/** * @license * Copyright 2020 Google LLC * SPDX-License-Identifier: Apache-2.0 */ import {assert} from '../../node_modules/chai/chai.js'; import { sharedTestSetup, sharedTestTeardown, workspaceTeardown, } from './test_helpers/setup_teardown.js'; suite('Context Menu Items', function () { setup(function () { sharedTestSetup.call(this); // Creates a WorkspaceSVG const toolbox = document.getElementById('toolbox-categories'); this.workspace = Blockly.inject('blocklyDiv', {toolbox: toolbox}); this.registry = Blockly.ContextMenuRegistry.registry; this.registry.reset(); Blockly.ContextMenuItems.registerDefaultOptions(); }); teardown(function () { sharedTestTeardown.call(this); }); suite('Workspace Items', function () { setup(function () { this.scope = {workspace: this.workspace}; }); suite('undo', function () { setup(function () { this.undoOption = this.registry.getItem('undoWorkspace'); }); test('Disabled when nothing to undo', function () { const precondition = this.undoOption.preconditionFn(this.scope); assert.equal( precondition, 'disabled', 'Should be disabled when there is nothing to undo', ); }); test('Enabled when something to undo', function () { // Create a new block, which should be undoable. this.workspace.newBlock('text'); const precondition = this.undoOption.preconditionFn(this.scope); assert.equal( precondition, 'enabled', 'Should be enabled when there are actions to undo', ); }); test('Undoes adding a new block', function () { this.workspace.newBlock('text'); assert.equal(this.workspace.getTopBlocks(false).length, 1); this.undoOption.callback(this.scope); assert.equal( this.workspace.getTopBlocks(false).length, 0, 'Should be no blocks after undo', ); }); test('Has correct label', function () { assert.equal(this.undoOption.displayText(), 'Undo'); }); }); suite('Redo', function () { setup(function () { this.redoOption = this.registry.getItem('redoWorkspace'); }); test('Disabled when nothing to redo', function () { // Create a new block. There should be something to undo, but not redo. this.workspace.newBlock('text'); const precondition = this.redoOption.preconditionFn(this.scope); assert.equal( precondition, 'disabled', 'Should be disabled when there is nothing to redo', ); }); test('Enabled when something to redo', function () { // Create a new block, then undo it, which means there is something to redo. this.workspace.newBlock('text'); this.workspace.undo(false); const precondition = this.redoOption.preconditionFn(this.scope); assert.equal( precondition, 'enabled', 'Should be enabled when there are actions to redo', ); }); test('Redoes adding new block', function () { // Add a new block, then undo it, then redo it. this.workspace.newBlock('text'); this.workspace.undo(false); assert.equal(this.workspace.getTopBlocks(false).length, 0); this.redoOption.callback(this.scope); assert.equal( this.workspace.getTopBlocks(false).length, 1, 'Should be 1 block after redo', ); }); test('Has correct label', function () { assert.equal(this.redoOption.displayText(), 'Redo'); }); }); suite('Cleanup', function () { setup(function () { this.cleanupOption = this.registry.getItem('cleanWorkspace'); this.cleanUpStub = sinon.stub(this.workspace, 'cleanUp'); }); test('Enabled when multiple blocks', function () { this.workspace.newBlock('text'); this.workspace.newBlock('text'); assert.equal( this.cleanupOption.preconditionFn(this.scope), 'enabled', 'Should be enabled if there are multiple blocks', ); }); test('Disabled when no blocks', function () { assert.equal( this.cleanupOption.preconditionFn(this.scope), 'disabled', 'Should be disabled if there are no blocks', ); }); test('Hidden when not movable', function () { sinon.stub(this.workspace, 'isMovable').returns(false); assert.equal( this.cleanupOption.preconditionFn(this.scope), 'hidden', 'Should be hidden if the workspace is not movable', ); }); test('Calls workspace cleanUp', function () { this.cleanupOption.callback(this.scope); sinon.assert.calledOnce(this.cleanUpStub); }); test('Has correct label', function () { assert.equal(this.cleanupOption.displayText(), 'Clean up Blocks'); }); }); suite('Collapse', function () { setup(function () { this.collapseOption = this.registry.getItem('collapseWorkspace'); }); test('Enabled when uncollapsed blocks', function () { this.workspace.newBlock('text'); const block2 = this.workspace.newBlock('text'); block2.setCollapsed(true); assert.equal( this.collapseOption.preconditionFn(this.scope), 'enabled', 'Should be enabled when any blocks are expanded', ); }); test('Disabled when all blocks collapsed', function () { this.workspace.newBlock('text').setCollapsed(true); assert.equal( this.collapseOption.preconditionFn(this.scope), 'disabled', 'Should be disabled when no blocks are expanded', ); }); test('Hidden when no collapse option', function () { const workspaceWithOptions = new Blockly.Workspace( new Blockly.Options({collapse: false}), ); this.scope.workspace = workspaceWithOptions; try { assert.equal( this.collapseOption.preconditionFn(this.scope), 'hidden', 'Should be hidden if collapse is disabled in options', ); } finally { workspaceTeardown.call(this, workspaceWithOptions); } }); test('Collapses all blocks', function () { // All blocks should be collapsed, even if some already were. const block1 = this.workspace.newBlock('text'); const block2 = this.workspace.newBlock('text'); // Need to render block to properly collapse it. block1.initSvg(); block1.render(); block1.setCollapsed(true); this.collapseOption.callback(this.scope); this.clock.runAll(); assert.isTrue( block1.isCollapsed(), 'Previously collapsed block should still be collapsed', ); assert.isTrue( block2.isCollapsed(), 'Previously expanded block should now be collapsed', ); }); test('Has correct label', function () { assert.equal(this.collapseOption.displayText(), 'Collapse Blocks'); }); }); suite('Expand', function () { setup(function () { this.expandOption = this.registry.getItem('expandWorkspace'); }); test('Enabled when collapsed blocks', function () { this.workspace.newBlock('text'); const block2 = this.workspace.newBlock('text'); block2.setCollapsed(true); assert.equal( this.expandOption.preconditionFn(this.scope), 'enabled', 'Should be enabled when any blocks are collapsed', ); }); test('Disabled when no collapsed blocks', function () { this.workspace.newBlock('text'); assert.equal( this.expandOption.preconditionFn(this.scope), 'disabled', 'Should be disabled when no blocks are collapsed', ); }); test('Hidden when no collapse option', function () { const workspaceWithOptions = new Blockly.Workspace( new Blockly.Options({collapse: false}), ); this.scope.workspace = workspaceWithOptions; try { assert.equal( this.expandOption.preconditionFn(this.scope), 'hidden', 'Should be hidden if collapse is disabled in options', ); } finally { workspaceTeardown.call(this, workspaceWithOptions); } }); test('Expands all blocks', function () { // All blocks should be expanded, even if some already were. const block1 = this.workspace.newBlock('text'); const block2 = this.workspace.newBlock('text'); // Need to render block to properly collapse it. block2.initSvg(); block2.render(); block2.setCollapsed(true); this.expandOption.callback(this.scope); this.clock.runAll(); assert.isFalse( block1.isCollapsed(), 'Previously expanded block should still be expanded', ); assert.isFalse( block2.isCollapsed(), 'Previously collapsed block should now be expanded', ); }); test('Has correct label', function () { assert.equal(this.expandOption.displayText(), 'Expand Blocks'); }); }); suite('Delete', function () { setup(function () { this.deleteOption = this.registry.getItem('workspaceDelete'); }); test('Enabled when blocks to delete', function () { this.workspace.newBlock('text'); assert.equal(this.deleteOption.preconditionFn(this.scope), 'enabled'); }); test('Disabled when no blocks to delete', function () { assert.equal(this.deleteOption.preconditionFn(this.scope), 'disabled'); }); test('Deletes all blocks after confirming', function () { // Mocks the confirmation dialog and calls the callback with 'true' simulating ok. const confirmStub = sinon.stub(window, 'confirm').returns(true); this.workspace.newBlock('text'); this.workspace.newBlock('text'); this.deleteOption.callback(this.scope); this.clock.runAll(); sinon.assert.calledOnce(confirmStub); assert.equal(this.workspace.getTopBlocks(false).length, 