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|
%{
/* pl.l: Lexical analysis of property list files.
This file is part of Omega,
which is based on the web2c distribution of TeX,
Copyright (c) 1994--2001 John Plaice and Yannis Haralambous
Copyright (c) 2002 Roozbeh Pournader
Omega 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 2 of the License, or
(at your option) any later version.
Omega 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 Omega; if not, write to the Free Software Foundation, Inc.,
59 Temple Place, Suite 330, Boston, MA 02111-1307, USA.
*/
#include <string.h>
#ifdef WIN32
#include <win32lib.h>
#endif
#include "parser.h"
#include "kpathsea/types.h"
#include "y_tab.h"
#include "manifests.h"
#include "error_routines.h"
#ifdef __cplusplus
#define yyinput input
#endif
int line_number = 1;
extern YYSTYPE yylval;
/* POTENTIAL BUG: saved_text could be run over; should check */
#define MAX_PTR 10000
char saved_text[MAX_PTR];
extern void scan_int(unsigned);
extern void scan_char(void);
extern void scan_fix(void);
extern void scan_string(char *, unsigned, unsigned);
extern void scan_hex_string();
/* from kpathsea, but avoid including kpathsea header files */
extern char *xstrdup (const char *);
#define KEEP_MIN 0
#define KEEP_NONE 0
#define KEEP_ALL 1
#define KEEP_CONVERT 2
#define KEEP_MAX 2
#define BASE_MIN 2
#define BASE_MAX 16
%}
/* For Solaris's lex, to increase tables sizes --RP */
/* Space before number keeps ancient flex happy. */
%e 4000
%p 7000
%n 1000
ws [ \t]+
hexnumber H{ws}[A-F0-9]+
octnumber O{ws}[0-7]+
decnumber D{ws}[0-9]+
realnumber R[ \t+-]+[0-9]*("."[0-9]*){0,1}
charnumber C{ws}.
hexstring ([A-F0-9][A-F0-9])*
%%
{ws} {}
\n {line_number++; }
"(" return(LEFT);
")" return(RIGHT);
{octnumber} {scan_int(8); return(NUMBER); }
{decnumber} {scan_int(10); return(NUMBER); }
{hexnumber} {scan_int(16); return(NUMBER); }
{charnumber} {scan_char(); return(NUMBER); }
{realnumber} {scan_fix(); return(FIX); }
CODINGSCHEME {scan_string("CODINGSCHEME", KEEP_CONVERT, LEN_CODING_SCHEME);
return(CODINGSCHEME); }
FAMILY {scan_string("FAMILY", KEEP_CONVERT, LEN_FAMILY);
return(FAMILY); }
VTITLE {scan_string("VTITLE", KEEP_ALL, LEN_VTITLE);
return(VTITLE); }
FONTNAME {scan_string("FONTNAME", KEEP_ALL, LEN_FONT_NAME);
return(FONTNAME); }
FONTAREA {scan_string("FONTAREA", KEEP_ALL, LEN_FONT_AREA);
return(FONTAREA); }
SPECIAL {scan_string("SPECIAL", KEEP_ALL, 0);
return(SPECIAL); }
COMMENT {scan_string("COMMENT", KEEP_NONE, 0);
return(COMMENT); }
SPECIALHEX{ws}{hexstring} {scan_hex_string(); return(SPECIALHEX); }
SEVENBITSAFEFLAG{ws}TRUE {yylval.yint=1; return(SEVENBITSAFEFLAG); }
SEVENBITSAFEFLAG{ws}FALSE {yylval.yint=0; return(SEVENBITSAFEFLAG); }
CHECKSUM return(CHECKSUM);
DESIGNSIZE return(DESIGNSIZE);
DESIGNUNITS return(DESIGNUNITS);
FACE return(FACE);
HEADER return(HEADER);
BOUNDARYCHAR return(BOUNDARYCHAR);
FONTDIMEN return(FONTDIMEN);
