##// END OF EJS Templates
Various polishing of interactive reference doc.
Various polishing of interactive reference doc.

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isolated_svg.js
97 lines | 3.8 KiB | application/javascript | JavascriptLexer
//
// Test display isolation
// An object whose metadata contains an "isolated" tag must be isolated
// from the rest of the document. In the case of inline SVGs, this means
// that multiple SVGs have different scopes. This test checks that there
// are no CSS leaks between two isolated SVGs.
//
casper.notebook_test(function () {
this.evaluate(function () {
var cell = IPython.notebook.get_cell(0);
cell.set_text( "from IPython.core.display import SVG, display_svg\n"
+ "s1 = '''<svg width='1cm' height='1cm' viewBox='0 0 1000 500'>"
+ "<defs><style>rect {fill:red;}; </style></defs>"
+ "<rect id='r1' x='200' y='100' width='600' height='300' /></svg>"
+ "'''\n"
+ "s2 = '''<svg width='1cm' height='1cm' viewBox='0 0 1000 500'>"
+ "<rect id='r2' x='200' y='100' width='600' height='300' /></svg>"
+ "'''\n"
+ "display_svg(SVG(s1), metadata=dict(isolated=True))\n"
+ "display_svg(SVG(s2), metadata=dict(isolated=True))\n"
);
cell.execute();
console.log("hello" );
});
this.then(function() {
var fname=this.test.currentTestFile.split('/').pop().toLowerCase();
this.echo(fname)
this.echo(this.currentUrl)
this.evaluate(function (n) {
IPython.notebook.rename(n);
console.write("hello" + n);
IPython.notebook.save_notebook();
}, {n : fname});
this.echo(this.currentUrl)
});
this.then(function() {
url = this.evaluate(function() {
IPython.notebook.rename("foo");
//$("span#notebook_name")[0].click();
//$("input")[0].value = "please-work";
//$(".btn-primary")[0].click();
return document.location.href;
})
this.echo("renamed" + url);
this.echo(this.currentUrl);
});
this.wait_for_output(0);
this.then(function () {
var colors = this.evaluate(function () {
var colors = [];
var ifr = __utils__.findAll("iframe");
var svg1 = ifr[0].contentWindow.document.getElementById('r1');
colors[0] = window.getComputedStyle(svg1)["fill"];
var svg2 = ifr[1].contentWindow.document.getElementById('r2');
colors[1] = window.getComputedStyle(svg2)["fill"];
return colors;
});
this.test.assertEquals(colors && colors[0], '#ff0000', 'display_svg() First svg should be red');
this.test.assertEquals(colors && colors[1], '#000000', 'display_svg() Second svg should be black');
});
// now ensure that we can pass the same metadata dict to plain old display()
this.thenEvaluate(function () {
var cell = IPython.notebook.get_cell(0);
cell.clear_output();
cell.set_text( "from IPython.display import display\n"
+ "display(SVG(s1), metadata=dict(isolated=True))\n"
+ "display(SVG(s2), metadata=dict(isolated=True))\n"
);
cell.execute();
});
this.wait_for_output(0);
// same test as original
this.then(function () {
var colors = this.evaluate(function () {
var colors = [];
var ifr = __utils__.findAll("iframe");
var svg1 = ifr[0].contentWindow.document.getElementById('r1');
colors[0] = window.getComputedStyle(svg1)["fill"];
var svg2 = ifr[1].contentWindow.document.getElementById('r2');
colors[1] = window.getComputedStyle(svg2)["fill"];
return colors;
});
this.test.assertEquals(colors && colors[0], '#ff0000', 'display() First svg should be red');
this.test.assertEquals(colors && colors[1], '#000000', 'display() Second svg should be black');
});
});