Manual docs tweaks still in preparation for including docs with code pushes
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@ -215,7 +215,7 @@ and the default action will be taken each time.
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### Matchers {#MatcherList}
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<!-- GOOGLETEST_CM0019 DO NOT DELETE -->
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<!-- GOOGLETEST_CM0020 DO NOT DELETE -->
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A **matcher** matches a *single* argument. You can use it inside `ON_CALL()` or
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`EXPECT_CALL()`, or use it to validate a value directly:
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@ -340,67 +340,99 @@ or simply `expected_container` to match a container exactly. If you want to
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write the elements in-line, match them more flexibly, or get more informative
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messages, you can use:
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| Matcher | Description |
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| :----------------------------------- | :----------------------------------- |
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| `ContainerEq(container)` | The same as `Eq(container)` except |
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: : that the failure message also :
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: : includes which elements are in one :
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: : container but not the other. :
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| `Contains(e)` | `argument` contains an element that |
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: : matches `e`, which can be either a :
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: : value or a matcher. :
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| `Each(e)` | `argument` is a container where |
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: : _every_ element matches `e`, which :
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: : can be either a value or a matcher. :
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| `ElementsAre(e0, e1, ..., en)` | `argument` has `n + 1` elements, |
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: : where the i-th element matches `ei`, :
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: : which can be a value or a matcher. 0 :
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: : to 10 arguments are allowed. :
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| `ElementsAreArray({ e0, e1, ..., en | The same as `ElementsAre()` except |
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: })`, `ElementsAreArray(array)`, or : that the expected element :
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: `ElementsAreArray(array, count)` : values/matchers come from an :
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: : initializer list, STL-style :
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: : container, or C-style array. :
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| `IsEmpty()` | `argument` is an empty container |
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: : (`container.empty()`). :
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| `Pointwise(m, container)` | `argument` contains the same number |
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: : of elements as in `container`, and :
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: : for all i, (the i-th element in :
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: : `argument`, the i-th element in :
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: : `container`) match `m`, which is a :
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: : matcher on 2-tuples. E.g. :
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: : `Pointwise(Le(), upper_bounds)` :
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: : verifies that each element in :
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: : `argument` doesn't exceed the :
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: : corresponding element in :
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: : `upper_bounds`. See more detail :
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: : below. :
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| `SizeIs(m)` | `argument` is a container whose size |
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: : matches `m`. E.g. `SizeIs(2)` or :
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: : `SizeIs(Lt(2))`. :
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| `UnorderedElementsAre(e0, e1, ..., | `argument` has `n + 1` elements, and |
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: en)` : under some permutation each element :
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: : matches an `ei` (for a different :
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: : `i`), which can be a value or a :
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: : matcher. 0 to 10 arguments are :
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: : allowed. :
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| `UnorderedElementsAreArray({ e0, e1, | The same as `UnorderedElementsAre()` |
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: ..., en })`, : except that the expected element :
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: `UnorderedElementsAreArray(array)`, : values/matchers come from an :
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: or `UnorderedElementsAreArray(array, : initializer list, STL-style :
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: count)` : container, or C-style array. :
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| `WhenSorted(m)` | When `argument` is sorted using the |
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: : `<` operator, it matches container :
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: : matcher `m`. E.g. :
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: : `WhenSorted(ElementsAre(1, 2, 3))` :
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: : verifies that `argument` contains :
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: : elements `1`, `2`, and `3`, ignoring :
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: : order. :
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| `WhenSortedBy(comparator, m)` | The same as `WhenSorted(m)`, except |
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: : that the given comparator instead of :
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: : `<` is used to sort `argument`. E.g. :
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: : `WhenSortedBy(std\:\:greater<int>(), :
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: : ElementsAre(3, 2, 1))`. :
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| Matcher | Description |
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| :---------------------------------------- | :------------------------------- |
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| `BeginEndDistanceIs(m)` | `argument` is a container whose |
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: : `begin()` and `end()` iterators :
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: : are separated by a number of :
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: : increments matching `m`. E.g. :
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: : `BeginEndDistanceIs(2)` or :
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: : `BeginEndDistanceIs(Lt(2))`. For :
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: : containers that define a :
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: : `size()` method, `SizeIs(m)` may :
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: : be more efficient. :
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| `ContainerEq(container)` | The same as `Eq(container)` |
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: : except that the failure message :
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: : also includes which elements are :
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: : in one container but not the :
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: : other. :
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| `Contains(e)` | `argument` contains an element |
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: : that matches `e`, which can be :
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: : either a value or a matcher. :
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| `Each(e)` | `argument` is a container where |
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: : *every* element matches `e`, :
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: : which can be either a value or a :
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: : matcher. :
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| `ElementsAre(e0, e1, ..., en)` | `argument` has `n + 1` elements, |
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: : where the *i*-th element matches :
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: : `ei`, which can be a value or a :
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: : matcher. :
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| `ElementsAreArray({e0, e1, ..., en})`, | The same as `ElementsAre()` |
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: `ElementsAreArray(a_container)`, : except that the expected element :
