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mame/3rdparty/bx/tests/sort_test.cpp
Vas Crabb 44eb5ea3c6 Revert "Updated bgfx, bx and bimg to current upstream versions. (#11493)" 
This reverts commit 1c61ccfe84.
2023-09-08 05:14:35 +10:00

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/*
* Copyright 2010-2022 Branimir Karadzic. All rights reserved.
* License: https://github.com/bkaradzic/bx/blob/master/LICENSE
*/
#include "test.h"
#include <bx/bx.h>
#include <bx/sort.h>
#include <bx/string.h>
#include <bx/rng.h>
TEST_CASE("sort-quickSort", "")
{
const char* str[] =
{
"jabuka",
"kruska",
"malina",
"jagoda",
};
REQUIRE(!bx::isSorted(str, BX_COUNTOF(str) ) );
bx::quickSort(str, BX_COUNTOF(str) );
REQUIRE(0 == bx::strCmp(str[0], "jabuka") );
REQUIRE(0 == bx::strCmp(str[1], "jagoda") );
REQUIRE(0 == bx::strCmp(str[2], "kruska") );
REQUIRE(0 == bx::strCmp(str[3], "malina") );
REQUIRE(bx::isSorted(str, BX_COUNTOF(str) ) );
auto bsearchStrCmpFn = [](const void* _lhs, const void* _rhs)
{
const char* lhs = (const char*)_lhs;
const char* rhs = *(const char**)_rhs;
return bx::strCmp(lhs, rhs);
};
REQUIRE(~4 == bx::binarySearch("sljiva", str, BX_COUNTOF(str), sizeof(str[0]), bsearchStrCmpFn) );
REQUIRE( 0 == bx::binarySearch("jabuka", str, BX_COUNTOF(str), sizeof(str[0]), bsearchStrCmpFn) );
REQUIRE( 1 == bx::binarySearch("jagoda", str, BX_COUNTOF(str), sizeof(str[0]), bsearchStrCmpFn) );
REQUIRE( 2 == bx::binarySearch("kruska", str, BX_COUNTOF(str), sizeof(str[0]), bsearchStrCmpFn) );
REQUIRE( 3 == bx::binarySearch("malina", str, BX_COUNTOF(str), sizeof(str[0]), bsearchStrCmpFn) );
REQUIRE(~3 == bx::binarySearch("kupina", str, BX_COUNTOF(str), sizeof(str[0]), bsearchStrCmpFn) );
REQUIRE( 0 == bx::lowerBound("jabuka", str, BX_COUNTOF(str), sizeof(str[0]), bsearchStrCmpFn) );
REQUIRE( 1 == bx::upperBound("jabuka", str, BX_COUNTOF(str), sizeof(str[0]), bsearchStrCmpFn) );
REQUIRE( 1 == bx::lowerBound("jagoda", str, BX_COUNTOF(str), sizeof(str[0]), bsearchStrCmpFn) );
REQUIRE( 2 == bx::upperBound("jagoda", str, BX_COUNTOF(str), sizeof(str[0]), bsearchStrCmpFn) );
REQUIRE( 2 == bx::lowerBound("kruska", str, BX_COUNTOF(str), sizeof(str[0]), bsearchStrCmpFn) );
REQUIRE( 3 == bx::upperBound("kruska", str, BX_COUNTOF(str), sizeof(str[0]), bsearchStrCmpFn) );
REQUIRE( 3 == bx::lowerBound("malina", str, BX_COUNTOF(str), sizeof(str[0]), bsearchStrCmpFn) );
REQUIRE( 4 == bx::upperBound("malina", str, BX_COUNTOF(str), sizeof(str[0]), bsearchStrCmpFn) );
int8_t byte[128];
bx::RngMwc rng;
for (uint32_t ii = 0; ii < BX_COUNTOF(byte); ++ii)
{
byte[ii] = rng.gen()&0xff;
}
REQUIRE(!bx::isSorted(byte, BX_COUNTOF(byte) ) );
bx::quickSort(byte, BX_COUNTOF(byte) );
for (uint32_t ii = 1; ii < BX_COUNTOF(byte); ++ii)
{
REQUIRE(byte[ii-1] <= byte[ii]);
}
REQUIRE(bx::isSorted(byte, BX_COUNTOF(byte) ) );
}
TEST_CASE("sort-unique", "")
{
// 0 1 2 3 4 5 6 7 8 9 10 11 12 13 | 14
