/*****************************************************************************/
/* */
/* PRG2LOUT: A PROGRAM TO CONVERT PROGRAM SOURCES INTO LOUT */
/* COPYRIGHT (C) 2000 Jeffrey H. Kingston */
/* */
/* Version 2.1, 24 June 2000 */
/* */
/* Jeffrey H. Kingston (jeff@cs.su.oz.au) */
/* Basser Department of Computer Science */
/* The University of Sydney 2006 */
/* AUSTRALIA */
/* */
/* C and C++, Eiffel, and Blue by Jeff Kingston */
/* Perl and Pod by Jeff Kingston and Mark Summerfield */
/* Python by Mark Summerfield */
/* */
/* This program 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, or (at your option) */
/* any later version. */
/* */
/* This program 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 this program; if not, write to the Free Software */
/* Foundation, Inc., 675 Mass Ave, Cambridge, MA 02139, USA. */
/* */
/*****************************************************************************/
/*****************************************************************************/
/* */
/* GENERAL INTRODUCTION TO PRG2LOUT */
/* */
/* The best way to see what the aim of prg2lout as currently conceived is, */
/* is to look in file cprint at the setup file options. You will see that */
/* the aim is to provide three basic styles: fixed (essentially mono font), */
/* varying (essentially varying-width font with various faces for different */
/* elements at the user's choice), and symbol (similar to varying). */
/* */
/* The elements currently aimed for are strings, identifiers, comments, */
/* keywords, numbers, and operators, and the end user is able to choose, */
/* for each of these kinds of elements, which font to set them in. */
/* */
/* This is achieved by a simple division of labour: prg2lout does the */
/* classifying of the input into a sequence of these elements, and the Lout */
/* end (cprint and cprintf, or their clones for other languages) does the */
/* formatting. For example, the C text */
/* */
/* inc = inc / 2 */
/* */
/* would be classified by prg2lout into identifier, operator, identifier, */
/* operator, number; and consequently prg2lout would emit */
/* */
/* @PI{inc} @PO{=} @PI{inc} @PO{"/"} @PN{2} */
/* */
/* which is readable by Lout, thanks to having quotes around everything */
/* potentially dangerous, and clearly tells Lout, by means of the commands */
/* @PC, @PI, etc., how each part of the input has been classified. */
/* */
/* The actual classification is carried out by prg2lout as follows. Each */
/* programming language is described to prg2lout as a collection of tokens; */
/* you say what the token begins with, what's a legal character inside the */
/* token, and how it ends. You also say which command (@PC, @PI etc.) to */
/* emit when a token of that kind is found. Prg2lout does the rest. */
/* */
/* Prg2lout knows all about tricky problems such as multi-line tokens (it */
/* breaks them up into single-line pieces) and backslash in Lout strings */
/* (it replaces any \ within an output string by \\, " by \", etc.). It */
/* also handles tab characters and formfeed characters properly, and it */
/* produces intelligible error messages when unexpected things happen, */
/* such as input terminating in the middle of a string. This attention to */
/* detail is a strong reason for using prg2lout rather than something more */
/* ad-hoc, such as @Verbatim or a quick script. */
/* */
/*****************************************************************************/
/*****************************************************************************/
/* */
/* HOW TO ADD ANOTHER LANGUAGE TO PRG2LOUT */
/* */
/* Step 1. Construct clones of (say) eiffel and eiffelf (these are in */
/* $LOUTLIB/include) with every occurrence of eiffel or Eiffel in them */
/* changed to your language as appropriate. Install your files in the */
/* Lout system include directory alongside eiffel and eiffelf. */
/* */
/* It is good to clone the files exactly because that way all program */
/* formatting works the same way, and one chapter of the User's Guide */
/* covers the lot. However if your language has some unique element, not */
/* readily classifiable as a string, identifier, comment, keyword, */
/* number, or operator, it is possible to emit a different command of */
/* your choice for the new element; but then your clones of eiffel and */
/* eiffelf have to be extended to handle that command. */
/* */
/* Step 2. Have a browse through the token declarations below, and work */
/* out which of them you need for your language. If you need a token that */
/* isn't there already, you'll have to define it; there are many examples */
/* and documentation there to help you. The tokens for Perl are rather */
/* complicated and don't make a good model for most languages, so look */
/* more at the C and Eiffel ones. */
/* */
/* Step 3. Browse through the language declarations, and declare your */
/* language following those examples: first you give a set of one or more */
/* alternative names for your language, then some other things, including */
/* the list of tokens of the language, and its keywords. */
/* */
/* Step 4. Add your language variable to the list in the initializer of */
/* variable languages, as you can see the others have been done. Try to */
/* keep the list alphabetical to deflect any charges of language bias. */
/* */
/* Step 5. If any lists of initializers now contain more than MAX_STARTS, */
/* MAX_STARTS2, MAX_NAMES, MAX_TOKENS, or MAX_KEYWORDS elements, increase */
/* these constants until they don't. The gcc compiler will warn you if */
/* you forget to do this. */
/* */
/* Step 6. Recompile and reinstall prg2lout, test "prg2lout -u" then */
/* "prg2lout -l <mylanguage> <myfile> | lout -s > out.ps". */
/* */
/* Step 7. Send your tested and tidied files to me for incorporation */
/* in the next Lout release. If you do this, please try hard to ensure */
/* that your new code conforms to the formal definition of your language. */
/* Feel free to email me for advice as you go along. */
/* */
/* Jeff Kingston */
/* jeff@cs.usyd.edu.au */
/* */
/*****************************************************************************/
#include <stdio.h>
#include <stdlib.h>
#define FALSE 0
#define TRUE 1
#define BOOLEAN unsigned
#define MAX_CHAR 256
#define is_whitespace(ch) ((ch)==' ' || (ch)=='\t' || (ch)=='\n' || (ch)=='\f')
/*****************************************************************************/
/* */
/* MAX_STARTS 1 + Maximum length of "starts" array in any token */
/* MAX_STARTS2 1 + Maximum length of "starts2" array in any token */
/* MAX_NAMES 1 + Maximum number of names for any language */
/* MAX_TOKENS 1 + Maximum number of tokens in any language */
/* MAX_KEYWORDS 1 + Maximum number of keywords in any language */
/* */
/*****************************************************************************/
#define MAX_STARTS 120
#define MAX_STARTS2 30
#define MAX_NAMES 10
#define MAX_TOKENS 150
#define MAX_KEYWORDS 350
/*****************************************************************************/
/* */
/* Bracketing pairs */
/* */
/* This declaration explains to prg2lout that { matches }, etc. */
/* */
/*****************************************************************************/
typedef struct {
char *first;
char *second;
} CHAR_PAIR;
CHAR_PAIR pairs[] = {
{ "(", ")" },
{ "{", "}" },
{ "[", "]" },
{ "<", ">" },
{ NULL, NULL }
};
/*****************************************************************************/
/* */
/* Character sets */
/* */
/* These are prg2lout's definitions of various commonly needed sets of */
/* characters. May need enhancement for Latin1 etc. */
/* */
/*****************************************************************************/
#define AllCharacters NULL /* code will recognize NULL and do this */
char AllPrintable[] =
" !\"#$%&'()*+,-./0123456789:;<=>?@[\\]^_`\\{|}~\
ABCDEFGHIJKLMNOPQRSTUVWXYZabcdefghijklmnopqrstuvwxyz" ;
char AllPrintablePlusNL[] =
" !\"#$%&'()*+,-./0123456789:;<=>?@[\\]^_`\\{|}~\
ABCDEFGHIJKLMNOPQRSTUVWXYZabcdefghijklmnopqrstuvwxyz\n" ;
char AllPrintablePlusTab[] =
" !\"#$%&'()*+,-./0123456789:;<=>?@[\\]^_`\\{|}~\
ABCDEFGHIJKLMNOPQRSTUVWXYZabcdefghijklmnopqrstuvwxyz\t" ;
char AllPrintableTabNL[] =
" !\"#$%&'()*+,-./0123456789:;<=>?@[\\]^_`\\{|}~\
ABCDEFGHIJKLMNOPQRSTUVWXYZabcdefghijklmnopqrstuvwxyz\n\t" ;
char AllPrintableTabNLFF[] =
" !\"#$%&'()*+,-./0123456789:;<=>?@[\\]^_`\\{|}~\
ABCDEFGHIJKLMNOPQRSTUVWXYZabcdefghijklmnopqrstuvwxyz\n\t\f" ;
char Letters[] = "ABCDEFGHIJKLMNOPQRSTUVWXYZabcdefghijklmnopqrstuvwxyz" ;
char Letter_Digit[] =
"ABCDEFGHIJKLMNOPQRSTUVWXYZabcdefghijklmnopqrstuvwxyz_0123456789" ;
#define SepLetters \
"A", "B", "C", "D", "E", "F", "G", "H", "I", "J", "K", "L", "M", \
"N", "O", "P", "Q", "R", "S", "T", "U", "V", "W", "X", "Y", "Z", \
"a", "b", "c", "d", "e", "f", "g", "h", "i", "j", "k", "l", "m", \
"n", "o", "p", "q", "r", "s", "t", "u", "v", "w", "x", "y", "z"
#define SepDigits "0", "1", "2", "3", "4", "5", "6", "7", "8", "9"
#define HexDigits "A", "a", "B", "b", "C", "c", "D", "d", "E", "e", "F", "f"
#define SepPunct "/", "(", "[", "{", "<", "!", "%", "#", "|", ",", \
":", ";", "$", "\"","^", "&", "*", "-", "=", "+", \
"~", "'", "@", "?", ".", "`"
#define BktPunct "", "(", "[", "{", "<", "", "", "", "", "", \
"", "", "", "", "", "", "", "", "", "", \
"", "", "", "", "", ""
#define EndPunct "/", ")", "]", "}", ">", "!", "%", "#", "|", ",", \
":", ";", "$", "\"","^", "&", "*", "-", "=", "+", \
"~", "'", "@", "?", ".", "`"
#define PercentLetters \
"%A", "%B", "%C", "%D", "%E", "%F", "%G", "%H", "%I", "%J", "%K", \
"%L", "%M", "%N", "%O", "%P", "%Q", "%R", "%S", "%T", "%U", "%V", \
"%W", "%X", "%Y", "%Z", \
"%a", "%b", "%c", "%d", "%e", "%f", "%g", "%h", "%i", "%j", "%k", \
"%l", "%m", "%n", "%o", "%p", "%q", "%r", "%s", "%t", "%u", "%v", \
"%w", "%x", "%y", "%z", "%_"
/*****************************************************************************/
/* */
/* TOKEN - put your token declarations in this section */
/* */
/* The fields of token_rec have the following meanings: */
/* */
/* name */
/* The name of this token, e.g. "string" or "identifier". This field */
/* is used only by error messages generated by prg2lout; for example, */
/* prg2lout might print the message "input ended within string". */
/* */
/* print_style */
/* */
/* print_style What gets printed */
/* ------------------------------------------------------- */
/* PRINT_WHOLE_QUOTED command{"token"} */
/* PRINT_NODELIMS_QUOTED command{"token-minus-delims"} */
/* PRINT_WHOLE_UNQUOTED command{token} */
/* PRINT_NODELIMS_UNQUOTED command{token-minus-delims} */
/* PRINT_NODELIMS_INNER command{inner} */
/* PRINT_COMMAND_ONLY command */
/* */
/* If command (see next) is empty then the braces {} are not printed. */
/* */
/* PRINT_WHOLE_QUOTED. This command is the most frequently used one; */
/* it prints the token, enclosed in braces and quotes, preceded by the */
/* command. The quotes ensure that the result is legal Lout; any " or */
/* \ in the token is printed with a preceding \ as required in Lout. */
/* The usual arrangement for handling white space is that none of the */
/* tokens contain it; when it is encountered prg2lout generates the */
/* appropriate Lout without being told: a space for a space, a newline */
/* for a newline (possibly triggering a line number on the next line), */
/* @NP for a formfeed, and something clever for tab which does the */
/* required thing. However, you can define a token that contains */
/* white space if you wish, and then the effect will be: */
/* */
/* space and tab The quotation marks will be temporarily */
/* closed off, the white space handled as just */
/* described, then the quotes opened again */
/* */
/* newline and ff Both the quotation marks and the command */
/* will be closed off, the white space handled */
/* as just described, and then a new command */
/* started. In effect, the token is broken into */
/* a sequence of tokens at these characters. */
/* */
/* PRINT_NODELIMS_QUOTED. This is like PRINT_WHOLE_QUOTED except that */
/* the opening and closing delimiters of the token are omitted from */
/* the print. This is useful occasionally when these delimiters are */
/* formatting markers, not intended to be printed. */
/* */
/* PRINT_WHOLE_UNQUOTED. This style prints the command and braces */
/* as usual, but omits the quotes and prints the token absolutely */
/* verbatim. In general this is not going to produce legal Lout, */
/* but it is useful in two cases: when the token is a Lout escape, */
/* so that it is the user's responsibility to ensure that its content */
/* is legal Lout; and when the command is another filter command, so */
/* that the token content will not go directly into Lout anyway, it */
/* will go through the other filter first. Since the result has to */
/* be verbatim, there is no special treatment of white space characters */
/* and no insertion of line numbers. However, if braces are printed */
/* they really ought to match, so prog2lout checks this and will */
/* complain and insert braces into the verbatim part if necessary. */
/* */
/*****************************************************************************/
/*****************************************************************************/
/* */
/* Meaning of TOKEN fields (ctd.) */
/* */
/* PRINT_NODELIMS_UNQUOTED. This is like PRINT_WHOLE_UNQUOTED except */
/* that the opening and closing delimiters of the token are omitted. */
/* */
/* PRINT_NODELIMS_INNER. Like PRINT_NODELIMS_UNQUOTED except that the */
/* inner part (i.e. not delimiters) is formatted in the same language. */
/* */
/* PRINT_COMMAND_ONLY. This ignores the token and prints just the */
/* command, presumably because the command says it all for that token. */
/* When using PRINT_COMMAND_ONLY you will probably need to enclose the */
/* command with braces: since there are no following braces in this */
/* print style, your command will run into the next one otherwise. */
/* */
/* command */
/* The Lout command to print. This command could be any legal Lout; */
/* programming language setup files offer the following Lout symbols */
/* that make the most common commands: */
/* */
/* @PI for formatting identifiers */
/* @PK for formatting keywords */
/* @PO for formatting operators */
/* @PN for formatting numbers */
/* @PS for formatting strings */
/* @PC for formatting comments */
/* @PA for printing an asterisk (lower on the line than usual) */
/* @PM for printing a minus sign (longer than a hyphen) */
/* @PD for printing a dot (.), only larger than usual */
/* */
/* The last three require PRINT_COMMAND_ONLY (they take no parameter). */
/* If command is NULL or "", then no command will be printed and */
/* furthermore the token will not be enclosed in the usual braces. */
/* */
/* alternate_command */
/* Every language has a list of keywords. Just before printing each */
/* token, it is compared against the keywords. If it is one of them, */
/* then alternate_command is used instead of command. For example, */
/* identifiers usually have command @PI and alternate_command @PK. */
/* */
/* following_command */
/* Print this Lout command (or commands) after the token. If it is a */
/* "broken" multi-line token, print this command after each fragment */
/* */
/* start_line_only */
/* A Boolean field. If TRUE, this token is to be recognized only */
/* if it occurs at the very start of a line. */
/* */
/* starts[] */
/* This field holds an array of strings. If prg2lout discovers any */
/* one of these strings while it is not reading some other token, */
/* then it deems that this token has begun. The recognized string */
/* is the token's "starting delimiter". */
/* */
/*****************************************************************************/
/*****************************************************************************/
/* */
/* Meaning of TOKEN fields (ctd.) */
/* */
/* starts2[], brackets2[], ends2[] */
/* These fields each hold an array of strings, and the three arrays */
/* must have equal length. If starts2[] has length zero, these fields */
/* do not apply. Otherwise, they modify the meaning of starts[], */
/* bracket_delimiter, and end_delimiter below. Their effect is best */
/* seen by looking at some examples from Perl, their main user: */
