%{ // -*- mode: c++; c-file-style: "linux"; indent-tabs-mode: t -*- /* This file is part of LilyPond, the GNU music typesetter. Copyright (C) 1996--2012 Han-Wen Nienhuys Jan Nieuwenhuizen LilyPond is free software: you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation, either version 3 of the License, or (at your option) any later version. LilyPond is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for more details. You should have received a copy of the GNU General Public License along with LilyPond. If not, see . */ /* Mode and indentation are at best a rough approximation based on TAB * formatting (reasonable for compatibility with unspecific editor * modes as Flex modes are hard to find) and need manual correction * frequently. Without a reasonably dependable way of formatting a * Flex file sensibly, there is little point in trying to fix the * inconsistent state of indentation. */ /* backup rules after making a change to the lexer rules, run flex -b and make sure that lex.backup contains no backup states, but only the reminder Compressed tables always back up. (don-t forget to rm lex.yy.cc :-) */ #include #include #include /* Flex >= 2.5.29 fix; FlexLexer.h's multiple include bracing breaks when building the actual lexer. */ #define LEXER_CC #include using namespace std; #include "context-def.hh" #include "duration.hh" #include "international.hh" #include "interval.hh" #include "lily-guile.hh" #include "lily-lexer.hh" #include "lily-parser.hh" #include "lilypond-version.hh" #include "main.hh" #include "music.hh" #include "music-function.hh" #include "parse-scm.hh" #include "parser.hh" #include "pitch.hh" #include "source-file.hh" #include "std-string.hh" #include "string-convert.hh" #include "version.hh" #include "warn.hh" /* RH 7 fix (?) */ #define isatty HORRIBLEKLUDGE void strip_trailing_white (string&); void strip_leading_white (string&); string lyric_fudge (string s); SCM lookup_markup_command (string s); SCM lookup_markup_list_command (string s); bool is_valid_version (string s); #define start_quote() do { \ yy_push_state (quote); \ yylval = SCM_EOL; \ } while (0) /* The inside of \"violin1" is marked by commandquote mode */ #define start_command_quote() do { \ yy_push_state (commandquote); \ yylval = SCM_EOL; \ } while (0) #define yylval (*lexval_) #define yylloc (*lexloc_) #define YY_USER_ACTION add_lexed_char (YYLeng ()); SCM scan_fraction (string); SCM (* scm_parse_error_handler) (void *); %} %option c++ %option noyywrap %option nodefault %option debug %option yyclass="Lily_lexer" %option stack %option never-interactive %option warn %x chords %x figures %x incl %x lyrics %x longcomment %x maininput %x markup %x notes %x quote %x commandquote %x sourcefileline %x sourcefilename %x version /* The strategy concerning multibyte characters is to accept them but * call YYText_utf8 for patterns that might contain them, in order to * get a single code path responsible for flagging non-UTF-8 input: * Patterns for accepting only valid UTF-8 without backing up are * really hard to do and complex, and if nice error messages are * wanted, one would need patterns catching the invalid input as well. * * Since editors and operating environments don't necessarily behave * reasonably in the presence of mixed encodings, we flag encoding * errors also in identifiers, comments, and strings where it would be * conceivable to just transparently work with the byte string. But * the whole point of caring about UTF-8 in here at all is too avoid * stranger errors later when input passes into backends or log files * or console output or error messages. */ A [a-zA-Z\200-\377] AA {A}|_ N [0-9] ANY_CHAR (.