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https://github.com/RPCS3/llvm-mirror.git
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2b37eeb76e
Summary: drop_begin depends on adl_begin/adl_end, which are defined in STLExtras.h, but we can't just #include STLExtras.h in iterator_range.h as that would introduce a circular reference (STLExtras.h already depends on iterator_range.h). The simplest solution is to move drop_begin into STLExtras.h, which is a reasonable home for it anyway. Reviewers: dblaikie Subscribers: dexonsmith, ributzka, llvm-commits Tags: #llvm Differential Revision: https://reviews.llvm.org/D70189
453 lines
13 KiB
C++
453 lines
13 KiB
C++
//===- IteratorTest.cpp - Unit tests for iterator utilities ---------------===//
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//
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// Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions.
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// See https://llvm.org/LICENSE.txt for license information.
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// SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
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//
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//===----------------------------------------------------------------------===//
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#include "llvm/ADT/ilist.h"
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#include "llvm/ADT/iterator.h"
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#include "llvm/ADT/ArrayRef.h"
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#include "llvm/ADT/STLExtras.h"
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#include "llvm/ADT/SmallVector.h"
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#include "gtest/gtest.h"
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using namespace llvm;
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namespace {
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template <int> struct Shadow;
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struct WeirdIter : std::iterator<std::input_iterator_tag, Shadow<0>, Shadow<1>,
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Shadow<2>, Shadow<3>> {};
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struct AdaptedIter : iterator_adaptor_base<AdaptedIter, WeirdIter> {};
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// Test that iterator_adaptor_base forwards typedefs, if value_type is
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// unchanged.
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static_assert(std::is_same<typename AdaptedIter::value_type, Shadow<0>>::value,
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"");
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static_assert(
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std::is_same<typename AdaptedIter::difference_type, Shadow<1>>::value, "");
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static_assert(std::is_same<typename AdaptedIter::pointer, Shadow<2>>::value,
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"");
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static_assert(std::is_same<typename AdaptedIter::reference, Shadow<3>>::value,
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"");
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// Ensure that pointe{e,r}_iterator adaptors correctly forward the category of
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// the underlying iterator.
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using RandomAccessIter = SmallVectorImpl<int*>::iterator;
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using BidiIter = ilist<int*>::iterator;
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template<class T>
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using pointee_iterator_defaulted = pointee_iterator<T>;
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template<class T>
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using pointer_iterator_defaulted = pointer_iterator<T>;
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// Ensures that an iterator and its adaptation have the same iterator_category.
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template<template<typename> class A, typename It>
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using IsAdaptedIterCategorySame =
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std::is_same<typename std::iterator_traits<It>::iterator_category,
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typename std::iterator_traits<A<It>>::iterator_category>;
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// pointeE_iterator
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static_assert(IsAdaptedIterCategorySame<pointee_iterator_defaulted,
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RandomAccessIter>::value, "");
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static_assert(IsAdaptedIterCategorySame<pointee_iterator_defaulted,
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BidiIter>::value, "");
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// pointeR_iterator
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static_assert(IsAdaptedIterCategorySame<pointer_iterator_defaulted,
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RandomAccessIter>::value, "");
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static_assert(IsAdaptedIterCategorySame<pointer_iterator_defaulted,
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BidiIter>::value, "");
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TEST(PointeeIteratorTest, Basic) {
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int arr[4] = {1, 2, 3, 4};
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SmallVector<int *, 4> V;
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V.push_back(&arr[0]);
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V.push_back(&arr[1]);
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V.push_back(&arr[2]);
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V.push_back(&arr[3]);
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typedef pointee_iterator<SmallVectorImpl<int *>::const_iterator>
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test_iterator;
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test_iterator Begin, End;
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Begin = V.begin();
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End = test_iterator(V.end());
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test_iterator I = Begin;
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for (int i = 0; i < 4; ++i) {
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EXPECT_EQ(*V[i], *I);
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EXPECT_EQ(I, Begin + i);
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EXPECT_EQ(I, std::next(Begin, i));
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test_iterator J = Begin;
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J += i;
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EXPECT_EQ(I, J);
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EXPECT_EQ(*V[i], Begin[i]);
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EXPECT_NE(I, End);
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EXPECT_GT(End, I);
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EXPECT_LT(I, End);
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EXPECT_GE(I, Begin);
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EXPECT_LE(Begin, I);
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EXPECT_EQ(i, I - Begin);
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EXPECT_EQ(i, std::distance(Begin, I));
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EXPECT_EQ(Begin, I - i);
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test_iterator K = I++;
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EXPECT_EQ(K, std::prev(I));
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}
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EXPECT_EQ(End, I);
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}
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TEST(PointeeIteratorTest, SmartPointer) {
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SmallVector<std::unique_ptr<int>, 4> V;
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V.push_back(std::make_unique<int>(1));
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V.push_back(std::make_unique<int>(2));
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V.push_back(std::make_unique<int>(3));
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V.push_back(std::make_unique<int>(4));
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typedef pointee_iterator<
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SmallVectorImpl<std::unique_ptr<int>>::const_iterator>
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test_iterator;
