| (function() { |
| // Test is initiated from body.onload, so explicit done() call is required. |
| setup({ explicit_done: true }); |
| |
| function checkSubtreeExpectedValues(t, parent, prefix) |
| { |
| var checkedLayout = checkExpectedValues(t, parent, prefix); |
| Array.prototype.forEach.call(parent.childNodes, function(node) { |
| checkedLayout |= checkSubtreeExpectedValues(t, node, prefix); |
| }); |
| return checkedLayout; |
| } |
| |
| function checkAttribute(output, node, attribute) |
| { |
| var result = node.getAttribute && node.getAttribute(attribute); |
| output.checked |= !!result; |
| return result; |
| } |
| |
| function assert_tolerance(actual, expected, message) |
| { |
| if (isNaN(expected) || Math.abs(actual - expected) >= 1) { |
| assert_equals(actual, Number(expected), message); |
| } |
| } |
| |
| function checkExpectedValues(t, node, prefix) |
| { |
| var output = { checked: false }; |
| |
| var expectedWidth = checkAttribute(output, node, "data-expected-width"); |
| if (expectedWidth) { |
| assert_tolerance(node.offsetWidth, expectedWidth, prefix + "width"); |
| } |
| |
| var expectedHeight = checkAttribute(output, node, "data-expected-height"); |
| if (expectedHeight) { |
| assert_tolerance(node.offsetHeight, expectedHeight, prefix + "height"); |
| } |
| |
| var expectedOffset = checkAttribute(output, node, "data-offset-x"); |
| if (expectedOffset) { |
| assert_tolerance(node.offsetLeft, expectedOffset, prefix + "offsetLeft"); |
| } |
| |
| var expectedOffset = checkAttribute(output, node, "data-offset-y"); |
| if (expectedOffset) { |
| assert_tolerance(node.offsetTop, expectedOffset, prefix + "offsetTop"); |
| } |
| |
| var expectedWidth = checkAttribute(output, node, "data-expected-client-width"); |
| if (expectedWidth) { |
| assert_tolerance(node.clientWidth, expectedWidth, prefix + "clientWidth"); |
| } |
| |
| var expectedHeight = checkAttribute(output, node, "data-expected-client-height"); |
| if (expectedHeight) { |
| assert_tolerance(node.clientHeight, expectedHeight, prefix + "clientHeight"); |
| } |
| |
| var expectedWidth = checkAttribute(output, node, "data-expected-scroll-width"); |
| if (expectedWidth) { |
| assert_tolerance(node.scrollWidth, expectedWidth, prefix + "scrollWidth"); |
| } |
| |
| var expectedHeight = checkAttribute(output, node, "data-expected-scroll-height"); |
| if (expectedHeight) { |
| assert_tolerance(node.scrollHeight, expectedHeight, prefix + "scrollHeight"); |
| } |
| |
| var expectedWidth = checkAttribute(output, node, "data-expected-bounding-client-rect-width"); |
| if (expectedWidth) { |
| assert_tolerance(node.getBoundingClientRect().width, expectedWidth, prefix + "getBoundingClientRect().width"); |
| } |
| |
| var expectedOffset = checkAttribute(output, node, "data-total-x"); |
| if (expectedOffset) { |
| var totalLeft = node.clientLeft + node.offsetLeft; |
| assert_tolerance(totalLeft, expectedOffset, prefix + |
| "clientLeft+offsetLeft (" + node.clientLeft + " + " + node.offsetLeft + ")"); |
| } |
| |
| var expectedOffset = checkAttribute(output, node, "data-total-y"); |
| if (expectedOffset) { |
| var totalTop = node.clientTop + node.offsetTop; |
| assert_tolerance(totalTop, expectedOffset, prefix + |
| "clientTop+offsetTop (" + node.clientTop + " + " + node.offsetTop + ")"); |
| } |
| |
| var expectedDisplay = checkAttribute(output, node, "data-expected-display"); |
| if (expectedDisplay) { |
| var actualDisplay = getComputedStyle(node).display; |
| assert_equals(actualDisplay, expectedDisplay, prefix + "display"); |
| } |
| |
| var expectedPaddingTop = checkAttribute(output, node, "data-expected-padding-top"); |
| if (expectedPaddingTop) { |
| var actualPaddingTop = getComputedStyle(node).paddingTop; |
| // Trim the unit "px" from the output. |
| actualPaddingTop = actualPaddingTop.slice(0, -2); |
