Ejemplo n.º 1
0
static void test_change_type(IVariantChangeType *change_type, VARIANT *src, const conv_results_t *ex)
{
    VARIANT v;

    call_change_type(change_type, &v, src, VT_I4);
    ok(V_I4(&v) == ex->int_result, "V_I4(v) = %d, expected %d\n", V_I4(&v), ex->int_result);

    call_change_type(change_type, &v, src, VT_BSTR);
    ok(!strcmp_wa(V_BSTR(&v), ex->str_result), "V_BSTR(v) = %s, expected %s\n", wine_dbgstr_w(V_BSTR(&v)), ex->str_result);
    VariantClear(&v);

    call_change_type(change_type, &v, src, VT_BOOL);
    ok(V_BOOL(&v) == ex->bool_result, "V_BOOL(v) = %x, expected %x\n", V_BOOL(&v), ex->bool_result);

    if(ex->test_double) {
        call_change_type(change_type, &v, src, VT_R8);
        ok(V_R8(&v) == ex->double_result, "V_R8(v) = %lf, expected %lf\n", V_R8(&v), ex->double_result);

        call_change_type(change_type, &v, src, VT_R4);
        ok(V_R4(&v) == (float)ex->double_result, "V_R4(v) = %f, expected %f\n", V_R4(&v), (float)ex->double_result);
    }

    if(V_VT(src) == VT_NULL)
        call_change_type(change_type, &v, src, VT_NULL);
    else
        change_type_fail(change_type, src, VT_NULL, E_NOTIMPL);

    if(V_VT(src) == VT_EMPTY)
        call_change_type(change_type, &v, src, VT_EMPTY);
    else
        change_type_fail(change_type, src, VT_EMPTY, E_NOTIMPL);

    call_change_type(change_type, &v, src, VT_I2);
    ok(V_I2(&v) == (INT16)ex->int_result, "V_I2(v) = %d, expected %d\n", V_I2(&v), ex->int_result);
}
Ejemplo n.º 2
0
Archivo: error.c Proyecto: bilboed/wine
static HRESULT error_constr(script_ctx_t *ctx, WORD flags, DISPPARAMS *dp,
        VARIANT *retv, jsexcept_t *ei, DispatchEx *constr) {
    DispatchEx *err;
    VARIANT numv;
    UINT num;
    BSTR msg = NULL;
    HRESULT hres;

    V_VT(&numv) = VT_NULL;

    if(arg_cnt(dp)) {
        hres = to_number(ctx, get_arg(dp, 0), ei, &numv);
        if(FAILED(hres) || (V_VT(&numv)==VT_R8 && isnan(V_R8(&numv))))
            hres = to_string(ctx, get_arg(dp, 0), ei, &msg);
        else if(V_VT(&numv) == VT_I4)
            num = V_I4(&numv);
        else
            num = V_R8(&numv);

        if(FAILED(hres))
            return hres;
    }

    if(arg_cnt(dp)>1 && !msg) {
        hres = to_string(ctx, get_arg(dp, 1), ei, &msg);
        if(FAILED(hres))
            return hres;
    }

    switch(flags) {
    case INVOKE_FUNC:
    case DISPATCH_CONSTRUCT:
        if(V_VT(&numv) == VT_NULL)
            hres = create_error(ctx, constr, NULL, msg, &err);
        else
            hres = create_error(ctx, constr, &num, msg, &err);
        SysFreeString(msg);

        if(FAILED(hres))
            return hres;

        if(retv) {
            V_VT(retv) = VT_DISPATCH;
            V_DISPATCH(retv) = (IDispatch*)_IDispatchEx_(err);
        }
        else
            jsdisp_release(err);

        return S_OK;

    default:
        FIXME("unimplemented flags %x\n", flags);
        return E_NOTIMPL;
    }
}
Ejemplo n.º 3
0
wchar_t *Variant2CWString(VARIANT *result){
    switch(V_VT(result)){
        case VT_EMPTY:
            return L"empty";
            break;
        case VT_NULL:
            return L"null";
            break;
        case VT_I2:  // short
            return Number2String((long)V_I2(result));
            break;
        case VT_I4:  // long
            return Number2String((long)V_I4(result));
            break;
        case VT_R4:  // float
            return Double2String(V_R4(result));
            break;
        case VT_R8:  // double
            return Double2String(V_R8(result));
            break;
        case VT_BOOL: //(True -1,False 0)
            return (V_BOOL(result) ? L"True" : L"False");
            break;
        case VT_BSTR:
            return (wchar_t*)(V_BSTR(result));
            break;
        case VT_DATE:
            return Date2String( V_DATE(result));
            break;
    }
}
STDMETHODIMP CAsdkSquareWrapper::SetElementValue(
    /* [in] */ DISPID dispID,
    /* [in] */ DWORD dwCookie,
    /* [in] */ VARIANT VarIn)
{
    AcAxDocLock docLock(m_objRef.objectId(), AcAxDocLock::kNormal);
    if(docLock.lockStatus() != Acad::eOk && docLock.lockStatus() != Acad::eNoDatabase)
        return E_ACCESSDENIED;
    AcAxObjectRefPtr<AsdkSquare> pSq(&m_objRef, AcDb::kForRead);
    if (pSq.openStatus() != Acad::eOk)
            return E_ACCESSDENIED;          

    if (dispID == DISPID_CENTERPOINT) {
        AcGePoint3d acgePt;
        pSq->squareCenter(acgePt);
        AcAxPoint3d acaxPt(acgePt);
        
        acaxPt[dwCookie] = V_R8(&VarIn);
        pSq->upgradeOpen();
        pSq->setSquareCenter(acaxPt);
        Fire_Notification(DISPID_CENTERPOINT);
    }

    return S_OK;
}
Ejemplo n.º 5
0
/**
  Turn a variant into an S object with a special class
  such as COMDate or COMCurrency which is simply an extension
  of numeric.
*/
SEXP
numberFromVariant(VARIANT *var, VARTYPE type)
{
  SEXP ans;
  SEXP klass;
  const char *tmpName = NULL;

  switch(type) {
  case VT_CY:
    tmpName = "COMCurrency";
    break;
  case VT_DATE:
    tmpName = (char *) "COMDate";
    break;
  case VT_HRESULT:
    tmpName = (char *) "HResult";
    break;
  case VT_DECIMAL:
    tmpName = (char *) "COMDecimal";
    break;
  default:
    PROBLEM "numberFromVariant called with unsupported variant type."
     ERROR;
  }
  PROTECT(klass = MAKE_CLASS(tmpName));
  PROTECT(ans = NEW(klass));
  ans = R_do_slot_assign(ans, mkString(".Data"), R_scalarReal(V_R8(var)));
      // SET_SLOT(ans, Rf_install(".Data"), R_scalarReal(V_R8(var)));
  UNPROTECT(2);

  return(ans);
}
Ejemplo n.º 6
0
static HRESULT var2str(const VARIANT *p, nsAString *nsstr)
{
    BSTR str;
    BOOL ret;
    HRESULT hres;

    switch(V_VT(p)) {
    case VT_BSTR:
        return nsAString_Init(nsstr, V_BSTR(p))?
            S_OK : E_OUTOFMEMORY;
    case VT_R8:
        hres = VarBstrFromR8(V_R8(p), 0, 0, &str);
        break;
    case VT_R4:
        hres = VarBstrFromR4(V_R4(p), 0, 0, &str);
        break;
    case VT_I4:
        hres = VarBstrFromI4(V_I4(p), 0, 0, &str);
        break;
    default:
        FIXME("unsupported arg %s\n", debugstr_variant(p));
        return E_NOTIMPL;
    }
    if (FAILED(hres))
        return hres;

    ret = nsAString_Init(nsstr, str);
    SysFreeString(str);
    return ret ? S_OK : E_OUTOFMEMORY;
}
Ejemplo n.º 7
0
/* ECMA-262 3rd Edition    9.4 */
HRESULT to_integer(script_ctx_t *ctx, VARIANT *v, jsexcept_t *ei, VARIANT *ret)
{
    VARIANT num;
    HRESULT hres;

    hres = to_number(ctx, v, ei, &num);
    if(FAILED(hres))
        return hres;

    if(V_VT(&num) == VT_I4)
        *ret = num;
    else
        num_set_val(ret, V_R8(&num) >= 0.0 ? floor(V_R8(&num)) : -floor(-V_R8(&num)));

    return S_OK;
}
Ejemplo n.º 8
0
/* ECMA-262 3rd Edition    9.2 */
HRESULT to_boolean(VARIANT *v, VARIANT_BOOL *b)
{
    switch(V_VT(v)) {
    case VT_EMPTY:
    case VT_NULL:
        *b = VARIANT_FALSE;
        break;
    case VT_I4:
        *b = V_I4(v) ? VARIANT_TRUE : VARIANT_FALSE;
        break;
    case VT_R8:
        *b = V_R8(v) ? VARIANT_TRUE : VARIANT_FALSE;
        break;
    case VT_BSTR:
        *b = V_BSTR(v) && *V_BSTR(v) ? VARIANT_TRUE : VARIANT_FALSE;
        break;
    case VT_DISPATCH:
        *b = V_DISPATCH(v) ? VARIANT_TRUE : VARIANT_FALSE;
        break;
    case VT_BOOL:
        *b = V_BOOL(v);
        break;
    default:
        FIXME("unimplemented for vt %d\n", V_VT(v));
        return E_NOTIMPL;
    }

    return S_OK;
}
Ejemplo n.º 9
0
HRESULT double_to_string(double n, jsstr_t **str)
{
    const WCHAR InfinityW[] = {'-','I','n','f','i','n','i','t','y',0};

    if(isnan(n)) {
        *str = jsstr_nan();
    }else if(isinf(n)) {
        *str = jsstr_alloc(n<0 ? InfinityW : InfinityW+1);
    }else if(is_int32(n)) {
        *str = int_to_string(n);
    }else {
        VARIANT strv, v;
        HRESULT hres;

