def testMain(self): # Text on commandline text = 'foo bar baz\ndus 123' self.assertRun(('text=' + text,), text) self.assertRun(('--text', text), text) encoded = 'Zm9vIGJhciBiYXoKZHVzIDEyMwo=' self.assertRun(('--text', encoded, '--encoding', 'base64'), text) encoded = 'foo%20bar%20baz%0Adus%20123' self.assertRun(('--text', encoded, '--encoding', 'url'), text) # Clipboard input text = 'foo bar baz\ndus 123' SelectionClipboard.clipboard.clear() # just to be sure Clipboard.set_text(text) self.assertRun(('input=clipboard',), text) self.assertRun(('--input', 'clipboard',), text) text = 'foo bar baz\ndus 456' SelectionClipboard.set_text(text) self.assertRun(('input=clipboard',), text) self.assertRun(('--input', 'clipboard',), text) # Template options cmd = QuickNotePluginCommand('quicknote') cmd.parse_options('option:url=foo') self.assertEqual(cmd.template_options, {'url': 'foo'}) cmd = QuickNotePluginCommand('quicknote') cmd.parse_options('--option', 'url=foo') self.assertEqual(cmd.template_options, {'url': 'foo'})
def testMain(self): def has_text(text): # create the actual check function def my_has_text(dialog): self.assertIsInstance(dialog, QuickNoteDialog) buffer = dialog.textview.get_buffer() result = buffer.get_text(*buffer.get_bounds()) #~ print result self.assertTrue(text in result) return my_has_text # Text on commandline text = 'foo bar baz\ndus 123' with tests.DialogContext(has_text(text)): main('text=' + text) # Clipboard input text = 'foo bar baz\ndus 123' SelectionClipboard.clipboard.clear() # just to be sure Clipboard.set_text(text) with tests.DialogContext(has_text(text)): main('input=clipboard') text = 'foo bar baz\ndus 456' SelectionClipboard.set_text(text) with tests.DialogContext(has_text(text)): main('input=clipboard')
def testCopyLocation(self): from zim.gui.clipboard import Clipboard Clipboard.set_text('XXX') self.assertEqual(Clipboard.get_text(), 'XXX') self.uiactions.copy_location() self.assertEqual(Clipboard.get_text(), 'Test')
def testMain(self): def main(*args): cmd = QuickNotePluginCommand('quicknote') cmd.parse_options(*args) cmd.run() def has_text(text): # create the actual check function def my_has_text(dialog): self.assertIsInstance(dialog, QuickNoteDialog) buffer = dialog.textview.get_buffer() result = buffer.get_text(*buffer.get_bounds()) self.assertTrue(text in result) return my_has_text # Text on commandline text = 'foo bar baz\ndus 123' with tests.DialogContext(has_text(text)): main('text=' + text) with tests.DialogContext(has_text(text)): main('--text', text) encoded = 'Zm9vIGJhciBiYXoKZHVzIDEyMwo=' with tests.DialogContext(has_text(text)): main('--text', encoded, '--encoding', 'base64') encoded = 'foo%20bar%20baz%0Adus%20123' with tests.DialogContext(has_text(text)): main('--text', encoded, '--encoding', 'url') # Clipboard input text = 'foo bar baz\ndus 123' SelectionClipboard.clipboard.clear() # just to be sure Clipboard.set_text(text) with tests.DialogContext(has_text(text)): main('input=clipboard') with tests.DialogContext(has_text(text)): main('--input', 'clipboard') text = 'foo bar baz\ndus 456' SelectionClipboard.set_text(text) with tests.DialogContext(has_text(text)): main('input=clipboard') with tests.DialogContext(has_text(text)): main('--input', 'clipboard') # Template options cmd = QuickNotePluginCommand('quicknote') cmd.parse_options('option:url=foo') self.assertEqual(cmd.template_options, {'url': 'foo'}) cmd = QuickNotePluginCommand('quicknote') cmd.parse_options('--option', 'url=foo') self.assertEqual(cmd.template_options, {'url': 'foo'})
def copy_to_clipboard(self, *a): '''Exports currently visible elements from the tasks list''' logger.debug('Exporting to clipboard current view of task list.') text = self.get_visible_data_as_csv() Clipboard.set_text(text)
