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chromium/third_party/blink/web_tests/external/wpt/css/css-highlight-api/Highlight-iteration.html 

<!doctype html>
<title>Highlight iteration</title>
<link rel="help" href="https://drafts.csswg.org/css-highlight-api-1/">
<script src="/resources/testharness.js"></script>
<script src="/resources/testharnessreport.js"></script>
<div id='testDiv'>abc</div>
<script>
  'use strict';
  let range1 = new Range();
  let container = document.getElementById('testDiv');
  let range2 = new StaticRange({startContainer: container, startOffset: 0, endContainer: container, endOffset: 0});

  let rangeAdditionModeCollection = ["constructor", "add function"];
  let iterationInitializationCollection = ["customHighlight[Symbol.iterator]()", "customHighlight.values()", "customHighlight.keys()"];

  function getIterator(customHighlight, iterationInitialization){
    var iterator;
    if(iterationInitialization === "customHighlight[Symbol.iterator]()"){
      iterator = customHighlight[Symbol.iterator]();
    }
    else if(iterationInitialization === "customHighlight.values()"){
      iterator = customHighlight.values();
    }
    else if(iterationInitialization === "customHighlight.keys()"){
      iterator = customHighlight.keys();
    }
    return iterator;
  }

  // Test .keys, .values, [Symbol.iterator]

  for(let iterationInitialization of iterationInitializationCollection){
    test(() => {
      let customHighlight = new Highlight();
      let iterator = getIterator(customHighlight, iterationInitialization);
      let element = iterator.next();
      assert_true(element.done, 'Highlight is iterable and .next() returns an element with .done===true when there are no more ranges to iterate');
      assert_equals(element.value, undefined, 'Highlight is iterable and .next() returns an element with .value undefined when there are no more ranges to iterate.');
    }, 'Highlight can be iterated when it\'s empty initializing the iterator with ' + iterationInitialization);
  }

  for(let rangeAdditionMode of rangeAdditionModeCollection){
    for(let iterationInitialization of iterationInitializationCollection){
      test(() => {
        var customHighlight;
        if(rangeAdditionMode === "constructor"){
          customHighlight = new Highlight(range1);
        }
        else if(rangeAdditionMode === "add function"){
          customHighlight = new Highlight();
          customHighlight.add(range1);
        }

        let iterator = getIterator(customHighlight, iterationInitialization);
        let element = iterator.next();
        assert_false(element.done, 'Highlight is iterable and .next() returns an element with .done===false when the iteration didn\'t go past the last range');
        assert_equals(element.value, range1, '.next() returns an element with .value corresponding to the first range added to the Highlight');
        element = iterator.next();
        assert_true(element.done, 'Highlight is iterable and .next() returns an element with .done===true when there are no more ranges to iterate');
        assert_equals(element.value, undefined, 'Highlight is iterable and .next() returns an element with .value undefined when there are no more ranges to iterate.');
      }, 'Highlight can be iterated over all of its ranges initializing the iterator with ' + iterationInitialization + ' and adding a range by passing it to the ' + rangeAdditionMode);

      test(() => {
        var customHighlight;
        if(rangeAdditionMode === "constructor"){
          customHighlight = new Highlight(range1, range2);
        }
        else if(rangeAdditionMode === "add function"){
          customHighlight = new Highlight();
          customHighlight.add(range1);
          customHighlight.add(range2);
        }

        let iterator = getIterator(customHighlight, iterationInitialization);
        let element = iterator.next();
        assert_false(element.done, 'Highlight is iterable and .next() returns an element with .done===false when the iteration didn\'t go past the last range');
        assert_equals(element.value, range1, '.next() returns an element with .value corresponding to the first range added to the Highlight');
        element = iterator.next();
        assert_false(element.done, 'Highlight is iterable and .next() returns an element with .done===false when the iteration didn\'t go past the last range');
        assert_equals(element.value, range2, '.next() returns an element with .value corresponding to the second range added to the Highlight');
        element = iterator.next();
        assert_true(element.done, 'Highlight is iterable and .next() returns an element with .done===true when there are no more ranges to iterate');
        assert_equals(element.value, undefined, 'Highlight is iterable and .next() returns an element with .value undefined when there are no more ranges to iterate.');
      }, 'Highlight can be iterated over all of its ranges initializing the iterator with ' + iterationInitialization + ' and adding two ranges by passing them to the ' + rangeAdditionMode);
    }
  }

