lyx_mirror/src/tex2lyx/Parser.cpp
Jean-Marc Lasgouttes bac4fe7843 Continue support for verbatim
This is a refactoring commit, which may introduce minor regressions, but should go in the right direction.

 * introduce Parser::verbatimEnvironment, which is a wrapper around verbatimStuff
 * introduce output_ert, which inserts a string as ERT; this allows to factor out several code instances.
 * rename handle_ert to output_ert_inset: this creates an inset and then calls output_ert
 * remove handle_comment (use handle_ert instead)
 * remove handle_backaspace (unused now)
 * use the new methods in handle_listing

TODO:
 * use for other verbatim-like cases (Sweave chunk, url...)
 * maybe implement Parser::unparse to reparse tokens already parsed with the wrong catcodes (if needed)
2013-02-04 15:14:30 +01:00

745 lines
16 KiB
C++

/**
* \file Parser.cpp
* This file is part of LyX, the document processor.
* Licence details can be found in the file COPYING.
*
* \author André Pönitz
*
* Full author contact details are available in file CREDITS.
*/
#include <config.h>
#include "Encoding.h"
#include "Parser.h"
#include "support/lstrings.h"
#include "support/textutils.h"
#include <iostream>
using namespace std;
using namespace lyx::support;
namespace lyx {
namespace {
/*!
* Translate a line ending to '\n'.
* \p c must have catcode catNewline, and it must be the last character read
* from \p is.
*/
char_type getNewline(idocstream & is, char_type c)
{
// we have to handle 3 different line endings:
// - UNIX (\n)
// - MAC (\r)
// - DOS (\r\n)
if (c == '\r') {
// MAC or DOS
char_type wc;
if (is.get(wc) && wc != '\n') {
// MAC
is.putback(wc);
}
return '\n';
}
// UNIX
return c;
}
}
//
// Token
//
ostream & operator<<(ostream & os, Token const & t)
{
if (t.cat() == catComment)
os << '%' << t.cs() << '\n';
else if (t.cat() == catSpace)
os << t.cs();
else if (t.cat() == catEscape)
os << '\\' << t.cs() << ' ';
else if (t.cat() == catLetter)
os << t.cs();
else if (t.cat() == catNewline)
os << "[" << t.cs().size() << "\\n," << t.cat() << "]\n";
else
os << '[' << t.cs() << ',' << t.cat() << ']';
return os;
}
string Token::asInput() const
{
if (cat_ == catComment)
return '%' + cs_ + '\n';
if (cat_ == catEscape)
return '\\' + cs_;
return cs_;
}
bool Token::isAlnumASCII() const
{
return cat_ == catLetter ||
(cat_ == catOther && cs_.length() == 1 && isDigitASCII(cs_[0]));
}
#ifdef FILEDEBUG
void debugToken(std::ostream & os, Token const & t, unsigned int flags)
{
char sep = ' ';
os << "t: " << t << " flags: " << flags;
if (flags & FLAG_BRACE_LAST) { os << sep << "BRACE_LAST"; sep = '|'; }
if (flags & FLAG_RIGHT ) { os << sep << "RIGHT" ; sep = '|'; }
if (flags & FLAG_END ) { os << sep << "END" ; sep = '|'; }
if (flags & FLAG_BRACK_LAST) { os << sep << "BRACK_LAST"; sep = '|'; }
if (flags & FLAG_TEXTMODE ) { os << sep << "TEXTMODE" ; sep = '|'; }
if (flags & FLAG_ITEM ) { os << sep << "ITEM" ; sep = '|'; }
if (flags & FLAG_LEAVE ) { os << sep << "LEAVE" ; sep = '|'; }
if (flags & FLAG_SIMPLE ) { os << sep << "SIMPLE" ; sep = '|'; }
if (flags & FLAG_EQUATION ) { os << sep << "EQUATION" ; sep = '|'; }
if (flags & FLAG_SIMPLE2 ) { os << sep << "SIMPLE2" ; sep = '|'; }
if (flags & FLAG_OPTION ) { os << sep << "OPTION" ; sep = '|'; }
if (flags & FLAG_BRACED ) { os << sep << "BRACED" ; sep = '|'; }
if (flags & FLAG_CELL ) { os << sep << "CELL" ; sep = '|'; }
if (flags & FLAG_TABBING ) { os << sep << "TABBING" ; sep = '|'; }
os << "\n";
}
#endif
//
// Parser
//
Parser::Parser(idocstream & is)
: lineno_(0), pos_(0), iss_(0), is_(is), encoding_iconv_("UTF-8"),
theCatcodesType_(NORMAL_CATCODES), curr_cat_(UNDECIDED_CATCODES)
{
}
Parser::Parser(string const & s)
: lineno_(0), pos_(0),
iss_(new idocstringstream(from_utf8(s))), is_(*iss_),
encoding_iconv_("UTF-8"),
theCatcodesType_(NORMAL_CATCODES), curr_cat_(UNDECIDED_CATCODES)
{
}
Parser::~Parser()
{
delete iss_;
}
void Parser::setEncoding(std::string const & e, int const & p)
{
// We may (and need to) use unsafe encodings here: Since the text is
// converted to unicode while reading from is_, we never see text in
// the original encoding of the parser, but operate on utf8 strings
// instead. Therefore, we cannot misparse high bytes as {, } or \\.