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test_iterator Begin, End;
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Begin = V.begin();
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End = test_iterator(V.end());
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test_iterator I = Begin;
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for (int i = 0; i < 4; ++i) {
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EXPECT_EQ(*V[i], *I);
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EXPECT_EQ(I, Begin + i);
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EXPECT_EQ(I, std::next(Begin, i));
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test_iterator J = Begin;
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J += i;
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EXPECT_EQ(I, J);
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EXPECT_EQ(*V[i], Begin[i]);
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EXPECT_NE(I, End);
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EXPECT_GT(End, I);
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EXPECT_LT(I, End);
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EXPECT_GE(I, Begin);
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EXPECT_LE(Begin, I);
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EXPECT_EQ(i, I - Begin);
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EXPECT_EQ(i, std::distance(Begin, I));
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EXPECT_EQ(Begin, I - i);
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test_iterator K = I++;
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EXPECT_EQ(K, std::prev(I));
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}
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EXPECT_EQ(End, I);
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}
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TEST(PointeeIteratorTest, Range) {
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int A[] = {1, 2, 3, 4};
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SmallVector<int *, 4> V{&A[0], &A[1], &A[2], &A[3]};
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int I = 0;
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for (int II : make_pointee_range(V))
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EXPECT_EQ(A[I++], II);
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}
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TEST(PointeeIteratorTest, PointeeType) {
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struct S {
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int X;
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bool operator==(const S &RHS) const { return X == RHS.X; };
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};
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S A[] = {S{0}, S{1}};
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SmallVector<S *, 2> V{&A[0], &A[1]};
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pointee_iterator<SmallVectorImpl<S *>::const_iterator, const S> I = V.begin();
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for (int j = 0; j < 2; ++j, ++I) {
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EXPECT_EQ(*V[j], *I);
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}
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}
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TEST(FilterIteratorTest, Lambda) {
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auto IsOdd = [](int N) { return N % 2 == 1; };
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int A[] = {0, 1, 2, 3, 4, 5, 6};
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auto Range = make_filter_range(A, IsOdd);
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SmallVector<int, 3> Actual(Range.begin(), Range.end());
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EXPECT_EQ((SmallVector<int, 3>{1, 3, 5}), Actual);
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}
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TEST(FilterIteratorTest, CallableObject) {
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int Counter = 0;
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struct Callable {
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int &Counter;
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Callable(int &Counter) : Counter(Counter) {}
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bool operator()(int N) {
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Counter++;
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return N % 2 == 1;
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}
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};
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Callable IsOdd(Counter);
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int A[] = {0, 1, 2, 3, 4, 5, 6};
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auto Range = make_filter_range(A, IsOdd);
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EXPECT_EQ(2, Counter);
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SmallVector<int, 3> Actual(Range.begin(), Range.end());
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EXPECT_GE(Counter, 7);
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EXPECT_EQ((SmallVector<int, 3>{1, 3, 5}), Actual);
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}
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TEST(FilterIteratorTest, FunctionPointer) {
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bool (*IsOdd)(int) = [](int N) { return N % 2 == 1; };
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int A[] = {0, 1, 2, 3, 4, 5, 6};
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auto Range = make_filter_range(A, IsOdd);
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SmallVector<int, 3> Actual(Range.begin(), Range.end());
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EXPECT_EQ((SmallVector<int, 3>{1, 3, 5}), Actual);
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}
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TEST(FilterIteratorTest, Composition) {
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auto IsOdd = [](int N) { return N % 2 == 1; };
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std::unique_ptr<int> A[] = {std::make_unique<int>(0), std::make_unique<int>(1),
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std::make_unique<int>(2), std::make_unique<int>(3),
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std::make_unique<int>(4), std::make_unique<int>(5),
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std::make_unique<int>(6)};
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using PointeeIterator = pointee_iterator<std::unique_ptr<int> *>;
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auto Range = make_filter_range(
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make_range(PointeeIterator(std::begin(A)), PointeeIterator(std::end(A))),
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IsOdd);
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SmallVector<int, 3> Actual(Range.begin(), Range.end());
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EXPECT_EQ((SmallVector<int, 3>{1, 3, 5}), Actual);
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}
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TEST(FilterIteratorTest, InputIterator) {
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struct InputIterator
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: iterator_adaptor_base<InputIterator, int *, std::input_iterator_tag> {
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using BaseT =
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iterator_adaptor_base<InputIterator, int *, std::input_iterator_tag>;
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InputIterator(int *It) : BaseT(It) {}
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};
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auto IsOdd = [](int N) { return N % 2 == 1; };
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int A[] = {0, 1, 2, 3, 4, 5, 6};
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auto Range = make_filter_range(
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make_range(InputIterator(std::begin(A)), InputIterator(std::end(A))),
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IsOdd);
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SmallVector<int, 3> Actual(Range.begin(), Range.end());
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EXPECT_EQ((SmallVector<int, 3>{1, 3, 5}), Actual);
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}
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TEST(FilterIteratorTest, ReverseFilterRange) {
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auto IsOdd = [](int N) { return N % 2 == 1; };
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int A[] = {0, 1, 2, 3, 4, 5, 6};
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// Check basic reversal.