/* */
/* q/hello/ qq/hello/ qq?hello? qq{hel{}lo} */
/* */
/* These strings may begin with q, qq, qx, and several other things; */
/* this is then followed by a single character which determines the */
/* string terminator; e.g. / means "terminate with /", { means */
/* "terminate with }", etc. In some cases the start and end delims */
/* come in matching pairs, and then there may be nested matching */
/* pairs. This is implemented as follows: */
/* */
/* starts: { "q", "qq" } */
/* starts2: { "/", "?", "{" } */
/* brackets2: { "", "", "{" } */
/* ends2: { "/", "?", "}" } */
/* */
/* Briefly, every token with non-null starts2 is expanded into a set */
/* of tokens, one for each element i of starts2, whose starting delims */
/* are starts with starts2[i] added, bracketing delim brackets2[i], */
/* and end_delim ends2[i]. PerlQTypeToken is a larger example of this. */
/* */
/* legal */
/* This string defines the set of legal characters inside this token. */
/* For example, numbers might have "0123456789." for this field, since */
/* these are the characters that are legal within numbers, usually. */
/* */
/* escape */
/* This string defines a single character which is the escape */
/* character for this token. That is, if we are reading this token */
/* and come upon this character, the character following it is */
/* treated differently. An empty string "" means no escape character. */
/* */
/* escape_legal */
/* This string defines the set of characters which are legal after */
/* the escape character just mentioned. If any one of these appears */
/* immediately after the escape character, it is deemed to be part */
/* of the token even if without the preceding escape it would not be. */
/* */
/* inner_escape */
/* end_inner_escape */
/* The inner_escape string should be either empty (in which case it */
/* does not apply), or else it should contain a single character, the */
/* "inner escape" character. An inner escape is a temporary suspension */
/* of a token, reverting to the original language. It is used to set */
/* program text within comments. For example, in Eiffel and Blue, */
/* inner_escape is "`" and end_inner_escape is "'" and so we can write */
/* */
/* -- increment `balance' by `amount' */
/* */
/* to treat balance and amount as identifiers within a comment token. */
/* The inner escape is not limited to one token, it may have any */
/* number of tokens, and they may have inner escapes too; prg2lout */
/* imposes no limit on the depth of nesting of inner escapes. */
/* */
/*****************************************************************************/
/*****************************************************************************/
/* */
/* Meaning of TOKEN fields (ctd.) */
/* */
/* bracket_delimiter */
/* If this string is encountered within a token (not escaped), it */
/* brackets with the next end_delimiter, meaning that the next end */
/* delimiter will not end the token. */
/* */
/* end_delimiter */
/* This string shows how the token ends; for example, a string would */
/* have end_delimiter ". If empty, it means that the token ends */
/* just before the first character encountered that is not legal (see */
/* "legal" above). For example, identifiers and numbers would have */
/* empty end_delimiter. If ends2[] is not empty then end_delimiter */
/* is ignored, since ends2[] explains how the token ends. */
/* */
/* end_start_line_only */
/* A BOOLEAN field. If true, the end delimiter is to be recognized */
/* only if it occurs at the very start of a line. */
/* */
/* want_two_ends */
/* A Boolean feature used only by Perl; TRUE means that end_delimiter */
/* (or ends2[]) has to be encountered twice before the token ends, */
/* rather than the usual once. Used by PerSTypeToken to recognise */
/* */
/* s/abc/ABC/ */
/* */
/* etc. as single tokens. If there is a bracket delimiter (see above), */
/* this will look for a new matching delimiter pair, as in s{}<>. */
/* */
/*****************************************************************************/
#define PRINT_WHOLE_QUOTED 1
#define PRINT_NODELIMS_QUOTED 2
#define PRINT_WHOLE_UNQUOTED 3
#define PRINT_NODELIMS_UNQUOTED 4
#define PRINT_NODELIMS_INNER 5
#define PRINT_COMMAND_ONLY 6
typedef struct token_rec {
char *name;
int print_style;
char *command, *alternate_command, *following_command;
BOOLEAN start_line_only;
char *starts[MAX_STARTS];
char *starts2[MAX_STARTS2];
char *brackets2[MAX_STARTS2];
char *ends2[MAX_STARTS2];
char *legal;
char *escape;
char *escape_legal;
char *inner_escape;
char *end_inner_escape;
char *bracket_delimiter;
char *end_delimiter;
BOOLEAN end_start_line_only;
BOOLEAN want_two_ends;
/* The following options are initialized by the program, so don't you */
char chtype[MAX_CHAR]; /* character types within token */
char escape_chtype[MAX_CHAR]; /* character types after escape */
} TOKEN;
/*****************************************************************************/
/* */
/* Tokens defining strings and literal characters in non-Perl languages. */
/* */
/*****************************************************************************/
TOKEN CStringToken = {
"string", /* used by error messages involving this token */
PRINT_WHOLE_QUOTED, /* print this token in quotes etc. as usual */
"@PS", /* Lout command for formatting strings */
"", /* no alternate command */
"", /* no following command */
FALSE, /* token allowed anywhere, not just start of line */
{ "\"" }, /* strings begin with a " character */
{ NULL }, /* no start2 needed */
{ NULL }, /* so no brackets2 either */
{ NULL }, /* so no end2 either */
AllPrintable, /* inside, any printable is OK */
"\\", /* within strings, \\ is the escape character */
AllPrintablePlusNL, /* after escape char, any printable char or nl OK */
"", /* strings do not permit "inner escapes" */
"", /* and so there is no end innner escape either */
"", /* no bracketing delimiter */
"\"", /* strings end with a " character */
FALSE, /* end delimiter does not have to be at line start */
FALSE, /* don't need to see end delimiter twice to stop */
};
TOKEN CCharacterToken = {
"character", /* used by error messages involving this token */
PRINT_WHOLE_QUOTED, /* print this token in quotes etc. as usual */
"@PC", /* Lout command for formatting characters */
"", /* no alternate command */
"", /* no following command */
FALSE, /* token allowed anywhere, not just start of line */
{ "'" }, /* characters begin with a ' character */
{ NULL }, /* no start2 needed */
{ NULL }, /* so no brackets2 either */
{ NULL }, /* so no end2 either */
AllPrintable, /* inside, any printable character is OK */
"\\", /* within characters, \\ is the escape character */
AllPrintable, /* after escape char, any printable char is OK */
"", /* characters do not permit "inner escapes" */
"", /* and so there is no end innner escape either */
"", /* no bracketing delimiter */
"'", /* characters end with a ' character */
FALSE, /* end delimiter does not have to be at line start */
FALSE, /* don't need to see end delimiter twice to stop */
};
TOKEN EiffelStringToken = {
"string", /* used by error messages involving this token */
PRINT_WHOLE_QUOTED, /* print this token in quotes etc. as usual */
"@PS", /* Lout command for formatting strings */
"", /* no alternate command */
"", /* no following command */
FALSE, /* token allowed anywhere, not just start of line */
{ "\"" }, /* strings begin with a " character */
{ NULL }, /* no start2 needed */
{ NULL }, /* so no brackets2 either */
{ NULL }, /* so no end2 either */
AllPrintable, /* inside, any printable except " is OK */
"%", /* within strings, % is the escape character */
AllPrintable, /* after escape char, any printable char is OK */ "", /* strings do not permit "inner escapes" */
"", /* and so there is no end innner escape either */
"", /* no bracketing delimiter */
"\"", /* strings end with a " character */
FALSE, /* end delimiter does not have to be at line start */
FALSE, /* don't need to see end delimiter twice to stop */
};
TOKEN EiffelCharacterToken = {
"character", /* used by error messages involving this token */
PRINT_WHOLE_QUOTED, /* print this token in quotes etc. as usual */
"@PC", /* Lout command for formatting characters */
"", /* no alternate command */
"", /* no following command */
FALSE, /* token allowed anywhere, not just start of line */
{ "'" }, /* characters begin with a ' character */
{ NULL }, /* no start2 needed */
{ NULL }, /* so no brackets2 either */
{ NULL }, /* so no end2 either */
AllPrintable, /* inside, any printable except ' is OK */
"%", /* within characters, % is the escape character */
AllPrintable, /* after escape char, any printable char is OK */
"", /* characters do not permit "inner escapes" */
"", /* and so there is no end innner escape either */
"", /* no bracketing delimiter */
"'", /* characters end with a ' character */
FALSE, /* end delimiter does not have to be at line start */
FALSE, /* don't need to see end delimiter twice to stop */
};
TOKEN PythonDblStringToken = {
"string", /* used by error messages involving this token */
PRINT_WHOLE_QUOTED, /* print this token in quotes etc. as usual */
"@PS", /* Lout command for formatting strings */
"", /* no alternate command */
"", /* no following command */
FALSE, /* token allowed anywhere, not just start of line */
{ "\"" }, /* strings begin with a " character */
{ NULL }, /* no start2 needed */
{ NULL }, /* so no brackets2 either */
{ NULL }, /* so no end2 either */
AllPrintable, /* inside, any printable is OK */
"\\", /* within strings, \\ is the escape character */
AllPrintablePlusNL, /* after escape char, any printable char or nl OK */
"", /* strings do not permit "inner escapes" */
"", /* and so there is no end innner escape either */
"", /* no bracketing delimiter */
"\"", /* strings end with a " character */
FALSE, /* end delimiter does not have to be at line start */
FALSE, /* don't need to see end delimiter twice to stop */
};
TOKEN PythonSnglStringToken = {
"string", /* used by error messages involving this token */
PRINT_WHOLE_QUOTED, /* print this token in quotes etc. as usual */
"@PS", /* Lout command for formatting strings */
"", /* no alternate command */
"", /* no following command */
FALSE, /* token allowed anywhere, not just start of line */
{ "'" }, /* strings begin with a ' character */
{ NULL }, /* no start2 needed */
{ NULL }, /* so no brackets2 either */
{ NULL }, /* so no end2 either */
AllPrintable, /* inside, any printable is OK */
"\\", /* within strings, \\ is the escape character */
AllPrintablePlusNL, /* after escape char, any printable char or nl OK */
"", /* strings do not permit "inner escapes" */
"", /* and so there is no end innner escape either */
"", /* no bracketing delimiter */
"'", /* strings end with a ' character */
FALSE, /* end delimiter does not have to be at line start */
FALSE, /* don't need to see end delimiter twice to stop */
};
TOKEN PythonTriSnglStringToken = {
"string", /* used by error messages involving this token */
PRINT_WHOLE_QUOTED, /* print this token in quotes etc. as usual */
"@PS", /* Lout command for formatting strings */
"", /* no alternate command */
"", /* no following command */
FALSE, /* token allowed anywhere, not just start of line */
{ "'''" }, /* strings begin with ''' */
{ NULL }, /* no start2 needed */
{ NULL }, /* so no brackets2 either */
{ NULL }, /* so no end2 either */
AllPrintableTabNL, /* inside, any printable is OK */
"\\", /* within strings, \\ is the escape character */
AllPrintableTabNL, /* after escape char, any printable char or nl OK */
"", /* strings do not permit "inner escapes" */
"", /* and so there is no end innner escape either */
"", /* no bracketing delimiter */
"'''", /* strings end with ''' */
FALSE, /* end delimiter does not have to be at line start */
FALSE, /* don't need to see end delimiter twice to stop */
};
TOKEN PythonTriDblStringToken = {
"string", /* used by error messages involving this token */
PRINT_WHOLE_QUOTED, /* print this token in quotes etc. as usual */
"@PS", /* Lout command for formatting strings */
"", /* no alternate command */
"", /* no following command */
FALSE, /* token allowed anywhere, not just start of line */
{ "\"\"\"" }, /* strings begin with """ */
{ NULL }, /* no start2 needed */
{ NULL }, /* so no brackets2 either */
{ NULL }, /* so no end2 either */
AllPrintableTabNL, /* inside, any printable is OK */
"\\", /* within strings, \\ is the escape character */
AllPrintableTabNL, /* after escape char, any printable char or nl OK */
"", /* strings do not permit "inner escapes" */
"", /* and so there is no end innner escape either */
"", /* no bracketing delimiter */
"\"\"\"", /* strings end with """ */
FALSE, /* end delimiter does not have to be at line start */
FALSE, /* don't need to see end delimiter twice to stop */
};
/*****************************************************************************/
/* */
/* Identifiers, in the form common to most programming languages. */
/* */
/*****************************************************************************/
TOKEN IdentifierToken = {
"identifier", /* used by error messages involving this token */
PRINT_WHOLE_QUOTED, /* print this token in quotes etc. as usual */
"@PI", /* Lout command for formatting identifiers */
"@PK", /* Alternate command (for keywords) */
"", /* no following command */
FALSE, /* token allowed anywhere, not just start of line */
{ SepLetters, "_" }, /* identifiers begin with any letter or _ */
{ NULL }, /* no start2 needed */
{ NULL }, /* so no brackets2 either */
{ NULL }, /* so no end2 either */
Letter_Digit, /* inside, letters, underscores, digits are OK */
"", /* no escape character within identifiers */
"", /* so nothing legal after escape char either */
"", /* identifiers do not permit "inner escapes" */
"", /* and so there is no end innner escape either */
"", /* no bracketing delimiter */
"", /* identifiers do not end with a delimiter */
FALSE, /* end delimiter does not have to be at line start */
FALSE, /* don't need to see end delimiter twice to stop */
};
/*****************************************************************************/
/* */
/* Numbers, in the form common to most programming languages. */
/* */
/*****************************************************************************/
TOKEN NumberToken = {
"number", /* used by error messages involving this token */
PRINT_WHOLE_QUOTED, /* print this token in quotes etc. as usual */
"@PN", /* Lout command for formatting numbers */
"", /* no alternate command */
"", /* no following command */
FALSE, /* token allowed anywhere, not just start of line */
{ SepDigits }, /* numbers must begin with a digit */
{ NULL }, /* no start2 needed */
{ NULL }, /* so no brackets2 either */
{ NULL }, /* so no end2 either */
"0123456789.eE", /* inside, digits, decimal point, exponent */
"", /* no escape character within numbers */
"", /* so nothing legal after escape char either */
"", /* numbers do not permit "inner escapes" */
"", /* and so there is no end innner escape either */
"", /* no bracketing delimiter */
"", /* numbers do not end with a delimiter */
FALSE, /* end delimiter does not have to be at line start */
FALSE, /* don't need to see end delimiter twice to stop */
};
/*****************************************************************************/
/* */
/* Tokens defining comments in various languages. */
/* */
/*****************************************************************************/
TOKEN CCommentToken = {
"comment", /* used by error messages involving this token */
PRINT_WHOLE_QUOTED, /* print this token in quotes etc. as usual */
"@PC", /* Lout command for formatting comments */
"", /* no alternate command */
"", /* no following command */
FALSE, /* token allowed anywhere, not just start of line */
{ "/*" }, /* comments begin with this character pair */
{ NULL }, /* no start2 needed */
{ NULL }, /* so no brackets2 either */
{ NULL }, /* so no end2 either */
AllPrintableTabNLFF, /* inside, any printable char, tab, nl, ff is OK */
"", /* no escape character within comments */
"", /* so nothing legal after escape char either */
"", /* C comments do not permit "inner escapes" */
"", /* and so there is no end innner escape either */
"", /* no bracketing delimiter */
