const test = require('tap').test; const path = require('path'); const VirtualMachine = require('../../src/index'); const Runtime = require('../../src/engine/runtime'); const sb3 = require('../../src/serialization/sb3'); const readFileToBuffer = require('../fixtures/readProjectFile').readFileToBuffer; const exampleProjectPath = path.resolve(__dirname, '../fixtures/clone-cleanup.sb2'); const commentsSB2ProjectPath = path.resolve(__dirname, '../fixtures/comments.sb2'); const commentsSB3ProjectPath = path.resolve(__dirname, '../fixtures/comments.sb3'); const commentsSB3NoDupeIds = path.resolve(__dirname, '../fixtures/comments_no_duplicate_id_serialization.sb3'); const variableReporterSB2ProjectPath = path.resolve(__dirname, '../fixtures/top-level-variable-reporter.sb2'); const topLevelReportersProjectPath = path.resolve(__dirname, '../fixtures/top-level-reporters.sb3'); const draggableSB3ProjectPath = path.resolve(__dirname, '../fixtures/draggable.sb3'); const FakeRenderer = require('../fixtures/fake-renderer'); test('serialize', t => { const vm = new VirtualMachine(); vm.loadProject(readFileToBuffer(exampleProjectPath)) .then(() => { const result = sb3.serialize(vm.runtime); // @todo Analyze t.type(JSON.stringify(result), 'string'); t.end(); }); }); test('deserialize', t => { const vm = new VirtualMachine(); sb3.deserialize('', vm.runtime).then(({targets}) => { // @todo Analyze t.type(targets, 'object'); t.end(); }); }); test('serialize sb2 project with comments as sb3', t => { const vm = new VirtualMachine(); vm.loadProject(readFileToBuffer(commentsSB2ProjectPath)) .then(() => { const result = sb3.serialize(vm.runtime); t.type(JSON.stringify(result), 'string'); t.type(result.targets, 'object'); t.equal(Array.isArray(result.targets), true); t.equal(result.targets.length, 2); const stage = result.targets[0]; t.equal(stage.isStage, true); // The stage has 0 blocks, and 1 workspace comment t.type(stage.blocks, 'object'); t.equal(Object.keys(stage.blocks).length, 0); t.type(stage.comments, 'object'); t.equal(Object.keys(stage.comments).length, 1); const stageBlockComments = Object.values(stage.comments).filter(comment => !!comment.blockId); const stageWorkspaceComments = Object.values(stage.comments).filter(comment => comment.blockId === null); t.equal(stageBlockComments.length, 0); t.equal(stageWorkspaceComments.length, 1); const sprite = result.targets[1]; t.equal(sprite.isStage, false); t.type(sprite.blocks, 'object'); // Sprite 1 has 6 blocks, 5 block comments, and 1 workspace comment t.equal(Object.keys(sprite.blocks).length, 6); t.type(sprite.comments, 'object'); t.equal(Object.keys(sprite.comments).length, 6); const spriteBlockComments = Object.values(sprite.comments).filter(comment => !!comment.blockId); const spriteWorkspaceComments = Object.values(sprite.comments).filter(comment => comment.blockId === null); t.equal(spriteBlockComments.length, 5); t.equal(spriteWorkspaceComments.length, 1); t.end(); }); }); test('deserialize sb3 project with comments', t => { const vm = new VirtualMachine(); vm.loadProject(readFileToBuffer(commentsSB3ProjectPath)) .then(() => { const runtime = vm.runtime; t.type(runtime.targets, 'object'); t.equal(Array.isArray(runtime.targets), true); t.equal(runtime.targets.length, 2); const stage = runtime.targets[0]; t.equal(stage.isStage, true); // The stage has 0 blocks, and 1 workspace comment t.type(stage.blocks, 'object'); t.equal(Object.keys(stage.blocks._blocks).length, 0); t.type(stage.comments, 'object'); t.equal(Object.keys(stage.comments).length, 1); const stageBlockComments = Object.values(stage.comments).filter(comment => !!comment.blockId); const stageWorkspaceComments = Object.values(stage.comments).filter(comment => comment.blockId === null); t.equal(stageBlockComments.length, 0); t.equal(stageWorkspaceComments.length, 1); const sprite = runtime.targets[1]; t.equal(sprite.isStage, false); t.type(sprite.blocks, 'object'); // Sprite 1 has 6 blocks, 5 block comments, and 1 workspace comment t.equal(Object.values(sprite.blocks._blocks).filter(block => !block.shadow).length, 6); t.type(sprite.comments, 'object'); t.equal(Object.keys(sprite.comments).length, 6); const spriteBlockComments = Object.values(sprite.comments).filter(comment => !!comment.blockId); const spriteWorkspaceComments = Object.values(sprite.comments).filter(comment => comment.blockId === null); t.equal(spriteBlockComments.length, 5); t.equal(spriteWorkspaceComments.length, 1); t.end(); }); }); test('deserialize sb3 project with comments - no duplicate id serialization', t => { const vm = new VirtualMachine(); vm.loadProject(readFileToBuffer(commentsSB3NoDupeIds)) .then(() => { const runtime = vm.runtime; t.type(runtime.targets, 'object'); t.equal(Array.isArray(runtime.targets), true); t.equal(runtime.targets.length, 2); const stage = runtime.targets[0]; t.equal(stage.isStage, true); // The stage has 0 blocks, and 0 workspace comment t.type(stage.blocks, 'object'); t.equal(Object.keys(stage.blocks._blocks).length, 0); t.type(stage.comments, 'object'); t.equal(Object.keys(stage.comments).length, 0); const sprite = runtime.targets[1]; t.equal(sprite.isStage, false); t.type(sprite.blocks, 'object'); // Sprite1 has 1 blocks, 1 block comment, and 1 workspace comment t.equal(Object.values(sprite.blocks._blocks).filter(block => !block.shadow).length, 1); t.type(sprite.comments, 'object'); t.equal(Object.keys(sprite.comments).length, 2); const spriteBlockComments = Object.values(sprite.comments).filter(comment => !!comment.blockId); const spriteWorkspaceComments = Object.values(sprite.comments).filter(comment => comment.blockId === null); t.equal(spriteBlockComments.length, 1); t.equal(spriteWorkspaceComments.length, 1); t.end(); }); }); test('serializing and deserializing sb3 preserves sprite layer order', t => { const vm = new VirtualMachine(); vm.attachRenderer(new FakeRenderer()); return vm.loadProject(readFileToBuffer(path.resolve(__dirname, '../fixtures/ordering.sb2'))) .then(() => { // Target get layer order needs a renderer, // fake the numbers we would get back from the // renderer in order to test that they are serialized // correctly vm.runtime.targets[0].getLayerOrder = () => 0; vm.runtime.targets[1].getLayerOrder = () => 20; vm.runtime.targets[2].getLayerOrder = () => 10; vm.runtime.targets[3].getLayerOrder = () => 30; const result = sb3.serialize(vm.runtime); t.type(JSON.stringify(result), 'string'); t.type(result.targets, 'object'); t.equal(Array.isArray(result.targets), true); t.equal(result.targets.length, 4); // First check that the sprites are ordered correctly (as they would // appear in the target pane) t.equal(result.targets[0].name, 'Stage'); t.equal(result.targets[1].name, 'First'); t.equal(result.targets[2].name, 'Second'); t.equal(result.targets[3].name, 'Third'); // Check that they are in the correct layer order (as they would render // back to front on the stage) t.equal(result.targets[0].layerOrder, 0); t.equal(result.targets[1].layerOrder, 2); t.equal(result.targets[2].layerOrder, 1); t.equal(result.targets[3].layerOrder, 3); return result; }) .then(serializedObject => sb3.deserialize( JSON.parse(JSON.stringify(serializedObject)), new Runtime(), null, false) .then(({targets}) => { // First check that the sprites are ordered correctly (as they would // appear in the target pane) t.equal(targets[0].sprite.name, 'Stage'); t.equal(targets[1].sprite.name, 'First'); t.equal(targets[2].sprite.name, 'Second'); t.equal(targets[3].sprite.name, 'Third'); // Check that they are in the correct layer order (as they would render // back to front on the stage) t.equal(targets[0].layerOrder, 0); t.equal(targets[1].layerOrder, 2); t.equal(targets[2].layerOrder, 1); t.equal(targets[3].layerOrder, 