/* +----------------------------------------------------------------------+ | PHP version 4.0 | +----------------------------------------------------------------------+ | Copyright (c) 1997-2001 The PHP Group | +----------------------------------------------------------------------+ | This source file is subject to version 2.02 of the PHP license, | | that is bundled with this package in the file LICENSE, and is | | available at through the world-wide-web at | | http://www.php.net/license/2_02.txt. | | If you did not receive a copy of the PHP license and are unable to | | obtain it through the world-wide-web, please send a note to | | license@php.net so we can mail you a copy immediately. | +----------------------------------------------------------------------+ | Author: Harald Radi | | Alan Brown | | Paul Shortis | +----------------------------------------------------------------------+ */ /* * 03.6.2001 * Added SafeArray ==> Hash support */ /* * Paul Shortis June 7, 2001 - Added code to support SafeArray passing * to COM objects. Support includes passing arrays of variants as well * as typed arrays. */ #ifdef PHP_WIN32 #include "php.h" #include "php_COM.h" #include "php_VARIANT.h" /* prototypes */ PHPAPI void php_pval_to_variant(pval *pval_arg, VARIANT *var_arg, int codepage TSRMLS_DC); PHPAPI void php_pval_to_variant_ex(pval *pval_arg, VARIANT *var_arg, pval *pval_type, int codepage TSRMLS_DC); PHPAPI int php_variant_to_pval(VARIANT *var_arg, pval *pval_arg, int persistent, int codepage); PHPAPI OLECHAR *php_char_to_OLECHAR(char *C_str, uint strlen, int codepage); PHPAPI char *php_OLECHAR_to_char(OLECHAR *unicode_str, uint *out_length, int persistent, int codepage); static void pval_to_variant_ex(pval *pval_arg, VARIANT *var_arg, int type, int codepage TSRMLS_DC); static void comval_to_variant(pval *pval_arg, VARIANT *var_arg TSRMLS_DC); /* implementations */ PHPAPI void php_pval_to_variant(pval *pval_arg, VARIANT *var_arg, int codepage TSRMLS_DC) { int type = VT_EMPTY; /* default variant type */ switch(Z_TYPE_P(pval_arg)) { case IS_NULL: type = VT_NULL; break; case IS_BOOL: type = VT_BOOL; break; case IS_OBJECT: if(!strcmp(Z_OBJCE_P(pval_arg)->name, "VARIANT")) { type = VT_VARIANT; } else if(!strcmp(Z_OBJCE_P(pval_arg)->name, "COM")) { type = VT_DISPATCH; } break; case IS_ARRAY: type = VT_ARRAY; break; case IS_RESOURCE: case IS_CONSTANT: case IS_CONSTANT_ARRAY: /* ?? */ break; case IS_LONG: type = VT_I4; /* assuming 32-bit platform */ break; case IS_DOUBLE: type = VT_R8; /* assuming 64-bit double precision */ break; case IS_STRING: type = VT_BSTR; break; } if(pval_arg->is_ref) /* deprecated, implemented for downwards compatiblity */ { type |= VT_BYREF; } pval_to_variant_ex(pval_arg, var_arg, type, codepage TSRMLS_CC); } PHPAPI void php_pval_to_variant_ex(pval *pval_arg, VARIANT *var_arg, pval *pval_type, int