/* eslint-disable */ /* global $, describe, it, xit, xdescribe, after, afterEach, expect*/ describe("flot touch navigate plugin", function () { var placeholder, plot, options; var minFrameDuration = 1 / 60 * 1000; beforeEach(function () { placeholder = setFixtures('

') .find('#test-container'); options = { xaxes: [{ autoScale: 'exact' }], yaxes: [{ autoScale: 'exact' }], zoom: { interactive: true, active: true, amount: 10, enableTouch: true }, pan: { interactive: true, active: true, frameRate: -1, enableTouch: true } }; jasmine.clock().install(); }); afterEach(function() { jasmine.clock().uninstall(); }); it('shows that the eventHolder is cleared through shutdown when the plot is replaced', function() { plot = $.plot(placeholder, [[]], options); var eventPlaceholder = plot.getEventHolder(), spy = spyOn(eventPlaceholder, 'removeEventListener').and.callThrough(); plot = $.plot(placeholder, [[]], options); expect(spy).toHaveBeenCalledWith('panstart', jasmine.any(Function)) expect(spy).toHaveBeenCalledWith('pandrag', jasmine.any(Function)); expect(spy).toHaveBeenCalledWith('panend', jasmine.any(Function)); }); var simulateTouchEvent = function (coords, eventHolder, eventName) { simulate.sendTouchEvents(coords, eventHolder, eventName); jasmine.clock().tick(minFrameDuration); } describe('touchZoom', function() { it('should zoom the plot',function() { plot = $.plot(placeholder, [ [ [-1, 2], [11, 12] ] ], options); var eventHolder = plot.getEventHolder(), xaxis = plot.getXAxes()[0], yaxis = plot.getYAxes()[0], initialXmin = xaxis.min, initialXmax = xaxis.max, initialYmin = yaxis.min, initialYmax = yaxis.max, initialCoords = [ getPairOfCoords(xaxis, yaxis, 3, 5), getPairOfCoords(xaxis, yaxis, 7, 9) ], finalCoords = [ getPairOfCoords(xaxis, yaxis, 2, 4), getPairOfCoords(xaxis, yaxis, 8, 10) ], midPointCoords = { x: (xaxis.c2p(finalCoords[0].x - plot.offset().left) + xaxis.c2p(finalCoords[1].x - plot.offset().left)) / 2, y: (yaxis.c2p(finalCoords[0].y - plot.offset().top) + yaxis.c2p(finalCoords[1].y - plot.offset().top)) / 2 }, amount = getDistance(finalCoords) / getDistance(initialCoords); simulateTouchEvent(initialCoords, eventHolder, 'touchstart'); simulateTouchEvent(finalCoords, eventHolder, 'touchmove'); simulateTouchEvent(finalCoords, eventHolder, 'touchend'); expect(xaxis.min).toBeCloseTo((midPointCoords.x - initialXmin) * (1 - 1/amount) + initialXmin, 6); expect(xaxis.max).toBeCloseTo(initialXmax - (initialXmax - midPointCoords.x) * (1 - 1/amount), 6); expect(yaxis.min).toBeCloseTo((midPointCoords.y - initialYmin) * (1 - 1/amount) + initialYmin, 6); expect(yaxis.max).toBeCloseTo(initialYmax - (initialYmax - midPointCoords.y) * (1 - 1/amount), 6); }); it('should pan the plot for two fingers with constant distance',function() { plot = $.plot(placeholder, [ [ [-1, 2], [11, 12] ] ], options); var eventHolder = plot.getEventHolder(), xaxis = plot.getXAxes()[0], yaxis = plot.getYAxes()[0], initialXmin = xaxis.min, initialXmax = xaxis.max, initialYmin = yaxis.min, initialYmax = yaxis.max, canvasCoords = [ { x : 3, y : 5 }, { x : 7, y : 9 }, { x : 2, y : 4 }, { x : 6, y : 8 }], initialCoords = [ getPairOfCoords(xaxis, yaxis, canvasCoords[0].x, canvasCoords[0].y), getPairOfCoords(xaxis, yaxis, canvasCoords[1].x, canvasCoords[1].y) ], finalCoords = [ getPairOfCoords(xaxis, yaxis, canvasCoords[2].x, canvasCoords[2].y), getPairOfCoords(xaxis, yaxis, canvasCoords[3].x, canvasCoords[3].y) ]; simulateTouchEvent(initialCoords, eventHolder, 'touchstart'); simulateTouchEvent(finalCoords, eventHolder, 'touchmove'); simulateTouchEvent(finalCoords, eventHolder, 'touchend'); expect(xaxis.min).toBeCloseTo(initialXmin + (canvasCoords[0].x - canvasCoords[2].x), 6); expect(xaxis.max).toBeCloseTo(initialXmax + (canvasCoords[0].x - canvasCoords[2].x), 6); expect(yaxis.min).toBeCloseTo(initialYmin + (canvasCoords[0].y - canvasCoords[2].y), 6); expect(yaxis.max).toBeCloseTo(initialYmax + (canvasCoords[0].y - canvasCoords[2].y), 6); }); it('should not zoom the plot for two fingers with small distance variation',function() { plot = $.plot(placeholder, [ [ [-1, 2], [11, 12] ] ], options); var eventHolder = plot.getEventHolder(), xaxis = plot.getXAxes()[0], yaxis = plot.getYAxes()[0], initialXmin = xaxis.min, initialXmax = xaxis.max, initialYmin = yaxis.min, initialYmax = yaxis.max, canvasCoords = [ { x : 3, y : 5 }, { x : 7, y : 8.999 }, { x : 2, y : 4 }, { x : 6.001, y : 8 }], initialCoords = [ getPairOfCoords(xaxis, yaxis, canvasCoords[0].x, canvasCoords[0].y), getPairOfCoords(xaxis, yaxis, canvasCoords[1].x, canvasCoords[1].y) ], finalCoords = [ getPairOfCoords(xaxis, yaxis, canvasCoords[2].x, canvasCoords[2].y), getPairOfCoords(xaxis, yaxis, canvasCoords[3].x, canvasCoords[3].y) ]; var spy = spyOn(plot, 'zoom').and.callThrough(); simulateTouchEvent(initialCoords, eventHolder, 'touchstart'); simulateTouchEvent(finalCoords, eventHolder, 'touchmove'); simulateTouchEvent(finalCoords, eventHolder, 'touchend'); expect(spy).not.toHaveBeenCalled(); }); it('should zoom the plot correctly using pageXY when the canvas is placed in the bottom scrollable area of the page', function () { var largeDiv = $('

