tests.interactive-layer2d.js

/**
 * @license
 * File: tests.js
 * Copyright (c) 2012-2017, LGS Innovations Inc., All rights reserved.
 * Copyright (c) 2019-2020, Spectric Labs Inc., All rights reserved.
 *
 * This file is part of SigPlot.
 *
 * Licensed to the LGS Innovations (LGS) under one
 * or more contributor license agreements.  See the NOTICE file
 * distributed with this work for additional information
 * regarding copyright ownership.  LGS licenses this file
 * to you under the Apache License, Version 2.0 (the
 * "License"); you may not use this file except in compliance
 * with the License.  You may obtain a copy of the License at
 *
 * http://www.apache.org/licenses/LICENSE-2.0
 *
 * Unless required by applicable law or agreed to in writing,
 * software distributed under the License is distributed on an
 * "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY
 * KIND, either express or implied.  See the License for the
 * specific language governing permissions and limitations
 * under the License.
 */

/* globals QUnit, sigplot, ColorMap, sigplot.plugins, assert, assert.strictEqual, QUnit.asyncTest, assert.notEqual, alert, BlueFileReader, start, ok, throws, interactiveBeforeEach, interactiveAfterEach, interactiveTest, fixture, ifixture */
QUnit.module('sigplot-interactive-layer2d', {
    beforeEach: interactiveBeforeEach,
    afterEach: interactiveAfterEach
});

interactiveTest('sigplot 2d deoverlay', 'Do you see a raster? Is alignment of x/y axes correct?', function(assert) {
    var container = document.getElementById('plot');
    var plot = new sigplot.Plot(container, {});
    assert.notEqual(plot, null);
    var lyr_n = plot.overlay_array([], {}, {
        layerType: sigplot.Layer2D
    });
    var data = [
        [1, 2, 3, 4, 5],
        [6, 7, 8, 9, 0],
        [1, 2, 3, 4, 5],
        [6, 7, 8, 9, 0]
    ];
    plot.deoverlay(lyr_n);
    lyr_n = plot.overlay_array(data);
});

interactiveTest('sigplot panxpad layer2d', 'Do you see spikes at 10 and 110 with an x-axis from 0 to 120?', function(assert) {
    var container = document.getElementById('plot');
    var plot = new sigplot.Plot(container, {
        panxpad: 10
    });
    assert.notEqual(plot, null);
    var ramp = [];
    for (var i = 0; i < 101; i++) {
        if ((i === 0) || (i === 100)) {
            ramp.push(100);
        } else {
            ramp.push(0);
        }
    }
    var data = [];
    for (var r = 0; r < 100; r++) {
        data.push(ramp);
    }

    plot.overlay_array(data, {
        xstart: 10,
        layerType: sigplot.Layer2D,
    });
});

interactiveTest('pipe 2D name', 'Do you see a random data plot (0 to 1 ) properly named "Test" in the legend', function(assert) {
    var container = document.getElementById('plot');
    var plot = new sigplot.Plot(container, {
        legend: true
    });
    assert.notEqual(plot, null);
    var lyr0 = plot.overlay_pipe({
        type: 2000,
        subsize: 100
    }, {
        framesize: 100,
        name: "Test"
    });
    ifixture.interval = window.setInterval(function() {
        var random = [];
        for (var i = 0; i < 100; i += 1) {
            random.push(Math.random());
        }
        plot.push(lyr0, random);
    }, 100);
});


// When autol is used, the raster scaling will dynamically updated per-line
// with autol=1 each line is scaled by itself, so this should render as vertical bars
interactiveTest('t2000 file (default autol)', 'Does the plot render a vertical bars?', function(assert) {
    var container = document.getElementById('plot');
    var plot = new sigplot.Plot(container, {
        autol: 1
    });
    assert.notEqual(plot, null);

    var framesize = 128;
    var height = 120;

    var raster = [];
    for (var j = 0; j < height; j += 1) {
        for (var i = 0; i < framesize; i += 1) {
            raster.push(j + i);
        }
    }

    plot.overlay_array(raster, {
        type: 2000,
        subsize: framesize,
        file_name: "raster"
    });
});

// this data is rendered where the left side of the plot will be a constant color,
// the right side should start as constant red and then around 110 switch to a gradient
// that gradually go back to all red.  The 'height' of the rainbow grows as autol
// is increased
interactiveTest('t2000 file (default autol)', 'Does the plot render a gradient on the right?', function(assert) {
    var container = document.getElementById('plot');
    var plot = new sigplot.Plot(container, {
        autol: 5
    });
    assert.notEqual(plot, null);

    var framesize = 128;
    var height = 120;

    var raster = [];
    var val = 0;
    for (var j = 0; j < height; j += 1) {
        for (var i = 0; i < framesize; i += 1) {
            if (i < (framesize) / 2) {
                val = 1;
            } else {
                if (j < 60) {
                    val = 100;
                } else {
                    val = 10;
                }
            }
            raster.push(val);
        }
    }

    plot.overlay_array(raster, {
        type: 2000,
        subsize: framesize,
        file_name: "raster"
    });
});