codepage TSRMLS_DC) { pval_to_variant_ex(pval_arg, var_arg, Z_LVAL_P(pval_type), codepage TSRMLS_CC); } static void pval_to_variant_ex(pval *pval_arg, VARIANT *var_arg, int type, int codepage TSRMLS_DC) { OLECHAR *unicode_str; VariantInit(var_arg); V_VT(var_arg) = type; if(V_VT(var_arg) & VT_ARRAY) { /* For now we'll just handle single dimension arrays, we'll use the data type of the first element for the output data type */ HashTable *ht = Z_ARRVAL(*pval_arg); int numberOfElements = zend_hash_num_elements(ht); SAFEARRAY *safeArray; SAFEARRAYBOUND bounds[1]; VARIANT *v; zval **entry; /* An entry in the input array */ type &= ~VT_ARRAY; if(V_VT(var_arg) == (VT_ARRAY|VT_BYREF)) /* == is intended, because VT_*|VT_BYREF|VT_ARRAY means something diffrent */ { type &= ~VT_BYREF; ALLOC_VARIANT(V_VARIANTREF(var_arg)); var_arg = V_VARIANTREF(var_arg); /* put the array in that VARIANT */ } bounds[0].lLbound = 0; bounds[0].cElements = numberOfElements; safeArray = SafeArrayCreate(VT_VARIANT, 1, bounds); if(NULL == safeArray) { php_error( E_WARNING,"Unable to convert php array to VARIANT array - %s", numberOfElements ? "" : "(Empty input array)"); ZVAL_FALSE(pval_arg); } else { V_ARRAY(var_arg) = safeArray; V_VT(var_arg) = VT_ARRAY|VT_VARIANT; /* Now have a valid safe array allocated */ if(SUCCEEDED(SafeArrayLock( safeArray))) { ulong i; zend_hash_internal_pointer_reset(ht); for( i = 0; i < (ulong)numberOfElements; ++i) { if((zend_hash_get_current_data(ht, (void **)&entry) == SUCCESS) && (entry != NULL)) /* Get a pointer to the php array element */ { /* Add another value to the safe array */ if(SUCCEEDED(SafeArrayPtrOfIndex( safeArray, &i, &v)))/* Pointer to output element entry retrieved successfully */ { if(type) /* explicit type */ { pval_to_variant_ex(*entry, v, type, codepage TSRMLS_CC); /* Do the required conversion */ } else { php_pval_to_variant(*entry, v, codepage TSRMLS_CC); /* Do the required conversion */ } } else { php_error( E_WARNING,"phpArrayToSafeArray() - Unable to retrieve pointer to output element number (%d)", i); } } zend_hash_move_forward(ht); } SafeArrayUnlock( safeArray); } else { php_error( E_WARNING,"phpArrayToSafeArray() - Unable to lock safeArray"); } } } else { switch(V_VT(var_arg)) { case VT_UI1: convert_to_long_ex(&pval_arg); V_UI1(var_arg) = (unsigned char)Z_LVAL_P(pval_arg); break; case VT_I2: convert_to_long_ex(&pval_arg); V_I2(var_arg) = (short)Z_LVAL_P(pval_arg); break; case VT_I4: convert_to_long_ex(&pval_arg); V_I4(var_arg) = Z_LVAL_P(pval_arg); break; case VT_R4: convert_to_double_ex(&pval_arg); V_R4(var_arg) = (float)Z_DVAL_P(pval_arg); break; case VT_R8: convert_to_double_ex(&pval_arg); V_R8(var_arg) = Z_DVAL_P(pval_arg); break; case VT_BOOL: convert_to_boolean_ex(&pval_arg); V_BOOL(var_arg) = (short)Z_LVAL_P(pval_arg); break; case VT_ERROR: convert_to_long_ex(&pval_arg); V_ERROR(var_arg) = Z_LVAL_P(pval_arg); break; case