480 lines
11 KiB
C++
480 lines
11 KiB
C++
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/******************************************************************************
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The MIT License(MIT)
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Embedded Template Library.
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https://github.com/ETLCPP/etl
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https://www.etlcpp.com
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Copyright(c) 2014 John Wellbelove
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Permission is hereby granted, free of charge, to any person obtaining a copy
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of this software and associated documentation files(the "Software"), to deal
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in the Software without restriction, including without limitation the rights
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to use, copy, modify, merge, publish, distribute, sublicense, and / or sell
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copies of the Software, and to permit persons to whom the Software is
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furnished to do so, subject to the following conditions :
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The above copyright notice and this permission notice shall be included in all
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copies or substantial portions of the Software.
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THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
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IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
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FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT.IN NO EVENT SHALL THE
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AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
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LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
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OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE
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SOFTWARE.
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******************************************************************************/
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#include "unit_test_framework.h"
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#include "data.h"
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#include <set>
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#include <vector>
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#include <string>
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#include "etl/pool.h"
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#include "etl/largest.h"
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typedef TestDataDC<std::string> Test_Data;
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typedef TestDataNDC<std::string> Test_Data2;
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namespace
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{
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struct D0
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{
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D0()
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{
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}
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};
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struct D1
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{
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D1(const std::string& a_)
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: a(a_)
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{
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}
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std::string a;
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};
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struct D2
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{
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D2(const std::string& a_, const std::string& b_)
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: a(a_),
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b(b_)
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{
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}
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std::string a;
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std::string b;
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};
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struct D3
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{
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D3(const std::string& a_, const std::string& b_, const std::string& c_)
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: a(a_),
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b(b_),
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c(c_)
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{
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}
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std::string a;
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std::string b;
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std::string c;
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};
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struct D4
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{
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D4(const std::string& a_, const std::string& b_, const std::string& c_, const std::string& d_)
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: a(a_),
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b(b_),
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c(c_),
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d(d_)
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{
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}
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std::string a;
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std::string b;
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std::string c;
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std::string d;
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};
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bool operator == (const D0&, const D0&)
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{
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return true;
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}
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bool operator == (const D1& lhs, const D1& rhs)
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{
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return (lhs.a == rhs.a);
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}
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bool operator == (const D2& lhs, const D2& rhs)
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{
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return (lhs.a == rhs.a) && (lhs.b == rhs.b);
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}
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bool operator == (const D3& lhs, const D3& rhs)
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{
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return (lhs.a == rhs.a) && (lhs.b == rhs.b) && (lhs.c == rhs.c);
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}
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bool operator == (const D4& lhs, const D4& rhs)
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{
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return (lhs.a == rhs.a) && (lhs.b == rhs.b) && (lhs.c == rhs.c) && (lhs.d == rhs.d);
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}
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std::ostream& operator <<(std::ostream& os, const D0&)
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{
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return os;
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}
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std::ostream& operator <<(std::ostream& os, const D1& d)
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{
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os << d.a;
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return os;
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}
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std::ostream& operator <<(std::ostream& os, const D2& d)
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{
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os << d.a << " " << d.b;
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return os;
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}
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std::ostream& operator <<(std::ostream& os, const D3& d)
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{
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os << d.a << " " << d.b << " " << d.c;
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return os;
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}
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std::ostream& operator <<(std::ostream& os, const D4& d)
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{
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os << d.a << " " << d.b << " " << d.c << " " << d.d;