"*/", /* comments end with this character pair */
FALSE, /* end delimiter does not have to be at line start */
FALSE, /* don't need to see end delimiter twice to stop */
};
TOKEN CPPCommentToken = {
"comment", /* used by error messages involving this token */
PRINT_WHOLE_QUOTED, /* print this token in quotes etc. as usual */
"@PC", /* Lout command for formatting comments */
"", /* no alternate command */
"", /* no following command */
FALSE, /* token allowed anywhere, not just start of line */
{ "//" }, /* comments begin with this character pair */
{ NULL }, /* no start2 needed */
{ NULL }, /* so no brackets2 either */
{ NULL }, /* so no end2 either */
AllPrintablePlusTab, /* inside, any printable char is OK (not NL) */
"", /* no escape character within comments */
"", /* so nothing legal after escape char either */
"", /* C comments do not permit "inner escapes" */
"", /* and so there is no end innner escape either */
"", /* no bracketing delimiter */
"", /* no end delimiter (end of line will end it) */
FALSE, /* end delimiter does not have to be at line start */
FALSE, /* don't need to see end delimiter twice to stop */
};
TOKEN EiffelCommentToken = {
"comment", /* used by error messages involving this token */
PRINT_WHOLE_QUOTED, /* print this token in quotes etc. as usual */
"@PC", /* Lout command for formatting comments */
"", /* no alternate command */
"", /* no following command */
FALSE, /* token allowed anywhere, not just start of line */
{ "--" }, /* comments begin with this character pair */
{ NULL }, /* no start2 needed */
{ NULL }, /* so no brackets2 either */
{ NULL }, /* so no end2 either */
AllPrintablePlusTab, /* inside, any printable char is OK */
"", /* no escape character within comments */
"", /* so nothing legal after escape char either */
"`", /* start of "inner escape" in Eiffel comment */
"'", /* end of "inner escape" in Eiffel comment */
"", /* no bracketing delimiter */
"", /* no ending delimiter; end of line will end it */
FALSE, /* end delimiter does not have to be at line start */
FALSE, /* don't need to see end delimiter twice to stop */
};
TOKEN BlueCommentToken = {
"comment", /* used by error messages involving this token */
PRINT_WHOLE_QUOTED, /* print this token in quotes etc. as usual */
"@PC", /* Lout command for formatting comments */
"", /* no alternate command */
"", /* no following command */
FALSE, /* token allowed anywhere, not just start of line */
{ "==", "--" }, /* comments begin with this character pair */
{ NULL }, /* no start2 needed */
{ NULL }, /* so no brackets2 either */
{ NULL }, /* so no end2 either */
AllPrintablePlusTab, /* inside, any printable char is OK */
"", /* no escape character within comments */
"", /* so nothing legal after escape char either */
"`", /* start of "inner escape" in Blue comment */
"'", /* end of "inner escape" in Blue comment */
"", /* no bracketing delimiter */
"", /* no ending delimiter; end of line will end it */
FALSE, /* end delimiter does not have to be at line start */
FALSE, /* don't need to see end delimiter twice to stop */
};
TOKEN PythonCommentToken = {
"comment", /* used by error messages involving this token */
PRINT_WHOLE_QUOTED, /* print this token in quotes etc. as usual */
"@PC", /* Lout command for formatting comments */
"", /* no alternate command */
"", /* no following command */
FALSE, /* token allowed anywhere, not just start of line */
{ "#" }, /* comments begin with this character pair */
{ NULL }, /* no start2 needed */
{ NULL }, /* so no brackets2 either */
{ NULL }, /* so no end2 either */
AllPrintablePlusTab, /* inside, any printable char is OK (not NL) */
"", /* no escape character within comments */
"", /* so nothing legal after escape char either */
"", /* C comments do not permit "inner escapes" */
"", /* and so there is no end innner escape either */
"", /* no bracketing delimiter */
"", /* no end delimiter (end of line will end it) */
FALSE, /* end delimiter does not have to be at line start */
FALSE, /* don't need to see end delimiter twice to stop */
};
/*****************************************************************************/
/* */
/* Tokens defining escape comments in various languages. */
/* */
/* See discussion of "inner escapes" above for more information. */
/* */
/*****************************************************************************/
TOKEN CCommentEscapeToken = {
"Lout escape", /* used by error messages involving this token */
PRINT_NODELIMS_UNQUOTED, /* print this token unformatted */
"", /* no Lout command since we are printing raw */
"", /* no alternate command */
"", /* no following command */
FALSE, /* token allowed anywhere, not just start of line */
{ "/*@" }, /* escape comments begin with this delimiter */
{ NULL }, /* no start2 needed */
{ NULL }, /* so no brackets2 either */
{ NULL }, /* so no end2 either */
AllPrintableTabNLFF, /* inside, any printable char, tab, nl, ff is OK */
"", /* no escape character within comments */
"", /* so nothing legal after escape char either */
"", /* no "inner escape" in escape comments */
"", /* so no end of "inner escape" either */
"", /* no bracketing delimiter */
"*/", /* comments end with this character pair */
FALSE, /* end delimiter does not have to be at line start */
FALSE, /* don't need to see end delimiter twice to stop */
};
TOKEN CPPCommentEscapeToken = {
"Lout escape", /* used by error messages involving this token */
PRINT_NODELIMS_UNQUOTED, /* print this token unformatted */
"", /* no Lout command since we are printing raw */
"", /* no alternate command */
"", /* no following command */
FALSE, /* token allowed anywhere, not just start of line */
{ "//@" }, /* escape comments begin with this delimiter */
{ NULL }, /* no start2 needed */
{ NULL }, /* so no brackets2 either */
{ NULL }, /* so no end2 either */
AllPrintablePlusTab, /* inside, any printable char is OK */
"", /* no escape character within comments */
"", /* so nothing legal after escape char either */
"", /* no "inner escape" in escape comments */
"", /* so no end of "inner escape" either */
"", /* no bracketing delimiter */
"", /* no end delimiter (end of line will end it) */
FALSE, /* end delimiter does not have to be at line start */
FALSE, /* don't need to see end delimiter twice to stop */
};
TOKEN EiffelCommentEscapeToken = {
"Lout escape", /* used by error messages involving this token */
PRINT_NODELIMS_UNQUOTED, /* print this token unformatted */
"", /* no Lout command since we are printing raw */
"", /* no alternate command */
"", /* no following command */
FALSE, /* token allowed anywhere, not just start of line */
{ "--@" }, /* escape comments begin with this delimiter */
{ NULL }, /* no start2 needed */
{ NULL }, /* so no brackets2 either */
{ NULL }, /* so no end2 either */
AllPrintablePlusTab, /* inside, any printable char is OK */
"", /* no escape character within comments */
"", /* so nothing legal after escape char either */
"", /* no "inner escape" in escape comments */
"", /* so no end of "inner escape" either */
"", /* no bracketing delimiter */
"", /* no ending delimiter; end of line will end it */
FALSE, /* end delimiter does not have to be at line start */
FALSE, /* don't need to see end delimiter twice to stop */
};
TOKEN BlueCommentEscapeToken = {
"Lout escape", /* used by error messages involving this token */
PRINT_NODELIMS_UNQUOTED, /* print this token unformatted */
"", /* no Lout command since we are printing raw */
"", /* no alternate command */
"", /* no following command */
FALSE, /* token allowed anywhere, not just start of line */
{ "==@", "--@" }, /* escape comments begin with these delimiters */
{ NULL }, /* no start2 needed */
{ NULL }, /* so no brackets2 either */
{ NULL }, /* so no end2 either */
AllPrintablePlusTab, /* inside, any printable char is OK */
"", /* no escape character within comments */
"", /* so nothing legal after escape char either */
"", /* no "inner escape" in escape comments */
"", /* so no end of "inner escape" either */
"", /* no bracketing delimiter */
"", /* no ending delimiter; end of line will end it */
FALSE, /* end delimiter does not have to be at line start */
FALSE, /* don't need to see end delimiter twice to stop */
};
/*****************************************************************************/
/* */
/* Tokens which are fixed strings, hence simpler than the above. */
/* */
/*****************************************************************************/
#define FixedToken(str, command) /* define fixed-string token */ \
{ \
str, /* name used for debugging only */ \
PRINT_WHOLE_QUOTED, /* print this token as usual */ \
command, /* Lout command for formatting this */ \
"", /* no alternate command */ \
"", /* no following command */ \
FALSE, /* token not just start of line */ \
{ str }, /* token begins (and ends!) with this */ \
{ NULL }, /* no start2 needed */ \
{ NULL }, /* so no brackets2 either */ \
{ NULL }, /* so no end2 either */ \
"", /* nothing inside, since no inside */ \
"", "", /* no escape character */ \
"", "", /* no inner escape; no end inner esc */ \
"", /* no bracketing delimiter */ \
"", /* no ending delimiter */ \
FALSE, /* end not have to be at line start */ \
FALSE, /* don't end delimiter twice to stop */ \
}
TOKEN HashToken = FixedToken("#", "@PO");
TOKEN ExclamationToken = FixedToken("!", "@PO");
TOKEN PercentToken = FixedToken("%", "@PO");
TOKEN HatToken = FixedToken("^", "@PO");
TOKEN AmpersandToken = FixedToken("&", "@PO");
TOKEN SlashToken = FixedToken("/", "@PO");
TOKEN ArrowToken = FixedToken("->", "arrowright @A @PO");
TOKEN BackSlashToken = FixedToken("\\", "@PO");
TOKEN LeftParenToken = FixedToken("(", "@PO");
TOKEN RightParenToken = FixedToken(")", "@PO");
TOKEN PlusToken = FixedToken("+", "plus @A @PO");
TOKEN EqualToken = FixedToken("=", "equal @A @PO");
TOKEN LeftBraceToken = FixedToken("{", "@PO");
TOKEN RightBraceToken = FixedToken("}", "@PO");
TOKEN BarToken = FixedToken("|", "@PO");
TOKEN CircumToken = FixedToken("~", "@PO");
TOKEN LeftBracketToken = FixedToken("[", "@PO");
TOKEN RightBracketToken = FixedToken("]", "@PO");
TOKEN SemicolonToken = FixedToken(";", "@PO");
TOKEN ColonToken = FixedToken(":", "@PO");
TOKEN LessToken = FixedToken("<", "less @A @PO");
TOKEN GreaterToken = FixedToken(">", "greater @A @PO");
TOKEN QuestionToken = FixedToken("?", "@PO");
TOKEN CommaToken = FixedToken(",", "@PO");
TOKEN DotToken = FixedToken(".", "@PO");
TOKEN LessEqualToken = FixedToken("<=", "lessequal @A @PO");
TOKEN GreaterEqualToken = FixedToken(">=", "greaterequal @A @PO");
TOKEN CNotEqualToken = FixedToken("!=", "notequal @A @PO");
TOKEN EiffelNotEqualToken = FixedToken("/=", "notequal @A @PO");
TOKEN BlueNotEqualToken = FixedToken("<>", "notequal @A @PO");
TOKEN AssignToken = FixedToken(":=", "@PO");
TOKEN QuestionAssignToken = FixedToken("?=", "@PO");
TOKEN DollarToken = FixedToken("$", "@PO");
TOKEN ImpliesToken = FixedToken("=>", "implies @A @PO");
/*****************************************************************************/
/* */
/* Fixed-string tokens that are to be printed COMMAND_ONLY (no parameter). */
/* */
/*****************************************************************************/
#define NoParameterToken(str, command) /* define fixed-string token */ \
{ \
str, /* name used for debugging only */ \
PRINT_COMMAND_ONLY, /* print only the command */ \
command, /* Lout command for formatting this */ \
"", /* no alternate command */ \
"", /* no following command */ \
FALSE, /* token not just start of line */ \
{ str }, /* token begins (and ends!) with this */ \
{ NULL }, /* no start2 needed */ \
{ NULL }, /* so no bracket2 either */ \
{ NULL }, /* so no end2 either */ \
"", /* nothing inside, since no inside */ \
"", "", /* no escape character */ \
"", "", /* no inner escape; no end inner esc */ \
"", /* no bracketing delimiter */ \
"", /* no ending delimiter */ \
FALSE, /* end not have to be at line start */ \
FALSE, /* don't end delimiter twice to stop */ \
}
TOKEN StarToken = NoParameterToken("*", "{@PA}");
TOKEN MinusToken = NoParameterToken("-", "{@PM}");
TOKEN EiffelDotToken = NoParameterToken(".", "{@PD}");
TOKEN PythonPowerToken = FixedToken( "**", "@PO" ) ;
TOKEN PythonBitLeftShiftToken = FixedToken( "<<", "@PO" ) ;
TOKEN PythonBitRightShiftToken = FixedToken( ">>", "@PO" ) ;
TOKEN PythonBacktickToken = FixedToken( "`", "@PO" ) ;
/*****************************************************************************/
/* */
/* Perl (quarantined from other languages since it's very different). */
/* */
/* Perl code co-authored by Jeffrey H. Kingston and Mark Summerfield */
/* March 2000 */
/* */
/* In the comments below, WCS refers to "Programming Perl", Second */
/* Edition (1996), by Wall, Christiansen, and Schwartz. However Perl */
/* has changed since then and this code also reflects those changes */
/* based on the on-line documentation provided with the 5.6.0 release. */
/* */
/*****************************************************************************/
/*****************************************************************************/
/* */
/* Perl's strings and regular expressions */
/* */
/* The table in WCS pp. 41 is a good summary of the possibilities: */
/* */
/* '' q// */
/* "" qq// */
/* `` qx// */
/* () qw// */
/* // m// */
/* s/// s/// */
/* y/// tr/// */
/* */
/* To this must be added the following quotation, which begins just */
/* below the table: */
/* */
/* Any non-alphabetic, non-whitespace delimiter can be used in place */
/* of /. If the opening delimiter is a parenthesis, bracket, brace, */
/* or angle bracket, the closing delimiter will be the matching */
/* construct. (Embedded occurrences of the delimiters must match in */
/* pairs.) ... Finally, for two-string constructs like s/// and tr///, */
/* if the first pair of quotes is a bracketing pair, then the second */
/* part gets its own starting quote character, which needn't be the */
/* same as the first pair. So you can write things like s{foo}(bar) */
/* or tr[a-z][A-Z]. Whitespace is allowed between the two inner quote */
/* characters, so you could even write that last one as */
/* */
/* tr [a-z] */
/* [A-Z] */
/* */
/* Amazingly, the tokens below implement all of this perfectly except that */
/* when / appears without anything in front, it will be recognized as a */
/* regular expression provided that one of a long list of things precedes */
/* it, otherwise it will be a division symbol. This is not perfect but */
/* seems to come extremely close in practice. */
/* */
/*****************************************************************************/
TOKEN PerlSingleQuoteStringToken = {
"''-string", /* used by error messages involving this token */
PRINT_WHOLE_QUOTED, /* print this token in quotes etc. as usual */
"@PS", /* Lout command for formatting strings */
"", /* no alternate command */
"", /* no following command */
FALSE, /* token allowed anywhere, not just start of line */
{ "'" }, /* strings begin with a ' character */
{ NULL }, /* no start2 needed */
{ NULL }, /* so no bracket2 either */
{ NULL }, /* so no end2 either */
AllCharacters, /* inside, any character at all is OK */
"\\", /* within strings, \\ is the escape character */
AllCharacters, /* after escape, any character is OK (trust us) */
"", "", /* no "inner escapes"; no end innner escape */
"", /* no bracketing delimiter */
"\'", /* strings end with a ' character */
FALSE, /* end delimiter does not have to be at line start */
FALSE, /* don't need to see end delimiter twice to stop */
};
TOKEN PerlDoubleQuoteStringToken = {
"\"\"-string", /* used by error messages involving this token */
PRINT_WHOLE_QUOTED, /* print this token in quotes etc. as usual */
"@PS", /* Lout command for formatting strings */
"", /* no alternate command */
"", /* no following command */
FALSE, /* token allowed anywhere, not just start of line */
{ "\"" }, /* strings begin with a " character */
{ NULL }, /* no start2 needed */
{ NULL }, /* so no bracket2 either */
{ NULL }, /* so no end2 either */
AllCharacters, /* inside, any character at all is OK */
"\\", /* within strings, \\ is the escape character */
AllCharacters, /* after escape char, any character at all is OK */
"", "", /* no "inner escapes"; no end innner escape */
"", /* no bracketing delimiter */
"\"", /* strings end with a " character */
