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scratch-vm/test/unit/extension_video_sensing.js
Michael "Z" Goddard 8ebd659094
Use string enumerated values for videoSensing sensor block
2018-04-11 10:30:58 -04:00

409 lines
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JavaScript
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const {createReadStream} = require('fs');
const {join} = require('path');
const {PNG} = require('pngjs');
const {test} = require('tap');
const {wrapClamp} = require('../../src/util/math-util');
const VideoSensing = require('../../src/extensions/scratch3_video_sensing/index.js');
const VideoMotion = require('../../src/extensions/scratch3_video_sensing/library.js');
/**
* Prefix to the mock frame images used to test the video sensing extension.
* @type {string}
*/
const pngPrefix = 'extension_video_sensing_';
/**
* Map of frame keys to the image filenames appended to the pngPrefix.
* @type {object}
*/
const framesMap = {
center: 'center',
left: 'left-5',
left2: 'left-10',
down: 'down-10'
};
/**
* Asynchronously read a png file and copy its pixel data into a typed array
* VideoMotion will accept.
* @param {string} name - partial filename to read
* @returns {Promise.<Uint32Array>} pixel data of the image
*/
const readPNG = name => (
new Promise((resolve, reject) => {
const png = new PNG();
createReadStream(join(__dirname, `${pngPrefix}${name}.png`))
.pipe(png)
.on('parsed', () => {
// Copy the RGBA pixel values into a separate typed array and
// cast the array to Uint32, the array format VideoMotion takes.
resolve(new Uint32Array(new Uint8ClampedArray(png.data).buffer));
})
.on('error', reject);
})
);
/**
* Read all the frames for testing asynchrnously and produce an object with
* keys following the keys in framesMap.
* @returns {object} mapping of keys in framesMap to image data read from disk
*/
const readFrames = (() => {
// Use this immediately invoking function expression (IIFE) to delay reading
// once to the first test that calls readFrames.
let _promise = null;
return () => {
if (_promise === null) {
_promise = Promise.all(Object.keys(framesMap).map(key => readPNG(framesMap[key])))
.then(pngs => (
Object.keys(framesMap).reduce((frames, key, i) => {
frames[key] = pngs[i];
return frames;
}, {})
));
}
return _promise;
};
})();
/**
* Match if actual is within optMargin to expect. If actual is under -180,
* match if actual + 360 is near expect. If actual is over 180, match if actual
* - 360 is near expect.
* @param {number} actual - actual angle in degrees
* @param {number} expect - expected angle in degrees
* @param {number} optMargin - allowed margin between actual and expect in degrees
* @returns {boolean} true if actual is close to expect
*/
const isNearAngle = (actual, expect, optMargin = 10) => (
(wrapClamp(actual - expect, 0, 359) < optMargin) ||
(wrapClamp(actual - expect, 0, 359) > 360 - optMargin)
);
// A fake scratch-render drawable that will be used by VideoMotion to restrain
// the area considered for motion detection in VideoMotion.getLocalMotion
const fakeDrawable = {
getFastBounds () {
return {
left: -120,
top: 60,
right: 0,
bottom: -60
};
},
isTouching () {
return true;
}
};
// A fake MotionState used to test the stored values in
// VideoMotion.getLocalMotion, VideoSensing.videoOn and
// VideoSensing.whenMotionGreaterThan.
const fakeMotionState = {
motionFrameNumber: -1,
motionAmount: -1,
motionDirection: -Infinity
};
// A fake target referring to the fake drawable and MotionState.
const fakeTarget = {
drawableID: 0,
getCustomState () {
return fakeMotionState;
},
setCustomState () {}
};
const fakeRuntime = {
targets: [fakeTarget],
// Without defined devices, VideoSensing will not try to start sampling from
// a video source.
ioDevices: null,
renderer: {
_allDrawables: [
fakeDrawable
]
}
};
const fakeBlockUtility = {
target: fakeTarget
};
test('detect motionAmount between frames', t => {
t.plan(6);
return readFrames()
.then(frames => {
const detect = new VideoMotion();
// Each of these pairs should have enough motion for the detector.
const framePairs = [
[frames.center, frames.left],
[frames.center, frames.left2],
[frames.left, frames.left2],
[frames.left, frames.center],
[frames.center, frames.down],
[frames.down, frames.center]
];
// Add both frames of a pair and test for motion.
let index = 0;
for (const [frame1, frame2] of framePairs) {
detect.addFrame(frame1);
detect.addFrame(frame2);
detect.analyzeFrame();
t.ok(
detect.motionAmount > 10,
`frame pair ${index + 1} has motion ${detect.motionAmount} over threshold (10)`
);
index += 1;
}
t.end();
});
});
test('detect local motionAmount between frames', t => {
t.plan(6);
return readFrames()
.then(frames => {
const detect = new VideoMotion();
// Each of these pairs should have enough motion for the detector.
const framePairs = [
[frames.center, frames.left],
[frames.center, frames.left2],
[frames.left, frames.left2],
[frames.left, frames.center],
[frames.center, frames.down],
[frames.down, frames.center]
];
// Add both frames of a pair and test for local motion.