        /* FIXME: Don't use VariantChangeTypeEx */
        V_VT(&v) = VT_R8;
        V_R8(&v) = n;
        V_VT(&strv) = VT_EMPTY;
        hres = VariantChangeTypeEx(&strv, &v, MAKELCID(MAKELANGID(LANG_ENGLISH,SUBLANG_ENGLISH_US),SORT_DEFAULT), 0, VT_BSTR);
        if(FAILED(hres))
            return hres;

        *str = jsstr_alloc(V_BSTR(&strv));
        SysFreeString(V_BSTR(&strv));
    }

    return *str ? S_OK : E_OUTOFMEMORY;
}
Ejemplo n.º 10
0
static const char *debugstr_variant(const VARIANT *v)
{
    if(!v)
        return "(null)";

    switch(V_VT(v)) {
    case VT_EMPTY:
        return "{VT_EMPTY}";
    case VT_NULL:
        return "{VT_NULL}";
    case VT_I4:
        return wine_dbg_sprintf("{VT_I4: %d}", V_I4(v));
    case VT_R8:
        return wine_dbg_sprintf("{VT_R8: %lf}", V_R8(v));
    case VT_BSTR:
        return wine_dbg_sprintf("{VT_BSTR: %s}", debugstr_w(V_BSTR(v)));
    case VT_DISPATCH:
        return wine_dbg_sprintf("{VT_DISPATCH: %p}", V_DISPATCH(v));
    case VT_BOOL:
        return wine_dbg_sprintf("{VT_BOOL: %x}", V_BOOL(v));
    case VT_UNKNOWN:
        return wine_dbg_sprintf("{VT_UNKNOWN: %p}", V_UNKNOWN(v));
    case VT_UINT:
        return wine_dbg_sprintf("{VT_UINT: %u}", V_UINT(v));
    case VT_BSTR|VT_BYREF:
        return wine_dbg_sprintf("{VT_BSTR|VT_BYREF: ptr %p, data %s}",
            V_BSTRREF(v), debugstr_w(V_BSTRREF(v) ? *V_BSTRREF(v) : NULL));
    default:
        return wine_dbg_sprintf("{vt %d}", V_VT(v));
    }
}
Ejemplo n.º 11
0
const char *debugstr_variant(const VARIANT *v)
{
    if (!v) return "(null)";

    switch (V_VT(v))
    {
    case VT_EMPTY:
        return "{VT_EMPTY}";
    case VT_NULL:
        return "{VT_NULL}";
    case VT_I2:
        return wine_dbg_sprintf("{VT_I2: %d}", V_I2(v));
    case VT_I4:
        return wine_dbg_sprintf("{VT_I4: %d}", V_I4(v));
    case VT_R8:
        return wine_dbg_sprintf("{VT_R8: %lf}", V_R8(v));
    case VT_BSTR:
        return wine_dbg_sprintf("{VT_BSTR: %s}", debugstr_w(V_BSTR(v)));
    case VT_DISPATCH:
        return wine_dbg_sprintf("{VT_DISPATCH: %p}", V_DISPATCH(v));
    case VT_ERROR:
        return wine_dbg_sprintf("{VT_ERROR: %08x}", V_ERROR(v));
    case VT_BOOL:
        return wine_dbg_sprintf("{VT_BOOL: %x}", V_BOOL(v));
    case VT_UINT:
        return wine_dbg_sprintf("{VT_UINT: %u}", V_UINT(v));
    default:
        return wine_dbg_sprintf("{vt %d}", V_VT(v));
    }
}
Ejemplo n.º 12
0
//+---------------------------------------------------------------------------
//
//  Function:   CVarToVARIANTARG
//
//  Synopsis:   Converts a C-language variable to a VARIANT.
//
//  Arguments:  [pv]    -- Pointer to C-language variable.
//              [vt]    -- Type of C-language variable.
//              [pvarg] -- Resulting VARIANT.  Must be initialized by caller.
//                         Any contents will be freed.
//
//  Modifies:   [pvarg]
//
//  History:    2-23-94   adams   Created
//
//  Notes:      Supports all variant pointer types, VT_UI2, VT_I2, VT_UI4,
//              VT_I4, VT_R4, VT_R8, VT_ERROR.
//
//----------------------------------------------------------------------------
void CVarToVARIANTARG(void* pv, VARTYPE vt, VARIANTARG* pvarg)
{
    Assert(pv);
    Assert(pvarg);

    VariantClear(pvarg);

    V_VT(pvarg) = vt;
    if(V_ISBYREF(pvarg))
    {
        // Use a supported pointer type for derefencing.
        vt = VT_UNKNOWN;
    }

    switch(vt)
    {
    case VT_BOOL:
        // convert TRUE to VT_TRUE
        Assert(*(BOOL*)pv==1 || *(BOOL*)pv==0);
        V_BOOL(pvarg) = VARIANT_BOOL(-*(BOOL*)pv);
        break;

    case VT_I2:
        V_I2(pvarg) = *(short*)pv;
        break;

    case VT_ERROR:
    case VT_I4:
        V_I4(pvarg) = *(long*)pv;
        break;

    case VT_R4:
        V_R4(pvarg) = *(float*)pv;
        break;

    case VT_R8:
        V_R8(pvarg) = *(double*)pv;
        break;

    case VT_CY:
        V_CY(pvarg) = *(CY*)pv;
        break;

        // All Pointer types.
    case VT_PTR:
    case VT_BSTR:
    case VT_LPSTR:
    case VT_LPWSTR:
    case VT_DISPATCH:
    case VT_UNKNOWN:
        V_BYREF(pvarg) = *(void**)pv;
        break;

    default:
        Assert(FALSE && "Unknown type.");
        break;
    }
}
Ejemplo n.º 13
0
HRESULT variant_to_jsval(VARIANT *var, jsval_t *r)
{
    switch(V_VT(var)) {
    case VT_EMPTY:
        *r = jsval_undefined();
        return S_OK;
    case VT_NULL:
        *r = jsval_null();
        return S_OK;
    case VT_BOOL:
        *r = jsval_bool(V_BOOL(var));
        return S_OK;
    case VT_I4:
        *r = jsval_number(V_I4(var));
        return S_OK;
    case VT_R8:
        *r = jsval_number(V_R8(var));
        return S_OK;
    case VT_BSTR: {
        jsstr_t *str;

        str = jsstr_alloc_len(V_BSTR(var), SysStringLen(V_BSTR(var)));
        if(!str)
            return E_OUTOFMEMORY;
        if(!V_BSTR(var))
            str->length_flags |= JSSTR_FLAG_NULLBSTR;

        *r = jsval_string(str);
        return S_OK;
    }
    case VT_DISPATCH: {
        if(V_DISPATCH(var))
            IDispatch_AddRef(V_DISPATCH(var));
        *r = jsval_disp(V_DISPATCH(var));
        return S_OK;
    }
    case VT_I2:
        *r = jsval_number(V_I2(var));
        return S_OK;
    case VT_INT:
        *r = jsval_number(V_INT(var));
        return S_OK;
    case VT_UNKNOWN:
        if(V_UNKNOWN(var)) {
            IDispatch *disp;
            HRESULT hres;

            hres = IUnknown_QueryInterface(V_UNKNOWN(var), &IID_IDispatch, (void**)&disp);
            if(SUCCEEDED(hres)) {
                *r = jsval_disp(disp);
                return S_OK;
            }
        }
        /* fall through */
    default:
        return jsval_variant(r, var);
    }
}
Ejemplo n.º 14
0
	JNIEXPORT void JNICALL Java_com_tangram_Variant_putVariantDouble(JNIEnv *env, jobject _this, jdouble d)
	{
		VARIANT *v = extractVariant(env, _this);
		if (v) {
			VariantClear(v); // whatever was there before
			V_VT(v) = VT_R8;
			V_R8(v) = (double)d;
		}
	}
Ejemplo n.º 15
0
HRESULT jsval_to_variant(jsval_t val, VARIANT *retv)
{
    switch(jsval_type(val)) {
    case JSV_UNDEFINED:
        V_VT(retv) = VT_EMPTY;
        return S_OK;
    case JSV_NULL:
        V_VT(retv) = VT_NULL;
        return S_OK;
    case JSV_OBJECT:
        V_VT(retv) = VT_DISPATCH;
        if(get_object(val))
            IDispatch_AddRef(get_object(val));
        V_DISPATCH(retv) = get_object(val);
        return S_OK;
    case JSV_STRING: {
        jsstr_t *str = get_string(val);