FALSE, /* end delimiter does not have to be at line start */
FALSE, /* don't need to see end delimiter twice to stop */
};
TOKEN PerlBackQuoteStringToken = {
"``-string", /* used by error messages involving this token */
PRINT_WHOLE_QUOTED, /* print this token in quotes etc. as usual */
"@PS", /* Lout command for formatting strings */
"", /* no alternate command */
"", /* no following command */
FALSE, /* token allowed anywhere, not just start of line */
{ "`" }, /* strings begin with a ` character */
{ NULL }, /* no start2 needed */
{ NULL }, /* so no bracket2 either */
{ NULL }, /* so no end2 either */
AllCharacters, /* inside, any character at all is OK */
"\\", /* within strings, \\ is the escape character */
AllCharacters, /* after escape char, any character at all is OK */
"", "", /* no "inner escapes"; no end innner escape */
"", /* no bracketing delimiter */
"`", /* strings end with a ` character */
FALSE, /* end delimiter does not have to be at line start */
FALSE, /* don't need to see end delimiter twice to stop */
};
TOKEN PerlQTypeStringToken = {
"q-type string", /* used by error messages involving this token */
PRINT_WHOLE_QUOTED, /* print this token in quotes etc. as usual */
"@PS", /* Lout command for formatting strings */
"", /* no alternate command */
"", /* no following command */
FALSE, /* token allowed anywhere, not just start of line */
{ "q", "qq", "qx", "qw", "qr", "m" }, /* q-type strings begin with these */
{ SepPunct }, /* start2 can be any punctuation character */
{ BktPunct }, /* bracketing delimiters to match SepPunct */
{ EndPunct }, /* end2 must match start2 */
AllCharacters, /* inside, any character at all is OK */
"\\", /* within strings, \\ is the escape character */
AllCharacters, /* after escape char, any character at all is OK */
"", /* strings do not permit "inner escapes" */
"", /* and so there is no end innner escape either */
"", /* will be using bracket2 for bracket delimiter */
"", /* will be using end2 for the end delimiter here */
FALSE, /* end delimiter does not have to be at line start */
FALSE, /* don't need to see end delimiter twice to stop */
};
TOKEN PerlSTypeStringToken = {
"s-type string", /* used by error messages involving this token */
PRINT_WHOLE_QUOTED, /* print this token in quotes etc. as usual */
"@PS", /* Lout command for formatting strings */
"", /* no alternate command */
"", /* no following command */
FALSE, /* token allowed anywhere, not just start of line */
{ "s", "y", "tr" }, /* s-type strings begin with these */
{ SepPunct }, /* start2 can be any punctuation character */
{ BktPunct }, /* bracketing delimiters to match SepPunct */
{ EndPunct }, /* end2 must match start2 */
AllCharacters, /* inside, any character at all is OK */
"\\", /* within strings, \\ is the escape character */
AllCharacters, /* after escape char, any character at all is OK */
"", /* strings do not permit "inner escapes" */
"", /* and so there is no end innner escape either */
"", /* will be using bracket2 for bracket delimiter */
"", /* will be using end2 for the end delimiter here */
FALSE, /* end delimiter does not have to be at line start */
TRUE, /* need to see end delimiter twice to stop */
};
/*****************************************************************************/
/* */
/* Perl "bare" regular expressions */
/* */
/* By a bare regular expression, we mean one that is not preceded by m. */
/* These are distinguished from division by being preceded by one of (, =, */
/* =~, !~, split, if, and, &&, not, ||, xor, not, !, unless, for, foreach, */
/* or while, with up to two white space characters intervening. Also, */
/* a / at the start of a line is taken to begin a regular expression. */
/* */
/*****************************************************************************/
#define PerlREToken(start, com) \
{ \
"regex", /* used by error messages */ \
PRINT_NODELIMS_QUOTED,/* no delims since we supply them */ \
com, /* the command */ \
"", /* no alternate command */ \
"@PS{\"/\"}", /* following command (final /) */ \
FALSE, /* token allowed not just start of line */ \
{ start }, /* preceding token in this case */ \
{ "/", " /", "\t/", " /", " \t/", "\t /", "\t\t/" }, /* start2 */ \
{ "", "", "", "", "", "", "" }, /* bracket2 */ \
{ "/", "/", "/", "/", "/", "/", "/" }, /* end2 */ \
AllCharacters, /* any character OK inside */ \
"\\", /* \\ is the escape character */ \
AllCharacters, /* after escape char, any is OK */ \
"", /* no inner escapes */ \
"", /* no end innner escape either */ \
"", /* will be using bracket2 here */ \
"", /* will be using end2 here */ \
FALSE, /* no need to end at line start */ \
FALSE, /* don't want end delimiter twice */ \
}
TOKEN PerlRegExpLPar = PerlREToken("(", "@PO{\"(\"} @PS{\"/\"}@PS");
TOKEN PerlRegExpEq = PerlREToken("=", "@PO{\"=\"} @PS{\"/\"}@PS");
TOKEN PerlRegExpMatch = PerlREToken("=~", "@PO{\"=~\"} @PS{\"/\"}@PS");
TOKEN PerlRegExpNoMatch = PerlREToken("!~", "@PO{\"!~\"} @PS{\"/\"}@PS");
TOKEN PerlRegExpSplit = PerlREToken("split", "@PK{split} @PS{\"/\"}@PS");
TOKEN PerlRegExpIf = PerlREToken("if", "@PK{if} @PS{\"/\"}@PS");
TOKEN PerlRegExpAnd = PerlREToken("and", "@PK{and} @PS{\"/\"}@PS");
TOKEN PerlRegExpAnd2 = PerlREToken("&&", "@PO{\"&&\"} @PS{\"/\"}@PS");
TOKEN PerlRegExpOr = PerlREToken("or", "@PK{or} @PS{\"/\"}@PS");
TOKEN PerlRegExpOr2 = PerlREToken("||", "@PO{\"||\"} @PS{\"/\"}@PS");
TOKEN PerlRegExpXor = PerlREToken("xor", "@PK{xor} @PS{\"/\"}@PS");
TOKEN PerlRegExpNot = PerlREToken("not", "@PK{not} @PS{\"/\"}@PS");
TOKEN PerlRegExpNot2 = PerlREToken("!", "@PO{\"!\"} @PS{\"/\"}@PS");
TOKEN PerlRegExpUnless = PerlREToken("unless", "@PK{unless} @PS{\"/\"}@PS");
TOKEN PerlRegExpFor = PerlREToken("for", "@PK{for} @PS{\"/\"}@PS");
TOKEN PerlRegExpForEach = PerlREToken("foreach","@PK{foreach} @PS{\"/\"}@PS");
TOKEN PerlRegExpWhile = PerlREToken("while", "@PK{while} @PS{\"/\"}@PS");
TOKEN PerlRegExpStartLineToken =
{
"regex", /* used by error messages */
PRINT_WHOLE_QUOTED, /* we can print the whole thing this time */
"@PS", /* the command */
"", /* no alternate command */
"", /* no following command */
TRUE, /* token allowed only at start of line */
{ "/" }, /* starting delimiter (so easy!) */
{ NULL }, /* no start2 */
{ NULL }, /* so no bracket2 either */
{ NULL }, /* so no end2 either */
AllCharacters, /* any character OK inside */
"\\", /* \\ is the escape character */
AllCharacters, /* after escape char, any is OK */
"", /* no inner escapes */
"", /* no end innner escape either */
"", /* no bracketing delimiter */
"/", /* ending delimiter */
FALSE, /* no need to end at line start */
FALSE, /* don't want end delimiter twice */
};
/*****************************************************************************/
/* */
/* Perl's here-documents [OBSOLETE CODE - see following for replacement] */
/* */
/* At present the only terminating strings recognized are EOT, EOF, END, */
/* and the empty string. These may all be quoted in the usual ways. */
/* */
/*****************************************************************************/
#define X(startstr, endstr, startcom, endcom) \
{ \
"here-document", /* used by error messages */ \
PRINT_NODELIMS_QUOTED,/* no delims since we supply them */ \
startcom, /* the command */ \
"", /* no alternate command */ \
endcom, /* following command */ \
FALSE, /* token allowed not just start of line */ \
{ startstr }, /* starting delimiter */ \
{ NULL }, /* no start2 */ \
{ NULL }, /* so no bracket2 either */ \
{ NULL }, /* no end2 */ \
AllCharacters, /* any character OK inside */ \
"", "", /* no escape character */ \
"", "", /* no inner escapes */ \
"", /* no bracketing delimiter */ \
endstr, /* token ends with this */ \
TRUE, /* must be found at line start */ \
FALSE, /* don't want end delimiter twice */ \
}
#define sEOT "\n@PS{\"EOT\"}\n"
#define sEOF "\n@PS{\"EOF\"}\n"
#define sEND "\n@PS{\"END\"}\n"
#define sBLA "\n@PS{\"\"}\n"
/* ***
TOKEN HereEOTuq = X("<<EOT", "EOT\n", "@PO{<<}@PS{\"EOT\"}@PS", sEOT);
TOKEN HereEOTdq = X("<<\"EOT\"","EOT\n", "@PO{<<}@PS{\"\\\"EOT\\\"\"}@PS",sEOT);
TOKEN HereEOTfq = X("<<'EOT'", "EOT\n", "@PO{<<}@PS{\"'EOT'\"}@PS", sEOT);
TOKEN HereEOTbq = X("<<`EOT`", "EOT\n", "@PO{<<}@PS{\"`EOT`\"}@PS", sEOT);
TOKEN HereEOFuq = X("<<EOF", "EOF\n", "@PO{<<}@PS{\"EOF\"}@PS", sEOF);
TOKEN HereEOFdq = X("<<\"EOF\"","EOF\n", "@PO{<<}@PS{\"\\\"EOF\\\"\"}@PS",sEOF);
TOKEN HereEOFfq = X("<<'EOF'", "EOF\n", "@PO{<<}@PS{\"'EOF'\"}@PS", sEOF);
TOKEN HereEOFbq = X("<<`EOF`", "EOF\n", "@PO{<<}@PS{\"`EOF`\"}@PS", sEOF);
TOKEN HereENDuq = X("<<END", "END\n", "@PO{<<}@PS{\"END\"}@PS", sEND);
TOKEN HereENDdq = X("<<\"END\"","END\n", "@PO{<<}@PS{\"\\\"END\\\"\"}@PS",sEND);
TOKEN HereENDfq = X("<<'END'", "END\n", "@PO{<<}@PS{\"'END'\"}@PS", sEND);
TOKEN HereENDbq = X("<<`END`", "END\n", "@PO{<<}@PS{\"`END`\"}@PS", sEND);
TOKEN HereBLAuq = X("<< ", "\n", "@PO{<<} @PS", sBLA);
TOKEN HereBLAdq = X("<<\"\"", "\n", "@PO{<<}@PS{\"\\\"\\\"\"}@PS", sBLA);
TOKEN HereBLAfq = X("<<''", "\n", "@PO{<<}@PS{\"''\"}@PS", sBLA);
TOKEN HereBLAbq = X("<<``", "\n", "@PO{<<}@PS{\"``\"}@PS", sBLA);
*** */
/*****************************************************************************/
/* */
/* Perl's here-documents [OBSOLETE CODE - see following for replacement] */
/* */
/* At present the only terminating strings recognized are EOT, EOF, END, */
/* and the empty string. These may all be quoted in the usual ways. */
/* */
/*****************************************************************************/
#define HereToken(startstr, endstr) \
{ \
"here-document", /* used by error messages */ \
PRINT_WHOLE_QUOTED, /* as usual */ \
"@PS", /* here documents are strings */ \
"", /* no alternate command */ \
"", /* no following command */ \
FALSE, /* token allowed not just start of line */ \
{ startstr }, /* starting delimiter */ \
{ NULL }, /* no start2 */ \
{ NULL }, /* no bracket2 */ \
{ NULL }, /* no end2 */ \
AllCharacters, /* any character OK inside */ \
"", "", /* no escape character */ \
"", "", /* no inner escapes */ \
"", /* no bracketing delimiter */ \
endstr, /* token ends with this */ \
TRUE, /* must be found at line start */ \
FALSE, /* don't want end delimiter twice */ \
}
TOKEN HereEOTuq = HereToken("<<EOT", "EOT\n");
TOKEN HereEOTdq = HereToken("<<\"EOT\"","EOT\n");
TOKEN HereEOTfq = HereToken("<<'EOT'", "EOT\n");
TOKEN HereEOTbq = HereToken("<<`EOT`", "EOT\n");
TOKEN HereEOFuq = HereToken("<<EOF", "EOF\n");
TOKEN HereEOFdq = HereToken("<<\"EOF\"","EOF\n");
TOKEN HereEOFfq = HereToken("<<'EOF'", "EOF\n");
TOKEN HereEOFbq = HereToken("<<`EOF`", "EOF\n");
TOKEN HereENDuq = HereToken("<<END", "END\n");
TOKEN HereENDdq = HereToken("<<\"END\"","END\n");
TOKEN HereENDfq = HereToken("<<'END'", "END\n");
TOKEN HereENDbq = HereToken("<<`END`", "END\n");
TOKEN HereBLAuq = HereToken("<< ", "\n");
TOKEN HereBLAdq = HereToken("<<\"\"", "\n");
TOKEN HereBLAfq = HereToken("<<''", "\n");
TOKEN HereBLAbq = HereToken("<<``", "\n");
/*****************************************************************************/
/* */
/* Perl's identifiers */
/* */
/* "Names that start with a letter or underscore may be of any */
/* length ... and may contain letters, digits, and underscores. */
/* Names that start with a digit may only contain more digits. */
/* Names that start with anything else are limited to that one */
/* character (like $? or $$) and generally have a predefined */
/* significance to Perl." (WCS page 38) */
/* */
/* In addition we have to consider that variable names may be preceded */
/* by $, @, %, &, or *. Whether these are part of the variable or not is */
/* rather doubtful. We will treat $, @ and % as part of the variable and */
/* the others not (since they occur elsewhere in the token list anyway); */
/* plus we have a separate token type for identifiers beginning with $ and */
/* followed by one character, which we will list explicitly. */
/* We also deal with the $^. variables, e.g. $^W. */
/* */
/*****************************************************************************/
TOKEN PerlIdentifierToken = {
"identifier", /* used by error messages involving this token */
PRINT_WHOLE_QUOTED, /* print this token in quotes etc. as usual */
"@PI", /* Lout command for formatting identifiers */
"@PK", /* Alternate command (for keywords) */
"", /* no following command */
FALSE, /* token allowed anywhere, not just start of line */
{ SepLetters, "_", "$", "@", PercentLetters}, /* identifier starts */
{ NULL }, /* no start2 needed */
{ NULL }, /* so no bracket2 either */
{ NULL }, /* so no end2 either */
Letter_Digit, /* inside, letters, underscores, digits are OK */
"", /* no escape character within identifiers */
"", /* so nothing legal after escape char either */
"", /* identifiers do not permit "inner escapes" */
"", /* and so there is no end innner escape either */
"", /* no bracketing delimiter */
"", /* identifiers do not end with a delimiter */
FALSE, /* end delimiter does not have to be at line start */
FALSE, /* don't need to see end delimiter twice to stop */
};
TOKEN PerlSpecialIdentifierToken = {
"special variable", /* used by error messages involving this token */
PRINT_WHOLE_QUOTED, /* print this token in quotes etc. as usual */
"@PI", /* Lout command for formatting identifiers */
"", /* Alternate command (for keywords) */
"", /* no following command */
FALSE, /* token allowed anywhere, not just start of line */
{
/* Taken from 5.6.0's perlvar.pod */
/* NB special variables that begin $^, e.g. $^D can also be written as */
/* dollar control D (yes literal control D) -- but we ignore this */
/* wrinkle. We only list the first 9 regex match variables. */
/* Only the ones not recognized elsewhere are being kept now */
"$&", "$`", "$'", "$+", "@+", "$*", "$.", "$/", "$|", "$,", "$\\", "$\"",
"$;", "$#", "$%", "$=", "$-", "@-", "$~", "$^", "$:", "$^L", "$^A", "$?",
"$!", "$^E", "$@", "$$", "$<", "$>", "$(", "$)", "$0", "$[", "$]", "$^C",
"$^D", "$^F", "$^H", "%^H", "$^I", "$^M", "$^O", "$^P", "$^R", "$^S",
"$^T", "$^V", "$^W", "${^WARNING_BITS}", "${^WIDE_SYSTEM_CALLS}", "$^X",
},
{ NULL }, /* no start2 needed */
{ NULL }, /* so no bracket2 either */
{ NULL }, /* so no end2 either */
"", /* nothing allowed inside, since ends after start */
"", /* no escape character within identifiers */
"", /* so nothing legal after escape char either */
"", /* identifiers do not permit "inner escapes" */
"", /* and so there is no end innner escape either */
"", /* no bracketing delimiter */
"", /* identifiers do not end with a delimiter */
FALSE, /* end delimiter does not have to be at line start */
FALSE, /* don't need to see end delimiter twice to stop */
};
/*****************************************************************************/
/* */
/* Perl's numeric literals */
/* */
/* These are defined in WCS page 39 basically by giving these examples: */
/* */
/* 12345 # integer */
/* 12345.67 # floating point */
/* 6.02E23 # scientific notation */
/* 0xffff # hexadecimal */
/* 0377 # octal */
/* 4_294_967_296 # underline for legibility */
/* */
/* Implementation is straightforward; hexadecimal is a separate token. */
/* Binary numbers introduced with 5.6.0 of the form 0b1010 are also */
/* catered for. */
/* */
/*****************************************************************************/
TOKEN PerlLiteralNumberToken = {
"number", /* used by error messages involving this token */
PRINT_WHOLE_QUOTED, /* print this token in quotes etc. as usual */
"@PN", /* Lout command for formatting numbers */
"", /* no alternate command */
"", /* no following command */
FALSE, /* token allowed anywhere, not just start of line */
{ SepDigits }, /* numbers must begin with a digit */
{ NULL }, /* no start2 needed */
{ NULL }, /* so no bracket2 either */
{ NULL }, /* so no end2 either */
"0123456789.eE_", /* inside, digits, point, exponent, underscore */
"", /* no escape character within numbers */
"", /* so nothing legal after escape char either */
"", /* numbers do not permit "inner escapes" */
"", /* and so there is no end innner escape either */
"", /* no bracketing delimiter */
"", /* numbers do not end with a delimiter */
FALSE, /* end delimiter does not have to be at line start */
FALSE, /* don't need to see end delimiter twice to stop */
};
TOKEN PerlHexNumberToken = {