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return os;
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}
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SUITE(test_pool)
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{
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//*************************************************************************
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TEST(test_allocate)
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{
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etl::pool<Test_Data, 4> pool;
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Test_Data* p1 = nullptr;
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Test_Data* p2 = nullptr;
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Test_Data* p3 = nullptr;
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Test_Data* p4 = nullptr;
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CHECK_NO_THROW(p1 = pool.allocate());
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CHECK_NO_THROW(p2 = pool.allocate());
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CHECK_NO_THROW(p3 = pool.allocate());
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CHECK_NO_THROW(p4 = pool.allocate());
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CHECK(p1 != p2);
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CHECK(p1 != p3);
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CHECK(p1 != p4);
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CHECK(p2 != p3);
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CHECK(p2 != p4);
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CHECK(p3 != p4);
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CHECK_THROW(pool.allocate(), etl::pool_no_allocation);
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}
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//*************************************************************************
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TEST(test_release)
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{
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etl::pool<Test_Data, 4> pool;
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Test_Data* p1 = pool.allocate();
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Test_Data* p2 = pool.allocate();
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Test_Data* p3 = pool.allocate();
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Test_Data* p4 = pool.allocate();
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CHECK_NO_THROW(pool.release(p2));
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CHECK_NO_THROW(pool.release(p3));
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CHECK_NO_THROW(pool.release(p1));
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CHECK_NO_THROW(pool.release(p4));
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CHECK_EQUAL(4U, pool.available());
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CHECK_THROW(pool.release(p4), etl::pool_no_allocation);
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CHECK_EQUAL(4U, pool.available());
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Test_Data not_in_pool;
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CHECK_THROW(pool.release(¬_in_pool), etl::pool_object_not_in_pool);
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}
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//*************************************************************************
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TEST(test_allocate_release)
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{
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etl::pool<Test_Data, 4> pool;
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Test_Data* p1 = pool.allocate();
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Test_Data* p2 = pool.allocate();
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Test_Data* p3 = pool.allocate();
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Test_Data* p4 = pool.allocate();
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// Allocated p1, p2, p3, p4
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CHECK_EQUAL(0U, pool.available());
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CHECK_NO_THROW(pool.release(p2));
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CHECK_NO_THROW(pool.release(p3));
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// Allocated p1, p4
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CHECK_EQUAL(2U, pool.available());
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Test_Data* p5 = pool.allocate();
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Test_Data* p6 = pool.allocate();
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// Allocated p1, p4, p5, p6
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CHECK_EQUAL(0U, pool.available());
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CHECK(p5 != p1);
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CHECK(p5 != p4);
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CHECK(p6 != p1);
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CHECK(p6 != p4);
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CHECK_NO_THROW(pool.release(p5));
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// Allocated p1, p4, p6
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CHECK_EQUAL(1U, pool.available());
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Test_Data* p7 = pool.allocate();
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// Allocated p1, p4, p6, p7
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CHECK(p7 != p1);
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CHECK(p7 != p4);
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CHECK(p7 != p6);
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CHECK(pool.full());
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}
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//*************************************************************************
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TEST(test_available)
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{
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etl::pool<Test_Data, 4> pool;
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CHECK_EQUAL(4U, pool.available());
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Test_Data* p;
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(void)p;
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p = pool.allocate();
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CHECK_EQUAL(3U, pool.available());
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p = pool.allocate();
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CHECK_EQUAL(2U, pool.available());
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p = pool.allocate();
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CHECK_EQUAL(1U, pool.available());
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p = pool.allocate();
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CHECK_EQUAL(0U, pool.available());
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}
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//*************************************************************************
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TEST(test_max_size)
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{
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etl::pool<Test_Data, 4> pool;
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CHECK(pool.max_size() == 4U);
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}
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//*************************************************************************
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TEST(test_size)
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{
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etl::pool<Test_Data, 4> pool;
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CHECK_EQUAL(0U, pool.size());
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Test_Data* p;
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(void)p;
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p = pool.allocate();
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CHECK_EQUAL(1U, pool.size());
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p = pool.allocate();
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CHECK_EQUAL(2U, pool.size());
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p = pool.allocate();
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CHECK_EQUAL(3U, pool.size());
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p = pool.allocate();
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CHECK_EQUAL(4U, pool.size());
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}
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//*************************************************************************
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TEST(test_empty_full)
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{
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etl::pool<Test_Data, 4> pool;
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CHECK(pool.empty());
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CHECK(!pool.full());
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Test_Data* p;
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(void)p;
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p = pool.allocate();