|\n) WORD {A}([-_]{A}|{A})* COMMAND \\{WORD} /* SPECIAL category is for every letter that needs to get passed to * the parser rather than being redefinable by the user */ SPECIAL [-+*/=<>{}!?_^'',.:] SHORTHAND (.|\\.) UNSIGNED {N}+ E_UNSIGNED \\{N}+ FRACTION {N}+\/{N}+ INT -?{UNSIGNED} REAL ({INT}\.{N}*)|(-?\.{N}+) STRICTREAL {UNSIGNED}\.{UNSIGNED} WHITE [ \n\t\f\r] HORIZONTALWHITE [ \t] BLACK [^ \n\t\f\r] RESTNAME [rs] ESCAPED [nt\\''""] EXTENDER __ HYPHEN -- BOM_UTF8 \357\273\277 %% <*>\r { // swallow and ignore carriage returns } /* Use the trailing context feature. Otherwise, the BOM will not be found if the file starts with an identifier definition. */ {BOM_UTF8}/.* { if (this->lexloc_->line_number () != 1 || this->lexloc_->column_number () != 0) { LexerWarning (_ ("stray UTF-8 BOM encountered").c_str ()); // exit (1); } debug_output (_ ("Skipping UTF-8 BOM")); } { "%{" { yy_push_state (longcomment); } %[^{\n\r][^\n\r]*[\n\r]? { (void) YYText_utf8 (); } %[\n\r]? { } {WHITE}+ { } } { \" { start_quote (); } } \\version{WHITE}* { yy_push_state (version); } \\sourcefilename{WHITE}* { yy_push_state (sourcefilename); } \\sourcefileline{WHITE}* { yy_push_state (sourcefileline); } \"[^""]*\" { /* got the version number */ string s (YYText_utf8 () + 1); s = s.substr (0, s.rfind ('\"')); yy_pop_state (); SCM top_scope = scm_car (scm_last_pair (scopes_)); scm_module_define (top_scope, ly_symbol2scm ("version-seen"), SCM_BOOL_T); if (!is_valid_version (s)) { yylval = SCM_UNSPECIFIED; return INVALID; } } \"[^""]*\" { string s (YYText_utf8 () + 1); s = s.substr (0, s.rfind ('\"')); yy_pop_state (); this->here_input().get_source_file ()->name_ = s; message (_f ("Renaming input to: `%s'", s.c_str ())); progress_indication ("\n"); scm_module_define (scm_car (scopes_), ly_symbol2scm ("input-file-name"), ly_string2scm (s)); } {INT} { int i; sscanf (YYText (), "%d", &i); yy_pop_state (); this->here_input ().get_source_file ()->set_line (here_input ().start (), i); } {ANY_CHAR} { LexerError (_ ("quoted string expected after \\version").c_str ()); yy_pop_state (); } {ANY_CHAR} { LexerError (_ ("quoted string expected after \\sourcefilename").c_str ()); yy_pop_state (); } {ANY_CHAR} { LexerError (_ ("integer expected after \\sourcefileline").c_str ()); yy_pop_state (); } { [^\%]* { (void) YYText_utf8 (); } \%*[^}%]* { (void) YYText_utf8 (); } "%"+"}" { yy_pop_state (); } } \\maininput { if (!is_main_input_) { start_main_input (); main_input_level_ = include_stack_.size (); is_main_input_ = true; int state = YYSTATE; yy_push_state (maininput); yy_push_state (state); } else LexerError (_ ("\\maininput not allowed outside init files").c_str ()); } \\include { yy_push_state (incl); } \"[^""]*\" { /* got the include file name */ string s (YYText_utf8 ()+1); s = s.substr (0, s.rfind ('"')); new_input (s, sources_); yy_pop_state (); } \\{BLACK}*{WHITE}? { /* got the include identifier */ string s = YYText_utf8 () + 1; strip_trailing_white (s); if (s.length () && (s[s.length () - 1] == ';')) s = s.substr (0, s.length () - 1); SCM sid = lookup_identifier (s); if (scm_is_string (sid)) { new_input (ly_scm2string (sid), sources_); yy_pop_state (); } else { string msg (_f ("wrong or undefined identifier: `%s'", s )); LexerError (msg.c_str ()); SCM err = scm_current_error_port (); scm_puts ("This value was found in the table: ", err); scm_display (sid, err); } } (\$|#) { // scm for the filename int n = 0; Input hi = here_input(); hi.step_forward (); SCM sval = ly_parse_scm (hi.start (), &n, hi, be_safe_global && is_main_input_, parser_); sval = eval_scm (sval); for (int i = 0; i < n; i++) { yyinput (); } char_count_stack_.back () += n; if (scm_is_string (sval)) { new_input (ly_scm2string (sval), sources_); yy_pop_state (); } else { LexerError (_ ("string expected after \\include").c_str ()); if (sval != SCM_UNDEFINED) { SCM err = scm_current_error_port (); scm_puts ("This value was found instead: ", err); scm_display (sval, err); } } } \"[^""]* { // backup rule LexerError (_ ("end quote missing").c_str ()); yy_pop_state (); } /* Flex picks the longest matching pattern including trailing * contexts. Without the backup pattern, r-. does not trigger the * {RESTNAME} rule but rather the {WORD}/[-_] rule coming later, * needed for avoiding backup states. */ {RESTNAME}/[-_] | // pseudo backup rule {RESTNAME} { char const *s = YYText (); yylval = scm_from_locale_string (s); return RESTNAME; } q/[-_] | // pseudo backup rule q { yylval = SCM_UNSPECIFIED; return CHORD_REPETITION; } R/[-_] | // pseudo backup rule R { yylval = SCM_UNSPECIFIED; return MULTI_MEASURE_REST; } # { //embedded scm int n = 0; Input hi = here_input(); hi.step_forward (); SCM sval = ly_parse_scm (hi.start (), &n, hi, be_safe_global && is_main_input_, parser_); if (sval == SCM_UNDEFINED) error_level_ = 1; for (int i = 0; i < n; i++) { yyinput (); } char_count_stack_.back () += n; yylval = sval; return SCM_TOKEN; } \$ { //immediate scm int n = 0; Input hi = here_input(); hi.step_forward (); SCM sval = ly_parse_scm (hi.start (), &n, hi, be_safe_global && is_main_input_, parser_); for (int i = 0; i < n; i++) { yyinput (); } char_count_stack_.back () += n; sval = eval_scm (sval, '$'); int token = scan_scm_id (sval); if (!scm_is_eq (yylval, SCM_UNSPECIFIED)) return token; } { \<\< { yylval = SCM_UNSPECIFIED; return DOUBLE_ANGLE_OPEN; } \>\> { yylval = SCM_UNSPECIFIED; return DOUBLE_ANGLE_CLOSE; } } { \< { yylval = SCM_UNSPECIFIED; return ANGLE_OPEN; } \> { yylval = SCM_UNSPECIFIED; return ANGLE_CLOSE; } } { _ { yylval = SCM_UNSPECIFIED; return FIGURE_SPACE; } \> { yylval = SCM_UNSPECIFIED; return FIGURE_CLOSE; } \< { yylval = SCM_UNSPECIFIED; return FIGURE_OPEN; } \\\+ { yylval = SCM_UNSPECIFIED; return E_PLUS; } \\! { yylval = SCM_UNSPECIFIED; return E_EXCLAMATION; } \\\\ { yylval = SCM_UNSPECIFIED; return E_BACKSLASH; } [][] { yylval = SCM_UNSPECIFIED; return YYText ()[0]; } } { {WORD}/[-_] | // backup rule {WORD} { return scan_bare_word (YYText_utf8 ()); } \\\" { start_command_quote (); } {COMMAND}/[-_] | // backup rule {COMMAND} { return scan_escaped_word (YYText_utf8 () + 1); } {FRACTION} { yylval = scan_fraction (YYText ()); return FRACTION; } {STRICTREAL} { yylval = scm_c_read_string (YYText ()); return REAL; } {UNSIGNED}/[/.] | // backup rule {UNSIGNED} { yylval = scm_c_read_string (YYText ()); return UNSIGNED; } {E_UNSIGNED} { yylval = scm_c_read_string (YYText () + 1); return E_UNSIGNED; } } { \\{ESCAPED} { char c = escaped_char (YYText ()[1]); yylval = scm_cons (scm_from_locale_stringn (&c, 1), yylval); } [^\\""]+ { yylval = scm_cons (scm_from_locale_string (YYText_utf8 ()), yylval); } \" { /* yylval is union. Must remember STRING before setting SCM*/ yylval = scm_string_concatenate_reverse (yylval, SCM_UNDEFINED, SCM_UNDEFINED); if (get_state () == commandquote) { yy_pop_state (); return scan_escaped_word (ly_scm2string (yylval)); } yy_pop_state (); return STRING; } \\ { yylval = scm_cons (scm_from_locale_string (YYText ()), yylval); } } { \" { start_quote (); } {FRACTION} { yylval = scan_fraction (YYText ()); return FRACTION; } {STRICTREAL} { yylval = scm_c_read_string (YYText ()); return REAL; } {UNSIGNED}/[/.] | // backup rule {UNSIGNED} { yylval = scm_c_read_string (YYText ()); return UNSIGNED; } \\\" { start_command_quote (); } {COMMAND}/[-_] | // backup rule {COMMAND} { return scan_escaped_word (YYText_utf8 () + 1); } \\.|\| { // UTF-8 already covered by COMMAND return scan_shorthand (YYText ()); } /* Characters needed to express durations, assignments */ [*.=] { yylval = SCM_UNSPECIFIED; return YYText ()[0]; } [^|*.=$#{}\"\\ \t\n\r\f0-9][^$#{}\"\\ \t\n\r\f0-9]* { /* ugr. This sux. */ string s (YYText_utf8 ()); yylval = SCM_UNSPECIFIED; if (s == "__") return EXTENDER; if (s == "--") return HYPHEN; s = lyric_fudge (s); yylval = ly_string2scm (s); return STRING; } /* This should really just cover {} */ [{}] { yylval = SCM_UNSPECIFIED; return YYText ()[0]; } } { {WORD}/[-_] | // backup rule {WORD} { return scan_bare_word (YYText_utf8 ()); } \\\" { start_command_quote (); } {COMMAND}/[-_] | // backup rule {COMMAND} { return scan_escaped_word (YYText_utf8 () + 1); } {FRACTION} { yylval = scan_fraction (YYText ()); return FRACTION; } {UNSIGNED}/\/ | // backup rule {UNSIGNED} { yylval = scm_c_read_string (YYText ()); return UNSIGNED; } - { yylval = SCM_UNSPECIFIED; return CHORD_MINUS; } : { yylval = SCM_UNSPECIFIED; return CHORD_COLON; } \/\+ { yylval = SCM_UNSPECIFIED; return CHORD_BASS; } \/ { yylval = SCM_UNSPECIFIED; return CHORD_SLASH; } \^ { yylval = SCM_UNSPECIFIED; return CHORD_CARET; } } { \\score { yylval = SCM_UNSPECIFIED; return SCORE; } \\score-lines { yylval = SCM_UNSPECIFIED; return SCORELINES; } \\\" { start_command_quote (); } {COMMAND}/[-_] | // backup rule {COMMAND} { string str (YYText_utf8 () + 1); int token_type = MARKUP_FUNCTION; SCM s = lookup_markup_command (str); // lookup-markup-command returns a pair with the car // being the function to call, and the cdr being the // call signature specified to define-markup-command, // a list of predicates. if (!scm_is_pair (s)) { // If lookup-markup-command was not successful, we // try lookup-markup-list-command instead. // If this fails as well, we just scan and return // the escaped word. s = lookup_markup_list_command (str); if (scm_is_pair (s)) token_type = MARKUP_LIST_FUNCTION; else return scan_escaped_word (str); } // If the list of predicates is, say, // (number? number? markup?), then tokens // EXPECT_MARKUP EXPECT_SCM EXPECT_SCM EXPECT_NO_MORE_ARGS // will be generated. Note that we have to push them // in reverse order, so the first token pushed in the // loop