3); t.end(); })); }); test('serializeBlocks', t => { const vm = new VirtualMachine(); vm.loadProject(readFileToBuffer(commentsSB3ProjectPath)) .then(() => { const blocks = vm.runtime.targets[1].blocks._blocks; const result = sb3.serializeBlocks(blocks); // @todo Analyze t.type(result[0], 'object'); t.ok(Object.keys(result[0]).length < Object.keys(blocks).length, 'less blocks in serialized format'); t.ok(Array.isArray(result[1])); t.end(); }); }); test('serializeBlocks serializes x and y for topLevel blocks with x,y of 0,0', t => { const vm = new VirtualMachine(); vm.loadProject(readFileToBuffer(topLevelReportersProjectPath)) .then(() => { // Verify that there are 2 blocks and they are both top level const blocks = vm.runtime.targets[1].blocks._blocks; const blockIds = Object.keys(blocks); t.equal(blockIds.length, 2); const blocksArray = blockIds.map(key => blocks[key]); t.equal(blocksArray.every(b => b.topLevel), true); // Simulate cleaning up the blocks by resetting x and y positions to 0 blockIds.forEach(blockId => { blocks[blockId].x = 0; blocks[blockId].y = 0; }); const result = sb3.serializeBlocks(blocks); const serializedBlocks = result[0]; t.type(serializedBlocks, 'object'); const serializedBlockIds = Object.keys(serializedBlocks); t.equal(serializedBlockIds.length, 2); const firstBlock = serializedBlocks[serializedBlockIds[0]]; const secondBlock = serializedBlocks[serializedBlockIds[1]]; t.equal(firstBlock.x, 0); t.equal(firstBlock.y, 0); t.equal(secondBlock.x, 0); t.equal(secondBlock.y, 0); t.end(); }); }); test('deserializeBlocks', t => { const vm = new VirtualMachine(); vm.loadProject(readFileToBuffer(commentsSB3ProjectPath)) .then(() => { const blocks = vm.runtime.targets[1].blocks._blocks; const serialized = sb3.serializeBlocks(blocks)[0]; const deserialized = sb3.deserializeBlocks(serialized); t.equal(Object.keys(deserialized).length, Object.keys(blocks).length, 'same number of blocks'); t.end(); }); }); test('deserializeBlocks on already deserialized input', t => { const vm = new VirtualMachine(); vm.loadProject(readFileToBuffer(commentsSB3ProjectPath)) .then(() => { const blocks = vm.runtime.targets[1].blocks._blocks; const serialized = sb3.serializeBlocks(blocks)[0]; const deserialized = sb3.deserializeBlocks(serialized); const deserializedAgain = sb3.deserializeBlocks(deserialized); t.deepEqual(deserialized, deserializedAgain, 'no change from second pass of deserialize'); t.end(); }); }); test('getExtensionIdForOpcode', t => { t.equal(sb3.getExtensionIdForOpcode('wedo_loopy'), 'wedo'); // does not consider CORE to be extensions t.false(sb3.getExtensionIdForOpcode('control_loopy')); // only considers things before the first underscore t.equal(sb3.getExtensionIdForOpcode('hello_there_loopy'), 'hello'); // does not return anything for opcodes with no extension t.false(sb3.getExtensionIdForOpcode('hello')); t.end(); }); test('(#1608) serializeBlocks maintains top level variable reporters', t => { const vm = new VirtualMachine(); vm.loadProject(readFileToBuffer(variableReporterSB2ProjectPath)) .then(() => { const blocks = vm.runtime.targets[0].blocks._blocks; const result = sb3.serialize(vm.runtime); // Project should have 1 block, a top-level variable reporter t.equal(Object.keys(blocks).length, 1); t.equal(Object.keys(result.targets[0].blocks).length, 1); // Make sure deserializing these blocks works t.doesNotThrow(() => { sb3.deserialize(JSON.parse(JSON.stringify(result)), vm.runtime); }); t.end(); }); }); test('(#1850) sprite draggability state read when loading SB3 file', t => { const vm = new VirtualMachine(); vm.loadProject(readFileToBuffer(draggableSB3ProjectPath)) .then(() => { const sprite1Obj = vm.runtime.targets.find(target => target.sprite.name === 'Sprite1'); // Sprite1 in project should have draggable set to true t.equal(sprite1Obj.draggable, true); t.end(); }); });