// Copyright 2012 The Chromium Authors. All rights reserved.
// Use of this source code is governed by a BSD-style license that can be
// found in the LICENSE file.

#include "base/stl_util.h"

#include <set>

#include "testing/gtest/include/gtest/gtest.h"

namespace {

// Used as test case to ensure the various base::STLXxx functions don't require
// more than operators "<" and "==" on values stored in containers.
class ComparableValue {
 public:
  explicit ComparableValue(int value) : value_(value) {}

  bool operator==(const ComparableValue& rhs) const {
    return value_ == rhs.value_;
  }

  bool operator<(const ComparableValue& rhs) const {
    return value_ < rhs.value_;
  }

 private:
  int value_;
};

}  // namespace

namespace base {
namespace {

TEST(STLUtilTest, STLIsSorted) {
  {
    std::set<int> set;
    set.insert(24);
    set.insert(1);
    set.insert(12);
    EXPECT_TRUE(STLIsSorted(set));
  }

  {
    std::set<ComparableValue> set;
    set.insert(ComparableValue(24));
    set.insert(ComparableValue(1));
    set.insert(ComparableValue(12));
    EXPECT_TRUE(STLIsSorted(set));
  }

  {
    std::vector<int> vector;
    vector.push_back(1);
    vector.push_back(1);
    vector.push_back(4);
    vector.push_back(64);
    vector.push_back(12432);
    EXPECT_TRUE(STLIsSorted(vector));
    vector.back() = 1;
    EXPECT_FALSE(STLIsSorted(vector));
  }
}

TEST(STLUtilTest, STLSetDifference) {
  std::set<int> a1;
  a1.insert(1);
  a1.insert(2);
  a1.insert(3);
  a1.insert(4);

  std::set<int> a2;
  a2.insert(3);
  a2.insert(4);
  a2.insert(5);
  a2.insert(6);
  a2.insert(7);

  {
    std::set<int> difference;
    difference.insert(1);
    difference.insert(2);
    EXPECT_EQ(difference, STLSetDifference<std::set<int> >(a1, a2));
  }

  {
    std::set<int> difference;
    difference.insert(5);
    difference.insert(6);
    difference.insert(7);
    EXPECT_EQ(difference, STLSetDifference<std::set<int> >(a2, a1));
  }

  {
    std::vector<int> difference;
    difference.push_back(1);
    difference.push_back(2);
    EXPECT_EQ(difference, STLSetDifference<std::vector<int> >(a1, a2));
  }

  {
    std::vector<int> difference;
    difference.push_back(5);
    difference.push_back(6);
    difference.push_back(7);
    EXPECT_EQ(difference, STLSetDifference<std::vector<int> >(a2, a1));
  }
}

TEST(STLUtilTest, STLSetUnion) {
  std::set<int> a1;
  a1.insert(1);
  a1.insert(2);
  a1.insert(3);
  a1.insert(4);

  std::set<int> a2;
  a2.insert(3);
  a2.insert(4);
  a2.insert(5);
  a2.insert(6);
  a2.insert(7);

  {
    std::set<int> result;
    result.insert(1);
    result.insert(2);
    result.insert(3);
    result.insert(4);
    result.insert(5);
    result.insert(6);
    result.insert(7);
    EXPECT_EQ(result, STLSetUnion<std::set<int> >(a1, a2));
  }

  {
    std::set<int> result;
    result.insert(1);
    result.insert(2);
    result.insert(3);
    result.insert(4);
    result.insert(5);
    result.insert(6);
    result.insert(7);
    EXPECT_EQ(result, STLSetUnion<std::set<int> >(a2, a1));
  }

  {
    std::vector<int> result;
    result.push_back(1);
    result.push_back(2);
    result.push_back(3);
    result.push_back(4);
    result.push_back(5);
    result.push_back(6);
    result.push_back(7);
    EXPECT_EQ(result, STLSetUnion<std::vector<int> >(a1, a2));
  }

  {
    std::vector<int> result;
    result.push_back(1);
    result.push_back(2);
    result.push_back(3);
    result.push_back(4);
    result.push_back(5);
    result.push_back(6);
    result.push_back(7);
    EXPECT_EQ(result, STLSetUnion<std::vector<int> >(a2, a1));
  }
}

TEST(STLUtilTest, STLSetIntersection) {
  std::set<int> a1;
  a1.insert(1);
  a1.insert(2);
  a1.insert(3);
  a1.insert(4);

  std::set<int> a2;
  a2.insert(3);
  a2.insert(4);
  a2.insert(5);
  a2.insert(6);
  a2.insert(7);

  {
    std::set<int> result;
    result.insert(3);
    result.insert(4);
    EXPECT_EQ(result, STLSetIntersection<std::set<int> >(a1, a2));
  }

  {
    std::set<int> result;
    result.insert(3);
    result.insert(4);
    EXPECT_EQ(result, STLSetIntersection<std::set<int> >(a2, a1));
  }

  {
    std::vector<int> result;
    result.push_back(3);
    result.push_back(4);
    EXPECT_EQ(result, STLSetIntersection<std::vector<int> >(a1, a2));
  }

  {
    std::vector<int> result;
    result.push_back(3);
    result.push_back(4);
    EXPECT_EQ(result, STLSetIntersection<std::vector<int> >(a2, a1));
  }
}

TEST(STLUtilTest, STLIncludes) {
  std::set<int> a1;
  a1.insert(1);
  a1.insert(2);
  a1.insert(3);
  a1.insert(4);

  std::set<int> a2;
  a2.insert(3);
  a2.insert(4);

  std::set<int> a3;
  a3.insert(3);
  a3.insert(4);
  a3.insert(5);

  EXPECT_TRUE(STLIncludes<std::set<int> >(a1, a2));
  EXPECT_FALSE(STLIncludes<std::set<int> >(a1, a3));
  EXPECT_FALSE(STLIncludes<std::set<int> >(a2, a1));
  EXPECT_FALSE(STLIncludes<std::set<int> >(a2, a3));
  EXPECT_FALSE(STLIncludes<std::set<int> >(a3, a1));
  EXPECT_TRUE(STLIncludes<std::set<int> >(a3, a2));
}

TEST(StringAsArrayTest, Empty) {
  std::string empty;
  EXPECT_EQ(nullptr, string_as_array(&empty));
}

TEST(StringAsArrayTest, NullTerminated) {
  // If any std::string implementation is not null-terminated, this should
  // fail. All compilers we use return a null-terminated buffer, but please do
  // not rely on this fact in your code.
  std::string str("abcde");
  str.resize(3);
  EXPECT_STREQ("abc", string_as_array(&str));
}

TEST(StringAsArrayTest, WriteCopy) {
  // With a COW implementation, this test will fail if
  // string_as_array(&str) is implemented as
  // const_cast<char*>(str->data()).
  std::string s1("abc");
  const std::string s2(s1);
  string_as_array(&s1)[1] = 'x';
  EXPECT_EQ("axc", s1);
  EXPECT_EQ("abc", s2);
}

}  // namespace
}  // namespace base