        V_VT(retv) = VT_BSTR;
        if(str->length_flags & JSSTR_FLAG_NULLBSTR) {
            V_BSTR(retv) = NULL;
        } else {
            V_BSTR(retv) = SysAllocStringLen(NULL, jsstr_length(str));
            if(V_BSTR(retv))
                jsstr_flush(str, V_BSTR(retv));
            else
                return E_OUTOFMEMORY;
        }
        return S_OK;
    }
    case JSV_NUMBER: {
        double n = get_number(val);

        if(is_int32(n)) {
            V_VT(retv) = VT_I4;
            V_I4(retv) = n;
        } else {
            V_VT(retv) = VT_R8;
            V_R8(retv) = n;
        }

        return S_OK;
    }
    case JSV_BOOL:
        V_VT(retv) = VT_BOOL;
        V_BOOL(retv) = get_bool(val) ? VARIANT_TRUE : VARIANT_FALSE;
        return S_OK;
    case JSV_VARIANT:
        V_VT(retv) = VT_EMPTY;
        return VariantCopy(retv, get_variant(val));
    }

    assert(0);
    return E_FAIL;
}
Ejemplo n.º 16
0
/* ECMA-262 3rd Edition    9.6 */
HRESULT to_uint32(script_ctx_t *ctx, VARIANT *v, jsexcept_t *ei, DWORD *ret)
{
    VARIANT num;
    HRESULT hres;

    hres = to_number(ctx, v, ei, &num);
    if(FAILED(hres))
        return hres;

    *ret = V_VT(&num) == VT_I4 ? V_I4(&num) : (DWORD)V_R8(&num);
    return S_OK;
}
Ejemplo n.º 17
0
	/**
	 * Returns the value of this Variant as a double if it is of that type.
	 * Otherwise it will return null (no conversion done)
	 */
	JNIEXPORT jdouble JNICALL Java_com_tangram_Variant_getVariantDouble
		(JNIEnv *env, jobject _this)
	{
		VARIANT *v = extractVariant(env, _this);
		if (v) {
			if (V_VT(v) != VT_R8) {
				return NULL;
			}
			return (jdouble)V_R8(v);
		}
		return NULL;
	}
Ejemplo n.º 18
0
HRESULT create_math(script_ctx_t *ctx, jsdisp_t **ret)
{
    jsdisp_t *math;
    unsigned i;
    VARIANT v;
    HRESULT hres;

    struct {
        const WCHAR *name;
        DOUBLE val;
    }constants[] = {
        {EW,        M_E},        /* ECMA-262 3rd Edition    15.8.1.1 */
        {LN10W,     M_LN10},     /* ECMA-262 3rd Edition    15.8.1.2 */
        {LN2W,      M_LN2},      /* ECMA-262 3rd Edition    15.8.1.3 */
        {LOG2EW,    M_LOG2E},    /* ECMA-262 3rd Edition    15.8.1.4 */
        {LOG10EW,   M_LOG10E},   /* ECMA-262 3rd Edition    15.8.1.5 */
        {PIW,       M_PI},       /* ECMA-262 3rd Edition    15.8.1.6 */
        {SQRT1_2W,  M_SQRT1_2},  /* ECMA-262 3rd Edition    15.8.1.7 */
        {SQRT2W,    M_SQRT2},    /* ECMA-262 3rd Edition    15.8.1.8 */
    };

    math = heap_alloc_zero(sizeof(jsdisp_t));
    if(!math)
        return E_OUTOFMEMORY;

    hres = init_dispex_from_constr(math, ctx, &Math_info, ctx->object_constr);
    if(FAILED(hres)) {
        heap_free(math);
        return hres;
    }

    V_VT(&v) = VT_R8;
    for(i=0; i < sizeof(constants)/sizeof(*constants); i++) {
        V_R8(&v) = constants[i].val;
        hres = jsdisp_propput_const(math, constants[i].name, &v);
        if(FAILED(hres)) {
            jsdisp_release(math);
            return hres;
        }
    }

    *ret = math;
    return S_OK;
}
Ejemplo n.º 19
0
const char *debugstr_variant(const VARIANT *v)
{
    switch(V_VT(v)) {
    case VT_EMPTY:
        return wine_dbg_sprintf("{VT_EMPTY}");
    case VT_NULL:
        return wine_dbg_sprintf("{VT_NULL}");
    case VT_I4:
        return wine_dbg_sprintf("{VT_I4: %d}", V_I4(v));
    case VT_R8:
        return wine_dbg_sprintf("{VT_R8: %lf}", V_R8(v));
    case VT_BSTR:
        return wine_dbg_sprintf("{VT_BSTR: %s}", debugstr_w(V_BSTR(v)));
    case VT_DISPATCH:
        return wine_dbg_sprintf("{VT_DISPATCH: %p}", V_DISPATCH(v));
    case VT_BOOL:
        return wine_dbg_sprintf("{VT_BOOL: %x}", V_BOOL(v));
    default:
        return wine_dbg_sprintf("{vt %d}", V_VT(v));
    }
}
Ejemplo n.º 20
0
HRESULT dhGetValueV(LPCWSTR szIdentifier, void * pResult, IDispatch * pDisp, LPCOLESTR szMember, va_list * marker)
{
	VARIANT vtResult;
	VARTYPE returnType;
	HRESULT hr;

	DH_ENTER(L"GetValueV");

	if (!pResult || !szIdentifier) return DH_EXIT(E_INVALIDARG, szMember);

	if (*szIdentifier == L'%') szIdentifier++;

	switch(*szIdentifier)
	{
		case L'd': returnType = VT_I4;       break;
		case L'u': returnType = VT_UI4;      break;
		case L'e': returnType = VT_R8;       break;
		case L'b': returnType = VT_BOOL;     break;
		case L'v': returnType = VT_EMPTY;    break;
		case L'B': returnType = VT_BSTR;     break;
		case L'S': returnType = VT_BSTR;     break;
		case L's': returnType = VT_BSTR;     break;
		case L'T': returnType = VT_BSTR;     break;
		case L'o': returnType = VT_DISPATCH; break;
		case L'O': returnType = VT_UNKNOWN;  break;
		case L't': returnType = VT_DATE;     break;
		case L'W': returnType = VT_DATE;     break;
		case L'f': returnType = VT_DATE;     break;
		case L'D': returnType = VT_DATE;     break;
#ifndef _WIN64
		case L'p': returnType = VT_I4;       break;
#else
		case L'p': returnType = VT_I8;       break;
#endif
		default:
			DEBUG_NOTIFY_INVALID_IDENTIFIER(*szIdentifier);
			return DH_EXIT(E_INVALIDARG, szMember);
	}

	hr = dhInvokeV(DISPATCH_PROPERTYGET|DISPATCH_METHOD, returnType, &vtResult, pDisp, szMember, marker);
	if (FAILED(hr)) return DH_EXIT(hr, szMember);

	switch(*szIdentifier)
	{
		case L'd':
			*((LONG *) pResult) = V_I4(&vtResult);
			break;

		case L'u':
			*((ULONG *) pResult) = V_UI4(&vtResult);
			break;

		case L'e':
			*((DOUBLE *) pResult) = V_R8(&vtResult);
			break;

		case L'b':
			*((BOOL *) pResult) = V_BOOL(&vtResult);
			break;

		case L'v':
			*((VARIANT *) pResult) = vtResult;
			break;

		case L'B':
			*((BSTR *) pResult) = V_BSTR(&vtResult);
			break;

		case L'S':
			*((LPWSTR *) pResult) = V_BSTR(&vtResult);
			break;

		case L's':
			hr = ConvertBStrToAnsiStr(V_BSTR(&vtResult), (LPSTR *) pResult);
			SysFreeString(V_BSTR(&vtResult));
			break;

		case L'T':
			if (dh_g_bIsUnicodeMode)
			{
				*((LPWSTR *) pResult) = V_BSTR(&vtResult);
			}
			else
			{
				hr = ConvertBStrToAnsiStr(V_BSTR(&vtResult), (LPSTR *) pResult);
				SysFreeString(V_BSTR(&vtResult));
			}
			break;

		case L'o':
			*((IDispatch **) pResult) = V_DISPATCH(&vtResult);
			if (V_DISPATCH(&vtResult) == NULL) hr = E_NOINTERFACE;
			break;

		case L'O':
			*((IUnknown **) pResult) = V_UNKNOWN(&vtResult);
			if (V_UNKNOWN(&vtResult) == NULL) hr = E_NOINTERFACE;
			break;

		case L't':
			hr = ConvertVariantTimeToTimeT(V_DATE(&vtResult), (time_t *) pResult);
			break;

		case L'W':
			hr = ConvertVariantTimeToSystemTime(V_DATE(&vtResult), (SYSTEMTIME *) pResult);
			break;

		case L'f':
			hr = ConvertVariantTimeToFileTime(V_DATE(&vtResult), (FILETIME *) pResult);
			break;

		case L'D':
			*((DATE *) pResult) = V_DATE(&vtResult);
			break;

		case L'p':
#ifndef _WIN64
			*((LPVOID *) pResult) = (LPVOID) V_I4(&vtResult);
#else
			*((LPVOID *) pResult) = (LPVOID) V_I8(&vtResult);
#endif
			break;
	}

	return DH_EXIT(hr, szMember);
}
Ejemplo n.º 21
0
bool
variant_as_string( DEBUGHELPER *pH, const VARIANT &var, std::string *ret  )
{
	if (var.vt & VT_VECTOR) return false;
	if (var.vt & VT_RESERVED) return false;
	if (var.vt & VT_ARRAY)
		return safearray_as_string( pH, reinterpret_cast<DWORDLONG>(var.parray), ret);