"number", /* used by error messages involving this token */
PRINT_WHOLE_QUOTED, /* print this token in quotes etc. as usual */
"@PN", /* Lout command for formatting numbers */
"", /* no alternate command */
"", /* no following command */
FALSE, /* token allowed anywhere, not just start of line */
{ "0x" }, /* hex numbers must begin with 0x */
{ NULL }, /* no start2 needed */
{ NULL }, /* so no bracket2 either */
{ NULL }, /* so no end2 either */
"0123456789AaBbCcDdEeFf", /* inside, hexadecimal digits */
"", /* no escape character within numbers */
"", /* so nothing legal after escape char either */
"", /* numbers do not permit "inner escapes" */
"", /* and so there is no end innner escape either */
"", /* no bracketing delimiter */
"", /* numbers do not end with a delimiter */
FALSE, /* end delimiter does not have to be at line start */
FALSE, /* don't need to see end delimiter twice to stop */
};
TOKEN PerlBinaryNumberToken = {
"number", /* used by error messages involving this token */
PRINT_WHOLE_QUOTED, /* print this token in quotes etc. as usual */
"@PN", /* Lout command for formatting numbers */
"", /* no alternate command */
"", /* no following command */
FALSE, /* token allowed anywhere, not just start of line */
{ "0b" }, /* binary numbers must begin with 0b */
{ NULL }, /* no start2 needed */
{ NULL }, /* so no bracket2 either */
{ NULL }, /* so no end2 either */
"01", /* inside, binary digits */
"", /* no escape character within numbers */
"", /* so nothing legal after escape char either */
"", /* numbers do not permit "inner escapes" */
"", /* and so there is no end innner escape either */
"", /* no bracketing delimiter */
"", /* numbers do not end with a delimiter */
FALSE, /* end delimiter does not have to be at line start */
FALSE, /* don't need to see end delimiter twice to stop */
};
/*****************************************************************************/
/* */
/* Perl's comments */
/* */
/* "Comments are indicated by the # character and extend to the end of */
/* the line." (WCS page 35). To this we have added the usual Lout escape */
/* comment beginning with #@. */
/* */
/*****************************************************************************/
TOKEN PerlCommentToken = {
"comment", /* used by error messages involving this token */
PRINT_WHOLE_QUOTED, /* print this token in quotes etc. as usual */
"@PC", /* Lout command for formatting comments */
"", /* no alternate command */
"", /* no following command */
FALSE, /* token allowed anywhere, not just start of line */
{ "#" }, /* comments begin with this character */
{ NULL }, /* no start2 needed */
{ NULL }, /* so no bracket2 either */
{ NULL }, /* so no end2 either */
AllPrintablePlusTab, /* inside, any printable char is OK (not NL) */
"", /* no escape character within comments */
"", /* so nothing legal after escape char either */
"", /* C comments do not permit "inner escapes" */
"", /* and so there is no end innner escape either */
"", /* no bracketing delimiter */
"", /* no end delimiter (end of line will end it) */
FALSE, /* end delimiter does not have to be at line start */
FALSE, /* don't need to see end delimiter twice to stop */
};
TOKEN PerlCommentEscapeToken = {
"Lout escape", /* used by error messages involving this token */
PRINT_NODELIMS_UNQUOTED, /* print this token unformatted */
"", /* no Lout command since we are printing raw */
"", /* no alternate command */
"", /* no following command */
FALSE, /* token allowed anywhere, not just start of line */
{ "#@" }, /* comments begin with this character pair */
{ NULL }, /* no start2 needed */
{ NULL }, /* so no bracket2 either */
{ NULL }, /* so no end2 either */
AllPrintablePlusTab, /* inside, any printable char is OK */
"", /* no escape character within comments */
"", /* so nothing legal after escape char either */
"", /* no "inner escape" in escape comments */
"", /* so no end of "inner escape" either */
"", /* no bracketing delimiter */
"", /* no end delimiter (end of line will end it) */
FALSE, /* end delimiter does not have to be at line start */
FALSE, /* don't need to see end delimiter twice to stop */
};
/*****************************************************************************/
/* */
/* Perl's POD sub-language */
/* */
/* Pod is handled as a completely different language. However we need */
/* one Perl token which recognizes an entire Pod interpolation and prints */
/* it enclosed in @Pod { ... } so that Lout knows to call back later on it. */
/* */
/* "A line beginning with = is assumed to introduce some documentation, */
/* which continues until another line is reached beginning with =cut" */
/* (WCS page 36). Strictly speaking this is only valid at points where */
/* a statement would be legal, but that is beyond prg2lout to implement. */
/* */
/*****************************************************************************/
TOKEN PerlPodToken = {
"perl-pod", /* used by error messages involving this token */
PRINT_NODELIMS_UNQUOTED, /* unquoted but with a command enclosing it */
"@DP @Pod", /* Lout command for formatting Pod */
"", /* no alternate command */
"@DP\n", /* following command */
TRUE, /* token allowed at start of line only */
{ "=", "=pod" }, /* pod insert begins with either of these */
{ NULL }, /* no start2 needed */
{ NULL }, /* so no bracket2 either */
{ NULL }, /* so no end2 either */
AllCharacters, /* inside, any character at all is OK */
"", /* no escape character within pod comments */
"", /* so nothing legal after escape char either */
"", /* pod comments do not permit "inner escapes" */
"", /* and so there is no end innner escape either */
"", /* no bracketing delimiter */
"=cut", /* pod comments end with this string */
TRUE, /* end delimiter must be at line start */
FALSE, /* don't need to see end delimiter twice to stop */
};
/*****************************************************************************/
/* */
/* Perl's operators */
/* */
/* Only those not already in the C/C++ list are given here. */
/* */
/*****************************************************************************/
TOKEN PerlIncrementToken = FixedToken( "++", "@PO" ) ;
TOKEN PerlDecrementToken = FixedToken( "--", "@PO" ) ;
TOKEN PerlExponentiateToken = FixedToken( "**", "@PO" ) ;
TOKEN PerlMatchToken = FixedToken( "=~", "@PO" ) ;
TOKEN PerlNotMatchToken = FixedToken( "!~", "@PO" ) ;
TOKEN PerlEqualToken = FixedToken( "==", "@PO" ) ;
TOKEN PerlAssignToken = FixedToken( "=", "@PO" ) ;
TOKEN PerlBitLeftShiftToken = FixedToken( "<<", "@PO" ) ;
TOKEN PerlBitRightShiftToken = FixedToken( ">>", "@PO" ) ;
TOKEN PerlSpaceshipToken = FixedToken( "<=>", "@PO" ) ;
TOKEN PerlAndToken = FixedToken( "&&", "@PO" ) ;
TOKEN PerlOrToken = FixedToken( "||", "@PO" ) ;
TOKEN PerlRange2Token = FixedToken( "..", "@PO" ) ;
TOKEN PerlRange3Token = FixedToken( "...", "@PO" ) ;
/*****************************************************************************/
/* */
/* FlagToken - for -r and the rest (followed by white space) */
/* */
/*****************************************************************************/
#define FlagToken(str, command) /* define fixed-string token */ \
{ \
str, /* name used for debugging only */ \
PRINT_WHOLE_QUOTED, /* print this token as usual */ \
command, /* Lout command for formatting this */ \
"", /* no alternate command */ \
"", /* no following command */ \
FALSE, /* token not just start of line */ \
{ str }, /* token begins (and ends!) with this */ \
{ " ", "\t" }, /* plus a white space char */ \
{ "", "" }, /* no bracket2 though */ \
{ "", "" }, /* no end2 though */ \
"", /* nothing inside, since no inside */ \
"", "", /* no escape character */ \
"", "", /* no inner escape; no end inner esc */ \
"", /* no bracketing delimiter */ \
"", /* no ending delimiter */ \
FALSE, /* end not have to be at line start */ \
FALSE, /* don't end delimiter twice to stop */ \
}
TOKEN PerlFileTestrToken = FlagToken( "-r", "@PO" ) ;
TOKEN PerlFileTestwToken = FlagToken( "-w", "@PO" ) ;
TOKEN PerlFileTestxToken = FlagToken( "-x", "@PO" ) ;
TOKEN PerlFileTestoToken = FlagToken( "-o", "@PO" ) ;
TOKEN PerlFileTestRToken = FlagToken( "-R", "@PO" ) ;
TOKEN PerlFileTestWToken = FlagToken( "-W", "@PO" ) ;
TOKEN PerlFileTestXToken = FlagToken( "-X", "@PO" ) ;
TOKEN PerlFileTestOToken = FlagToken( "-O", "@PO" ) ;
TOKEN PerlFileTesteToken = FlagToken( "-e", "@PO" ) ;
TOKEN PerlFileTestzToken = FlagToken( "-z", "@PO" ) ;
TOKEN PerlFileTestsToken = FlagToken( "-s", "@PO" ) ;
TOKEN PerlFileTestfToken = FlagToken( "-f", "@PO" ) ;
TOKEN PerlFileTestdToken = FlagToken( "-d", "@PO" ) ;
TOKEN PerlFileTestlToken = FlagToken( "-l", "@PO" ) ;
TOKEN PerlFileTestpToken = FlagToken( "-p", "@PO" ) ;
TOKEN PerlFileTestSToken = FlagToken( "-S", "@PO" ) ;
TOKEN PerlFileTestbToken = FlagToken( "-b", "@PO" ) ;
TOKEN PerlFileTestcToken = FlagToken( "-c", "@PO" ) ;
TOKEN PerlFileTesttToken = FlagToken( "-t", "@PO" ) ;
TOKEN PerlFileTestuToken = FlagToken( "-u", "@PO" ) ;
TOKEN PerlFileTestgToken = FlagToken( "-g", "@PO" ) ;
TOKEN PerlFileTestkToken = FlagToken( "-k", "@PO" ) ;
TOKEN PerlFileTestTToken = FlagToken( "-T", "@PO" ) ;
TOKEN PerlFileTestBToken = FlagToken( "-B", "@PO" ) ;
TOKEN PerlFileTestMToken = FlagToken( "-M", "@PO" ) ;
TOKEN PerlFileTestAToken = FlagToken( "-A", "@PO" ) ;
TOKEN PerlFileTestCToken = FlagToken( "-C", "@PO" ) ;
/*****************************************************************************/
/* */
/* Pod (Plain Old Documentation, used with Perl) tokens */
/* */
/* Pod is treated as a completely different language to Perl. It is */
/* quite possible to use Pod alone without Perl; or, thanks to the */
/* PerlPodToken, to embed Pod in Perl in the usual way. Quotations below */
/* are from Larry Wall's documentation, communicated by Mark Summerfield. */
/* */
/*****************************************************************************/
/*****************************************************************************/
/* */
/* Pod Verbatim paragraphs */
/* */
/* "A verbatim paragraph [is] distinguished by being indented (that is, it */
/* starts with a space or tab). It should be reproduced exactly, with */
/* tabs assumed to be on 8-column boundaries. There are no special */
/* formatting escapes." */
/* */
/* By a "paragraph" is meant a sequence of lines down to the next empty */
/* line; but we will handle verbatim paragraphs one line at a time. */
/* Also, an empty line in the input has to become an empty line in output. */
/* */
/*****************************************************************************/
TOKEN PodVerbatimLineToken = {
"verbatim-para", /* used by error messages involving this token */
PRINT_WHOLE_QUOTED, /* printing the whole paragraph quoted */
"@PV ", /* Lout command for formatting verbatim line */
"", "", /* no alternate command; no following command */
TRUE, /* token allowed at start of line only */
{ "\t", " " }, /* command begins with this */
{ NULL }, /* no start2 needed */
{ NULL }, /* so no bracket2 either */
{ NULL }, /* so no end2 either */
AllPrintablePlusTab, /* inside, any printable char except newline is OK */
"", "", /* no escape character within verbatim lines */
"", "", /* no "inner escapes" within verbatim lines */
"", /* no bracketing delimiter */
"", /* ends at end of line */
FALSE, /* don't need to be at start of line to end it */
FALSE, /* don't need to see end delimiter twice to stop */
};
TOKEN PodEmptyLineToken = {
"pod-empty-line", /* used by error messages involving this token */
PRINT_COMMAND_ONLY, /* printing just the command */
"@PPG\n", /* Lout command for formatting Pod empty line */
"", "", /* no alternate command; no following command */
TRUE, /* token allowed at start of line only */
{ "\n" }, /* command begins with this */
{ NULL }, /* no start2 needed */
{ NULL }, /* so no bracket2 either */
{ NULL }, /* so no end2 either */
"", /* nothing inside */
"", "", /* no escape character */
"", "", /* no inner escape */
"", /* no bracketing delimiter */
"", /* token will end with the end of the line */
FALSE, /* end delimiter does not have to be at line start */
FALSE, /* don't need to see end delimiter twice to stop */
};
/*****************************************************************************/
/* */
/* Pod Command paragraphs */
/* */
/* "All command paragraphs start with =, followed by an identifier, */
/* followed by arbitrary text that the command can use." */
/* */
/* "[A] command lasts up until the end of the paragraph, not the line. */
/* Hence, ... you can see the empty lines after each command to end */
/* its paragraph." */
/* */
/*****************************************************************************/
/*****************************************************************************/
/* */
/* Pod command paragraphs: =pod */
/* */
/* "The =pod directive does nothing beyond telling the compiler to lay off */
/* parsing code through the next =cut." */
/* */
/*****************************************************************************/
TOKEN PodIgnoreToken = {
"pod-cut", /* used by error messages involving this token */
PRINT_COMMAND_ONLY, /* printing just the command */
"", /* Lout command for formatting Pod cut (nothing) */
"", /* no alternate command */
"", /* no following command */
TRUE, /* token allowed at start of line only */
{ "=pod", "=cut" }, /* command begins with this */
{ NULL }, /* no start2 needed */
{ NULL }, /* so no bracket2 either */
{ NULL }, /* so no end2 either */
AllCharacters, /* anything at all can be inside */
"", /* no escape character */
"", /* so nothing legal after escape char either */
"", /* cut tokens do not permit "inner escapes" */
"", /* and so there is no end innner escape either */
"", /* no bracketing delimiter */
"\n", /* token will end with the end of the line */
TRUE, /* end delimiter (\n) has to be at a line start */
FALSE, /* don't need to see end delimiter twice to stop */
};
/*****************************************************************************/
/* */
/* Pod command paragraphs: =head1, =head2 (and =head3, folklore extension) */
/* */
/*****************************************************************************/
TOKEN PodHeading1Token = {
"=head1", /* used by error messages involving this token */
PRINT_NODELIMS_INNER, /* print without delimiters, formatting inner */
"@PHA", /* Lout command for formatting Pod heading */
"", "", /* no alternate command; no following command */
TRUE, /* token allowed at start of line only */
{"=head1","head1"}, /* command begins with this */
{ " ", "\t" }, /* helps to skip following white space */
{ "", "" }, /* no bracket2 */
{ "\n", "\n" }, /* token ends at end of line */
AllCharacters, /* anything in the heading */
"", "", /* no escape character; nothing legal after escape */
"", "", /* no inner escapes; no end inner escape */
"", /* no bracketing delimiter */
"\n\n", /* token will end with the first blank line */
FALSE, /* end delimiter (\n) has to be at a line start */
FALSE, /* don't need to see end delimiter twice to stop */
};
TOKEN PodHeading2Token = {
"=head2", /* used by error messages involving this token */
PRINT_NODELIMS_INNER, /* print without delimiters, formatting inner */
"@PHB", /* Lout command for formatting Pod heading */
"", "", /* no alternate command; no following command */
TRUE, /* token allowed at start of line only */
{ "=head2" }, /* command begins with this */
{ " ", "\t" }, /* helps to skip following white space */
{ "", "" }, /* no bracket2 */
{ "\n", "\n" }, /* token ends at end of line */
AllCharacters, /* anything in the heading */
"", "", /* no escape character; nothing legal after escape */
"", "", /* no inner escapes; no end inner escape */
"", /* no bracketing delimiter */
"\n\n", /* token will end with the first blank line */
FALSE, /* end delimiter (\n) has to be at a line start */
FALSE, /* don't need to see end delimiter twice to stop */
};
TOKEN PodHeading3Token = {
"=head3", /* used by error messages involving this token */
PRINT_NODELIMS_INNER, /* print without delimiters, formatting inner */
"@PHC", /* Lout command for formatting Pod heading */
"", "", /* no alternate command; no following command */
TRUE, /* token allowed at start of line only */
{ "=head3" }, /* command begins with this */
{ " ", "\t" }, /* helps to skip following white space */
