#include "test_scaffold.h"
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#include "allocator.hpp"
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#include "gp/array.hpp"
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#include "gp/indexed_array.hpp"
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#include "gp/allocator/aggregator.hpp"
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#include "gp/allocator/buddy.hpp"
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#include "gp/allocator/dummy.hpp"
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#include "gp/algorithm/repeat.hpp"
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#include "gp/algorithm/rotate.hpp"
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#include "gp/ring_list.hpp"
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#include <thread>
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#include <chrono>
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#include <set>
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#include <stack>
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#include <numeric>
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#include <chrono>
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#include <random>
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#include <iomanip>
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#include <iostream>
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#include <fstream>
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#include <algorithm>
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#include "gp/vfs/vfs.hpp"
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#ifndef FUZZ_STRENGTH
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#define FUZZ_STRENGTH 2048
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#endif
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#define MACRO_STRGEN(X) #X
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#define MACRO_STR(X) MACRO_STRGEN(X)
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constexpr bool time_fuzzes = true;
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struct arraysum_test : public test_scaffold {
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arraysum_test() {
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name = __FILE__ ":1";
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}
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virtual int run() {
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gp::array<uint32_t, 16> test;
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for(auto& elem : test)
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{
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elem = 12;
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}
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return std::accumulate(test.begin(), test.end(), 0) != 12*test.size();
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}
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};
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append_test dummy_sd45uisd3(new arraysum_test{});
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struct optional_test : public test_scaffold {
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optional_test() {
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name = __FILE__ ":1";
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}
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virtual int run() {
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int res = 0;
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{
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gp::optional<uint32_t> test;
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if(test.has_value())
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{
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res++;
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}
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test = 12;
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if(test.has_value())
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{
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if(test.value()!=12)
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{
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res++;
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}
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}
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else
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{
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res++;
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}
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}
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{
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gp::optional<std::ifstream> test;
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if(test.has_value())
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{
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res++;
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}
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test = std::ifstream("/proc/cpuinfo");
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if(!test.has_value())
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{
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res++;
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}
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}
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return res;
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}
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};
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append_test dummy_mlyusisd3(new optional_test{});
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struct buddy_test : public test_scaffold {
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buddy_test() {
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name = std::string(__FILE__ "seed_") + std::to_string(seed) + ":3";
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rng.seed(seed);
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}
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std::mt19937 rng{};
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int seed = std::random_device{}();
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virtual int run() {
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int res = 0;
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gp::repeat(10, [&](){
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gp::array<char, 4096> store;
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{
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gp::buddy<gp::dummy_allocator, gp::math::msb<uint64_t>(4096)> bud{&*store.begin(), store.size()};
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gp::buddy<gp::dummy_allocator, gp::math::msb<uint64_t>(4096)> dum_bud{store.size()};
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gp::buddy<static_mapper> inner_bud{2048};
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gp::dummy_allocator dummyall;
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{
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gp_config::assertion(!dummyall.try_reallocate(nullptr, 0), "reallocation works wut?");
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gp_config::assertion(!bud.try_reallocate(nullptr, 0), "reallocation works wut?");
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gp_config::assertion(!inner_bud.try_reallocate(nullptr, 0), "reallocation works wut?");
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std::set<void*> ptr_set;
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for(int i = 0; i < 2048 / 16; i++)
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{
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void* v = inner_bud.allocate(16);
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gp_config::assertion(!inner_bud.empty(), "allocator should have elements");
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if(v == nullptr) throw gp::runtime_error("allocation failed");
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ptr_set.insert(v);
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}
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bool wut = ptr_set.count(nullptr)!=0 || ptr_set.size()!=(2048/16);
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if(wut) throw gp::runtime_error("some allocations failed line: " MACRO_STR(__LINE__));
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if(nullptr != inner_bud.allocate(8)) throw gp::runtime_error("allocation succeeded, failure was expected");
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for(auto elem : ptr_set) {
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gp_config::assertion(!inner_bud.empty(), "allocator should have elements");
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if(inner_bud.deallocate(elem) == false)
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{