let index = 0;
for (const [frame1, frame2] of framePairs) {
detect.addFrame(frame1);
detect.addFrame(frame2);
detect.analyzeFrame();
detect.getLocalMotion(fakeDrawable, fakeMotionState);
t.ok(
fakeMotionState.motionAmount > 10,
`frame pair ${index + 1} has motion ${fakeMotionState.motionAmount} over threshold (10)`
);
index += 1;
}
t.end();
});
});
test('detect motionDirection between frames', t => {
t.plan(6);
return readFrames()
.then(frames => {
const detect = new VideoMotion();
// Each of these pairs is moving in the given direction. Does the detector
// guess a value to that?
const directionMargin = 10;
const framePairs = [
{
frames: [frames.center, frames.left],
direction: -90
},
{
frames: [frames.center, frames.left2],
direction: -90
},
{
frames: [frames.left, frames.left2],
direction: -90
},
{
frames: [frames.left, frames.center],
direction: 90
},
{
frames: [frames.center, frames.down],
direction: 180
},
{
frames: [frames.down, frames.center],
direction: 0
}
];
// Add both frames of a pair and check if the motionDirection is near the
// expected angle.
let index = 0;
for (const {frames: [frame1, frame2], direction} of framePairs) {
detect.addFrame(frame1);
detect.addFrame(frame2);
detect.analyzeFrame();
t.ok(
isNearAngle(detect.motionDirection, direction, directionMargin),
`frame pair ${index + 1} is ${detect.motionDirection.toFixed(0)} ` +
`degrees and close to ${direction} degrees`
);
index += 1;
}
t.end();
});
});
test('detect local motionDirection between frames', t => {
t.plan(6);
return readFrames()
.then(frames => {
const detect = new VideoMotion();
// Each of these pairs is moving in the given direction. Does the detector
// guess a value to that?
const directionMargin = 10;
const framePairs = [
{
frames: [frames.center, frames.left],
direction: -90
},
{
frames: [frames.center, frames.left2],
direction: -90
},
{
frames: [frames.left, frames.left2],
direction: -90
},
{
frames: [frames.left, frames.center],
direction: 90
},
{
frames: [frames.center, frames.down],
direction: 180
},
{
frames: [frames.down, frames.center],
direction: 0
}
];
// Add both frames of a pair and check if the local motionDirection is near
// the expected angle.
let index = 0;
for (const {frames: [frame1, frame2], direction} of framePairs) {
detect.addFrame(frame1);
detect.addFrame(frame2);
detect.analyzeFrame();
detect.getLocalMotion(fakeDrawable, fakeMotionState);
const motionDirection = fakeMotionState.motionDirection;
t.ok(
isNearAngle(motionDirection, direction, directionMargin),
`frame pair ${index + 1} is ${motionDirection.toFixed(0)} degrees and close to ${direction} degrees`
);
index += 1;
}
t.end();
});
});
test('videoOn returns value dependent on arguments', t => {
t.plan(4);
return readFrames()
.then(frames => {
const sensing = new VideoSensing(fakeRuntime);
// With these two frame test if we get expected values depending on the
// arguments to videoOn.
sensing.detect.addFrame(frames.center);
sensing.detect.addFrame(frames.left);
const motionAmount = sensing.videoOn({
ATTRIBUTE: VideoSensing.SensingAttribute.MOTION,
SUBJECT: VideoSensing.SensingSubject.STAGE
}, fakeBlockUtility);
t.ok(
motionAmount > 10,
`stage motionAmount ${motionAmount} is over the threshold (10)`
);
const localMotionAmount = sensing.videoOn({
ATTRIBUTE: VideoSensing.SensingAttribute.MOTION,
SUBJECT: VideoSensing.SensingSubject.SPRITE
}, fakeBlockUtility);
t.ok(
localMotionAmount > 10,
`sprite motionAmount ${localMotionAmount} is over the threshold (10)`
);
const motionDirection = sensing.videoOn({
ATTRIBUTE: VideoSensing.SensingAttribute.DIRECTION,
SUBJECT: VideoSensing.SensingSubject.STAGE
}, fakeBlockUtility);
t.ok(
isNearAngle(motionDirection, -90),
`stage motionDirection ${motionDirection.toFixed(0)} degrees is close to ${90} degrees`
);
const localMotionDirection = sensing.videoOn({
ATTRIBUTE: VideoSensing.SensingAttribute.DIRECTION,
SUBJECT: VideoSensing.SensingSubject.SPRITE
}, fakeBlockUtility);
t.ok(
isNearAngle(localMotionDirection, -90),
`sprite motionDirection ${localMotionDirection.toFixed(0)} degrees is close to ${90} degrees`
);
t.end();
});
});
test('whenMotionGreaterThan returns true if local motion meets target', t => {
t.plan(2);
return readFrames()
.then(frames => {
const sensing = new VideoSensing(fakeRuntime);
// With these two frame test if we get expected values depending on the
// arguments to whenMotionGreaterThan.
sensing.detect.addFrame(frames.center);
sensing.detect.addFrame(frames.left);
const over20 = sensing.whenMotionGreaterThan({
REFERENCE: 20
}, fakeBlockUtility);
t.ok(
over20,
`enough motion in drawable bounds to reach reference of 20`
);
const over80 = sensing.whenMotionGreaterThan({
REFERENCE: 80
}, fakeBlockUtility);
t.notOk(
over80,
`not enough motion in drawable bounds to reach reference of 80`
);
t.end();
});
});
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