lean2/src/util/sexpr/format.cpp

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/*
Copyright (c) 2013 Microsoft Corporation. All rights reserved.
Released under Apache 2.0 license as described in the file LICENSE.
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Author: Soonho Kong
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*/
#include <sstream>
#include <string>
#include <utility>
#include "util/escaped.h"
#include "util/sexpr/sexpr.h"
#include "util/sexpr/format.h"
#include "util/sexpr/sexpr_fn.h"
#include "util/sexpr/options.h"
#ifndef LEAN_DEFAULT_PP_INDENTATION
#define LEAN_DEFAULT_PP_INDENTATION 4
#endif
#ifndef LEAN_DEFAULT_PP_UNICODE
#define LEAN_DEFAULT_PP_UNICODE true
#endif
#ifndef LEAN_DEFAULT_PP_WIDTH
#define LEAN_DEFAULT_PP_WIDTH 120
#endif
#ifndef LEAN_DEFAULT_PP_COLORS
#define LEAN_DEFAULT_PP_COLORS true
#endif
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#ifndef LEAN_KEYWORD_HIGHLIGHT_COLOR
#define LEAN_KEYWORD_HIGHLIGHT_COLOR format::ORANGE
#endif
#ifndef LEAN_BUILTIN_HIGHLIGHT_COLOR
#define LEAN_BUILTIN_HIGHLIGHT_COLOR format::CYAN
#endif
#ifndef LEAN_COMMAND_HIGHLIGHT_COLOR
#define LEAN_COMMAND_HIGHLIGHT_COLOR format::BLUE
#endif
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namespace lean {
static name g_pp_indent{"pp", "indent"};
static name g_pp_unicode{"pp", "unicode"};
static name g_pp_colors{"pp", "colors"};
static name g_pp_width{"pp", "width"};
RegisterUnsignedOption(g_pp_indent, LEAN_DEFAULT_PP_INDENTATION, "(pretty printer) default indentation");
RegisterBoolOption(g_pp_unicode, LEAN_DEFAULT_PP_UNICODE, "(pretty printer) use unicode characters");
RegisterBoolOption(g_pp_colors, LEAN_DEFAULT_PP_COLORS, "(pretty printer) use colors");
RegisterUnsignedOption(g_pp_width, LEAN_DEFAULT_PP_WIDTH, "(pretty printer) line width");
unsigned get_pp_indent(options const & o) {
return o.get_unsigned(g_pp_indent, LEAN_DEFAULT_PP_INDENTATION);
}
bool get_pp_unicode(options const & o) {
return o.get_bool(g_pp_unicode, LEAN_DEFAULT_PP_UNICODE);
}
bool get_pp_colors(options const & o) {
return o.get_bool(g_pp_colors, LEAN_DEFAULT_PP_COLORS);
}
unsigned get_pp_width(options const & o) {
return o.get_unsigned(g_pp_width, LEAN_DEFAULT_PP_WIDTH);
}
std::ostream & layout(std::ostream & out, bool colors, sexpr const & s) {
lean_assert(!is_nil(s));
switch (format::sexpr_kind(s)) {
case format::format_kind::NEST:
case format::format_kind::CHOICE:
case format::format_kind::COMPOSE:
case format::format_kind::FLAT_COMPOSE:
lean_unreachable(); // LCOV_EXCL_LINE
break; // LCOV_EXCL_LINE
case format::format_kind::NIL:
out << "";
break;
case format::format_kind::LINE:
out << std::endl;
break;
case format::format_kind::TEXT:
{
sexpr const & v = cdr(s);
if(is_string(v)) {
out << to_string(v);
} else {
out << v;
}
break;
}
case format::format_kind::COLOR_BEGIN:
if (colors) {
format::format_color c = static_cast<format::format_color>(to_int(cdr(s)));
out << "\e[" << (31 + c % 7) << "m";
}
break;
case format::format_kind::COLOR_END:
if (colors) {
out << "\e[0m";
}
break;
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}
return out;
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}
std::ostream & layout_list(std::ostream & out, bool colors, sexpr const & s) {
for_each(s, [&](sexpr const & s) {
layout(out, colors, s);
});
return out;
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}
format compose(format const & f1, format const & f2) {
return format(format::sexpr_compose({f1.m_value, f2.m_value}));
}
format nest(int i, format const & f) {
return format(format::sexpr_nest(i, f.m_value));
}