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auto Range = reverse(make_filter_range(A, IsOdd));
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SmallVector<int, 3> Actual(Range.begin(), Range.end());
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EXPECT_EQ((SmallVector<int, 3>{5, 3, 1}), Actual);
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// Check that the reverse of the reverse is the original.
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auto Range2 = reverse(reverse(make_filter_range(A, IsOdd)));
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SmallVector<int, 3> Actual2(Range2.begin(), Range2.end());
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EXPECT_EQ((SmallVector<int, 3>{1, 3, 5}), Actual2);
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// Check empty ranges.
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auto Range3 = reverse(make_filter_range(ArrayRef<int>(), IsOdd));
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SmallVector<int, 0> Actual3(Range3.begin(), Range3.end());
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EXPECT_EQ((SmallVector<int, 0>{}), Actual3);
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// Check that we don't skip the first element, provided it isn't filtered
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// away.
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auto IsEven = [](int N) { return N % 2 == 0; };
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auto Range4 = reverse(make_filter_range(A, IsEven));
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SmallVector<int, 4> Actual4(Range4.begin(), Range4.end());
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EXPECT_EQ((SmallVector<int, 4>{6, 4, 2, 0}), Actual4);
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}
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TEST(PointerIterator, Basic) {
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int A[] = {1, 2, 3, 4};
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pointer_iterator<int *> Begin(std::begin(A)), End(std::end(A));
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EXPECT_EQ(A, *Begin);
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++Begin;
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EXPECT_EQ(A + 1, *Begin);
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++Begin;
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EXPECT_EQ(A + 2, *Begin);
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++Begin;
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EXPECT_EQ(A + 3, *Begin);
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++Begin;
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EXPECT_EQ(Begin, End);
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}
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TEST(PointerIterator, Const) {
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int A[] = {1, 2, 3, 4};
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const pointer_iterator<int *> Begin(std::begin(A));
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EXPECT_EQ(A, *Begin);
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EXPECT_EQ(A + 1, std::next(*Begin, 1));
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EXPECT_EQ(A + 2, std::next(*Begin, 2));
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EXPECT_EQ(A + 3, std::next(*Begin, 3));
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EXPECT_EQ(A + 4, std::next(*Begin, 4));
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}
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TEST(PointerIterator, Range) {
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int A[] = {1, 2, 3, 4};
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int I = 0;
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for (int *P : make_pointer_range(A))
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EXPECT_EQ(A + I++, P);
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}
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TEST(ZipIteratorTest, Basic) {
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using namespace std;
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const SmallVector<unsigned, 6> pi{3, 1, 4, 1, 5, 9};
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SmallVector<bool, 6> odd{1, 1, 0, 1, 1, 1};
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const char message[] = "yynyyy\0";
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for (auto tup : zip(pi, odd, message)) {
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EXPECT_EQ(get<0>(tup) & 0x01, get<1>(tup));
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EXPECT_EQ(get<0>(tup) & 0x01 ? 'y' : 'n', get<2>(tup));
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}
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// note the rvalue
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for (auto tup : zip(pi, SmallVector<bool, 0>{1, 1, 0, 1, 1})) {
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EXPECT_EQ(get<0>(tup) & 0x01, get<1>(tup));
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}
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}
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TEST(ZipIteratorTest, ZipFirstBasic) {
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using namespace std;
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const SmallVector<unsigned, 6> pi{3, 1, 4, 1, 5, 9};
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unsigned iters = 0;
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for (auto tup : zip_first(SmallVector<bool, 0>{1, 1, 0, 1}, pi)) {
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EXPECT_EQ(get<0>(tup), get<1>(tup) & 0x01);
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iters += 1;
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}
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EXPECT_EQ(iters, 4u);
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}
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TEST(ZipIteratorTest, ZipLongestBasic) {
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using namespace std;
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const vector<unsigned> pi{3, 1, 4, 1, 5, 9};
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const vector<StringRef> e{"2", "7", "1", "8"};
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{
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// Check left range longer than right.