'); $(largeDiv).insertBefore(placeholder); plot = $.plot(placeholder, [ [ [-1, 2], [11, 12] ] ], options); var eventHolder = plot.getEventHolder(), xaxis = plot.getXAxes()[0], yaxis = plot.getYAxes()[0], initialXmin = xaxis.min, initialXmax = xaxis.max, initialYmin = yaxis.min, initialYmax = yaxis.max, initialCoords = [ getPairOfCoords(xaxis, yaxis, 3, 5), getPairOfCoords(xaxis, yaxis, 7, 9) ], finalCoords = [ getPairOfCoords(xaxis, yaxis, 2, 4), getPairOfCoords(xaxis, yaxis, 8, 10) ], midPointCoords = { x: (xaxis.c2p(finalCoords[0].x - plot.offset().left) + xaxis.c2p(finalCoords[1].x - plot.offset().left)) / 2, y: (yaxis.c2p(finalCoords[0].y - plot.offset().top) + yaxis.c2p(finalCoords[1].y - plot.offset().top)) / 2 }, amount = getDistance(finalCoords) / getDistance(initialCoords); simulateTouchEvent(initialCoords, plot.getEventHolder(), 'touchstart'); simulateTouchEvent(finalCoords, plot.getEventHolder(), 'touchmove'); simulateTouchEvent(finalCoords, plot.getEventHolder(), 'touchend'); expect(xaxis.min).toBeCloseTo((midPointCoords.x - initialXmin) * (1 - 1/amount) + initialXmin, 6); expect(xaxis.max).toBeCloseTo(initialXmax - (initialXmax - midPointCoords.x) * (1 - 1/amount), 6); expect(yaxis.min).toBeCloseTo((midPointCoords.y - initialYmin) * (1 - 1/amount) + initialYmin, 6); expect(yaxis.max).toBeCloseTo(initialYmax - (initialYmax - midPointCoords.y) * (1 - 1/amount), 6); }); it('should zoom the entire plot for touches not on the same axis',function() { plot = $.plot(placeholder, [ [ [-1, 2], [11, 12] ] ], options); var eventHolder = plot.getEventHolder(), xaxis = plot.getXAxes()[0], yaxis = plot.getYAxes()[0], initialXmin = xaxis.min, initialXmax = xaxis.max, initialYmin = yaxis.min, initialYmax = yaxis.max, initialCoords = [ { x: xaxis.p2c(4), y: xaxis.box.top + plot.offset().top + 10 }, { x: xaxis.p2c(5), y: xaxis.box.top + plot.offset().top - 10 } ], finalCoords = [ getPairOfCoords(xaxis, yaxis, 2, 4), getPairOfCoords(xaxis, yaxis, 6, 6) ], midPointCoords = { x: (xaxis.c2p(finalCoords[0].x - plot.offset().left) + xaxis.c2p(finalCoords[1].x - plot.offset().left)) / 2, y: (yaxis.c2p(finalCoords[0].y - plot.offset().top) + yaxis.c2p(finalCoords[1].y - plot.offset().top)) / 2 }, amount = getDistance(finalCoords) / getDistance(initialCoords); simulateTouchEvent(initialCoords, eventHolder, 'touchstart'); simulateTouchEvent(finalCoords, eventHolder, 'touchmove'); simulateTouchEvent(finalCoords, eventHolder, 'touchend'); expect(xaxis.min).not.toBeCloseTo(initialYmin, 6); expect(xaxis.max).not.toBeCloseTo(initialYmax, 6); expect(yaxis.min).not.toBeCloseTo(initialYmin, 6); expect(yaxis.max).not.toBeCloseTo(initialYmax, 6); }); it('should zoom the plot on axis x',function() { plot = $.plot(placeholder, [ [ [-1, 2], [11, 12] ] ], options); var eventHolder = plot.getEventHolder(), xaxis = plot.getXAxes()[0], yaxis = plot.getYAxes()[0], initialXmin = xaxis.min, initialXmax = xaxis.max, initialYmin = yaxis.min, initialYmax = yaxis.max, initialCoords = [ { x: xaxis.p2c(4), y: xaxis.box.top + plot.offset().top + 10 }, { x: xaxis.p2c(5), y: xaxis.box.top + plot.offset().top + 10 } ], finalCoords = [ getPairOfCoords(xaxis, yaxis, 2, 4), getPairOfCoords(xaxis, yaxis, 6, 6) ], midPointCoords = { x: (xaxis.c2p(finalCoords[0].x - plot.offset().left) + xaxis.c2p(finalCoords[1].x - plot.offset().left)) / 2, y: (yaxis.c2p(finalCoords[0].y - plot.offset().top) + yaxis.c2p(finalCoords[1].y - plot.offset().top)) / 2 }, amount = getDistance(finalCoords) / getDistance(initialCoords); simulateTouchEvent(initialCoords, eventHolder, 'touchstart'); simulateTouchEvent(finalCoords, eventHolder, 'touchmove'); simulateTouchEvent(finalCoords, eventHolder, 'touchend'); expect(Math.abs(xaxis.min - ((midPointCoords.x - initialXmin) * (1 - 1/amount) + initialXmin))).toBeLessThan(1); expect(Math.abs(xaxis.max - (initialXmax - (initialXmax - midPointCoords.x) * (1 - 1/amount)))).toBeLessThan(1); expect(yaxis.min).toBeCloseTo(initialYmin, 6); expect(yaxis.max).toBeCloseTo(initialYmax, 6); }); it('should zoom the plot on axis y',function() { plot = $.plot(placeholder, [ [ [-1, 2], [11, 12] ] ], options); var eventHolder = plot.getEventHolder(), xaxis = plot.getXAxes()[0], yaxis = plot.getYAxes()[0], initialXmin = xaxis.min, initialXmax = xaxis.max, initialYmin = yaxis.min, initialYmax = yaxis.max, initialCoords = [ { x: xaxis.box.left - 10, y: yaxis.p2c(4) + plot.offset().top}, { x: xaxis.box.left - 11, y: yaxis.p2c(5) + plot.offset().top} ], finalCoords = [ getPairOfCoords(xaxis, yaxis, 2, 4), getPairOfCoords(xaxis, yaxis, 6, 6) ], midPointCoords = { x: (xaxis.c2p(finalCoords[0].x - plot.offset().left) + xaxis.c2p(finalCoords[1].x - plot.offset().left)) / 2, y: (yaxis.c2p(finalCoords[0].y - plot.offset().top) + yaxis.c2p(finalCoords[1].y - plot.offset().top)) / 2 }, amount = getDistance(finalCoords) / getDistance(initialCoords); simulateTouchEvent(initialCoords, eventHolder, 'touchstart'); simulateTouchEvent(finalCoords, eventHolder, 'touchmove'); simulateTouchEvent(finalCoords, eventHolder, 'touchend'); expect(xaxis.min).toBeCloseTo(initialXmin, 6); expect(xaxis.max).toBeCloseTo(initialXmax, 6); expect(Math.abs(yaxis.min - ((midPointCoords.y - initialYmin) * (1 - 1/amount) + initialYmin))).toBeLessThan(1); expect(Math.abs(yaxis.max - (initialYmax - (initialYmax - midPointCoords.x) * (1 - 