scratch-vm/test/integration/hat-threads-run-every-frame.js
2017-08-03 17:31:34 -04:00

194 lines
7.4 KiB
JavaScript

const path = require('path');
const test = require('tap').test;
const makeTestStorage = require('../fixtures/make-test-storage');
const extract = require('../fixtures/extract');
const VirtualMachine = require('../../src/index');
const Thread = require('../../src/engine/thread');
const Runtime = require('../../src/engine/runtime');
const projectUri = path.resolve(__dirname, '../fixtures/loudness-hat-block.sb2');
const project = extract(projectUri);
const checkIsHatThread = (t, vm, hatThread) => {
t.equal(hatThread.stackClick, false);
t.equal(hatThread.updateMonitor, false);
const blockContainer = hatThread.target.blocks;
const opcode = blockContainer.getOpcode(blockContainer.getBlock(hatThread.topBlock));
t.assert(vm.runtime.getIsEdgeActivatedHat(opcode));
};
const checkIsStackClickThread = (t, vm, stackClickThread) => {
t.equal(stackClickThread.stackClick, true);
t.equal(stackClickThread.updateMonitor, false);
};
/**
* loudness-hat-block.sb2 contains a single stack
* when loudness > 10
* change color effect by 25
* The intention is to make sure that the hat block condition is evaluated
* on each frame.
*/
test('edge activated hat thread runs once every frame', t => {
const vm = new VirtualMachine();
vm.attachStorage(makeTestStorage());
// Start VM, load project, and run
t.doesNotThrow(() => {
// Note: don't run vm.start(), we handle calling _step() manually in this test
vm.runtime.currentStepTime = Runtime.THREAD_STEP_INTERVAL;
vm.clear();
vm.setCompatibilityMode(false);
vm.setTurboMode(false);
vm.loadProject(project).then(() => {
t.equal(vm.runtime.threads.length, 0);
vm.runtime._step();
t.equal(vm.runtime.threads.length, 1);
checkIsHatThread(t, vm, vm.runtime.threads[0]);
t.assert(vm.runtime.threads[0].status === Thread.STATUS_DONE);
// Check that the hat thread is added again when another step is taken
vm.runtime._step();
t.equal(vm.runtime.threads.length, 1);
checkIsHatThread(t, vm, vm.runtime.threads[0]);
t.assert(vm.runtime.threads[0].status === Thread.STATUS_DONE);
t.end();
});
});
});
/**
* If the hat doesn't finish evaluating within one frame, it shouldn't be added again
* on the next frame. (We skip execution by setting the step time to 0)
*/
test('edge activated hat thread not added twice', t => {
const vm = new VirtualMachine();
vm.attachStorage(makeTestStorage());
// Start VM, load project, and run
t.doesNotThrow(() => {
// Note: don't run vm.start(), we handle calling _step() manually in this test
vm.runtime.currentStepTime = 0;
vm.clear();
vm.setCompatibilityMode(false);
vm.setTurboMode(false);
vm.loadProject(project).then(() => {
t.equal(vm.runtime.threads.length, 0);
vm.runtime._step();
t.equal(vm.runtime.threads.length, 1);
const prevThread = vm.runtime.threads[0];
checkIsHatThread(t, vm, vm.runtime.threads[0]);
t.assert(vm.runtime.threads[0].status === Thread.STATUS_RUNNING);
// Check that no new threads are added when another step is taken
vm.runtime._step();
// There should now be one done hat thread and one new hat thread to run
t.equal(vm.runtime.threads.length, 1);
checkIsHatThread(t, vm, vm.runtime.threads[0]);
t.assert(vm.runtime.threads[0] === prevThread);
t.end();
});
});
});
/**
* When adding a stack click thread first, make sure that the edge activated hat thread and
* the stack click thread are both pushed and run (despite having the same top block)
*/
test('edge activated hat thread does not interrupt stack click thread', t => {
const vm = new VirtualMachine();
vm.attachStorage(makeTestStorage());
// Start VM, load project, and run
t.doesNotThrow(() => {
// Note: don't run vm.start(), we handle calling _step() manually in this test
vm.runtime.currentStepTime = Runtime.THREAD_STEP_INTERVAL;
vm.clear();
vm.setCompatibilityMode(false);
vm.setTurboMode(false);
vm.loadProject(project).then(() => {
t.equal(vm.runtime.threads.length, 0);
vm.runtime._step();
t.equal(vm.runtime.threads.length, 1);
checkIsHatThread(t, vm, vm.runtime.threads[0]);
t.assert(vm.runtime.threads[0].status === Thread.STATUS_DONE);
// Add stack click thread on this hat
vm.runtime.toggleScript(vm.runtime.threads[0].topBlock, {stackClick: true});
// Check that the hat thread is added again when another step is taken
vm.runtime._step();
t.equal(vm.runtime.threads.length, 2);
let hatThread;
let stackClickThread;
if (vm.runtime.threads[0].stackClick) {
stackClickThread = vm.runtime.threads[0];
hatThread = vm.runtime.threads[1];
} else {
stackClickThread = vm.runtime.threads[1];
hatThread = vm.runtime.threads[0];
}
checkIsHatThread(t, vm, hatThread);
checkIsStackClickThread(t, vm, stackClickThread);
t.assert(vm.runtime.threads[0].status === Thread.STATUS_DONE);
t.assert(vm.runtime.threads[1].status === Thread.STATUS_DONE);
t.end();
});
});
});
/**
* When adding the hat thread first, make sure that the edge activated hat thread and
* the stack click thread are both pushed and run (despite having the same top block)
*/
test('edge activated hat thread does not interrupt stack click thread', t => {
const vm = new VirtualMachine();
vm.attachStorage(makeTestStorage());
// Start VM, load project, and run
t.doesNotThrow(() => {
// Note: don't run vm.start(), we handle calling _step() manually in this test
vm.runtime.currentStepTime = 0;
vm.clear();
vm.setCompatibilityMode(false);
vm.setTurboMode(false);
vm.loadProject(project).then(() => {
t.equal(vm.runtime.threads.length, 0);
vm.runtime._step();
t.equal(vm.runtime.threads.length, 1);
checkIsHatThread(t, vm, vm.runtime.threads[0]);
t.assert(vm.runtime.threads[0].status === Thread.STATUS_RUNNING);
vm.runtime.currentStepTime = Runtime.THREAD_STEP_INTERVAL;
// Add stack click thread on this hat
vm.runtime.toggleScript(vm.runtime.threads[0].topBlock, {stackClick: true});
// Check that the hat thread is added again when another step is taken
vm.runtime._step();
t.equal(vm.runtime.threads.length, 2);
let hatThread;
let stackClickThread;
if (vm.runtime.threads[0].stackClick) {
stackClickThread = vm.runtime.threads[0];
hatThread = vm.runtime.threads[1];
} else {
stackClickThread = vm.runtime.threads[1];
hatThread = vm.runtime.threads[0];
}
checkIsHatThread(t, vm, hatThread);
checkIsStackClickThread(t, vm, stackClickThread);
t.assert(vm.runtime.threads[0].status === Thread.STATUS_DONE);
t.assert(vm.runtime.threads[1].status === Thread.STATUS_DONE);
t.end();
});
});
});