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const vector<tuple<Optional<unsigned>, Optional<StringRef>>> expected{
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make_tuple(3, StringRef("2")), make_tuple(1, StringRef("7")),
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make_tuple(4, StringRef("1")), make_tuple(1, StringRef("8")),
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make_tuple(5, None), make_tuple(9, None)};
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size_t iters = 0;
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for (auto tup : zip_longest(pi, e)) {
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EXPECT_EQ(tup, expected[iters]);
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iters += 1;
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}
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EXPECT_EQ(iters, expected.size());
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}
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{
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// Check right range longer than left.
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const vector<tuple<Optional<StringRef>, Optional<unsigned>>> expected{
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make_tuple(StringRef("2"), 3), make_tuple(StringRef("7"), 1),
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make_tuple(StringRef("1"), 4), make_tuple(StringRef("8"), 1),
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make_tuple(None, 5), make_tuple(None, 9)};
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size_t iters = 0;
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for (auto tup : zip_longest(e, pi)) {
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EXPECT_EQ(tup, expected[iters]);
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iters += 1;
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}
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EXPECT_EQ(iters, expected.size());
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}
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}
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TEST(ZipIteratorTest, Mutability) {
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using namespace std;
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const SmallVector<unsigned, 4> pi{3, 1, 4, 1, 5, 9};
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char message[] = "hello zip\0";
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for (auto tup : zip(pi, message, message)) {
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EXPECT_EQ(get<1>(tup), get<2>(tup));
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get<2>(tup) = get<0>(tup) & 0x01 ? 'y' : 'n';
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}
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// note the rvalue
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for (auto tup : zip(message, "yynyyyzip\0")) {
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EXPECT_EQ(get<0>(tup), get<1>(tup));
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}
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}
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TEST(ZipIteratorTest, ZipFirstMutability) {
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using namespace std;
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vector<unsigned> pi{3, 1, 4, 1, 5, 9};
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unsigned iters = 0;
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for (auto tup : zip_first(SmallVector<bool, 0>{1, 1, 0, 1}, pi)) {
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get<1>(tup) = get<0>(tup);
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iters += 1;
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}
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EXPECT_EQ(iters, 4u);
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for (auto tup : zip_first(SmallVector<bool, 0>{1, 1, 0, 1}, pi)) {
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EXPECT_EQ(get<0>(tup), get<1>(tup));
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}
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}
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TEST(ZipIteratorTest, Filter) {
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using namespace std;
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vector<unsigned> pi{3, 1, 4, 1, 5, 9};
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unsigned iters = 0;
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// pi is length 6, but the zip RHS is length 7.
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auto zipped = zip_first(pi, vector<bool>{1, 1, 0, 1, 1, 1, 0});
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for (auto tup : make_filter_range(
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zipped, [](decltype(zipped)::value_type t) { return get<1>(t); })) {
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EXPECT_EQ(get<0>(tup) & 0x01, get<1>(tup));
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get<0>(tup) += 1;
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iters += 1;
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}
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// Should have skipped pi[2].
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EXPECT_EQ(iters, 5u);
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// Ensure that in-place mutation works.
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EXPECT_TRUE(all_of(pi, [](unsigned n) { return (n & 0x01) == 0; }));
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}
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TEST(ZipIteratorTest, Reverse) {
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using namespace std;
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vector<unsigned> ascending{0, 1, 2, 3, 4, 5};
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auto zipped = zip_first(ascending, vector<bool>{0, 1, 0, 1, 0, 1});
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unsigned last = 6;
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for (auto tup : reverse(zipped)) {
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// Check that this is in reverse.
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EXPECT_LT(get<0>(tup), last);
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last = get<0>(tup);
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EXPECT_EQ(get<0>(tup) & 0x01, get<1>(tup));
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}
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auto odds = [](decltype(zipped)::value_type tup) { return get<1>(tup); };
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last = 6;
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for (auto tup : make_filter_range(reverse(zipped), odds)) {
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EXPECT_LT(get<0>(tup), last);
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last = get<0>(tup);
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EXPECT_TRUE(get<0>(tup) & 0x01);
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get<0>(tup) += 1;
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}
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// Ensure that in-place mutation works.
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EXPECT_TRUE(all_of(ascending, [](unsigned n) { return (n & 0x01) == 0; }));
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}
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TEST(RangeTest, Distance) {
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std::vector<int> v1;
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std::vector<int> v2{1, 2, 3};
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EXPECT_EQ(std::distance(v1.begin(), v1.end()), size(v1));
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EXPECT_EQ(std::distance(v2.begin(), v2.end()), size(v2));
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}
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} // anonymous namespace
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