{ "", "" }, /* no bracket2 */
{ "\n", "\n" }, /* token ends at end of line */
AllCharacters, /* anything in the heading */
"", "", /* no escape character; nothing legal after escape */
"", "", /* no inner escapes; no end inner escape */
"", /* no bracketing delimiter */
"\n\n", /* token will end with the first blank line */
FALSE, /* end delimiter (\n) has to be at a line start */
FALSE, /* don't need to see end delimiter twice to stop */
};
/*****************************************************************************/
/* */
/* Pod command paragraphs: =over, =item, and =back (for lists) */
/* */
/*****************************************************************************/
TOKEN PodOverToken = {
"=over", /* used by error messages involving this token */
PRINT_NODELIMS_UNQUOTED, /* just a number after =over, so this is safe */
"@RawTaggedList gap{@PLG}indent{@PLI}rightindent{@PLRI}labelwidth{@PLLW ",
"", /* no alternate command */
"} // {", /* open brace to match } at first item */
TRUE, /* token allowed at start of line only */
{ "=over" }, /* command begins with this */
{ NULL }, /* no start2 needed */
{ NULL }, /* so no bracket2 either */
{ NULL }, /* so no end2 either */
AllCharacters, /* inside, any printable char is OK */
"", "", /* no escape character; nothing legal after escape */
"", "", /* no inner escapes; no end inner escape */
"", /* no bracketing delimiter */
"\n", /* token will end with the end of the line */
TRUE, /* end delimiter (\n) has to be at a line start */
FALSE, /* don't need to see end delimiter twice to stop */
};
TOKEN PodItemToken = {
"=item", /* used by error messages involving this token */
PRINT_NODELIMS_INNER, /* printing just what follows =item on the line */
"@Null //}\n@DTI {@PLL", /* Lout command for formatting Pod item */
"", /* no alternate command */
"} {", /* open brace to enclose the item content */
TRUE, /* token allowed at start of line only */
{ "=item" }, /* command begins with this */
{ " ", "\t" }, /* helps to skip following white space */
{ "", "" }, /* no bracket2 */
{ "\n\n", "\n\n" }, /* token will end at blank line */
AllPrintableTabNL, /* any printable inside */
"", "", /* no escape character; nothing legal after escape */
"", "", /* no inner escapes; no end inner escape */
"", "", /* see brackets2[]; see ends2[] */
FALSE, /* end delimiter (\n) must already be at start */
FALSE, /* don't need to see end delimiter twice to stop */
};
TOKEN PodBackToken = {
"=back", /* used by error messages involving this token */
PRINT_COMMAND_ONLY, /* printing just the command */
"@Null // }\n@EndList\n", /* Lout command for formatting Pod back */
"", "", /* no alternate command; no following command */
TRUE, /* token allowed at start of line only */
{ "=back" }, /* command begins with this */
{ NULL }, /* no start2 needed */
{ NULL }, /* so no bracket2 either */
{ NULL }, /* so no end2 either */
AllCharacters, /* anything inside (in principle) */
"", "", /* no escape character; nothing legal after escape */
"", "", /* no inner escapes; no end inner escape */
"", /* no bracketing delimiter */
"\n", /* token will end with the next blank line */
TRUE, /* end delimiter (\n) has to be at a line start */
FALSE, /* don't need to see end delimiter twice to stop */
};
/*****************************************************************************/
/* */
/* Pod narrow items; for these, we are confident in using @TI not @DTI */
/* */
/*****************************************************************************/
#define PodNarrowItemToken(tag, command) \
{ \
"=item", /* used by error messages */ \
PRINT_NODELIMS_INNER, /* printing just what follows =item */ \
command, /* Lout command for formatting Pod item */ \
"", /* no alternate command */ \
"}} {", /* open brace to enclose the item content*/ \
TRUE, /* token allowed at start of line only */ \
{ "=item", "=item ", "=item\t", /* starts */ \
"=item ", "=item \t", "=item\t ", "=item\t\t" }, /* */ \
{ tag }, /* the tag we recognize */ \
{ "" }, /* no bracket2 */ \
{ "\n\n", "\n\n" }, /* token will end at blank line */ \
AllPrintableTabNL, /* any printable inside */ \
"", "", /* no escape character */ \
"", "", /* no inner escapes; no end inner escape */ \
"", "", /* see brackets2[]; see ends2[] */ \
FALSE, /* end delimiter (\n) already at start */ \
FALSE, /* don't need to see end delimiter twice */ \
}
TOKEN PodItemBullet = PodNarrowItemToken("*", "@Null //}\n@TI {@PLL {*");
TOKEN PodItem0 = PodNarrowItemToken("0", "@Null //}\n@TI {@PLL {0");
TOKEN PodItem1 = PodNarrowItemToken("1", "@Null //}\n@TI {@PLL {1");
TOKEN PodItem2 = PodNarrowItemToken("2", "@Null //}\n@TI {@PLL {2");
TOKEN PodItem3 = PodNarrowItemToken("3", "@Null //}\n@TI {@PLL {3");
TOKEN PodItem4 = PodNarrowItemToken("4", "@Null //}\n@TI {@PLL {4");
TOKEN PodItem5 = PodNarrowItemToken("5", "@Null //}\n@TI {@PLL {5");
TOKEN PodItem6 = PodNarrowItemToken("6", "@Null //}\n@TI {@PLL {6");
TOKEN PodItem7 = PodNarrowItemToken("7", "@Null //}\n@TI {@PLL {7");
TOKEN PodItem8 = PodNarrowItemToken("8", "@Null //}\n@TI {@PLL {8");
TOKEN PodItem9 = PodNarrowItemToken("9", "@Null //}\n@TI {@PLL {9");
/*****************************************************************************/
/* */
/* Pod command paragraphs: =for, =begin, =end */
/* */
/* "passed directly to particular formatters. A formatter that can utilize */
/* that format will use the section, otherwise it will be ignored." So */
/* I've put in a "=begin lout" token, also recognized as "=begin Lout". */
/* */
/*****************************************************************************/
TOKEN PodForToken = {
"=for", /* used by error messages involving this token */
PRINT_COMMAND_ONLY, /* printing just the command */
"", /* Lout command for formatting Pod for (nothing) */
"", "", /* no alternate command; no following command */
TRUE, /* token allowed at start of line only */
{ "=for" }, /* command begins with this */
{ NULL }, { NULL }, /* no start2 needed; so no bracket2 either */
{ NULL }, /* so no end2 either */
AllCharacters, /* anything inside */
"", "", /* no escape character; nothing legal after escape */
"", "", /* no inner escapes; no end inner escape */
"", /* no bracketing delimiter */
"\n", /* token will end with the end of the line */
TRUE, /* end delimiter (\n) has to be at a line start */
FALSE, /* don't need to see end delimiter twice to stop */
};
TOKEN PodBeginToken = {
"=begin", /* used by error messages involving this token */
PRINT_COMMAND_ONLY, /* printing just the command */
"", /* Lout command for formatting Pod for (nothing) */
"", "", /* no alternate command; no following command */
TRUE, /* token allowed at start of line only */
{ "=begin" }, /* command begins with this */
{ NULL }, { NULL }, /* no start2 needed; so no bracket2 either */
{ NULL }, /* so no end2 either */
AllCharacters, /* anything inside */
"", "", /* no escape character; nothing legal after escape */
"", "", /* no inner escapes; no end inner escape */
"", /* no bracketing delimiter */
"=end", /* token will end with =end character */
TRUE, /* end delimiter has to be at a line start */
FALSE, /* don't need to see end delimiter twice to stop */
};
TOKEN PodBeginLoutToken = {
"=begin lout", /* used by error messages involving this token */
PRINT_NODELIMS_UNQUOTED,/* this is a Lout escape, no delims or quotes */
"", /* Lout command for formatting Pod for (nothing) */
"", "", /* no alternate command; no following command */
TRUE, /* token allowed at start of line only */
{ "=begin lout", "=begin Lout" }, /* command begins with this */
{ NULL }, { NULL }, /* no start2 needed; so no bracket2 either */
{ NULL }, /* so no end2 either */
AllCharacters, /* anything inside */
"", "", /* no escape character; nothing legal after escape */
"", "", /* no inner escapes; no end inner escape */
"", /* no bracketing delimiter */
"=end", /* token will end with =end character */
TRUE, /* end delimiter has to be at a line start */
FALSE, /* don't need to see end delimiter twice to stop */
};
/*****************************************************************************/
/* */
/* Pod "Ordinary Block of Text" paragraphs */
/* */
/* "It will be filled, and maybe even justified" - I'm setting the whole */
/* Pod in adjust @Break, and making sure that verbatim and command */
/* paragraphs don't get adjusted. So no special requirements here, it */
/* should all happen without any explicit tokens, given that I've set */
/* the Pod language up to simply echo any characters (suitably quoted if */
/* necessary in Lout) that don't match anything else. */
/* */
/*****************************************************************************/
/*****************************************************************************/
/* */
/* Pod interior sequences (recursive) */
/* */
/* I<text> Italicize text */
/* B<text> Embolden text */
/* S<text> Text containing non-break spaces */
/* C<code> Code "render in typewriter font, or ..." */
/* */
/* Alternatively, instead of "<" .. ">" we may use "<< " .. " >>", or */
/* "<<< " .. " >>>", etc. (Note the whitespace.) */
/* */
/*****************************************************************************/
#define RecursiveToken(str, command) /* Pod recursive token */ \
{ \
str, /* name used for debugging only */ \
PRINT_NODELIMS_INNER, /* recursively format the inside */ \
command, /* Lout command for formatting this */ \
"", "", /* no alternate command; no following */ \
FALSE, /* token not just start of line */ \
{ str }, /* token begins with this */ \
{ "<", "<< ", "<<< ", "<<<< " }, /* start2 */ \
{ "", "", "", "" }, /* no bracket2 */ \
{ ">", " >>", " >>>", " >>>>" }, /* end2 */ \
AllCharacters, /* anything inside (in fact, not used)*/ \
"", "", /* no escape character */ \
"", "", /* no inner escape; no end inner esc */ \
"", /* will use brackets2 here */ \
"", /* will use end2 here */ \
FALSE, /* end not have to be at line start */ \
FALSE, /* don't end delimiter twice to stop */ \
}
TOKEN PodItalicToken = RecursiveToken("I", "@PFI");
TOKEN PodBoldToken = RecursiveToken("B", "@PFB");
TOKEN PodNoBreakToken = RecursiveToken("S", "@OneCol");
TOKEN PodCodeToken = RecursiveToken("C", "@PFC");
/*****************************************************************************/
/* */
/* Pod interior sequences (non-recursive) */
/* */
/* L<name> A link; these have an internal format I've not looked at yet. */
/* F<file> File name */
/* X<index> Index */
/* Z<> A zero-width space */
/* */
/* Alternatively, instead of "<" .. ">" we may use "<< " .. " >>", or */
/* "<<< " .. " >>>", etc. (Note the whitespace.) */
/* */
/*****************************************************************************/
#define InteriorToken(str, command, style) /* Pod delimited token */ \
{ \
str, /* name used for debugging only */ \
style, /* print this token unquoted */ \
command, /* Lout command for formatting this */ \
"", "", /* no alternate command; no following */ \
FALSE, /* token not just start of line */ \
{ str }, /* token begins with this */ \
{ "<", "<< ", "<<< ", "<<<< " }, /* start2 */ \
{ "", "", "", "" }, /* no bracket2 */ \
{ ">", " >>", " >>>", " >>>>" }, /* end2 */ \
AllCharacters, /* anything inside */ \
"", "", /* no escape character */ \
"", "", /* no inner escape; no end inner esc */ \
"", /* will use brackets2 here */ \
"", /* will use end2 here */ \
FALSE, /* end not have to be at line start */ \
FALSE, /* don't end delimiter twice to stop */ \
}
TOKEN PodFileToken = InteriorToken("F", "@PFF", PRINT_NODELIMS_QUOTED);
TOKEN PodLinkToken = InteriorToken("L", "@PFL", PRINT_NODELIMS_QUOTED);
TOKEN PodIndexToken = InteriorToken("X", "@PFX", PRINT_NODELIMS_QUOTED);
TOKEN PodZeroToken = InteriorToken("Z", "", PRINT_COMMAND_ONLY);
/*****************************************************************************/
/* */
/* Pod interior sequences (escape sequences) */
/* */
/* E<escape> A named character ("optional except in other interior */
/* sequences and when preceded by a capital letter") */
/* */
/* E<lt> A literal < */
/* E<gt> A literal > */
/* E<sol> A literal / */
/* E<verbar> A literal | */
/* E<n> Character number n (probably in ASCII) */
/* E<html> Some non-numeric HTML entity, such as E<Agrave> */
/* */
/* PodNumCharToken not tested. */
/* */
/*****************************************************************************/
TOKEN PodNumCharToken = {
"E<>", /* used by error messages involving this token */
PRINT_NODELIMS_UNQUOTED,/* we're doing these manually, since they're funny*/
"\"\\", /* precede character number with \" */
"", /* no alternate command */
"\"", /* follow character number with " */
FALSE, /* token allowed at start of line only */
{ "E<" }, /* command begins with this */
{ NULL }, /* no start2 needed */
{ NULL }, /* so no bracket2 either */
{ NULL }, /* so no end2 either */
"0123456789", /* digits inside */
"", "", /* no escape character */
"", "", /* no "inner escapes" */
"", /* no bracketing delimiter */
">", /* token will end with > character */
FALSE, /* end delimiter does not have to be at line start */
FALSE, /* don't need to see end delimiter twice to stop */
};
#define PodEscapeToken(str, command) /* Pod delimited token */ \
{ \
str, /* name used for debugging only */ \
PRINT_COMMAND_ONLY, /* print this token unquoted */ \
command, /* Lout command for formatting this */ \
"", /* no alternate command */ \
"", /* no following command */ \
FALSE, /* token not just start of line */ \
{ str }, /* token begins with this */ \
{ NULL }, /* start2 */ \
{ NULL }, /* bracket2 */ \
{ NULL }, /* end2 */ \
"", /* nothing inside */ \
"", "", /* no escape character */ \
"", "", /* no inner escape either */ \
"", /* no bracketing delimiter */ \
"", /* no ending delimiter */ \
FALSE, /* end not have to be at line start */ \
FALSE, /* don't end delimiter twice to stop */ \
}
TOKEN PodLessThanToken = PodEscapeToken("E<lt>", "<");
TOKEN PodGreaterThanToken = PodEscapeToken("E<gt>", ">");
TOKEN PodSlashToken = PodEscapeToken("E<sol>", "/");
TOKEN PodVerbarToken = PodEscapeToken("E<verbar>", "|");
/*****************************************************************************/
/* */
/* Mark Summerfield writes: */
/* */
/* The following table (and most of its comments) is copied from Gisle Aas */
/* HTML::Entities.pm module with the plain text characters being replaced */
/* by their Lout equivalents and the HTML entities with their pod */
/* equivalents. */
/* */
/*****************************************************************************/
/* Some normal chars that have special meaning in SGML context */
TOKEN PE00 = PodEscapeToken("E<amp>", "&");
/* already done above TOKEN PE01 = PodEscapeToken("E<gt>", ">"); */
/* already done above TOKEN PE02 = PodEscapeToken("E<lt>", "<"); */
TOKEN PE03 = PodEscapeToken("E<quot>", "\"\\\"\"");
/* PUBLIC ISO 8879-1986//ENTITIES Added Latin 1//EN//HTML */
TOKEN PE04 = PodEscapeToken("E<AElig>", "{@Char AE}");
TOKEN PE05 = PodEscapeToken("E<Aacute>", "{@Char Aacute}");
TOKEN PE06 = PodEscapeToken("E<Acirc>", "{@Char Acircumflex}");
TOKEN PE07 = PodEscapeToken("E<Agrave>", "{@Char Agrave}");
TOKEN PE08 = PodEscapeToken("E<Aring>", "{@Char Aring}");
TOKEN PE09 = PodEscapeToken("E<Atilde>", "{@Char Atilde}");
TOKEN PE10 = PodEscapeToken("E<Auml>", "{@Char Adieresis}");
TOKEN PE11 = PodEscapeToken("E<Ccedil>", "{@Char Ccedilla}");
TOKEN PE12 = PodEscapeToken("E<ETH>", "{@Char Eth}");
TOKEN PE13 = PodEscapeToken("E<Eacute>", "{@Char Eacute}");
TOKEN PE14 = PodEscapeToken("E<Ecirc>", "{@Char Ecircumflex}");
TOKEN PE15 = PodEscapeToken("E<Egrave>", "{@Char Egrave}");
TOKEN PE16 = PodEscapeToken("E<Euml>", "{@Char Edieresis}");
TOKEN PE17 = PodEscapeToken("E<Iacute>", "{@Char Iacute}");
TOKEN PE18 = PodEscapeToken("E<Icirc>", "{@Char Icircumflex}");
TOKEN PE19 = PodEscapeToken("E<Igrave>", "{@Char Igrave}");
TOKEN PE20 = PodEscapeToken("E<Iuml>", "{@Char Idieresis}");
TOKEN PE21 = PodEscapeToken("E<Ntilde>", "{@Char Ntilde}");
TOKEN PE22 = PodEscapeToken("E<Oacute>", "{@Char Oacute}");
TOKEN PE23 = PodEscapeToken("E<Ocirc>", "{@Char Ocircumflex}");
TOKEN PE24 = PodEscapeToken("E<Ograve>", "{@Char Ograve}");
TOKEN PE25 = PodEscapeToken("E<Oslash>", "{@Char Oslash}");
TOKEN PE26 = PodEscapeToken("E<Otilde>", "{@Char Otilde}");
TOKEN PE27 = PodEscapeToken("E<Ouml>", "{@Char Odieresis}");
