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ruby--ruby/test/win32ole/test_win32ole.rb

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#
begin
require 'win32ole'
rescue LoadError
end
require 'test/unit'
if defined?(WIN32OLE)
module CONST1
end
module CONST2
end
module TestCaseForDict
def test_convert_bignum
@dict1.add("a", 9999999999)
@dict1.add("b", 999999999)
@dict1.add("c", @dict1.item("b") * 10 + 9)
assert_equal(9999999999, @dict1.item("a"))
assert_equal(9999999999, @dict1.item("c"))
end
def test_add
@dict1.add("a", 1000)
assert_equal(1000, @dict1.item("a"))
end
def test_setproperty_equal_ended
@dict1.compareMode = 1
@dict1.add("one", 1)
assert_equal(1, @dict1.item("ONE"))
@dict2.add("one", 1)
assert_nil(@dict2.item("ONE"))
assert_equal(1, @dict2.item("one"))
end
def test_non_exist_property
assert_raise(WIN32OLERuntimeError) {
@dict1.unknown_property = 1
}
end
def test_raise_message
exc = assert_raise(WIN32OLERuntimeError) {
@dict1.add
}
assert_match(/^\(in OLE method `add': \)/, exc.message) #`
exc = assert_raise(WIN32OLERuntimeError) {
@dict1._invoke(1, [], [])
}
assert_match(/^\(in OLE method `<dispatch id:1>': \)/, exc.message) #`
exc = assert_raise(WIN32OLERuntimeError) {
@dict1.compareMode = -1
}
assert_match(/^\(in setting property `compareMode': \)/, exc.message) #`
end
def test_no_method_error
exc = assert_raise(NoMethodError) {
@dict1.non_exist_method
}
assert_match(/non_exist_method/, exc.message)
end
def test_ole_methods
methods = @dict1.ole_methods
mnames = methods.collect {|m|
m.name
}
assert(mnames.include?("Add"))
end
def test_ole_func_methods
methods = @dict1.ole_func_methods
mnames = methods.collect {|m|
m.name
}
assert(mnames.include?("Add"))
end
def test_ole_put_methods
methods = @dict1.ole_put_methods
mnames = methods.collect {|m|
m.name
}
assert(mnames.include?("CompareMode"))
end
def test_ole_get_methods
methods = @dict1.ole_get_methods
mnames = methods.collect {|m|
m.name
}
assert(mnames.include?("Count"))
end
def test_ole_mehtod_help
minfo = @dict1.ole_method_help("Add")
assert_equal(2, minfo.size_params)
end
def test_ole_typelib
tlib = @dict1.ole_typelib
assert_equal("Microsoft Scripting Runtime", tlib.name);
end
def test_each
@dict1.add("one", 1)
@dict1.add("two", 2)
i = 0
@dict1.keys.each do |item|
i += 1
end
assert_equal(2, i)
end
def test_bracket
@dict1.add("foo", "FOO")
assert_equal("FOO", @dict1.item("foo"))
assert_equal("FOO", @dict1["foo"])
end
def test_bracket_equal
@dict1.add("foo", "FOO")
@dict1["foo"] = "BAR"
assert_equal("BAR", @dict1["foo"])
end
def test_bracket_with_numkey
@dict1.add(1, "ONE")
@dict1.add(2, "two")
assert_equal("ONE", @dict1[1])
@dict1[2] = "TWO"
assert_equal("TWO", @dict1[2])
end
def test_invoke_with_array
@dict1.add("ary1", [1,2,3])
assert_equal([1,2,3], @dict1["ary1"])
@dict1.add("ary2", [[1,2,"a"], [3,4,"b"]])
assert_equal([[1,2,"a"], [3,4,"b"]], @dict1["ary2"])
@dict1.add("ary3", [[[1]]])
assert_equal([[[1]]], @dict1["ary3"])
@dict1.add("ary4", [[[1], [2], [3]], [[4], [5], [6]]])
assert_equal([[[1],[2], [3]], [[4], [5], [6]]], @dict1["ary4"])
end
end
class TestWin32OLE < Test::Unit::TestCase
include TestCaseForDict
def setup
@dict1 = WIN32OLE.new('Scripting.Dictionary')
@dict2 = WIN32OLE.new('Scripting.Dictionary')
end
def test_s_new
assert_instance_of(WIN32OLE, @dict1)