LIGTABLE return(LIGTABLE);
CHARACTER return(CHARACTER);
PARAMETER return(PARAMETER);
LABEL return(LABEL);
KRN return(KRN);
STOP return(STOP);
SKIP return(SKIP);
NEXTLARGER return(NEXTLARGER);
VARCHAR return(VARCHAR);
CHARWD {yylval.yint = C_WD; return(CHARMEASURE); }
CHARHT {yylval.yint = C_HT; return(CHARMEASURE); }
CHARDP {yylval.yint = C_DP; return(CHARMEASURE); }
CHARIC {yylval.yint = C_IC; return(CHARMEASURE); }
TOP {yylval.yint = E_TOP; return(EXTEN); }
MID {yylval.yint = E_MID; return(EXTEN); }
BOT {yylval.yint = E_BOT; return(EXTEN); }
REP {yylval.yint = E_REP; return(EXTEN); }
LIG {yylval.yint = L_0; return(LIG); }
"LIG/" {yylval.yint = L_B; return(LIG); }
"/LIG" {yylval.yint = L_A; return(LIG); }
"/LIG/" {yylval.yint = L_AB; return(LIG); }
"LIG/>" {yylval.yint = L_Bx; return(LIG); }
"/LIG>" {yylval.yint = L_Ax; return(LIG); }
"/LIG/>" {yylval.yint = L_ABx; return(LIG); }
"/LIG/>>" {yylval.yint = L_ABxx; return(LIG); }
F{ws}MRR {yylval.yint = F_MRR; return(NUMBER); }
F{ws}MIR {yylval.yint = F_MIR; return(NUMBER); }
F{ws}BRR {yylval.yint = F_BRR; return(NUMBER); }
F{ws}BIR {yylval.yint = F_BIR; return(NUMBER); }
F{ws}LRR {yylval.yint = F_LRR; return(NUMBER); }
F{ws}LIR {yylval.yint = F_LIR; return(NUMBER); }
F{ws}MRC {yylval.yint = F_MRC; return(NUMBER); }
F{ws}MIC {yylval.yint = F_MIC; return(NUMBER); }
F{ws}BRC {yylval.yint = F_BRC; return(NUMBER); }
F{ws}BIC {yylval.yint = F_BIC; return(NUMBER); }
F{ws}LRC {yylval.yint = F_LRC; return(NUMBER); }
F{ws}LIC {yylval.yint = F_LIC; return(NUMBER); }
F{ws}MRE {yylval.yint = F_MRE; return(NUMBER); }
F{ws}MIE {yylval.yint = F_MIE; return(NUMBER); }
F{ws}BRE {yylval.yint = F_BRE; return(NUMBER); }
F{ws}BIE {yylval.yint = F_BIE; return(NUMBER); }
F{ws}LRE {yylval.yint = F_LRE; return(NUMBER); }
F{ws}LIE {yylval.yint = F_LIE; return(NUMBER); }
SLANT {yylval.yint = P_SLANT; return(NAMEDPARAMETER); }
SPACE {yylval.yint = P_SPACE; return(NAMEDPARAMETER); }
STRETCH {yylval.yint = P_STRETCH; return(NAMEDPARAMETER); }
SHRINK {yylval.yint = P_SHRINK; return(NAMEDPARAMETER); }
XHEIGHT {yylval.yint = P_XHEIGHT; return(NAMEDPARAMETER); }
QUAD {yylval.yint = P_QUAD; return(NAMEDPARAMETER); }
EXTRASPACE {yylval.yint = P_EXTRASPACE; return(NAMEDPARAMETER); }
NUM1 {yylval.yint = P_NUM1; return(NAMEDPARAMETER); }
NUM2 {yylval.yint = P_NUM2; return(NAMEDPARAMETER); }
NUM3 {yylval.yint = P_NUM3; return(NAMEDPARAMETER); }
DENOM1 {yylval.yint = P_DENOM1; return(NAMEDPARAMETER); }
DENOM2 {yylval.yint = P_DENOM2; return(NAMEDPARAMETER); }
SUP1 {yylval.yint = P_SUP1; return(NAMEDPARAMETER); }
SUP2 {yylval.yint = P_SUP2; return(NAMEDPARAMETER); }
SUP3 {yylval.yint = P_SUP3; return(NAMEDPARAMETER); }
SUB1 {yylval.yint = P_SUB1; return(NAMEDPARAMETER); }
SUB2 {yylval.yint = P_SUB2; return(NAMEDPARAMETER); }
SUPDROP {yylval.yint = P_SUPDROP; return(NAMEDPARAMETER); }
SUBDROP {yylval.yint = P_SUBDROP; return(NAMEDPARAMETER); }