format highlight(format const & f, format::format_color const c) {
return format(format::sexpr_highlight(f.m_value, c));
}
format highlight_keyword(format const & f) {
return highlight(f, LEAN_KEYWORD_HIGHLIGHT_COLOR);
}
format highlight_builtin(format const & f) {
return highlight(f, LEAN_BUILTIN_HIGHLIGHT_COLOR);
}
format highlight_command(format const & f) {
return highlight(f, LEAN_COMMAND_HIGHLIGHT_COLOR);
}
// Commonly used format objects
format mk_line() {
return format(format::sexpr_line());
}
static format g_line(mk_line());
static format g_space(" ");
static format g_lp("(");
static format g_rp(")");
static format g_lcurly("{");
static format g_rcurly("}");
static format g_comma(",");
static format g_colon(":");
static format g_dot(".");
format const & line() { return g_line; }
format const & space() { return g_space; }
format const & lp() { return g_lp; }
format const & rp() { return g_rp; }
format const & lcurly() { return g_lcurly; }
format const & rcurly() { return g_rcurly; }
format const & comma() { return g_comma; }
format const & colon() { return g_colon; }
format const & dot() { return g_dot; }
// Auxiliary flag used to mark whether flatten
// produce a different sexpr
static bool thread_local g_diff_flatten = false;
//
sexpr format::flatten(sexpr const & s) {
lean_assert(is_cons(s));
switch (sexpr_kind(s)) {
case format_kind::NIL:
/* flatten NIL = NIL */
return s;
case format_kind::NEST:
/* flatten (NEST i x) = flatten x */
return flatten(sexpr_nest_s(s));
case format_kind::COMPOSE:
/* flatten (s_1 <> ... <> s_n ) = flatten s_1 <> ... <> flatten s_n */
return sexpr_flat_compose(map(sexpr_compose_list(s),
[](sexpr const & s) {
return flatten(s);
}));
case format_kind::CHOICE:
/* flatten (x <|> y) = flatten x */
g_diff_flatten = true;
return flatten(sexpr_choice_1(s));
case format_kind::LINE:
g_diff_flatten = true;
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return sexpr_text(sexpr(" "));
case format_kind::FLAT_COMPOSE:
case format_kind::TEXT:
case format_kind::COLOR_BEGIN:
case format_kind::COLOR_END:
return s;
}
lean_unreachable(); // LCOV_EXCL_LINE
return s; // LCOV_EXCL_LINE
}
format format::flatten(format const & f){
return format(flatten(f.m_value));
}
format group(format const & f) {
g_diff_flatten = false;
format flat_f = format::flatten(f);
if (g_diff_flatten) {
return choice(flat_f, f);
} else {
// flat_f and f are essentially the same format object.
// So, we don't need to create a choice.
return flat_f;
}
}
format above(format const & f1, format const & f2) {
return format{f1, line(), f2};
}
format bracket(std::string const l, format const & x, std::string const r) {
return group(format{format(l),
nest(2, format(line(), x)),
line(),
format(r)});
}
format paren(format const & x) {
return group(nest(1, format{lp(), x, rp()}));
}
// wrap = <+/>
// wrap x y = x <> (text " " :<|> line) <> y
format wrap(format const & f1, format const & f2) {
return format{f1,
choice(format(" "), line()),
f2};
}
struct space_exceeded {};
// Return true iff the space upto line break fits in the available space.
bool format::space_upto_line_break_list_exceeded(sexpr const & r, int available) {
// r : list of (int * format)
try {
lean_assert(is_list(r));
sexpr list = r;
bool found_newline = false;
while (!is_nil(list) && !found_newline) {
if (available < 0)
return true;
sexpr const & h = cdr(car(list));
available -= space_upto_line_break(h, available, found_newline);
list = cdr(list);
}
return available < 0;
} catch (space_exceeded) {
return true;
}
return false;
}
/**
\brief Return the space upto line break. If the space exceeds available, then throw an exception.