interactiveTest('t2000 layer2D (default autol)', 'Does the plot correctly autoscale after 100 rows?', function(assert) {
    var container = document.getElementById('plot');
    var plot = new sigplot.Plot(container, {});
    assert.notEqual(plot, null);
    var data = [];
    for (var i = 0; i < 16384; i++) {
        data.push(0);
    }
    var lyr0 = plot.overlay_pipe({
        type: 2000,
        subsize: 16384
    });
    var cnt = 0;
    ifixture.interval = window.setInterval(function() {
        cnt = cnt + 1;
        if (cnt === 100) {
            data = [];
            for (var i = 0; i < 16384; i++) {
                data.push(i);
            }
        }
        plot.push(lyr0, data);
    }, 100);
});

interactiveTest('layer2D (smoothing)', 'Do you see evenly spaced lines?', function(assert) {
    var container = document.getElementById('plot');
    var plot = new sigplot.Plot(container, {
        smoothing: true
    });
    assert.notEqual(plot, null);
    var data = [];
    for (var i = 0; i < 16384; i++) {
        if ((i % 3 === 0) && (i > 400) && (i < 800)) {
            data.push(400);
        } else if ((i % 3 === 0) && (i > 1200) && (i < 1600)) {
            data.push(800);
        } else {
            data.push(0);
        }
    }
    var lyr0 = plot.overlay_pipe({
        type: 2000,
        subsize: 16384
    }, null, {
        smoothing: true
    });
    var cnt = 0;
    ifixture.interval = window.setInterval(function() {
        cnt = cnt + 1;
        plot.push(lyr0, data);
    }, 100);
});

interactiveTest('layer2D (no compression)', 'you should see lines between 20-40, 60-90, and 90-100?', function(assert) {
    var container = document.getElementById('plot');
    var plot = new sigplot.Plot(container, {
        xcmp: 1
    });
    assert.notEqual(plot, null);
    var data = [];
    for (var i = 0; i < 100; i++) {
        if ((i > 20) && (i < 40)) {
            if (i % 3 === 0) {
                data.push(100);
            } else if (i % 3 === 1) {
                data.push(200);
            } else {
                data.push(0);
            }
        } else if ((i > 60) && (i < 80)) {
            if (i % 3 === 0) {
                data.push(50);
            } else if (i % 3 === 1) {
                data.push(250);
            } else {
                data.push(0);
            }
        } else if (i > 90) {
            data.push(300);
        } else {
            data.push(0);
        }
    }
    var lyr0 = plot.overlay_pipe({
        type: 2000,
        subsize: 100
    });
    var cnt = 0;
    ifixture.interval = window.setInterval(function() {
        cnt = cnt + 1;
        plot.push(lyr0, data);
    }, 100);
});

interactiveTest('layer2D (average compression)', 'Do you see evenly spaced lines of the same color?', function(assert) {
    var container = document.getElementById('plot');
    var plot = new sigplot.Plot(container, {
        xcmp: 1
    });
    assert.notEqual(plot, null);
    var data = [];
    for (var i = 0; i < 16384; i++) {
        if ((i > 400) && (i < 800)) {
            if (i % 3 === 0) {
                data.push(100);
            } else if (i % 3 === 1) {
                data.push(200);
            } else {
                data.push(0);
            }
        } else if ((i > 1200) && (i < 1600)) {
            if (i % 3 === 0) {
                data.push(50);
            } else if (i % 3 === 1) {
                data.push(250);
            } else {
                data.push(0);
            }
        } else {
            data.push(0);
        }
    }
    var lyr0 = plot.overlay_pipe({
        type: 2000,
        subsize: 16384
    });
    var cnt = 0;
    ifixture.interval = window.setInterval(function() {
        cnt = cnt + 1;
        plot.push(lyr0, data);
    }, 100);
});

interactiveTest('layer2D (min compression)', 'Do you see two lines of the same color?', function(assert) {
    var container = document.getElementById('plot');
    var plot = new sigplot.Plot(container, {
        xcmp: 2
    });
    assert.notEqual(plot, null);
    var data = [];
    for (var i = 0; i < 16384; i++) {
        if ((i > 400) && (i < 800)) {
            if (i % 3 === 0) {
                data.push(100);
            } else if (i % 3 === 1) {
                data.push(400);
            } else {
                data.push(50);
            }
        } else if ((i > 1200) && (i < 1600)) {
            if (i % 3 === 0) {
                data.push(100);
            } else if (i % 3 === 1) {
                data.push(400);
            } else {
                data.push(50);
            }
        } else {
            data.push(0);
        }
    }
    var lyr0 = plot.overlay_pipe({
        type: 2000,
        subsize: 16384
    });
    var cnt = 0;
    ifixture.interval = window.setInterval(function() {
        cnt = cnt + 1;
        plot.push(lyr0, data);
    }, 100);
});

interactiveTest('layer2D (max compression)', 'Do you see two lines of the same color?', function(assert) {
    var container = document.getElementById('plot');
    var plot = new sigplot.Plot(container, {
        xcmp: 3
    });
    assert.notEqual(plot, null);
    var data = [];
    for (var i = 0; i < 16384; i++) {
        if ((i > 400) && (i < 800)) {
            if (i % 3 === 0) {
                data.push(100);
            } else if (i % 3 === 1) {
                data.push(400);
            } else {
                data.push(0);
            }
        } else if ((i > 1200) && (i < 1600)) {
            if (i % 3 === 0) {
                data.push(200);
            } else if (i % 3 === 1) {
                data.push(400);
            } else {
                data.push(0);
            }
        } else {
            data.push(0);
        }
    }
    var lyr0 = plot.overlay_pipe({
        type: 2000,
        subsize: 16384
    });
    var cnt = 0;
    ifixture.interval = window.setInterval(function() {
        cnt = cnt + 1;
        plot.push(lyr0, data);
    }, 100);
});

