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// (C) Copyright 2008 CodeRage, LLC (turkanis at coderage dot com)
// (C) Copyright 2004-2007 Jonathan Turkanis
// 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.)
// See http://www.boost.org/libs/iostreams for documentation.
#include <cctype>
#include <boost/iostreams/compose.hpp>
#include <boost/iostreams/device/file.hpp>
#include <boost/iostreams/filtering_stream.hpp>
#include <boost/test/test_tools.hpp>
#include <boost/test/unit_test.hpp>
#include "detail/closable.hpp"
#include "detail/operation_sequence.hpp"
#include "detail/filters.hpp"
#include "detail/temp_file.hpp"
#include "detail/verification.hpp"
// Must come last.
#include <boost/iostreams/detail/config/disable_warnings.hpp> // BCC 5.x.
using namespace std;
using namespace boost::iostreams;
using namespace boost::iostreams::test;
using boost::unit_test::test_suite;
namespace io = boost::iostreams;
void read_composite()
{
test_file src1, src2;
filtering_istream first, second;
// Test composite device
first.push(toupper_filter());
first.push(padding_filter('a'));
first.push(file_source(src1.name(), in_mode));
second.push( compose( toupper_filter(),
compose( padding_filter('a'),
file_source(src1.name(), in_mode) ) ) );
BOOST_CHECK_MESSAGE(
compare_streams_in_chunks(first, second),
"failed reading from a stdio_filter"
);
// Test composite filter
first.reset();
second.reset();
first.push(toupper_filter());
first.push(padding_filter('a'));
first.push(file_source(src1.name(), in_mode));
second.push( compose( compose( toupper_filter(),
padding_filter('a') ),
file_source(src1.name(), in_mode) ) );
BOOST_CHECK_MESSAGE(
compare_streams_in_chunks(first, second),
"failed reading from a stdio_filter"
);
}
void write_composite()
{
temp_file dest1, dest2;
filtering_ostream out1, out2;
// Test composite device
out1.push(tolower_filter());
out1.push(padding_filter('a'));
out1.push(file_sink(dest1.name(), in_mode));
out2.push( compose( tolower_filter(),
compose( padding_filter('a'),
file_sink(dest2.name(), in_mode) ) ) );
write_data_in_chunks(out1);
write_data_in_chunks(out2);
out1.reset();
out2.reset();
{
ifstream first(dest1.name().c_str());
ifstream second(dest2.name().c_str());
BOOST_CHECK_MESSAGE(
compare_streams_in_chunks(first, second),
"failed writing to a stdio_filter"
);
}
// Test composite filter
out1.push(tolower_filter());
out1.push(padding_filter('a'));
out1.push(file_sink(dest1.name(), in_mode));
out2.push( compose( compose( tolower_filter(),
padding_filter('a') ),
file_sink(dest2.name(), in_mode) ) );
write_data_in_chunks(out1);
write_data_in_chunks(out2);
out1.reset();
out2.reset();
{
ifstream first(dest1.name().c_str());
ifstream second(dest2.name().c_str());
BOOST_CHECK_MESSAGE(
compare_streams_in_chunks(first, second),
"failed writing to a stdio_filter"
);
}
}
void close_composite_device()
{
// Compose an input filter with a source
{
operation_sequence seq;
chain<input> ch;
ch.push(
io::compose(
closable_filter<input>(seq.new_operation(2)),
closable_device<input>(seq.new_operation(1))
)
);
BOOST_CHECK_NO_THROW(ch.reset());
BOOST_CHECK_OPERATION_SEQUENCE(seq);
}
// Compose a bidirectional filter with a source
{
operation_sequence seq;
chain<input> ch;
ch.push(
io::compose(
closable_filter<bidirectional>(
seq.new_operation(2),
seq.new_operation(3)
),
closable_device<input>(seq.new_operation(1))
)
);
BOOST_CHECK_NO_THROW(ch.reset());
BOOST_CHECK_OPERATION_SEQUENCE(seq);
}
// Compose a seekable filter with a source
{
operation_sequence seq;
chain<input> ch;
ch.push(
io::compose(