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CHECK(!pool.empty());
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CHECK(!pool.full());
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p = pool.allocate();
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CHECK(!pool.empty());
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CHECK(!pool.full());
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p = pool.allocate();
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CHECK(!pool.empty());
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CHECK(!pool.full());
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p = pool.allocate();
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CHECK(!pool.empty());
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CHECK(pool.full());
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}
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//*************************************************************************
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TEST(test_is_in_pool)
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{
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etl::pool<Test_Data, 4> pool;
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Test_Data not_in_pool;
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Test_Data* p1 = pool.allocate();
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CHECK(pool.is_in_pool(p1));
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CHECK(!pool.is_in_pool(¬_in_pool));
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}
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//*************************************************************************
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TEST(test_type_error)
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{
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struct Object
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{
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uint64_t a;
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uint64_t b;
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};
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etl::pool<uint32_t, 4> pool;
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etl::ipool& ip = pool;
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CHECK_THROW(ip.allocate<Object>(), etl::pool_element_size);
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}
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//*************************************************************************
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TEST(test_generic_allocate)
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{
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typedef etl::largest<uint8_t, uint32_t, double, Test_Data> largest;
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etl::generic_pool<largest::size, largest::alignment, 4> pool;
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uint8_t* p1 = nullptr;
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uint32_t* p2 = nullptr;
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double* p3 = nullptr;
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Test_Data* p4 = nullptr;
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(void)p1;
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(void)p2;
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(void)p3;
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(void)p4;
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CHECK_NO_THROW(p1 = pool.allocate<uint8_t>());
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CHECK_NO_THROW(p2 = pool.allocate<uint32_t>());
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CHECK_NO_THROW(p3 = pool.allocate<double>());
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CHECK_NO_THROW(p4 = pool.allocate<Test_Data>());
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}
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};
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//*************************************************************************
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TEST(test_create_destroy)
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{
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etl::pool<D0, 4> pool0;
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etl::pool<D1, 4> pool1;
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etl::pool<D2, 4> pool2;
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etl::pool<D3, 4> pool3;
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etl::pool<D4, 4> pool4;
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D0* p0 = pool0.create();
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D1* p1 = pool1.create("1");
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D2* p2 = pool2.create("1", "2");
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D3* p3 = pool3.create("1", "2", "3");
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D4* p4 = pool4.create("1", "2", "3", "4");
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CHECK_EQUAL(pool0.max_size() - 1, pool0.available());
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CHECK_EQUAL(1U, pool0.size());
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CHECK_EQUAL(pool1.max_size() - 1, pool1.available());
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CHECK_EQUAL(1U, pool1.size());
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CHECK_EQUAL(pool2.max_size() - 1, pool2.available());
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CHECK_EQUAL(1U, pool2.size());
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CHECK_EQUAL(pool3.max_size() - 1, pool3.available());
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CHECK_EQUAL(1U, pool3.size());
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CHECK_EQUAL(pool4.max_size() - 1, pool4.available());
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CHECK_EQUAL(1U, pool4.size());
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CHECK_EQUAL(D0(), *p0);
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CHECK_EQUAL(D1("1"), *p1);
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CHECK_EQUAL(D2("1", "2"), *p2);
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CHECK_EQUAL(D3("1", "2", "3"), *p3);
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CHECK_EQUAL(D4("1", "2", "3", "4"), *p4);
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pool0.destroy<D0>(p0);
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pool1.destroy<D1>(p1);
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pool2.destroy<D2>(p2);
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pool3.destroy<D3>(p3);
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pool4.destroy<D4>(p4);
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CHECK_EQUAL(pool0.max_size(), pool0.available());
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CHECK_EQUAL(0U, pool0.size());
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CHECK_EQUAL(pool1.max_size(), pool1.available());
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CHECK_EQUAL(0U, pool1.size());
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CHECK_EQUAL(pool2.max_size(), pool2.available());
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CHECK_EQUAL(0U, pool2.size());
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CHECK_EQUAL(pool3.max_size(), pool3.available());
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CHECK_EQUAL(0U, pool3.size());
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CHECK_EQUAL(pool4.max_size(), pool4.available());
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CHECK_EQUAL(0U, pool4.size());
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}
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//*************************************************************************
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TEST(test_allocate_release_non_class)
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{
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etl::pool<int, 4> pool;
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int* i = pool.allocate();
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pool.release(i);
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}
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//*************************************************************************
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TEST(test_issue_406_pool_of_c_array)
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{
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using elem_type = uint8_t[10];
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etl::pool<elem_type, 3> memPool{};
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CHECK_EQUAL(3, memPool.available());
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CHECK_EQUAL(0, memPool.size());
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elem_type* memory = memPool.allocate();
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CHECK_EQUAL(2, memPool.available());
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CHECK_EQUAL(1, memPool.size());
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memPool.release(memory);
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CHECK_EQUAL(3, memPool.available());
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CHECK_EQUAL(0, memPool.size());
|
||
|
}
|
||
|
}
|