assert_instance_of(WIN32OLE, @dict2)
end
def test_s_new_exc
assert_raise(TypeError) {
WIN32OLE.new(1)
}
assert_raise(TypeError) {
WIN32OLE.new("Scripting.Dictionary", 1)
}
end
def test_s_new_DCOM
rshell = WIN32OLE.new("Shell.Application")
assert_instance_of(WIN32OLE, rshell)
end
def test_s_new_from_clsid
shell = WIN32OLE.new("{13709620-C279-11CE-A49E-444553540000}")
assert_instance_of(WIN32OLE, shell)
exc = assert_raise(WIN32OLERuntimeError) {
WIN32OLE.new("{000}")
}
assert_match(/unknown OLE server: `\{000\}'/, exc.message) #`
end
def test_s_connect
obj = WIN32OLE.connect("winmgmts:")
assert_instance_of(WIN32OLE, obj)
end
def test_s_connect_exc
assert_raise(TypeError) {
WIN32OLE.connect(1)
}
end
def test_invoke_accept_symbol_hash_key
fso = WIN32OLE.new('Scripting.FileSystemObject')
afolder = fso.getFolder(".")
bfolder = fso.getFolder({"FolderPath" => "."})
cfolder = fso.getFolder({:FolderPath => "."})
assert_equal(afolder.path, bfolder.path)
assert_equal(afolder.path, cfolder.path)
fso = nil
end
def test_setproperty
installer = WIN32OLE.new("WindowsInstaller.Installer")
record = installer.CreateRecord(2)
# this is the way to set property with argument in Win32OLE.
record.setproperty( "StringData", 1, 'dddd')
assert_equal('dddd', record.StringData(1))
end
def test_ole_type
fso = WIN32OLE.new('Scripting.FileSystemObject')
tobj = fso.ole_type
assert_match(/^IFileSystem/, tobj.name)
end
def test_ole_obj_help
fso = WIN32OLE.new('Scripting.FileSystemObject')
tobj = fso.ole_obj_help
assert_match(/^IFileSystem/, tobj.name)
end
def test_invoke_hash_key_non_str_sym
fso = WIN32OLE.new('Scripting.FileSystemObject')
begin
bfolder = fso.getFolder({1 => "."})
assert(false)
rescue TypeError
assert(true)
end
fso = nil
end
def test_get_win32ole_object
shell = WIN32OLE.new('Shell.Application')
folder = shell.nameSpace(0)
assert_instance_of(WIN32OLE, folder)
end
def test_invoke_accept_multi_hash_key
shell = WIN32OLE.new('Shell.Application')
folder = shell.nameSpace(0)
item = folder.items.item(0)
name = folder.getDetailsOf(item, 0)
assert_equal(item.name, name)
name = folder.getDetailsOf({:vItem => item, :iColumn => 0})
assert_equal(item.name, name)
name = folder.getDetailsOf({"vItem" => item, :iColumn => 0})
assert_equal(item.name, name)
end
def test_ole_invoke_with_named_arg_last
shell = WIN32OLE.new('Shell.Application')
folder = shell.nameSpace(0)
item = folder.items.item(0)
name = folder.getDetailsOf(item, {:iColumn => 0})
assert_equal(item.name, name)
end
def test__invoke
shell=WIN32OLE.new('Shell.Application')
assert_equal(shell.NameSpace(0).title, shell._invoke(0x60020002, [0], [WIN32OLE::VARIANT::VT_VARIANT]).title)
end
def test_ole_query_interface
shell=WIN32OLE.new('Shell.Application')
assert_raise(ArgumentError) {
shell2 = shell.ole_query_interface
}
shell2 = shell.ole_query_interface('{A4C6892C-3BA9-11D2-9DEA-00C04FB16162}')
assert_instance_of(WIN32OLE, shell2)
end
def test_ole_respond_to
fso = WIN32OLE.new('Scripting.FileSystemObject')
assert(fso.ole_respond_to?('getFolder'))
assert(fso.ole_respond_to?('GETFOLDER'))
assert(fso.ole_respond_to?(:getFolder))
assert(!fso.ole_respond_to?('XXXXX'))
assert_raise(TypeError) {
assert_raise(fso.ole_respond_to?(1))
}
end
def test_invoke
fso = WIN32OLE.new('Scripting.FileSystemObject')
assert(fso.invoke(:getFolder, "."))
