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Replace JavaScript Standard Style with Prettier.

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David Braun 2017-10-16 13:24:12 -04:00
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9 changed files with 647 additions and 675 deletions
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90
doc/API.md
View file

@ -62,18 +62,22 @@ Imagine you're at a party and your next conversation depends on whom you run
into first: Alice, Bob, or Charlie.
```JavaScript
switch (await Channel.select(alice.shift(), bob.shift(), charlie.push(`Hi!`)) {
switch (await Channel.select(
alice.shift(),
bob.shift(),
charlie.push(`Hi!`)
)) {
case alice:
console.log(`Alice said ${alice.value}.`)
break
console.log(`Alice said ${alice.value}.`);
break;
case bob:
console.log(`Bob said ${bob.value}.`)
break
console.log(`Bob said ${bob.value}.`);
break;
case charlie:
console.log(`I said "hi" to Charlie.`)
break
console.log(`I said "hi" to Charlie.`);
break;
}
```
@ -81,55 +85,55 @@ Be careful of unintended side effects, however. Even though only one value is
pushed in the following example, the counter is incremented twice.
```JavaScript
let counter = 0
let counter = 0;
const increment = () => {
counter++
return counter
}
counter++;
return counter;
};
await Channel.select(alice.push(increment()), bob.push(increment()))
assert.equal(counter, 2)
await Channel.select(alice.push(increment()), bob.push(increment()));
assert.equal(counter, 2);
```
Sometimes you don't want to wait until a method completes. You can use a closed
channel to return immediately even if no other channels are ready:
```JavaScript
const closed = Channel()
closed.close()
const closed = Channel();
closed.close();
switch (await Channel.select(alice.shift(), bob.shift(), closed.shift()) {
switch (await Channel.select(alice.shift(), bob.shift(), closed.shift())) {
case alice:
console.log(`Alice said ${alice.value}.`)
break
console.log(`Alice said ${alice.value}.`);
break;
case bob:
console.log(`Bob said ${bob.value}.`)
break
console.log(`Bob said ${bob.value}.`);
break;
default:
console.log(`No one has anything to say yet.`)
console.log(`No one has anything to say yet.`);
}
```
You can also arrange it so that the `select` completes within a timeout:
```JavaScript
const timeout = Channel()
setTimeout(timeout.close, 1000)
const timeout = Channel();
setTimeout(timeout.close, 1000);
switch (await Channel.select(alice.shift(), bob.shift(), timeout.shift()) {
switch (await Channel.select(alice.shift(), bob.shift(), timeout.shift())) {
case alice:
console.log(`Alice said ${alice.value}.`)
break
console.log(`Alice said ${alice.value}.`);
break;
case bob:
console.log(`Bob said ${bob.value}.`)
break
console.log(`Bob said ${bob.value}.`);
break;
default:
console.log(`I stopped listening after one second.`)
console.log(`I stopped listening after one second.`);
}
```
@ -198,15 +202,15 @@ argument.
The promise returned by `forEach` resolves when the channel is closed:
```JavaScript
const toArray = async (channel) => {
const array = []
const toArray = async channel => {
const array = [];
await channel.forEach((value) => {
array.push(value)
})
await channel.forEach(value => {
array.push(value);
});
return array
}
return array;
};
```
If `callbackfn` is async then `forEach` will wait for it before iterating to the
@ -214,9 +218,9 @@ next value:
```JavaScript
const pipe = async (source, sink) => {
await source.forEach(sink.push)
sink.close()
}
await source.forEach(sink.push);
sink.close();
};
```
### join(separator) -> async String
@ -286,15 +290,15 @@ in either of the following two ways:
```JavaScript
// method
channel.slice(10)
channel.slice(10);
// function
Channel.slice(10, Infinity, channel)
Channel.slice(10, Infinity, channel);
```
You can also use partial application to pass the channel in later:
```JavaScript
const skipTen = Channel.slice(10, Infinity)
skipTen(channel)
const skipTen = Channel.slice(10, Infinity);
skipTen(channel);
```

