class WIN32OLE::Variant
Constants
- Empty
represents VT_EMPTY OLE object.
- NoParam
represents VT_ERROR variant with DISP_E_PARAMNOTFOUND. This constants is used for not specified parameter.
fso = WIN32OLE.new("Scripting.FileSystemObject") fso.openTextFile(filename, WIN32OLE_VARIANT::NoParam, false)
- Nothing
represents
Nothing
of VB.NET or VB.- Null
represents VT_NULL OLE object.
Public Class Methods
Returns Ruby object wrapping OLE variant whose variant type is VT_ARRAY. The first argument should be Array object which specifies dimensions and each size of dimensions of OLE array. The second argument specifies variant type of the element of OLE array.
The following create 2 dimensions OLE array. The first dimensions size is 3, and the second is 4.
ole_ary = WIN32OLE_VARIANT.array([3,4], VT_I4) ruby_ary = ole_ary.value # => [[0, 0, 0, 0], [0, 0, 0, 0], [0, 0, 0, 0]]
static VALUE folevariant_s_array(VALUE klass, VALUE elems, VALUE vvt) { VALUE obj = Qnil; VARTYPE vt; struct olevariantdata *pvar; SAFEARRAYBOUND *psab = NULL; SAFEARRAY *psa = NULL; UINT dim = 0; UINT i = 0; ole_initialize(); vt = RB_NUM2UINT(vvt); vt = (vt | VT_ARRAY); Check_Type(elems, T_ARRAY); obj = folevariant_s_allocate(klass); TypedData_Get_Struct(obj, struct olevariantdata, &olevariant_datatype, pvar); dim = RARRAY_LEN(elems); psab = ALLOC_N(SAFEARRAYBOUND, dim); if(!psab) { rb_raise(rb_eRuntimeError, "memory allocation error"); } for (i = 0; i < dim; i++) { psab[i].cElements = RB_FIX2INT(rb_ary_entry(elems, i)); psab[i].lLbound = 0; } psa = SafeArrayCreate((VARTYPE)(vt & VT_TYPEMASK), dim, psab); if (psa == NULL) { if (psab) free(psab); rb_raise(rb_eRuntimeError, "memory allocation error(SafeArrayCreate)"); } V_VT(&(pvar->var)) = vt; if (vt & VT_BYREF) { V_VT(&(pvar->realvar)) = (vt & ~VT_BYREF); V_ARRAY(&(pvar->realvar)) = psa; V_ARRAYREF(&(pvar->var)) = &(V_ARRAY(&(pvar->realvar))); } else { V_ARRAY(&(pvar->var)) = psa; } if (psab) free(psab); return obj; }
Returns Ruby object wrapping OLE variant. The first argument specifies Ruby object to convert OLE variant variable. The second argument specifies VARIANT
type. In some situation, you need the WIN32OLE_VARIANT object to pass OLE method
shell = WIN32OLE.new("Shell.Application") folder = shell.NameSpace("C:\\Windows") item = folder.ParseName("tmp.txt") # You can't use Ruby String object to call FolderItem.InvokeVerb. # Instead, you have to use WIN32OLE_VARIANT object to call the method. shortcut = WIN32OLE_VARIANT.new("Create Shortcut(\&S)") item.invokeVerb(shortcut)
static VALUE folevariant_initialize(VALUE self, VALUE args) { int len = 0; VARIANT var; VALUE val; VALUE vvt; VARTYPE vt; struct olevariantdata *pvar; len = RARRAY_LEN(args); rb_check_arity(len, 1, 3); VariantInit(&var); val = rb_ary_entry(args, 0); check_type_val2variant(val); TypedData_Get_Struct(self, struct olevariantdata, &olevariant_datatype, pvar); if (len == 1) { ole_val2variant(val, &(pvar->var)); } else { vvt = rb_ary_entry(args, 1); vt = RB_NUM2INT(vvt); if ((vt & VT_TYPEMASK) == VT_RECORD) { rb_raise(rb_eArgError, "not supported VT_RECORD WIN32OLE_VARIANT object"); } ole_val2olevariantdata(val, vt, pvar); } return self; }
Public Instance Methods
Returns the element of WIN32OLE_VARIANT object(OLE array). This method is available only when the variant type of WIN32OLE_VARIANT object is VT_ARRAY.
REMARK:
The all indices should be 0 or natural number and lower than or equal to max indices. (This point is different with Ruby Array indices.) obj = WIN32OLE_VARIANT.new([[1,2,3],[4,5,6]]) p obj[0,0] # => 1 p obj[1,0] # => 4 p obj[2,0] # => WIN32OLERuntimeError p obj[0, -1] # => WIN32OLERuntimeError
static VALUE folevariant_ary_aref(int argc, VALUE *argv, VALUE self) { struct olevariantdata *pvar; SAFEARRAY *psa; VALUE val = Qnil; VARIANT variant; LONG *pid; HRESULT hr; TypedData_Get_Struct(self, struct olevariantdata, &olevariant_datatype, pvar); if (!V_ISARRAY(&(pvar->var))) { rb_raise(eWIN32OLERuntimeError, "`[]' is not available for this variant type object"); } psa = get_locked_safe_array(self); if (psa == NULL) { return val; } pid = ary2safe_array_index(argc, argv, psa); VariantInit(&variant); V_VT(&variant) = (V_VT(&(pvar->var)) & ~VT_ARRAY) | VT_BYREF; hr = SafeArrayPtrOfIndex(psa, pid, &V_BYREF(&variant)); if (FAILED(hr)) { ole_raise(hr, eWIN32OLERuntimeError, "failed to SafeArrayPtrOfIndex"); } val = ole_variant2val(&variant); unlock_safe_array(psa); if (pid) free(pid); return val; }
Set the element of WIN32OLE_VARIANT object(OLE array) to val. This method is available only when the variant type of WIN32OLE_VARIANT object is VT_ARRAY.