1/amount)))).toBeLessThan(1); }); it('should not zoom the plot on axis for axis zoom not enabled',function() { plot = $.plot(placeholder, [ [ [0, 0], [10, 10] ] ], { xaxes: [{ autoScale: 'exact', axisZoom: false, axisPan: false }], yaxes: [{ autoScale: 'exact' }], zoom: { interactive: true, active: true, amount: 10 }, pan: { interactive: true, active: true, frameRate: -1, enableTouch: true } }); var eventHolder = plot.getEventHolder(), xaxis = plot.getXAxes()[0], yaxis = plot.getYAxes()[0], initialCoords = [ { x: xaxis.p2c(4), y: xaxis.box.top + plot.offset().top + 10 }, { x: xaxis.p2c(5), y: xaxis.box.top + plot.offset().top + 10 } ], finalCoords = [ getPairOfCoords(xaxis, yaxis, 2, 4), getPairOfCoords(xaxis, yaxis, 6, 6) ], amount = getDistance(finalCoords) / getDistance(initialCoords); simulateTouchEvent(initialCoords, eventHolder, 'touchstart'); simulateTouchEvent(finalCoords, eventHolder, 'touchmove'); simulateTouchEvent(finalCoords, eventHolder, 'touchend'); expect(xaxis.min).toBe(0); expect(xaxis.max).toBe(10); expect(yaxis.min).toBe(0); expect(yaxis.max).toBe(10); }); it('should not zoom the axis for plot zoom not enabled',function() { plot = $.plot(placeholder, [ [ [0, 0], [10, 10] ] ], { xaxes: [{ autoScale: 'exact', plotZoom: false, plotPan: false }], yaxes: [{ autoScale: 'exact' }], zoom: { interactive: true, active: true, amount: 10, enableTouch: true }, pan: { interactive: true, active: true, frameRate: -1, enableTouch: true } }); var eventHolder = plot.getEventHolder(), xaxis = plot.getXAxes()[0], yaxis = plot.getYAxes()[0], initialCoords = [ { x: 0, y: 10 }, { x: 1, y: 50 } ], finalCoords = [ getPairOfCoords(xaxis, yaxis, 2, 4), getPairOfCoords(xaxis, yaxis, 6, 6) ], amount = getDistance(finalCoords) / getDistance(initialCoords); simulateTouchEvent(initialCoords, eventHolder, 'touchstart'); simulateTouchEvent(finalCoords, eventHolder, 'touchmove'); simulateTouchEvent(finalCoords, eventHolder, 'touchend'); expect(xaxis.min).toBe(0); expect(xaxis.max).toBe(10); expect(yaxis.min).not.toBe(0); expect(yaxis.max).not.toBe(10); }); function getDistance(coords) { return Math.sqrt((coords[0].x - coords[1].x) * (coords[0].x - coords[1].x) + ((coords[0].y - coords[1].y) * (coords[0].y - coords[1].y))); } }); describe('touchDrag', function() { it('should drag the plot',function() { plot = $.plot(placeholder, [ [ [-10, -10], [120, 120] ] ], options); var eventHolder = plot.getEventHolder(), xaxis = plot.getXAxes()[0], yaxis = plot.getYAxes()[0], initialXmin = xaxis.min, initialXmax = xaxis.max, initialYmin = yaxis.min, initialYmax = yaxis.max, canvasCoords = [ { x : 1, y : 1 }, { x : 100, y : 100 }], pointCoords = [ getPairOfCoords(xaxis, yaxis, canvasCoords[0].x, canvasCoords[0].y), getPairOfCoords(xaxis, yaxis, canvasCoords[1].x, canvasCoords[1].y) ]; simulate.touchstart(eventHolder, pointCoords[0].x, pointCoords[0].y); simulate.touchmove(eventHolder, pointCoords[1].x, pointCoords[1].y); simulateTouchEvent([], eventHolder, 'touchend'); // it can correctly trigger panend event. expect(xaxis.min).toBeCloseTo(initialXmin + (canvasCoords[0].x - canvasCoords[1].x), 6); expect(xaxis.max).toBeCloseTo(initialXmax + (canvasCoords[0].x - canvasCoords[1].x), 6); expect(yaxis.min).toBeCloseTo(initialYmin + (canvasCoords[0].y - canvasCoords[1].y), 6); expect(yaxis.max).toBeCloseTo(initialYmax + (canvasCoords[0].y - canvasCoords[1].y), 6); }); it('should snap horizontal drag to x direction in smart pan mode', function() { var oldTouchMode = options.pan.touchMode; options.pan.touchMode = 'smart'; plot = $.plot(placeholder, [ [ [-10, -10], [120, 120] ] ], options); var eventHolder = plot.getEventHolder(), xaxis = plot.getXAxes()[0], yaxis = plot.getYAxes()[0]; var initialXmin = xaxis.min, initialXmax = xaxis.max, initialYmin = yaxis.min, initialYmax = yaxis.max, canvasCoords = [ { x : 1, y : 1 }, { x : 100, y : 2 }], pointCoords = [ getPairOfCoords(xaxis, yaxis, canvasCoords[0].x, canvasCoords[0].y), getPairOfCoords(xaxis, yaxis, canvasCoords[1].x, canvasCoords[1].y) ]; simulate.touchstart(eventHolder, pointCoords[0].x, pointCoords[0].y); simulate.touchmove(eventHolder, pointCoords[1].x, pointCoords[1].y); simulateTouchEvent([], eventHolder, 'touchend'); // it can correctly trigger panend event. expect(xaxis.min).toBeCloseTo(initialXmin + (canvasCoords[0].x - canvasCoords[1].x), 6); expect(xaxis.max).toBeCloseTo(initialXmax + (canvasCoords[0].x - canvasCoords[1].x), 6); expect(yaxis.min).toBe(initialYmin); expect(yaxis.max).toBe(initialYmax); options.pan.touchMode = oldTouchMode; }); it('should snap vertical drag to x direction in smart pan mode', function() { var oldTouchMode = options.pan.touchMode; options.pan.touchMode = 'smart'; plot = $.plot(placeholder, [ [ [-10, -10], [120, 120] ] ], options); var eventHolder = plot.getEventHolder(), xaxis = plot.getXAxes()[0], yaxis = plot.getYAxes()[0]; var initialXmin = xaxis.min, initialXmax = xaxis.max, initialYmin = yaxis.min, initialYmax = yaxis.max, canvasCoords = [ { x : 1, y : 1 }, { x : 2, y : 100 }], pointCoords = [ getPairOfCoords(xaxis, yaxis, canvasCoords[0].x, canvasCoords[0].y), getPairOfCoords(xaxis, yaxis, canvasCoords[1].x, canvasCoords[1].y) ]; simulate.touchstart(eventHolder, pointCoords[0].x, pointCoords[0].y); simulate.touchmove(eventHolder, pointCoords[1].x, pointCoords[1].y); simulateTouchEvent([], eventHolder, 