	if (var.vt & VT_BYREF)
	{
		// Construct a fake variant with the byref-value in it.
		VARTYPE vt = var.vt & ~VT_BYREF;
		long size = vartype_len(vt);
		VARIANT var2;
		var2.vt = vt;
		long source=reinterpret_cast<long>(var.byref);
		void *dest;
		if( vt == VT_VARIANT)
			dest = &var2;
		else
		{
			var2.vt=vt;
			dest = &(var2.bVal);
		}
		if(!ReadMem(pH,source, size, dest)) return false;

		std::string retval;
		if( ! variant_as_string( pH, var2, &retval)) return false;

		retval += "]";
		*ret = "[" + retval;
		return true;
	}
	
	std::ostringstream os;
	switch (var.vt & VT_TYPEMASK )
	{
		case VT_I2: os << V_I2(&var); break;
		case VT_I4: os << V_I4(&var); break;
		//case VT_I8: os << V_I8(&var); break;
		case VT_R4: os << V_R4(&var); break;
		case VT_R8: os << V_R8(&var); break;

		case VT_UNKNOWN:
		case VT_DISPATCH: os <<  "0x" << std::hex << (long )V_DISPATCH(&var); break;
		case VT_BOOL: os << (V_BOOL(&var)==VARIANT_FALSE?"False":"True"); break;
		case VT_I1: os << "'" << V_I1(&var) << "'"  ; break;
		case VT_UI1: os << "'" << V_UI1(&var) << "'" ; break;
		case VT_UI2: os << V_UI2(&var); break;
		case VT_UI4: os << V_UI4(&var); break;
		case VT_INT: os << V_INT(&var); break;
		case VT_UINT: os << V_UINT(&var); break;
		case VT_ERROR: os << "error"; break;

		case VT_CY: os << (((double)(V_CY(&var).int64))/10000.); break;
		case VT_DATE: return date_as_string(V_DATE(&var), ret); break;

		case VT_BSTR:
		{

			long pBSTR = reinterpret_cast<long>( V_BSTR(&var) );
//			if (!ReadMem(pH, reinterpret_cast<DWORDLONG>( V_BSTR(&var) ), &pBSTR)) return false;

			std::string ret;
			if (!bstr_as_string( pH, pBSTR , &ret )) return false;
			os << ret;
		}break;
		case VT_EMPTY: os << '@'; break;
		case VT_NULL: os << "null"; break;
		break;
		default:
			return false;
	}

	*ret =  os.str();
	return true;
	
}
Ejemplo n.º 22
0
Archivo: number.c Proyecto: r6144/wine
/* ECMA-262 3rd Edition    15.7.4.2 */
static HRESULT Number_toString(script_ctx_t *ctx, vdisp_t *jsthis, WORD flags, DISPPARAMS *dp,
        VARIANT *retv, jsexcept_t *ei, IServiceProvider *sp)
{
    NumberInstance *number;
    INT radix = 10;
    DOUBLE val;
    BSTR str;
    HRESULT hres;

    TRACE("\n");

    if(!(number = number_this(jsthis)))
        return throw_type_error(ctx, ei, IDS_NOT_NUM, NULL);

    if(arg_cnt(dp)) {
        hres = to_int32(ctx, get_arg(dp, 0), ei, &radix);
        if(FAILED(hres))
            return hres;

        if(radix<2 || radix>36)
            return throw_type_error(ctx, ei, IDS_INVALID_CALL_ARG, NULL);
    }

    if(V_VT(&number->num) == VT_I4)
        val = V_I4(&number->num);
    else
        val = V_R8(&number->num);

    if(radix==10 || isnan(val) || isinf(val)) {
        hres = to_string(ctx, &number->num, ei, &str);
        if(FAILED(hres))
            return hres;
    }
    else {
        INT idx = 0;
        DOUBLE integ, frac, log_radix = 0;
        WCHAR buf[NUMBER_TOSTRING_BUF_SIZE+16];
        BOOL exp = FALSE;

        if(val<0) {
            val = -val;
            buf[idx++] = '-';
        }

        while(1) {
            integ = floor(val);
            frac = val-integ;

            if(integ == 0)
                buf[idx++] = '0';
            while(integ>=1 && idx<NUMBER_TOSTRING_BUF_SIZE) {
                buf[idx] = fmod(integ, radix);
                if(buf[idx]<10) buf[idx] += '0';
                else buf[idx] += 'a'-10;
                integ /= radix;
                idx++;
            }

            if(idx<NUMBER_TOSTRING_BUF_SIZE) {
                INT beg = buf[0]=='-'?1:0;
                INT end = idx-1;
                WCHAR wch;

                while(end > beg) {
                    wch = buf[beg];
                    buf[beg++] = buf[end];
                    buf[end--] = wch;
                }
            }

            if(idx != NUMBER_TOSTRING_BUF_SIZE) buf[idx++] = '.';

            while(frac>0 && idx<NUMBER_TOSTRING_BUF_SIZE) {
                frac *= radix;
                buf[idx] = fmod(frac, radix);
                frac -= buf[idx];
                if(buf[idx]<10) buf[idx] += '0';
                else buf[idx] += 'a'-10;
                idx++;
            }

            if(idx==NUMBER_TOSTRING_BUF_SIZE && !exp) {
                exp = TRUE;
                idx = (buf[0]=='-') ? 1 : 0;
                log_radix = floor(log(val)/log(radix));
                val *= pow(radix, -log_radix);
                continue;
            }

            break;
        }

        while(buf[idx-1] == '0') idx--;
        if(buf[idx-1] == '.') idx--;

        if(exp) {
            if(log_radix==0)
                buf[idx++] = '\0';
            else {
                static const WCHAR formatW[] = {'(','e','%','c','%','d',')',0};
                WCHAR ch;

                if(log_radix<0) {
                    log_radix = -log_radix;
                    ch = '-';
                }
                else ch = '+';
                sprintfW(&buf[idx], formatW, ch, (int)log_radix);
            }
        }
        else buf[idx] = '\0';

        str = SysAllocString(buf);
        if(!str)
            return E_OUTOFMEMORY;
    }

    if(retv) {
        V_VT(retv) = VT_BSTR;
        V_BSTR(retv) = str;
    }else {
        SysFreeString(str);
    }
    return S_OK;
}
Ejemplo n.º 23
0
HRESULT VariantChangeTypeSpecial(VARIANT* pvargDest, VARIANT* pVArg, VARTYPE vt, IServiceProvider* pSrvProvider/*=NULL*/, DWORD dwFlags/*=0*/)
{
    HRESULT hr;
    IVariantChangeType* pVarChangeType = NULL;

    if(pSrvProvider)
    {
        hr = pSrvProvider->QueryService(SID_VariantConversion,
            IID_IVariantChangeType, (void**)&pVarChangeType);
        if(hr)
        {
            goto OldWay;
        }

        // Use script engine conversion routine.
        hr = pVarChangeType->ChangeType(pvargDest, pVArg, 0, vt);

        if(!hr)
        {
            goto Cleanup; // ChangeType suceeded we're done...
        }
    }

    // Fall back to our tried & trusted type coercions
OldWay:
    hr = S_OK;

    if(vt==VT_BSTR && V_VT(pVArg)==VT_NULL)
    {
        // Converting a NULL to BSTR
        V_VT(pvargDest) = VT_BSTR;
        hr = FormsAllocString(_T("null"), &V_BSTR(pvargDest));
        goto Cleanup;
    }
    else if(vt==VT_BSTR && V_VT(pVArg)==VT_EMPTY)
    {
        // Converting "undefined" to BSTR
        V_VT(pvargDest) = VT_BSTR;
        hr = FormsAllocString(_T("undefined"), &V_BSTR(pvargDest));
        goto Cleanup;
    }
    else if(vt==VT_BOOL && V_VT(pVArg)==VT_BSTR)
    {
        // Converting from BSTR to BOOL
        // To match Navigator compatibility empty strings implies false when
        // assigned to a boolean type any other string implies true.
        V_VT(pvargDest) = VT_BOOL;
        V_BOOL(pvargDest) = FormsStringLen(V_BSTR(pVArg))==0 ? VARIANT_FALSE : VARIANT_TRUE;
        goto Cleanup;
    }
    else if(V_VT(pVArg)==VT_BOOL && vt==VT_BSTR)
    {
        // Converting from BOOL to BSTR
        // To match Nav we either get "true" or "false"
        V_VT(pvargDest) = VT_BSTR;
        hr = FormsAllocString(
            V_BOOL(pVArg)==VARIANT_TRUE?_T("true"):_T("false"),
            &V_BSTR(pvargDest));
        goto Cleanup;
    }
    // If we're converting R4 or R8 to a string then we need special handling to
    // map Nan and +/-Inf.
    else if(vt==VT_BSTR && (V_VT(pVArg)==VT_R8||V_VT(pVArg)==VT_R4))
    {
        double dblValue = V_VT(pVArg)==VT_R8 ? V_R8(pVArg) : (double)(V_R4(pVArg));

        // Infinity or NAN?
        if(!isFinite(dblValue))
        {
            if(isNAN(dblValue))
            {
                // NAN
                hr = FormsAllocStringW(_T("NaN"), &(V_BSTR(pvargDest)));
            }
            else
            {
                // Infinity
                hr = FormsAllocStringW((dblValue<0)?_T("-Infinity"):_T("Infinity"), &(V_BSTR(pvargDest)));
            }
        }
        else
        {
            goto DefaultConvert;
        }

        // Any error from allocating string?
        if(hr)
        {
            goto Cleanup;
        }

        V_VT(pvargDest) = vt;
        goto Cleanup;
    }

DefaultConvert:
    // Default VariantChangeTypeEx.