TOKEN PE28 = PodEscapeToken("E<THORN>", "{@Char Thorn}");
TOKEN PE29 = PodEscapeToken("E<Uacute>", "{@Char Uacute}");
TOKEN PE30 = PodEscapeToken("E<Ucirc>", "{@Char Ucircumflex}");
TOKEN PE31 = PodEscapeToken("E<Ugrave>", "{@Char Ugrave}");
TOKEN PE32 = PodEscapeToken("E<Uuml>", "{@Char Udieresis}");
TOKEN PE33 = PodEscapeToken("E<Yacute>", "{@Char Yacute}");
TOKEN PE34 = PodEscapeToken("E<aacute>", "{@Char aacute}");
TOKEN PE35 = PodEscapeToken("E<acirc>", "{@Char acircumflex}");
TOKEN PE36 = PodEscapeToken("E<aelig>", "{@Char ae}");
TOKEN PE37 = PodEscapeToken("E<agrave>", "{@Char agrave}");
TOKEN PE38 = PodEscapeToken("E<aring>", "{@Char aring}");
TOKEN PE39 = PodEscapeToken("E<atilde>", "{@Char atilde}");
TOKEN PE40 = PodEscapeToken("E<auml>", "{@Char adieresis}");
TOKEN PE41 = PodEscapeToken("E<ccedil>", "{@Char ccedilla}");
TOKEN PE42 = PodEscapeToken("E<eacute>", "{@Char eacute}");
TOKEN PE43 = PodEscapeToken("E<ecirc>", "{@Char ecircumflex}");
TOKEN PE44 = PodEscapeToken("E<egrave>", "{@Char egrave}");
TOKEN PE45 = PodEscapeToken("E<eth>", "{@Char eth}");
TOKEN PE46 = PodEscapeToken("E<euml>", "{@Char edieresis}");
TOKEN PE47 = PodEscapeToken("E<iacute>", "{@Char iacute}");
TOKEN PE48 = PodEscapeToken("E<icirc>", "{@Char icircumflex}");
TOKEN PE49 = PodEscapeToken("E<igrave>", "{@Char igrave}");
TOKEN PE50 = PodEscapeToken("E<iuml>", "{@Char idieresis}");
TOKEN PE51 = PodEscapeToken("E<ntilde>", "{@Char ntilde}");
TOKEN PE52 = PodEscapeToken("E<oacute>", "{@Char oacute}");
TOKEN PE53 = PodEscapeToken("E<ocirc>", "{@Char ocircumflex}");
TOKEN PE54 = PodEscapeToken("E<ograve>", "{@Char ograve}");
TOKEN PE55 = PodEscapeToken("E<oslash>", "{@Char oslash}");
TOKEN PE56 = PodEscapeToken("E<otilde>", "{@Char otilde}");
TOKEN PE57 = PodEscapeToken("E<ouml>", "{@Char odieresis}");
TOKEN PE58 = PodEscapeToken("E<szlig>", "{@Char germandbls}");
TOKEN PE59 = PodEscapeToken("E<thorn>", "{@Char thorn}");
TOKEN PE60 = PodEscapeToken("E<uacute>", "{@Char uacute}");
TOKEN PE61 = PodEscapeToken("E<ucirc>", "{@Char ucircumflex}");
TOKEN PE62 = PodEscapeToken("E<ugrave>", "{@Char ugrave}");
TOKEN PE63 = PodEscapeToken("E<uuml>", "{@Char udieresis}");
TOKEN PE64 = PodEscapeToken("E<yacute>", "{@Char yacute}");
TOKEN PE65 = PodEscapeToken("E<yuml>", "{@Char ydieresis}");
/* Some extra Latin 1 chars that are listed in the HTML3.2 draft 1996/05/21 */
TOKEN PE66 = PodEscapeToken("E<copy>", "{@CopyRight}");
TOKEN PE67 = PodEscapeToken("E<reg>", "{@Register}");
TOKEN PE68 = PodEscapeToken("E<nbsp>", "~");
/* Additional ISO-8859/1 entities listed in rfc1866 (section 14) */
TOKEN PE69 = PodEscapeToken("E<iexcl>", "{@Char exclamdown}");
TOKEN PE70 = PodEscapeToken("E<cent>", "{@Char cent}");
TOKEN PE71 = PodEscapeToken("E<pound>", "{@Sterling}");
TOKEN PE72 = PodEscapeToken("E<curren>", "{@Char currency}");
TOKEN PE73 = PodEscapeToken("E<yen>", "{@Yen}");
TOKEN PE74 = PodEscapeToken("E<brvbar>", "{@Char bar}");
TOKEN PE75 = PodEscapeToken("E<sect>", "{@SectSym}");
TOKEN PE76 = PodEscapeToken("E<uml>", "{@Char dieresis}");
TOKEN PE77 = PodEscapeToken("E<ordf>", "{@Char ordfeminine}");
TOKEN PE78 = PodEscapeToken("E<laquo>", "{@Char guillemotleft}");
TOKEN PE79 = PodEscapeToken("E<not>", "{@Char logicalnot}");
TOKEN PE80 = PodEscapeToken("E<shy>", "{@Char hyphen}");
TOKEN PE81 = PodEscapeToken("E<macr>", "{@Char macron}");
TOKEN PE82 = PodEscapeToken("E<deg>", "{@Char degree}");
TOKEN PE83 = PodEscapeToken("E<plusmn>", "{@Char plusminus}");
TOKEN PE84 = PodEscapeToken("E<sup1>", "{@Char onesuperior}");
TOKEN PE85 = PodEscapeToken("E<sup2>", "{@Char twosuperior}");
TOKEN PE86 = PodEscapeToken("E<sup3>", "{@Char threesuperior}");
TOKEN PE87 = PodEscapeToken("E<acute>", "{@Char acute}");
TOKEN PE88 = PodEscapeToken("E<micro>", "{@Char mu}");
TOKEN PE89 = PodEscapeToken("E<para>", "{@ParSym}");
TOKEN PE90 = PodEscapeToken("E<middot>", "{@Char periodcentered}");
TOKEN PE91 = PodEscapeToken("E<cedil>", "{@Char cedilla}");
TOKEN PE92 = PodEscapeToken("E<ordm>", "{@Char ordmasculine}");
TOKEN PE93 = PodEscapeToken("E<raquo>", "{@Char guillemotright}");
TOKEN PE94 = PodEscapeToken("E<frac14>", "{@Char onequarter}");
TOKEN PE95 = PodEscapeToken("E<frac12>", "{@Char onehalf}");
TOKEN PE96 = PodEscapeToken("E<frac34>", "{@Char threequarters}");
TOKEN PE97 = PodEscapeToken("E<iquest>", "{@Char questiondown}");
TOKEN PE98 = PodEscapeToken("E<times>", "{@Multiply}");
TOKEN PE99 = PodEscapeToken("E<divide>", "{@Divide}");
/*****************************************************************************/
/* */
/* LANGUAGE - put your language declarations in this section. */
/* */
/* The field names and their meanings are: */
/* */
/* names Set of alternative names for this languages */
/* setup_file The default Lout setup file (e.g. "cprint", "eiffel") */
/* lang_sym The symbol for the language (e.g. "@CP", "@Eiffel") */
/* no_match What to do if something fails to match (see below) */
/* tokens Set of all tokens of this language */
/* keywords Set of all keywords for this language */
/* */
/* Acceptable values for no_match are: */
/* */
/* NO_MATCH_ERROR Generate an error message and skip the character. */
/* */
/* NO_MATCH_PRINT Print the character in a way that is Lout-safe; that */
/* is, mostly raw but in quotes for "/", "@" etc., and */
/* handling tabs and newlines appropriately. */
/* */
/*****************************************************************************/
#define NO_MATCH_ERROR 1
#define NO_MATCH_PRINT 2
#define NO_LANGUAGE ((LANGUAGE *) NULL)
typedef struct lang_rec {
char *names[MAX_NAMES];
char *setup_file;
char *lang_sym;
int no_match;
TOKEN *tokens[MAX_TOKENS];
char *keywords[MAX_KEYWORDS];
} LANGUAGE;
LANGUAGE CLanguage = {
{ "C", "c", "C++", "c++" },
"cprint", "@CP",
NO_MATCH_ERROR,
{
&CStringToken, &CCharacterToken, &IdentifierToken, &NumberToken,
&CCommentToken, &CCommentEscapeToken,
&CPPCommentToken, &CPPCommentEscapeToken,
&HashToken, &ExclamationToken, &PercentToken, &HatToken,
&AmpersandToken, &StarToken, &LeftParenToken, &RightParenToken,
&MinusToken, &PlusToken, &EqualToken, &LeftBraceToken, &RightBraceToken,
&BarToken, &CircumToken, &LeftBracketToken, &RightBracketToken,
&SemicolonToken, &ColonToken, &LessToken, &GreaterToken,
&QuestionToken, &CommaToken, &DotToken, &SlashToken, &BackSlashToken,
&ArrowToken, &LessEqualToken, &GreaterEqualToken, &CNotEqualToken
},
{ "asm", "auto", "break", "case", "catch", "char", "class", "const",
"continue", "default", "delete", "do", "double", "else", "enum", "extern",
"float", "for", "friend", "goto", "if", "inline", "int", "long", "new",
"operator", "private", "protected", "public", "register", "return",
"short", "signed", "sizeof", "static", "struct", "switch", "template",
"this", "throw", "try", "typedef", "union", "unsigned", "virtual",
"void", "volatile", "while",
}
};
/* Tokens, keywords taken from the on-line documentation supplied with Python
* 1.5.1 */
LANGUAGE PythonLanguage = {
{ "Python", "python" },
"python", "@Python",
NO_MATCH_ERROR,
{ &BackSlashToken,
&PythonDblStringToken, &PythonSnglStringToken,
&PythonTriSnglStringToken, &PythonTriDblStringToken,
&PythonCommentToken, &IdentifierToken, &NumberToken,
&PlusToken, &MinusToken, &StarToken, &PythonPowerToken,
&SlashToken, &PercentToken, &PythonBitLeftShiftToken,
&PythonBitRightShiftToken, &AmpersandToken, &BarToken,
&HatToken, &CircumToken, &LessToken, &GreaterToken,
&LessEqualToken, &GreaterEqualToken, &BlueNotEqualToken,
&CNotEqualToken,
&LeftParenToken, &RightParenToken, &LeftBraceToken,
&RightBraceToken, &LeftBracketToken, &RightBracketToken,
&CommaToken, &ColonToken, &DotToken, &PythonBacktickToken,
&EqualToken, &SemicolonToken,
},
{
/* Keywords */
"and", "del", "for", "is", "raise",
"assert", "elif", "from", "lambda", "return",
"break", "else", "global", "not", "try",
"class", "except", "if", "or", "while",
"continue", "exec", "import", "pass",
"def", "finally", "in", "print",
/* Built-ins */
"None",
/* Built-in Exceptions */
"Exception", "StandardError", "ArithmeticError", "LookupError",
"AssertionError", "AttributeError", "EOFError", "FloatingPointError",
"IOError", "ImportError", "IndexError", "KeyError", "KeyboardInterrupt",
"MemoryError", "NameError", "OverflowError", "RuntimeError", "SyntaxError",
"SystemError", "SystemExit", "TypeError", "ValueError", "ZeroDivisionError",
/* Built-in Functions */
"__import__",
"abs", "apply",
"callable", "chr", "cmp", "coerce", "compile", "complex",
"delattr", "dir", "divmod",
"eval", "execfile",
"filter", "float",
"getattr", "globals",
"hasattr", "hash", "hex",
"id", "input", "intern", "int", "isinstance", "issubclass",
"len", "list", "locals", "long",
"map", "max", "min",
"oct", "open", "ord",
"pow",
"range", "raw_input", "reduce", "reload", "repr", "round",
"setattr", "slice", "str",
"tuple", "type",
"vars",
"xrange",
/* Built-in Modules */
"__builtin__", "__main__",
"al", "array", "audioop",
"binascii",
"cPickle", "cStringIO", "cd", "cmath", "crypt",
"dbm",
"fcntl", "fl", "fm",
"gdbm", "gl", "grp",
"imageop", "imgfile", "imp",
"jpeg",
"marshal", "math", "md5", "mpz",
"operator",
"parser", "posix", "pwd",
"re", "regex", "resource", "rgbimg", "rotor",
"select", "signal", "socket", "struct", "sunaudiodev", "sys", "syslog",
"termios", "thread", "time",
"zlib",
}
};
/*****************************************************************************/
/* */
/* Eiffel and Blue */
/* */
/*****************************************************************************/
LANGUAGE EiffelLanguage = {
{ "Eiffel", "eiffel" },
"eiffel", "@Eiffel",
NO_MATCH_ERROR,
{
&EiffelStringToken, &EiffelCharacterToken, &IdentifierToken, &NumberToken,
&EiffelCommentToken, &EiffelCommentEscapeToken,
&SemicolonToken, &CommaToken, &ColonToken, &EiffelDotToken,
&ExclamationToken, &EqualToken, &EiffelNotEqualToken, &LeftParenToken,
&RightParenToken, &LeftBracketToken, &RightBracketToken, &LeftBraceToken,
&RightBraceToken, &AssignToken, &QuestionAssignToken, &PlusToken,
&MinusToken, &StarToken, &DollarToken, &HatToken, &SlashToken,
&BackSlashToken, &LessToken, &GreaterToken, &LessEqualToken,
&GreaterEqualToken
},
{ "alias", "all", "and", "as", "check", "class", "creation", "debug",
"deferred", "do", "else", "elseif", "end", "ensure", "expanded", "export",
"external", "false", "feature", "from", "frozen", "if", "implies",
"indexing", "infix", "inherit", "inspect", "invariant", "is", "like",
"local", "loop", "obsolete", "old", "once", "or", "prefix", "redefine",
"rename", "require", "rescue", "retry", "select", "separate", "strip",
"then", "true", "undefine", "unique", "until", "variant", "when", "xor",
"not", "interface"
}
};
LANGUAGE BlueLanguage = {
{ "Blue", "blue" },
"blue", "@Blue",
NO_MATCH_ERROR,
{
&CStringToken, &IdentifierToken, &NumberToken,
&BlueCommentToken, &BlueCommentEscapeToken,
&CommaToken, &LessToken, &GreaterToken, &ColonToken, &AssignToken,
&LeftParenToken, &RightParenToken, &LeftBracketToken, &RightBracketToken,
&QuestionAssignToken, &ExclamationToken, &EiffelDotToken, &ImpliesToken,
&EqualToken, &BlueNotEqualToken, &LeftBraceToken, &RightBraceToken,
&PlusToken, &MinusToken, &StarToken, &SlashToken, &HatToken,
&LessEqualToken, &GreaterEqualToken
},
{ "and", "assert", "builtin", "case", "class", "const", "create", "creation",
"deferred", "div", "do", "else", "elseif", "end", "Enumeration",
"enumeration", "exit", "if", "in", "interface", "internal", "invariant",
"is", "loop", "manifest", "mod", "not", "of", "old", "on", "or", "post",
"pre", "redefined", "return", "routines", "super", "then", "uses", "var"
}
};
/*****************************************************************************/
/* */
/* Perl and Pod */
/* */
/* We list here all keywords, special variables, predefined filehandles, */
/* and any other identifier that is "built-in". */
/* */
/*****************************************************************************/
LANGUAGE PerlLanguage = {
{ "Perl", "perl", },
"perl", "@Perl",
NO_MATCH_ERROR,
{
&PerlSingleQuoteStringToken, &PerlDoubleQuoteStringToken,
&PerlBackQuoteStringToken, &PerlQTypeStringToken, &PerlSTypeStringToken,
&PerlRegExpLPar, &PerlRegExpEq, &PerlRegExpMatch, &PerlRegExpNoMatch,
&PerlRegExpSplit, &PerlRegExpIf, &PerlRegExpAnd, &PerlRegExpAnd2,
&PerlRegExpOr, &PerlRegExpOr2, &PerlRegExpXor, &PerlRegExpNot,
&PerlRegExpNot2, &PerlRegExpUnless, &PerlRegExpFor, &PerlRegExpForEach,
&PerlRegExpWhile, &PerlRegExpStartLineToken,
&HereEOTuq, &HereEOTdq, &HereEOTfq, &HereEOTbq,
&HereEOFuq, &HereEOFdq, &HereEOFfq, &HereEOFbq,
&HereENDuq, &HereENDdq, &HereENDfq, &HereENDbq,
&HereBLAuq, &HereBLAdq, &HereBLAfq, &HereBLAbq,
&PerlIdentifierToken, &PerlSpecialIdentifierToken,
&PerlLiteralNumberToken, &PerlHexNumberToken, &PerlBinaryNumberToken,
&PerlCommentToken, &PerlCommentEscapeToken, &PerlPodToken,
&ExclamationToken, &PercentToken, &HatToken, &AmpersandToken,
&StarToken, &SlashToken, &ArrowToken, &BackSlashToken,
&LeftParenToken, &RightParenToken, &MinusToken, &PlusToken,
&LeftBraceToken, &RightBraceToken, &BarToken, &CircumToken,
&LeftBracketToken, &RightBracketToken, &SemicolonToken, &ColonToken,
&LessToken, &GreaterToken, &QuestionToken, &CommaToken, &DotToken,
&LessEqualToken, &GreaterEqualToken, &CNotEqualToken,
&PerlIncrementToken, &PerlDecrementToken, &PerlExponentiateToken,
&PerlMatchToken, &PerlNotMatchToken,
&PerlEqualToken, &PerlAssignToken, &PerlBitLeftShiftToken,
&PerlBitRightShiftToken, &PerlSpaceshipToken,
&PerlAndToken, &PerlOrToken, &PerlRange2Token, &PerlRange3Token,
&PerlFileTestrToken, &PerlFileTestwToken, &PerlFileTestxToken,
&PerlFileTestoToken, &PerlFileTestRToken, &PerlFileTestWToken,
&PerlFileTestXToken, &PerlFileTestOToken, &PerlFileTesteToken,
&PerlFileTestzToken, &PerlFileTestsToken, &PerlFileTestfToken,
&PerlFileTestdToken, &PerlFileTestlToken, &PerlFileTestpToken,
&PerlFileTestSToken, &PerlFileTestbToken, &PerlFileTestcToken,
&PerlFileTesttToken, &PerlFileTestuToken, &PerlFileTestgToken,
&PerlFileTestkToken, &PerlFileTestTToken, &PerlFileTestBToken,
&PerlFileTestMToken, &PerlFileTestAToken, &PerlFileTestCToken,
},
{
/* Built-ins taken from WCS and on-line documentation for 5.6.0 */
/* dbmopen and dbmclose are not included because they are obsolete. */
"abs", "accept", "alarm", "atan2",
"bind", "binmode", "bless",
"caller", "can", "chdir", "chmod", "chomp", "chop", "chown", "chr", "chroot",
"close", "closedir", "connect", "continue", "cos", "crypt",
"defined", "delete", "die", "do", "dump",
"each", "endgrent", "endhostent", "endnetent", "endprotoent",
"endpwent", "endservent", "eof", "eval", "exec", "exists", "exit",
"exp",
"fcntl", "fileno", "flock", "fork", "format", "formline",
"getc", "getgrent", "getgrgid", "getgrnam", "gethostbyaddr",
"gethostbyname", "gethostent", "getlogin", "getnetbyaddr",
"getnetbyname", "getnetent", "getpeername", "getpgrp", "getppid",
"getpriority", "getprotobyname", "getprotobynumber", "getprotoent",
"getpwent", "getpwnam", "getpwuid", "getservbyname", "getservbyport",
"getservent", "getsockname", "getsockopt", "glob", "gmtime", "goto",
"grep",
"hex",
"import", "index", "int", "ioctl", "isa",
"join",
"keys", "kill",
"last", "lc", "lcfirst", "length", "link", "listen", "local",
"localtime", "lock", "log", "lstat",
"map", "mkdir", "msgctl", "msgget", "msgrcv", "msgsnd", "my",
"next", "no",
"oct", "open", "opendir", "ord", "our",
"pack", "package", "pipe", "pop", "pos", "print", "printf", "prototype", "push",
"quotemeta",
"rand", "read", "readdir", "readline", "readlink", "readpipe", "recv",
"redo", "ref", "rename", "require", "reset", "return", "reverse",
"rewinddir", "rindex", "rmdir",
"scalar", "seek", "seekdir", "select", "semctl", "semget", "semop",
"send", "setgrent", "sethostent", "setnetent", "setpgrp",
"setpriority", "setprotoent", "setpwent", "setservent",
"setsockopt", "shift", "shmctl", "shmget", "shmread", "shmwrite",
"shutdown", "sin", "sleep", "socket", "socketpair", "sort",
"splice", "split", "sprintf", "sqrt", "srand", "stat", "study",
"sub", "substr", "symlink", "syscall", "sysopen", "sysread", "sysseek",
"system", "syswrite",
"tell", "telldir", "tie", "tied", "time", "times", "truncate",
"unimport",
"uc", "ucfirst", "umask", "undef", "unlink", "unpack", "unshift",
"untie", "use", "utime",
"values", "vec", "VERSION",