'touchend'); // it can correctly trigger panend event. expect(xaxis.min).toBe(initialXmin); expect(xaxis.max).toBe(initialXmax); expect(yaxis.min).toBeCloseTo(initialYmin + (canvasCoords[0].y - canvasCoords[1].y), 6); expect(yaxis.max).toBeCloseTo(initialYmax + (canvasCoords[0].y - canvasCoords[1].y), 6); options.pan.touchMode = oldTouchMode; }); it('should no snap diagonal drag in smart pan mode', function() { var oldTouchMode = options.pan.touchMode; options.pan.touchMode = 'smart'; plot = $.plot(placeholder, [ [ [-10, -10], [120, 120] ] ], options); var eventHolder = plot.getEventHolder(), xaxis = plot.getXAxes()[0], yaxis = plot.getYAxes()[0]; var initialXmin = xaxis.min, initialXmax = xaxis.max, initialYmin = yaxis.min, initialYmax = yaxis.max, canvasCoords = [ { x : 1, y : 1 }, { x : 100, y : 100 }], pointCoords = [ getPairOfCoords(xaxis, yaxis, canvasCoords[0].x, canvasCoords[0].y), getPairOfCoords(xaxis, yaxis, canvasCoords[1].x, canvasCoords[1].y) ]; simulate.touchstart(eventHolder, pointCoords[0].x, pointCoords[0].y); simulate.touchmove(eventHolder, pointCoords[1].x, pointCoords[1].y); simulateTouchEvent([], eventHolder, 'touchend'); // it can correctly trigger panend event. expect(xaxis.min).toBeCloseTo(initialXmin + (canvasCoords[0].x - canvasCoords[1].x), 6); expect(xaxis.max).toBeCloseTo(initialXmax + (canvasCoords[0].x - canvasCoords[1].x), 6); expect(yaxis.min).toBeCloseTo(initialYmin + (canvasCoords[0].y - canvasCoords[1].y), 6); expect(yaxis.max).toBeCloseTo(initialYmax + (canvasCoords[0].y - canvasCoords[1].y), 6); options.pan.touchMode = oldTouchMode; }); it('should snap horizontally-start-drag to x direction in smartLock pan mode', function() { var oldTouchMode = options.pan.touchMode; options.pan.touchMode = 'smartLock'; plot = $.plot(placeholder, [ [ [-10, -10], [120, 120] ] ], options); var eventHolder = plot.getEventHolder(), xaxis = plot.getXAxes()[0], yaxis = plot.getYAxes()[0]; var initialXmin = xaxis.min, initialXmax = xaxis.max, initialYmin = yaxis.min, initialYmax = yaxis.max, canvasCoords = [ { x : 1, y : 1 }, { x : 100, y : 2 }, { x: 100, y: 100 }], pointCoords = [ getPairOfCoords(xaxis, yaxis, canvasCoords[0].x, canvasCoords[0].y), getPairOfCoords(xaxis, yaxis, canvasCoords[1].x, canvasCoords[1].y), getPairOfCoords(xaxis, yaxis, canvasCoords[2].x, canvasCoords[2].y) ]; simulate.touchstart(eventHolder, pointCoords[0].x, pointCoords[0].y); simulate.touchmove(eventHolder, pointCoords[1].x, pointCoords[1].y); simulate.touchmove(eventHolder, pointCoords[2].x, pointCoords[2].y); simulateTouchEvent([], eventHolder, 'touchend'); // it can correctly trigger panend event. expect(xaxis.min).toBeCloseTo(initialXmin + (canvasCoords[0].x - canvasCoords[1].x), 6); expect(xaxis.max).toBeCloseTo(initialXmax + (canvasCoords[0].x - canvasCoords[1].x), 6); expect(yaxis.min).toBe(initialYmin); expect(yaxis.max).toBe(initialYmax); options.pan.touchMode = oldTouchMode; }); it('should snap vertically-start-drag to y direction in smartLock pan mode', function() { var oldTouchMode = options.pan.touchMode; options.pan.touchMode = 'smartLock'; plot = $.plot(placeholder, [ [ [-10, -10], [120, 120] ] ], options); var eventHolder = plot.getEventHolder(), xaxis = plot.getXAxes()[0], yaxis = plot.getYAxes()[0]; var initialXmin = xaxis.min, initialXmax = xaxis.max, initialYmin = yaxis.min, initialYmax = yaxis.max, canvasCoords = [ { x : 1, y : 1 }, { x : 2, y : 100 }, { x: 100, y: 100 }], pointCoords = [ getPairOfCoords(xaxis, yaxis, canvasCoords[0].x, canvasCoords[0].y), getPairOfCoords(xaxis, yaxis, canvasCoords[1].x, canvasCoords[1].y), getPairOfCoords(xaxis, yaxis, canvasCoords[2].x, canvasCoords[2].y) ]; simulate.touchstart(eventHolder, pointCoords[0].x, pointCoords[0].y); simulate.touchmove(eventHolder, pointCoords[1].x, pointCoords[1].y); simulate.touchmove(eventHolder, pointCoords[2].x, pointCoords[2].y); simulateTouchEvent([], eventHolder, 'touchend'); // it can correctly trigger panend event. expect(xaxis.min).toBe(initialXmin); expect(xaxis.max).toBe(initialXmax); expect(yaxis.min).toBeCloseTo(initialYmin + (canvasCoords[0].y - canvasCoords[1].y), 6); expect(yaxis.max).toBeCloseTo(initialYmax + (canvasCoords[0].y - canvasCoords[1].y), 6); options.pan.touchMode = oldTouchMode; }); it('should not drag if pan mode is invalid', function () { var oldTouchMode = options.pan.touchMode; options.pan.touchMode = ''; plot = $.plot(placeholder, [ [ [-10, -10], [120, 120] ] ], options); var eventHolder = plot.getEventHolder(), xaxis = plot.getXAxes()[0], yaxis = plot.getYAxes()[0], initialXmin = xaxis.min, initialXmax = xaxis.max, initialYmin = yaxis.min, initialYmax = yaxis.max, canvasCoords = [ { x : 1, y : 1 }, { x : 100, y : 100 }], pointCoords = [ getPairOfCoords(xaxis, yaxis, canvasCoords[0].x, canvasCoords[0].y), getPairOfCoords(xaxis, yaxis, canvasCoords[1].x, canvasCoords[1].y) ]; simulate.touchstart(eventHolder, pointCoords[0].x, pointCoords[0].y); simulate.touchmove(eventHolder, pointCoords[1].x, pointCoords[1].y); simulateTouchEvent([], eventHolder, 'touchend'); // it can correctly trigger panend