Encoding const * const enc = encodings.fromLaTeXName(e, p, true);
if (!enc) {
cerr << "Unknown encoding " << e << ". Ignoring." << std::endl;
return;
}
setEncoding(enc->iconvName());
}
void Parser::catInit()
{
if (curr_cat_ == theCatcodesType_)
return;
curr_cat_ = theCatcodesType_;
fill(theCatcode_, theCatcode_ + 256, catOther);
fill(theCatcode_ + 'a', theCatcode_ + 'z' + 1, catLetter);
fill(theCatcode_ + 'A', theCatcode_ + 'Z' + 1, catLetter);
// This is wrong!
theCatcode_[int('@')] = catLetter;
if (theCatcodesType_ == NORMAL_CATCODES) {
theCatcode_[int('\\')] = catEscape;
theCatcode_[int('{')] = catBegin;
theCatcode_[int('}')] = catEnd;
theCatcode_[int('$')] = catMath;
theCatcode_[int('&')] = catAlign;
theCatcode_[int('\n')] = catNewline;
theCatcode_[int('#')] = catParameter;
theCatcode_[int('^')] = catSuper;
theCatcode_[int('_')] = catSub;
theCatcode_[0x7f] = catIgnore;
theCatcode_[int(' ')] = catSpace;
theCatcode_[int('\t')] = catSpace;
theCatcode_[int('\r')] = catNewline;
theCatcode_[int('~')] = catActive;
theCatcode_[int('%')] = catComment;
}
}
CatCode Parser::catcode(char_type c) const
{
if (c < 256)
return theCatcode_[(unsigned char)c];
return catOther;
}
void Parser::setCatcode(char c, CatCode cat)
{
theCatcode_[(unsigned char)c] = cat;
}
void Parser::setCatcodes(cat_type t)
{
theCatcodesType_ = t;
}
void Parser::setEncoding(std::string const & e)
{
//cerr << "setting encoding to " << e << std::endl;
is_ << lyx::setEncoding(e);
encoding_iconv_ = e;
}
void Parser::push_back(Token const & t)
{
tokens_.push_back(t);
}
// We return a copy here because the tokens_ vector may get reallocated
Token const Parser::prev_token() const
{
static const Token dummy;
return pos_ > 1 ? tokens_[pos_ - 2] : dummy;
}
// We return a copy here because the tokens_ vector may get reallocated
Token const Parser::curr_token() const
{
static const Token dummy;
return pos_ > 0 ? tokens_[pos_ - 1] : dummy;
}
// We return a copy here because the tokens_ vector may get reallocated
Token const Parser::next_token()
{
static const Token dummy;
return good() ? tokens_[pos_] : dummy;
}
// We return a copy here because the tokens_ vector may get reallocated
Token const Parser::next_next_token()
{
static const Token dummy;
// If good() has not been called after the last get_token() we need
// to tokenize two more tokens.
if (pos_ + 1 >= tokens_.size()) {
tokenize_one();
tokenize_one();
}
return pos_ + 1 < tokens_.size() ? tokens_[pos_ + 1] : dummy;
}
// We return a copy here because the tokens_ vector may get reallocated
Token const Parser::get_token()
{
static const Token dummy;
//cerr << "looking at token " << tokens_[pos_] << " pos: " << pos_ << '\n';
return good() ? tokens_[pos_++] : dummy;
}
bool Parser::isParagraph()
{
// A new paragraph in TeX ist started
// - either by a newline, following any amount of whitespace
// characters (including zero), and another newline
// - or the token \par
if (curr_token().cat() == catNewline &&
(curr_token().cs().size() > 1 ||
(next_token().cat() == catSpace &&
next_next_token().cat() == catNewline)))
return true;
if (curr_token().cat() == catEscape && curr_token().cs() == "par")
return true;
return false;
}
bool Parser::skip_spaces(bool skip_comments)
{
// We just silently return if we have no more tokens.
