// ========================================================================== // Project: SproutCore
// License: Licensed under MIT license // ========================================================================== /*globals CoreTest, module, test, ok, equals, same, expect, start, stop */
var gesture; module(“SC.SwipeGesture”, {
setup: function () { gesture = SC.SwipeGesture; }, teardown: function () { if (gesture.destroy) { gesture.destroy(); } gesture = null; }
});
/* Properties */ test(“Default Properties:”, function () {
gesture = gesture.create(); equals(gesture.name, 'swipe', "The default value of name is");
});
/* Methods */ // This method tests the given angle against an approved angle within tolerance. test(“Method: _sc_testAngle”, function () {
gesture = gesture.create({}); var testAngle, targetAngle; // Test the target angle 0°. targetAngle = 0; testAngle = 6; equals(gesture._sc_testAngle(Math.abs(testAngle), testAngle >= 0, targetAngle, 5), false, "If the angle, %@, is outside of the positive tolerance for target, %@°, the method returns".fmt(testAngle, targetAngle)); testAngle = 5; equals(gesture._sc_testAngle(Math.abs(testAngle), testAngle >= 0, targetAngle, 5), true, "If the angle, %@, is equal to the positive tolerance for target, %@°, the method returns".fmt(testAngle, targetAngle)); testAngle = 4; equals(gesture._sc_testAngle(Math.abs(testAngle), testAngle >= 0, targetAngle, 5), true, "If the angle, %@, is within the positive tolerance for target, %@°, the method returns".fmt(testAngle, targetAngle)); testAngle = 0; equals(gesture._sc_testAngle(Math.abs(testAngle), testAngle >= 0, targetAngle, 5), true, "If the angle, %@, is equal to the target angle for target, %@°, the method returns".fmt(testAngle, targetAngle)); testAngle = -4; equals(gesture._sc_testAngle(Math.abs(testAngle), testAngle >= 0, targetAngle, 5), true, "If the angle, %@, is within the negative tolerance for target, %@°, the method returns".fmt(testAngle, targetAngle)); testAngle = -5; equals(gesture._sc_testAngle(Math.abs(testAngle), testAngle >= 0, targetAngle, 5), true, "If the angle, %@, is equal to the negative tolerance for target, %@°, the method returns".fmt(testAngle, targetAngle)); testAngle = -6; equals(gesture._sc_testAngle(Math.abs(testAngle), testAngle >= 0, targetAngle, 5), false, "If the angle, %@, is outside of the negative tolerance for target, %@°, the method returns".fmt(testAngle, targetAngle)); // Test the target angle 180°. targetAngle = 180; testAngle = -174; equals(gesture._sc_testAngle(Math.abs(testAngle), testAngle >= 0, targetAngle, 5), false, "If the angle, %@, is outside of the positive tolerance for target, %@°, the method returns".fmt(testAngle, targetAngle)); testAngle = -175; equals(gesture._sc_testAngle(Math.abs(testAngle), testAngle >= 0, targetAngle, 5), true, "If the angle, %@, is equal to the positive tolerance for target, %@°, the method returns".fmt(testAngle, targetAngle)); testAngle = -176; equals(gesture._sc_testAngle(Math.abs(testAngle), testAngle >= 0, targetAngle, 5), true, "If the angle, %@, is within the positive tolerance for target, %@°, the method returns".fmt(testAngle, targetAngle)); testAngle = 180; equals(gesture._sc_testAngle(Math.abs(testAngle), testAngle >= 0, targetAngle, 5), true, "If the angle, %@, is equal to the target angle for target, %@°, the method returns".fmt(testAngle, targetAngle)); testAngle = 176; equals(gesture._sc_testAngle(Math.abs(testAngle), testAngle >= 0, targetAngle, 5), true, "If the angle, %@, is within the negative tolerance for target, %@°, the method returns".fmt(testAngle, targetAngle)); testAngle = 175; equals(gesture._sc_testAngle(Math.abs(testAngle), testAngle >= 0, targetAngle, 5), true, "If the angle, %@, is equal to the negative tolerance for target, %@°, the method returns".fmt(testAngle, targetAngle)); testAngle = 174; equals(gesture._sc_testAngle(Math.abs(testAngle), testAngle >= 0, targetAngle, 5), false, "If the angle, %@, is outside of the negative tolerance for target, %@°, the method returns".fmt(testAngle, targetAngle)); // Test the target angle -180°. targetAngle = -180; testAngle = -174; equals(gesture._sc_testAngle(Math.abs(testAngle), testAngle >= 0, targetAngle, 5), false, "If the angle, %@, is outside of the positive tolerance for target, %@°, the method returns".fmt(testAngle, targetAngle)); testAngle = -175; equals(gesture._sc_testAngle(Math.abs(testAngle), testAngle >= 0, targetAngle, 5), true, "If the angle, %@, is equal to the positive tolerance for target, %@°, the method returns".fmt(testAngle, targetAngle)); testAngle = -176; equals(gesture._sc_testAngle(Math.abs(testAngle), testAngle >= 0, targetAngle, 5), true, "If