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eslint --fix

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David Baker 2021-07-01 20:43:05 +01:00
parent e3201eb20f
commit ee9be5438e
6 changed files with 301 additions and 344 deletions
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588
test/mock-clock.js
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@ -47,369 +47,366 @@ WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE.
const j$ = {};
j$.Clock = function() {
function Clock(global, delayedFunctionSchedulerFactory, mockDate) {
let self = this,
realTimingFunctions = {
function Clock(global, delayedFunctionSchedulerFactory, mockDate) {
const self = this;
const realTimingFunctions = {
setTimeout: global.setTimeout,
clearTimeout: global.clearTimeout,
setInterval: global.setInterval,
clearInterval: global.clearInterval,
},
fakeTimingFunctions = {
};
const fakeTimingFunctions = {
setTimeout: setTimeout,
clearTimeout: clearTimeout,
setInterval: setInterval,
clearInterval: clearInterval,
},
installed = false,
delayedFunctionScheduler,
timer;
};
let installed = false;
let delayedFunctionScheduler;
let timer;
self.install = function() {
if (!originalTimingFunctionsIntact()) {
throw new Error('Jasmine Clock was unable to install over custom global timer functions. Is the clock already installed?');
}
replace(global, fakeTimingFunctions);
timer = fakeTimingFunctions;
delayedFunctionScheduler = delayedFunctionSchedulerFactory();
installed = true;
self.install = function() {
if(!originalTimingFunctionsIntact()) {
throw new Error('Jasmine Clock was unable to install over custom global timer functions. Is the clock already installed?');
}
replace(global, fakeTimingFunctions);
timer = fakeTimingFunctions;
delayedFunctionScheduler = delayedFunctionSchedulerFactory();
installed = true;
return self;
};
return self;
};
self.uninstall = function() {
delayedFunctionScheduler = null;
mockDate.uninstall();
replace(global, realTimingFunctions);
self.uninstall = function() {
delayedFunctionScheduler = null;
mockDate.uninstall();
replace(global, realTimingFunctions);
timer = realTimingFunctions;
installed = false;
};
timer = realTimingFunctions;
installed = false;
};
self.withMock = function(closure) {
this.install();
try {
closure();
} finally {
this.uninstall();
}
};
self.withMock = function(closure) {
this.install();
try {
closure();
} finally {
this.uninstall();
}
};
self.mockDate = function(initialDate) {
mockDate.install(initialDate);
};
self.mockDate = function(initialDate) {
mockDate.install(initialDate);
};
self.setTimeout = function(fn, delay, params) {
if (legacyIE()) {
if (arguments.length > 2) {
throw new Error('IE < 9 cannot support extra params to setTimeout without a polyfill');
}
return timer.setTimeout(fn, delay);
}
return Function.prototype.apply.apply(timer.setTimeout, [global, arguments]);
};
self.setTimeout = function(fn, delay, params) {
if (legacyIE()) {
if (arguments.length > 2) {
throw new Error('IE < 9 cannot support extra params to setTimeout without a polyfill');
}
return timer.setTimeout(fn, delay);
}
return Function.prototype.apply.apply(timer.setTimeout, [global, arguments]);
};
self.setInterval = function(fn, delay, params) {
if (legacyIE()) {
if (arguments.length > 2) {
throw new Error('IE < 9 cannot support extra params to setInterval without a polyfill');
}
return timer.setInterval(fn, delay);
}
return Function.prototype.apply.apply(timer.setInterval, [global, arguments]);
};
self.setInterval = function(fn, delay, params) {
if (legacyIE()) {
if (arguments.length > 2) {
throw new Error('IE < 9 cannot support extra params to setInterval without a polyfill');
}
return timer.setInterval(fn, delay);
}
return Function.prototype.apply.apply(timer.setInterval, [global, arguments]);
};
self.clearTimeout = function(id) {
return Function.prototype.call.apply(timer.clearTimeout, [global, id]);
};
self.clearTimeout = function(id) {
return Function.prototype.call.apply(timer.clearTimeout, [global, id]);
};
self.clearInterval = function(id) {