// skip_spaces() should be callable at any time,
// the caller must check p::good() anyway.
bool skipped = false;
while (good()) {
get_token();
if (isParagraph()) {
putback();
break;
}
if (curr_token().cat() == catSpace ||
curr_token().cat() == catNewline) {
skipped = true;
continue;
}
if ((curr_token().cat() == catComment && curr_token().cs().empty()))
continue;
if (skip_comments && curr_token().cat() == catComment) {
// If positions_ is not empty we are doing some kind
// of look ahead
if (!positions_.empty())
cerr << " Ignoring comment: "
<< curr_token().asInput();
} else {
putback();
break;
}
}
return skipped;
}
void Parser::unskip_spaces(bool skip_comments)
{
while (pos_ > 0) {
if ( curr_token().cat() == catSpace ||
(curr_token().cat() == catNewline && curr_token().cs().size() == 1))
putback();
else if (skip_comments && curr_token().cat() == catComment) {
// TODO: Get rid of this
// If positions_ is not empty we are doing some kind
// of look ahead
if (!positions_.empty())
cerr << "Unignoring comment: "
<< curr_token().asInput();
putback();
}
else
break;
}
}
void Parser::putback()
{
--pos_;
}
void Parser::pushPosition()
{
positions_.push_back(pos_);
}
void Parser::popPosition()
{
pos_ = positions_.back();
positions_.pop_back();
}
bool Parser::good()
{
if (pos_ < tokens_.size())
return true;
tokenize_one();
return pos_ < tokens_.size();
}
char Parser::getChar()
{
if (!good())
error("The input stream is not well...");
return get_token().character();
}
bool Parser::hasOpt()
{
// An optional argument can occur in any of the following forms:
// - \foo[bar]
// - \foo [bar]
// - \foo
// [bar]
// - \foo %comment
// [bar]
// remember current position
unsigned int oldpos = pos_;
// skip spaces and comments
while (good()) {
get_token();
if (isParagraph()) {
putback();
break;
}
if (curr_token().cat() == catSpace ||
curr_token().cat() == catNewline ||
curr_token().cat() == catComment)
continue;
putback();
break;
}
bool const retval = (next_token().asInput() == "[");
pos_ = oldpos;
return retval;
}
Parser::Arg Parser::getFullArg(char left, char right, bool allow_escaping)
{
skip_spaces(true);
// This is needed if a partial file ends with a command without arguments,
// e. g. \medskip
if (! good())
return make_pair(false, string());
string result;
Token t = get_token();
if (t.cat() == catComment || t.cat() == catEscape ||
t.character() != left) {
putback();
return make_pair(false, string());
} else {
for (t = get_token(); good(); t = get_token()) {
// Ignore comments
if (t.cat() == catComment) {
if (!t.cs().empty())
cerr << "Ignoring comment: " << t.asInput();
continue;
}
if (allow_escaping) {
if (t.cat() != catEscape && t.character() == right)
break;
} else {
if (t.character() == right) {
if (t.cat() == catEscape)
result += '\\';
break;
}
}
result += t.asInput();
}
}
return make_pair(true, result);
}
string Parser::getArg(char left, char right, bool allow_escaping)
{
return getFullArg(left, right, allow_escaping).second;
}
string Parser::getFullOpt(bool keepws)
{
Arg arg = getFullArg('[', ']');
if (arg.first)
return '[' + arg.second + ']';
if (keepws)
unskip_spaces(true);
return string();
}
string Parser::getOpt(bool keepws)
{
string const res = getArg('[', ']');
if (res.empty()) {
if (keepws)
unskip_spaces(true);
return string();
}
return '[' + res + ']';
}
string Parser::getFullParentheseArg()
{
Arg arg = getFullArg('(', ')');
if (arg.first)
return '(' + arg.second + ')';
return string();
}
string const Parser::ertEnvironment(string const & name)
{
if (!good())
return string();
ostringstream os;
for (Token t = get_token(); good(); t = get_token()) {
if (t.cat() == catBegin) {
putback();
os << '{' << verbatim_item() << '}';
} else if (t.asInput() == "\\begin") {
string const env = getArg('{', '}');
os << "\\begin{" << env << '}'
<< ertEnvironment(env)
<< "\\end{" << env << '}';
} else if (t.asInput() == "\\end") {
string const end = getArg('{', '}');
if (end != name)
cerr << "\\end{" << end
<< "} does not match \\begin{" << name
<< "}." << endl;
return os.str();
} else
os << t.asInput();
}
cerr << "unexpected end of input" << endl;
return os.str();
}
string const Parser::plainEnvironment(string const & name)
{
if (!good())
return string();
ostringstream os;
for (Token t = get_token(); good(); t = get_token()) {
if (t.asInput() == "\\end") {
string const end = getArg('{', '}');
if (end == name)
return os.str();
else
os << "\\end{" << end << '}';
} else
os << t.asInput();
}
cerr << "unexpected end of input" << endl;
return os.str();
}
string const Parser::plainCommand(char left, char right, string const & name)
{
if (!good())
return string();
// check if first token is really the start character
Token tok = get_token();
if (tok.character() != left) {
cerr << "first character does not match start character of command \\" << name << endl;
return string();
}
ostringstream os;
for (Token t = get_token(); good(); t = get_token()) {
if (t.character() == right) {
return os.str();
} else
os << t.asInput();
}
cerr << "unexpected end of input" << endl;
return os.str();
}
string const Parser::verbatimStuff(string const & end_string)
{
if (!good())
return string();
ostringstream oss;
size_t match_index = 0;
setCatcodes(VERBATIM_CATCODES);
for (Token t = get_token(); good(); t = get_token()) {
// FIXME t.asInput() might be longer than we need ?