320
lib/index.js
View file

@ -1,342 +1,332 @@
'use strict'
"use strict";
// An order represents a pending push or shift.
const Order = (channel) => {
let order
const preonFulfilleds = []
const Order = channel => {
let order;
const preonFulfilleds = [];
const promise = new Promise((resolve, reject) => {
order = {
resolve: (value) => {
preonFulfilleds.forEach((preonFulfilled) => {
preonFulfilled(value)
})
resolve: value => {
preonFulfilleds.forEach(preonFulfilled => {
preonFulfilled(value);
});
resolve(value)
resolve(value);
},
reject
}
})
};
});
Object.assign(promise, {
cancel: () => {
order.cancelled = true
order.cancelled = true;
},
channel,
prethen: (onFulfilled) => {
preonFulfilleds.push(onFulfilled)
prethen: onFulfilled => {
preonFulfilleds.push(onFulfilled);
}
})
});
return {order, promise}
}
return { order, promise };
};
const prototype = {}
const prototype = {};
const Channel = function (bufferLength = 0) {
let buffered = 0
let closed = false
let lastValue
let resolvedIndex = 0
const pushes = []
const shifts = []
const Channel = function(bufferLength = 0) {
let buffered = 0;
let closed = false;
let lastValue;
let resolvedIndex = 0;
const pushes = [];
const shifts = [];
// Process the push and shift queues like an order book, looking for matches.
const processOrders = () => {
const index = {push: 0, shift: 0}
const index = { push: 0, shift: 0 };
// Match pushes and shifts.
while ((index.push < pushes.length) && (index.shift < shifts.length)) {
const push = pushes[index.push]
const shift = shifts[index.shift]
while (index.push < pushes.length && index.shift < shifts.length) {
const push = pushes[index.push];
const shift = shifts[index.shift];
if (push.cancelled) {
index.push++
index.push++;
} else if (shift.cancelled) {
index.shift++
index.shift++;
} else {
lastValue = push.value
shift.resolve(lastValue)
buffered = Math.max(0, buffered - 1)
index.push++
index.shift++
lastValue = push.value;
shift.resolve(lastValue);
buffered = Math.max(0, buffered - 1);
index.push++;
index.shift++;
}
}
// Resolve push promises up to the end of the buffer.
for (
;
(resolvedIndex < index.push) ||
((resolvedIndex < pushes.length) && (buffered < bufferLength));
resolvedIndex < index.push ||
(resolvedIndex < pushes.length && buffered < bufferLength);
resolvedIndex++
) {
const {cancelled, resolve} = pushes[resolvedIndex]
const { cancelled, resolve } = pushes[resolvedIndex];
if (!cancelled) {
if (resolvedIndex > index.push) {
buffered++
buffered++;
}
resolve(bufferLength)
resolve(bufferLength);
}
}
// If the channel is closed then resolve 'undefined' to remaining shifts.
if (closed) {
for (;
index.shift < shifts.length;
index.shift++
) {
const {cancelled, resolve} = shifts[index.shift]
for (; index.shift < shifts.length; index.shift++) {
const { cancelled, resolve } = shifts[index.shift];
if (!cancelled) {
lastValue = undefined
resolve(lastValue)
lastValue = undefined;
resolve(lastValue);
}
}
}
pushes.splice(0, index.push)
shifts.splice(0, index.shift)
resolvedIndex -= index.push
}
pushes.splice(0, index.push);
shifts.splice(0, index.shift);
resolvedIndex -= index.push;
};
const readOnly = Object.assign(Object.create(prototype), {
every: async (callbackfn, thisArg) => {
for (;;) {
const value = await readOnly.shift()
const value = await readOnly.shift();
if (value === undefined) {
return true
return true;
} else {
if (!callbackfn.call(thisArg, value)) {
return false
return false;
}
}
}
},
filter: (callbackfn, thisArg) => {
const output = Channel()
;(async () => {
const output = Channel();
(async () => {
for (;;) {
const value = await readOnly.shift()
const value = await readOnly.shift();
if (value === undefined) {
await output.close()
break
await output.close();
break;
} else if (callbackfn.call(thisArg, value)) {
await output.push(value)
await output.push(value);
}
}
})()
})();
return output
return output;
},
forEach: async (callbackfn, thisArg) => {
for (;;) {
const value = await readOnly.shift()
const value = await readOnly.shift();
if (value === undefined) {
break
break;
} else {
await callbackfn.call(thisArg, value)
await callbackfn.call(thisArg, value);
}
}
},
join: async (separator) => {
const elements = []
join: async separator => {
const elements = [];
await readOnly.forEach((element) => {
elements.push(element)
})
await readOnly.forEach(element => {
elements.push(element);
});
return elements.join(separator)
return elements.join(separator);
},
map: (callbackfn, thisArg) => {
const output = Channel()
;(async () => {
await readOnly.forEach((value) =>
const output = Channel();
(async () => {
await readOnly.forEach(value =>
output.push(callbackfn.call(thisArg, value))
)
);
output.close()
})()
output.close();
})();
return output
return output;
},
readOnly: () => readOnly,
reduce: async (callbackfn, ...initialValue) => {
let previousValue = initialValue[0]
let previousValueDefined = initialValue.length > 0
let previousValue = initialValue[0];
let previousValueDefined = initialValue.length > 0;
await readOnly.forEach((currentValue) => {
await readOnly.forEach(currentValue => {
if (previousValueDefined) {
previousValue = callbackfn(previousValue, currentValue)
previousValue = callbackfn(previousValue, currentValue);
} else {
previousValue = currentValue