int32_t test[] = { 100, 101, 101, 101, 103, 104, 105, 105, 105, 106, 106, 107, 108, 109 };
REQUIRE(bx::isSorted(test, BX_COUNTOF(test) ) );
REQUIRE(0 == bx::unique(test, 0) );
REQUIRE(1 == bx::unique(test, 1) );
REQUIRE(2 == bx::unique(test, 4) );
bx::quickSort(test, BX_COUNTOF(test) );
REQUIRE(3 == bx::unique(test, 5) );
bx::quickSort(test, BX_COUNTOF(test) );
uint32_t last = bx::unique(test, BX_COUNTOF(test) );
REQUIRE(9 == last);
REQUIRE(9 == bx::unique(test, last) );
}
TEST_CASE("sort-lower/upperBound int32_t", "")
{
// 0 1 2 3 4 5 6 7 8 9 10 11 12 13 | 14
const int32_t test[] = { 100, 101, 101, 101, 103, 104, 105, 105, 105, 106, 106, 107, 108, 109 };
REQUIRE(bx::isSorted(test, BX_COUNTOF(test) ) );
const uint32_t resultLowerBound[] = { 0, 1, 4, 4, 5, 6, 9, 11, 12, 13 };
const uint32_t resultUpperBound[] = { 1, 4, 4, 5, 6, 9, 11, 12, 13, 14 };
STATIC_REQUIRE(10 == BX_COUNTOF(resultLowerBound) );
STATIC_REQUIRE(10 == BX_COUNTOF(resultUpperBound) );
for (int32_t key = test[0], keyMax = test[BX_COUNTOF(test)-1], ii = 0; key <= keyMax; ++key, ++ii)
{
REQUIRE(resultLowerBound[ii] == bx::lowerBound(key, test, BX_COUNTOF(test) ) );
REQUIRE(resultUpperBound[ii] == bx::upperBound(key, test, BX_COUNTOF(test) ) );
}
}
template<typename Ty>
int32_t compareAscendingTest(const Ty& _lhs, const Ty& _rhs)
{
return bx::compareAscending<Ty>(&_lhs, &_rhs);
}
template<typename Ty>
int32_t compareDescendingTest(const Ty& _lhs, const Ty& _rhs)
{
return bx::compareDescending<Ty>(&_lhs, &_rhs);
}
template<typename Ty>
void compareTest(const Ty& _min, const Ty& _max)
{
REQUIRE(_min < _max);
REQUIRE(-1 == compareAscendingTest<Ty>(bx::min<Ty>(), bx::max<Ty>() ) );
REQUIRE(-1 == compareAscendingTest<Ty>(Ty(0), bx::max<Ty>() ) );
REQUIRE( 0 == compareAscendingTest<Ty>(bx::min<Ty>(), bx::min<Ty>() ) );
REQUIRE( 0 == compareAscendingTest<Ty>(bx::max<Ty>(), bx::max<Ty>() ) );
REQUIRE( 1 == compareAscendingTest<Ty>(bx::max<Ty>(), Ty(0) ) );
REQUIRE( 1 == compareAscendingTest<Ty>(bx::max<Ty>(), bx::min<Ty>() ) );
REQUIRE(-1 == compareAscendingTest<Ty>(_min, _max) );
REQUIRE( 0 == compareAscendingTest<Ty>(_min, _min) );
REQUIRE( 0 == compareAscendingTest<Ty>(_max, _max) );
REQUIRE( 1 == compareAscendingTest<Ty>(_max, _min) );
REQUIRE( 1 == compareDescendingTest<Ty>(_min, _max) );
REQUIRE( 0 == compareDescendingTest<Ty>(_min, _min) );
REQUIRE( 0 == compareDescendingTest<Ty>(_max, _max) );
REQUIRE(-1 == compareDescendingTest<Ty>(_max, _min) );
}
TEST_CASE("sort-ComparisonFn", "")
{
compareTest< int8_t>( -13, 89);
compareTest<int16_t>(-1389, 1389);
compareTest<int32_t>(-1389, 1389);
compareTest<int64_t>(-1389, 1389);
compareTest< uint8_t>( 13, 89);
compareTest<uint16_t>( 13, 1389);
compareTest<uint32_t>( 13, 1389);
compareTest<uint64_t>( 13, 1389);
compareTest< float>(-13.89f, 1389.0f);
compareTest<double>(-13.89f, 1389.0f);
}
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