/* -*- indent-tabs-mode: nil; js-indent-level: 2 -*- */ /* vim: set ts=2 sw=2 sts=2 et: */ /* This Source Code Form is subject to the terms of the Mozilla Public * License, v. 2.0. If a copy of the MPL was not distributed with this * file, You can obtain one at http://mozilla.org/MPL/2.0/. */ /* testcase data for */ // Fake motion 'attribute', to satisfy testing code that expects an attribute. var gMotionAttr = new AdditiveAttribute(SMILUtil.getMotionFakeAttributeName(), "XML", "rect"); // CTM-summary-definitions, for re-use by multiple testcase bundles below. var _reusedCTMLists = { pacedBasic: { ctm0: [100, 200, 0], ctm1_6: [105, 205, 0], ctm1_3: [110, 210, 0], ctm2_3: [120, 220, 0], ctm1: [130, 210, 0] }, pacedR60: { ctm0: [100, 200, Math.PI/3], ctm1_6: [105, 205, Math.PI/3], ctm1_3: [110, 210, Math.PI/3], ctm2_3: [120, 220, Math.PI/3], ctm1: [130, 210, Math.PI/3] }, pacedRAuto: { ctm0: [100, 200, Math.PI/4], ctm1_6: [105, 205, Math.PI/4], ctm1_3: [110, 210, Math.PI/4], ctm2_3: [120, 220, -Math.PI/4], ctm1: [130, 210, -Math.PI/4] }, pacedRAutoReverse : { ctm0: [100, 200, 5*Math.PI/4], ctm1_6: [105, 205, 5*Math.PI/4], ctm1_3: [110, 210, 5*Math.PI/4], ctm2_3: [120, 220, 3*Math.PI/4], ctm1: [130, 210, 3*Math.PI/4] }, discreteBasic : { ctm0: [100, 200, 0], ctm1_6: [100, 200, 0], ctm1_3: [120, 220, 0], ctm2_3: [130, 210, 0], ctm1: [130, 210, 0] }, discreteRAuto : { ctm0: [100, 200, Math.PI/4], ctm1_6: [100, 200, Math.PI/4], ctm1_3: [120, 220, -Math.PI/4], ctm2_3: [130, 210, -Math.PI/4], ctm1: [130, 210, -Math.PI/4] }, justMoveBasic : { ctm0: [40, 80, 0], ctm1_6: [40, 80, 0], ctm1_3: [40, 80, 0], ctm2_3: [40, 80, 0], ctm1: [40, 80, 0] }, justMoveR60 : { ctm0: [40, 80, Math.PI/3], ctm1_6: [40, 80, Math.PI/3], ctm1_3: [40, 80, Math.PI/3], ctm2_3: [40, 80, Math.PI/3], ctm1: [40, 80, Math.PI/3] }, justMoveRAuto : { ctm0: [40, 80, Math.atan(2)], ctm1_6: [40, 80, Math.atan(2)], ctm1_3: [40, 80, Math.atan(2)], ctm2_3: [40, 80, Math.atan(2)], ctm1: [40, 80, Math.atan(2)] }, justMoveRAutoReverse : { ctm0: [40, 80, Math.PI + Math.atan(2)], ctm1_6: [40, 80, Math.PI + Math.atan(2)], ctm1_3: [40, 80, Math.PI + Math.atan(2)], ctm2_3: [40, 80, Math.PI + Math.atan(2)], ctm1: [40, 80, Math.PI + Math.atan(2)] }, nullMoveBasic : { ctm0: [0, 0, 0], ctm1_6: [0, 0, 0], ctm1_3: [0, 0, 0], ctm2_3: [0, 0, 0], ctm1: [0, 0, 0] }, nullMoveRAutoReverse : { ctm0: [0, 0, Math.PI], ctm1_6: [0, 0, Math.PI], ctm1_3: [0, 0, Math.PI], ctm2_3: [0, 0, Math.PI], ctm1: [0, 0, Math.PI] }, }; var gMotionBundles = [ // Bundle to test basic functionality (using default calcMode='paced') new TestcaseBundle(gMotionAttr, [ // Basic paced-mode (default) test, with values/mpath/path new AnimMotionTestcase({ "values": "100, 200; 120, 220; 130, 210" }, _reusedCTMLists.pacedBasic), new AnimMotionTestcase({ "path": "M100 200 L120 220 L130 210" }, _reusedCTMLists.pacedBasic), new AnimMotionTestcase({ "mpath": "M100 200 L120 220 L130 210" }, _reusedCTMLists.pacedBasic), // ..and now with rotate=constant value in degrees new AnimMotionTestcase({ "values": "100,200; 120,220; 130, 210", "rotate": "60" }, _reusedCTMLists.pacedR60), new AnimMotionTestcase({ "path": "M100 200 L120 220 L130 210", "rotate": "60" }, _reusedCTMLists.pacedR60), new AnimMotionTestcase({ "mpath": "M100 200 L120 220 L130 210", "rotate": "60" }, _reusedCTMLists.pacedR60), // ..and now with rotate=constant value in radians new AnimMotionTestcase({ "path": "M100 200 L120 220 L130 210", "rotate": "1.0471975512rad" }, // pi/3 _reusedCTMLists.pacedR60), // ..and now with rotate=auto new AnimMotionTestcase({ "values": "100,200; 120,220; 130, 210", "rotate": "auto" }, _reusedCTMLists.pacedRAuto), new AnimMotionTestcase({ "path": "M100 200 L120 220 L130 210", "rotate": "auto" }, _reusedCTMLists.pacedRAuto), new AnimMotionTestcase({ "mpath": "M100 200 L120 220 L130 