    // VARIANT_NOUSEROVERRIDE flag is undocumented flag that tells OLEAUT to convert to the lcid
    // given. Without it the conversion is done to user localeid
    hr = VariantChangeTypeEx(pvargDest, pVArg, LCID_SCRIPTING, dwFlags|VARIANT_NOUSEROVERRIDE, vt);

    if(hr == DISP_E_TYPEMISMATCH)
    {
        if(V_VT(pVArg) == VT_NULL)
        {
            hr = S_OK;
            switch(vt)
            {
            case VT_BOOL:
                V_BOOL(pvargDest) = VARIANT_FALSE;
                V_VT(pvargDest) = VT_BOOL;
                break;

                // For NS compatability - NS treats NULL args as 0
            default:
                V_I4(pvargDest)=0;
                break;
            }
        }
        else if(V_VT(pVArg) == VT_DISPATCH)
        {
            // Nav compatability - return the string [object] or null 
            V_VT(pvargDest) = VT_BSTR;
            hr = FormsAllocString((V_DISPATCH(pVArg))?_T("[object]"):_T("null"), &V_BSTR(pvargDest));
        }
        else if(V_VT(pVArg)==VT_BSTR &&
            (V_BSTR(pVArg) && ((V_BSTR(pVArg))[0]==_T('\0')) ||!V_BSTR(pVArg)) &&
            (vt==VT_I4 || vt==VT_I2 || vt==VT_UI2||vt==VT_UI4 
            || vt==VT_I8||vt==VT_UI8 || vt==VT_INT || vt==VT_UINT))
        {
            // Converting empty string to integer => Zero
            hr = S_OK;
            V_VT(pvargDest) = vt;
            V_I4(pvargDest) = 0;
            goto Cleanup;
        }
    }
    else if(hr==DISP_E_OVERFLOW && vt==VT_I4 && (V_VT(pVArg)==VT_R8 || V_VT(pVArg)==VT_R4))
    {
        // Nav compatability - return MAXLONG on overflow
        V_VT(pvargDest) = VT_I4;
        V_I4(pvargDest) = MAXLONG;
        hr = S_OK;
        goto Cleanup;
    }

    // To match Navigator change any scientific notation E to e.
    if(!hr && (vt==VT_BSTR && (V_VT(pVArg)==VT_R8 || V_VT(pVArg)==VT_R4)))
    {
        TCHAR* pENotation;

        pENotation = _tcschr(V_BSTR(pvargDest), _T('E'));
        if(pENotation)
        {
            *pENotation = _T('e');
        }
    }

Cleanup:
    ReleaseInterface(pVarChangeType);

    RRETURN(hr);
}
Ejemplo n.º 24
0
SEXP
R_convertDCOMObjectToR(VARIANT *var)
{
  SEXP ans = R_NilValue;

  VARTYPE type = V_VT(var);

#if defined(RDCOM_VERBOSE) && RDCOM_VERBOSE
  errorLog("Converting VARIANT to R %d\n", V_VT(var));
#endif


  if(V_ISARRAY(var)) {
#if defined(RDCOM_VERBOSE) && RDCOM_VERBOSE
  errorLog("Finishing convertDCOMObjectToR - convert array\n");
#endif
    return(convertArrayToR(var));
  } else if(V_VT(var) == VT_DISPATCH || (V_ISBYREF(var) && ((V_VT(var) & (~ VT_BYREF)) == VT_DISPATCH)) ) {
    IDispatch *ptr;
    if(V_ISBYREF(var)) {

#if defined(RDCOM_VERBOSE) && RDCOM_VERBOSE
      errorLog("BYREF and DISPATCH in convertDCOMObjectToR\n");
#endif

      IDispatch **tmp = V_DISPATCHREF(var);
      if(!tmp)
	return(ans);
      ptr = *tmp;
    } else
      ptr = V_DISPATCH(var);
       //xxx
    if(ptr) 
      ptr->AddRef();
    ans = R_createRCOMUnknownObject((void*) ptr, "COMIDispatch");
#if defined(RDCOM_VERBOSE) && RDCOM_VERBOSE
    errorLog("Finished convertDCOMObjectToR  COMIDispatch\n");
#endif
    return(ans);
  }



  if(V_ISBYREF(var)) {
    VARTYPE rtype = type & (~ VT_BYREF);

#if defined(RDCOM_VERBOSE) && RDCOM_VERBOSE
    errorLog("ISBYREF() in convertDCOMObjectToR: ref type %d\n", rtype);
#endif

    if(rtype == VT_BSTR) {
        BSTR *tmp;
        const char *ptr = "";
#if defined(RDCOM_VERBOSE) && RDCOM_VERBOSE
	errorLog("BYREF and BSTR convertDCOMObjectToR  (scalar string)\n");
#endif
        tmp = V_BSTRREF(var);
        if(tmp)
  	  ptr = FromBstr(*tmp);
        ans = R_scalarString(ptr);
	return(ans);
    } else if(rtype == VT_BOOL || rtype == VT_I4 || rtype == VT_R8){
      return(createVariantRef(var, rtype));
    } else {
        fprintf(stderr, "Unhandled by-reference conversion type %d\n", V_VT(var));fflush(stderr);
	return(R_NilValue);        
    }
  }

  switch(type) {

    case VT_BOOL:
      ans = R_scalarLogical( (Rboolean) (V_BOOL(var) ? TRUE : FALSE));
      break;

    case VT_UI1:
    case VT_UI2:
    case VT_UI4:
    case VT_UINT:
      VariantChangeType(var, var, 0, VT_I4);
      ans = R_scalarReal((double) V_I4(var));
      break;

    case VT_I1:
    case VT_I2:
    case VT_I4:
    case VT_INT:
      VariantChangeType(var, var, 0, VT_I4);
      ans = R_scalarInteger(V_I4(var));
      break;

    case VT_R4:
    case VT_R8:
    case VT_I8:
      VariantChangeType(var, var, 0, VT_R8);
      ans = R_scalarReal(V_R8(var));
      break;

    case VT_CY:
    case VT_DATE:
    case VT_HRESULT:
    case VT_DECIMAL:
      VariantChangeType(var, var, 0, VT_R8);
      ans = numberFromVariant(var, type);
      break;

    case VT_BSTR:
      {
	char *ptr = FromBstr(V_BSTR(var));
        ans = R_scalarString(ptr);
      }
      break;

    case VT_UNKNOWN:
      {
       IUnknown *ptr = V_UNKNOWN(var);
       //xxx
       if(ptr)
         ptr->AddRef();
       ans = R_createRCOMUnknownObject((void**) ptr, "COMUnknown");
      }
       break;
  case VT_EMPTY:
  case VT_NULL:
  case VT_VOID:
    return(R_NilValue);
    break;


/*XXX Need to fill these in */
  case VT_RECORD:
  case VT_FILETIME:
  case VT_BLOB:
  case VT_STREAM:
  case VT_STORAGE:
  case VT_STREAMED_OBJECT:
    /*  case LPSTR: */
  case VT_LPWSTR:
  case VT_PTR:
  case VT_ERROR:
  case VT_VARIANT:
  case VT_CARRAY:
  case VT_USERDEFINED:
  default:
    fprintf(stderr, "Unhandled conversion type %d\n", V_VT(var));fflush(stderr);
    //XXX this consumes the variant. So the variant clearance in Invoke() does it again!
    ans = createRVariantObject(var, V_VT(var));
  }

#if defined(RDCOM_VERBOSE) && RDCOM_VERBOSE
  errorLog("Finished convertDCOMObjectToR\n");
#endif

  return(ans);
}
Ejemplo n.º 25
0
HRESULT
R_convertRObjectToDCOM(SEXP obj, VARIANT *var)
{
  HRESULT status;
  int type = R_typeof(obj);

  if(!var)
    return(S_FALSE);

#ifdef RDCOM_VERBOSE
  errorLog("Type of argument %d\n", type);
#endif

 if(type == EXTPTRSXP && EXTPTR_TAG(obj) == Rf_install("R_VARIANT")) {
   VARIANT *tmp;
   tmp = (VARIANT *) R_ExternalPtrAddr(obj);
   if(tmp) {
     //XXX
     VariantCopy(var, tmp);
     return(S_OK);
   }
 }

 if(ISCOMIDispatch(obj)) {
   IDispatch *ptr;
   ptr = (IDispatch *) derefRIDispatch(obj);
   V_VT(var) = VT_DISPATCH;
   V_DISPATCH(var) = ptr;
   //XX
   ptr->AddRef();
   return(S_OK);
 }

 if(ISSInstanceOf(obj, "COMDate")) {
    double val;
    val = NUMERIC_DATA(GET_SLOT(obj, Rf_install(".Data")))[0];
    V_VT(var) = VT_DATE;
    V_DATE(var) = val;
    return(S_OK);
 } else if(ISSInstanceOf(obj, "COMCurrency")) {
    double val;
    val = NUMERIC_DATA(GET_SLOT(obj, Rf_install(".Data")))[0];
    V_VT(var) = VT_R8;
    V_R8(var) = val;
    VariantChangeType(var, var, 0, VT_CY);
    return(S_OK);
 } else if(ISSInstanceOf(obj, "COMDecimal")) {
    double val;
    val = NUMERIC_DATA(GET_SLOT(obj, Rf_install(".Data")))[0];
    V_VT(var) = VT_R8;
    V_R8(var) = val;
    VariantChangeType(var, var, 0, VT_DECIMAL);
    return(S_OK);
 }