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: `ElementsAreArray(begin, end)`, : values/matchers come from an :
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: `ElementsAreArray(array)`, or : initializer list, STL-style :
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: `ElementsAreArray(array, count)` : container, iterator range, or :
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: : C-style array. :
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| `IsEmpty()` | `argument` is an empty container |
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: : (`container.empty()`). :
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| `IsFalse()` | `argument` evaluates to `false` |
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: : in a Boolean context. :
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| `IsSubsetOf({e0, e1, ..., en})`, | `argument` matches |
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: `IsSubsetOf(a_container)`, : `UnorderedElementsAre(x0, x1, :
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: `IsSubsetOf(begin, end)`, : ..., xk)` for some subset `{x0, :
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: `IsSubsetOf(array)`, or : x1, ..., xk}` of the expected :
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: `IsSubsetOf(array, count)` : matchers. :
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| `IsSupersetOf({e0, e1, ..., en})`, | Some subset of `argument` |
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: `IsSupersetOf(a_container)`, : matches :
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: `IsSupersetOf(begin, end)`, : `UnorderedElementsAre(`expected :
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: `IsSupersetOf(array)`, or : matchers`)`. :
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: `IsSupersetOf(array, count)` : :
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| `IsTrue()` | `argument` evaluates to `true` |
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: : in a Boolean context. :
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| `Pointwise(m, container)`, `Pointwise(m, | `argument` contains the same |
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: {e0, e1, ..., en})` : number of elements as in :
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: : `container`, and for all i, (the :
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: : i-th element in `argument`, the :
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: : i-th element in `container`) :
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: : match `m`, which is a matcher on :
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: : 2-tuples. E.g. `Pointwise(Le(), :
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: : upper_bounds)` verifies that :
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: : each element in `argument` :
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: : doesn't exceed the corresponding :
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: : element in `upper_bounds`. See :
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: : more detail below. :
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| `SizeIs(m)` | `argument` is a container whose |
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: : size matches `m`. E.g. :
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: : `SizeIs(2)` or `SizeIs(Lt(2))`. :
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| `UnorderedElementsAre(e0, e1, ..., en)` | `argument` has `n + 1` elements, |
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: : and under *some* permutation of :
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: : the elements, each element :
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: : matches an `ei` (for a different :
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: : `i`), which can be a value or a :
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: : matcher. :
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| `UnorderedElementsAreArray({e0, e1, ..., | The same as |
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: en})`, : `UnorderedElementsAre()` except :
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: `UnorderedElementsAreArray(a_container)`, : that the expected element :
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: `UnorderedElementsAreArray(begin, end)`, : values/matchers come from an :
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: `UnorderedElementsAreArray(array)`, or : initializer list, STL-style :
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: `UnorderedElementsAreArray(array, count)` : container, iterator range, or :
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: : C-style array. :
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| `UnorderedPointwise(m, container)`, | Like `Pointwise(m, container)`, |
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: `UnorderedPointwise(m, {e0, e1, ..., : but ignores the order of :
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: en})` : elements. :
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| `WhenSorted(m)` | When `argument` is sorted using |
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: : the `<` operator, it matches :
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: : container matcher `m`. E.g. :
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: : `WhenSorted(ElementsAre(1, 2, :
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: : 3))` verifies that `argument` :
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: : contains elements 1, 2, and 3, :
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: : ignoring order. :
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| `WhenSortedBy(comparator, m)` | The same as `WhenSorted(m)`, |
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: : except that the given comparator :
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: : instead of `<` is used to sort :
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: : `argument`. E.g. :
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: : `WhenSortedBy(std\:\:greater(), :
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: : ElementsAre(3, 2, 1))`. :
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**Notes:**
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@ -154,7 +154,7 @@ class MockStack : public StackInterface<Elem> {
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#### Mocking Non-virtual Methods {#MockingNonVirtualMethods}
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gMock can mock non-virtual functions to be used in Hi-perf dependency
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injection.<!-- GOOGLETEST_CM0016 DO NOT DELETE -->.
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injection.<!-- GOOGLETEST_CM0017 DO NOT DELETE -->.
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In this case, instead of sharing a common base class with the real class, your
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mock class will be *unrelated* to the real class, but contain methods with the
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@ -1455,7 +1455,7 @@ mock object and gMock.
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#### Knowing When to Expect {#UseOnCall}
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<!-- GOOGLETEST_CM0017 DO NOT DELETE -->
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<!-- GOOGLETEST_CM0018 DO NOT DELETE -->
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**`ON_CALL`** is likely the *single most under-utilized construct* in gMock.
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@ -499,7 +499,7 @@ always return 100 as `n++` is only evaluated once. Similarly, `Return(new Foo)`
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will create a new `Foo` object when the `EXPECT_CALL()` is executed, and will
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return the same pointer every time. If you want the side effect to happen every
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time, you need to define a custom action, which we'll teach in the
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[cook book](http://<!-- GOOGLETEST_CM0011 DO NOT DELETE -->).
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[cook book](http://<!-- GOOGLETEST_CM0012 DO NOT DELETE -->).
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Time for another quiz! What do you think the following means?
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@ -332,7 +332,7 @@ You may still want to use `SetUp()/TearDown()` in the following cases:
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* In the body of a constructor (or destructor), it's not possible to use the
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`ASSERT_xx` macros. Therefore, if the set-up operation could cause a fatal
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test failure that should prevent the test from running, it's necessary to
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use `abort` <!-- GOOGLETEST_CM0014 DO NOT DELETE --> and abort the whole test executable,
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use `abort` <!-- GOOGLETEST_CM0015 DO NOT DELETE --> and abort the whole test executable,
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or to use `SetUp()` instead of a constructor.
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* If the tear-down operation could throw an exception, you must use
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`TearDown()` as opposed to the destructor, as throwing in a destructor leads
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