interactiveTest('layer2D (abs-max compression)', 'Do you see two lines of the same color?', function(assert) {
    var container = document.getElementById('plot');
    var plot = new sigplot.Plot(container, {
        xcmp: 5
    });
    assert.notEqual(plot, null);
    var data = [];
    for (var i = 0; i < 16384; i++) {
        if ((i > 400) && (i < 800)) {
            if (i % 3 === 0) {
                data.push(800);
            } else if (i % 3 === 1) {
                data.push(400);
            } else {
                data.push(0);
            }
        } else if ((i > 1200) && (i < 1600)) {
            if (i % 3 === 0) {
                data.push(-800);
            } else if (i % 3 === 1) {
                data.push(400);
            } else {
                data.push(0);
            }
        } else {
            data.push(0);
        }
    }
    var lyr0 = plot.overlay_pipe({
        type: 2000,
        subsize: 16384
    });
    var cnt = 0;
    ifixture.interval = window.setInterval(function() {
        cnt = cnt + 1;
        plot.push(lyr0, data);
    }, 100);
});

interactiveTest('layer2D (change compression layerAvg)', 'Do you see two lines of the same color?', function(assert) {
    var container = document.getElementById('plot');
    var plot = new sigplot.Plot(container, {
        xcmp: 4
    });
    assert.notEqual(plot, null);
    var data = [];
    for (var i = 0; i < 16384; i++) {
        if ((i > 400) && (i < 800)) {
            if (i % 3 === 0) {
                data.push(100);
            } else if (i % 3 === 1) {
                data.push(400);
            } else {
                data.push(50);
            }
        } else if ((i > 1200) && (i < 1600)) {
            if (i % 3 === 0) {
                data.push(100);
            } else if (i % 3 === 1) {
                data.push(400);
            } else {
                data.push(50);
            }
        } else {
            data.push(0);
        }
    }
    var lyr0 = plot.overlay_pipe({
        type: 2000,
        subsize: 16384
    }, {
        xcmp: 2
    });
    var cnt = 0;
    ifixture.interval = window.setInterval(function() {
        cnt = cnt + 1;
        plot.push(lyr0, data);
    }, 100);
});

interactiveTest('layer2D (change compression settings)', 'Do you see two lines of the same color after 100 lines?', function(assert) {
    var container = document.getElementById('plot');
    var plot = new sigplot.Plot(container, {
        xcmp: 4
    });
    assert.notEqual(plot, null);
    var data = [];
    for (var i = 0; i < 16384; i++) {
        if ((i > 400) && (i < 800)) {
            if (i % 3 === 0) {
                data.push(100);
            } else if (i % 3 === 1) {
                data.push(400);
            } else {
                data.push(50);
            }
        } else if ((i > 1200) && (i < 1600)) {
            if (i % 3 === 0) {
                data.push(100);
            } else if (i % 3 === 1) {
                data.push(400);
            } else {
                data.push(50);
            }
        } else {
            data.push(0);
        }
    }
    var lyr0 = plot.overlay_pipe({
        type: 2000,
        subsize: 16384
    });
    var cnt = 0;
    ifixture.interval = window.setInterval(function() {
        cnt = cnt + 1;
        plot.push(lyr0, data);

        if (cnt === 100) {
            plot.change_settings({
                xcmp: 2
            });
        }
    }, 100);
});

interactiveTest('raster (ystart)', 'Does the plot start at y-axis 100?', function(assert) {
    var container = document.getElementById('plot');
    var plot = new sigplot.Plot(container, {});
    assert.notEqual(plot, null);
    var framesize = 128;
    var height = 120;
    var ramp = [];
    for (var j = 0; j < height; j += 1) {
        for (var i = 0; i < framesize; i += 1) {
            ramp.push(i + 1);
        }
    }
    plot.overlay_array(ramp, {
        type: 2000,
        subsize: framesize,
        file_name: "ramp",
        ydelta: 0.5,
        ystart: 100
    });
});

interactiveTest('raster (timecode)', 'Do you see a raster that starts at 2014 July 4th for one hour (use "t" to check)?', function(assert) {
    var container = document.getElementById('plot');
    var plot = new sigplot.Plot(container, {});
    assert.notEqual(plot, null);
    var framesize = 128;
    var height = 120;
    var ramp = [];
    for (var j = 0; j < height; j += 1) {
        for (var i = 0; i < framesize; i += 1) {
            ramp.push(i + 1);
        }
    }
    plot.overlay_array(ramp, {
        type: 2000,
        subsize: framesize,
        file_name: "ramp",
        ydelta: 0.5,
        yunits: 4,
        timecode: sigplot.m.j1970toj1950(new Date("2014-07-04T00:00:00Z"))
    });
});

