/******************************************************************************* * This file is part of the "Enduro2D" * For conditions of distribution and use, see copyright notice in LICENSE.md * Copyright (C) 2018 Matvey Cherevko ******************************************************************************/ #include "_utils.hpp" using namespace e2d; TEST_CASE("buffer") { { REQUIRE(buffer().size() == 0); REQUIRE(buffer().data() == nullptr); REQUIRE(buffer(10).size() == 10); REQUIRE(buffer(10).data() != nullptr); } { buffer b("hello", 5); REQUIRE(b.size() == 5); REQUIRE(std::memcmp(b.data(), "hello", 5) == 0); b.clear(); REQUIRE(b.size() == 0); REQUIRE(b.data() == nullptr); } { const buffer b0("hello", 5); buffer b1(b0); REQUIRE(b0.size() == 5); REQUIRE(std::memcmp(b0.data(), "hello", 5) == 0); REQUIRE(b1.size() == 5); REQUIRE(std::memcmp(b1.data(), "hello", 5) == 0); REQUIRE(b0.data() != b1.data()); const u8* b1_data = b1.data(); const buffer b2("world", 5); b1 = b2; REQUIRE(b1_data == b1.data()); REQUIRE(b1.size() == 5); REQUIRE(std::memcmp(b1.data(), "world", 5) == 0); } { buffer b0("hello", 5); buffer b1(std::move(b0)); REQUIRE(b0.size() == 0); REQUIRE(b0.data() == nullptr); REQUIRE(b1.size() == 5); REQUIRE(std::memcmp(b1.data(), "hello", 5) == 0); b1 = buffer("hello, world", 12); REQUIRE(b1.size() == 12); REQUIRE(std::memcmp(b1.data(), "hello, world", 12) == 0); } { buffer b0("hello", 5); buffer b1 = b0; REQUIRE(b0 == b1); REQUIRE_FALSE(b0 == buffer("world", 5)); REQUIRE_FALSE(b0 != b1); REQUIRE(b0 != buffer("world", 5)); REQUIRE_FALSE(b0 == buffer()); REQUIRE(b0 != buffer()); REQUIRE(buffer() == buffer()); REQUIRE_FALSE(buffer() != buffer()); } { buffer b0("hello", 5); buffer b1 = b0; b0.clear(); REQUIRE(b1.size() == 5); REQUIRE(std::memcmp(b1.data(), "hello", 5) == 0); } { buffer b0; REQUIRE((&b0 == &b0.fill('a') && b0.size() == 0)); b0.resize(5); REQUIRE_FALSE(std::memcmp(b0.data(), "aaaaa", 5) == 0); REQUIRE((&b0 == &b0.fill('a') && b0.size() == 5)); REQUIRE(std::memcmp(b0.data(), "aaaaa", 5) == 0); REQUIRE((&b0 == &b0.fill('b') && b0.size() == 5)); REQUIRE(std::memcmp(b0.data(), "bbbbb", 5) == 0); b0.resize(7); REQUIRE_FALSE(std::memcmp(b0.data(), "ccccccc", 7) == 0); b0.fill('c'); REQUIRE(std::memcmp(b0.data(), "ccccccc", 7) == 0); b0.resize(7); REQUIRE(std::memcmp(b0.data(), "ccccccc", 7) == 0); } { buffer b0("hello", 5); buffer b1; REQUIRE(b1.empty()); REQUIRE(&b1 == &b1.assign(std::move(b0))); REQUIRE_FALSE(b1.empty()); REQUIRE((b0.empty() && b0.data() == nullptr && b0.size() == 0)); REQUIRE((std::memcmp(b1.data(), "hello", 5) == 0 && b1.size() == 5)); REQUIRE(&b1 == &b1.resize(4)); REQUIRE((std::memcmp(b1.data(), "hell", 4) == 0 && b1.size() == 4)); REQUIRE(&b1 == &b1.assign("world", 5)); REQUIRE((std::memcmp(b1.data(), "world", 5) == 0 && b1.size() == 5)); REQUIRE(&b1 == &b1.assign("hello", 5)); REQUIRE((std::memcmp(b1.data(), "hello", 5) == 0 && b1.size() == 5)); REQUIRE(&b1 == &b1.resize(0)); REQUIRE((b1.data() == nullptr && b1.size() == 0)); } { buffer b1("hello", 5); b1.assign(b1.data(), 3); REQUIRE(b1.size() == 3); REQUIRE(std::memcmp(b1.data(), "hel", 3) == 0); } { REQUIRE_FALSE(buffer() < buffer()); REQUIRE_FALSE(buffer("aa",2) < buffer("aa",2)); REQUIRE(buffer() < buffer("a",1)); REQUIRE_FALSE(buffer("a",1) < buffer()); REQUIRE(buffer("aa",2) < buffer("ab",2)); REQUIRE_FALSE(buffer("ab",2) < buffer("aa",2)); REQUIRE(buffer("aa",2) < buffer("aaa",3)); REQUIRE(buffer("aa",2) < buffer("abb",3)); REQUIRE_FALSE(buffer("aaa",3) < buffer("aa",2)); REQUIRE_FALSE(buffer("abb",3) < buffer("aa",2)); } { REQUIRE(buffer() == buffer()); REQUIRE_FALSE(buffer() != buffer()); REQUIRE_FALSE(buffer() == buffer("hello",5)); REQUIRE_FALSE(buffer("hello",5) == buffer()); REQUIRE(buffer("hello",5) == buffer("hello",5)); REQUIRE_FALSE(buffer("hello",5) != buffer("hello",5)); REQUIRE(buffer("hello",5) != buffer("world",5)); REQUIRE_FALSE(buffer("hello",5) == buffer("world",5)); REQUIRE(buffer("hello",5) != buffer("hello, world",12)); REQUIRE_FALSE(buffer("hello",5) == buffer("hello, world",12)); } { buffer b0("hello", 5); buffer b1("hello world", 11); b0.swap(b1); REQUIRE((std::memcmp(b1.data(), "hello", 5) == 0 && b1.size() == 5)); REQUIRE((std::memcmp(b0.data(), "hello world", 11) == 0 && b0.size() == 11)); swap(b0, b1); REQUIRE((std::memcmp(b0.data(), "hello", 5) == 0 && b0.size() == 5)); REQUIRE((std::memcmp(b1.data(), "hello world", 11) == 0 && b1.size() == 11)); } { const std::size_t msize = std::numeric_limits::max(); REQUIRE_THROWS_AS(buffer(msize), std::bad_alloc); REQUIRE_THROWS_AS(buffer(nullptr, msize), std::bad_alloc); { buffer b0; REQUIRE_THROWS_AS(b0.resize(msize), std::bad_alloc); REQUIRE((b0.data() == nullptr && b0.size() == 0)); buffer b1("hello", 5); REQUIRE_THROWS_AS(b1.resize(msize), std::bad_alloc); REQUIRE((std::memcmp(b1.data(), "hello", 5) == 0 && b1.size() == 5)); } { buffer b0; REQUIRE_THROWS_AS(b0.assign(nullptr, msize), std::bad_alloc); REQUIRE((b0.data() == nullptr && b0.size() == 0)); buffer b1("hello", 5); REQUIRE_THROWS_AS(b1.assign(nullptr, msize), std::bad_alloc); REQUIRE((std::memcmp(b1.data(), "hello", 5) == 0 && b1.size() == 5)); } } }