previousValueDefined = true
previousValue = currentValue;
previousValueDefined = true;
}
})
});
if (previousValueDefined) {
return previousValue
return previousValue;
} else {
throw new TypeError(
`No values in channel and initialValue wasn't provided.`
)
);
}
},
shift: function () {
const {order, promise} = Order(this)
shifts.push(order)
setImmediate(processOrders)
return Object.freeze(promise)
shift: function() {
const { order, promise } = Order(this);
shifts.push(order);
setImmediate(processOrders);
return Object.freeze(promise);
},
slice: (start, end = Infinity) => {
const output = Channel()
;(async () => {
const output = Channel();
(async () => {
for (let index = 0; index < end; index++) {
const value = await readOnly.shift()
const value = await readOnly.shift();
if (value === undefined) {
break
break;
} else if (index >= start) {
await output.push(value)
await output.push(value);
}
}
await output.close()
})()
await output.close();
})();
return output
return output;
}
})
});
Object.defineProperty(readOnly, `value`, {get: () => lastValue})
Object.freeze(readOnly)
Object.defineProperty(readOnly, `value`, { get: () => lastValue });
Object.freeze(readOnly);
const writeOnly = Object.freeze({
close: () =>
new Promise((resolve, reject) => {
if (closed) {
reject(new Error(`Can't close an already-closed channel.`))
reject(new Error(`Can't close an already-closed channel.`));
} else {
closed = true
processOrders()
closed = true;
processOrders();
// Give remaining orders in flight time to resolve before returning.
setImmediate(resolve)
setImmediate(resolve);
}
}),
push: function (value) {
const {order, promise} = Order(this)
order.value = value
push: function(value) {
const { order, promise } = Order(this);
order.value = value;
if (closed) {
order.reject(new Error(`Can't push to closed channel.`))
order.reject(new Error(`Can't push to closed channel.`));
} else if (value === undefined) {
order.reject(new TypeError(
`Can't push 'undefined' to channel, use close instead.`
))
order.reject(
new TypeError(`Can't push 'undefined' to channel, use close instead.`)
);
} else if (arguments.length > 1) {
order.reject(new Error(`Can't push more than one value at a time.`))
order.reject(new Error(`Can't push more than one value at a time.`));
} else {
pushes.push(order)
setImmediate(processOrders)
pushes.push(order);
setImmediate(processOrders);
}
return Object.freeze(promise)
return Object.freeze(promise);
},
writeOnly: () => writeOnly
})
});
// Use Object.create because readOnly has a getter.
return Object.freeze(Object.assign(Object.create(readOnly), writeOnly))
}
return Object.freeze(Object.assign(Object.create(readOnly), writeOnly));
};
Channel.from = (values) => {
const channel = Channel()
;(async () => {
Channel.from = values => {
const channel = Channel();
(async () => {
try {
// iterable
for (let value of values) {
await channel.push(value)
await channel.push(value);
}
await channel.close()
await channel.close();
} catch (exception) {
// Assume it's a Node.js stream.readable.
values.on('readable', async () => {
values.on("readable", async () => {
while (true) {
const data = values.read()
const data = values.read();
if (data === null) {
break
break;
} else {
await channel.push(data)
await channel.push(data);
}
}
})
});
values.once('end', channel.close)
values.once("end", channel.close);
}
})()
})();
return channel
}
return channel;
};
Channel.of = (...values) =>
Channel.from(values)
Channel.of = (...values) => Channel.from(values);
Channel.isChannel = (arg) =>
prototype.isPrototypeOf(arg)
Channel.isChannel = arg => prototype.isPrototypeOf(arg);
Channel.select = (...methodPromises) =>
Object.assign(
new Promise((resolve, reject) => {
methodPromises.forEach(async (promise) => {
methodPromises.forEach(async promise => {
promise.prethen(() => {
// We've been given a heads-up that this method will complete first so
// cancel the other method calls.
methodPromises.forEach((other) => {
methodPromises.forEach(other => {
if (other !== promise) {
other.cancel()
other.cancel();
}
})
})
});
});
try {
await promise
await promise;
} catch (exception) {
reject(exception)
reject(exception);
}
resolve(promise.channel)
})
resolve(promise.channel);
});
}),
{
cancel: () =>
Promise.all(methodPromises.map((promise) => promise.cancel()))
cancel: () => Promise.all(methodPromises.map(promise => promise.cancel()))
}
)
);
// functional interface allowing full or partial application
//
@ -347,19 +337,17 @@ Channel.select = (...methodPromises) =>
// const skipTen = Channel.slice(10, Infinity)
// skipTen(channel)
const channel = Channel()
const methods = Object.keys(channel).concat(Object.keys(channel.readOnly()))
const channel = Channel();
const methods = Object.keys(channel).concat(Object.keys(channel.readOnly()));
methods.forEach((method) => {
methods.forEach(method => {
Channel[method] = (...args) => {
const arity = method === `slice`
? 3
: channel[method].length
const arity = method === `slice` ? 3 : channel[method].length;
return args.length >= arity
? args[arity - 1][method](...args.slice(0, arity - 1))
: (channel) => channel[method](...args)
}
})
: channel => channel[method](...args);
};
});
module.exports = Object.freeze(Channel)
module.exports = Object.freeze(Channel);