interactiveTest('raster (smoothing)', 'Is the following raster smoothed?', function(assert) {
    var container = document.getElementById('plot');
    var plot = new sigplot.Plot(container, {});
    assert.notEqual(plot, null);
    plot.change_settings({
        rasterSmoothing: true
    });
    var framesize = 200;
    var height = 100;
    var ramp = [];
    for (var j = 0; j < height; j += 1) {
        for (var i = 0; i < framesize; i += 1) {
            ramp.push(i + 1);
        }
    }
    plot.overlay_array(ramp, {
        type: 2000,
        subsize: framesize,
        file_name: "ramp"
    });
});

interactiveTest('raster (smart-smoothing)', 'Is the following raster smoothed until zoomed?', function(assert) {
    var container = document.getElementById('plot');
    var plot = new sigplot.Plot(container, {});
    assert.notEqual(plot, null);
    plot.change_settings({
        rasterSmoothing: 3.0
    });
    var framesize = 200;
    var height = 100;
    var ramp = [];
    for (var j = 0; j < height; j += 1) {
        for (var i = 0; i < framesize; i += 1) {
            ramp.push(i + 1);
        }
    }
    plot.overlay_array(ramp, {
        type: 2000,
        subsize: framesize,
        file_name: "ramp",
        yunits: 4,
        timecode: sigplot.m.j1970toj1950(new Date("2014-07-04T00:00:00Z"))
    });
});

interactiveTest('sigplot b&w penny 1', 'Do you see a b&w penny', function(assert) {
    var container = document.getElementById('plot');
    var plot = new sigplot.Plot(container, {
        xc: 0
    });
    assert.notEqual(plot, null);
    plot.overlay_href("dat/penny.prm");
});
interactiveTest('sigplot b&w penny 2', 'Do you see a b&w penny', function(assert) {
    var container = document.getElementById('plot');
    var plot = new sigplot.Plot(container, {
        cmap: "Greyscale"
    });
    assert.notEqual(plot, null);
    plot.overlay_href("dat/penny.prm");
});
interactiveTest('sigplot b&w penny 3', 'Do you see a b&w penny', function(assert) {
    var container = document.getElementById('plot');
    var plot = new sigplot.Plot(container, {});
    assert.notEqual(plot, null);
    plot.overlay_href("dat/penny.prm");
    plot.change_settings({
        cmap: "Greyscale"
    });
});
interactiveTest('sigplot b&w penny 4', 'Do you see a b&w penny', function(assert) {
    var container = document.getElementById('plot');
    var plot = new sigplot.Plot(container, {
        cmap: 0
    });
    assert.notEqual(plot, null);
    plot.overlay_href("dat/penny.prm");
});
interactiveTest('sigplot b&w penny 5', 'Do you see a b&w penny', function(assert) {
    var container = document.getElementById('plot');
    var plot = new sigplot.Plot(container, {});
    assert.notEqual(plot, null);
    plot.overlay_href("dat/penny.prm");
    plot.change_settings({
        cmap: 0
    });
});
interactiveTest('sigplot (custom cmap) penny', 'Do you see a red penny', function(assert) {
    var container = document.getElementById('plot');
    var colors = [{
        pos: 0,
        red: 0,
        green: 0,
        blue: 0
    }, {
        pos: 60,
        red: 50,
        green: 0,
        blue: 0
    }, {
        pos: 100,
        red: 100,
        green: 0,
        blue: 0
    }, {
        pos: 100,
        red: 0,
        green: 0,
        blue: 0
    }, {
        pos: 100,
        red: 0,
        green: 0,
        blue: 0
    }, {
        pos: 100,
        red: 0,
        green: 0,
        blue: 0
    }, {
        pos: 100,
        red: 0,
        green: 0,
        blue: 0
    }];
    var plot = new sigplot.Plot(container, {
        cmap: colors
    });
    assert.notEqual(plot, null);
    plot.overlay_href("dat/penny.prm");
});

interactiveTest('sigplot penny (scaled)', 'Manually scale the Z-axis, does it work (i.e. all blue)?', function(assert) {
    var container = document.getElementById('plot');
    var plot = new sigplot.Plot(container, {
        zmin: 50,
        zmax: 100
    });
    assert.notEqual(plot, null);
    assert.equal(plot._Gx.zmin, 50);
    assert.equal(plot._Gx.zmax, 100);
    assert.equal(plot._Gx.autoz, 0);
    plot.overlay_href("dat/penny.prm", function() {
        assert.equal(plot._Gx.zmin, 50);
        assert.equal(plot._Gx.zmax, 100);
        plot.change_settings({
            zmin: 25
        });
        assert.equal(plot._Gx.zmin, 25);
        plot.change_settings({
            zmax: 1000
        });
        assert.equal(plot._Gx.zmax, 1000);
    });
});

interactiveTest('scrolling raster two pipes', 'Do you see a scrolling raster with two pipes?', function(assert) {
    var container = document.getElementById('plot');
    var plot = new sigplot.Plot(container, {});
    assert.notEqual(plot, null);
    // typically when you have two raster layers you will want
    // to manually fix both zmin and zmax, otherwise they will
    // both be trying to adjust the zmin/zmax for autoscaling
    plot.change_settings({
        zmin: -128,
        zmax: 0
    });
    var framesize = 128;
    var layer_0 = plot.overlay_pipe({
        type: 2000,
        subsize: framesize,
        file_name: "layer0",
        ydelta: 0.25
    });
    assert.equal(plot.get_lyrn(layer_0), 0);
    var layer_1 = plot.overlay_pipe({
        type: 2000,
        subsize: Math.floor(framesize / 3),
        file_name: "layer1",
        ydelta: 0.25
    }, {
        opacity: 0.5
    });
    assert.equal(plot.get_lyrn(layer_1), 1);