  // Test .entries()

  test(() => {
    let customHighlight = new Highlight();
    let iterator = customHighlight.entries();
    let element = iterator.next();
    assert_true(element.done, 'Highlight is iterable and .next() returns an element with .done===true when there are no more ranges to iterate');
    assert_equals(element.value, undefined, 'Highlight is iterable and .next() returns an element with .value undefined when there are no more ranges to iterate.');
  }, 'Highlight can be iterated when it\'s empty initializing the iterator with .entries()');

  for(let rangeAdditionMode of rangeAdditionModeCollection){
    test(() => {
      var customHighlight;
      if(rangeAdditionMode === "constructor"){
        customHighlight = new Highlight(range1);
      }
      else if(rangeAdditionMode === "add function"){
        customHighlight = new Highlight();
        customHighlight.add(range1);
      }

      let iterator = customHighlight.entries();
      let element = iterator.next();
      assert_false(element.done, 'Highlight is iterable and .next() returns an element with .done===false when the iteration didn\'t go past the last range');
      assert_equals(element.value[0], range1, '.next() returns an element with .value[0] corresponding to the first range added to the Highlight');
      assert_equals(element.value[1], range1, '.next() returns an element with .value[1] corresponding to the first range added to the Highlight');
      element = iterator.next();
      assert_true(element.done, 'Highlight is iterable and .next() returns an element with .done===true when there are no more ranges to iterate');
      assert_equals(element.value, undefined, 'Highlight is iterable and .next() returns an element with .value undefined when there are no more ranges to iterate.');
    }, 'Highlight can be iterated over all of its ranges initializing the iterator with .entries() and adding a range by passing it to the ' + rangeAdditionMode);

    test(() => {
      var customHighlight;
      if(rangeAdditionMode === "constructor"){
        customHighlight = new Highlight(range1, range2);
      }
      else if(rangeAdditionMode === "add function"){
        customHighlight = new Highlight();
        customHighlight.add(range1);
        customHighlight.add(range2);
      }

      let iterator = customHighlight.entries();
      let element = iterator.next();
      assert_false(element.done, 'Highlight is iterable and .next() returns an element with .done===false when the iteration didn\'t go past the last highlight');
      assert_equals(element.value[0], range1, '.next() returns an element with .value[0] corresponding to the first range added to the Highlight');
      assert_equals(element.value[1], range1, '.next() returns an element with .value[1] corresponding to the first range added to the Highlight');
      element = iterator.next();
      assert_false(element.done, 'Highlight is iterable and .next() returns an element with .done===false when the iteration didn\'t go past the last highlight');
      assert_equals(element.value[0], range2, '.next() returns an element with .value[0] corresponding to the second range added to the Highlight');
      assert_equals(element.value[1], range2, '.next() returns an element with .value[1] corresponding to the second range added to the Highlight');
      element = iterator.next();
      assert_true(element.done, 'Highlight is iterable and .next() returns an element with .done===true when there are no more ranges to iterate');
      assert_equals(element.value, undefined, 'Highlight is iterable and .next() returns an element with .value undefined when there are no more ranges to iterate.');
    }, 'Highlight can be iterated over all of its ranges initializing the iterator with .entries() and adding two ranges by passing them to the ' + rangeAdditionMode);
  }

  // Test .forEach

  function compareArrays(array1, array2){
    if(array1.length != array2.length){
      return false;
    }
    for(let index=0; index<array1.length; ++index){
      if(array1[index] != array2[index])
        return false;
    }
    return true;
  }

  test(() => {
    let customHighlight = new Highlight();
    let expectedResult = [];
    let actualResult = [];
    customHighlight.forEach((range) => {actualResult.push(range);});
    assert_true(compareArrays(actualResult, expectedResult), 'The ranges seen match the ranges added');
  }, 'Highlight can be iterated through when it\'s empty using forEach.');

  for(let rangeAdditionMode of rangeAdditionModeCollection){
    test(() => {
      var customHighlight;
      if(rangeAdditionMode === "constructor"){
        customHighlight = new Highlight(range1);
      }
      else if(rangeAdditionMode === "add function"){
        customHighlight = new Highlight();
        customHighlight.add(range1);
      }

      let expectedResult = [range1];
      let actualResult = [];
      customHighlight.forEach((range) => {actualResult.push(range);});
      assert_true(compareArrays(actualResult, expectedResult), 'The ranges seen match the ranges added');
    }, 'Highlight can be iterated through using forEach when it has one range that was added by passing it to the ' + rangeAdditionMode);

    test(() => {
      var customHighlight;
      if(rangeAdditionMode === "constructor"){
        customHighlight = new Highlight(range1, range2);
      }
      else if(rangeAdditionMode === "add function"){
        customHighlight = new Highlight();
        customHighlight.add(range1);
        customHighlight.add(range2);
      }

      let expectedResult = [range1, range2];
      let actualResult = [];
      customHighlight.forEach((range) => {actualResult.push(range);});
      assert_true(compareArrays(actualResult, expectedResult), 'The ranges seen match the ranges added');
    }, 'Highlight can be iterated through using forEach when it has two ranges that were added by passing them to the ' + rangeAdditionMode);
  }

</script>