##// END OF EJS Templates
don't store signatures in notebooks...
don't store signatures in notebooks store them in an sqlite database instead. The algorithm and signature are stored and not associated with a path. This means that moving files around doesn't affect trust, and every trusted change to a notebook remains trusted.

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isolated_svg.js
90 lines | 3.6 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();
});
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);
IPython.notebook.save_notebook();
}, {n : fname});
this.echo(this.currentUrl);
});
this.then(function() {
url = this.evaluate(function() {
IPython.notebook.rename("foo");
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.assert_colors_equal('#ff0000', colors && colors[0], 'display_svg() First svg should be red');
this.assert_colors_equal('#000000', colors && colors[1], '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.assert_colors_equal('#ff0000', colors && colors[0], 'display() First svg should be red');
this.assert_colors_equal('#000000', colors && colors[1], 'display() Second svg should be black');
});
});