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android / platform / external / swig / refs/heads/main / . / Lib / scilab / sciint.swg
blob: b7b2563e8b0cc72f21d6c93e9c9ec60df68ca962 [file] [log] [blame]
/*
* C-type: int
* Scilab type: double or int32
*/
%fragment(SWIG_AsVal_frag(int), "header", fragment="SWIG_SciDoubleOrInt32_AsInt", fragment="<limits.h>") {
%#define SWIG_AsVal_int(scilabValue, valuePointer) SWIG_SciDoubleOrInt32_AsInt(pvApiCtx, scilabValue, valuePointer, SWIG_Scilab_GetFuncName())
}
%fragment("SWIG_SciDoubleOrInt32_AsInt", "header") {
SWIGINTERN int
SWIG_SciDoubleOrInt32_AsInt(void *pvApiCtx, SwigSciObject iVar, int *piValue, char *fname)
{
SciErr sciErr;
int iType = 0;
int iRows = 0;
int iCols = 0;
int *piAddrVar = NULL;
sciErr = getVarAddressFromPosition(pvApiCtx, iVar, &piAddrVar);
if (sciErr.iErr) {
printError(&sciErr, 0);
return SWIG_ERROR;
}
sciErr = getVarType(pvApiCtx, piAddrVar, &iType);
if (sciErr.iErr) {
printError(&sciErr, 0);
return SWIG_ERROR;
}
if (iType == sci_ints) {
if (piValue) {
int iPrec = 0;
int *piData = NULL;
sciErr = getMatrixOfIntegerPrecision(pvApiCtx, piAddrVar, &iPrec);
if (sciErr.iErr) {
printError(&sciErr, 0);
return SWIG_ERROR;
}
if (iPrec != SCI_INT32) {
Scierror(SCILAB_API_ARGUMENT_ERROR, _("%s: Wrong type for input argument #%d: A 32-bit signed integer or a double expected.\n"), fname, iVar);
return SWIG_TypeError;
}
sciErr = getMatrixOfInteger32(pvApiCtx, piAddrVar, &iRows, &iCols, &piData);
if (sciErr.iErr) {
printError(&sciErr, 0);
return SWIG_ERROR;
}
if (iRows * iCols != 1) {
Scierror(SCILAB_API_ARGUMENT_ERROR, _("%s: Wrong size for input argument #%d: A 32-bit signed integer or a double expected.\n"), fname, iVar);
return SWIG_TypeError;
}
*piValue = *piData;
}
}
else if (iType == sci_matrix) {
if (piValue) {
double *pdData = NULL;
double dValue = 0.0f;
sciErr = getMatrixOfDouble(pvApiCtx, piAddrVar, &iRows, &iCols, &pdData);
if (sciErr.iErr) {
printError(&sciErr, 0);
return SWIG_ERROR;
}
if (iRows * iCols != 1) {
Scierror(SCILAB_API_ARGUMENT_ERROR, _("%s: Wrong size for input argument #%d: A 32-bit signed integer or a double expected.\n"), fname, iVar);
return SWIG_TypeError;
}
dValue = *pdData;
if (dValue != floor(dValue)) {
Scierror(SCILAB_API_ARGUMENT_ERROR, _("%s: Incorrect value for input argument #%d: The double value cannot be converted to a 32-bit signed integer.\n"), fname, iVar);
return SWIG_ValueError;
}
if ((dValue < INT_MIN) || (dValue > INT_MAX)) {
Scierror(SCILAB_API_ARGUMENT_ERROR, _("%s: Overflow error for input argument #%d: The double value cannot be converted to a 32-bit signed integer.\n"), fname, iVar);
return SWIG_OverflowError;
}
*piValue = (int) dValue;
}
}
else {
Scierror(SCILAB_API_ARGUMENT_ERROR, _("%s: Wrong type for input argument #%d: A 32-bit signed integer or a double expected.\n"), fname, iVar);
return SWIG_TypeError;
}
return SWIG_OK;
}
}
%fragment(SWIG_From_frag(int), "header", fragment="SWIG_SciDouble_FromInt") {
