mirror of
https://github.com/bolero-MURAKAMI/Sprout.git
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143 lines
3.7 KiB
C++
143 lines
3.7 KiB
C++
#ifndef TESTSPR_SPROUT_ARRAY_HPP
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#define TESTSPR_SPROUT_ARRAY_HPP
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#include <sprout/array.hpp>
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#include <sprout/container.hpp>
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#include <testspr/tools.hpp>
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namespace testspr {
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static void array_test() {
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using namespace sprout;
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{
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SPROUT_STATIC_CONSTEXPR int carr[] = {1, 2, 3, 4, 5, 6, 7, 8, 9, 10};
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SPROUT_STATIC_CONSTEXPR auto arr1 = sprout::to_array(carr);
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SPROUT_STATIC_CONSTEXPR auto arr2 = sprout::make_array<int>(1, 2, 3, 4, 5, 6, 7, 8, 9, 10);
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SPROUT_STATIC_CONSTEXPR auto arr3 = sprout::make_common_array(1, 2, 3, 4, 5, 6, 7, 8, 9, 10);
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TESTSPR_DOUBLE_ASSERT(testspr::equal(carr, arr1));
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TESTSPR_DOUBLE_ASSERT(testspr::equal(carr, arr2));
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TESTSPR_DOUBLE_ASSERT(testspr::equal(carr, arr3));
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// begin
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TESTSPR_DOUBLE_ASSERT(carr[0] == *arr1.begin());
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TESTSPR_DOUBLE_ASSERT(carr[0] == *arr2.begin());
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// cbegin
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TESTSPR_DOUBLE_ASSERT(carr[0] == *arr1.cbegin());
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TESTSPR_DOUBLE_ASSERT(carr[0] == *arr2.cbegin());
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// end
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TESTSPR_DOUBLE_ASSERT(carr[9] == *(arr1.end() - 1));
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TESTSPR_DOUBLE_ASSERT(carr[9] == *(arr2.end() - 1));
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// cend
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TESTSPR_DOUBLE_ASSERT(carr[9] == *(arr1.cend() - 1));
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TESTSPR_DOUBLE_ASSERT(carr[9] == *(arr2.cend() - 1));
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// rbegin
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TESTSPR_DOUBLE_ASSERT(carr[9] == *arr1.rbegin());
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TESTSPR_DOUBLE_ASSERT(carr[9] == *arr2.rbegin());
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// crbegin
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TESTSPR_DOUBLE_ASSERT(carr[9] == *arr1.crbegin());
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TESTSPR_DOUBLE_ASSERT(carr[9] == *arr2.crbegin());
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// rend
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TESTSPR_DOUBLE_ASSERT(carr[0] == *(arr1.rend() - 1));
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TESTSPR_DOUBLE_ASSERT(carr[0] == *(arr2.rend() - 1));
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// crend
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TESTSPR_DOUBLE_ASSERT(carr[0] == *(arr1.crend() - 1));
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TESTSPR_DOUBLE_ASSERT(carr[0] == *(arr2.crend() - 1));
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// size
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TESTSPR_DOUBLE_ASSERT(arr1.size() == 10);
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TESTSPR_DOUBLE_ASSERT(arr2.size() == 10);
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// empty
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TESTSPR_DOUBLE_ASSERT(!arr1.empty());
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TESTSPR_DOUBLE_ASSERT(!arr2.empty());
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TESTSPR_DOUBLE_ASSERT((array<int, 0>{{}}.empty()));
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// max_size
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TESTSPR_DOUBLE_ASSERT(arr1.max_size() == 10);
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TESTSPR_DOUBLE_ASSERT(arr2.max_size() == 10);
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// operator[]
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TESTSPR_DOUBLE_ASSERT(carr[0] == arr1[0]);
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TESTSPR_DOUBLE_ASSERT(carr[0] == arr2[0]);
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// at
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TESTSPR_DOUBLE_ASSERT(carr[0] == arr1.at(0));
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TESTSPR_DOUBLE_ASSERT(carr[0] == arr2.at(0));
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// front
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TESTSPR_DOUBLE_ASSERT(carr[0] == arr1.front());
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TESTSPR_DOUBLE_ASSERT(carr[0] == arr2.front());
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// back
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TESTSPR_DOUBLE_ASSERT(carr[9] == arr1.back());
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TESTSPR_DOUBLE_ASSERT(carr[9] == arr2.back());
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// data
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TESTSPR_DOUBLE_ASSERT(carr[0] == *arr1.data());
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TESTSPR_DOUBLE_ASSERT(carr[0] == *arr2.data());
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// c_array
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{
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auto arr = arr1;
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TESTSPR_ASSERT(carr[0] == *arr.c_array());
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}
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// assign
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{
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auto arr = arr1;
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arr.assign(-1);
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TESTSPR_ASSERT(arr[0] == -1);
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}
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// fill
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{
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auto arr = arr1;
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arr.fill(-1);
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TESTSPR_ASSERT(arr[0] == -1);
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}
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// swap
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{
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auto arr1 = array<int, 2>{{1, 2}};
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auto arr2 = array<int, 2>{{-1, -2}};
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arr1.swap(arr2);
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TESTSPR_ASSERT(arr1[0] == -1);
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}
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// operator=
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{
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auto arr1 = array<int, 2>{{1, 2}};
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arr1 = array<int, 2>{{-1, -2}};
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TESTSPR_ASSERT(arr1[0] == -1);
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}
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// operator==
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TESTSPR_DOUBLE_ASSERT(arr1 == arr2);
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// operator!=
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TESTSPR_DOUBLE_ASSERT(!(arr1 != arr2));
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// operator<
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TESTSPR_DOUBLE_ASSERT(!(arr1 < arr2));
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// operator>
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TESTSPR_DOUBLE_ASSERT(!(arr1 > arr2));
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// operator<=
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TESTSPR_DOUBLE_ASSERT(arr1 <= arr2);
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// operator>=
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TESTSPR_DOUBLE_ASSERT(arr1 >= arr2);
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}
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}
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} // namespace testspr
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#endif // #ifndef TESTSPR_SPROUT_ARRAY_HPP
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