def copy_to_clipboard(self, *a): '''Exports currently visible elements from the codes list''' logger.debug('Exporting to clipboard current view of qda codes.') text = self.get_visible_data_as_csv() Clipboard.set_text(text)
def testFunctions(self): '''Test bookmark functions: changing, reordering, ranaming.''' Bar = BookmarkBar(self.ui, self.uistate, get_page_func = lambda: '') Bar.max_bookmarks = 15 # set maximum number of bookmarks # Check changing a bookmark. for i, path in enumerate(self.PATHS): Bar._add_new(path, add_bookmarks_to_beginning = False) self.assertTrue('Test' not in Bar.paths) self.assertTrue('Books' in Bar.paths) Bar.change_bookmark('Books', 'Books') self.assertEqual(Bar.paths, list(self.PATHS)) Bar.change_bookmark('Books', 'Test') self.assertTrue('Test' in Bar.paths) self.assertTrue('Books' not in Bar.paths) _result = [a if a != 'Books' else 'Test' for a in self.PATHS] self.assertEqual(Bar.paths, _result) Bar.change_bookmark('Test', 'Books') self.assertEqual(Bar.paths, list(self.PATHS)) # Check reordering bookmarks. new_paths = ('1','2','3','4','5') Bar.paths = list(new_paths) Bar.move_bookmark(new_paths[2], new_paths[2], 'left') self.assertEqual(Bar.paths, list(new_paths)) Bar.move_bookmark(new_paths[3], new_paths[3], 'right') self.assertEqual(Bar.paths, list(new_paths)) Bar.move_bookmark('3', '1', 'left') self.assertEqual(Bar.paths, ['3','1','2','4','5']) Bar.move_bookmark('5', '1', 'left') self.assertEqual(Bar.paths, ['3','5','1','2','4']) Bar.move_bookmark('5', '1', 'right') self.assertEqual(Bar.paths, ['3','1','5','2','4']) Bar.move_bookmark('3', '4', 'right') self.assertEqual(Bar.paths, ['1','5','2','4','3']) Bar.move_bookmark('5', '4', '-') self.assertEqual(Bar.paths, ['1','5','2','4','3']) # Check rename_bookmark and save options. preferences_changed = lambda save: Bar.on_preferences_changed({'save': save, 'add_bookmarks_to_beginning': False, 'max_bookmarks': 15}) new_path_names = {new_paths[0]:'11', new_paths[1]:'22', new_paths[2]:'33'} Bar.paths = list(new_paths) preferences_changed(True) Bar._reload_bar() def rename_check(label, path, paths_names, path_names_uistate): self.assertEqual(button.get_label(), label) self.assertEqual(button.zim_path, path) self.assertEqual(Bar.paths_names, paths_names) self.assertEqual(self.uistate['bookmarks_names'], path_names_uistate) button = gtk.Button(label = new_paths[0], use_underline = False) button.zim_path = new_paths[0] rename_check(new_paths[0], new_paths[0], {}, {}) Clipboard.set_text('new name') Bar.rename_bookmark(button) rename_check('new name', new_paths[0], {new_paths[0]:'new name'}, {new_paths[0]:'new name'}) preferences_changed(False) rename_check('new name', new_paths[0], {new_paths[0]:'new name'}, {}) preferences_changed(True) rename_check('new name', new_paths[0], {new_paths[0]:'new name'}, {new_paths[0]:'new name'}) Bar.rename_bookmark(button) rename_check(new_paths[0], new_paths[0], {}, {}) # Check delete with renaming. preferences_changed(True) paths_names_copy = dict(new_path_names) Bar.paths_names = dict(new_path_names) for key in new_path_names: Bar.delete(key) del paths_names_copy[key] self.assertEqual(Bar.paths_names, paths_names_copy) self.assertEqual(self.uistate['bookmarks_names'], Bar.paths_names) # Check delete all with renaming. Bar.paths_names = dict(new_path_names) Bar.delete_all() self.assertEqual(Bar.paths_names, {}) self.assertEqual(self.uistate['bookmarks_names'], {}) # Check change bookmark with renaming. new_path_names = {new_paths[0]:'11', new_paths[1]:'22', new_paths[2]:'33'} Bar.paths = list(new_paths) Bar.paths_names = dict(new_path_names) paths_names_copy = dict(new_path_names) _name = paths_names_copy.pop(new_paths[0]) paths_names_copy['new path'] = _name Bar.change_bookmark(new_paths[0], 'new path') self.assertEqual(Bar.paths_names, paths_names_copy) self.assertEqual(Bar.paths, ['new path'] + list(new_paths[1:]))