VT_CY: convert_to_double_ex(&pval_arg); VarCyFromR8(Z_DVAL_P(pval_arg), &V_CY(var_arg)); break; case VT_DATE: { SYSTEMTIME wintime; struct tm *phptime; phptime = gmtime(&(pval_arg->value.lval)); memset(&wintime, 0, sizeof(wintime)); wintime.wYear = phptime->tm_year + 1900; wintime.wMonth = phptime->tm_mon + 1; wintime.wDay = phptime->tm_mday; wintime.wHour = phptime->tm_hour; wintime.wMinute = phptime->tm_min; wintime.wSecond = phptime->tm_sec; SystemTimeToVariantTime(&wintime, &V_DATE(var_arg)); } break; case VT_BSTR: convert_to_string_ex(&pval_arg); unicode_str = php_char_to_OLECHAR(Z_STRVAL_P(pval_arg), Z_STRLEN_P(pval_arg), codepage); V_BSTR(var_arg) = SysAllocString(unicode_str); efree(unicode_str); break; case VT_DECIMAL: convert_to_string_ex(&pval_arg); unicode_str = php_char_to_OLECHAR(Z_STRVAL_P(pval_arg), Z_STRLEN_P(pval_arg), codepage); VarDecFromStr(unicode_str, LOCALE_SYSTEM_DEFAULT, 0, &V_DECIMAL(var_arg)); break; case VT_DECIMAL|VT_BYREF: convert_to_string_ex(&pval_arg); unicode_str = php_char_to_OLECHAR(Z_STRVAL_P(pval_arg), Z_STRLEN_P(pval_arg), codepage); VarDecFromStr(unicode_str, LOCALE_SYSTEM_DEFAULT, 0, V_DECIMALREF(var_arg)); break; case VT_UNKNOWN: comval_to_variant(pval_arg, var_arg TSRMLS_CC); if(V_VT(var_arg) != VT_DISPATCH) { VariantInit(var_arg); } else { V_VT(var_arg) = VT_UNKNOWN; V_UNKNOWN(var_arg) = (IUnknown *) V_DISPATCH(var_arg); } break; case VT_DISPATCH: comval_to_variant(pval_arg, var_arg TSRMLS_CC); if(V_VT(var_arg) != VT_DISPATCH) { VariantInit(var_arg); } break; case VT_UI1|VT_BYREF: convert_to_long(pval_arg); V_UI1REF(var_arg) = (unsigned char FAR*) &Z_LVAL_P(pval_arg); break; case VT_I2|VT_BYREF: convert_to_long(pval_arg); V_I2REF(var_arg) = (short FAR*) &Z_LVAL_P(pval_arg); break; case VT_I4|VT_BYREF: convert_to_long(pval_arg); V_I4REF(var_arg) = (long FAR*) &Z_LVAL_P(pval_arg); break; case VT_R4|VT_BYREF: convert_to_double(pval_arg); V_R4REF(var_arg) = (float FAR*) &Z_LVAL_P(pval_arg); break; case VT_R8|VT_BYREF: convert_to_double(pval_arg); V_R8REF(var_arg) = (double FAR*) &Z_LVAL_P(pval_arg); break; case VT_BOOL|VT_BYREF: convert_to_boolean(pval_arg); V_BOOLREF(var_arg) = (short FAR*) &Z_LVAL_P(pval_arg); break; case VT_ERROR|VT_BYREF: convert_to_long(pval_arg); V_ERRORREF(var_arg) = (long FAR*) &Z_LVAL_P(pval_arg); break; case VT_CY|VT_BYREF: convert_to_double_ex(&pval_arg); VarCyFromR8(pval_arg->value.dval, var_arg->pcyVal); break; case VT_DATE|VT_BYREF: { SYSTEMTIME wintime; struct tm *phptime; phptime = gmtime(&(pval_arg->value.lval)); memset(&wintime, 0, sizeof(wintime)); wintime.wYear = phptime->tm_year + 1900; wintime.wMonth = phptime->tm_mon + 1; wintime.wDay = phptime->tm_mday; wintime.wHour = phptime->tm_hour; wintime.wMinute = phptime->tm_min; wintime.wSecond = phptime->tm_sec; SystemTimeToVariantTime(&wintime, var_arg->pdate); } break; case