    ifixture.interval = window.setInterval(function() {
        var ramp = [];
        for (var i = 0; i < framesize; i += 1) {
            ramp.push(-1 * (i + 1));
        }
        plot.push(layer_0, ramp);
    }, 500);

    ifixture.interval = window.setInterval(function() {
        var ramp = [];
        for (var i = 0; i < Math.floor(framesize / 3); i += 1) {
            ramp.push(-2 * (i + 1));
        }
        plot.push(layer_1, ramp);
    }, 100);
});

interactiveTest('scrolling raster fixed scale', 'Do you see a scrolling raster?', function(assert) {
    var container = document.getElementById('plot');
    // the colors will start around 50 and max out around 100
    var plot = new sigplot.Plot(container, {
        zmin: 50,
        zmax: 100
    });
    assert.notEqual(plot, null);
    var framesize = 128;
    var lyr0 = plot.overlay_pipe({
        type: 2000,
        subsize: framesize,
        file_name: "ramp",
        ydelta: 0.25
    });
    ifixture.interval = window.setInterval(function() {
        var ramp = [];
        for (var i = 0; i < framesize; i += 1) {
            ramp.push(i + 1);
        }
        plot.push(lyr0, ramp);
    }, 100);
});

interactiveTest('scrolling raster (scaled)', 'Do you see the scaling change correctly?', function(assert) {
    var container = document.getElementById('plot');
    var plot = new sigplot.Plot(container, {});
    assert.notEqual(plot, null);
    plot.change_settings({
        autol: 5
    });
    var framesize = 128;
    var lyr0 = plot.overlay_pipe({
        type: 2000,
        subsize: framesize,
        file_name: "ramp",
        ydelta: 0.25
    });

    var cnt = 0;
    ifixture.interval = window.setInterval(function() {
        var ramp = [];
        for (var i = 0; i < framesize; i += 1) {
            ramp.push(i + 1);
        }
        plot.push(lyr0, ramp);
        cnt = cnt + 1;
        if (cnt === 40) {
            // After 40 lines, change the scaling changes
            plot.change_settings({
                zmin: 50,
                zmax: 100
            });
        }
    }, 100);
});

interactiveTest('raster (small xdelta)', 'Do you see the expected raster?', function(assert) {
    var container = document.getElementById('plot');
    var plot = new sigplot.Plot(container, {});
    assert.notEqual(plot, null);
    plot.change_settings({
        autol: 5
    });
    var framesize = 128;
    var lyr0 = plot.overlay_pipe({
        type: 2000,
        subsize: framesize,
        file_name: "ramp",
        ydelta: 0.25,
        xdelta: 0.0009
    });
    ifixture.interval = window.setInterval(function() {
        var ramp = [];
        for (var i = 0; i < framesize; i += 1) {
            ramp.push(i + 1);
        }
        plot.push(lyr0, ramp);
    }, 100);
});

interactiveTest('zoomed scrolling raster', 'Do you see a scrolling raster with no render errors?', function(assert) {
    var container = document.getElementById('plot');
    var plot = new sigplot.Plot(container, {});
    assert.notEqual(plot, null);
    plot.change_settings({
        autol: 5
    });
    var framesize = 128;
    var lyr0 = plot.overlay_pipe({
        type: 2000,
        subsize: framesize,
        file_name: "ramp",
        ydelta: 0.25
    });
    plot.zoom({
        x: 95,
        y: 0
    }, {
        x: 106.9,
        y: 10
    });
    ifixture.interval = window.setInterval(function() {
        var ramp = [];
        for (var i = 0; i < framesize; i += 1) {
            ramp.push(i + 1);
        }
        plot.push(lyr0, ramp);
    }, 100);
});

interactiveTest('xcmp raster align check', 'Do you see a line centered at 6000?', function(assert) {
    var container = document.getElementById('plot');
    var plot = new sigplot.Plot(container, {
        xcmp: 3
    });
    assert.notEqual(plot, null);
    var framesize = 9000;
    var lyr0 = plot.overlay_pipe({
        type: 2000,
        subsize: framesize,
        file_name: "test"
    }, {});
    ifixture.interval = window.setInterval(function() {
        var ramp = [];
        for (var i = 0; i < framesize; i += 1) {
            if (i > 5990 && i < 6010) {
                ramp.push(100);
            } else {
                ramp.push(0);
            }
        }
        plot.push(lyr0, ramp);
    }, 100);
});

interactiveTest('falling raster (timecode)', 'Do you see a falling raster that starts at 2014 July 4th?', function(assert) {
    var container = document.getElementById('plot');
    var plot = new sigplot.Plot(container, {});
    assert.notEqual(plot, null);
    plot.change_settings({
        autol: 5
    });
    var framesize = 128;
    var lyr0 = plot.overlay_pipe({
        type: 2000,
        subsize: framesize,
        file_name: "ramp",
        ydelta: 0.5, // two frames a second
        yunits: 4,
        timecode: sigplot.m.j1970toj1950(new Date("2014-07-04T00:00:00Z"))
    }, {
        drawmode: "falling"
    });
    ifixture.interval = window.setInterval(function() {
        var ramp = [];
        for (var i = 0; i < framesize; i += 1) {
            ramp.push(i + 1);
        }
        plot.push(lyr0, ramp);
    }, 500);
});

