scratch-vm/src/engine/block-utility.js

224 lines
6.5 KiB
JavaScript

const Thread = require('./thread');
const Timer = require('../util/timer');
/**
* @fileoverview
* Interface provided to block primitive functions for interacting with the
* runtime, thread, target, and convenient methods.
*/
class BlockUtility {
constructor (sequencer = null, thread = null) {
/**
* A sequencer block primitives use to branch or start procedures with
* @type {?Sequencer}
*/
this.sequencer = sequencer;
/**
* The block primitives thread with the block's target, stackFrame and
* modifiable status.
* @type {?Thread}
*/
this.thread = thread;
this._nowObj = {
now: () => this.runtime.currentMSecs
};
}
/**
* The target the primitive is working on.
* @type {Target}
*/
get target () {
return this.thread.target;
}
/**
* The runtime the block primitive is running in.
* @type {Runtime}
*/
get runtime () {
return this.sequencer.runtime;
}
/**
* Use the runtime's currentMSecs value as a timestamp value for now
* This is useful in some cases where we need compatibility with Scratch 2
* @type {function}
*/
get nowObj () {
if (this.runtime) {
return this._nowObj;
}
return null;
}
/**
* The stack frame used by loop and other blocks to track internal state.
* @type {object}
*/
get stackFrame () {
const frame = this.thread.peekStackFrame();
if (frame.executionContext === null) {
frame.executionContext = {};
}
return frame.executionContext;
}
/**
* Check the stack timer and return a boolean based on whether it has finished or not.
* @return {boolean} - true if the stack timer has finished.
*/
stackTimerFinished () {
const timeElapsed = this.stackFrame.timer.timeElapsed();
if (timeElapsed < this.stackFrame.duration) {
return false;
}
return true;
}
/**
* Check if the stack timer needs initialization.
* @return {boolean} - true if the stack timer needs to be initialized.
*/
stackTimerNeedsInit () {
return !this.stackFrame.timer;
}
/**
* Create and start a stack timer
* @param {number} duration - a duration in milliseconds to set the timer for.
*/
startStackTimer (duration) {
if (this.nowObj) {
this.stackFrame.timer = new Timer(this.nowObj);
} else {
this.stackFrame.timer = new Timer();
}
this.stackFrame.timer.start();
this.stackFrame.duration = duration;
}
/**
* Set the thread to yield.
*/
yield () {
this.thread.status = Thread.STATUS_YIELD;
}
/**
* Set the thread to yield until the next tick of the runtime.
*/
yieldTick () {
this.thread.status = Thread.STATUS_YIELD_TICK;
}
/**
* Start a branch in the current block.
* @param {number} branchNum Which branch to step to (i.e., 1, 2).
* @param {boolean} isLoop Whether this block is a loop.
*/
startBranch (branchNum, isLoop) {
this.sequencer.stepToBranch(this.thread, branchNum, isLoop);
}
/**
* Stop all threads.
*/
stopAll () {
this.sequencer.runtime.stopAll();
}
/**
* Stop threads other on this target other than the thread holding the
* executed block.
*/
stopOtherTargetThreads () {
this.sequencer.runtime.stopForTarget(this.thread.target, this.thread);
}
/**
* Stop this thread.
*/
stopThisScript () {
this.thread.stopThisScript();
}
/**
* Start a specified procedure on this thread.
* @param {string} procedureCode Procedure code for procedure to start.
*/
startProcedure (procedureCode) {
this.sequencer.stepToProcedure(this.thread, procedureCode);
}
/**
* Get names and ids of parameters for the given procedure.
* @param {string} procedureCode Procedure code for procedure to query.
* @return {Array.<string>} List of param names for a procedure.
*/
getProcedureParamNamesAndIds (procedureCode) {
return this.thread.target.blocks.getProcedureParamNamesAndIds(procedureCode);
}
/**
* Get names, ids, and defaults of parameters for the given procedure.
* @param {string} procedureCode Procedure code for procedure to query.
* @return {Array.<string>} List of param names for a procedure.
*/
getProcedureParamNamesIdsAndDefaults (procedureCode) {
return this.thread.target.blocks.getProcedureParamNamesIdsAndDefaults(procedureCode);
}
/**
* Store a procedure parameter value by its name.
* @param {string} paramName The procedure's parameter name.
* @param {*} paramValue The procedure's parameter value.
*/
pushParam (paramName, paramValue) {
this.thread.pushParam(paramName, paramValue);
}
/**
* Retrieve the stored parameter value for a given parameter name.
* @param {string} paramName The procedure's parameter name.
* @return {*} The parameter's current stored value.
*/
getParam (paramName) {
return this.thread.getParam(paramName);
}
/**
* Start all relevant hats.
* @param {!string} requestedHat Opcode of hats to start.
* @param {object=} optMatchFields Optionally, fields to match on the hat.
* @param {Target=} optTarget Optionally, a target to restrict to.
* @return {Array.<Thread>} List of threads started by this function.
*/
startHats (requestedHat, optMatchFields, optTarget) {
return (
this.sequencer.runtime.startHats(requestedHat, optMatchFields, optTarget)
);
}
/**
* Query a named IO device.
* @param {string} device The name of like the device, like keyboard.
* @param {string} func The name of the device's function to query.
* @param {Array.<*>} args Arguments to pass to the device's function.
* @return {*} The expected output for the device's function.
*/
ioQuery (device, func, args) {
// Find the I/O device and execute the query/function call.
if (
this.sequencer.runtime.ioDevices[device] &&
this.sequencer.runtime.ioDevices[device][func]) {
const devObject = this.sequencer.runtime.ioDevices[device];
return devObject[func].apply(devObject, args);
}
}
}
module.exports = BlockUtility;