DELIM1 {yylval.yint = P_DELIM1; return(NAMEDPARAMETER); }
DELIM2 {yylval.yint = P_DELIM2; return(NAMEDPARAMETER); }
AXISHEIGHT {yylval.yint = P_AXISHEIGHT; return(NAMEDPARAMETER); }
DEFAULTRULETHICKNESS {yylval.yint = P_DEFAULTRULETHICKNESS;
return(NAMEDPARAMETER); }
BIGOPSPACING1 {yylval.yint = P_BIGOPSPACING1; return(NAMEDPARAMETER); }
BIGOPSPACING2 {yylval.yint = P_BIGOPSPACING2; return(NAMEDPARAMETER); }
BIGOPSPACING3 {yylval.yint = P_BIGOPSPACING3; return(NAMEDPARAMETER); }
BIGOPSPACING4 {yylval.yint = P_BIGOPSPACING4; return(NAMEDPARAMETER); }
BIGOPSPACING5 {yylval.yint = P_BIGOPSPACING5; return(NAMEDPARAMETER); }
MAPFONT {return(MAPFONT); }
FONTCHECKSUM {return(FONTCHECKSUM); }
FONTAT {return(FONTAT); }
FONTDSIZE {return(FONTDSIZE); }
MAP {return(MAP); }
SELECTFONT {return(SELECTFONT); }
SETCHAR {return(SETCHAR); }
SETRULE {return(SETRULE); }
PUSH {return(PUSH); }
POP {return(POP); }
MOVERIGHT {yylval.yint = M_RIGHT; return(MOVE); }
MOVELEFT {yylval.yint = M_LEFT; return(MOVE); }
MOVEUP {yylval.yint = M_UP; return(MOVE); }
MOVEDOWN {yylval.yint = M_DOWN; return(MOVE); }
OFMLEVEL return(OFMLEVEL);
TOPACCENT {yylval.yint = ACC_TOP; return(ACCENT); }
MIDACCENT {yylval.yint = ACC_MID; return(ACCENT); }
BOTACCENT {yylval.yint = ACC_BOT; return(ACCENT); }
FONTDIR{ws}TL {yylval.yint = DIR_ORD+DIR_TL; return(FONTDIR);}
FONTDIR{ws}LT {yylval.yint = DIR_ORD+DIR_LT; return(FONTDIR);}
FONTDIR{ws}TR {yylval.yint = DIR_ORD+DIR_TR; return(FONTDIR);}
FONTDIR{ws}LB {yylval.yint = DIR_ORD+DIR_LB; return(FONTDIR);}
FONTDIR{ws}BL {yylval.yint = DIR_ORD+DIR_BL; return(FONTDIR);}
FONTDIR{ws}RT {yylval.yint = DIR_ORD+DIR_RT; return(FONTDIR);}
FONTDIR{ws}BR {yylval.yint = DIR_ORD+DIR_BR; return(FONTDIR);}
FONTDIR{ws}RB {yylval.yint = DIR_ORD+DIR_RB; return(FONTDIR);}
NATURALFONTDIR{ws}TL {yylval.yint = DIR_NAT+DIR_TL; return(FONTDIR);}
NATURALFONTDIR{ws}LT {yylval.yint = DIR_NAT+DIR_LT; return(FONTDIR);}
NATURALFONTDIR{ws}TR {yylval.yint = DIR_NAT+DIR_TR; return(FONTDIR);}
NATURALFONTDIR{ws}LB {yylval.yint = DIR_NAT+DIR_LB; return(FONTDIR);}
NATURALFONTDIR{ws}BL {yylval.yint = DIR_NAT+DIR_BL; return(FONTDIR);}
NATURALFONTDIR{ws}RT {yylval.yint = DIR_NAT+DIR_RT; return(FONTDIR);}
NATURALFONTDIR{ws}BR {yylval.yint = DIR_NAT+DIR_BR; return(FONTDIR);}
NATURALFONTDIR{ws}RB {yylval.yint = DIR_NAT+DIR_RB; return(FONTDIR);}
FONTIVALUE return(FONTIVALUE);
FONTFVALUE return(FONTFVALUE);
FONTMVALUE return(FONTMVALUE);
FONTPENALTY return(FONTPENALTY);
FONTRULE return(FONTRULE);
FONTGLUE return(FONTGLUE);
IVALUE return(IVALUE);
FVALUE return(FVALUE);
MVALUE return(MVALUE);
PENALTY return(PENALTY);
RULE return(RULE);
GLUE return(GLUE);
IVALUEVAL return(IVALUEVAL);
FVALUEVAL return(FVALUEVAL);
MVALUEVAL return(MVALUEVAL);
PENALTYVAL return(PENALTYVAL);
RULEWD { yylval.yint = RULE_WD; return(RULEMEASURE); }
RULEHT { yylval.yint = RULE_HT; return(RULEMEASURE); }