interactiveTest('falling raster (timestamp)', 'Do you see a falling raster that starts at 2014 July 4th?', function(assert) {
    var container = document.getElementById('plot');
    var plot = new sigplot.Plot(container, {});
    assert.notEqual(plot, null);
    plot.change_settings({
        autol: 5
    });
    var framesize = 128;
    var now = new Date("2014-07-04T00:00:00Z");
    var lyr0 = plot.overlay_pipe({
        type: 2000,
        subsize: framesize,
        file_name: "ramp",
        ydelta: 0.5, // two frames a second
        yunits: 4
    }, {
        drawmode: "falling"
    });
    ifixture.interval = window.setInterval(function() {
        var ramp = [];
        for (var i = 0; i < framesize; i += 1) {
            ramp.push(i + 1);
        }
        plot.push(lyr0, ramp, {
            timestamp: now
        });
        now.setSeconds(now.getSeconds() + 0.5);
    }, 500);
});

interactiveTest('rising raster (timecode)', 'Do you see a rising raster that starts at 2014 July 4th?', function(assert) {
    var container = document.getElementById('plot');
    var plot = new sigplot.Plot(container, {});
    assert.notEqual(plot, null);
    plot.change_settings({
        autol: 5
    });
    var framesize = 128;
    var lyr0 = plot.overlay_pipe({
        type: 2000,
        subsize: framesize,
        file_name: "ramp",
        ydelta: 0.5, // two frames a second
        yunits: 4,
        timecode: sigplot.m.j1970toj1950(new Date("2014-07-04T00:00:00Z"))
    }, {
        drawmode: "rising"
    });
    ifixture.interval = window.setInterval(function() {
        var ramp = [];
        for (var i = 0; i < framesize; i += 1) {
            ramp.push(i + 1);
        }
        plot.push(lyr0, ramp);
    }, 500);
});

interactiveTest('rising raster (timestamp)', 'Do you see a rising raster that starts at 2014 July 4th?', function(assert) {
    var container = document.getElementById('plot');
    var plot = new sigplot.Plot(container, {});
    assert.notEqual(plot, null);
    plot.change_settings({
        autol: 5
    });
    var framesize = 128;
    var now = new Date("2014-07-04T00:00:00Z");
    var lyr0 = plot.overlay_pipe({
        type: 2000,
        subsize: framesize,
        file_name: "ramp",
        ydelta: 0.5, // two frames a second
        yunits: 4
    }, {
        drawmode: "rising"
    });
    ifixture.interval = window.setInterval(function() {
        var ramp = [];
        for (var i = 0; i < framesize; i += 1) {
            ramp.push(i + 1);
        }
        plot.push(lyr0, ramp, {
            timestamp: now
        });
        now.setSeconds(now.getSeconds() + 0.5);
    }, 500);
});

interactiveTest('raster changing xstart', 'Do you see a falling raster that stays the same while the axis shifts?', function(assert) {
    var container = document.getElementById('plot');
    var plot = new sigplot.Plot(container, {});
    assert.notEqual(plot, null);
    plot.change_settings({
        autol: 5
    });
    var framesize = 128;
    var lyr0 = plot.overlay_pipe({
        type: 2000,
        subsize: framesize,
        file_name: "ramp",
        xstart: -64,
        ydelta: 0.25
    });
    var xstart = 0;
    var xstart_chng = 16;
    ifixture.interval = window.setInterval(function() {
        var ramp = [];
        for (var i = 0; i < framesize; i += 1) {
            ramp.push(i + 1);
        }
        if (Math.abs(xstart) >= 64) {
            xstart_chng = xstart_chng * -1;
        }
        xstart += xstart_chng;
        plot.push(lyr0, ramp, {
            xstart: xstart
        });
    }, 500);
});

interactiveTest('raster changing LPS', 'Do you see a falling raster redrawn with alternating cursor speed every 10 seconds?', function(assert) {
    var container = document.getElementById('plot');
    var initialLps = 50;
    var alternateLps = 200;
    var lpsVals = [initialLps, alternateLps];
    var currentLps = lpsVals[0];
    var plot = new sigplot.Plot(container, {});
    assert.notEqual(plot, null);
    plot.change_settings({
        autol: 5
    });
    var framesize = 128;
    var lyr_uuid = plot.overlay_pipe({
        type: 2000,
        subsize: framesize,
        file_name: "ramp",
        xstart: 0,
        ydelta: 0.25,
        lps: initialLps
    });
    var toggleLps = function() {
        if (plot.get_layer(0).lps === lpsVals[0]) {
            currentLps = lpsVals[1];
        } else {
            currentLps = lpsVals[0];
        }
        plot.deoverlay(lyr_uuid);
        plot.overlay_pipe({
            type: 2000,
            subsize: framesize,
            file_name: "ramp",
            xstart: 0,
            ydelta: 0.25
        });
    };
    assert.strictEqual(plot.get_layer(0).lps, initialLps);
    var count = 0;
    ifixture.interval = window.setInterval(function() {
        count++;
        var ramp = [];
        for (var i = 0; i < framesize; i += 1) {
            ramp.push(i + 1);
        }
        if (count % 20 === 0) {
            toggleLps();
        }
        plot.push(lyr_uuid, ramp, {
            lps: currentLps
        });
    }, 500);
});