closable_filter<seekable>(seq.new_operation(2)),
closable_device<input>(seq.new_operation(1))
)
);
BOOST_CHECK_NO_THROW(ch.reset());
BOOST_CHECK_OPERATION_SEQUENCE(seq);
}
// Compose a dual-use filter with a source
{
operation_sequence seq;
chain<input> ch;
operation dummy;
ch.push(
io::compose(
closable_filter<dual_use>(
seq.new_operation(2),
dummy
),
closable_device<input>(seq.new_operation(1))
)
);
BOOST_CHECK_NO_THROW(ch.reset());
BOOST_CHECK_OPERATION_SEQUENCE(seq);
}
// Compose an output filter with a sink
{
operation_sequence seq;
chain<output> ch;
ch.push(
io::compose(
closable_filter<output>(seq.new_operation(1)),
closable_device<output>(seq.new_operation(2))
)
);
BOOST_CHECK_NO_THROW(ch.reset());
BOOST_CHECK_OPERATION_SEQUENCE(seq);
}
// Compose a bidirectional filter with a sink
{
operation_sequence seq;
chain<output> ch;
ch.push(
io::compose(
closable_filter<bidirectional>(
seq.new_operation(1),
seq.new_operation(2)
),
closable_device<output>(seq.new_operation(3))
)
);
BOOST_CHECK_NO_THROW(ch.reset());
BOOST_CHECK_OPERATION_SEQUENCE(seq);
}
// Compose a seekable filter with a sink
{
operation_sequence seq;
chain<output> ch;
ch.push(
io::compose(
closable_filter<seekable>(seq.new_operation(1)),
closable_device<output>(seq.new_operation(2))
)
);
BOOST_CHECK_NO_THROW(ch.reset());
BOOST_CHECK_OPERATION_SEQUENCE(seq);
}
// Compose a dual-use filter with a sink
{
operation_sequence seq;
chain<output> ch;
operation dummy;
ch.push(
io::compose(
closable_filter<dual_use>(
dummy,
seq.new_operation(1)
),
closable_device<output>(seq.new_operation(2))
)
);
BOOST_CHECK_NO_THROW(ch.reset());
BOOST_CHECK_OPERATION_SEQUENCE(seq);
}
// Compose a bidirectional filter with a bidirectional device
{
operation_sequence seq;
chain<bidirectional> ch;
ch.push(
io::compose(
closable_filter<bidirectional>(
seq.new_operation(2),
seq.new_operation(3)
),
closable_device<bidirectional>(
seq.new_operation(1),
seq.new_operation(4)
)
)
);
BOOST_CHECK_NO_THROW(ch.reset());
BOOST_CHECK_OPERATION_SEQUENCE(seq);
}
// Compose a seekable filter with a seekable device
{
operation_sequence seq;
chain<seekable> ch;
ch.push(
io::compose(
closable_filter<seekable>(seq.new_operation(1)),
closable_device<seekable>(seq.new_operation(2))
)
);
BOOST_CHECK_NO_THROW(ch.reset());
BOOST_CHECK_OPERATION_SEQUENCE(seq);
}
}
void close_composite_filter()
{
// Compose two input filters
{
operation_sequence seq;
chain<input> ch;
ch.push(
io::compose(
closable_filter<input>(seq.new_operation(3)),
closable_filter<input>(seq.new_operation(2))
)
);
ch.push(closable_device<input>(seq.new_operation(1)));
BOOST_CHECK_NO_THROW(ch.reset());
BOOST_CHECK_OPERATION_SEQUENCE(seq);
}
// Compose a bidirectional filter with an input filter
{
operation_sequence seq;
chain<input> ch;
ch.push(
io::compose(
closable_filter<bidirectional>(
seq.new_operation(3),
seq.new_operation(4)
),
closable_filter<input>(seq.new_operation(2))
)
);
ch.push(closable_device<input>(seq.new_operation(1)));
BOOST_CHECK_NO_THROW(ch.reset());
BOOST_CHECK_MESSAGE(seq.is_success(), seq.message());
}
// Compose a seekable filter with an input filter
{
operation_sequence seq;
chain<input> ch;
ch.push(
io::compose(
closable_filter<seekable>(seq.new_operation(3)),
closable_filter<input>(seq.new_operation(2))
)
);
ch.push(closable_device<input>(seq.new_operation(1)));
BOOST_CHECK_NO_THROW(ch.reset());
BOOST_CHECK_OPERATION_SEQUENCE(seq);
}
// Compose a dual-use filter with an input filter
{
operation_sequence seq;
chain<input> ch;
operation dummy;
ch.push(
io::compose(
closable_filter<dual_use>(
seq.new_operation(3),