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res += 1;
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}
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}
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gp_config::assertion(inner_bud.empty(), "allocator should be empty");
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}
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{
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gp_config::assertion(!dummyall.try_reallocate(nullptr, 0), "reallocation works wut?");
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gp_config::assertion(!bud.try_reallocate(nullptr, 0), "reallocation works wut?");
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std::set<void*> ptr_set;
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for(int i = 0; i < 4096 / 16; i++)
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{
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void* v = bud.allocate(16);
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gp_config::assertion(!bud.empty(), "allocator should have elements");
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if(v == nullptr) throw gp::runtime_error("allocation failed");
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ptr_set.insert(v);
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}
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if(ptr_set.count(nullptr)!=0 || ptr_set.size()!=(4096/16)) throw gp::runtime_error("some allocations failed line: " MACRO_STR(__LINE__));
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if(nullptr != bud.allocate(8)) throw gp::runtime_error("allocation succeeded, failure was expected");
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for(auto elem : ptr_set) {
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gp_config::assertion(!bud.empty(), "allocator should have elements");
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if(bud.deallocate(elem) == false)
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{
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res += 1;
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}
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}
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gp_config::assertion(bud.empty(), "allocator should be empty");
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}
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{
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std::set<void*> ptr_set;
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for(int i = 0; i < 4096 / 8; i++)
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{
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void* v = bud.allocate(8);
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gp_config::assertion(!bud.empty(), "allocator should have elements");
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if(v == nullptr) throw gp::runtime_error("allocation failed");
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ptr_set.insert(v);
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}
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if(ptr_set.count(nullptr)!=0 || ptr_set.size()!=(4096/8)) throw gp::runtime_error("some allocations failed line: " MACRO_STR(__LINE__));
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if(nullptr != bud.allocate(8)) throw gp::runtime_error("allocation succeeded, failure was expected");
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for(auto elem : ptr_set) {
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gp_config::assertion(!bud.empty(), "allocator should have elements");
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if(bud.deallocate(elem) == false)
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{
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res += 1;
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}
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}
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gp_config::assertion(bud.empty(), "allocator should be empty");
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}
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{
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std::set<void*> ptr_set;
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std::vector<size_t> infill;
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std::insert_iterator< std::vector<size_t> > inserter{infill, std::end(infill)};
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std::fill_n(inserter, 4096 / 16 / 4, 16);
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inserter = std::insert_iterator< std::vector<size_t> >{infill, std::end(infill)};
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std::fill_n(inserter, 4096 / 8 / 4, 8);
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std::shuffle(infill.begin(), infill.end(), rng);
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for(auto sz : infill)
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{
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void* v = bud.allocate(sz);
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gp_config::assertion(!bud.empty(), "allocator should have elements");
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if(v == nullptr) throw gp::runtime_error("allocation failed");
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ptr_set.insert(v);
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}
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if(ptr_set.count(nullptr)!=0) throw gp::runtime_error("some allocations failed line: " MACRO_STR(__LINE__));
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gp_config::assertion(!bud.deallocate((char*)store.begin().data + 1), "misaligned deallocation fails");
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for(auto elem : ptr_set) {
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gp_config::assertion(!bud.empty(), "allocator should have elements");
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if(bud.deallocate(elem) == false)
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{
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res += 1;
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}
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}
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gp_config::assertion(!bud.deallocate(nullptr), "deallocating out of scope returns false");
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gp_config::assertion(bud.empty(), "allocator should be empty");
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}
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}
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});
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return res;
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}
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};
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append_test dummy_654sisd3(new buddy_test{});
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// TODO: should implement a test that tries to wrongly remove pointers as well as to allocate them correctly
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struct buddy_fuzz_test : public test_scaffold {
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buddy_fuzz_test() {
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name = std::string(__FILE__ "seed_") + std::to_string(seed) + ":4";
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rng.seed(seed);
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}
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buddy_fuzz_test(size_t _seed) {
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seed = _seed;
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name = std::string(__FILE__ "seed_") + std::to_string(seed) + ":4";
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rng.seed(seed);
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}
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std::mt19937 rng{};
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int seed = std::random_device{}();
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virtual int run() {
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int res = 0;
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alignas(8) gp::array<char, 4096> store;
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gp::buddy<gp::dummy_allocator, gp::math::msb<uint64_t>(4096)> bud{&*store.begin(), store.size()};
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std::vector<void*> ptr_set;
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auto get_random_mem_qt = [&]() -> size_t {
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return 1+rng()%(store.size()-1);
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};
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auto start = std::chrono::steady_clock::now();
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{
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gp::repeat(FUZZ_STRENGTH, [&](){
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void* ptr;