will be EXPECT_NO_MORE_ARGS. yylval = scm_car(s); // yylval now contains the function to call as token // value (for token type MARKUP_FUNCTION or // MARKUP_LIST_FUNCTION). push_extra_token (here_input (), EXPECT_NO_MORE_ARGS); s = scm_cdr(s); for (; scm_is_pair(s); s = scm_cdr(s)) { SCM predicate = scm_car(s); if (predicate == ly_lily_module_constant ("markup-list?")) push_extra_token (here_input (), EXPECT_MARKUP_LIST); else if (predicate == ly_lily_module_constant ("markup?")) push_extra_token (here_input (), EXPECT_MARKUP); else push_extra_token (here_input (), EXPECT_SCM, predicate); } return token_type; } [^$#{}\"\\ \t\n\r\f]+ { string s (YYText_utf8 ()); yylval = ly_string2scm (s); return STRING; } [{}] { yylval = SCM_UNSPECIFIED; return YYText ()[0]; } } <> { LexerError (_ ("EOF found inside a comment").c_str ()); yy_pop_state (); } <> { LexerError (_ ("EOF found inside string").c_str ()); yy_pop_state (); } <> { yylval = SCM_UNSPECIFIED; if (is_main_input_) { is_main_input_ = include_stack_.size () > main_input_level_; if (!is_main_input_) { main_input_level_ = 0; pop_state (); if (YYSTATE != maininput) { LexerError (_ ("Unfinished main input").c_str ()); do { yy_pop_state (); } while (YYSTATE != maininput); } extra_tokens_ = SCM_EOL; yy_pop_state (); } if (!close_input () || !is_main_input_) /* Returns YY_NULL */ yyterminate (); } else if (!close_input ()) /* Returns YY_NULL */ yyterminate (); } {ANY_CHAR} { while (include_stack_.size () > main_input_level_ && close_input ()) ; yyterminate (); } { {WORD}/[-_] | // backup rule {WORD} { return scan_bare_word (YYText_utf8 ()); } \\\" { start_command_quote (); } {COMMAND}/[-_] | // backup rule {COMMAND} { return scan_escaped_word (YYText_utf8 () + 1); } } {FRACTION} { yylval = scan_fraction (YYText ()); return FRACTION; } -{UNSIGNED} | // backup rule {REAL} { yylval = scm_c_read_string (YYText ()); return REAL; } {UNSIGNED}/\/ | // backup rule {UNSIGNED} { yylval = scm_c_read_string (YYText ()); return UNSIGNED; } -/\. { // backup rule yylval = SCM_UNSPECIFIED; return YYText ()[0]; } {SPECIAL} { yylval = SCM_UNSPECIFIED; return YYText ()[0]; } {SHORTHAND} { return scan_shorthand (YYText_utf8 ()); // should not be utf-8 } <*>.[\200-\277]* { string msg = _f ("invalid character: `%s'", YYText_utf8 ()); LexerError (msg.c_str ()); yylval = SCM_UNSPECIFIED; return '%'; // Better not return half a utf8 character. } %% /* Make the lexer generate a token of the given type as the next token. TODO: make it possible to define a value for the token as well */ void Lily_lexer::push_extra_token (Input const &where, int token_type, SCM scm) { extra_tokens_ = scm_cons (scm_cons2 (make_input (where), scm_from_int (token_type), scm), extra_tokens_); } int Lily_lexer::pop_extra_token () { if (scm_is_null (extra_tokens_)) return -1; /* produce requested token */ yylloc = *unsmob_input (scm_caar (extra_tokens_)); int type = scm_to_int (scm_cadar (extra_tokens_)); yylval = scm_cddar (extra_tokens_); extra_tokens_ = scm_cdr (extra_tokens_); return type; } void Lily_lexer::push_chord_state (SCM alist) { SCM p = scm_assq (alist, pitchname_tab_stack_); if (scm_is_false (p)) p = scm_cons (alist, alist_to_hashq (alist)); pitchname_tab_stack_ = scm_cons (p, pitchname_tab_stack_); yy_push_state (chords); } void Lily_lexer::push_figuredbass_state () { yy_push_state (figures); } void Lily_lexer::push_initial_state () { yy_push_state (INITIAL); } void Lily_lexer::push_lyric_state () { yy_push_state (lyrics); } void Lily_lexer::push_markup_state () { yy_push_state (markup); } void Lily_lexer::push_note_state (SCM alist) { SCM p = scm_assq (alist, pitchname_tab_stack_); if (scm_is_false (p)) p = scm_cons (alist, alist_to_hashq (alist)); pitchname_tab_stack_ = scm_cons (p, pitchname_tab_stack_); yy_push_state (notes); } void Lily_lexer::pop_state () { if (YYSTATE == notes || YYSTATE == chords) pitchname_tab_stack_ = scm_cdr (pitchname_tab_stack_); // don't cross the maininput threshold if (YYSTATE != maininput) yy_pop_state (); } int Lily_lexer::identifier_type (SCM sid) { int k = try_special_identifiers (&yylval , sid); return k >= 0 ? k : SCM_IDENTIFIER; } int Lily_lexer::scan_escaped_word (const string &str) { // use more SCM for this. // SCM sym = ly_symbol2scm (str.c_str ()); yylval = SCM_UNSPECIFIED; int i = lookup_keyword (str); if (i != -1) return i; SCM sid = lookup_identifier (str); if (Music *m = unsmob_music (sid)) { m->set_spot (override_input (here_input ())); } if (sid != SCM_UNDEFINED) return scan_scm_id (sid); string msg (_f ("unknown escaped string: `\\%s'", str)); LexerError (msg.c_str ()); yylval = ly_string2scm (str); return STRING; } int Lily_lexer::scan_shorthand (const string &str) { SCM sid = lookup_identifier (str); if (Music *m = unsmob_music (sid)) { m->set_spot (override_input (here_input ())); } if (sid != SCM_UNDEFINED) return scan_scm_id (sid); string msg (_f ("undefined character or shorthand: %s", str)); LexerError (msg.c_str ()); yylval = ly_string2scm (str); return STRING; } int Lily_lexer::scan_scm_id (SCM sid) { if (is_music_function (sid)) { int funtype = SCM_FUNCTION; yylval = sid; SCM s = get_music_function_signature (sid); SCM cs = scm_car (s); if (scm_is_pair (cs)) { cs = SCM_CAR (cs); } if (scm_is_eq (cs, ly_lily_module_constant ("ly:music?"))) funtype = MUSIC_FUNCTION; else if (scm_is_eq (cs, ly_lily_module_constant ("ly:event?"))) funtype = EVENT_FUNCTION; else if (ly_is_procedure (cs)) funtype = SCM_FUNCTION; else programming_error ("Bad syntax function predicate"); push_extra_token (here_input (), EXPECT_NO_MORE_ARGS); for (s = scm_cdr (s); scm_is_pair (s); s = scm_cdr (s)) { SCM optional = SCM_UNDEFINED; cs = scm_car (s); if (scm_is_pair (cs)) { optional = SCM_CDR (cs); cs = SCM_CAR (cs); } if (ly_is_procedure (cs)) push_extra_token (here_input (), EXPECT_SCM, cs); else { programming_error ("Function parameter without type-checking predicate"); continue; } if (!scm_is_eq (optional, SCM_UNDEFINED)) push_extra_token (here_input (), EXPECT_OPTIONAL, optional); } return funtype; } yylval = sid; return identifier_type (sid); } int Lily_lexer::scan_bare_word (const string &str) { SCM sym = ly_symbol2scm (str.c_str ()); if ((YYSTATE == notes) || (YYSTATE == chords)) { SCM handle = SCM_BOOL_F; if (scm_is_pair (pitchname_tab_stack_)) handle = scm_hashq_get_handle (scm_cdar (pitchname_tab_stack_), sym); if (scm_is_pair (handle)) { yylval = scm_cdr (handle); if (unsmob_pitch (yylval)) return (YYSTATE == notes) ? NOTENAME_PITCH : TONICNAME_PITCH; else if (scm_is_symbol (yylval)) return DRUM_PITCH; } else if ((YYSTATE == chords) && (handle = scm_hashq_get_handle (chordmodifier_tab_, sym))!