| assert_equals(actualPaddingTop, expectedPaddingTop, prefix + "padding-top"); |
| } |
| |
| var expectedPaddingBottom = checkAttribute(output, node, "data-expected-padding-bottom"); |
| if (expectedPaddingBottom) { |
| var actualPaddingBottom = getComputedStyle(node).paddingBottom; |
| // Trim the unit "px" from the output. |
| actualPaddingBottom = actualPaddingBottom.slice(0, -2); |
| assert_equals(actualPaddingBottom, expectedPaddingBottom, prefix + "padding-bottom"); |
| } |
| |
| var expectedPaddingLeft = checkAttribute(output, node, "data-expected-padding-left"); |
| if (expectedPaddingLeft) { |
| var actualPaddingLeft = getComputedStyle(node).paddingLeft; |
| // Trim the unit "px" from the output. |
| actualPaddingLeft = actualPaddingLeft.slice(0, -2); |
| assert_equals(actualPaddingLeft, expectedPaddingLeft, prefix + "padding-left"); |
| } |
| |
| var expectedPaddingRight = checkAttribute(output, node, "data-expected-padding-right"); |
| if (expectedPaddingRight) { |
| var actualPaddingRight = getComputedStyle(node).paddingRight; |
| // Trim the unit "px" from the output. |
| actualPaddingRight = actualPaddingRight.slice(0, -2); |
| assert_equals(actualPaddingRight, expectedPaddingRight, prefix + "padding-right"); |
| } |
| |
| var expectedMarginTop = checkAttribute(output, node, "data-expected-margin-top"); |
| if (expectedMarginTop) { |
| var actualMarginTop = getComputedStyle(node).marginTop; |
| // Trim the unit "px" from the output. |
| actualMarginTop = actualMarginTop.slice(0, -2); |
| assert_equals(actualMarginTop, expectedMarginTop, prefix + "margin-top"); |
| } |
| |
| var expectedMarginBottom = checkAttribute(output, node, "data-expected-margin-bottom"); |
| if (expectedMarginBottom) { |
| var actualMarginBottom = getComputedStyle(node).marginBottom; |
| // Trim the unit "px" from the output. |
| actualMarginBottom = actualMarginBottom.slice(0, -2); |
| assert_equals(actualMarginBottom, expectedMarginBottom, prefix + "margin-bottom"); |
| } |
| |
| var expectedMarginLeft = checkAttribute(output, node, "data-expected-margin-left"); |
| if (expectedMarginLeft) { |
| var actualMarginLeft = getComputedStyle(node).marginLeft; |
| // Trim the unit "px" from the output. |
| actualMarginLeft = actualMarginLeft.slice(0, -2); |
| assert_equals(actualMarginLeft, expectedMarginLeft, prefix + "margin-left"); |
| } |
| |
| var expectedMarginRight = checkAttribute(output, node, "data-expected-margin-right"); |
| if (expectedMarginRight) { |
| var actualMarginRight = getComputedStyle(node).marginRight; |
| // Trim the unit "px" from the output. |
| actualMarginRight = actualMarginRight.slice(0, -2); |
| assert_equals(actualMarginRight, expectedMarginRight, prefix + "margin-right"); |
| } |
| |
| return output.checked; |
| } |
| |
| var testNumber = 0; |
| |
| window.checkLayout = function(selectorList, callDone = true) |
| { |
| if (!selectorList) { |
| console.error("You must provide a CSS selector of nodes to check."); |
| return; |
| } |
| var nodes = document.querySelectorAll(selectorList); |
| nodes = Array.prototype.slice.call(nodes); |
| var checkedLayout = false; |
| Array.prototype.forEach.call(nodes, function(node) { |
| test(function(t) { |
| var container = node.parentNode.className == 'container' ? node.parentNode : node; |
| var prefix = "\n" + container.outerHTML + "\n"; |
| var passed = false; |
| try { |
| checkedLayout |= checkExpectedValues(t, node.parentNode, prefix); |
| checkedLayout |= checkSubtreeExpectedValues(t, node, prefix); |
| passed = true; |
| } finally { |
| checkedLayout |= !passed; |
| } |
| }, selectorList + ' ' + String(++testNumber)); |
| }); |
| if (!checkedLayout) { |
| console.error("No valid data-* attributes found in selector list : " + selectorList); |
| } |
| if (callDone) |
| done(); |
| }; |
| |
| })(); |