5
package.json
View file

@ -15,7 +15,7 @@
"@nodeguy/assert": "0.1.1",
"husky": "0.14.3",
"mocha": "3.5.3",
"standard": "10.0.3"
"prettier": "1.7.4"
},
"homepage": "https://github.com/NodeGuy/channel",
"keywords": [
@ -30,8 +30,7 @@
"url": "git+https://github.com/NodeGuy/channel.git"
},
"scripts": {
"precommit": "standard",
"pretest": "standard",
"precommit": "prettier --write lib/**/*.js test/**/*.js",
"test": "mocha --recursive"
},
"standard": {

82
test/go/doubleselect.js
View file

@ -5,73 +5,73 @@
// Test the situation in which two cases of a select can
// both end up running. See http://codereview.appspot.com/180068.
'use strict'
"use strict";
const Channel = require('../../lib')
const Channel = require("../../lib");
it(`doubleselect`, async function () {
this.timeout(10 * 1000)
const iterations = 100000 // number of iterations
it(`doubleselect`, async function() {
this.timeout(10 * 1000);
const iterations = 100000; // number of iterations
// sender sends a counter to one of four different channels. If two cases both
// end up running in the same iteration, the same value will be sent to two
// different channels.
const sender = async (n, c1, c2, c3, c4) => {
for (let i = 0; i < n; i++) {
await Channel.select(c1.push(i), c2.push(i), c3.push(i), c4.push(i))
await Channel.select(c1.push(i), c2.push(i), c3.push(i), c4.push(i));
}
c1.close()
c2.close()
c3.close()
c4.close()
}
c1.close();
c2.close();
c3.close();
c4.close();
};
// mux receives the values from sender and forwards them onto another channel.
// It would be simpler to just have sender's four cases all be the same
// channel, but this doesn't actually trigger the bug.
const mux = async (output, input, done) => {
await input.forEach(async (value) => {
await output.push(value)
})
await input.forEach(async value => {
await output.push(value);
});
await done.push(true)
}
await done.push(true);
};
// recver gets a steam of values from the four mux's and checks for
// duplicates.
const recver = (input) => {
const seen = new Map()
const recver = input => {
const seen = new Map();
input.forEach((v) => {
input.forEach(v => {
if (seen.has(v)) {
throw new Error(`got duplicate value: ${v}`)
throw new Error(`got duplicate value: ${v}`);
}
seen.set(v, true)
})
}
seen.set(v, true);
});
};
const c1 = Channel()
const c2 = Channel()
const c3 = Channel()
const c4 = Channel()
const done = Channel()
const cmux = Channel()
sender(iterations, c1, c2, c3, c4)
mux(cmux, c1, done)
mux(cmux, c2, done)
mux(cmux, c3, done)
mux(cmux, c4, done)
const c1 = Channel();
const c2 = Channel();
const c3 = Channel();
const c4 = Channel();
const done = Channel();
const cmux = Channel();
sender(iterations, c1, c2, c3, c4);
mux(cmux, c1, done);
mux(cmux, c2, done);
mux(cmux, c3, done);
mux(cmux, c4, done);
// We keep the recver because it might catch more bugs in the future.
// However, the result of the bug linked to at the top is that we'll
// end up panicking with: "throw: bad g->status in ready".
recver(cmux)
recver(cmux);
await done.shift()
await done.shift()
await done.shift()
await done.shift()
cmux.close()
})
await done.shift();
await done.shift();
await done.shift();
await done.shift();
cmux.close();
});

54
test/go/fifo.js
View file

@ -4,58 +4,58 @@
// Test that unbuffered channels act as pure fifos.
'use strict'
"use strict";
const Channel = require('../../lib')
const Channel = require("../../lib");
it(`fifo`, function () {
const N = 10
it(`fifo`, function() {
const N = 10;
const AsynchFifo = async () => {
const ch = Channel(10)
const ch = Channel(10);
for (let i = 0; i < N; i++) {
await ch.push(i)
await ch.push(i);
}
for (let i = 0; i < N; i++) {
if (await ch.shift() !== i) {
throw new Error(`bad receive`)
}
if ((await ch.shift()) !== i) {
throw new Error(`bad receive`);
}
}
};
const Chain = async (ch, val, input, output) => {
await input.shift()
await input.shift();
if (await ch.shift() !== val) {
throw new Error(val)
if ((await ch.shift()) !== val) {
throw new Error(val);
}
await output.push(1)
}
await output.push(1);
};
// thread together a daisy chain to read the elements in sequence
const SynchFifo = async () => {
const ch = Channel()
let input = Channel()
let start = input
const ch = Channel();
let input = Channel();
let start = input;
for (let i = 0; i < N; i++) {
const output = Channel()
Chain(ch, i, input, output)
input = output
const output = Channel();
Chain(ch, i, input, output);
input = output;
}
await start.push(0)
await start.push(0);
for (let i = 0; i < N; i++) {
await ch.push(i)
await ch.push(i);
}
await input.shift()
}
await input.shift();
};
AsynchFifo()
SynchFifo()
})
AsynchFifo();
SynchFifo();
});

34
test/go/goroutines.js
View file

@ -5,29 +5,29 @@
// Torture test for goroutines.
// Make a lot of goroutines, threaded together, and tear them down cleanly.
'use strict'
"use strict";
const Channel = require('../../lib')
const Channel = require("../../lib");
it(`goroutines`, async function () {
it(`goroutines`, async function() {
const f = async (left, right) => {
await left.push(await right.shift())
}
await left.push(await right.shift());
};
const n = 10000
const leftmost = Channel()
let right = leftmost
let left = leftmost
const n = 10000;
const leftmost = Channel();
let right = leftmost;
let left = leftmost;
for (let i = 0; i < n; i++) {
right = Channel()
f(left, right)
left = right
right = Channel();
f(left, right);
left = right;
}
;(async (c) => {
await c.push(1)
})(right)
(async c => {
await c.push(1);
})(right);
await leftmost.shift()
})
await leftmost.shift();
});