REMARK:
The all indices should be 0 or natural number and lower than or equal to max indices. (This point is different with Ruby Array indices.) obj = WIN32OLE_VARIANT.new([[1,2,3],[4,5,6]]) obj[0,0] = 7 obj[1,0] = 8 p obj.value # => [[7,2,3], [8,5,6]] obj[2,0] = 9 # => WIN32OLERuntimeError obj[0, -1] = 9 # => WIN32OLERuntimeError
static VALUE folevariant_ary_aset(int argc, VALUE *argv, VALUE self) { struct olevariantdata *pvar; SAFEARRAY *psa; VARIANT var; VARTYPE vt; LONG *pid; HRESULT hr; VOID *p = NULL; TypedData_Get_Struct(self, struct olevariantdata, &olevariant_datatype, pvar); if (!V_ISARRAY(&(pvar->var))) { rb_raise(eWIN32OLERuntimeError, "`[]' is not available for this variant type object"); } psa = get_locked_safe_array(self); if (psa == NULL) { rb_raise(rb_eRuntimeError, "failed to get SafeArray pointer"); } pid = ary2safe_array_index(argc-1, argv, psa); VariantInit(&var); vt = (V_VT(&(pvar->var)) & ~VT_ARRAY); p = val2variant_ptr(argv[argc-1], &var, vt); if ((V_VT(&var) == VT_DISPATCH && V_DISPATCH(&var) == NULL) || (V_VT(&var) == VT_UNKNOWN && V_UNKNOWN(&var) == NULL)) { rb_raise(eWIN32OLERuntimeError, "argument does not have IDispatch or IUnknown Interface"); } hr = SafeArrayPutElement(psa, pid, p); if (FAILED(hr)) { ole_raise(hr, eWIN32OLERuntimeError, "failed to SafeArrayPutElement"); } unlock_safe_array(psa); if (pid) free(pid); return argv[argc-1]; }
Returns Ruby object value from OLE variant.
obj = WIN32OLE_VARIANT.new(1, WIN32OLE::VARIANT::VT_BSTR) obj.value # => "1" (not Integer object, but String object "1")
static VALUE folevariant_value(VALUE self) { struct olevariantdata *pvar; VALUE val = Qnil; VARTYPE vt; int dim; SAFEARRAY *psa; TypedData_Get_Struct(self, struct olevariantdata, &olevariant_datatype, pvar); val = ole_variant2val(&(pvar->var)); vt = V_VT(&(pvar->var)); if ((vt & ~VT_BYREF) == (VT_UI1|VT_ARRAY)) { if (vt & VT_BYREF) { psa = *V_ARRAYREF(&(pvar->var)); } else { psa = V_ARRAY(&(pvar->var)); } if (!psa) { return val; } dim = SafeArrayGetDim(psa); if (dim == 1) { val = rb_funcall(val, rb_intern("pack"), 1, rb_str_new2("C*")); } } return val; }
Sets variant value to val. If the val type does not match variant value type(vartype), then val is changed to match variant value type(vartype) before setting val. This method is not available when vartype is VT_ARRAY(except VT_UI1|VT_ARRAY). If the vartype is VT_UI1|VT_ARRAY, the val should be String object.
obj = WIN32OLE_VARIANT.new(1) # obj.vartype is WIN32OLE::VARIANT::VT_I4 obj.value = 3.2 # 3.2 is changed to 3 when setting value. p obj.value # => 3
static VALUE folevariant_set_value(VALUE self, VALUE val) { struct olevariantdata *pvar; VARTYPE vt; TypedData_Get_Struct(self, struct olevariantdata, &olevariant_datatype, pvar); vt = V_VT(&(pvar->var)); if (V_ISARRAY(&(pvar->var)) && ((vt & ~VT_BYREF) != (VT_UI1|VT_ARRAY) || !RB_TYPE_P(val, T_STRING))) { rb_raise(eWIN32OLERuntimeError, "`value=' is not available for this variant type object"); } ole_val2olevariantdata(val, vt, pvar); return Qnil; }
Returns OLE variant type.
obj = WIN32OLE_VARIANT.new("string") obj.vartype # => WIN32OLE::VARIANT::VT_BSTR
static VALUE folevariant_vartype(VALUE self) { struct olevariantdata *pvar; TypedData_Get_Struct(self, struct olevariantdata, &olevariant_datatype, pvar); return RB_INT2FIX(V_VT(&pvar->var)); }