return Function.prototype.call.apply(timer.clearInterval, [global, id]);
};
self.clearInterval = function(id) {
return Function.prototype.call.apply(timer.clearInterval, [global, id]);
};
self.tick = function(millis) {
if (installed) {
mockDate.tick(millis);
delayedFunctionScheduler.tick(millis);
} else {
throw new Error('Mock clock is not installed, use jasmine.clock().install()');
}
};
self.tick = function(millis) {
if (installed) {
mockDate.tick(millis);
delayedFunctionScheduler.tick(millis);
} else {
throw new Error('Mock clock is not installed, use jasmine.clock().install()');
}
};
return self;
return self;
function originalTimingFunctionsIntact() {
return global.setTimeout === realTimingFunctions.setTimeout &&
function originalTimingFunctionsIntact() {
return global.setTimeout === realTimingFunctions.setTimeout &&
global.clearTimeout === realTimingFunctions.clearTimeout &&
global.setInterval === realTimingFunctions.setInterval &&
global.clearInterval === realTimingFunctions.clearInterval;
}
function legacyIE() {
//if these methods are polyfilled, apply will be present
return !(realTimingFunctions.setTimeout || realTimingFunctions.setInterval).apply;
}
function replace(dest, source) {
for (const prop in source) {
dest[prop] = source[prop];
}
}
function setTimeout(fn, delay) {
return delayedFunctionScheduler.scheduleFunction(fn, delay, argSlice(arguments, 2));
}
function clearTimeout(id) {
return delayedFunctionScheduler.removeFunctionWithId(id);
}
function setInterval(fn, interval) {
return delayedFunctionScheduler.scheduleFunction(fn, interval, argSlice(arguments, 2), true);
}
function clearInterval(id) {
return delayedFunctionScheduler.removeFunctionWithId(id);
}
function argSlice(argsObj, n) {
return Array.prototype.slice.call(argsObj, n);
}
}
function legacyIE() {
//if these methods are polyfilled, apply will be present
return !(realTimingFunctions.setTimeout || realTimingFunctions.setInterval).apply;
}
function replace(dest, source) {
for (const prop in source) {
dest[prop] = source[prop];
}
}
function setTimeout(fn, delay) {
return delayedFunctionScheduler.scheduleFunction(fn, delay, argSlice(arguments, 2));
}
function clearTimeout(id) {
return delayedFunctionScheduler.removeFunctionWithId(id);
}
function setInterval(fn, interval) {
return delayedFunctionScheduler.scheduleFunction(fn, interval, argSlice(arguments, 2), true);
}
function clearInterval(id) {
return delayedFunctionScheduler.removeFunctionWithId(id);
}
function argSlice(argsObj, n) {
return Array.prototype.slice.call(argsObj, n);
}
}
return Clock;
return Clock;
}();
j$.DelayedFunctionScheduler = function() {
function DelayedFunctionScheduler() {
const self = this;
const scheduledLookup = [];
const scheduledFunctions = {};
let currentTime = 0;
let delayedFnCount = 0;
function DelayedFunctionScheduler() {
const self = this;
const scheduledLookup = [];
const scheduledFunctions = {};
let currentTime = 0;
let delayedFnCount = 0;
self.tick = function(millis) {
millis = millis || 0;
const endTime = currentTime + millis;
self.tick = function(millis) {
millis = millis || 0;
const endTime = currentTime + millis;
runScheduledFunctions(endTime);
currentTime = endTime;
};
runScheduledFunctions(endTime);
currentTime = endTime;
};
self.scheduleFunction = function(funcToCall, millis, params, recurring, timeoutKey, runAtMillis) {
let f;
if (typeof(funcToCall) === 'string') {
/* jshint evil: true */
f = function() { return eval(funcToCall); };
/* jshint evil: false */
} else {
f = funcToCall;
}
self.scheduleFunction = function(funcToCall, millis, params, recurring, timeoutKey, runAtMillis) {
let f;
if (typeof(funcToCall) === 'string') {
/* jshint evil: true */
f = function() { return eval(funcToCall); };
/* jshint evil: false */
} else {
f = funcToCall;
}
millis = millis || 0;
timeoutKey = timeoutKey || ++delayedFnCount;
runAtMillis = runAtMillis || (currentTime + millis);
millis = millis || 0;
timeoutKey = timeoutKey || ++delayedFnCount;
runAtMillis = runAtMillis || (currentTime + millis);
const funcToSchedule = {
const funcToSchedule = {
runAtMillis: runAtMillis,