VT_BSTR|VT_BYREF: convert_to_string(pval_arg); V_BSTRREF(var_arg) = (BSTR FAR*) emalloc(sizeof(BSTR FAR*)); unicode_str = php_char_to_OLECHAR(Z_STRVAL_P(pval_arg), Z_STRLEN_P(pval_arg), codepage); *V_BSTRREF(var_arg) = SysAllocString(unicode_str); efree(unicode_str); break; case VT_UNKNOWN|VT_BYREF: comval_to_variant(pval_arg, var_arg TSRMLS_CC); if(V_VT(var_arg) != VT_DISPATCH) { VariantInit(var_arg); } else { V_VT(var_arg) = VT_UNKNOWN|VT_BYREF; V_UNKNOWNREF(var_arg) = (IUnknown **) &V_DISPATCH(var_arg); } break; case VT_DISPATCH|VT_BYREF: comval_to_variant(pval_arg, var_arg TSRMLS_CC); if(V_VT(var_arg) != VT_DISPATCH) { VariantInit(var_arg); } else { V_VT(var_arg) = VT_DISPATCH|VT_BYREF; V_DISPATCHREF(var_arg) = &V_DISPATCH(var_arg); } break; case VT_VARIANT|VT_BYREF: { int tp; pval **var_handle; /* fetch the VARIANT structure */ zend_hash_index_find(Z_OBJPROP_P(pval_arg), 0, (void **) &var_handle); V_VT(var_arg) = VT_VARIANT|VT_BYREF; V_VARIANTREF(var_arg) = (VARIANT FAR*) zend_list_find(Z_LVAL_P(*var_handle), &tp); if(!V_VARIANTREF(var_arg) && (tp != IS_VARIANT)) { VariantInit(var_arg); } } /* should be, but isn't :) if(V_VT(var_arg) != (VT_VARIANT|VT_BYREF)) { VariantInit(var_arg); } */ break; case VT_I1: convert_to_long_ex(&pval_arg); V_I1(var_arg) = (char)Z_LVAL_P(pval_arg); break; case VT_UI2: convert_to_long_ex(&pval_arg); V_UI2(var_arg) = (unsigned short)Z_LVAL_P(pval_arg); break; case VT_UI4: convert_to_long_ex(&pval_arg); V_UI4(var_arg) = (unsigned long)Z_LVAL_P(pval_arg); break; case VT_INT: convert_to_long_ex(&pval_arg); V_INT(var_arg) = (int)Z_LVAL_P(pval_arg); break; case VT_UINT: convert_to_long_ex(&pval_arg); V_UINT(var_arg) = (unsigned int)Z_LVAL_P(pval_arg); break; case VT_I1|VT_BYREF: convert_to_long(pval_arg); V_I1REF(var_arg) = (char FAR*) &Z_LVAL_P(pval_arg); break; case VT_UI2|VT_BYREF: convert_to_long(pval_arg); V_UI2REF(var_arg) = (unsigned short FAR*) &Z_LVAL_P(pval_arg); break; case VT_UI4|VT_BYREF: convert_to_long(pval_arg); V_UI4REF(var_arg) = (unsigned long FAR*) &Z_LVAL_P(pval_arg); break; case VT_INT|VT_BYREF: convert_to_long(pval_arg); V_INTREF(var_arg) = (int FAR*) &Z_LVAL_P(pval_arg); break; case VT_UINT|VT_BYREF: convert_to_long(pval_arg); V_UINTREF(var_arg) = (unsigned int FAR*) &Z_LVAL_P(pval_arg); break; default: php_error(E_WARNING, "Type not supported or not yet implemented."); } } } PHPAPI int php_variant_to_pval(VARIANT *var_arg, pval *pval_arg, int persistent, int codepage) { /* Changed the function to return a value for recursive error testing */ /* Existing calls will be unaffected by the change - so it */ /* seemed like the smallest impact on unfamiliar code */ int ret = SUCCESS; INIT_PZVAL(pval_arg); /* Add SafeArray support */ if (V_ISARRAY(var_arg)) { SAFEARRAY *array = V_ARRAY(var_arg); LONG indices[1]; LONG lbound=0, ubound; VARTYPE