72
test/go/perm.js
View file

@ -7,72 +7,72 @@
// Test various correct and incorrect permutations of send-only,
// receive-only, and bidirectional channels.
'use strict'
"use strict";
const assert = require(`@nodeguy/assert`)
const Channel = require('../../lib')
const assert = require(`@nodeguy/assert`);
const Channel = require("../../lib");
it(`perm`, function () {
const c = Channel()
const cr = Channel().readOnly()
const cs = Channel().writeOnly()
it(`perm`, function() {
const c = Channel();
const cr = Channel().readOnly();
const cs = Channel().writeOnly();
const n = 0
const n = 0;
assert.throws(() => {
Channel.shift(n) // ERROR "receive from non-chan"
})
Channel.shift(n); // ERROR "receive from non-chan"
});
assert.throws(() => {
Channel.push(2, n) // ERROR "send to non-chan"
})
Channel.push(2, n); // ERROR "send to non-chan"
});
c.push(0) // ok
c.shift() // ok
c.push(0); // ok
c.shift(); // ok
assert.throws(() => {
cr.push(0) // ERROR "send"
})
cr.push(0); // ERROR "send"
});
cr.shift() // ok
cr.shift(); // ok
cs.push(0) // ok
cs.push(0); // ok
assert.throws(() => {
cs.shift() // ERROR "receive"
})
cs.shift(); // ERROR "receive"
});
Channel.select(
c.push(0), // ok
c.shift() // ok
)
);
assert.throws(() => {
Channel.select(
cr.push(0) // ERROR "send"
)
})
);
});
Channel.select(cr.shift()) // ok
Channel.select(cr.shift()); // ok
Channel.select(cs.push(0)) // ok
Channel.select(cs.push(0)); // ok
assert.throws(() => {
Channel.select(cs.shift()) // ERROR "receive"
})
Channel.select(cs.shift()); // ERROR "receive"
});
assert.throws(() => {
cs.forEach(() => {}) // ERROR "receive"
})
cs.forEach(() => {}); // ERROR "receive"
});
c.close()
cs.close()
c.close();
cs.close();
assert.throws(() => {
cr.close() // ERROR "receive"
})
cr.close(); // ERROR "receive"
});
assert.throws(() => {
Channel.close(n) // ERROR "invalid operation.*non-chan type"
})
})
Channel.close(n); // ERROR "invalid operation.*non-chan type"
});
});

75
test/go/select.js
View file

@ -4,70 +4,73 @@
// Test simple select.
'use strict'
"use strict";
const Channel = require('../../lib')
const Channel = require("../../lib");
it(`select`, async function () {
const closed = Channel()
closed.close()
let counter = 0
let shift = 0
it(`select`, async function() {
const closed = Channel();
closed.close();
let counter = 0;
let shift = 0;
const GetValue = () => {
counter++
return 1 << shift
}
counter++;
return 1 << shift;
};
const Send = async (a, b) => {
let done = false
let i = 0
let done = false;
let i = 0;
do {
switch (await Channel.select(a.push(GetValue()), b.push(GetValue()),
closed.shift())) {
switch (await Channel.select(
a.push(GetValue()),
b.push(GetValue()),
closed.shift()
)) {
case a:
i++
a = Channel()
break
i++;
a = Channel();
break;
case b:
i++
b = Channel()
break
i++;
b = Channel();
break;
default:
done = true
done = true;
}
shift++
} while (!done)
shift++;
} while (!done);
return i
}
return i;
};
let a = Channel(1)
let b = Channel(1)
let v = await Send(a, b)
let a = Channel(1);
let b = Channel(1);
let v = await Send(a, b);
if (v !== 2) {
throw new Error(`Send returned ${v} !== 2`)
throw new Error(`Send returned ${v} !== 2`);
}
const av = await a.shift()
const bv = await b.shift()
const av = await a.shift();
const bv = await b.shift();
if ((av | bv) !== 3) {
throw new Error(`bad values ${av} ${bv}`)
throw new Error(`bad values ${av} ${bv}`);
}
v = await Send(a, Channel())
v = await Send(a, Channel());
if (v !== 1) {
throw new Error(`Send returned ${v} !== 1`)
throw new Error(`Send returned ${v} !== 1`);
}
if (counter !== 10) {
throw new Error(`counter is ${counter} !== 10`)
throw new Error(`counter is ${counter} !== 10`);
}
})
});