def testFunctions(self): '''Test bookmark functions: changing, reordering, ranaming.''' navigation = tests.MockObject() bar = BookmarkBar(self.notebook, navigation, self.uistate, get_page_func = lambda: '') bar.max_bookmarks = 15 # set maximum number of bookmarks # Check changing a bookmark. for i, path in enumerate(self.PATHS): bar._add_new(path, add_bookmarks_to_beginning = False) self.assertTrue('Test' not in bar.paths) self.assertTrue('Books' in bar.paths) bar.change_bookmark('Books', 'Books') self.assertEqual(bar.paths, list(self.PATHS)) bar.change_bookmark('Books', 'Test') self.assertTrue('Test' in bar.paths) self.assertTrue('Books' not in bar.paths) _result = [a if a != 'Books' else 'Test' for a in self.PATHS] self.assertEqual(bar.paths, _result) bar.change_bookmark('Test', 'Books') self.assertEqual(bar.paths, list(self.PATHS)) # Check reordering bookmarks. new_paths = ('1', '2', '3', '4', '5') bar.paths = list(new_paths) bar.move_bookmark(new_paths[2], new_paths[2], 'left') self.assertEqual(bar.paths, list(new_paths)) bar.move_bookmark(new_paths[3], new_paths[3], 'right') self.assertEqual(bar.paths, list(new_paths)) bar.move_bookmark('3', '1', 'left') self.assertEqual(bar.paths, ['3', '1', '2', '4', '5']) bar.move_bookmark('5', '1', 'left') self.assertEqual(bar.paths, ['3', '5', '1', '2', '4']) bar.move_bookmark('5', '1', 'right') self.assertEqual(bar.paths, ['3', '1', '5', '2', '4']) bar.move_bookmark('3', '4', 'right') self.assertEqual(bar.paths, ['1', '5', '2', '4', '3']) bar.move_bookmark('5', '4', '-') self.assertEqual(bar.paths, ['1', '5', '2', '4', '3']) # Check rename_bookmark and save options. preferences_changed = lambda save: bar.on_preferences_changed({'save': save, 'add_bookmarks_to_beginning': False, 'max_bookmarks': 15}) new_path_names = {new_paths[0]: '11', new_paths[1]: '22', new_paths[2]: '33'} bar.paths = list(new_paths) preferences_changed(True) bar._reload_bar() def rename_check(label, path, paths_names, path_names_uistate): self.assertEqual(button.get_label(), label) self.assertEqual(button.zim_path, path) self.assertEqual(bar.paths_names, paths_names) self.assertEqual(self.uistate['bookmarks_names'], path_names_uistate) button = Gtk.Button(label = new_paths[0], use_underline = False) button.zim_path = new_paths[0] rename_check(new_paths[0], new_paths[0], {}, {}) Clipboard.set_text('new name') bar.rename_bookmark(button) rename_check('new name', new_paths[0], {new_paths[0]: 'new name'}, {new_paths[0]: 'new name'}) preferences_changed(False) rename_check('new name', new_paths[0], {new_paths[0]: 'new name'}, {}) preferences_changed(True) rename_check('new name', new_paths[0], {new_paths[0]: 'new name'}, {new_paths[0]: 'new name'}) bar.rename_bookmark(button) rename_check(new_paths[0], new_paths[0], {}, {}) # Check delete with renaming. preferences_changed(True) paths_names_copy = dict(new_path_names) bar.paths_names = dict(new_path_names) for key in new_path_names: bar.delete(key) del paths_names_copy[key] self.assertEqual(bar.paths_names, paths_names_copy) self.assertEqual(self.uistate['bookmarks_names'], bar.paths_names) # Check delete all with renaming. bar.paths_names = dict(new_path_names) bar.delete_all() self.assertEqual(bar.paths_names, {}) self.assertEqual(self.uistate['bookmarks_names'], {}) # Check change bookmark with renaming. new_path_names = {new_paths[0]: '11', new_paths[1]: '22', new_paths[2]: '33'} bar.paths = list(new_paths) bar.paths_names = dict(new_path_names) paths_names_copy = dict(new_path_names) _name = paths_names_copy.pop(new_paths[0]) paths_names_copy['new path'] = _name bar.change_bookmark(new_paths[0], 'new path') self.assertEqual(bar.paths_names, paths_names_copy) self.assertEqual(bar.paths, ['new path'] + list(new_paths[1:]))