vartype; register int ii; UINT Dims; VARIANT vv; pval *element; HRESULT hr; /* TODO: Add support for multi-dimensional SafeArrays */ /* For now just validate that the SafeArray has one dimension */ if (1 != (Dims = SafeArrayGetDim(array))) { php_error(E_WARNING,"Unsupported: multi-dimensional (%d) SafeArrays", Dims); ZVAL_NULL(pval_arg); return FAILURE; } SafeArrayLock( array); /* This call has failed for everything I have tried */ /* But best leave it to be on the safe side */ if (FAILED(SafeArrayGetVartype(array, &vartype))) { /* Fall back to what we do know */ /* Mask off the array bit and assume */ /* what is left is the type of the array */ /* elements */ vartype = V_VT(var_arg) & ~VT_ARRAY; } SafeArrayGetUBound(array, 1, &ubound); SafeArrayGetLBound(array, 1, &lbound); /* Since COM returned an array we set up the php */ /* return value to be an array */ array_init(pval_arg); /* Walk the safe array */ for (ii=lbound;ii<=ubound;ii++) { indices[0] = ii; VariantInit(&vv); /* Docs say this just set the vt field, but you never know */ /* Set up a variant to pass to a recursive call */ /* So that we do not need to have two copies */ /* of the code */ if (VT_VARIANT == vartype) { hr = SafeArrayGetElement(array, indices, (VOID *) &(vv)); } else { V_VT(&vv) = vartype; hr = SafeArrayGetElement(array, indices, (VOID *) &(vv.lVal)); } if (FAILED(hr)) { /* Failure to retieve an element probably means the array is sparse */ /* So leave the php array sparse too */ continue; } /* Create an element to be added to the array */ ALLOC_ZVAL(element); /* Call ourself again to handle the base type conversion */ /* If SafeArrayGetElement proclaims to allocate */ /* memory for a BSTR, so the recursive call frees */ /* the string correctly */ if (FAILURE == php_variant_to_pval(&vv, element, persistent, codepage)) { /* Error occurred setting up array element */ /* Error was displayed by the recursive call */ FREE_ZVAL(element); /* TODO: Do we stop here, or go on and */ /* try to make sense of the rest of the array */ /* Going on leads to multiple errors displayed */ /* for the same conversion. For large arrays that */ /* could be very annoying */ /* And if we don't go on - what to do about */ /* the parts of the array that are OK? */ /* break; */ } else { /* Just insert the element into our return array */ add_index_zval(pval_arg, ii, element); } } SafeArrayUnlock(array); /* Clean up the SafeArray since that is our responsibility */ SafeArrayDestroyData(array); SafeArrayDestroyDescriptor(array); } else switch(var_arg->vt & ~VT_BYREF) { case VT_EMPTY: ZVAL_NULL(pval_arg); break; case VT_UI1: if(V_ISBYREF(var_arg)) { ZVAL_LONG(pval_arg, (long)*V_UI4REF(var_arg)); } else { ZVAL_LONG(pval_arg, (long)V_UI4(var_arg)); } break; case VT_I2: if(V_ISBYREF(var_arg)) { ZVAL_LONG(pval_arg, (long )*V_I2REF(var_arg)); } else { ZVAL_LONG(pval_arg, (long)V_I2(var_arg)); } break; case