588
test/index.js
View file

@ -1,415 +1,393 @@
'use strict'
"use strict";
const assert = require('@nodeguy/assert')
const Channel = require('../lib')
const stream = require('stream')
const assert = require("@nodeguy/assert");
const Channel = require("../lib");
const stream = require("stream");
const assertRejects = async (callback, reason) => {
try {
await callback()
await callback();
} catch (exception) {
if (reason) {
assert.deepEqual(exception, reason)
assert.deepEqual(exception, reason);
}
return
return;
}
assert.fail(null, reason, `Missing expected rejection.`)
}
assert.fail(null, reason, `Missing expected rejection.`);
};
const toArray = async (channel) => {
const array = []
const toArray = async channel => {
const array = [];
await channel.forEach((item) => {
array.push(item)
})
await channel.forEach(item => {
array.push(item);
});
return array
}
return array;
};
describe(`Channel`, function () {
it(`allows the use of new`, function () {
return new Channel()
})
describe(`Channel`, function() {
it(`allows the use of new`, function() {
return new Channel();
});
it(`is frozen`, function () {
it(`is frozen`, function() {
assert.throws(() => {
Channel.frozen = false
})
})
Channel.frozen = false;
});
});
it(`creates a frozen object`, function () {
it(`creates a frozen object`, function() {
assert.throws(() => {
Channel().frozen = false
})
})
Channel().frozen = false;
});
});
it(`creates a buffered channel`, async function () {
const channel = Channel(2)
it(`creates a buffered channel`, async function() {
const channel = Channel(2);
(async () => {
assert.equal(await channel.shift(), 0);
})();
;(async () => {
assert.equal(await channel.shift(), 0)
})()
await channel.push(0);
await channel.push(1);
await channel.push(2);
});
await channel.push(0)
await channel.push(1)
await channel.push(2)
})
describe(`from`, function() {
it(`iterable`, async function() {
assert.deepEqual(await toArray(Channel.from([0, 1, 2])), [0, 1, 2]);
});
describe(`from`, function () {
it(`iterable`, async function () {
assert.deepEqual(await toArray(Channel.from([0, 1, 2])), [0, 1, 2])
})
it(`Node.js's stream.readOnly`, async function() {
const readOnly = stream.PassThrough({ objectMode: true });
readOnly.write(0);
readOnly.write(1);
readOnly.end(2);
assert.deepEqual(await toArray(Channel.from(readOnly)), [0, 1, 2]);
});
});
it(`Node.js's stream.readOnly`, async function () {
const readOnly = stream.PassThrough({objectMode: true})
readOnly.write(0)
readOnly.write(1)
readOnly.end(2)
assert.deepEqual(await toArray(Channel.from(readOnly)), [0, 1, 2])
})
})
it(`isChannel`, function() {
assert(Channel.isChannel(Channel.of(0, 1, 2)));
assert(!Channel.isChannel(Array.of(0, 1, 2)));
});
it(`isChannel`, function () {
assert(Channel.isChannel(Channel.of(0, 1, 2)))
assert(!Channel.isChannel(Array.of(0, 1, 2)))
})
it(`of`, async function() {
assert.deepEqual(await toArray(Channel.of(0, 1, 2)), [0, 1, 2]);
});
it(`of`, async function () {
assert.deepEqual(await toArray(Channel.of(0, 1, 2)), [0, 1, 2])
})
describe(`select`, function() {
it(`miscellaneous`, async function() {
const a = Channel();
const b = Channel();
(async () => {
await b.push(0);
await a.push(1);
await a.shift();
})();
describe(`select`, function () {
it(`miscellaneous`, async function () {
const a = Channel()
const b = Channel()
assert.equal(await Channel.select(a.shift(), b.shift()), b);
assert.equal(b.value, 0);
assert.equal(await a.shift(), 1);
assert.equal(await Channel.select(a.push(0), b.shift()), a);
});
});
;(async () => {
await b.push(0)
await a.push(1)
await a.shift()
})()
assert.equal(await Channel.select(a.shift(), b.shift()), b)
assert.equal(b.value, 0)
assert.equal(await a.shift(), 1)
assert.equal(await Channel.select(a.push(0), b.shift()), a)
})
})
it(`allows for non-blocking selects`, async function () {
const a = Channel()
const b = Channel()
const nonBlocking = Channel()
nonBlocking.close()
it(`allows for non-blocking selects`, async function() {
const a = Channel();
const b = Channel();
const nonBlocking = Channel();
nonBlocking.close();
switch (await Channel.select(a.shift(), b.push(0), nonBlocking.shift())) {
case a:
assert(false)
break
assert(false);
break;
case b:
assert(false)
break
assert(false);
break;
default:
assert(true)
break
assert(true);
break;
}
})
});
it(`cancel`, async function () {
const channel = Channel()
Channel.select(channel.push(`cancelled`)).cancel()
const closed = Channel.of()
assert.equal(await Channel.select(channel.shift(), closed.shift()), closed)
})
})
it(`cancel`, async function() {
const channel = Channel();
Channel.select(channel.push(`cancelled`)).cancel();
const closed = Channel.of();
assert.equal(await Channel.select(channel.shift(), closed.shift()), closed);
});
});
describe(`functional interface`, async function () {
describe(`map`, function () {
it(`full application`, async function () {
describe(`functional interface`, async function() {