def runTest(self): '''There is one long test.''' ui = MockUI() ui.notebook = self.notebook ui.page = Path('Test:foo') uistate = ConfigDict() self.assertTrue(self.notebook.get_page(ui.page).exists()) PATHS = ('Parent:Daughter:Granddaughter', 'Test:tags', 'Test:foo', 'Books') LEN_PATHS = len(PATHS) PATHS_NAMES = {PATHS[0]:'name 1', PATHS[1]:'name 2', PATHS[2]:'name 3'} # Check correctness of reading uistate. uistate.setdefault('bookmarks', []) uistate.setdefault('bookmarks_names', {}) uistate['bookmarks'] = list(PATHS) uistate['bookmarks_names'] = dict(PATHS_NAMES) Bar = BookmarkBar(ui, uistate, get_page_func = lambda: '') self.assertTrue(Bar.paths == list(PATHS)) self.assertTrue(Bar.paths_names == PATHS_NAMES) uistate['bookmarks'] = [] uistate['bookmarks_names'] = {} Bar = BookmarkBar(ui, uistate, get_page_func = lambda: '') self.assertTrue(Bar.paths == []) self.assertTrue(Bar.paths_names == {}) # Add paths to the beginning of the bar. for i, path in enumerate(PATHS): Bar._add_new(path, add_bookmarks_to_beginning = True) self.assertTrue(len(Bar.paths) == i + 1) self.assertTrue(Bar.paths == list(reversed(PATHS))) # Add paths to the end of the bar. Bar.paths = [] for i, path in enumerate(PATHS): Bar._add_new(path, add_bookmarks_to_beginning = False) self.assertTrue(len(Bar.paths) == i + 1) self.assertTrue(Bar.paths == list(PATHS)) # Check that the same path can't be added to the bar. Bar._add_new(PATHS[0]) Bar._add_new(PATHS[1]) self.assertTrue(Bar.paths == list(PATHS)) # Delete paths from the bar. for i, button in enumerate(Bar.container.get_children()[2:]): path = button.zim_path self.assertTrue(path in Bar.paths) Bar.delete(button.zim_path) self.assertTrue(len(Bar.paths) == LEN_PATHS - i - 1) self.assertTrue(path not in Bar.paths) self.assertTrue(Bar.paths == []) # Check short page names. uistate['show_full_page_name'] = False for path in PATHS: Bar._add_new(path) self.assertTrue(Bar.paths == list(PATHS)) for i, button in enumerate(Bar.container.get_children()[2:]): self.assertTrue(PATHS[i] == button.zim_path) self.assertTrue(Path(PATHS[i]).basename == button.get_label()) uistate['show_full_page_name'] = True # Delete all bookmarks from the bar. Bar.delete_all() self.assertTrue(Bar.paths == []) # Check restriction of max bookmarks in the bar. pagelist = set(self.index.list_pages(None)) _enhanced_pagelist = set() for page in pagelist: _enhanced_pagelist.update( set(self.index.list_pages(page)) ) if len(_enhanced_pagelist) > MAX_BOOKMARKS: break pagelist.update(_enhanced_pagelist) self.assertTrue(len(pagelist) > MAX_BOOKMARKS) pagelist = list(pagelist) for page in pagelist: Bar._add_new(page.name) self.assertTrue(len(Bar.paths) == MAX_BOOKMARKS) self.assertTrue(Bar.paths == [a.name for a in pagelist[:MAX_BOOKMARKS]]) Bar.delete_all() # Check 'save' option in preferences. for i, path in enumerate(PATHS): Bar.on_preferences_changed({'save':False, 'add_bookmarks_to_beginning':False}) Bar._add_new(path) self.assertTrue(uistate['bookmarks'] == []) Bar.on_preferences_changed({'save':True, 'add_bookmarks_to_beginning':False}) self.assertTrue(uistate['bookmarks'] == list(PATHS[:i+1])) self.assertTrue(uistate['bookmarks'] == list(PATHS)) # Check changing a bookmark. self.assertTrue('Test' not in Bar.paths) self.assertTrue('Books' in Bar.paths) Bar.change_bookmark('Books', 'Books') self.assertTrue(Bar.paths == list(PATHS)) _b_paths = [a for a in Bar.paths if a != 'Books'] Bar.change_bookmark('Books', 'Test') self.assertTrue('Test' in