lean2/src/library/state.h

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/*
Copyright (c) 2013 Microsoft Corporation. All rights reserved.
Released under Apache 2.0 license as described in the file LICENSE.
Author: Leonardo de Moura
*/
#pragma once
#include "util/output_channel.h"
#include "util/sexpr/options.h"
#include "library/formatter.h"
namespace lean {
/**
\brief State provided to internal lean procedures that need to:
1- Access user defined options
2- Produce verbosity messages
3- Output results
4- Produce formatted output
*/
class state {
options m_options;
formatter m_formatter;
std::shared_ptr<output_channel> m_regular_channel;
std::shared_ptr<output_channel> m_diagnostic_channel;
public:
state();
state(options const & opts, formatter const & fmt);
~state();
options get_options() const { return m_options; }
formatter get_formatter() const { return m_formatter; }
output_channel & get_regular_channel() const { return *m_regular_channel; }
output_channel & get_diagnostic_channel() const { return *m_diagnostic_channel; }
void set_regular_channel(std::shared_ptr<output_channel> const & out);
void set_diagnostic_channel(std::shared_ptr<output_channel> const & out);
void set_options(options const & opts);
void set_formatter(formatter const & f);
template<typename T> void set_option(name const & n, T const & v) {
set_options(get_options().update(n, v));
}
void set_interrupt(bool flag) { m_formatter.set_interrupt(flag); }
};
/**
\brief Wrapper for the state object that provides access to the
state's regular channel
*/
struct regular {
state const & m_state;
regular(state const & s):m_state(s) {}
void flush() { m_state.get_regular_channel().get_stream().flush(); }
};
/**
\brief Wrapper for the state object that provides access to the
state's diagnostic channel
*/
struct diagnostic {
state const & m_state;
diagnostic(state const & s):m_state(s) {}
void flush() { m_state.get_diagnostic_channel().get_stream().flush(); }
};
// hack for using std::endl with channels
struct endl_class { endl_class() {} };
const endl_class endl;
inline regular const & operator<<(regular const & out, endl_class) {
out.m_state.get_regular_channel().get_stream() << std::endl;
return out;
}
inline diagnostic const & operator<<(diagnostic const & out, endl_class) {
out.m_state.get_diagnostic_channel().get_stream() << std::endl;
return out;
}
inline regular const & operator<<(regular const & out, expr const & e) {
options const & opts = out.m_state.get_options();
out.m_state.get_regular_channel().get_stream() << mk_pair(out.m_state.get_formatter()(e, opts), opts);
return out;
}
inline diagnostic const & operator<<(diagnostic const & out, expr const & e) {
options const & opts = out.m_state.get_options();
out.m_state.get_diagnostic_channel().get_stream() << mk_pair(out.m_state.get_formatter()(e, opts), opts);
return out;
}
inline regular const & operator<<(regular const & out, object const & obj) {
options const & opts = out.m_state.get_options();
out.m_state.get_regular_channel().get_stream() << mk_pair(out.m_state.get_formatter()(obj, opts), opts);
return out;
}
inline diagnostic const & operator<<(diagnostic const & out, object const & obj) {
options const & opts = out.m_state.get_options();
out.m_state.get_diagnostic_channel().get_stream() << mk_pair(out.m_state.get_formatter()(obj, opts), opts);
return out;
}
template<typename T>
inline regular const & operator<<(regular const & out, T const & t) {
out.m_state.get_regular_channel().get_stream() << t;
return out;
}
template<typename T>
inline diagnostic const & operator<<(diagnostic const & out, T const & t) {
out.m_state.get_diagnostic_channel().get_stream() << t;
return out;
}
}