%#define SWIG_From_int(scilabValue) SWIG_SciDouble_FromInt(pvApiCtx, SWIG_Scilab_GetOutputPosition(), scilabValue, SWIG_Scilab_GetFuncName())
}
%fragment("SWIG_SciDouble_FromInt", "header") {
SWIGINTERN int
SWIG_SciDouble_FromInt(void *pvApiCtx, int iVarOut, int iValue, char *fname){
if (createScalarDouble(pvApiCtx, SWIG_NbInputArgument(pvApiCtx)
+ iVarOut, (double) iValue))
return SWIG_ERROR;
return SWIG_OK;
}
}
/*
* C-type: int[]
* Scilab type: double or int32 matrix
*/
%fragment("SWIG_SciDoubleOrInt32_AsIntArrayAndSize", "header") {
SWIGINTERN int
SWIG_SciDoubleOrInt32_AsIntArrayAndSize(void *pvApiCtx, int iVar, int *iRows, int *iCols, int **piValue, char *fname) {
SciErr sciErr;
int iType = 0;
int *piAddrVar = NULL;
sciErr = getVarAddressFromPosition(pvApiCtx, iVar, &piAddrVar);
if (sciErr.iErr) {
printError(&sciErr, 0);
return SWIG_ERROR;
}
sciErr = getVarType(pvApiCtx, piAddrVar, &iType);
if (sciErr.iErr) {
printError(&sciErr, 0);
return SWIG_ERROR;
}
if (iType == sci_matrix) {
double *pdData = NULL;
int size = 0;
int i;
sciErr = getMatrixOfDouble(pvApiCtx, piAddrVar, iRows, iCols, &pdData);
if (sciErr.iErr) {
printError(&sciErr, 0);
return SWIG_ERROR;
}
size = (*iRows) * (*iCols);
*piValue = (int*) malloc(size * sizeof(int*));
for (i = 0; i < size; i++)
(*piValue)[i] = (int) pdData[i];
}
else if (iType == sci_ints) {
int iPrec = 0;
sciErr = getMatrixOfIntegerPrecision(pvApiCtx, piAddrVar, &iPrec);
if (sciErr.iErr) {
printError(&sciErr, 0);
return SWIG_ERROR;
}
if (iPrec != SCI_INT32) {
Scierror(SCILAB_API_ARGUMENT_ERROR, _("%s: Wrong type for input argument #%d: A 32-bit signed integer or a double matrix expected.\n"), fname, iVar);
return SWIG_ERROR;
}
sciErr = getMatrixOfInteger32(pvApiCtx, piAddrVar, iRows, iCols, piValue);
if (sciErr.iErr) {
printError(&sciErr, 0);
return SWIG_ERROR;
}
}
else if (iType == sci_implicit_poly) {
*iRows = -1;
*iCols = 0;
*piValue = NULL;
}
else {
Scierror(SCILAB_API_ARGUMENT_ERROR, _("%s: Wrong type for input argument #%d: A 32-bit signed integer or a double matrix expected.\n"), fname, iVar);
return SWIG_ERROR;
}
return SWIG_OK;
}
}
%fragment("SWIG_SciDouble_FromIntArrayAndSize", "header") {
SWIGINTERN int
SWIG_SciDouble_FromIntArrayAndSize(void *pvApiCtx, int iVarOut, int iRows, int iCols, const int *piData) {
SciErr sciErr;
double *pdValues = NULL;
int i;
pdValues = (double*) malloc(iRows * iCols * sizeof(double));
for (i=0; i<iRows * iCols; i++)
pdValues[i] = piData[i];
sciErr = createMatrixOfDouble(pvApiCtx, SWIG_NbInputArgument(pvApiCtx) + iVarOut, iRows, iCols, pdValues);
if (sciErr.iErr) {
printError(&sciErr, 0);
free(pdValues);
return SWIG_ERROR;
}
free(pdValues);
return SWIG_OK;
}
}
%fragment(SWIG_CreateScilabVariable_frag(int), "wrapper") {
SWIGINTERN int
SWIG_CreateScilabVariable_dec(int)(void *pvApiCtx, const char* psVariableName, const int iVariableValue) {
SciErr sciErr;
sciErr = createNamedMatrixOfInteger32(pvApiCtx, psVariableName, 1, 1, &iVariableValue);
if (sciErr.iErr) {
printError(&sciErr, 0);
return SWIG_ERROR;
}
return SWIG_OK;
}
}