Bar.paths) self.assertTrue('Books' not in Bar.paths) _e_paths = [a for a in Bar.paths if a != 'Test'] self.assertTrue(_b_paths == _e_paths) Bar.change_bookmark('Test', 'Books') self.assertTrue(Bar.paths == list(PATHS)) # Check deleting a bookmark after deleting a page in the notebook. self.assertTrue(len(Bar.paths) == LEN_PATHS) for i, path in enumerate(PATHS): self.assertTrue(path in Bar.paths) self.notebook.delete_page(Path(path)) self.assertTrue(path not in Bar.paths) self.assertTrue(len(Bar.paths) == LEN_PATHS - i - 1) self.assertTrue(Bar.paths == []) # Check reordering bookmarks. PATHS_2 = ('1','2','3','4','5') PATHS_NAMES_2 = {PATHS_2[0]:'11', PATHS_2[1]:'22', PATHS_2[2]:'33'} Bar.paths = list(PATHS_2) Bar.move_bookmark(PATHS_2[2], PATHS_2[2], 'left') self.assertTrue(Bar.paths == list(PATHS_2)) Bar.move_bookmark(PATHS_2[3], PATHS_2[3], 'right') self.assertTrue(Bar.paths == list(PATHS_2)) Bar.move_bookmark('3', '1', 'left') self.assertTrue(Bar.paths == ['3','1','2','4','5']) Bar.move_bookmark('5', '1', 'left') self.assertTrue(Bar.paths == ['3','5','1','2','4']) Bar.move_bookmark('5', '1', 'right') self.assertTrue(Bar.paths == ['3','1','5','2','4']) Bar.move_bookmark('3', '4', 'right') self.assertTrue(Bar.paths == ['1','5','2','4','3']) Bar.move_bookmark('5', '4', '-') self.assertTrue(Bar.paths == ['1','5','2','4','3']) # CHECK RENAMING # Check rename_bookmark and save options. Bar.paths = list(PATHS_2) button = gtk.Button(label = PATHS_2[0], use_underline = False) button.zim_path = PATHS_2[0] Bar.on_preferences_changed({'save':True, 'add_bookmarks_to_beginning':False}) Bar._reload_bar() def rename_check(label, path, paths_names, path_names_uistate): self.assertTrue(button.get_label() == label) self.assertTrue(button.zim_path == path) self.assertTrue(Bar.paths_names == paths_names) self.assertTrue(uistate['bookmarks_names'] == path_names_uistate) rename_check(PATHS_2[0], PATHS_2[0], {}, {}) Clipboard.set_text('new name') Bar.rename_bookmark(button) rename_check('new name', PATHS_2[0], {PATHS_2[0]:'new name'}, {PATHS_2[0]:'new name'}) Bar.on_preferences_changed({'save':False, 'add_bookmarks_to_beginning':False}) rename_check('new name', PATHS_2[0], {PATHS_2[0]:'new name'}, {}) Bar.on_preferences_changed({'save':True, 'add_bookmarks_to_beginning':False}) rename_check('new name', PATHS_2[0], {PATHS_2[0]:'new name'}, {PATHS_2[0]:'new name'}) Bar.rename_bookmark(button) rename_check(PATHS_2[0], PATHS_2[0], {}, {}) # Check delete with renaming. Bar.on_preferences_changed({'save':True, 'add_bookmarks_to_beginning':False}) paths_names_copy = dict(PATHS_NAMES_2) Bar.paths_names = dict(PATHS_NAMES_2) for key in PATHS_NAMES_2: Bar.delete(key) del paths_names_copy[key] self.assertTrue(Bar.paths_names == paths_names_copy) self.assertTrue(uistate['bookmarks_names'] == Bar.paths_names) # Check delete all with renaming. Bar.paths_names = dict(PATHS_NAMES_2) Bar.delete_all() self.assertTrue(Bar.paths_names == {}) self.assertTrue(uistate['bookmarks_names'] == {}) # Check change bookmark with renaming. Bar.paths = list(PATHS_2) Bar.paths_names = dict(PATHS_NAMES_2) paths_names_copy = dict(PATHS_NAMES_2) paths_names_copy.pop(PATHS_2[0], None) Bar.change_bookmark(PATHS_2[0], 'new path') self.assertTrue(Bar.paths_names == paths_names_copy) self.assertTrue(Bar.paths == ['new path'] + list(PATHS_2[1:])) # Check that paths and paths_names didn't change in the process. self.assertTrue(PATHS_2 == ('1','2','3','4','5')) self.assertTrue(PATHS_NAMES_2 == {PATHS_2[0]:'11', PATHS_2[1]:'22', PATHS_2[2]:'33'})
def yank_current_path(self): """copy the absolute path of the current page to the clipboard""" curpage = ":" + self.pageview.page.name Clipboard.set_text(curpage)