event. expect(xaxis.min).toBe(initialXmin); expect(xaxis.max).toBe(initialXmax); expect(yaxis.min).toBe(initialYmin); expect(yaxis.max).toBe(initialYmax); options.pan.touchMode = oldTouchMode; }); it('should drag the logarithmic plot', function() { var d1 = []; for (var i = 0; i < 14; i += 0.2) { d1.push([i, 1.01 + Math.sin(i)]); } var plot = $.plot(placeholder, [d1], { series: { lines: { show: true }, points: { show: true } }, xaxis: { autoScale: 'exact' }, yaxis: { mode: 'log', showTickLabels: "all", autoScale: 'exact' }, zoom: { interactive: true, active: true }, pan: { interactive: true, active: true, enableTouch: true } }); var eventHolder = plot.getEventHolder(), xaxis = plot.getXAxes()[0], yaxis = plot.getYAxes()[0], initialXmin = xaxis.min, initialXmax = xaxis.max, initialYmin = yaxis.min, initialYmax = yaxis.max, canvasCoords = [ { x : 4, y : 0.7 }, { x : 2, y : 10 } ], pointCoords = [ getPairOfCoords(xaxis, yaxis, canvasCoords[0].x, canvasCoords[0].y), getPairOfCoords(xaxis, yaxis, canvasCoords[1].x, canvasCoords[1].y) ]; simulate.touchstart(eventHolder, pointCoords[0].x, pointCoords[0].y); simulate.touchmove(eventHolder, pointCoords[1].x, pointCoords[1].y); simulate.touchend(eventHolder, pointCoords[1].x, pointCoords[1].y); expect(xaxis.min).toBeCloseTo(initialXmin + (canvasCoords[0].x - canvasCoords[1].x), 6); expect(xaxis.max).toBeCloseTo(initialXmax + (canvasCoords[0].x - canvasCoords[1].x), 6); expect(yaxis.min).toBeCloseTo((yaxis.c2p(yaxis.p2c(initialYmin) + (pointCoords[0].y - pointCoords[1].y))), 6); expect(yaxis.max).toBeCloseTo((yaxis.c2p(yaxis.p2c(initialYmax) + (pointCoords[0].y - pointCoords[1].y))), 6); }); it('should drag the point in the same way for many sequential moves as for one long move',function() { //deactivate ticks for precision options.yaxes[0].showTickLabels = 'none'; options.xaxes[0].showTickLabels = 'all'; plot = $.plot(placeholder, [ [ [-10, -10], [120, 120] ] ], options); var eventHolder = plot.getEventHolder(), xaxis = plot.getXAxes()[0], yaxis = plot.getYAxes()[0], initialXmin = xaxis.min, initialXmax = xaxis.max, initialYmin = yaxis.min, initialYmax = yaxis.max, limit = 5, canvasCoords = [], pointCoords = []; for (var i = 1; i <= limit; i++) { canvasCoords[i] = { x: i, y: i }; pointCoords[i] = getPairOfCoords(xaxis, yaxis, canvasCoords[i].x, canvasCoords[i].y); } //simulate drag from (1, 1) to (100, 100) sequentially simulate.touchstart(eventHolder, pointCoords[1].x, pointCoords[1].y); for (var i = 2; i <= limit; i++) { simulate.touchmove(eventHolder, pointCoords[i].x, pointCoords[i].y); } simulate.touchend(eventHolder, pointCoords[limit].x, pointCoords[limit].y); // compare axes after sequential drag with axes after direct drag expect(Math.abs(xaxis.min - (initialXmin + (canvasCoords[1].x - canvasCoords[limit].x)))).toBeLessThan(1); expect(Math.abs(xaxis.max - (initialXmax + (canvasCoords[1].x - canvasCoords[limit].x)))).toBeLessThan(1); expect(yaxis.min).toBeCloseTo(initialYmin + (canvasCoords[1].y - canvasCoords[limit].y), 0); expect(yaxis.max).toBeCloseTo(initialYmax + (canvasCoords[1].y - canvasCoords[limit].y), 0); }); it('should not pan the plot for a finger outside canvas',function() { plot = $.plot(placeholder, [ [ [-10, 120], [-10, 120] ] ], options); var eventHolder = plot.getEventHolder(), xaxis = plot.getXAxes()[0], yaxis = plot.getYAxes()[0], initialXmin = xaxis.min, initialXmax = xaxis.max, initialYmin = yaxis.min, initialYmax = yaxis.max, canvasCoords = [ { x : 20, y : 20 }, { x : 120, y : 120 }], plotRight = plot.width() + plot.offset().left + plot.offset().right, plotBottom = plot.height() + plot.offset().top + plot.offset().bottom, pointCoords = [ {x: plotRight + canvasCoords[0].x, y: plotBottom + canvasCoords[0].y}, {x: plotRight + canvasCoords[1].x, y: plotBottom + canvasCoords[1].y} ]; simulate.touchstart(eventHolder, pointCoords[0].x, pointCoords[0].y); simulate.touchmove(eventHolder, pointCoords[1].x, pointCoords[1].y); simulate.touchend(eventHolder, pointCoords[1].x, pointCoords[1].y); expect(xaxis.min).toBeCloseTo(initialXmin, 6); expect(xaxis.max).toBeCloseTo(initialXmax, 6); expect(yaxis.min).toBeCloseTo(initialYmin, 6); expect(yaxis.max).toBeCloseTo(initialYmax, 6); }); it('should not pan the plot for a finger which comes from outside canvas',function() { plot = $.plot(placeholder, [ [ [-10, 120], [-10, 120] ] ], options); var eventHolder = plot.getEventHolder(), xaxis = plot.getXAxes()[0], yaxis = plot.getYAxes()[0], initialXmin = xaxis.min, initialXmax = xaxis.max, initialYmin = yaxis.min, initialYmax = yaxis.max, canvasCoords = [ { x : 20, y : 20 }, { x : 120, y : 120 }], plotRight = plot.width() + plot.offset().left + plot.offset().right, plotBottom = plot.height() + plot.offset().top + plot.offset().bottom, pointCoords = [ {x: plotRight + canvasCoords[0].x, y: plotBottom + canvasCoords[0].y}, {x: canvasCoords[1].x, y: canvasCoords[1].y} ]; simulate.touchstart(eventHolder, pointCoords[0].x, pointCoords[0].y); simulate.touchmove(eventHolder, pointCoords[1].x, pointCoords[1].y); simulate.touchend(eventHolder, pointCoords[1].x, pointCoords[1].y); expect(xaxis.min).toBeCloseTo(initialXmin, 6); expect(xaxis.max).toBeCloseTo(initialXmax, 6); expect(yaxis.min).toBeCloseTo(initialYmin, 6); expect(yaxis.max).toBeCloseTo(initialYmax, 6); }); it('should drag the