if (t.asInput() == end_string.substr(match_index,
t.asInput().length())) {
match_index += t.asInput().length();
if (match_index >= end_string.length())
break;
} else if (match_index) {
oss << end_string.substr(0, match_index) << t.asInput();
match_index = 0;
} else
oss << t.asInput();
}
setCatcodes(NORMAL_CATCODES);
if (!good())
cerr << "unexpected end of input" << endl;
return oss.str();
}
string const Parser::verbatimEnvironment(string const & name)
{
string s = verbatimStuff("\\end{" + name + "}");
// ignore one newline at beginning or end of string
if (prefixIs(s, "\n"))
s.erase(0,1);
if (suffixIs(s, "\n"))
s.erase(s.length() - 1,1);
return s;
}
void Parser::tokenize_one()
{
catInit();
char_type c;
if (!is_.get(c))
return;
switch (catcode(c)) {
case catSpace: {
docstring s(1, c);
while (is_.get(c) && catcode(c) == catSpace)
s += c;
if (catcode(c) != catSpace)
is_.putback(c);
push_back(Token(s, catSpace));
break;
}
case catNewline: {
++lineno_;
docstring s(1, getNewline(is_, c));
while (is_.get(c) && catcode(c) == catNewline) {
++lineno_;
s += getNewline(is_, c);
}
if (catcode(c) != catNewline)
is_.putback(c);
push_back(Token(s, catNewline));
break;
}
case catComment: {
// We don't treat "%\n" combinations here specially because
// we want to preserve them in the preamble
docstring s;
while (is_.get(c) && catcode(c) != catNewline)
s += c;
// handle possible DOS line ending
if (catcode(c) == catNewline)
c = getNewline(is_, c);
// Note: The '%' at the beginning and the '\n' at the end
// of the comment are not stored.
++lineno_;
push_back(Token(s, catComment));
break;
}
case catEscape: {
is_.get(c);
if (!is_) {
error("unexpected end of input");
} else {
docstring s(1, c);
if (catcode(c) == catLetter) {
// collect letters
while (is_.get(c) && catcode(c) == catLetter)
s += c;
if (catcode(c) != catLetter)
is_.putback(c);
}
push_back(Token(s, catEscape));
}
break;
}
case catIgnore: {
cerr << "ignoring a char: " << c << "\n";
break;
}
default:
push_back(Token(docstring(1, c), catcode(c)));
}
//cerr << tokens_.back();
}
void Parser::dump() const
{
cerr << "\nTokens: ";
for (unsigned i = 0; i < tokens_.size(); ++i) {
if (i == pos_)
cerr << " <#> ";
cerr << tokens_[i];
}
cerr << " pos: " << pos_ << "\n";
}
void Parser::error(string const & msg)
{
cerr << "Line ~" << lineno_ << ": parse error: " << msg << endl;
dump();
//exit(1);
}
string Parser::verbatimOption()
{
string res;
if (next_token().character() == '[') {
Token t = get_token();
for (t = get_token(); t.character() != ']' && good(); t = get_token()) {
if (t.cat() == catBegin) {
putback();
res += '{' + verbatim_item() + '}';
} else
res += t.cs();
}
}
return res;
}
string Parser::verbatim_item()
{
if (!good())
error("stream bad");
skip_spaces();
if (next_token().cat() == catBegin) {
Token t = get_token(); // skip brace
string res;
for (Token t = get_token(); t.cat() != catEnd && good(); t = get_token()) {
if (t.cat() == catBegin) {
putback();
res += '{' + verbatim_item() + '}';
}
else
res += t.asInput();
}
return res;
}
return get_token().asInput();
}
void Parser::reset()
{
pos_ = 0;
}
} // namespace lyx