assert(fso.invoke('getFolder', "."))
end
def test_s_const_load
assert(!defined?(CONST1::SsfWINDOWS))
shell=WIN32OLE.new('Shell.Application')
WIN32OLE.const_load(shell, CONST1)
assert_equal(36, CONST1::SsfWINDOWS)
assert(!defined?(CONST2::SsfWINDOWS))
WIN32OLE.const_load("Microsoft Shell Controls And Automation", CONST2)
assert_equal(36, CONST2::SsfWINDOWS)
end
def test_s_create_guid
guid = WIN32OLE.create_guid
assert_match(/^\{[A-Z0-9]{8}\-[A-Z0-9]{4}\-[A-Z0-9]{4}\-[A-Z0-9]{4}\-[A-Z0-9]{12}/,
guid)
end
#
# WIN32OLE.codepage is initialized according to Encoding.default_external.
#
# def test_s_codepage
# assert_equal(WIN32OLE::CP_ACP, WIN32OLE.codepage)
# end
def test_s_codepage_set
cp = WIN32OLE.codepage
WIN32OLE.codepage = WIN32OLE::CP_UTF8
assert_equal(WIN32OLE::CP_UTF8, WIN32OLE.codepage)
WIN32OLE.codepage = cp
end
def test_s_codepage_changed
cp = WIN32OLE.codepage
fso = WIN32OLE.new("Scripting.FileSystemObject")
fname = fso.getTempName
begin
obj = WIN32OLE_VARIANT.new([0x3042].pack("U*").force_encoding("UTF-8"))
WIN32OLE.codepage = WIN32OLE::CP_UTF8
assert_equal("\xE3\x81\x82".force_encoding("CP65001"), obj.value)
begin
WIN32OLE.codepage = 932 # Windows-31J
rescue WIN32OLERuntimeError
end
if (WIN32OLE.codepage == 932)
assert_equal("\x82\xA0".force_encoding("CP932"), obj.value)
end
begin
WIN32OLE.codepage = 20932 # MS EUC-JP
rescue WIN32OLERuntimeError
end
if (WIN32OLE.codepage == 20932)
assert_equal("\xA4\xA2".force_encoding("CP20932"), obj.value)
end
WIN32OLE.codepage = cp
file = fso.opentextfile(fname, 2, true)
test_str = [0x3042].pack("U*").encode("UTF-16LE")
begin
file.write test_str.force_encoding("UTF-16")
ensure
file.close
end
str = ""
open(fname, "r:ascii-8bit") {|ifs|
str = ifs.read
}
assert_equal(test_str.force_encoding("ascii-8bit"), str)