plot on the yaxis only', function() { plot = $.plot(placeholder, [ [ [0, 0], [10, 10] ] ], options); var eventHolder = plot.getEventHolder(), xaxis = plot.getXAxes()[0], yaxis = plot.getYAxes()[0], initialXmin = xaxis.min, initialXmax = xaxis.max, initialYmin = yaxis.min, initialYmax = yaxis.max, pointCoords = [ { x: xaxis.box.left - 10, y: yaxis.p2c(4) }, { x: xaxis.box.left - 20, y: yaxis.p2c(5) } ]; simulate.touchstart(eventHolder, pointCoords[0].x, pointCoords[0].y); simulate.touchmove(eventHolder, pointCoords[0].x, pointCoords[0].y); simulate.touchmove(eventHolder, pointCoords[1].x, pointCoords[1].y); simulate.touchend(eventHolder, pointCoords[1].x, pointCoords[1].y); expect(xaxis.min).toBe(0); expect(xaxis.max).toBe(10); expect(yaxis.min).toBeCloseTo(yaxis.c2p(yaxis.p2c(initialYmin) + (pointCoords[0].y - pointCoords[1].y)), 6); expect(yaxis.max).toBeCloseTo(yaxis.c2p(yaxis.p2c(initialYmax) + (pointCoords[0].y - pointCoords[1].y)), 6); }); it('should drag the plot on the xaxis only', function() { plot = $.plot(placeholder, [ [ [0, 0], [10, 10] ] ], options); var eventHolder = plot.getEventHolder(), xaxis = plot.getXAxes()[0], yaxis = plot.getYAxes()[0], initialXmin = xaxis.min, initialXmax = xaxis.max, pointCoords = [ { x: xaxis.p2c(4), y: xaxis.box.top + plot.offset().top + 10 }, { x: xaxis.p2c(5), y: xaxis.box.top + plot.offset().top + 15 } ]; simulate.touchstart(eventHolder, pointCoords[0].x, pointCoords[0].y); simulate.touchmove(eventHolder, pointCoords[0].x, pointCoords[0].y); simulate.touchmove(eventHolder, pointCoords[1].x, pointCoords[1].y); simulate.touchend(eventHolder, pointCoords[1].x, pointCoords[1].y); expect(xaxis.min).toBeCloseTo(xaxis.c2p(xaxis.p2c(initialXmin) + (pointCoords[0].x - pointCoords[1].x)), 6); expect(xaxis.max).toBeCloseTo(xaxis.c2p(xaxis.p2c(initialXmax) + (pointCoords[0].x - pointCoords[1].x)), 6); expect(yaxis.min).toBe(0); expect(yaxis.max).toBe(10); }); it('should not drag the plot on axis for axis pan not enabled', function() { plot = $.plot(placeholder, [ [ [0, 0], [10, 10] ] ], { xaxes: [{ autoScale: 'exact', axisPan: false }], yaxes: [{ autoScale: 'exact' }], zoom: { interactive: true, active: true, amount: 10 }, pan: { interactive: true, active: true, frameRate: -1, enableTouch: true } }); var eventHolder = plot.getEventHolder(), xaxis = plot.getXAxes()[0], yaxis = plot.getYAxes()[0], initialXmin = xaxis.min, initialXmax = xaxis.max, pointCoords = [ { x: xaxis.p2c(4), y: xaxis.box.top + plot.offset().top + 10 }, { x: xaxis.p2c(5), y: xaxis.box.top + plot.offset().top + 15 } ]; simulate.touchstart(eventHolder, pointCoords[0].x, pointCoords[0].y); simulate.touchmove(eventHolder, pointCoords[0].x, pointCoords[0].y); simulate.touchmove(eventHolder, pointCoords[1].x, pointCoords[1].y); simulate.touchend(eventHolder, pointCoords[1].x, pointCoords[1].y); expect(xaxis.min).toBe(0); expect(yaxis.max).toBe(10); expect(yaxis.min).toBe(0); expect(yaxis.max).toBe(10); }); it('should not drag the axis for plot pan not enabled', function() { plot = $.plot(placeholder, [ [ [0, 0], [10, 10] ] ], { xaxes: [{ autoScale: 'exact', plotPan: false }], yaxes: [{ autoScale: 'exact', plotPan: false }], zoom: { interactive: true, active: true, amount: 10 }, pan: { interactive: true, active: true, frameRate: -1, enableTouch: true } }); var eventHolder = plot.getEventHolder(), xaxis = plot.getXAxes()[0], yaxis = plot.getYAxes()[0], initialXmin = xaxis.min, initialXmax = xaxis.max, pointCoords = [ { x: 0, y: 50 }, { x: 50, y: 100 } ]; simulate.touchstart(eventHolder, pointCoords[0].x, pointCoords[0].y); simulate.touchmove(eventHolder, pointCoords[0].x, pointCoords[0].y); simulate.touchmove(eventHolder, pointCoords[1].x, pointCoords[1].y); simulate.touchend(eventHolder, pointCoords[1].x, pointCoords[1].y); expect(xaxis.min).toBe(0); expect(xaxis.max).toBe(10); expect(yaxis.min).toBe(0); expect(yaxis.max).toBe(10); }); it('should recompute the axis to drag after a pinch event ended',function() { plot = $.plot(placeholder, [ [ [-1, 2], [11, 12] ] ], options); var eventHolder = plot.getEventHolder(), xaxis = plot.getXAxes()[0], yaxis = plot.getYAxes()[0], initialXmin = xaxis.min, initialXmax = xaxis.max, initialYmin = yaxis.min, initialYmax = yaxis.max, previousXmin, previousXmax, previousYmin, previousYmax, initialCoords = [ getPairOfCoords(xaxis, yaxis, 1, 3), getPairOfCoords(xaxis, yaxis, 2, 4), ], midPointCoords = [ getPairOfCoords(xaxis, yaxis, 3, 7), { x: xaxis.p2c(4), y: xaxis.box.top + plot.offset().top + 10 } ], finalCoordsPinch = [ { x: xaxis.p2c(4), y: xaxis.box.top + plot.offset().top + 10 } ], finalCoordsPan = [ { x: xaxis.p2c(5), y: xaxis.box.top + plot.offset().top + 15 } ]; //simulate pinch simulateTouchEvent(initialCoords, eventHolder, 'touchstart'); simulateTouchEvent(midPointCoords, eventHolder, 'touchmove'); simulateTouchEvent(finalCoordsPinch, eventHolder, 'touchend'); previousXmin = xaxis.min; previousXmax = xaxis.max; previousYmin = yaxis.min; previousYmax = yaxis.max; expect(previousXmin).not.toBeCloseTo(initialXmin, 6); expect(previousXmax).not.toBeCloseTo(initialXmax, 6); expect(previousYmin).not.toBeCloseTo(initialYmin, 6); expect(previousYmax).not.toBeCloseTo(initialYmax, 6); //simulate pan after pinch event