RULEDP { yylval.yint = RULE_DP; return(RULEMEASURE); }
GLUEWD return(GLUEWD);
GLUESTRETCH { yylval.yint = GLUE_STRETCH; return(GLUESHRINKSTRETCH); }
GLUESHRINK { yylval.yint = GLUE_SHRINK; return(GLUESHRINKSTRETCH); }
GLUETYPE return(GLUETYPE);
GLUERULE return(GLUERULE);
GLUECHAR return(GLUECHAR);
CHARIVALUE return(CHARIVALUE);
CHARFVALUE return(CHARFVALUE);
CHARMVALUE return(CHARMVALUE);
CHARPENALTY return(CHARPENALTY);
CHARRULE return(CHARRULE);
CHARGLUE return(CHARGLUE);
CKRN return(CKRN);
CGLUE return(CGLUE);
CPENALTY return(CPENALTY);
CPENGLUE return(CPENGLUE);
CLABEL return(CLABEL);
CHARREPEAT return(CHARREPEAT);
FILLL {yylval.yint = O_FILLL; return(GLUEORDER); }
FILL {yylval.yint = O_FILL; return(GLUEORDER); }
FIL {yylval.yint = O_FIL; return(GLUEORDER); }
FI {yylval.yint = O_FI; return(GLUEORDER); }
UNIT {yylval.yint = O_UNIT; return(GLUEORDER); }
NORMAL {yylval.yint = K_NORMAL; return(GLUEKIND); }
ALEADERS {yylval.yint = K_ALEADERS; return(GLUEKIND); }
CLEADERS {yylval.yint = K_CLEADERS; return(GLUEKIND); }
XLEADERS {yylval.yint = K_XLEADERS; return(GLUEKIND); }
SECWD {yylval.yint = C_SECWD; return(CHARMEASURE); }
SECHT {yylval.yint = C_SECHT; return(CHARMEASURE); }
SECDP {yylval.yint = C_SECDP; return(CHARMEASURE); }
SECIC {yylval.yint = C_SECIC; return(CHARMEASURE); }
PRIMTOPAXIS {yylval.yint = C_P_TOPAXIS; return(CHARMEASURE); }
PRIMTOPAXISBIS {yylval.yint = C_P_TOPAXISBIs; return(CHARMEASURE); }
PRIMBOTAXIS {yylval.yint = C_P_BOTAXIS; return(CHARMEASURE); }
PRIMBOTAXISBIS {yylval.yint = C_P_BOTAXISBIS; return(CHARMEASURE); }
PRIMMIDHOR {yylval.yint = C_P_MIDHOR; return(CHARMEASURE); }
PRIMMIDVERT {yylval.yint = C_P_MIDVERT; return(CHARMEASURE); }
PRIMBASESLANT {yylval.yint = C_P_BASESLANT; return(CHARMEASURE); }
SECTOPAXIS {yylval.yint = C_S_TOPAXIS; return(CHARMEASURE); }
SECTOPAXISBIS {yylval.yint = C_S_TOPAXISBIs; return(CHARMEASURE); }
SECBOTAXIS {yylval.yint = C_S_BOTAXIS; return(CHARMEASURE); }
SECBOTAXISBIS {yylval.yint = C_S_BOTAXISBIS; return(CHARMEASURE); }
SECMIDHOR {yylval.yint = C_S_MIDHOR; return(CHARMEASURE); }
SECMIDVERT {yylval.yint = C_S_MIDVERT; return(CHARMEASURE); }
SECBASESLANT {yylval.yint = C_S_BASESLANT; return(CHARMEASURE); }
. {lex_error_1("unexpected character (%x); ignored",
yytext[0]);}
%%
/* added by Thomas Esser, suggested by Olaf Weber */
#ifdef yywrap
#undef yywrap
#endif
int
yywrap (void)
{ return 1; }
void
scan_int(unsigned base)
{
register unsigned j, q = 0x10000 / base, c0=0, c1=0, i=1;
if ((base<BASE_MIN) || (base>BASE_MAX))
internal_error_1("scan_int (base=%d)", base);
while ((yytext[i]==' ') || (yytext[i]=='\t')) {
yytext[i] = ' ';
i++;
}
for (; i<yyleng; i++) {
j = yytext[i];
if (j>='A') j = j + '0' + 10 - 'A' ;
c0 = base*c0 + (c1 / q);
c1 = base*(c1 % q) + j - '0';
if (c0 > 0xffff) {
lex_error_s("numeric value (%s) too large; set to 0", yytext);
c0=0; c1=0; break;
}
}
yylval.yint = c0 * 0x10000 + c1;