dummy
),
closable_filter<input>(seq.new_operation(2))
)
);
ch.push(closable_device<input>(seq.new_operation(1)));
BOOST_CHECK_NO_THROW(ch.reset());
BOOST_CHECK_OPERATION_SEQUENCE(seq);
}
// Compose two output filters
{
operation_sequence seq;
chain<output> ch;
ch.push(
io::compose(
closable_filter<output>(seq.new_operation(1)),
closable_filter<output>(seq.new_operation(2))
)
);
ch.push(closable_device<output>(seq.new_operation(3)));
BOOST_CHECK_NO_THROW(ch.reset());
BOOST_CHECK_OPERATION_SEQUENCE(seq);
}
// Compose a bidirectional filter with an output filter
{
operation_sequence seq;
chain<output> ch;
ch.push(
io::compose(
closable_filter<bidirectional>(
seq.new_operation(1),
seq.new_operation(2)
),
closable_filter<output>(seq.new_operation(3))
)
);
ch.push(closable_device<output>(seq.new_operation(4)));
BOOST_CHECK_NO_THROW(ch.reset());
BOOST_CHECK_OPERATION_SEQUENCE(seq);
}
// Compose a seekable filter with an output filter
{
operation_sequence seq;
chain<output> ch;
ch.push(
io::compose(
closable_filter<seekable>(seq.new_operation(1)),
closable_filter<output>(seq.new_operation(2))
)
);
ch.push(closable_device<output>(seq.new_operation(3)));
BOOST_CHECK_NO_THROW(ch.reset());
BOOST_CHECK_OPERATION_SEQUENCE(seq);
}
// Compose a dual-use filter with an output filter
{
operation_sequence seq;
chain<output> ch;
operation dummy;
ch.push(
io::compose(
closable_filter<dual_use>(
dummy,
seq.new_operation(1)
),
closable_filter<output>(seq.new_operation(2))
)
);
ch.push(closable_device<output>(seq.new_operation(3)));
BOOST_CHECK_NO_THROW(ch.reset());
BOOST_CHECK_OPERATION_SEQUENCE(seq);
}
// Compose two bidirectional filters
{
operation_sequence seq;
chain<bidirectional> ch;
ch.push(
io::compose(
closable_filter<bidirectional>(
seq.new_operation(3),
seq.new_operation(4)
),
closable_filter<bidirectional>(
seq.new_operation(2),
seq.new_operation(5)
)
)
);
ch.push(
closable_device<bidirectional>(
seq.new_operation(1),
seq.new_operation(6)
)
);
BOOST_CHECK_NO_THROW(ch.reset());
BOOST_CHECK_OPERATION_SEQUENCE(seq);
}
// Compose two seekable filters
{
operation_sequence seq;
chain<seekable> ch;
ch.push(
io::compose(
closable_filter<seekable>(seq.new_operation(1)),
closable_filter<seekable>(seq.new_operation(2))
)
);
ch.push(closable_device<seekable>(seq.new_operation(3)));
BOOST_CHECK_NO_THROW(ch.reset());
BOOST_CHECK_OPERATION_SEQUENCE(seq);
}
// Compose two dual-use filters for input
{
operation_sequence seq;
chain<input> ch;
operation dummy;
ch.push(
io::compose(
closable_filter<dual_use>(
seq.new_operation(3),
dummy
),
closable_filter<dual_use>(
seq.new_operation(2),
dummy
)
)
);
ch.push(closable_device<input>(seq.new_operation(1)));
BOOST_CHECK_NO_THROW(ch.reset());
BOOST_CHECK_OPERATION_SEQUENCE(seq);
}
// Compose two dual-use filters for output
{
operation_sequence seq;
chain<output> ch;
operation dummy;
ch.push(
io::compose(
closable_filter<dual_use>(
dummy,
seq.new_operation(1)
),
closable_filter<dual_use>(
dummy,
seq.new_operation(2)
)
)
);
ch.push(closable_device<output>(seq.new_operation(3)));
BOOST_CHECK_NO_THROW(ch.reset());
BOOST_CHECK_OPERATION_SEQUENCE(seq);
}
}
test_suite* init_unit_test_suite(int, char* [])
{
test_suite* test = BOOST_TEST_SUITE("line_filter test");
test->add(BOOST_TEST_CASE(&read_composite));
test->add(BOOST_TEST_CASE(&write_composite));
test->add(BOOST_TEST_CASE(&close_composite_device));
test->add(BOOST_TEST_CASE(&close_composite_filter));
return test;
}
#include <boost/iostreams/detail/config/enable_warnings.hpp> // BCC 5.x.
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