describe(`map`, function() {
it(`full application`, async function() {
assert.deepEqual(
await toArray(Channel.map(
(value) => value.toUpperCase(),
Channel.of(`a`, `b`, `c`)
)),
[`A`, `B`, `C`]
)
})
it(`partial application`, async function () {
assert.deepEqual(
await toArray(Channel.map((value) =>
value.toUpperCase())(Channel.of(`a`, `b`, `c`))
await toArray(
Channel.map(value => value.toUpperCase(), Channel.of(`a`, `b`, `c`))
),
[`A`, `B`, `C`]
)
})
})
);
});
describe(`slice`, function () {
it(`full application`, async function () {
it(`partial application`, async function() {
assert.deepEqual(
await toArray(
Channel.map(value => value.toUpperCase())(Channel.of(`a`, `b`, `c`))
),
[`A`, `B`, `C`]
);
});
});
describe(`slice`, function() {
it(`full application`, async function() {
assert.deepEqual(
await toArray(Channel.slice(1, 4, Channel.of(0, 1, 2, 3, 4))),
[1, 2, 3]
)
})
);
});
it(`partial application`, async function () {
it(`partial application`, async function() {
assert.deepEqual(
await toArray(Channel.slice(1, 4)(Channel.of(0, 1, 2, 3, 4))),
[1, 2, 3]
)
})
})
})
);
});
});
});
describe(`Channel object`, function () {
describe(`close`, function () {
it(`can't close an already closed channel`, function () {
const channel = Channel()
channel.close()
describe(`Channel object`, function() {
describe(`close`, function() {
it(`can't close an already closed channel`, function() {
const channel = Channel();
channel.close();
return assertRejects(async () => {
await channel.close()
}, new Error(`Can't close an already-closed channel.`))
})
await channel.close();
}, new Error(`Can't close an already-closed channel.`));
});
it(`can't push to a closed channel`, async function () {
const channel = Channel()
channel.close()
it(`can't push to a closed channel`, async function() {
const channel = Channel();
channel.close();
return assertRejects(async () => {
await channel.push(0)
}, new Error(`Can't push to closed channel.`))
})
await channel.push(0);
}, new Error(`Can't push to closed channel.`));
});
it(`returns 'undefined' immediately from shift`, async function () {
const channel = Channel()
channel.close()
assert.strictEqual(await channel.shift(), undefined)
})
})
it(`returns 'undefined' immediately from shift`, async function() {
const channel = Channel();
channel.close();
assert.strictEqual(await channel.shift(), undefined);
});
});
it(`every`, async function () {
const even = (number) => number % 2 === 0
assert(!await Channel.of(0, 1, 2).every(even))
assert(await Channel.of(0, 2, 4).every(even))
})
it(`every`, async function() {
const even = number => number % 2 === 0;
assert(!await Channel.of(0, 1, 2).every(even));
assert(await Channel.of(0, 2, 4).every(even));
});
it(`filter`, async function () {
it(`filter`, async function() {
assert.deepEqual(
await toArray(Channel.of(0, 1, 2, 3, 4, 5)
.filter((value) => value % 2 !== 0)
await toArray(
Channel.of(0, 1, 2, 3, 4, 5).filter(value => value % 2 !== 0)
),
[1, 3, 5]
)
})
);
});
it(`forEach`, async function () {
const output = Channel()
it(`forEach`, async function() {
const output = Channel();
(async () => {
await Channel.of(0, 1, 2).forEach(output.push);
output.close();
})();
;(async () => {
await Channel.of(0, 1, 2).forEach(output.push)
output.close()
})()
assert.deepEqual(await toArray(output), [0, 1, 2]);
});
assert.deepEqual(await toArray(output), [0, 1, 2])
})
it(`join`, async function() {
assert.equal(await Channel.of(`a`, `b`, `c`).join(), `a,b,c`);
});
it(`join`, async function () {
assert.equal(await Channel.of(`a`, `b`, `c`).join(), `a,b,c`)
})
it(`map`, async function () {
it(`map`, async function() {
assert.deepEqual(
await toArray(Channel.of(`a`, `b`, `c`)
.map((value) => value.toUpperCase())
await toArray(
Channel.of(`a`, `b`, `c`).map(value => value.toUpperCase())
),
[`A`, `B`, `C`]
)
})
);
});
describe(`push`, function () {
it(`with shift`, async function () {
const channel = Channel()
describe(`push`, function() {
it(`with shift`, async function() {
const channel = Channel();
(async () => {
await channel.push(0);
})();
;(async () => {
await channel.push(0)
})()
assert.equal(await channel.shift(), 0);
});
assert.equal(await channel.shift(), 0)
})
describe(`undefined`, function () {
it(`outside select`, function () {
const channel = Channel()
return assertRejects(
async () => {
await channel.push(undefined)
},
new TypeError(`Can't push 'undefined' to channel, use close instead.`)
)
})
it(`inside select`, function () {
const channel = Channel()
describe(`undefined`, function() {
it(`outside select`, function() {
const channel = Channel();
return assertRejects(async () => {
await Channel.select(channel.push(undefined))
}, new TypeError(
`Can't push 'undefined' to channel, use close instead.`
))
})
})
await channel.push(undefined);
}, new TypeError(`Can't push 'undefined' to channel, use close instead.`));
});