*/
int format::space_upto_line_break(sexpr const & s, int available, bool & found_newline) {
// s : format
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lean_assert(!found_newline);
lean_assert(sexpr_kind(s) <= format_kind::COLOR_END);
switch (sexpr_kind(s)) {
case format_kind::NIL:
case format_kind::COLOR_BEGIN:
case format_kind::COLOR_END:
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{
return 0;
}
case format_kind::COMPOSE:
case format_kind::FLAT_COMPOSE:
{
sexpr list = sexpr_compose_list(s);
int len = 0;
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while(!is_nil(list) && !found_newline) {
sexpr const & h = car(list);
list = cdr(list);
len += space_upto_line_break(h, available, found_newline);
if (len > available)
throw space_exceeded();
}
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return len;
}
case format_kind::NEST:
{
sexpr const & x = sexpr_nest_s(s);
return space_upto_line_break(x, available, found_newline);
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}
case format_kind::TEXT: {
return sexpr_text_length(s);
}
case format_kind::LINE:
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found_newline = true;
return 0;
case format_kind::CHOICE:
{
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sexpr const & x = sexpr_choice_2(s);
return space_upto_line_break(x, available, found_newline);
}
}
lean_unreachable(); // LCOV_EXCL_LINE
return 0; // LCOV_EXCL_LINE
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}
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sexpr format::be(unsigned w, unsigned k, sexpr const & s) {
/* s = (i, v) :: z, where h has the type int x format */
/* ret = list of format */
if(is_nil(s)) {
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return sexpr{};
}
sexpr const & h = car(s);
sexpr const & z = cdr(s);
int i = to_int(car(h));
sexpr const & v = cdr(h);
switch (sexpr_kind(v)) {
case format_kind::NIL:
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return be(w, k, z);
case format_kind::COLOR_BEGIN:
case format_kind::COLOR_END:
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return sexpr(v, be(w, k, z));
case format_kind::COMPOSE:
case format_kind::FLAT_COMPOSE:
{
sexpr const & list = sexpr_compose_list(v);
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sexpr const & list_ = foldr(list, z, [i](sexpr const & s, sexpr const & res) {
return sexpr(sexpr(i, s), res);
});
return be(w, k, list_);
}
case format_kind::NEST:
{
int j = sexpr_nest_i(v);
sexpr const & x = sexpr_nest_s(v);
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return be(w, k, sexpr(sexpr(i + j, x), z));
}
case format_kind::TEXT:
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return sexpr(v, be(w, k + sexpr_text_length(v), z));
case format_kind::LINE:
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return sexpr(v, sexpr(sexpr_text(std::string(i, ' ')), be(w, i, z)));
case format_kind::CHOICE:
{
sexpr const & x = sexpr_choice_1(v);
sexpr const & y = sexpr_choice_2(v);;
int available = static_cast<int>(w) - static_cast<int>(k);
if (!space_upto_line_break_list_exceeded(sexpr(sexpr(i, x), z), available)) {
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sexpr const & s1 = be(w, k, sexpr(sexpr(i, x), z));
return s1;
} else {
sexpr const & s2 = be(w, k, sexpr(sexpr(i, y), z));
return s2;
}
}
}
lean_unreachable(); // LCOV_EXCL_LINE
return sexpr(); // LCOV_EXCL_LINE
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}
sexpr format::best(unsigned w, unsigned k, sexpr const & s) {
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return be(w, k, sexpr{sexpr(0, s)});
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}
format operator+(format const & f1, format const & f2) {
return format{f1, f2};
}
format operator^(format const & f1, format const & f2) {
return format {f1, format(" "), f2};
}
std::ostream & pretty(std::ostream & out, unsigned w, bool colors, format const & f) {
sexpr const & b = format::best(w, 0, f.m_value);
return layout_list(out, colors, b);
}
std::ostream & pretty(std::ostream & out, unsigned w, format const & f) {
return pretty(out, w, LEAN_DEFAULT_PP_COLORS, f);
}
std::ostream & pretty(std::ostream & out, options const & opts, format const & f) {
return pretty(out, get_pp_width(opts), get_pp_colors(opts), f);
}
std::ostream & operator<<(std::ostream & out, format const & f) {
return pretty(out, LEAN_DEFAULT_PP_WIDTH, LEAN_DEFAULT_PP_COLORS, f);
}
std::ostream & operator<<(std::ostream & out, std::pair<format const &, options const &> const & p) {
return pretty(out, p.second, p.first);
}
format pp(name const & n) {
return format(n.to_string());
}
struct sexpr_pp_fn {
format apply(sexpr const & s) {
switch (s.kind()) {
case sexpr_kind::NIL: return format("nil");
case sexpr_kind::STRING: {
std::ostringstream ss;
ss << "\"" << escaped(to_string(s).c_str()) << "\"";
return format(ss.str());
}
case sexpr_kind::BOOL: return format(to_bool(s) ? "true" : "false");
case sexpr_kind::INT: return format(to_int(s));
case sexpr_kind::DOUBLE: return format(to_double(s));
case sexpr_kind::NAME: return pp(to_name(s));
case sexpr_kind::MPZ: return format(to_mpz(s));
case sexpr_kind::MPQ: return format(to_mpq(s));
case sexpr_kind::CONS: {
sexpr const * curr = &s;
format r;
while (true) {
r += apply(head(*curr));
curr = &tail(*curr);
if (is_nil(*curr)) {
return paren(r);
} else if (!is_cons(*curr)) {
return group(nest(1, format{lp(), r, space(), dot(), line(), apply(*curr), rp()}));
} else {
r += line();
}
}
}}
lean_unreachable(); // LCOV_EXCL_LINE
return format(); // LCOV_EXCL_LINE
}
format operator()(sexpr const & s) {
return apply(s);
}
};
format pp(sexpr const & s) {
return sexpr_pp_fn()(s);
}
}