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beast/test/core/multi_buffer.cpp
Vinnie Falco 196d9c60fa multi_buffer implementation change (API Change): 
fix #440

WARNING

multi_buffer constructor now takes a maximum size instead of the
"allocation size". This is a breaking change. The allocation size
feature is removed. To update calling code, remove the allocation
size parameter from call sites.

* multi_buffer now uses a geometric growth algorithm for better performance.
2017-07-20 08:12:19 -07:00

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//
// Copyright (c) 2013-2017 Vinnie Falco (vinnie dot falco at gmail dot com)
//
// Distributed under the Boost Software License, Version 1.0. (See accompanying
// file LICENSE_1_0.txt or copy at http://www.boost.org/LICENSE_1_0.txt)
//
// Test that header file is self-contained.
#include <beast/core/multi_buffer.hpp>
#include "buffer_test.hpp"
#include <beast/core/ostream.hpp>
#include <beast/core/type_traits.hpp>
#include <beast/test/test_allocator.hpp>
#include <beast/unit_test/suite.hpp>
#include <boost/asio/buffer.hpp>
#include <algorithm>
#include <atomic>
#include <memory>
#include <string>
namespace beast {
BOOST_STATIC_ASSERT(is_dynamic_buffer<multi_buffer>::value);
class multi_buffer_test : public beast::unit_test::suite
{
public:
template<class ConstBufferSequence>
static
std::string
to_string(ConstBufferSequence const& bs)
{
return boost::lexical_cast<
std::string>(buffers(bs));
}
template<class Alloc1, class Alloc2>
static
bool
eq(basic_multi_buffer<Alloc1> const& sb1,
basic_multi_buffer<Alloc2> const& sb2)
{
return to_string(sb1.data()) == to_string(sb2.data());
}
template<class ConstBufferSequence>
void
expect_size(std::size_t n, ConstBufferSequence const& buffers)
{
BEAST_EXPECT(test::size_pre(buffers) == n);
BEAST_EXPECT(test::size_post(buffers) == n);
BEAST_EXPECT(test::size_rev_pre(buffers) == n);
BEAST_EXPECT(test::size_rev_post(buffers) == n);
}
template<class U, class V>
static
void
self_assign(U& u, V&& v)
{
u = std::forward<V>(v);
}
void testSpecialMembers()
{
using boost::asio::buffer;
std::string const s = "Hello, world";
BEAST_EXPECT(s.size() == 12);
for(std::size_t i = 1; i < 12; ++i) {
for(std::size_t x = 1; x < 4; ++x) {
for(std::size_t y = 1; y < 4; ++y) {
std::size_t z = s.size() - (x + y);
{
multi_buffer b;//(i);
b.commit(buffer_copy(b.prepare(x), buffer(s.data(), x)));
b.commit(buffer_copy(b.prepare(y), buffer(s.data()+x, y)));
b.commit(buffer_copy(b.prepare(z), buffer(s.data()+x+y, z)));
BEAST_EXPECT(to_string(b.data()) == s);
{
multi_buffer sb2(b);
BEAST_EXPECT(eq(b, sb2));
}
{
multi_buffer sb2;
sb2 = b;
BEAST_EXPECT(eq(b, sb2));
}
{
multi_buffer sb2(std::move(b));
BEAST_EXPECT(to_string(sb2.data()) == s);
expect_size(0, b.data());
b = std::move(sb2);
BEAST_EXPECT(to_string(b.data()) == s);
expect_size(0, sb2.data());
}
self_assign(b, b);
BEAST_EXPECT(to_string(b.data()) == s);
self_assign(b, std::move(b));
