lean2/src/frontends/lean/elaborator_exception.cpp

116 lines
4.7 KiB
C++
Raw Normal View History

/*
Copyright (c) 2013 Microsoft Corporation. All rights reserved.
Released under Apache 2.0 license as described in the file LICENSE.
Author: Leonardo de Moura
*/
#include "frontends/lean/elaborator_exception.h"
#include "frontends/lean/elaborator.h"
namespace lean {
format pp_elaborator_state(formatter fmt, elaborator const & elb, options const & opts) {
unsigned indent = get_pp_indent(opts);
format r;
if (elb.has_constraints()) {
format elb_fmt = elb.pp(fmt, opts);
r += compose(line(), format("Elaborator state"));
r += nest(indent, compose(line(), elb_fmt));
}
return r;
}
format pp(formatter fmt, context const & ctx, std::vector<expr> const & exprs, std::vector<expr> const & types, options const & opts) {
unsigned indent = get_pp_indent(opts);
lean_assert(exprs.size() == types.size());
auto it1 = exprs.begin();
auto it2 = types.begin();
format r;
for (; it1 != exprs.end(); ++it1, ++it2) {
r += nest(indent, compose(line(), group(format{fmt(ctx, *it1, false, opts), space(), colon(),
nest(indent, format{line(), fmt(ctx, *it2, false, opts)})})));
}
return r;
}
format elaborator_exception::pp(formatter const & fmt, options const & opts) const {
unsigned indent = get_pp_indent(opts);
format expr_fmt = fmt(get_context(), get_expr(), false, opts);
format r;
r += format{format(what()), space(), format("at term")};
r += nest(indent, compose(line(), expr_fmt));
r += pp_elaborator_state(fmt, get_elaborator(), opts);
return r;
}
format overload_exception::pp(formatter const & fmt, options const & opts) const {
context const & ctx = get_context();
format r;
r += format{format(what()), line(), format("Candidates:")};
r += ::lean::pp(fmt, ctx, get_fs(), get_f_types(), opts);
r += format{line(), format("Arguments:")};
r += ::lean::pp(fmt, ctx, get_args(), get_arg_types(), opts);
return r;
}
format unification_app_mismatch_exception::pp(formatter const & fmt, options const & opts) const {
unsigned indent = get_pp_indent(opts);
auto const & ctx = get_context();
expr const & app = get_expr();
auto args_it = get_args().begin();
auto args_end = get_args().end();
auto types_it = get_types().begin();
format app_fmt = fmt(ctx, app, false, opts);
format r = format{format(what()), nest(indent, compose(line(), app_fmt))};
format fun_type_fmt = fmt(ctx, *types_it, false, opts);
r += compose(line(), format("Function type:"));
r += nest(indent, compose(line(), fun_type_fmt));
++args_it;
++types_it;
if (get_args().size() > 2)
r += compose(line(), format("Arguments types:"));
else
r += compose(line(), format("Argument type:"));
for (; args_it != args_end; ++args_it, ++types_it) {
format arg_fmt = fmt(ctx, *args_it, false, opts);
format type_fmt = fmt(ctx, *types_it, false, opts);
r += nest(indent, compose(line(), group(format{arg_fmt, space(), colon(), nest(indent, format{line(), type_fmt})})));
}
r += pp_elaborator_state(fmt, get_elaborator(), opts);
return r;
}
format unification_type_mismatch_exception::pp(formatter const & fmt, options const & opts) const {
unsigned indent = get_pp_indent(opts);
auto const & ctx = get_context();
expr const & e = get_expr();
expr const & p = get_processed_expr();
expr const & exp = get_expected_type();
expr const & given = get_given_type();
format r = format{format(what()), nest(indent, compose(line(), fmt(ctx, e, false, opts)))};
if (p != e) {
r += compose(line(), format("Term after elaboration:"));
r += nest(indent, compose(line(), fmt(ctx, p, false, opts)));
}
r += compose(line(), format("Expected type:"));
r += nest(indent, compose(line(), fmt(ctx, exp, false, opts)));
if (given) {
r += compose(line(), format("Got:"));
r += nest(indent, compose(line(), fmt(ctx, given, false, opts)));
}
r += pp_elaborator_state(fmt, get_elaborator(), opts);
return r;
}
regular const & operator<<(regular const & out, elaborator_exception const & ex) {
options const & opts = out.m_state.get_options();
out.m_state.get_regular_channel().get_stream() << mk_pair(ex.pp(out.m_state.get_formatter(), opts), opts);
return out;
}
diagnostic const & operator<<(diagnostic const & out, elaborator_exception const & ex) {
options const & opts = out.m_state.get_options();
out.m_state.get_diagnostic_channel().get_stream() << mk_pair(ex.pp(out.m_state.get_formatter(), opts), opts);
return out;
}
}