var DELAY = 500; // In milliseconds.
var TIMEOUT = 2000; // In milliseconds. Used for most tests.
if (typeof(TIMEOUT_OVERRIDE) != 'undefined') {
TIMEOUT = TIMEOUT_OVERRIDE;
}
GLOBAL_TIMEOUT = TIMEOUT + 2000; // In milliseconds.
setup({timeout: GLOBAL_TIMEOUT});
var onstarted = false;
var neverFireTest = async_test('Events that should not fire');
var onstartTest = async_test('onstart');
var reco = new SpeechRecognition();
reco.onstart = onstartTest.step_func(function(event) {
assert_false(onstarted, 'onstart should only fire once.');
onstarted = true;
onstartTest.done();
beginTest();
});
reco.onend = function() {
neverFireTest.done();
for (var i = 0; i < doneOnEndTestList.length; i++) {
doneOnEndTestList[i].done();
}
};
function neverFireEvent(name) {
return neverFireTest.step_func(function(event) {
assert_unreached(name + ' should not fire.');
});
}
var doneOnEndTestList = []; // List of all test objects to call done at onend.
// Tally calls to count() and test against min/max when test ends.
// A max value of 0 indicates no maximum.
function CountTest(name, min, max) {
doneOnEndTestList.push(this);
this.name = name;
this.min = min;
this.max = max;
this.sum = 0;
this.asyncTest = async_test(name);
this.count = function(increment) { this.sum += increment; };
this.test = function() { return this.asyncTest; };
this.done = function() {
var cTest = this;
this.asyncTest.step(function() {
notes.innerHTML += cTest.name + ' occurred ' + cTest.sum + ' times.<br>';
if (cTest.min == cTest.max) {
assert_equals(cTest.sum, cTest.min, cTest.name + ' occurred ' +
cTest.sum + ' times and should have occurred ' +
cTest.min + ' times.');
} else {
assert_true(cTest.sum >= cTest.min, cTest.name + ' occurred ' +
cTest.sum + ' times and should have occurred at least ' +
cTest.min + ' times.');
assert_true(cTest.max == 0 || cTest.sum <= cTest.max, cTest.name +
' occurred ' + cTest.sum +
' times and should have occurred at most ' + cTest.max + ' times.');
}
if (cTest.whenDone) {
cTest.whenDone();
}
});
this.asyncTest.done();
};
}
// Test for proper cycling of startEvent followed by endEvent.
function CycleTest(name) {
doneOnEndTestList.push(this);
this.name = name;
this.count = 0; // Counts number of start / end cycles.
this.started = false; // Tracks whether last event was a start or end event.
this.test = async_test(name + ' start/stop');
this.startEvent = function() {
var cycle = this;
return this.test.step_func(function(event) {
assert_true(onstarted, cycle.name + 'start fired before onstart.');
assert_false(cycle.started, cycle.name + 'start fired twice without ' +
cycle.name + 'stop.');
cycle.started = true;
});
};
this.endEvent = function() {
var cycle = this;
return this.test.step_func(function(event) {
assert_true(cycle.started, cycle.name + 'end fired before ' +
cycle.name + 'start.');
cycle.started = false;
cycle.count += 1;
});
};
this.done = function() {
var cycle = this;
this.test.step(function() {
assert_false(cycle.started, cycle.name + 'start fired but not ' +
cycle.name + 'end.');
assert_true(cycle.count > 0, cycle.name + 'start never fired.');
notes.innerHTML += cycle.name + ' cycled ' + cycle.count + ' times.<br>';
});
this.test.done();
};
}