 /* We have a complex object and we are not going to try to convert it directly
    but instead create an COM server object to represent it to the outside world. */
  if((type == VECSXP && Rf_length(GET_NAMES(obj))) || Rf_length(GET_CLASS(obj)) > 0  || isMatrix(obj)) {
    status = createGenericCOMObject(obj, var);
    if(status == S_OK)
      return(S_OK);
  }

  if(Rf_length(obj) == 0) {
   V_VT(var) = VT_VOID;
   return(S_OK);
  }

  if(type == VECSXP || Rf_length(obj) > 1) {
      createRDCOMArray(obj, var);
      return(S_OK);
  }

  switch(type) {
    case STRSXP:
      V_VT(var) = VT_BSTR;
      V_BSTR(var) = AsBstr(getRString(obj, 0));
      break;

    case INTSXP:
      V_VT(var) = VT_I4;
      V_I4(var) = R_integerScalarValue(obj, 0);
      break;

    case REALSXP:
	V_VT(var) = VT_R8;
	V_R8(var) = R_realScalarValue(obj, 0);
      break;

    case LGLSXP:
      V_VT(var) = VT_BOOL;
      V_BOOL(var) = R_logicalScalarValue(obj, 0) ? VARIANT_TRUE : VARIANT_FALSE;
      break;

    case VECSXP:
      break;
  }
  
  return(S_OK);
}
Ejemplo n.º 26
0
//+---------------------------------------------------------------------------
//
//  Function:   VARIANTARGToCVar
//
//  Synopsis:   Converts a VARIANT to a C-language variable.
//
//  Arguments:  [pvarg]         -- Variant to convert.
//              [pfAlloc]       -- BSTR allocated during conversion caller is
//                                 now owner of this BSTR or IUnknown or IDispatch
//                                 object allocated needs to be released.
//              [vt]            -- Type to convert to.
//              [pv]            -- Location to place C-language variable.
//
//  Modifies:   [pv].
//
//  Returns:    HRESULT.
//
//  History:    2-23-94   adams   Created
//
//  Notes:      Supports all variant pointer types, VT_I2, VT_I4, VT_R4,
//              VT_R8, VT_ERROR.
//----------------------------------------------------------------------------
HRESULT VARIANTARGToCVar(VARIANT* pvarg, BOOL* pfAlloc, VARTYPE vt, void* pv, IServiceProvider* pSrvProvider, WORD wMaxstrlen)
{
    HRESULT     hr = S_OK;
    VARIANTARG* pVArgCopy = pvarg;
    VARIANTARG  vargNew; // variant of new type
    BOOL        fAlloc;

    Assert(pvarg);
    Assert(pv);

    if(!pfAlloc)
    {
        pfAlloc = &fAlloc;
    }

    Assert((vt&~VT_TYPEMASK) == 0 || (vt&~VT_TYPEMASK)==VT_BYREF);

    // Assume no allocations yet.
    *pfAlloc = FALSE;

    if(vt & VT_BYREF)
    {
        // If the parameter is a variant pointer then everything is acceptable.
        if((vt&VT_TYPEMASK) == VT_VARIANT)
        {
            switch(V_VT(pvarg))
            {
            case VT_VARIANT|VT_BYREF:
                hr = ClipVarString(pvarg->pvarVal, *(VARIANT**)pv, pfAlloc, wMaxstrlen);
                break;
            default:
                hr = ClipVarString(pvarg, *(VARIANT**)pv, pfAlloc, wMaxstrlen);
                break;
            }
            if(hr == S_FALSE)
            {
                hr = S_OK;
                *(PVOID*)pv = (PVOID)pvarg;
            }

            goto Cleanup;
        }

        if((V_VT(pvarg)&VT_TYPEMASK) != (vt&VT_TYPEMASK))
        {
            hr = DISP_E_TYPEMISMATCH;
            goto Cleanup;
        }

        // Type of both original and destination or same type (however, original
        // may not be a byref only the original.
        if(V_ISBYREF(pvarg))
        {
            // Destination and original are byref and same type just copy pointer.
            *(PVOID*)pv = V_BYREF(pvarg);
        }
        else
        {
            // Convert original to byref.
            switch(vt & VT_TYPEMASK)
            {
            case VT_BOOL:
                *(PVOID*)pv = (PVOID)&V_BOOL(pvarg);
                break;

            case VT_I2:
                *(PVOID*)pv = (PVOID)&V_I2(pvarg);
                break;

            case VT_ERROR:
            case VT_I4:
                *(PVOID*)pv = (PVOID)&V_I4(pvarg);
                break;

            case VT_R4:
                *(PVOID*)pv = (PVOID)&V_R4(pvarg);
                break;

            case VT_R8:
                *(PVOID*)pv = (PVOID)&V_R8(pvarg);
                break;

            case VT_CY:
                *(PVOID*)pv = (PVOID)&V_CY(pvarg);
                break;

                // All pointer types.
            case VT_PTR:
            case VT_BSTR:
            case VT_LPSTR:
            case VT_LPWSTR:
            case VT_DISPATCH:
            case VT_UNKNOWN:
                *(PVOID*)pv = (PVOID)&V_UNKNOWN(pvarg);
                break;

            case VT_VARIANT:
                Assert("Dead code: shudn't have gotten here!");
                *(PVOID*)pv = (PVOID)pvarg;
                break;

            default:
                Assert(!"Unknown type in BYREF VARIANTARGToCVar().\n");
                hr = DISP_E_TYPEMISMATCH;
                goto Cleanup;
            }
        }

        goto Cleanup;
    }
    // If the c style parameter is the same type as the VARIANT then we'll just
    // move the data.  Also if the c style type is a VARIANT then there's
    // nothing to convert just copy the variant to the C parameter.
    else if((V_VT(pvarg)&(VT_TYPEMASK|VT_BYREF))!=vt && (vt!=VT_VARIANT))
    {
        // If the request type isn't the same as the variant passed in then we
        // need to convert.
        VariantInit(&vargNew);
        pVArgCopy = &vargNew;

        hr = VariantChangeTypeSpecial(pVArgCopy, pvarg, vt,pSrvProvider);

        if(hr)
        {
            goto Cleanup;
        }

        *pfAlloc = (vt==VT_BSTR) || (vt==VT_UNKNOWN) || (vt==VT_DISPATCH);
    }

    // Move the variant data to C style data.
    switch(vt)
    {
    case VT_BOOL:
        // convert VT_TRUE and any other non-zero values to TRUE
        *(VARIANT_BOOL*)pv = V_BOOL(pVArgCopy);
        break;

    case VT_I2:
        *(short*)pv = V_I2(pVArgCopy);
        break;

    case VT_ERROR:
    case VT_I4:
        *(long*)pv = V_I4(pVArgCopy);
        break;

    case VT_R4:
        *(float*)pv = V_R4(pVArgCopy);
        break;

    case VT_R8:
        *(double*)pv = V_R8(pVArgCopy);
        break;

    case VT_CY:
        *(CY*)pv = V_CY(pVArgCopy);
        break;

        // All Pointer types.
    case VT_BSTR:
        if(wMaxstrlen && FormsStringLen(V_BSTR(pVArgCopy))>wMaxstrlen)
        {
            hr = FormsAllocStringLen(V_BSTR(pVArgCopy), wMaxstrlen, (BSTR*)pv);
            if(hr)
            {
                goto Cleanup;
            }

            if(*pfAlloc)
            {
                VariantClear(&vargNew);
            }
            else
            {
                *pfAlloc = TRUE;
            }

            goto Cleanup;
        }
    case VT_PTR:
    case VT_LPSTR:
    case VT_LPWSTR:
    case VT_DISPATCH:
    case VT_UNKNOWN:
        *(void**)pv = V_BYREF(pVArgCopy);
        break;

    case VT_VARIANT:
        hr = ClipVarString(pVArgCopy, (VARIANT*)pv, pfAlloc, wMaxstrlen);
        if(hr == S_FALSE)
        {
            hr = S_OK;
            // Copy entire variant to output parameter.
            *(VARIANT*)pv = *pVArgCopy;
        }

        break;

    default:
        Assert(FALSE && "Unknown type in VARIANTARGToCVar().\n");
        hr = DISP_E_TYPEMISMATCH;
        break;
    }

Cleanup:
    RRETURN(hr);
}
//This is used to set the value for an element in a group.
//The element is identified by the dwCookie parameter
STDMETHODIMP CComPolygon::SetElementValue(
	/* [in] */ DISPID dispID,
	/* [in] */ DWORD dwCookie,
	/* [in] */ VARIANT VarIn)
{
    if (dispID >= DISPID_NORMAL && dispID <= DISPID_STARTPOINT)
    {
        try
        {
            if (dwCookie>2)
                throw Acad::eInvalidInput;
            Acad::ErrorStatus es;
            AcAxObjectRefPtr<AsdkPoly> pPoly(&m_objRef,AcDb::kForWrite,Adesk::kTrue);
	        if((es=pPoly.openStatus()) != Acad::eOk)
                throw es;