interactiveTest('raster changing xdelta', 'Do you see a falling raster that stays the same while the axis increases?', function(assert) {
    var container = document.getElementById('plot');
    var plot = new sigplot.Plot(container, {});
    assert.notEqual(plot, null);
    plot.change_settings({
        autol: 5
    });
    var framesize = 128;
    var lyr0 = plot.overlay_pipe({
        type: 2000,
        subsize: framesize,
        file_name: "ramp",
        ydelta: 0.25
    });
    var xdelta = 1;
    ifixture.interval = window.setInterval(function() {
        var ramp = [];
        for (var i = 0; i < framesize; i += 1) {
            ramp.push(i + 1);
        }
        xdelta *= 2;
        plot.push(lyr0, ramp, {
            xdelta: xdelta
        });
    }, 500);
});

interactiveTest('raster drawmode change (scrolling -> rising -> scrolling)', 'Do you see the scrolling line?', function(assert) {
    var container = document.getElementById('plot');
    var plot = new sigplot.Plot(container, {});
    assert.notEqual(plot, null);
    plot.change_settings({
        autol: 5
    });
    var framesize = 128;
    var lyr0 = plot.overlay_pipe({
        type: 2000,
        subsize: framesize,
        file_name: "ramp",
        ydelta: 0.25
    });
    ifixture.interval = window.setInterval(function() {
        var ramp = [];
        for (var i = 0; i < framesize; i += 1) {
            ramp.push(-1 * (i + 1));
        }
        plot.push(lyr0, ramp);
    }, 100);
    setTimeout(function() {
        plot.change_settings({
            drawmode: "rising"
        });
        setTimeout(function() {
            plot.change_settings({
                drawmode: "scrolling"
            });
        }, 5000);
    }, 5000);
});

interactiveTest('raster drawmode change (scrolling -> falling -> scrolling)', 'Do you see the scrolling line?', function(assert) {
    var container = document.getElementById('plot');
    var plot = new sigplot.Plot(container, {});
    assert.notEqual(plot, null);
    plot.change_settings({
        autol: 5
    });
    var framesize = 128;
    var lyr0 = plot.overlay_pipe({
        type: 2000,
        subsize: framesize,
        file_name: "ramp",
        ydelta: 0.25
    });
    ifixture.interval = window.setInterval(function() {
        var ramp = [];
        for (var i = 0; i < framesize; i += 1) {
            ramp.push(-1 * (i + 1));
        }
        plot.push(lyr0, ramp);
    }, 100);
    setTimeout(function() {
        plot.change_settings({
            drawmode: "falling"
        });
        setTimeout(function() {
            plot.change_settings({
                drawmode: "scrolling"
            });
        }, 5000);
    }, 5000);
});

interactiveTest('SP format', 'Do you see a plot that looks like a checkerboard?', function(assert) {
    var container = document.getElementById('plot');
    var plot = new sigplot.Plot(container, {});
    assert.notEqual(plot, null);
    var bf = sigplot.m.initialize();
    bf.format = "SP";
    bf.setData(new Uint8Array([170, 85, 170, 85, 170, 85, 170, 85]).buffer);

    assert.equal(bf.dview.getBit(0), 1);
    assert.equal(bf.dview.getBit(1), 0);
    assert.equal(bf.dview.getBit(2), 1);
    assert.equal(bf.dview.getBit(3), 0);
    assert.equal(bf.dview.getBit(4), 1);
    assert.equal(bf.dview.getBit(5), 0);
    assert.equal(bf.dview.getBit(6), 1);
    assert.equal(bf.dview.getBit(7), 0);

    assert.equal(bf.dview.getBit(56), 0);
    assert.equal(bf.dview.getBit(57), 1);
    assert.equal(bf.dview.getBit(58), 0);
    assert.equal(bf.dview.getBit(59), 1);
    assert.equal(bf.dview.getBit(60), 0);
    assert.equal(bf.dview.getBit(61), 1);
    assert.equal(bf.dview.getBit(62), 0);
    assert.equal(bf.dview.getBit(63), 1);

    plot.overlay_bluefile(bf, {
        subsize: 8,
        layerType: "2D"
    });
});

interactiveTest('B&W SP format', 'Do you see a plot that looks like a black and white checkerboard?', function(assert) {
    var container = document.getElementById('plot');
    var plot = new sigplot.Plot(container, {
        cmap: 0
    });
    assert.notEqual(plot, null);
    var bf = sigplot.m.initialize();
    bf.format = "SP";
    bf.setData(new Uint8Array([170, 85, 170, 85, 170, 85, 170, 85]).buffer);

    plot.overlay_bluefile(bf, {
        subsize: 8,
        layerType: "2D"
    });
});

interactiveTest('SP file', 'Do you see a line plot of binary points 0 to 1?', function(assert) {
    var container = document.getElementById('plot');
    var plot = new sigplot.Plot(container, {});
    assert.notEqual(plot, null);
    plot.overlay_href("dat/scalarpacked.tmp");
});