it(`disallows multiple values`, function () {
const channel = Channel()
it(`inside select`, function() {
const channel = Channel();
return assertRejects(async () => {
await channel.push(0, 1, 2)
}, new Error(`Can't push more than one value at a time.`))
})
await Channel.select(channel.push(undefined));
}, new TypeError(`Can't push 'undefined' to channel, use close instead.`));
});
});
it(`returns a frozen promise`, function () {
it(`disallows multiple values`, function() {
const channel = Channel();
return assertRejects(async () => {
await channel.push(0, 1, 2);
}, new Error(`Can't push more than one value at a time.`));
});
it(`returns a frozen promise`, function() {
assert.throws(() => {
Channel().push(0).frozen = false
})
})
})
Channel().push(0).frozen = false;
});
});
});
it(`readOnly`, async function () {
const channel = Channel()
const readOnly = channel.readOnly()
it(`readOnly`, async function() {
const channel = Channel();
const readOnly = channel.readOnly();
assert.throws(() => {
readOnly.close()
})
readOnly.close();
});
assert.throws(() => {
readOnly.push(0)
})
readOnly.push(0);
});
assert.throws(() => {
readOnly.writeOnly()
})
readOnly.writeOnly();
});
(async () => {
await channel.push(1);
})();
;(async () => {
await channel.push(1)
})()
assert.equal(readOnly.readOnly(), readOnly)
assert.equal(await readOnly.shift(), 1)
assert.equal(readOnly.value, 1)
assert.equal(readOnly.readOnly(), readOnly);
assert.equal(await readOnly.shift(), 1);
assert.equal(readOnly.value, 1);
assert.throws(() => {
readOnly.frozen = false
})
})
readOnly.frozen = false;
});
});
describe(`reduce`, function () {
it(`callbackfn only`, async function () {
assert.equal(await Channel.of(0, 1, 2)
.reduce(Math.max),
2
)
})
describe(`reduce`, function() {
it(`callbackfn only`, async function() {
assert.equal(await Channel.of(0, 1, 2).reduce(Math.max), 2);
});
it(`initialValue`, async function () {
assert.equal(await Channel.of(0, 1, 2)
.reduce(Math.max, 10),
10
)
})
it(`initialValue`, async function() {
assert.equal(await Channel.of(0, 1, 2).reduce(Math.max, 10), 10);
});
it(`no values without initialValue`, function () {
return assertRejects(
async () => {
await Channel.of().reduce(Math.max)
},
new TypeError(`No values in channel and initialValue wasn't provided.`)
)
})
})
it(`no values without initialValue`, function() {
return assertRejects(async () => {
await Channel.of().reduce(Math.max);
}, new TypeError(`No values in channel and initialValue wasn't provided.`));
});
});
describe(`shift`, function () {
it(`with push`, async function () {
const channel = Channel()
describe(`shift`, function() {
it(`with push`, async function() {
const channel = Channel();
(async () => {
await channel.push(0);
})();
;(async () => {
await channel.push(0)
})()
assert.equal(await channel.shift(), 0);
});
assert.equal(await channel.shift(), 0)
})
it(`returns a frozen promise`, function () {
it(`returns a frozen promise`, function() {
assert.throws(() => {
Channel().shift().frozen = false
})
})
})
Channel().shift().frozen = false;
});
});
});
describe(`slice`, function () {
it(`start`, async function () {
assert.deepEqual(await toArray(Channel.of(0, 1, 2).slice(1)), [1, 2])
})
describe(`slice`, function() {
it(`start`, async function() {
assert.deepEqual(await toArray(Channel.of(0, 1, 2).slice(1)), [1, 2]);
});
it(`end`, async function () {
assert.deepEqual(
await toArray(Channel.of(0, 1, 2, 3, 4).slice(1, 4)),
[1, 2, 3]
)
})
})
it(`end`, async function() {
assert.deepEqual(await toArray(Channel.of(0, 1, 2, 3, 4).slice(1, 4)), [
1,
2,
3
]);
});
});
it(`value`, async function () {
const channel = Channel()
it(`value`, async function() {
const channel = Channel();
(async () => {
await channel.push(0);
})();
;(async () => {
await channel.push(0)
})()
await channel.shift()
assert.equal(channel.value, 0)
await channel.shift();
assert.equal(channel.value, 0);
assert.throws(() => {
channel.value = 1
})
channel.value = 1;
});
channel.close()
await channel.shift()
assert.equal(channel.value, undefined)
})
channel.close();
await channel.shift();
assert.equal(channel.value, undefined);
});
describe(`writeOnly`, function () {
it(`provides only write methods`, async function () {
const channel = Channel()
const writeOnly = channel.writeOnly()
describe(`writeOnly`, function() {
it(`provides only write methods`, async function() {
const channel = Channel();
const writeOnly = channel.writeOnly();
assert.throws(() => {
writeOnly.readOnly()
})
writeOnly.readOnly();
});
assert.throws(() => {
writeOnly.shift()
})
writeOnly.shift();
});
assert.equal(writeOnly.value, undefined)
assert.equal(writeOnly.value, undefined);
(async () => {
await channel.shift();
})();
;(async () => {
await channel.shift()
})()
await writeOnly.push(0)
writeOnly.close()
await writeOnly.push(0);
writeOnly.close();
assert.throws(() => {
writeOnly.frozen = false
})
})
})
})
writeOnly.frozen = false;
});
});
});
});