= SCM_BOOL_F) { yylval = scm_cdr (handle); return CHORD_MODIFIER; } } yylval = ly_string2scm (str); return STRING; } int Lily_lexer::get_state () const { return YY_START; } bool Lily_lexer::is_note_state () const { return get_state () == notes; } bool Lily_lexer::is_chord_state () const { return get_state () == chords; } bool Lily_lexer::is_lyric_state () const { return get_state () == lyrics; } bool Lily_lexer::is_figure_state () const { return get_state () == figures; } // The extra_token parameter specifies how to convert multiple values // into additional tokens. For '#', additional values get pushed as // SCM_IDENTIFIER. For '$', they get checked for their type and get // pushed as a corresponding *_IDENTIFIER token. Since the latter // tampers with yylval, it can only be done from the lexer itself, so // this function is private. SCM Lily_lexer::eval_scm (SCM readerdata, char extra_token) { SCM sval = SCM_UNDEFINED; if (!SCM_UNBNDP (readerdata)) { sval = ly_eval_scm (scm_car (readerdata), *unsmob_input (scm_cdr (readerdata)), be_safe_global && is_main_input_, parser_); } if (SCM_UNBNDP (sval)) { error_level_ = 1; return SCM_UNSPECIFIED; } if (extra_token && SCM_VALUESP (sval)) { sval = scm_struct_ref (sval, SCM_INUM0); if (scm_is_pair (sval)) { for (SCM p = scm_reverse (scm_cdr (sval)); scm_is_pair (p); p = scm_cdr (p)) { SCM v = scm_car (p); if (Music *m = unsmob_music (v)) { if (!unsmob_input (m->get_property ("origin"))) m->set_spot (override_input (here_input ())); } int token; switch (extra_token) { case '$': token = scan_scm_id (v); if (!scm_is_eq (yylval, SCM_UNSPECIFIED)) push_extra_token (here_input (), token, yylval); break; case '#': push_extra_token (here_input (), SCM_IDENTIFIER, v); break; } } sval = scm_car (sval); } else sval = SCM_UNSPECIFIED; } if (Music *m = unsmob_music (sval)) { if (!unsmob_input (m->get_property ("origin"))) m->set_spot (override_input (here_input ())); } return sval; } /* Check for valid UTF-8 that has no overlong or surrogate codes and is in the range 0-0x10ffff */ const char * Lily_lexer::YYText_utf8 () { const char * const p = YYText (); for (int i=0; p[i];) { if ((p[i] & 0xff) < 0x80) { ++i; continue; } int oldi = i; // start of character int more = 0; // # of followup bytes, 0 if bad switch (p[i++] & 0xff) { // 0xc0 and 0xc1 are overlong prefixes for // 0x00-0x3f and 0x40-0x7f respectively, bad. case 0xc2: // 0x80-0xbf case 0xc3: // 0xc0-0xff case 0xc4: // 0x100-0x13f case 0xc5: // 0x140-0x17f case 0xc6: // 0x180-0x1bf case 0xc7: // 0x1c0-0x1ff case 0xc8: // 0x200-0x23f case 0xc9: // 0x240-0x27f case 0xca: // 0x280-0x2bf case 0xcb: // 0x2c0-0x2ff case 0xcc: // 0x300-0x33f case 0xcd: // 0x340-0x37f case 0xce: // 0x380-0x3bf case 0xcf: // 0x3c0-0x3ff case 0xd0: // 0x400-0x43f case 0xd1: // 0x440-0x47f case 0xd2: // 0x480-0x4bf case 0xd3: // 0x4c0-0x4ff case 0xd4: // 0x500-0x53f case 0xd5: // 0x540-0x57f case 0xd6: // 0x580-0x5bf case 0xd7: // 0x5c0-0x5ff case 0xd8: // 0x600-0x63f case 0xd9: // 0x640-0x67f case 0xda: // 0x680-0x6bf case 0xdb: // 0x6c0-0x6ff case 0xdc: // 0x700-0x73f case 0xdd: // 0x740-0x77f case 0xde: // 0x780-0x7bf case 0xdf: // 0x7c0-0x7ff more = 1; // 2-byte sequences, 0x80-0x7ff break; case 0xe0: // don't allow overlong sequences for 0-0x7ff if ((p[i] & 0xff) < 0xa0) break; case 0xe1: // 0x1000-0x1fff