the angle, %@, is within the positive tolerance for target, %@°, the method returns".fmt(testAngle, targetAngle)); testAngle = 180; equals(gesture._sc_testAngle(Math.abs(testAngle), testAngle >= 0, targetAngle, 5), true, "If the angle, %@, is equal to the target angle for target, %@°, the method returns".fmt(testAngle, targetAngle)); testAngle = 176; equals(gesture._sc_testAngle(Math.abs(testAngle), testAngle >= 0, targetAngle, 5), true, "If the angle, %@, is within the negative tolerance for target, %@°, the method returns".fmt(testAngle, targetAngle)); testAngle = 175; equals(gesture._sc_testAngle(Math.abs(testAngle), testAngle >= 0, targetAngle, 5), true, "If the angle, %@, is equal to the negative tolerance for target, %@°, the method returns".fmt(testAngle, targetAngle)); testAngle = 174; equals(gesture._sc_testAngle(Math.abs(testAngle), testAngle >= 0, targetAngle, 5), false, "If the angle, %@, is outside of the negative tolerance for target, %@°, the method returns".fmt(testAngle, targetAngle)); // Test the target angle 90°. targetAngle = 90; testAngle = 96; equals(gesture._sc_testAngle(Math.abs(testAngle), testAngle >= 0, targetAngle, 5), false, "If the angle, %@, is outside of the positive tolerance for target, %@°, the method returns".fmt(testAngle, targetAngle)); testAngle = 95; equals(gesture._sc_testAngle(Math.abs(testAngle), testAngle >= 0, targetAngle, 5), true, "If the angle, %@, is equal to the positive tolerance for target, %@°, the method returns".fmt(testAngle, targetAngle)); testAngle = 94; equals(gesture._sc_testAngle(Math.abs(testAngle), testAngle >= 0, targetAngle, 5), true, "If the angle, %@, is within the positive tolerance for target, %@°, the method returns".fmt(testAngle, targetAngle)); testAngle = 90; equals(gesture._sc_testAngle(Math.abs(testAngle), testAngle >= 0, targetAngle, 5), true, "If the angle, %@, is equal to the target angle for target, %@°, the method returns".fmt(testAngle, targetAngle)); testAngle = 86; equals(gesture._sc_testAngle(Math.abs(testAngle), testAngle >= 0, targetAngle, 5), true, "If the angle, %@, is within the negative tolerance for target, %@°, the method returns".fmt(testAngle, targetAngle)); testAngle = 85; equals(gesture._sc_testAngle(Math.abs(testAngle), testAngle >= 0, targetAngle, 5), true, "If the angle, %@, is equal to the negative tolerance for target, %@°, the method returns".fmt(testAngle, targetAngle)); testAngle = 84; equals(gesture._sc_testAngle(Math.abs(testAngle), testAngle >= 0, targetAngle, 5), false, "If the angle, %@, is outside of the negative tolerance for target, %@°, the method returns".fmt(testAngle, targetAngle)); testAngle = -90; equals(gesture._sc_testAngle(Math.abs(testAngle), testAngle >= 0, targetAngle, 5), false, "If the angle, %@, is the inverse of the target, %@°, the method returns".fmt(testAngle, targetAngle)); // Test the target angle -90°. targetAngle = -90; testAngle = -96; equals(gesture._sc_testAngle(Math.abs(testAngle), testAngle >= 0, targetAngle, 5), false, "If the angle, %@, is outside of the positive tolerance for target, %@°, the method returns".fmt(testAngle, targetAngle)); testAngle = -95; equals(gesture._sc_testAngle(Math.abs(testAngle), testAngle >= 0, targetAngle, 5), true, "If the angle, %@, is equal to the positive tolerance for target, %@°, the method returns".fmt(testAngle, targetAngle)); testAngle = -94; equals(gesture._sc_testAngle(Math.abs(testAngle), testAngle >= 0, targetAngle, 5), true, "If the angle, %@, is within the positive tolerance for target, %@°, the method returns".fmt(testAngle, targetAngle)); testAngle = -90; equals(gesture._sc_testAngle(Math.abs(testAngle), testAngle >= 0, targetAngle, 5), true, "If the angle, %@, is equal to the target angle for target, %@°, the method returns".fmt(testAngle, targetAngle)); testAngle = -86; equals(gesture._sc_testAngle(Math.abs(testAngle), testAngle >= 0, targetAngle, 5), true, "If the angle, %@, is within the negative tolerance for target, %@°, the method returns".fmt(testAngle, targetAngle)); testAngle = -85; equals(gesture._sc_testAngle(Math.abs(testAngle), testAngle >= 0, targetAngle, 5), true, "If the angle, %@, is equal to the negative tolerance for target, %@°, the method returns".fmt(testAngle, targetAngle)); testAngle = -84; equals(gesture._sc_testAngle(Math.abs(testAngle), testAngle >= 0, targetAngle, 5), false, "If the angle, %@, is outside of the negative tolerance for target, %@°, the method returns".fmt(testAngle, targetAngle)); testAngle = 90; equals(gesture._sc_testAngle(Math.abs(testAngle), testAngle >= 0, targetAngle, 5), false, "If the angle, %@, is the inverse of the target, %@°, the method returns".fmt(testAngle, targetAngle));
});