            AcAxPoint3d pt;
			AcAxPoint2d pt2d;
			if (dispID == DISPID_NORMAL)
            {
                pt = pPoly->normal();
                //translate from wcs to ucs
                acdbEcs2Ucs(asDblArray(pt),asDblArray(pt),asDblArray(pPoly->normal()),Adesk::kTrue);
            } else {
			    switch (dispID)
			    {
			    case DISPID_CENTER:
				    pt2d = pPoly->center();
				    break;
			    case DISPID_STARTPOINT:
				    pt2d = pPoly->startPoint();
				    break;
			    default:
				    throw Acad::eInvalidInput;
			    }
                pt.set(pt2d.x,pt2d.y,pPoly->elevation());
                //translate from wcs to ucs
                acdbEcs2Ucs(asDblArray(pt),asDblArray(pt),asDblArray(pPoly->normal()),Adesk::kFalse);
            }
	        pt[dwCookie] = V_R8(&VarIn);

            if (dispID == DISPID_NORMAL) {
                acdbUcs2Wcs(asDblArray(pt),asDblArray(pt),Adesk::kTrue);
                if ((es=pPoly->setNormal(pt.asVector()))!=Acad::eOk)
                    throw es;    
            }else { 
                acdbUcs2Ecs(asDblArray(pt),asDblArray(pt),asDblArray(pPoly->normal()),Adesk::kFalse);
                pt2d.set(pt.x,pt.y);
                pPoly->setElevation(pt.z);
                if (dispID == DISPID_CENTER)
                    if ((es=pPoly->setCenter(pt2d))!=Acad::eOk)
                        throw es;            
                if (dispID == DISPID_STARTPOINT)
                    if ((es=pPoly->setStartPoint(pt2d))!=Acad::eOk)
                        throw es;            
            }
            Fire_Notification(dispID);
        }
        catch(const Acad::ErrorStatus)
        {
            return Error(L"Failed to open object",IID_IComPolygon,E_FAIL);
        }
        catch(const HRESULT hr)
        {
            return Error(L"Invalid argument.",IID_IComPolygon,hr);
        }

    }
	return S_OK;
}
Ejemplo n.º 28
0
static HRESULT ExtractArgument(VARIANT * pvArg, WCHAR chIdentifier, BOOL * pbFreeArg, va_list * marker)
{
	HRESULT hr = NOERROR;

	*pbFreeArg = FALSE;

	if (chIdentifier == L'T') chIdentifier = (dh_g_bIsUnicodeMode ? L'S' : L's');

	switch (chIdentifier)
	{
		case L'd':
			V_VT(pvArg)  = VT_I4;
			V_I4(pvArg)  = va_arg(*marker, LONG);
			break;

		case L'u':
			V_VT(pvArg)  = VT_UI4;
			V_UI4(pvArg) = va_arg(*marker, ULONG);
			break;

		case L'e':
			V_VT(pvArg)  = VT_R8;
			V_R8(pvArg)  = va_arg(*marker, DOUBLE);
			break;

		case L'b':
			V_VT(pvArg)   = VT_BOOL;
			V_BOOL(pvArg) = ( va_arg(*marker, BOOL) ? VARIANT_TRUE : VARIANT_FALSE );
			break;

		case L'v':
			*pvArg  = *va_arg(*marker, VARIANT *);
			break;

		case L'm':
			V_VT(pvArg)    = VT_ERROR;
			V_ERROR(pvArg) = DISP_E_PARAMNOTFOUND;
			break;

		case L'B':
			V_VT(pvArg)   = VT_BSTR;
			V_BSTR(pvArg) = va_arg(*marker, BSTR);
			break;

		case L'S':
		{
			LPOLESTR szTemp = va_arg(*marker, LPOLESTR);

			V_VT(pvArg)   = VT_BSTR;
			V_BSTR(pvArg) = SysAllocString(szTemp);

			if (V_BSTR(pvArg) == NULL && szTemp != NULL) hr = E_OUTOFMEMORY;

			*pbFreeArg = TRUE;
			break;
		}

		case L's':
			V_VT(pvArg) = VT_BSTR;
			hr = ConvertAnsiStrToBStr(va_arg(*marker, LPSTR), &V_BSTR(pvArg));
			*pbFreeArg = TRUE;
			break;

		case L'o':
			V_VT(pvArg)       = VT_DISPATCH;
			V_DISPATCH(pvArg) = va_arg(*marker, IDispatch *);
			break;

		case L'O':
			V_VT(pvArg)      = VT_UNKNOWN;
			V_UNKNOWN(pvArg) = va_arg(*marker, IUnknown *);
			break;

		case L'D':
			V_VT(pvArg)   = VT_DATE;
			V_DATE(pvArg) = va_arg(*marker, DATE);
			break;

		case L't':
			V_VT(pvArg) = VT_DATE;
			hr = ConvertTimeTToVariantTime(va_arg(*marker, time_t), &V_DATE(pvArg));
			break;

		case L'W':
			V_VT(pvArg) = VT_DATE;
			hr = ConvertSystemTimeToVariantTime(va_arg(*marker, SYSTEMTIME *), &V_DATE(pvArg));
			break;

		case L'f':
			V_VT(pvArg) = VT_DATE;
			hr = ConvertFileTimeToVariantTime(va_arg(*marker, FILETIME *), &V_DATE(pvArg));
			break;

		case L'p':
#ifndef _WIN64
			V_VT(pvArg) = VT_I4;
			V_I4(pvArg) = (LONG) va_arg(*marker, LPVOID);
#else
			V_VT(pvArg) = VT_I8;
			V_I8(pvArg) = (LONGLONG) va_arg(*marker, LPVOID);
#endif
			break;

		default:
			hr = E_INVALIDARG;
			DEBUG_NOTIFY_INVALID_IDENTIFIER(chIdentifier);
			break;
	}

	return hr;
}
Ejemplo n.º 29
0
static void
ole_set_byref(VARIANT *realvar, VARIANT *var,  VARTYPE vt)
{
    V_VT(var) = vt;
    if (vt == (VT_VARIANT|VT_BYREF)) {
        V_VARIANTREF(var) = realvar;
    } else {
        if (V_VT(realvar) != (vt & ~VT_BYREF)) {
            rb_raise(eWIN32OLERuntimeError, "variant type mismatch");
        }
        switch(vt & ~VT_BYREF) {
        case VT_I1:
            V_I1REF(var) = &V_I1(realvar);
            break;
        case VT_UI1:
            V_UI1REF(var) = &V_UI1(realvar);
            break;
        case VT_I2:
            V_I2REF(var) = &V_I2(realvar);
            break;
        case VT_UI2:
            V_UI2REF(var) = &V_UI2(realvar);
            break;
        case VT_I4:
            V_I4REF(var) = &V_I4(realvar);
            break;
        case VT_UI4:
            V_UI4REF(var) = &V_UI4(realvar);
            break;
        case VT_R4:
            V_R4REF(var) = &V_R4(realvar);
            break;
        case VT_R8:
            V_R8REF(var) = &V_R8(realvar);
            break;

#if (_MSC_VER >= 1300) || defined(__CYGWIN__) || defined(__MINGW32__)
#ifdef V_I8REF
        case VT_I8:
            V_I8REF(var) = &V_I8(realvar);
            break;
#endif
#ifdef V_UI8REF
        case VT_UI8:
            V_UI8REF(var) = &V_UI8(realvar);
            break;
#endif
#endif
        case VT_INT:
            V_INTREF(var) = &V_INT(realvar);
            break;

        case VT_UINT:
            V_UINTREF(var) = &V_UINT(realvar);
            break;

        case VT_CY:
            V_CYREF(var) = &V_CY(realvar);
            break;
        case VT_DATE:
            V_DATEREF(var) = &V_DATE(realvar);
            break;
        case VT_BSTR:
            V_BSTRREF(var) = &V_BSTR(realvar);
            break;
        case VT_DISPATCH:
            V_DISPATCHREF(var) = &V_DISPATCH(realvar);
            break;
        case VT_ERROR:
            V_ERRORREF(var) = &V_ERROR(realvar);
            break;
        case VT_BOOL:
            V_BOOLREF(var) = &V_BOOL(realvar);
            break;
        case VT_UNKNOWN:
            V_UNKNOWNREF(var) = &V_UNKNOWN(realvar);
            break;
        case VT_ARRAY:
            V_ARRAYREF(var) = &V_ARRAY(realvar);
            break;
        default:
            rb_raise(eWIN32OLERuntimeError, "unknown type specified(setting BYREF):%d", vt);
            break;
        }
    }
}
Ejemplo n.º 30
0
void EventProxy::convertJavaVariant(VARIANT *java, VARIANT *com) {

	  switch (com->vt)
	  {	  
		case VT_DISPATCH:
		{
			switch (java->vt)
			{
				case VT_DISPATCH:
				{
					V_DISPATCH(com) = V_DISPATCH(java);
					break;
				}

				case VT_DISPATCH | VT_BYREF:
				{
					V_DISPATCH(com) = *V_DISPATCHREF(java);
					break;
				}
			}
			break;
		}

		case VT_DISPATCH | VT_BYREF:
		{
			switch (java->vt)
			{
				case VT_DISPATCH:
				{
					*V_DISPATCHREF(com) = V_DISPATCH(java);
					break;
				}

				case VT_DISPATCH | VT_BYREF:
				{
					*V_DISPATCHREF(com) = *V_DISPATCHREF(java);
					break;
				}
			}
			break;
		}

		case VT_BOOL:
		{
			switch (java->vt)
			{
				case VT_BOOL:
				{
					V_BOOL(com) = V_BOOL(java);
					break;
				}

				case VT_BOOL | VT_BYREF:
				{
					V_BOOL(com) = *V_BOOLREF(java);
					break;
				}
			}
			break;
		}