funcToCall: f,
recurring: recurring,
params: params,
timeoutKey: timeoutKey,
millis: millis,
};
};
if (runAtMillis in scheduledFunctions) {
scheduledFunctions[runAtMillis].push(funcToSchedule);
} else {
scheduledFunctions[runAtMillis] = [funcToSchedule];
scheduledLookup.push(runAtMillis);
scheduledLookup.sort(function(a, b) {
return a - b;
});
}
if (runAtMillis in scheduledFunctions) {
scheduledFunctions[runAtMillis].push(funcToSchedule);
} else {
scheduledFunctions[runAtMillis] = [funcToSchedule];
scheduledLookup.push(runAtMillis);
scheduledLookup.sort(function(a, b) {
return a - b;
});
}
return timeoutKey;
};
return timeoutKey;
};
self.removeFunctionWithId = function(timeoutKey) {
for (const runAtMillis in scheduledFunctions) {
const funcs = scheduledFunctions[runAtMillis];
const i = indexOfFirstToPass(funcs, function(func) {
return func.timeoutKey === timeoutKey;
});
self.removeFunctionWithId = function(timeoutKey) {
for (const runAtMillis in scheduledFunctions) {
const funcs = scheduledFunctions[runAtMillis];
const i = indexOfFirstToPass(funcs, function(func) {
return func.timeoutKey === timeoutKey;
});
if (i > -1) {
if (funcs.length === 1) {
delete scheduledFunctions[runAtMillis];
deleteFromLookup(runAtMillis);
} else {
funcs.splice(i, 1);
}
if (i > -1) {
if (funcs.length === 1) {
delete scheduledFunctions[runAtMillis];
deleteFromLookup(runAtMillis);
} else {
funcs.splice(i, 1);
}
// intervals get rescheduled when executed, so there's never more
// than a single scheduled function with a given timeoutKey
break;
// intervals get rescheduled when executed, so there's never more
// than a single scheduled function with a given timeoutKey
break;
}
}
};
return self;
function indexOfFirstToPass(array, testFn) {
let index = -1;
for (let i = 0; i < array.length; ++i) {
if (testFn(array[i])) {
index = i;
break;
}
}
return index;
}
}
};
return self;
function deleteFromLookup(key) {
const value = Number(key);
const i = indexOfFirstToPass(scheduledLookup, function(millis) {
return millis === value;
});
function indexOfFirstToPass(array, testFn) {
let index = -1;
for (let i = 0; i < array.length; ++i) {
if (testFn(array[i])) {
index = i;
break;
if (i > -1) {
scheduledLookup.splice(i, 1);
}
}
}
return index;
}
function reschedule(scheduledFn) {
self.scheduleFunction(scheduledFn.funcToCall,
scheduledFn.millis,
scheduledFn.params,
true,
scheduledFn.timeoutKey,
scheduledFn.runAtMillis + scheduledFn.millis);
}
function deleteFromLookup(key) {
const value = Number(key);
const i = indexOfFirstToPass(scheduledLookup, function(millis) {
return millis === value;
});
function forEachFunction(funcsToRun, callback) {
for (let i = 0; i < funcsToRun.length; ++i) {
callback(funcsToRun[i]);
}
}
if (i > -1) {
scheduledLookup.splice(i, 1);
}
}
function runScheduledFunctions(endTime) {
if (scheduledLookup.length === 0 || scheduledLookup[0] > endTime) {
return;
}
function reschedule(scheduledFn) {
self.scheduleFunction(scheduledFn.funcToCall,
scheduledFn.millis,
scheduledFn.params,
true,
scheduledFn.timeoutKey,
scheduledFn.runAtMillis + scheduledFn.millis);
}
do {
currentTime = scheduledLookup.shift();
function forEachFunction(funcsToRun, callback) {
for (let i = 0; i < funcsToRun.length; ++i) {
callback(funcsToRun[i]);
}
}
const funcsToRun = scheduledFunctions[currentTime];
delete scheduledFunctions[currentTime];
function runScheduledFunctions(endTime) {
if (scheduledLookup.length === 0 || scheduledLookup[0] > endTime) {
return;
}
forEachFunction(funcsToRun, function(funcToRun) {
if (funcToRun.recurring) {
reschedule(funcToRun);
}
});
do {
currentTime = scheduledLookup.shift();
const funcsToRun = scheduledFunctions[currentTime];
delete scheduledFunctions[currentTime];
forEachFunction(funcsToRun, function(funcToRun) {
if (funcToRun.recurring) {
reschedule(funcToRun);
}
});
forEachFunction(funcsToRun, function(funcToRun) {
funcToRun.funcToCall.apply(null, funcToRun.params || []);
});
} while (scheduledLookup.length > 0 &&
// checking first if we're out of time prevents setTimeout(0)
// scheduled in a funcToRun from forcing an extra iteration