interactiveTest('SP file raster', 'Do you see a binary plot of random data?', function(assert) {
    var container = document.getElementById('plot');
    var plot = new sigplot.Plot(container, {});
    assert.notEqual(plot, null);
    plot.overlay_href("dat/scalarpacked.tmp", null, {
        subsize: 64,
        layerType: "2D"
    });
});

interactiveTest('Raster downscale max', 'Do you see two red lines in the middle?', function(assert) {
    var container = document.getElementById('plot');
    var plot = new sigplot.Plot(container, {});
    assert.notEqual(plot, null);

    plot.change_settings({
        cmode: 'LO',
        autol: 5
    });

    var lyr0 = plot.overlay_pipe({
        type: 2000,
        subsize: 0,
        file_name: "random",
        xstart: null,
        xdelta: null
    }, {
        downscale: "max"
    });

    var hdl = window.setInterval(function() {
        var random = [];
        var framesize = 32768;
        for (var i = 0; i < framesize; i += 1) {
            random.push(Math.random() + 100);
        }
        random[500] = 1;
        random[15990] = 1000;
        random[15991] = 100;
        random[15992] = 100;
        random[15993] = 100;
        random[15995] = 100;
        random[15996] = 100;
        random[15997] = 100;
        random[15998] = 100;
        random[15999] = 1000;
        random[16000] = 1000;
        random[16001] = 1000;
        random[16002] = 1000;
        random[18000] = 1000;

        plot.push(lyr0, random, {
            subsize: framesize,
            xstart: 5e6,
            xdelta: 10
        });
    }, 300);
});

interactiveTest('Raster downscale min', 'Do you see one black line on the left?', function(assert) {
    var container = document.getElementById('plot');
    var plot = new sigplot.Plot(container, {});
    assert.notEqual(plot, null);

    plot.change_settings({
        cmode: 'LO',
        autol: 5
    });

    var lyr0 = plot.overlay_pipe({
        type: 2000,
        subsize: 0,
        file_name: "random",
        xstart: null,
        xdelta: null
    }, {
        downscale: "min"
    });

    var hdl = window.setInterval(function() {
        var random = [];
        var framesize = 32768;
        for (var i = 0; i < framesize; i += 1) {
            random.push(Math.random() + 50);
        }
        random[500] = 1;
        random[15990] = 1000;
        random[15991] = 100;
        random[15992] = 100;
        random[15993] = 100;
        random[15995] = 100;
        random[15996] = 100;
        random[15997] = 100;
        random[15998] = 100;
        random[15999] = 1000;
        random[16000] = 1000;
        random[16001] = 1000;
        random[16002] = 1000;
        random[18000] = 1000;

        plot.push(lyr0, random, {
            subsize: framesize,
            xstart: 5e6,
            xdelta: 10
        });
    }, 300);
});

interactiveTest('Raster downscale minmax', 'Do you see one black line on the left and two red lines in the middle?', function(assert) {
    var container = document.getElementById('plot');
    var plot = new sigplot.Plot(container, {});
    assert.notEqual(plot, null);

    plot.change_settings({
        cmode: 'LO',
        autol: 5
    });

    var lyr0 = plot.overlay_pipe({
        type: 2000,
        subsize: 0,
        file_name: "random",
        xstart: null,
        xdelta: null
    }, {
        downscale: "minmax"
    });

    var hdl = window.setInterval(function() {
        var random = [];
        var framesize = 32768;
        for (var i = 0; i < framesize; i += 1) {
            random.push(Math.random() + 50);
        }
        random[500] = 1;
        random[15990] = 1000;
        random[15991] = 100;
        random[15992] = 100;
        random[15993] = 100;
        random[15995] = 100;
        random[15996] = 100;
        random[15997] = 100;
        random[15998] = 100;
        random[15999] = 1000;
        random[16000] = 1000;
        random[16001] = 1000;
        random[16002] = 1000;
        random[18000] = 1000;

        plot.push(lyr0, random, {
            subsize: framesize,
            xstart: 5e6,
            xdelta: 10
        });

    }, 300);
});

interactiveTest('Raster downscale minmax zoom', 'Do you see a line at 16000 and 18000?', function(assert) {
    var container = document.getElementById('plot');
    var plot = new sigplot.Plot(container, {});
    assert.notEqual(plot, null);

    plot.change_settings({
        cmode: 'LO',
        autol: 5
    });

    var lyr0 = plot.overlay_pipe({
        type: 2000,
        subsize: 0,
        file_name: "random"
    }, {
        downscale: "minmax"
    });

    window.setTimeout(function() {
        plot.zoom({
            x: 15000,
            y: 5
        }, {
            x: 19000,
            y: 25
        });
    });

    var hdl = window.setInterval(function() {
        var random = [];
        var framesize = 32768;
        for (var i = 0; i < framesize; i += 1) {
            random.push(Math.random() + 50);
        }
        random[500] = 1;
        random[15990] = 1000;
        random[15991] = 100;
        random[15992] = 100;
        random[15993] = 100;
        random[15995] = 100;
        random[15996] = 100;
        random[15997] = 100;
        random[15998] = 100;
        random[15999] = 1000;
        random[16000] = 1000;
        random[16001] = 1000;
        random[16002] = 1000;
        random[18000] = 1000;

        plot.push(lyr0, random, {
            subsize: framesize,
        });

    }, 300);
});