}
void
scan_fix(void)
{
unsigned i=1;
unsigned sign = 1;
unsigned j=0;
unsigned acc=0;
unsigned int_part;
unsigned fraction_digits[7];
while ((yytext[i]==' ') || (yytext[i]=='\t') ||
(yytext[i]=='+') || (yytext[i]=='-')) {
if (yytext[i]=='\t') yytext[i] = ' ';
if (yytext[i]=='-') sign *= -1;
i++;
}
acc=0;
while ((i<yyleng) && (yytext[i]!='.')) {
acc = acc*10 + yytext[i]-'0';
i++;
if (acc >=0x800 ) {
lex_error_s("fix value (%s) too large; set to 0", yytext);
yylval.yfix = 0;
return;
}
}
int_part = acc; acc = 0;
if (i < yyleng) {
i++;
while ((i<yyleng) && j<7) {
fraction_digits[j] = 0x200000*(yytext[i]-'0');
i++; j++;
}
while (j>0) {acc = fraction_digits[--j] + acc / 10;}
acc = (acc + 10) / 20;
}
if ((acc > UNITY) && (int_part=2047)) {
lex_error_s("fix value (%s) too large; set to 0", yytext);
yylval.yfix = 0;
return;
}
yylval.yfix = sign * (int_part*UNITY + acc);
}
void
scan_char(void)
{
register unsigned i=1;
while ((yytext[i]==' ') || (yytext[i]=='\t')) i++;
if ((yytext[i]<041) || (yytext[i]>0176) ||
(yytext[i]=='(') || (yytext[i]==')')) {
lex_error_1("C value (H %X) must be ASCII (not paren); "
"set to 'A'", yytext[i]);
yylval.yint = 'A';
} else yylval.yint = yytext[i];
}
void
scan_string(char *attribute, unsigned keep, unsigned length)
{
register unsigned c, saved_ptr = 0, paren_level = 0;
unsigned error_msg = FALSE;
if ((keep<KEEP_MIN) || (keep>KEEP_MAX))
internal_error_1("scan_string (keep=%d)", keep);
while (((c = input()) != EOF) &&
((c == ' ') || (c == '\t') || (c == '\n'))) {
if (c == '\n') {line_number++;}
}
if (c==EOF) fatal_error_s("EOF while scanning %s", attribute);
while ((c != EOF) &&
((c != ')') || (paren_level>0))) {
if (c==')') {
paren_level--;
if (keep==KEEP_CONVERT) {
lex_error_s_1("%s character (H %X) converted to slash",
attribute, c);
c = '/';
}
} else if (c=='(') {
paren_level++;
if (keep==KEEP_CONVERT) {
lex_error_s_1("%s character (H %X) converted to slash",
attribute, c);
c = '/';
}
} else if ((c<' ') || (c>='~')) {
if (c=='\n') line_number++;
if (keep==KEEP_CONVERT) {
lex_error_s_1("%s character (H %X) converted to blank",
attribute, c);
c = ' ';
}
}
if (saved_ptr<(MAX_PTR-3))
saved_text[saved_ptr++] = c;
else if (error_msg == FALSE) {
lex_error_s_1("%s string longer than %d characters; truncating",
attribute, MAX_PTR);
error_msg = TRUE;
}
c = input();
}
if (c==EOF) fatal_error_s("EOF while scanning %s", attribute);
unput(')');
saved_text[saved_ptr++] = '\0';
if (keep!=KEEP_NONE) {
if ((length != 0) && (strlen(saved_text)>length)) {
lex_error_s_1("%s string limited to %d characters; truncated",
attribute, length);
saved_text[length] = '\0';
}
yylval.ystring = xstrdup(saved_text);
} else {
yylval.ystring = NULL;
}
}
void
scan_hex_string(void)
{
register unsigned i=10;
while ((yytext[i]==' ') || (yytext[i]=='\t')) i++;
yylval.ystring = xstrdup(yytext+i);
}
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