0); confirmStub.restore(); }); test('Does not delete blocks if not confirmed', function () { // Mocks the confirmation dialog and calls the callback with 'false' simulating cancel. const confirmStub = sinon.stub(window, 'confirm').returns(false); this.workspace.newBlock('text'); this.workspace.newBlock('text'); this.deleteOption.callback(this.scope); this.clock.runAll(); sinon.assert.calledOnce(confirmStub); assert.equal(this.workspace.getTopBlocks(false).length, 2); confirmStub.restore(); }); test('No dialog for single block', function () { const confirmStub = sinon.stub(window, 'confirm'); this.workspace.newBlock('text'); this.deleteOption.callback(this.scope); this.clock.runAll(); sinon.assert.notCalled(confirmStub); assert.equal(this.workspace.getTopBlocks(false).length, 0); confirmStub.restore(); }); test('Has correct label for multiple blocks', function () { this.workspace.newBlock('text'); this.workspace.newBlock('text'); assert.equal( this.deleteOption.displayText(this.scope), 'Delete 2 Blocks', ); }); test('Has correct label for single block', function () { this.workspace.newBlock('text'); assert.equal(this.deleteOption.displayText(this.scope), 'Delete Block'); }); }); }); suite('Block Items', function () { setup(function () { this.block = this.workspace.newBlock('text'); this.scope = {block: this.block}; }); suite('Duplicate', function () { setup(function () { this.duplicateOption = this.registry.getItem('blockDuplicate'); }); test('Enabled when block is duplicatable', function () { // Block is duplicatable by default assert.equal( this.duplicateOption.preconditionFn(this.scope), 'enabled', ); }); test('Disabled when block is not dupicatable', function () { sinon.stub(this.block, 'isDuplicatable').returns(false); assert.equal( this.duplicateOption.preconditionFn(this.scope), 'disabled', ); }); test('Hidden when in flyout', function () { this.block.isInFlyout = true; assert.equal(this.duplicateOption.preconditionFn(this.scope), 'hidden'); }); test('the block is duplicated', function () { this.duplicateOption.callback(this.scope); assert.equal( this.workspace.getTopBlocks(false).length, 2, 'Expected a second block', ); }); test('Has correct label', function () { assert.equal(this.duplicateOption.displayText(), 'Duplicate'); }); }); suite('Comment', function () { setup(function () { this.commentOption = this.registry.getItem('blockComment'); }); test('Enabled for normal block', function () { assert.equal(this.commentOption.preconditionFn(this.scope), 'enabled'); }); test('Hidden for collapsed block', function () { // Must render block to collapse it properly. this.block.initSvg(); this.block.render(); this.block.setCollapsed(true); assert.equal(this.commentOption.preconditionFn(this.scope), 'hidden'); }); test('Creates comment if one did not exist', function () { assert.isUndefined( this.block.getIcon(Blockly.icons.CommentIcon.TYPE), 'New block should not have a comment', ); this.commentOption.callback(this.scope); assert.exists(this.block.getIcon(Blockly.icons.CommentIcon.TYPE)); assert.isEmpty( this.block.getCommentText(), 'Block should have empty comment text', ); }); test('Removes comment if block had one', function () { this.block.setCommentText('Test comment'); this.commentOption.callback(this.scope); assert.isNull( this.block.getCommentText(), 'Block should not have comment after removal', ); }); test('Has correct label for add comment', function () { assert.equal(this.commentOption.displayText(this.scope), 'Add Comment'); }); test('Has correct label for remove comment', function () { this.block.setCommentText('Test comment'); assert.equal( this.commentOption.displayText(this.scope), 'Remove Comment', ); }); }); suite('Inline Variables', function () { setup(function () { this.inlineOption = this.registry.getItem('blockInline'); }); test('Enabled when inputs to inline', function () { this.block.appendValueInput('test1'); this.block.appendValueInput('test2'); assert.equal(this.inlineOption.preconditionFn(this.scope), 'enabled'); }); }); }); });