# This test fail if codepage 20932 (euc) is not installed.
begin
WIN32OLE.codepage = 20932
rescue WIN32OLERuntimeError
end
if (WIN32OLE.codepage == 20932)
WIN32OLE.codepage = cp
file = fso.opentextfile(fname, 2, true)
begin
file.write [164, 162].pack("c*").force_encoding("UTF-16")
ensure
file.close
end
open(fname, "r:ascii-8bit") {|ifs|
str = ifs.read
}
assert_equal("\244\242", str)
end
ensure
WIN32OLE.codepage = cp
if (File.exist?(fname))
File.unlink(fname)
end
end
end
def test_cp51932
cp = WIN32OLE.codepage
begin
obj = WIN32OLE_VARIANT.new([0x3042].pack("U*").force_encoding("UTF-8"))
begin
WIN32OLE.codepage = 51932
rescue
end
if WIN32OLE.codepage == 51932
assert_equal("\xA4\xA2".force_encoding("CP51932"), obj.value)
end
ensure
WIN32OLE.codepage = cp
end
end
def test_s_locale
assert_equal(WIN32OLE::LOCALE_SYSTEM_DEFAULT, WIN32OLE.locale)
end
def test_s_locale_set
begin
begin
WIN32OLE.locale = 1041
rescue WIN32OLERuntimeError
STDERR.puts("\n#{__FILE__}:#{__LINE__}:#{self.class.name}.test_s_locale_set is skipped(Japanese locale is not installed)")
return
end
assert_equal(1041, WIN32OLE.locale)
WIN32OLE.locale = WIN32OLE::LOCALE_SYSTEM_DEFAULT
assert_raise(WIN32OLERuntimeError) {
WIN32OLE.locale = 111
}
assert_equal(WIN32OLE::LOCALE_SYSTEM_DEFAULT, WIN32OLE.locale)
ensure
WIN32OLE.locale = WIN32OLE::LOCALE_SYSTEM_DEFAULT
end
end
def test_s_locale_change
begin
begin
WIN32OLE.locale = 0x0411
rescue WIN32OLERuntimeError
end
if WIN32OLE.locale == 0x0411
obj = WIN32OLE_VARIANT.new("\\100,000", WIN32OLE::VARIANT::VT_CY)
assert_equal("100000", obj.value)
assert_raise(WIN32OLERuntimeError) {
obj = WIN32OLE_VARIANT.new("$100.000", WIN32OLE::VARIANT::VT_CY)
}
else
STDERR.puts("\n#{__FILE__}:#{__LINE__}:#{self.class.name}.test_s_locale_change is skipped(Japanese locale is not installed)")
end
begin
WIN32OLE.locale = 1033
rescue WIN32OLERuntimeError
end
if WIN32OLE.locale == 1033
obj = WIN32OLE_VARIANT.new("$100,000", WIN32OLE::VARIANT::VT_CY)
assert_equal("100000", obj.value)
else
STDERR.puts("\n#{__FILE__}:#{__LINE__}:#{self.class.name}.test_s_locale_change is skipped(US English locale is not installed)")
end
ensure
WIN32OLE.locale = WIN32OLE::LOCALE_SYSTEM_DEFAULT
end
end
def test_const_CP_ACP
assert_equal(0, WIN32OLE::CP_ACP)
end
def test_const_CP_OEMCP
assert_equal(1, WIN32OLE::CP_OEMCP)
end
def test_const_CP_MACCP
assert_equal(2, WIN32OLE::CP_MACCP)
end
def test_const_CP_THREAD_ACP
assert_equal(3, WIN32OLE::CP_THREAD_ACP)
end
def test_const_CP_SYMBOL
assert_equal(42, WIN32OLE::CP_SYMBOL)
end
def test_const_CP_UTF7
assert_equal(65000, WIN32OLE::CP_UTF7)
end
def test_const_CP_UTF8
assert_equal(65001, WIN32OLE::CP_UTF8)
end
def test_const_LOCALE_SYSTEM_DEFAULT
assert_equal(0x0800, WIN32OLE::LOCALE_SYSTEM_DEFAULT);
end
def test_const_LOCALE_USER_DEFAULT
assert_equal(0x0400, WIN32OLE::LOCALE_USER_DEFAULT);
end
end
# test of subclass of WIN32OLE
class MyDict < WIN32OLE
def MyDict.new
super('Scripting.Dictionary')
end
end
class TestMyDict < Test::Unit::TestCase
include TestCaseForDict
def setup
@dict1 = MyDict.new
@dict2 = MyDict.new
end
def test_s_new
assert_instance_of(MyDict, @dict1)
assert_instance_of(MyDict, @dict2)
end
end
end