simulateTouchEvent(finalCoordsPan, eventHolder, 'touchmove'); simulateTouchEvent(finalCoordsPan, eventHolder, 'touchend'); expect(xaxis.min).toBeCloseTo(xaxis.c2p(xaxis.p2c(previousXmin) + (finalCoordsPinch[0].x - finalCoordsPan[0].x)), 6); expect(xaxis.max).toBeCloseTo(xaxis.c2p(xaxis.p2c(previousXmax) + (finalCoordsPinch[0].x - finalCoordsPan[0].x)), 6); expect(yaxis.min).toBe(previousYmin); expect(yaxis.max).toBe(previousYmax); }); it('can disable pinch', function() { var oldTouchZoom = options.zoom.enableTouch; options.zoom.enableTouch = false; plot = $.plot(placeholder, [ [ [-10, -10], [120, 120] ] ], options); var eventHolder = plot.getEventHolder(), xaxis = plot.getXAxes()[0], yaxis = plot.getYAxes()[0]; var initialXmin = xaxis.min, initialXmax = xaxis.max, initialYmin = yaxis.min, initialYmax = yaxis.max, canvasCoords = [ { x : 1, y : 1 }, { x : 100, y : 5 }], initialCoords = [ getPairOfCoords(xaxis, yaxis, canvasCoords[0].x, canvasCoords[0].y), getPairOfCoords(xaxis, yaxis, canvasCoords[0].x + 1, canvasCoords[0].y + 1), ], finalCoordsPinch = [ getPairOfCoords(xaxis, yaxis, canvasCoords[1].x, canvasCoords[1].y), getPairOfCoords(xaxis, yaxis, canvasCoords[1].x + 1, canvasCoords[1].y + 1), ]; //simulate pinch simulateTouchEvent(initialCoords, eventHolder, 'touchstart'); simulateTouchEvent(finalCoordsPinch, eventHolder, 'touchmove'); simulateTouchEvent(finalCoordsPinch, eventHolder, 'touchend'); expect(xaxis.min).toBe(initialXmin); expect(xaxis.max).toBe(initialXmax); expect(yaxis.min).toBe(initialYmin); expect(yaxis.max).toBe(initialYmax); options.zoom.enableTouch = oldTouchZoom; }) }); describe('doubleTap', function() { it('should recenter the plot',function() { plot = $.plot(placeholder, [ [ [-10, 120], [-10, 120] ] ], options); var eventHolder = plot.getEventHolder(), xaxis = plot.getXAxes()[0], yaxis = plot.getYAxes()[0], initialXmin = xaxis.min, initialXmax = xaxis.max, initialYmin = yaxis.min, initialYmax = yaxis.max, canvasCoords = [ { x : 1, y : 2 }, { x : 3, y : 5 }], pointCoords = [ getPairOfCoords(xaxis, yaxis, canvasCoords[0].x, canvasCoords[0].y), getPairOfCoords(xaxis, yaxis, canvasCoords[1].x, canvasCoords[1].y) ]; simulate.touchstart(eventHolder, pointCoords[0].x, pointCoords[0].y); simulate.touchmove(eventHolder, pointCoords[1].x, pointCoords[1].y); simulate.touchend(eventHolder, pointCoords[1].x, pointCoords[1].y); //check if the drag modified the plot correctly expect(xaxis.min).toBeCloseTo(initialXmin + (canvasCoords[0].x - canvasCoords[1].x), 6); expect(xaxis.max).toBeCloseTo(initialXmax + (canvasCoords[0].x - canvasCoords[1].x), 6); expect(yaxis.min).toBeCloseTo(initialYmin + (canvasCoords[0].y - canvasCoords[1].y), 6); expect(yaxis.max).toBeCloseTo(initialYmax + (canvasCoords[0].y - canvasCoords[1].y), 6); //simulate double tap simulate.touchstart(eventHolder, pointCoords[1].x, pointCoords[1].y); simulate.touchend(eventHolder, pointCoords[1].x, pointCoords[1].y); simulate.touchstart(eventHolder, pointCoords[1].x, pointCoords[1].y); simulate.touchend(eventHolder, pointCoords[1].x, pointCoords[1].y); //check if axis values returned to initial coordinates expect(xaxis.min).toBeCloseTo(initialXmin, 6); expect(xaxis.max).toBeCloseTo(initialXmax, 6); expect(yaxis.min).toBeCloseTo(initialYmin, 6); expect(yaxis.max).toBeCloseTo(initialYmax, 6); }); it('should not recenter for doubletap event triggered by touchmove', function() { //when touchmove to somewhere close to last doubletap point, another doubletap will be triggered //this doubletap event should not do recenter plot = $.plot(placeholder, [ [ [-10, 120], [-10, 120] ] ], options); var eventHolder = plot.getEventHolder(), xaxis = plot.getXAxes()[0], yaxis = plot.getYAxes()[0], initialXmin = xaxis.min, initialXmax = xaxis.max, initialYmin = yaxis.min, initialYmax = yaxis.max, canvasCoords = [ { x : 1, y : 2 }, { x : 3, y : 5 }], pointCoords = [ getPairOfCoords(xaxis, yaxis, canvasCoords[0].x, canvasCoords[0].y), getPairOfCoords(xaxis, yaxis, canvasCoords[1].x, canvasCoords[1].y) ]; //simulate double tap simulate.touchstart(eventHolder, pointCoords[1].x, pointCoords[1].y); simulate.touchend(eventHolder, pointCoords[1].x, pointCoords[1].y); simulate.touchstart(eventHolder, pointCoords[1].x, pointCoords[1].y); simulate.touchend(eventHolder, pointCoords[1].x, pointCoords[1].y); //drag the plot simulate.touchstart(eventHolder, pointCoords[0].x, pointCoords[0].y); simulate.touchmove(eventHolder, pointCoords[1].x, pointCoords[1].y); //check if the drag modified the plot correctly expect(xaxis.min).toBeCloseTo(initialXmin + (canvasCoords[0].x - canvasCoords[1].x), 6); expect(xaxis.max).toBeCloseTo(initialXmax + (canvasCoords[0].x - canvasCoords[1].x), 6); expect(yaxis.min).toBeCloseTo(initialYmin + (canvasCoords[0].y - canvasCoords[1].y), 6); expect(yaxis.max).toBeCloseTo(initialYmax + (canvasCoords[0].y - canvasCoords[1].y), 6); simulate.touchend(eventHolder, pointCoords[1].x, pointCoords[1].y); }); it('should recenter the plot on axis x',function() { plot = $.plot(placeholder, [ [ [-10, -10], [120, 120] ] ], options); var eventHolder = plot.getEventHolder(), xaxis = plot.getXAxes()[0], yaxis = plot.getYAxes()[0], initialXmin = xaxis.min, initialXmax = xaxis.max, initialYmin = yaxis.min, initialYmax = yaxis.max, canvasCoords = [ { x : 1, y : 2 }, { x : 3, y : 5 }], pointCoords = [ getPairOfCoords(xaxis, yaxis, canvasCoords[0].x, canvasCoords[0].y), getPairOfCoords(xaxis, yaxis, canvasCoords[1].x, canvasCoords[1].y) ]; simulate.touchstart(eventHolder, pointCoords[0].x, pointCoords[0].y); simulate.touchmove(eventHolder, pointCoords[1].x, pointCoords[1].y); simulate.touchend(eventHolder, pointCoords[1].x, pointCoords[1].y); //check if the drag modified the plot correctly expect(xaxis.min).toBeCloseTo(initialXmin + (canvasCoords[0].x - canvasCoords[1].x), 6); expect(xaxis.max).toBeCloseTo(initialXmax + (canvasCoords[0].x - canvasCoords[1].x), 6); expect(yaxis.min).toBeCloseTo(initialYmin + (canvasCoords[0].y - canvasCoords[1].y), 6); expect(yaxis.max).toBeCloseTo(initialYmax + (canvasCoords[0].y - canvasCoords[1].y), 6); //simulate double tap simulate.touchstart(eventHolder, xaxis.p2c(5), xaxis.box.top + plot.offset().top + 15); simulate.touchend(eventHolder, xaxis.p2c(5), xaxis.box.top + plot.offset().top + 15); simulate.touchstart(eventHolder, xaxis.p2c(5), xaxis.box.top + plot.offset().top + 15); simulate.touchend(eventHolder, xaxis.p2c(5), xaxis.box.top + plot.offset().top + 15); //check if axis values returned to initial coordinates expect(xaxis.min).toBeCloseTo(initialXmin, 6); expect(xaxis.max).toBeCloseTo(initialXmax, 6); expect(yaxis.min).toBeCloseTo(initialYmin + (canvasCoords[0].y - canvasCoords[1].y), 6); expect(yaxis.max).toBeCloseTo(initialYmax + (canvasCoords[0].y - canvasCoords[1].y), 6); }); it('should recenter the plot on axis y',function() { plot = $.plot(placeholder, [ [ [-10, -10], [120, 120] ] ], options); var eventHolder = plot.getEventHolder(), xaxis = plot.getXAxes()[0], yaxis = plot.getYAxes()[0], initialXmin = xaxis.min, initialXmax = xaxis.max, initialYmin = yaxis.min, initialYmax = yaxis.max, canvasCoords = [ { x : 1, y : 2 }, { x : 3, y : 5 }], pointCoords = [ getPairOfCoords(xaxis, yaxis, canvasCoords[0].x, canvasCoords[0].y), getPairOfCoords(xaxis, yaxis, canvasCoords[1].x, canvasCoords[1].y) ]; simulate.touchstart(eventHolder, pointCoords[0].x, pointCoords[0].y); simulate.touchmove(eventHolder, pointCoords[1].x, pointCoords[1].y); simulate.touchend(eventHolder, pointCoords[1].x, pointCoords[1].y); //check if the drag modified the plot correctly expect(xaxis.min).toBeCloseTo(initialXmin + (canvasCoords[0].x - canvasCoords[1].x), 6); expect(xaxis.max).toBeCloseTo(initialXmax + (canvasCoords[0].x - canvasCoords[1].x), 6); expect(yaxis.min).toBeCloseTo(initialYmin + (canvasCoords[0].y - canvasCoords[1].y), 6); expect(yaxis.max).toBeCloseTo(initialYmax + (canvasCoords[0].y - canvasCoords[1].y), 6); //simulate double tap simulate.touchstart(eventHolder, xaxis.box.left - 20, yaxis.p2c(5)); simulate.touchend(eventHolder, xaxis.box.left - 20, yaxis.p2c(5)); simulate.touchstart(eventHolder, xaxis.box.left - 20, yaxis.p2c(5)); simulate.touchend(eventHolder, xaxis.box.left - 20, yaxis.p2c(5)); //check if axis values returned to initial coordinates expect(xaxis.min).toBeCloseTo(initialXmin + (canvasCoords[0].x - canvasCoords[1].x), 6); expect(xaxis.max).toBeCloseTo(initialXmax + (canvasCoords[0].x - canvasCoords[1].x), 6); expect(yaxis.min).toBeCloseTo(initialYmin, 6); expect(yaxis.max).toBeCloseTo(initialYmax, 6); }); it('should not recenter the plot for one touch inside axis box and one inside plot area', function(){ plot = $.plot(placeholder, [ [ [-10, -10], [120, 120] ] ], options); var eventHolder = plot.getEventHolder(), xaxis = plot.getXAxes()[0], yaxis = plot.getYAxes()[0], initialXmin = xaxis.min, initialXmax = xaxis.max, initialYmin = yaxis.min, initialYmax = yaxis.max, canvasCoords = [ { x : 1, y : 2 }, { x : 3, y : 5 }], pointCoords = [ getPairOfCoords(xaxis, yaxis, canvasCoords[0].x, canvasCoords[0].y), getPairOfCoords(xaxis, yaxis, canvasCoords[1].x, canvasCoords[1].y) ]; simulate.touchstart(eventHolder, pointCoords[0].x, pointCoords[0].y); simulate.touchmove(eventHolder, pointCoords[1].x, pointCoords[1].y); simulate.touchend(eventHolder, pointCoords[1].x, pointCoords[1].y); //check if the drag modified the plot correctly expect(xaxis.min).toBeCloseTo(initialXmin + (canvasCoords[0].x - canvasCoords[1].x), 6); expect(xaxis.max).toBeCloseTo(initialXmax + (canvasCoords[0].x - canvasCoords[1].x), 6); expect(yaxis.min).toBeCloseTo(initialYmin + (canvasCoords[0].y - canvasCoords[1].y), 6); expect(yaxis.max).toBeCloseTo(initialYmax + (canvasCoords[0].y - canvasCoords[1].y), 6); //simulate double tap simulate.touchstart(eventHolder, xaxis.box.left - 20, yaxis.p2c(5)); simulate.touchend(eventHolder, xaxis.box.left - 20, yaxis.p2c(5)); simulate.touchstart(eventHolder, 10, 20); simulate.touchend(eventHolder, 10, 20); //check if axis values remained the same expect(xaxis.min).toBeCloseTo(initialXmin + (canvasCoords[0].x - canvasCoords[1].x), 6); expect(xaxis.max).toBeCloseTo(initialXmax + (canvasCoords[0].x - canvasCoords[1].x), 6); expect(yaxis.min).toBeCloseTo(initialYmin + (canvasCoords[0].y - canvasCoords[1].y), 6); expect(yaxis.max).toBeCloseTo(initialYmax + (canvasCoords[0].y - canvasCoords[1].y), 6); }); }); function getPairOfCoords(xaxis, yaxis, x, y) { return { x : xaxis.p2c(x) + plot.offset().left, y : yaxis.p2c(y) + plot.offset().top } } });