BEAST_EXPECT(to_string(b.data()) == s);
}
}}}
try
{
multi_buffer sb0(0);
fail();
}
catch(std::exception const&)
{
pass();
}
}
void
testAllocator()
{
using test::test_allocator;
// VFALCO This needs work
{
using alloc_type =
test_allocator<char, false, false, false, false, false>;
using type = basic_multi_buffer<alloc_type>;
type b;
}
{
using alloc_type =
test_allocator<char, false, false, false, false, false>;
using type = basic_multi_buffer<alloc_type>;
type b;
type b2(b);
type b3(b, alloc_type{});
}
}
void testMatrix()
{
using boost::asio::buffer;
using boost::asio::buffer_size;
std::string const s = "Hello, world";
BEAST_EXPECT(s.size() == 12);
for(std::size_t i = 1; i < 12; ++i) {
for(std::size_t x = 1; x < 4; ++x) {
for(std::size_t y = 1; y < 4; ++y) {
for(std::size_t t = 1; t < 4; ++ t) {
for(std::size_t u = 1; u < 4; ++ u) {
std::size_t z = s.size() - (x + y);
std::size_t v = s.size() - (t + u);
{
multi_buffer b;//(i);
{
auto d = b.prepare(z);
BEAST_EXPECT(buffer_size(d) == z);
}
{
auto d = b.prepare(0);
BEAST_EXPECT(buffer_size(d) == 0);
}
{
auto d = b.prepare(y);
BEAST_EXPECT(buffer_size(d) == y);
}
{
auto d = b.prepare(x);
BEAST_EXPECT(buffer_size(d) == x);
b.commit(buffer_copy(d, buffer(s.data(), x)));
}
BEAST_EXPECT(b.size() == x);
BEAST_EXPECT(buffer_size(b.data()) == b.size());
{
auto d = b.prepare(x);
BEAST_EXPECT(buffer_size(d) == x);
}
{
auto d = b.prepare(0);
BEAST_EXPECT(buffer_size(d) == 0);
}
{
auto d = b.prepare(z);
BEAST_EXPECT(buffer_size(d) == z);
}
{
auto d = b.prepare(y);
BEAST_EXPECT(buffer_size(d) == y);
b.commit(buffer_copy(d, buffer(s.data()+x, y)));
}
b.commit(1);
BEAST_EXPECT(b.size() == x + y);
BEAST_EXPECT(buffer_size(b.data()) == b.size());
{
auto d = b.prepare(x);
BEAST_EXPECT(buffer_size(d) == x);
}
{
auto d = b.prepare(y);
BEAST_EXPECT(buffer_size(d) == y);
}
{
auto d = b.prepare(0);
BEAST_EXPECT(buffer_size(d) == 0);
}
{
auto d = b.prepare(z);
BEAST_EXPECT(buffer_size(d) == z);
b.commit(buffer_copy(d, buffer(s.data()+x+y, z)));
}
b.commit(2);
BEAST_EXPECT(b.size() == x + y + z);
BEAST_EXPECT(buffer_size(b.data()) == b.size());
BEAST_EXPECT(to_string(b.data()) == s);
b.consume(t);
{
auto d = b.prepare(0);
BEAST_EXPECT(buffer_size(d) == 0);
}
BEAST_EXPECT(to_string(b.data()) == s.substr(t, std::string::npos));
b.consume(u);
BEAST_EXPECT(to_string(b.data()) == s.substr(t + u, std::string::npos));
b.consume(v);
BEAST_EXPECT(to_string(b.data()) == "");
b.consume(1);
{
auto d = b.prepare(0);
BEAST_EXPECT(buffer_size(d) == 0);
}
}
}}}}}
}
void testIterators()
{
using boost::asio::buffer_size;
multi_buffer b;
b.prepare(1);
b.commit(1);
b.prepare(2);
b.commit(2);
expect_size(3, b.data());
b.prepare(1);
expect_size(3, b.prepare(3));
b.commit(2);
}
void run() override
{
test::check_read_size_helper<multi_buffer>();
testSpecialMembers();
testAllocator();
testMatrix();
testIterators();
}
};
BEAST_DEFINE_TESTSUITE(multi_buffer,core,beast);
} // beast
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