		case VT_BOOL | VT_BYREF:
		{
			switch (java->vt)
			{
				case VT_BOOL:
				{
					*V_BOOLREF(com) = V_BOOL(java);
					break;
				}

				case VT_BOOL | VT_BYREF:
				{
					*V_BOOLREF(com) = *V_BOOLREF(java);
					break;
				}
			}
			break;
		}

		case VT_UI1:
		{
			switch (java->vt)
			{
				case VT_UI1:
				{
					V_UI1(com) = V_UI1(java);
					break;
				}

				case VT_UI1 | VT_BYREF:
				{
					V_UI1(com) = *V_UI1REF(java);
					break;
				}
			}
			break;
		}

		case VT_UI1 | VT_BYREF:
		{
			switch (java->vt)
			{
				case VT_UI1:
				{
					*V_UI1REF(com) = V_UI1(java);
					break;
				}

				case VT_UI1 | VT_BYREF:
				{
					*V_UI1REF(com) = *V_UI1REF(java);
					break;
				}
			}
			break;
		}


		case VT_I2:
		{
			switch (java->vt)
			{
				case VT_I2:
				{
					V_I2(com) = V_I2(java);
					break;
				}

				case VT_I2 | VT_BYREF:
				{
					V_I2(com) = *V_I2REF(java);
					break;
				}
			}
			break;
		}

		case VT_I2 | VT_BYREF:
		{
			switch (java->vt)
			{
				case VT_I2:
				{
					*V_I2REF(com) = V_I2(java);
					break;
				}

				case VT_I2 | VT_BYREF:
				{
					*V_I2REF(com) = *V_I2REF(java);
					break;
				}
			}
			break;
		}

		case VT_I4:
		{
			switch (java->vt)
			{
				case VT_I4:
				{
					V_I4(com) = V_I4(java);
					break;
				}

				case VT_I4 | VT_BYREF:
				{
					V_I4(com) = *V_I4REF(java);
					break;
				}
			}
			break;
		}

		case VT_I4 | VT_BYREF:
		{
			switch (java->vt)
			{
				case VT_I4:
				{
					*V_I4REF(com) = V_I4(java);
					break;
				}

				case VT_I4 | VT_BYREF:
				{
					*V_I4REF(com) = *V_I4REF(java);
					break;
				}
			}
			break;
		}

		case VT_R4:
		{
			switch (java->vt)
			{
				case VT_R4:
				{
					V_R4(com) = V_R4(java);
					break;
				}

				case VT_R4 | VT_BYREF:
				{
					V_R4(com) = *V_R4REF(java);
					break;
				}
			}
			break;
		}

		case VT_R4 | VT_BYREF:
		{
			switch (java->vt)
			{
				case VT_R4:
				{
					*V_R4REF(com) = V_R4(java);
					break;
				}

				case VT_R4 | VT_BYREF:
				{
					*V_R4REF(com) = *V_R4REF(java);
					break;
				}
			}
			break;
		}

		case VT_R8:
		{
			switch (java->vt)
			{
				case VT_R8:
				{
					V_R8(com) = V_R8(java);
					break;
				}

				case VT_R8 | VT_BYREF:
				{
					V_R8(com) = *V_R8REF(java);
					break;
				}
			}
			break;
		}

		case VT_R8 | VT_BYREF:
		{
			switch (java->vt)
			{
				case VT_R8:
				{
					*V_R8REF(com) = V_R8(java);
					break;
				}

				case VT_R8 | VT_BYREF:
				{
					*V_R8REF(com) = *V_R8REF(java);
					break;
				}
			}
			break;
		}

				case VT_I1:
		{
			switch (java->vt)
			{
				case VT_I1:
				{
					V_I1(com) = V_I1(java);
					break;
				}

				case VT_I1 | VT_BYREF:
				{
					V_I1(com) = *V_I1REF(java);
					break;
				}
			}
			break;
		}

		case VT_I1 | VT_BYREF:
		{
			switch (java->vt)
			{
				case VT_I1:
				{
					*V_I1REF(com) = V_I1(java);
					break;
				}

				case VT_I1 | VT_BYREF:
				{
					*V_I1REF(com) = *V_I1REF(java);
					break;
				}
			}
			break;
		}

				case VT_UI2:
		{
			switch (java->vt)
			{
				case VT_UI2:
				{
					V_UI2(com) = V_UI2(java);
					break;
				}

				case VT_UI2 | VT_BYREF:
				{
					V_UI2(com) = *V_UI2REF(java);
					break;
				}
			}
			break;
		}

		case VT_UI2 | VT_BYREF:
		{
			switch (java->vt)
			{
				case VT_UI2:
				{
					*V_UI2REF(com) = V_UI2(java);
					break;
				}

				case VT_UI2 | VT_BYREF:
				{
					*V_UI2REF(com) = *V_UI2REF(java);
					break;
				}
			}
			break;
		}

				case VT_UI4:
		{
			switch (java->vt)
			{
				case VT_UI4:
				{
					V_UI4(com) = V_UI4(java);
					break;
				}

				case VT_UI4 | VT_BYREF:
				{
					V_UI4(com) = *V_UI4REF(java);
					break;
				}
			}
			break;
		}

		case VT_UI4 | VT_BYREF:
		{
			switch (java->vt)
			{
				case VT_UI4:
				{
					*V_UI4REF(com) = V_UI4(java);
					break;
				}

				case VT_UI4 | VT_BYREF:
				{
					*V_UI4REF(com) = *V_UI4REF(java);
					break;
				}
			}
			break;
		}

				case VT_INT:
		{
			switch (java->vt)
			{
				case VT_INT:
				{
					V_INT(com) = V_INT(java);
					break;
				}

				case VT_INT | VT_BYREF:
				{
					V_INT(com) = *V_INTREF(java);
					break;
				}
			}
			break;
		}

		case VT_INT | VT_BYREF:
		{
			switch (java->vt)
			{
				case VT_INT:
				{
					*V_INTREF(com) = V_INT(java);
					break;
				}

				case VT_INT | VT_BYREF:
				{
					*V_INTREF(com) = *V_INTREF(java);
					break;
				}
			}
			break;
		}

				case VT_UINT:
		{
			switch (java->vt)
			{
				case VT_UINT:
				{
					V_UINT(com) = V_UINT(java);
					break;
				}

				case VT_UINT | VT_BYREF:
				{
					V_UINT(com) = *V_UINTREF(java);
					break;
				}
			}
			break;
		}

		case VT_UINT | VT_BYREF:
		{
			switch (java->vt)
			{
				case VT_UINT:
				{
					*V_UINTREF(com) = V_UINT(java);
					break;
				}

				case VT_UINT | VT_BYREF:
				{
					*V_UINTREF(com) = *V_UINTREF(java);
					break;
				}
			}
			break;
		}

				case VT_CY:
		{
			switch (java->vt)
			{
				case VT_CY:
				{
					V_CY(com) = V_CY(java);
					break;
				}

				case VT_CY | VT_BYREF:
				{
					V_CY(com) = *V_CYREF(java);
					break;
				}
			}
			break;
		}

		case VT_CY | VT_BYREF:
		{
			switch (java->vt)
			{
				case VT_CY:
				{
					*V_CYREF(com) = V_CY(java);
					break;
				}

				case VT_CY | VT_BYREF:
				{
					*V_CYREF(com) = *V_CYREF(java);
					break;
				}
			}
			break;
		}

				case VT_DATE:
		{
			switch (java->vt)
			{
				case VT_DATE:
				{
					V_DATE(com) = V_DATE(java);
					break;
				}

				case VT_DATE | VT_BYREF:
				{
					V_DATE(com) = *V_DATEREF(java);
					break;
				}
			}
			break;
		}

		case VT_DATE | VT_BYREF:
		{
			switch (java->vt)
			{
				case VT_DATE:
				{
					*V_DATEREF(com) = V_DATE(java);
					break;
				}

				case VT_DATE | VT_BYREF:
				{
					*V_DATEREF(com) = *V_DATEREF(java);
					break;
				}
			}
			break;
		}

				case VT_BSTR:
		{
			switch (java->vt)
			{
				case VT_BSTR:
				{
					V_BSTR(com) = V_BSTR(java);
					break;
				}

				case VT_BSTR | VT_BYREF:
				{
					V_BSTR(com) = *V_BSTRREF(java);
					break;
				}
			}
			break;
		}

		case VT_BSTR | VT_BYREF:
		{
			switch (java->vt)
			{
				case VT_BSTR:
				{
					*V_BSTRREF(com) = V_BSTR(java);
					break;
				}

				case VT_BSTR | VT_BYREF:
				{
					*V_BSTRREF(com) = *V_BSTRREF(java);
					break;
				}
			}
			break;
		}

				case VT_DECIMAL:
		{
			switch (java->vt)
			{
				case VT_DECIMAL:
				{
					V_DECIMAL(com) = V_DECIMAL(java);
					break;
				}

				case VT_DECIMAL | VT_BYREF:
				{
					V_DECIMAL(com) = *V_DECIMALREF(java);
					break;
				}
			}
			break;
		}

		case VT_DECIMAL | VT_BYREF:
		{
			switch (java->vt)
			{
				case VT_DECIMAL:
				{
					*V_DECIMALREF(com) = V_DECIMAL(java);
					break;
				}

				case VT_DECIMAL | VT_BYREF:
				{
					*V_DECIMALREF(com) = *V_DECIMALREF(java);
					break;
				}
			}
			break;
		}


    }
}