VT_I4: if(V_ISBYREF(var_arg)) { ZVAL_LONG(pval_arg, *V_I4REF(var_arg)); } else { ZVAL_LONG(pval_arg, V_I4(var_arg)); } break; case VT_R4: if(V_ISBYREF(var_arg)) { ZVAL_DOUBLE(pval_arg, (double)*V_R4REF(var_arg)); } else { ZVAL_DOUBLE(pval_arg, (double)V_R4(var_arg)); } break; case VT_R8: if(V_ISBYREF(var_arg)) { ZVAL_DOUBLE(pval_arg, *V_R8REF(var_arg)); } else { ZVAL_DOUBLE(pval_arg, V_R8(var_arg)); } break; /* 96bit uint */ case VT_DECIMAL: { OLECHAR *unicode_str; switch(VarBstrFromDec(&V_DECIMAL(var_arg), LOCALE_SYSTEM_DEFAULT, 0, &unicode_str)) { case S_OK: Z_STRVAL_P(pval_arg) = php_OLECHAR_to_char(unicode_str, &Z_STRLEN_P(pval_arg), persistent, codepage); Z_TYPE_P(pval_arg) = IS_STRING; break; default: ZVAL_NULL(pval_arg); ret = FAILURE; php_error(E_WARNING, "Error converting DECIMAL value to PHP string"); break; } } break; /* Currency */ case VT_CY: if(V_ISBYREF(var_arg)) { VarR8FromCy(*V_CYREF(var_arg), &Z_DVAL_P(pval_arg)); } else { VarR8FromCy(V_CY(var_arg), &Z_DVAL_P(pval_arg)); } Z_TYPE_P(pval_arg) = IS_DOUBLE; break; case VT_BOOL: if(V_ISBYREF(var_arg)) { ZVAL_BOOL(pval_arg, *V_BOOLREF(var_arg)); } else { ZVAL_BOOL(pval_arg, V_BOOL(var_arg)); } break; case VT_NULL: case VT_VOID: ZVAL_NULL(pval_arg); break; case VT_VARIANT: php_variant_to_pval(V_VARIANTREF(var_arg), pval_arg, persistent, codepage); break; case VT_BSTR: if(V_ISBYREF(var_arg)) { Z_STRVAL_P(pval_arg) = php_OLECHAR_to_char(*V_BSTRREF(var_arg), &Z_STRLEN_P(pval_arg), persistent, codepage); SysFreeString(*V_BSTRREF(var_arg)); efree(V_BSTRREF(var_arg)); } else { Z_STRVAL_P(pval_arg) = php_OLECHAR_to_char(V_BSTR(var_arg), &Z_STRLEN_P(pval_arg), persistent, codepage); SysFreeString(V_BSTR(var_arg)); } Z_TYPE_P(pval_arg) = IS_STRING; break; case VT_DATE: { SYSTEMTIME wintime; struct tm phptime; if(V_ISBYREF(var_arg)) { VariantTimeToSystemTime(*V_DATEREF(var_arg), &wintime); } else { VariantTimeToSystemTime(V_DATE(var_arg), &wintime); } memset(&phptime, 0, sizeof(phptime)); phptime.tm_year = wintime.wYear - 1900; phptime.tm_mon = wintime.wMonth - 1; phptime.tm_mday = wintime.wDay; phptime.tm_hour = wintime.wHour; phptime.tm_min = wintime.wMinute; phptime.tm_sec = wintime.wSecond; phptime.tm_isdst = -1; tzset(); ZVAL_LONG(pval_arg, mktime(&phptime)); } break; case VT_UNKNOWN: if(V_UNKNOWN(var_arg) == NULL) { V_DISPATCH(var_arg) = NULL; } else { HRESULT hr; hr = V_UNKNOWN(var_arg)->lpVtbl->QueryInterface(var_arg->punkVal, &IID_IDispatch, &V_DISPATCH(var_arg)); if(FAILED(hr)) { char *error_message; error_message = php_COM_error_message(hr); php_error(E_WARNING,"Unable to obtain IDispatch interface: %s", error_message); LocalFree(error_message); V_DISPATCH(var_arg) = NULL; } } /* break missing intentionaly */ case VT_DISPATCH: { comval *obj; if(V_DISPATCH(var_arg) == NULL) { ret = FAILURE; ZVAL_NULL(pval_arg); } else { ALLOC_COM(obj); php_COM_set(obj, V_DISPATCH(var_arg), TRUE); ZVAL_COM(pval_arg, obj); } } break; case VT_I1: if(V_ISBYREF(var_arg)) { ZVAL_LONG(pval_arg, (long)*V_I1REF(var_arg)); } else { ZVAL_LONG(pval_arg, (long)V_I1(var_arg)); } break; case VT_UI2: if(V_ISBYREF(var_arg)) { ZVAL_LONG(pval_arg, (long)*V_UI2REF(var_arg)); } else { ZVAL_LONG(pval_arg, (long)V_UI2(var_arg)); } break; case VT_UI4: if(V_ISBYREF(var_arg)) { ZVAL_LONG(pval_arg, (long)*V_UI4REF(var_arg)); } else { ZVAL_LONG(pval_arg, (long)V_UI4(var_arg)); } break; case VT_INT: if(V_ISBYREF(var_arg)) { ZVAL_LONG(pval_arg, (long)*V_INTREF(var_arg)); } else { ZVAL_LONG(pval_arg, (long)V_INT(var_arg)); } break; case VT_UINT: if(V_ISBYREF(var_arg)) { ZVAL_LONG(pval_arg, (long)*V_UINTREF(var_arg)); } else { ZVAL_LONG(pval_arg, (long)V_UINT(var_arg)); } break; default: php_error(E_WARNING,"Unsupported variant type: %d (0x%X)", V_VT(var_arg), V_VT(var_arg)); ZVAL_NULL(pval_arg); ret = FAILURE; break; } return ret; } PHPAPI OLECHAR *php_char_to_OLECHAR(char *C_str, uint strlen, int codepage) { OLECHAR *unicode_str; /* request needed buffersize */ uint reqSize = MultiByteToWideChar(codepage, MB_PRECOMPOSED | MB_ERR_INVALID_CHARS, C_str, -1, NULL, 0); if(reqSize) { unicode_str = (OLECHAR *) emalloc(sizeof(OLECHAR) * reqSize); /* convert string */ MultiByteToWideChar(codepage, MB_PRECOMPOSED | MB_ERR_INVALID_CHARS, C_str, -1, unicode_str, reqSize); } else { unicode_str = (OLECHAR *) emalloc(sizeof(OLECHAR)); *unicode_str = 0; switch(GetLastError()) { case ERROR_NO_UNICODE_TRANSLATION: php_error(E_WARNING,"No unicode translation available for the specified string"); break; default: php_error(E_WARNING,"Error in php_char_to_OLECHAR()"); } } return unicode_str; } PHPAPI char *php_OLECHAR_to_char(OLECHAR *unicode_str, uint *out_length, int persistent, int codepage) { char *C_str; uint length = 0; /* request needed buffersize */ uint reqSize = WideCharToMultiByte(codepage, WC_COMPOSITECHECK, unicode_str, -1, NULL, 0, NULL, NULL); if(reqSize) { C_str = (char *) pemalloc(sizeof(char) * reqSize, persistent); /* convert string */ length = WideCharToMultiByte(codepage, WC_COMPOSITECHECK, unicode_str, -1, C_str, reqSize, NULL, NULL) - 1; } else { C_str = (char *) pemalloc(sizeof(char), persistent); *C_str = 0; php_error(E_WARNING,"Error in php_OLECHAR_to_char()"); } if(out_length) { *out_length = length; } return C_str; } static void comval_to_variant(pval *pval_arg, VARIANT *var_arg TSRMLS_DC) { pval **comval_handle; comval *obj; int type; /* fetch the comval structure */ zend_hash_index_find(Z_OBJPROP_P(pval_arg), 0, (void **) &comval_handle); obj = (comval *) zend_list_find(Z_LVAL_P(*comval_handle), &type); if(!obj || (type != IS_COM) || !C_ISREFD(obj)) { VariantInit(var_arg); } else { V_VT(var_arg) = VT_DISPATCH; V_DISPATCH(var_arg) = C_DISPATCH(obj); } } #endif /* PHP_WIN32 */