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auto sz = get_random_mem_qt();
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size_t tries = 0;
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std::shuffle(
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ptr_set.begin(),
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ptr_set.end(),
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rng
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);
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while(!(ptr = bud.allocate(sz)))
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{
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void* free_ptr = ptr_set.back();
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ptr_set.pop_back();
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gp_config::assertion(bud.deallocate(free_ptr), "could not free sample");
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gp_config::assertion(++tries <= store.size(), "infinite fuzzing");
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}
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ptr_set.emplace_back(ptr);
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});
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for(auto ptr : ptr_set)
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{
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bud.deallocate(ptr);
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}
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ptr_set.resize(0);
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}
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auto duration = std::chrono::steady_clock::now() - start;
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start = std::chrono::steady_clock::now();
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{
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size_t acc = 0;
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gp::repeat(FUZZ_STRENGTH, [&](){
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void* ptr;
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auto sz = get_random_mem_qt();
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size_t tries = 0;
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std::shuffle(
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ptr_set.begin(),
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ptr_set.end(),
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rng
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);
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ptr = malloc(sz);
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acc+=1;
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while(acc > 20)
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{
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void* free_ptr = ptr_set.back();
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free(free_ptr);
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acc -= 1;
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ptr_set.pop_back();
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gp_config::assertion(++tries <= store.size(), "infinite fuzzing");
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}
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ptr_set.emplace_back(ptr);
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});
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for(auto ptr : ptr_set)
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{
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free(ptr);
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}
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}
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auto reference = std::chrono::steady_clock::now() - start;
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std::cout
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<< "Fuzzing timed at "
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<< std::chrono::duration_cast<std::chrono::microseconds>(duration).count()
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<< "µs for "
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<< FUZZ_STRENGTH
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<< " (reference: "
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<< std::chrono::duration_cast<std::chrono::microseconds>(reference).count()
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<< "µs)"
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<< std::endl;
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return res;
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}
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};
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append_test dummy_df987sd3(new buddy_fuzz_test{781017366});
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append_test dummy_df4sisd3(new buddy_fuzz_test{});
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struct ring_list_test : public test_scaffold {
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ring_list_test() {
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name = __FILE__ ":5";
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}
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virtual int run() {
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int res = 0;
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alignas(8) gp::array<char, 4096> store;
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using local_allocator = gp::buddy<gp::dummy_allocator, gp::math::msb<uint64_t>(4096)>;
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local_allocator bud{&*store.begin(), store.size()};
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{
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using string_ring = gp::ring_list<std::string, local_allocator, false>;
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auto p = new(bud.allocate(sizeof(std::string))) std::string("Hello");
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auto orig = new(bud.allocate(sizeof(string_ring::node))) string_ring::node(p);
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string_ring ring{orig, bud};
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ring.insert("World");
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auto it = ring.explore();
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std::string test = "";
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do{
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test += *it;
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++it;
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}while(it != ring.explore());
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res += (test != "HelloWorld");
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}
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return res;
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}
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};
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append_test dummy_867fdrgsd3(new ring_list_test{});
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struct aggregator_test : public test_scaffold {
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aggregator_test() {
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name = std::string(__FILE__ "seed_") + std::to_string(seed) + ":6";
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rng.seed(seed);
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}
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std::mt19937 rng{};
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int seed = std::random_device{}();
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virtual int run() {
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int res = 0;
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alignas(8) gp::array<char, 4096> store;
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using local_allocator = gp::buddy<gp::dummy_allocator, gp::math::msb<uint64_t>(4096)>;
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local_allocator bud{&*store.begin(), store.size()};
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alignas(8) gp::array<char, 4096> store2;
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local_allocator bud2{&*store2.begin(), store2.size()};
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gp::aggregator allocator{bud};
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allocator.insert(bud2);
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{
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std::vector<void*> ptr_set;
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auto get_random_mem_qt = [&]() -> size_t {
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return 1+rng()%(store.size()-1);
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};
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auto start = std::chrono::steady_clock::now();
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{
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gp::repeat(FUZZ_STRENGTH, [&](){