forEachFunction(funcsToRun, function(funcToRun) {
funcToRun.funcToCall.apply(null, funcToRun.params || []);
});
} while (scheduledLookup.length > 0 &&
// checking first if we're out of time prevents setTimeout(0)
// scheduled in a funcToRun from forcing an extra iteration
currentTime !== endTime &&
scheduledLookup[0] <= endTime);
}
}
}
return DelayedFunctionScheduler;
return DelayedFunctionScheduler;
}();
j$.MockDate = function() {
function MockDate(global) {
const self = this;
let currentTime = 0;
function MockDate(global) {
const self = this;
let currentTime = 0;
if (!global || !global.Date) {
self.install = function() {};
self.tick = function() {};
self.uninstall = function() {};
return self;
}
const GlobalDate = global.Date;
self.install = function(mockDate) {
if (mockDate instanceof GlobalDate) {
currentTime = mockDate.getTime();
} else {
currentTime = new GlobalDate().getTime();
}
global.Date = FakeDate;
};
self.tick = function(millis) {
millis = millis || 0;
currentTime = currentTime + millis;
};
self.uninstall = function() {
currentTime = 0;
global.Date = GlobalDate;
};
createDateProperties();
return self;
function FakeDate() {
switch(arguments.length) {
case 0:
return new GlobalDate(currentTime);
case 1:
return new GlobalDate(arguments[0]);
case 2:
return new GlobalDate(arguments[0], arguments[1]);
case 3:
return new GlobalDate(arguments[0], arguments[1], arguments[2]);
case 4:
return new GlobalDate(arguments[0], arguments[1], arguments[2], arguments[3]);
case 5:
return new GlobalDate(arguments[0], arguments[1], arguments[2], arguments[3],
arguments[4]);
case 6:
return new GlobalDate(arguments[0], arguments[1], arguments[2], arguments[3],
arguments[4], arguments[5]);
default:
return new GlobalDate(arguments[0], arguments[1], arguments[2], arguments[3],
arguments[4], arguments[5], arguments[6]);
}
}
function createDateProperties() {
FakeDate.prototype = GlobalDate.prototype;
FakeDate.now = function() {
if (GlobalDate.now) {
return currentTime;
} else {
throw new Error('Browser does not support Date.now()');
if (!global || !global.Date) {
self.install = function() {};
self.tick = function() {};
self.uninstall = function() {};
return self;
}
};
FakeDate.toSource = GlobalDate.toSource;
FakeDate.toString = GlobalDate.toString;
FakeDate.parse = GlobalDate.parse;
FakeDate.UTC = GlobalDate.UTC;
const GlobalDate = global.Date;
self.install = function(mockDate) {
if (mockDate instanceof GlobalDate) {
currentTime = mockDate.getTime();
} else {
currentTime = new GlobalDate().getTime();
}
global.Date = FakeDate;
};
self.tick = function(millis) {
millis = millis || 0;
currentTime = currentTime + millis;
};
self.uninstall = function() {
currentTime = 0;
global.Date = GlobalDate;
};
createDateProperties();
return self;
function FakeDate() {
switch (arguments.length) {
case 0:
return new GlobalDate(currentTime);
case 1:
return new GlobalDate(arguments[0]);
case 2:
return new GlobalDate(arguments[0], arguments[1]);
case 3:
return new GlobalDate(arguments[0], arguments[1], arguments[2]);
case 4:
return new GlobalDate(arguments[0], arguments[1], arguments[2], arguments[3]);
case 5:
return new GlobalDate(arguments[0], arguments[1], arguments[2], arguments[3],
arguments[4]);
case 6:
return new GlobalDate(arguments[0], arguments[1], arguments[2], arguments[3],
arguments[4], arguments[5]);
default:
return new GlobalDate(arguments[0], arguments[1], arguments[2], arguments[3],
arguments[4], arguments[5], arguments[6]);
}
}
function createDateProperties() {
FakeDate.prototype = GlobalDate.prototype;
FakeDate.now = function() {
if (GlobalDate.now) {
return currentTime;
} else {
throw new Error('Browser does not support Date.now()');
}
};
FakeDate.toSource = GlobalDate.toSource;
FakeDate.toString = GlobalDate.toString;
FakeDate.parse = GlobalDate.parse;
FakeDate.UTC = GlobalDate.UTC;
}
}
}
return MockDate;
return MockDate;
}();
const _clock = new j$.Clock(global, function() { return new j$.DelayedFunctionScheduler(); }, new j$.MockDate(global));
@ -418,4 +415,3 @@ export function clock() {
return _clock;
}