } \ arraylen = mxGetM(a)*mxGetN(a); \ array = (T*) mxMalloc(mxGetM(a)*mxGetN(a) * sizeof(T)); \ p = array; \ qr = (float*) mxGetData(a); \ qi = (float*) mxGetImagData(a); \ for (i = 0; i < arraylen; ++i) { \ ZT val_qr = *qr++; \ ZT val_qi = (qi ? (ZT) *qi++ : (ZT) 0); \ setz(p, val_qr, val_qi); \ ++p; \ } \ return array; \ } #define mxWrapCopyZDef_single(func, T, real, imag) \ void func(mxArray* a, const T* q, mwSize n) \ { \ mwIndex i; \ float* pr = (float*) mxGetData(a); \ float* pi = (float*) mxGetImagData(a); \ for (i = 0; i < n; ++i) { \ *pr++ = real(*q); \ *pi++ = imag(*q); \ ++q; \ } \ } #define mxWrapReturnZDef_single(func, T, real, imag) \ mxArray* func(const T* q, mwSize m, mwSize n) \ { \ mwIndex i; \ float* pr; \ float* pi; \ if (!q) { \ return mxCreateNumericMatrix(0,0, mxSINGLE_CLASS, mxCOMPLEX); \ } else { \ mxArray* a = mxCreateNumericMatrix(m,n, mxSINGLE_CLASS, mxCOMPLEX);\ pr = (float*) mxGetData(a); \ pi = (float*) mxGetImagData(a); \ for (i = 0; i < m*n; ++i) { \ *pr++ = real(*q); \ *pi++ = imag(*q); \ ++q; \ } \ return a; \ } \ } #endif void toss() { throw("Cookies"); } /* Array copier definitions */ mxWrapGetArrayDef(mxWrapGetArray_bool, bool) mxWrapCopyDef (mxWrapCopy_bool, bool) mxWrapReturnDef (mxWrapReturn_bool, bool) mxWrapGetArrayDef_single(mxWrapGetArray_single_bool, bool) mxWrapCopyDef_single (mxWrapCopy_single_bool, bool) mxWrapReturnDef_single (mxWrapReturn_single_bool, bool) mxWrapGetArrayDef(mxWrapGetArray_char, char) mxWrapCopyDef (mxWrapCopy_char, char) mxWrapReturnDef (mxWrapReturn_char, char) mxWrapGetArrayDef_single(mxWrapGetArray_single_char, char) mxWrapCopyDef_single (mxWrapCopy_single_char, char) mxWrapReturnDef_single (mxWrapReturn_single_char, char) mxWrapGetArrayDef(mxWrapGetArray_double, double) mxWrapCopyDef (mxWrapCopy_double, double) mxWrapReturnDef (mxWrapReturn_double, double) mxWrapGetArrayDef_single(mxWrapGetArray_single_double, double) mxWrapCopyDef_single (mxWrapCopy_single_double, double) mxWrapReturnDef_single (mxWrapReturn_single_double, double) mxWrapGetArrayDef(mxWrapGetArray_float, float) mxWrapCopyDef (mxWrapCopy_float, float) mxWrapReturnDef (mxWrapReturn_float, float) mxWrapGetArrayDef_single(mxWrapGetArray_single_float, float) mxWrapCopyDef_single (mxWrapCopy_single_float, float) mxWrapReturnDef_single (mxWrapReturn_single_float, float) mxWrapGetArrayDef(mxWrapGetArray_int, int) mxWrapCopyDef (mxWrapCopy_int, int) mxWrapReturnDef (mxWrapReturn_int, int) mxWrapGetArrayDef_single(mxWrapGetArray_single_int, int) mxWrapCopyDef_single (mxWrapCopy_single_int, int) mxWrapReturnDef_single (mxWrapReturn_single_int, int) mxWrapGetArrayDef(mxWrapGetArray_long, long) mxWrapCopyDef (mxWrapCopy_long, long) mxWrapReturnDef (mxWrapReturn_long, long) mxWrapGetArrayDef_single(mxWrapGetArray_single_long, long) mxWrapCopyDef_single (mxWrapCopy_single_long, long) mxWrapReturnDef_single (mxWrapReturn_single_long, long) mxWrapGetArrayDef(mxWrapGetArray_ptrdiff_t, ptrdiff_t) mxWrapCopyDef (mxWrapCopy_ptrdiff_t, ptrdiff_t) mxWrapReturnDef (mxWrapReturn_ptrdiff_t, ptrdiff_t) mxWrapGetArrayDef_single(mxWrapGetArray_single_ptrdiff_t, ptrdiff_t) mxWrapCopyDef_single (mxWrapCopy_single_ptrdiff_t, ptrdiff_t) mxWrapReturnDef_single (mxWrapReturn_single_ptrdiff_t, ptrdiff_t) mxWrapGetArrayDef(mxWrapGetArray_short, short) mxWrapCopyDef (mxWrapCopy_short, short) mxWrapReturnDef (mxWrapReturn_short, short) mxWrapGetArrayDef_single(mxWrapGetArray_single_short, short) mxWrapCopyDef_single (mxWrapCopy_single_short, short) mxWrapReturnDef_single (mxWrapReturn_single_short, short) mxWrapGetArrayDef(mxWrapGetArray_size_t, size_t) mxWrapCopyDef (mxWrapCopy_size_t, size_t) mxWrapReturnDef (mxWrapReturn_size_t, size_t) mxWrapGetArrayDef_single(mxWrapGetArray_single_size_t, size_t) mxWrapCopyDef_single (mxWrapCopy_single_size_t, size_t) mxWrapReturnDef_single (mxWrapReturn_single_size_t, size_t) /* ---- test_catch.mw: 9 ---- * toss(); */ static const char* stubids1_ = "toss()"; void mexStub1(int nlhs, mxArray* plhs[], int nrhs, const mxArray* prhs[]) { const char* mw_err_txt_ = 0; if (mexprofrecord_) mexprofrecord_[1]++; try { toss(); } catch(...) { mw_err_txt_ = "Caught C++ exception from toss"; } if (mw_err_txt_) goto mw_err_label; mw_err_label: if (mw_err_txt_) mexErrMsgTxt(mw_err_txt_); } typedef void (*mwStubFunc_t)(int nlhs, mxArray* plhs[], int nrhs, const mxArray* prhs[]); static mwStubFunc_t mwStubs_[] = { NULL, mexStub1 }; static int mwNumStubs_ = 1; /* ---- */ void mexFunction(int nlhs, mxArray* plhs[], int nrhs, const mxArray* prhs[]) { if (nrhs == 0) { mexPrintf("Mex function installed\n"); return; } /* Fast path: integer stub ID */ if (!mxIsChar(prhs[0])) { int stub_id = (int) mxGetScalar(prhs[0]); if (stub_id > 0 && stub_id <= mwNumStubs_ && mwStubs_[stub_id]) mwStubs_[stub_id](nlhs, plhs, nrhs-1, prhs+1); else mexErrMsgTxt("Unknown function ID"); return; } char id[1024]; if (mxGetString(prhs[0], id, sizeof(id)) != 0) mexErrMsgTxt("Identifier should be a string"); else if (strcmp(id, stubids1_) == 0) mexStub1(nlhs,plhs, nrhs-1,prhs+1); else if (strcmp(id, "*profile on*") == 0) { if (!mexprofrecord_) { mexprofrecord_ = (int*) malloc(2 * sizeof(int)); mexLock(); } memset(mexprofrecord_, 0, 2 * sizeof(int)); } else if (strcmp(id, "*profile off*") == 0) { if (mexprofrecord_) { free(mexprofrecord_); mexUnlock(); } mexprofrecord_ = NULL; } else if (strcmp(id, "*profile report*") == 0) { if (!mexprofrecord_) mexPrintf("Profiler inactive\n"); mexPrintf("%d calls to test_catch.mw:9\n", mexprofrecord_[1]); } else if (strcmp(id, "*profile log*") == 0) { FILE* logfp; if (nrhs != 2 || mxGetString(prhs[1], id, sizeof(id)) != 0) mexErrMsgTxt("Must have two string arguments"); logfp = fopen(id, "w+"); if (!logfp) mexErrMsgTxt("Cannot open log for output"); if (!mexprofrecord_) fprintf(logfp, "Profiler inactive\n"); fprintf(logfp, "%d calls to test_catch.mw:9\n", mexprofrecord_[1]); fclose(logfp); } else mexErrMsgTxt("Unknown identifier"); }