210", "rotate": "auto" }, _reusedCTMLists.pacedRAuto), // ..and now with rotate=auto-reverse new AnimMotionTestcase({ "values": "100,200; 120,220; 130, 210", "rotate": "auto-reverse" }, _reusedCTMLists.pacedRAutoReverse), new AnimMotionTestcase({ "path": "M100 200 L120 220 L130 210", "rotate": "auto-reverse" }, _reusedCTMLists.pacedRAutoReverse), new AnimMotionTestcase({ "mpath": "M100 200 L120 220 L130 210", "rotate": "auto-reverse" }, _reusedCTMLists.pacedRAutoReverse), ]), // Bundle to test calcMode='discrete' new TestcaseBundle(gMotionAttr, [ new AnimMotionTestcase({ "values": "100, 200; 120, 220; 130, 210", "calcMode": "discrete" }, _reusedCTMLists.discreteBasic), new AnimMotionTestcase({ "path": "M100 200 L120 220 L130 210", "calcMode": "discrete" }, _reusedCTMLists.discreteBasic), new AnimMotionTestcase({ "mpath": "M100 200 L120 220 L130 210", "calcMode": "discrete" }, _reusedCTMLists.discreteBasic), // ..and now with rotate=auto new AnimMotionTestcase({ "values": "100, 200; 120, 220; 130, 210", "calcMode": "discrete", "rotate": "auto" }, _reusedCTMLists.discreteRAuto), new AnimMotionTestcase({ "path": "M100 200 L120 220 L130 210", "calcMode": "discrete", "rotate": "auto" }, _reusedCTMLists.discreteRAuto), new AnimMotionTestcase({ "mpath": "M100 200 L120 220 L130 210", "calcMode": "discrete", "rotate": "auto" }, _reusedCTMLists.discreteRAuto), ]), // Bundle to test relative units ('em') new TestcaseBundle(gMotionAttr, [ // First with unitless values from->by... new AnimMotionTestcase({ "from": "10, 10", "by": "30, 60" }, { ctm0: [10, 10, 0], ctm1_6: [15, 20, 0], ctm1_3: [20, 30, 0], ctm2_3: [30, 50, 0], ctm1: [40, 70, 0] }), // ... then add 'em' units (with 1em=10px) on half the values new AnimMotionTestcase({ "from": "1em, 10", "by": "30, 6em" }, { ctm0: [10, 10, 0], ctm1_6: [15, 20, 0], ctm1_3: [20, 30, 0], ctm2_3: [30, 50, 0], ctm1: [40, 70, 0] }), ]), // Bundle to test a path with just a "move" command and nothing else new TestcaseBundle(gMotionAttr, [ new AnimMotionTestcase({ "values": "40, 80" }, _reusedCTMLists.justMoveBasic), new AnimMotionTestcase({ "path": "M40 80" }, _reusedCTMLists.justMoveBasic), new AnimMotionTestcase({ "mpath": "m40 80" }, _reusedCTMLists.justMoveBasic), ]), // ... and now with a fixed rotate-angle new TestcaseBundle(gMotionAttr, [ new AnimMotionTestcase({ "values": "40, 80", "rotate": "60" }, _reusedCTMLists.justMoveR60), new AnimMotionTestcase({ "path": "M40 80", "rotate": "60" }, _reusedCTMLists.justMoveR60), new AnimMotionTestcase({ "mpath": "m40 80", "rotate": "60" }, _reusedCTMLists.justMoveR60), ]), // ... and now with 'auto' (should use the move itself as // our tangent angle, I think) new TestcaseBundle(gMotionAttr, [ new AnimMotionTestcase({ "values": "40, 80", "rotate": "auto" }, _reusedCTMLists.justMoveRAuto), new AnimMotionTestcase({ "path": "M40 80", "rotate": "auto" }, _reusedCTMLists.justMoveRAuto), new AnimMotionTestcase({ "mpath": "m40 80", "rotate": "auto" }, _reusedCTMLists.justMoveRAuto), ]), // ... and now with 'auto-reverse' new TestcaseBundle(gMotionAttr, [ new AnimMotionTestcase({ "values": "40, 80", "rotate": "auto-reverse" }, _reusedCTMLists.justMoveRAutoReverse), new AnimMotionTestcase({ "path": "M40 80", "rotate": "auto-reverse" }, _reusedCTMLists.justMoveRAutoReverse), new AnimMotionTestcase({ "mpath": "m40 80", "rotate": "auto-reverse" }, _reusedCTMLists.justMoveRAutoReverse), ]), // ... and now with a null move to make sure 'auto'/'auto-reverse' don't // blow up new TestcaseBundle(gMotionAttr, [ new AnimMotionTestcase({ "values": "0, 0", "rotate": "auto" }, _reusedCTMLists.nullMoveBasic), ]), new TestcaseBundle(gMotionAttr, [ new AnimMotionTestcase({ "values": "0, 0", "rotate": "auto-reverse" }, _reusedCTMLists.nullMoveRAutoReverse), ]), ]; // XXXdholbert Add more tests: // - keyPoints/keyTimes // - paths with curves // - Control path with from/by/to