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void* ptr;
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auto sz = get_random_mem_qt();
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size_t tries = 0;
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std::shuffle(
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ptr_set.begin(),
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ptr_set.end(),
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rng
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);
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while(!(ptr = allocator.allocate(sz)))
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{
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void* free_ptr = ptr_set.back();
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ptr_set.pop_back();
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gp_config::assertion(allocator.deallocate(free_ptr), "could not free sample");
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gp_config::assertion(++tries <= store.size(), "infinite fuzzing");
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}
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ptr_set.emplace_back(ptr);
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});
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for(auto ptr : ptr_set)
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{
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bud.deallocate(ptr);
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}
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ptr_set.resize(0);
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}
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auto duration = std::chrono::steady_clock::now() - start;
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}
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return res;
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}
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};
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append_test dummy_8ijfsd658(new aggregator_test{});
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struct array_test : public test_scaffold {
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array_test() {
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name = __FILE__ ":7";
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}
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virtual int run() {
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int res = 0;
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gp::array<int, 8> store;
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{
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int i = 0;
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for(auto& p : store)
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{
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p = i++;
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}
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for(auto it = store.rbegin(); it != store.rend(); ++it)
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{
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gp_config::assertion(*it == --i, "array error");
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}
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for(const auto& p : store)
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{
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gp_config::assertion(p == i++, "array error");
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}
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for(auto it = store.crbegin(); it != store.crend(); ++it)
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{
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gp_config::assertion(*it == --i, "array error");
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}
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size_t cnt = 0;
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for(const auto& p : store)
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{
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cnt++;
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}
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gp_config::assertion(cnt == store.size(), "array error");
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cnt = 0;
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for(auto& p : store)
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{
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cnt++;
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}
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gp_config::assertion(cnt == store.size(), "array error");
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cnt = 0;
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for(auto it = store.crbegin(); it != store.crend(); ++it)
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{
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cnt++;
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}
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gp_config::assertion(cnt == store.size(), "array error");
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cnt = 0;
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for(auto it = store.rbegin(); it != store.rend(); ++it)
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{
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cnt++;
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}
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gp_config::assertion(cnt == store.size(), "array error");
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gp::rotate(store.begin(), store.begin()+1, store.end());
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gp::array<int, 8> rotated({1,2,3,4,5,6,7,0});
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gp_config::assertion(store == rotated, "rotate error");
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gp::rotate(store.begin(), store.end()-1, store.end());
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gp_config::assertion(store[0] == 0, "rotate error");
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}
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return res;
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}
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};
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append_test dummy_ajcurgsd3(new array_test{});
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struct indexed_array_test : public test_scaffold {
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indexed_array_test() {
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name = __FILE__ ":7";
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}
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virtual int run() {
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int res = 0;
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{
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gp::indexed_array<int, 8> store;
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size_t idx = store.push (112);
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store.push (113);
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store.push (114);
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gp_config::assertion(store[idx] == 112, "Bad value in indexed array");
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store.mark_for_removal(idx);
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store.sweep_removed();
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for(auto& p : store) {
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if(p == 112) res++;
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}
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gp_config::assertion(store.size() == 2, "Bad size of indexed array");
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}
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{
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gp::indexed_array<std::string, 8> store;
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size_t idx = store.push ("112");
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store.push ("113");
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store.push ("114");
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gp_config::assertion(store[idx] == "112", "Bad value in indexed array");
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store.mark_for_removal(idx);
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store.sweep_removed();
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for(auto& p : store) {
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if(p == "112") res++;
|
|
}
|
|
|
|
gp_config::assertion(store.size() == 2, "Bad size of indexed array");
|
|
|
|
{
|
|
// TODO: write a concrete implementation and test it
|
|
// gp::vfs fs;
|
|
}
|
|
}
|
|
return res;
|
|
}
|
|
};
|
|
|
|
append_test dummy_khxurgsd3(new indexed_array_test{});
|