case 0xe2: // 0x2000-0x2fff case 0xe3: // 0x3000-0x3fff case 0xe4: // 0x4000-0x4fff case 0xe5: // 0x5000-0x5fff case 0xe6: // 0x6000-0x6fff case 0xe7: // 0x7000-0x7fff case 0xe8: // 0x8000-0x8fff case 0xe9: // 0x9000-0x9fff case 0xea: // 0xa000-0xafff case 0xeb: // 0xb000-0xbfff case 0xec: // 0xc000-0xcfff more = 2; // 3-byte sequences, 0x7ff-0xcfff break; case 0xed: // 0xd000-0xdfff // Don't allow surrogate codes 0xd800-0xdfff if ((p[i] & 0xff) >= 0xa0) break; case 0xee: // 0xe000-0xefff case 0xef: // 0xf000-0xffff more = 2; // 3-byte sequences, // 0xd000-0xd7ff, 0xe000-0xffff break; case 0xf0: // don't allow overlong sequences for 0-0xffff if ((p[i] & 0xff) < 0x90) break; case 0xf1: // 0x40000-0x7ffff case 0xf2: // 0x80000-0xbffff case 0xf3: // 0xc0000-0xfffff more = 3; // 4-byte sequences, 0x10000-0xfffff break; case 0xf4: // don't allow more than 0x10ffff if ((p[i] & 0xff) >= 0x90) break; more = 3; // 4-byte sequence, 0x100000-0x10ffff break; } if (more) { // check that all continuation bytes are valid do { if ((p[i++] & 0xc0) != 0x80) break; } while (--more); if (!more) continue; } Input h = here_input (); h.set (h.get_source_file (), h.start () + oldi, h.start () + i); h.warning (_ ("non-UTF-8 input").c_str ()); } return p; } /* urg, belong to string (_convert) and should be generalised */ void strip_leading_white (string&s) { ssize i = 0; for (; i < s.length (); i++) if (!isspace (s[i])) break; s = s.substr (i); } void strip_trailing_white (string&s) { ssize i = s.length (); while (i--) if (!isspace (s[i])) break; s = s.substr (0, i + 1); } Lilypond_version oldest_version ("2.7.38"); bool is_valid_version (string s) { Lilypond_version current ( MAJOR_VERSION "." MINOR_VERSION "." PATCH_LEVEL ); Lilypond_version ver (s); if (int (ver) < oldest_version) { non_fatal_error (_f ("file too old: %s (oldest supported: %s)", ver.to_string (), oldest_version.to_string ())); non_fatal_error (_ ("consider updating the input with the convert-ly script")); return false; } if (ver > current) { non_fatal_error (_f ("program too old: %s (file requires: %s)", current.to_string (), ver.to_string ())); return false; } return true; } /* substitute _ */ string lyric_fudge (string s) { size_t i=0; while ((i = s.find ('_', i)) != string::npos) { s[i++] = ' '; } return s; } /* Convert "NUM/DEN" into a '(NUM . DEN) cons. */ SCM scan_fraction (string frac) { ssize i = frac.find ('/'); string left = frac.substr (0, i); string right = frac.substr (i + 1, (frac.length () - i + 1)); int n = String_convert::dec2int (left); int d = String_convert::dec2int (right); return scm_cons (scm_from_int (n), scm_from_int (d)); } SCM lookup_markup_command (string s) { SCM proc = ly_lily_module_constant ("lookup-markup-command"); return scm_call_1 (proc, ly_string2scm (s)); } SCM lookup_markup_list_command (string s) { SCM proc = ly_lily_module_constant ("lookup-markup-list-command"); return scm_call_1 (proc, ly_string2scm (s)); } /* Shut up lexer warnings. */ #if YY_STACK_USED static void yy_push_state (int) { } static void yy_pop_state () { } static int yy_top_state () { return 0; } static void silence_lexer_warnings () { (void) yy_start_stack_ptr; (void) yy_start_stack_depth; (void) yy_start_stack; (void) yy_push_state; (void) yy_pop_state; (void) yy_top_state; (void) silence_lexer_warnings; } #endif