"wait", "waitpid", "wantarray", "warn", "write",
/* Comparison operators */
"lt", "gt", "eq", "ne", "cmp", "le", "ge",
/* Special markers & constants */
"__DATA__", "__END__", "__FILE__", "__LINE__", "__PACKAGE__",
/* Predefined filehandles */
"ARGV", "ARGVOUT", "STDERR", "STDIN", "STDOUT", "DATA"
/* Pragmas */
"attributes", "autouse", "base", "blib", "bytes",
"constant", "charnames", "diagnostics", "fields", "filetest",
"integer", "less", "lib", "locale",
/* "open", Not listed here since its also a function */
"ops", "overload", "re", "sigtrap", "strict", "subs", "utf8",
"vars", "warnings",
/* Low-precedence logical operators */
"and", "or", "xor", "not",
/* The x keyword */
"x",
/* Control structures */
"if", "elsif", /* yes one e */ "else", "unless",
"while", "for", "foreach", "continue", "until",
/* Special subroutines */
"AUTOLOAD", "BEGIN", "CHECK", "END", "DESTROY", "INIT",
/* Predefined classes & namespaces */
"CORE", "GLOBAL", "UNIVERSAL", "SUPER",
/* Tie predefined subroutines */
"TIESCALAR",
"FETCH", "STORE",
"TIEARRAY",
"FETCHSIZE", "STORESIZE", "EXISTS", "DELETE",
"CLEAR", "PUSH", "POP", "SHIFT", "UNSHIFT", "SPLICE", "EXTEND",
"TIEHASH",
"FIRSTKEY", "NEXTKEY"
"TIEHANDLE",
"PRINT", "PRINTF", "WRITE", "READLINE", "GETC", "READ", "CLOSE",
"BINMODE", "OPEN", "EOF", "FILENO", "SEEK", "TELL",
}
};
LANGUAGE PodLanguage = {
{ "Pod", "pod", "POD" },
"pod", "@Pod",
NO_MATCH_PRINT,
{
&PodVerbatimLineToken, &PodEmptyLineToken, &PodIgnoreToken,
&PodHeading1Token, &PodHeading2Token,
&PodOverToken, &PodItemToken, &PodBackToken,
&PodItemBullet, &PodItem0, &PodItem1, &PodItem2, &PodItem3,
&PodItem4, &PodItem5, &PodItem6, &PodItem7, &PodItem8, &PodItem9,
&PodForToken, &PodBeginToken, &PodBeginLoutToken,
&PodItalicToken, &PodBoldToken, &PodCodeToken, &PodFileToken,
&PodNoBreakToken, &PodLinkToken, &PodIndexToken, &PodZeroToken,
&PodLessThanToken, &PodGreaterThanToken, &PodSlashToken,
&PodVerbarToken,
&PE00, /* &PE01, &PE02, */ &PE03, &PE04, &PE05, &PE06, &PE07, &PE08, &PE09,
&PE10, &PE11, &PE12, &PE13, &PE14, &PE15, &PE16, &PE17, &PE18, &PE19,
&PE20, &PE21, &PE22, &PE23, &PE24, &PE25, &PE26, &PE27, &PE28, &PE29,
&PE30, &PE31, &PE32, &PE33, &PE34, &PE35, &PE36, &PE37, &PE38, &PE39,
&PE40, &PE41, &PE42, &PE43, &PE44, &PE45, &PE46, &PE47, &PE48, &PE49,
&PE50, &PE51, &PE52, &PE53, &PE54, &PE55, &PE56, &PE57, &PE58, &PE59,
&PE60, &PE61, &PE62, &PE63, &PE64, &PE65, &PE66, &PE67, &PE68, &PE69,
&PE70, &PE71, &PE72, &PE73, &PE74, &PE75, &PE76, &PE77, &PE78, &PE79,
&PE80, &PE81, &PE82, &PE83, &PE84, &PE85, &PE86, &PE87, &PE88, &PE89,
&PE90, &PE91, &PE92, &PE93, &PE94, &PE95, &PE96, &PE97, &PE98, &PE99,
&PodNumCharToken,
},
{ NULL },
};
/*****************************************************************************/
/* */
/* The "languages" variable - add your language to this list */
/* */
/*****************************************************************************/
LANGUAGE *languages[] = {
& BlueLanguage,
& CLanguage,
& EiffelLanguage,
& PerlLanguage,
& PodLanguage,
& PythonLanguage,
};
/*****************************************************************************/
/*****************************************************************************/
/*****************************************************************************/
/*** ***/
/*** If you are adding a new language, you don't need to change anything ***/
/*** below this point. Just repeating: don't change anything below here. ***/
/*** ***/
/*****************************************************************************/
/*****************************************************************************/
/*****************************************************************************/
/*****************************************************************************/
/* */
/* Global constants and variables */
/* */
/*****************************************************************************/
#define DEBUG_SETUP 0
#define DEBUG_PROCESS 0
#define DEBUG_TRIE 0
#define DEBUG_NEXTCHAR 0
#define DEBUG_PREFIXEQ 0
#define DEBUG_EMIT 0
#define DEBUG_MAIN 0
#define PRG2LOUT_VERSION "prg2lout Version 2.0 (April 2000)"
#define MAX_LINE 1024
static char file_name[MAX_LINE]; /* current input file name */
static char curr_line[MAX_LINE]; /* current input line */
static int line_num; /* current input line number */
static int line_pos; /* current input column number */
static BOOLEAN raw_seen; /* TRUE if -r (raw mode) */
static BOOLEAN headers_option; /* TRUE if no -n option (headers) */
static char *style_option; /* value of -p option, else null */
static char *font_option; /* value of -f option, else null */
static char *size_option; /* value of -s option, else null */
static char *line_option; /* value of -v option, else null */
static char *tabin_option; /* value of -t option, else null */
static char *tabout_option; /* value of -T option, else null */
static char *setup_option; /* value of -S option, else null */
static char *language_option; /* value of -l option, else null */
static char *numbered_option; /* value of -L option, else null */
static BOOLEAN tab_by_spacing; /* TRUE if using space chars to tab */
static int tab_in; /* tab interval, value of -t option */
static float tab_out; /* tab interval width (-T option) */
static char tab_unit; /* unit of measurement for tab */
static BOOLEAN print_lines; /* TRUE if we are printing line nums */
static int print_num; /* current line num for printing */
static FILE *in_fp; /* where input comes from */
static FILE *out_fp; /* where output goes */
static FILE *err_fp; /* where error messages go */
/*****************************************************************************/
/* */
/* char *ErrorHeader() */
/* */
/* Returns a string showing the current file, line, and column. */
/* */
/*****************************************************************************/
char *ErrorHeader()
{ static char buff[MAX_LINE];
if( line_num == 0 || line_pos == 0 )
sprintf(buff, "prg2lout");
else if( raw_seen )
sprintf(buff, "prg2lout %d,%d", line_num, line_pos);
else
sprintf(buff, "prg2lout %s %d,%d", file_name, line_num, line_pos);
return buff;
}
/*****************************************************************************/
/* */
/* GetArg(arg, message, null_ok) */
/* */
/* Get the next command line argument's value into arg. If there isn't */
/* one, print an error message and quit unless null_ok is true. */
/* */
/*****************************************************************************/
#define GetArg(arg, message, null_ok) \
{ if( strcmp(argv[arg_pos]+2, "") != 0 ) \
arg = argv[arg_pos]+2; \
else if( !null_ok && arg_pos < argc-1 && *argv[arg_pos+1] != '-' ) \
arg = argv[++arg_pos]; \
else if( null_ok ) \
arg = (char *) NULL; \
else \
{ fprintf(err_fp, "%s: %s\n", ErrorHeader(), message); \
exit(1); \
} \
} /* end GetArg */
/*****************************************************************************/
/* */
/* char *EchoToken(TOKEN *t) */
/* */
/* Print a brief resume of token t */
/* */
/*****************************************************************************/
char *EchoToken(TOKEN *t)
{ static char buff[MAX_LINE];
if( t == (TOKEN *) NULL )
sprintf(buff, "(NULL)");
else
sprintf(buff, "%s", t->name);
return buff;
}
/*****************************************************************************/
/* */
/* NextChar() */
/* */
/* Move to next character in the input file. This may involve changing */
/* global variables curr_line, line_num, and line_pos; the new character */
/* may be found in curr_line[line_pos]. */
/* */
/* NextChar does not skip any characters at all. When end of file is */
/* reached, curr_line[line_pos] contains '\0'. */
/* */
/* It is possible for code to read ahead of curr_line[line_pos] up to and */
/* including the newline character at the end of the line after the line */
/* we are currently on (thus it is possible to recognize an empty line as */
/* \n\n), but not beyond, using curr_line[line_pos + i] for i > 0. */
/* */
/*****************************************************************************/
void NextChar()
{
if( curr_line[line_pos] != '\n' )
{
/* we can carry on with the current line. This will yield '\0' as */
/* desired if EOF arrives before the end of the line */
line_pos++;
}
else if( curr_line[line_pos+1] != '\0' )
{
/* we've already read in the next line; it's at &curr_line[line_pos+1] */
strcpy(&curr_line[1], &curr_line[line_pos+1]);
line_num++;
line_pos = 1;
}
else
{
/* we need to read in the new line */
line_num++;
line_pos = 1;
if( fgets(&curr_line[1], MAX_LINE-2, in_fp) == (char *) NULL )
curr_line[1] = '\0';
}
if( DEBUG_NEXTCHAR )
fprintf(stderr, "after NextChar, line_num %d, line_pos %d, curr_line %s",
line_num, line_pos, &curr_line[1]);
} /* end NextChar */
/*****************************************************************************/
/* */
/* BOOLEAN InputMatches(char *pattern) */
/* */
/* Returns TRUE if input starting at curr_line[line_pos] matches pattern. */
/* To check this we may have to read an extra line or more of input. */
/* */
/*****************************************************************************/
BOOLEAN InputMatches(char *pattern)
{ char *p, *q;
for(p = &curr_line[line_pos], q = pattern; *q != '\0'; p++, q++ )
{
if( *p == '\0' )
{
/* attempt to read another line of input, since we are off the end */
if( fgets(p, MAX_LINE-2-(p - curr_line), in_fp) == (char *) NULL )
*p = '\0';
}
if( *p != *q )
break;
}
if( DEBUG_PREFIXEQ )
fprintf(stderr, "InputMatches(%s, %s) returning %s\n",
&curr_line[line_pos], pattern, *q == '\0' ? "TRUE" : "FALSE");
return (*q == '\0');
} /* end InputMatches */
/*****************************************************************************/
/* */
/* TRIE */
/* */
/* We use a trie to match the input against the opening pattern of each */
/* token, since some tokens (e.g. <=, // etc.) have multi-character */
/* opening patterns. */
/* */
/*****************************************************************************/
typedef struct trie_node {
struct trie_node *sub[MAX_CHAR];
TOKEN *value[MAX_CHAR];
} *TRIE;
/*****************************************************************************/
/* */
/* BOOLEAN TrieInsert(&T, str, val) */
/* */
/* Insert str into trie T. May need a new root so pass T by reference. */
/* Return FALSE if the insertion failed, either because the string was */
/* empty, or because it was the same as a previously inserted string. */
/* */
/*****************************************************************************/
BOOLEAN TrieInsert(TRIE *T, char *str, TOKEN *val)
{ BOOLEAN res;
if( DEBUG_TRIE )
fprintf(stderr, "[ TrieInsert(T, %s, %s)\n", str, EchoToken(val));
if( *str == '\0' )
res = FALSE;
else
{ if( *T == (TRIE) NULL )
*T = (TRIE) calloc(1, sizeof(struct trie_node)); /* will set all to 0 */
if( *(str + 1) != '\0' )
res = TrieInsert(&((*T)->sub[(int) *str]), str + 1, val);
else if( (*T)->value[(int) *str] != (TOKEN *) NULL )
res = FALSE;
else
{ (*T)->value[(int) *str] = val;
res = TRUE;
}
}
if( DEBUG_TRIE )
fprintf(stderr, "] TrieInsert(T, %s, %s) returning %s\n", str,
EchoToken(val), res ? "TRUE" : "FALSE");
return res;
}
/*****************************************************************************/
/* */
/* TOKEN *TrieRetrieve(T, str, &len) */
/* */
/* Find the longest prefix of string str in T. If this is empty, return */
/* NULL. If non-empty, return the corresponding value as the result, and */
/* the length of the prefix in *len. */
/* */
/*****************************************************************************/
TOKEN *TrieRetrieve(TRIE T, char *str, int *len)
{ TOKEN *res; int i;
if( DEBUG_TRIE )
fprintf(stderr, "[ TrieRetrieve(T, %s, len)\n", str);
res = (TOKEN *) NULL;
*len = 0;
for( i = 0; T != (TRIE) NULL; T = T->sub[(int) str[i]], i++ )
{ if( DEBUG_TRIE )
fprintf(stderr, " i = %d, res = %s\n", i, EchoToken(res));
if( T->value[(int) str[i]] != (TOKEN *) NULL )
{ res = T->value[(int) str[i]];
*len = i+1;
}
}
if( DEBUG_TRIE )
fprintf(stderr, "] TrieRetrieve returning (*len = %d) %s\n",
*len, EchoToken(res));
return res;
}
/*****************************************************************************/
/* */
/* HASH_TABLE */
/* */
/* We use a hash table to hold the keywords. There is no associated */
/* value, we just want to know whether they are there or not. */
/* */
/* NB MAX_SYM must be somewhat larger than the number of keywords. */
/* */
/*****************************************************************************/
#define MAX_SYM 609
static char *HashTable[MAX_SYM]; /* will initialze to NULL */
static int HashTableCount = 0; /* number of entries */
static int hash(char *key)
{ int i, res;
res = 0;
for( i = 0; key[i] != '\0'; i++ )
{ res += key[i];
}
return res % MAX_SYM;
} /* end hash */
void HashInsert(char *str)
{ int i;
if( DEBUG_SETUP )
fprintf(stderr, "[ HashInsert(%s)\n", str);
if( HashTableCount >= MAX_SYM - 20 )
{
fprintf(err_fp, "%s internal error: full hash table (increase MAX_SYM)\n",
ErrorHeader());
abort();
}
for( i = hash(str); HashTable[i] != (char *) NULL; i = (i+1) % MAX_SYM );
HashTable[i] = str;
HashTableCount++;
if( DEBUG_SETUP )
fprintf(stderr, "] HashInsert(%s)\n", str);
}
BOOLEAN HashRetrieve(char *str)
{ int i;
for( i = hash(str); HashTable[i] != (char *) NULL; i = (i+1) % MAX_SYM )
if( strcmp(HashTable[i], str) == 0 )
return TRUE;
return FALSE;
}
/*****************************************************************************/
/* */
/* BACK END */
/* */
/* This is the code that actually prints the output file. */
/* To emit one token, the call sequence should be as follows: */
/* */
/* StartEmit(LANGUAGE *lang, TOKEN *current_token, char *start_delim, l) */
/* Emit(TOKEN *current_token, char ch) */
/* ... */
/* Emit(TOKEN *current_token, char ch) */
/* EndEmit(TOKEN *current_token, char *end_delim) */
/* */
/* The back end will then take care of all print styles automatically, */
/* including checking for keywords. When emitting white space each space */
/* can be sent directly: */
/* */
/* EmitRaw(ch) */
/* */
/*****************************************************************************/
static char save_value[MAX_LINE]; /* the token text */
static int save_len; /* index of \0 in save_value */
static BOOLEAN save_on = FALSE; /* TRUE when saving */
static LANGUAGE *save_language; /* the current language */
static int out_linepos = 0; /* output line position */
static BOOLEAN out_linestart = TRUE; /* TRUE if out line start */
static BOOLEAN out_formfeed = FALSE; /* TRUE if last was formfeed */
static int brace_depth; /* brace depth in verbatim */
extern void Emit(TOKEN *current_token, char ch);
/*****************************************************************************/
/* */
/* EmitTab(int *out_linepos) */
/* */
/* Emit one tab character, keeping track of where we are up to in */
/* *out_linepos. */
/* */
/*****************************************************************************/
void EmitTab()
{
if( tab_by_spacing )
{ putc(' ', out_fp);
out_linepos++;
while( out_linepos % tab_in != 0 )
{ putc(' ', out_fp);
out_linepos++;
}
}
else
{ out_linepos++;
while( out_linepos % tab_in != 0 ) out_linepos++;
if( out_linestart )
{ fprintf(out_fp, "$>\"%.1f%c\" {}", tab_out, tab_unit);
/* NB {} is required in case nothing follows on this line */
}
else
fprintf(out_fp, "$>\"%.1f%ct\" {}", (out_linepos/tab_in)*tab_out,
tab_unit);
}
out_formfeed = FALSE;
}
/*****************************************************************************/
/* */
/* EmitRaw(ch) */
/* */
/* Emit this character immediately. This is only legal when not saving. */
/* All characters printed on the output file that represent actual text */
/* of the program (i.e. not commands, {}, "", \ in strings etc.) should */
/* pass through here, since EmitRaw keeps track of where we are on */
/* the output line, in order to handle tab characters correctly. */
/* */
/* NB out_linepos is the column where the *next* character will go, and */
/* it counts the first column on the line as column zero. It understands */
/* that a tab character always produces at least one space, and that the */
/* character after a tab goes in a column whose number mod tab_in is zero. */
/* */
/*****************************************************************************/
void EmitRaw(char ch)
{
if( DEBUG_EMIT )
fprintf(stderr, "EmitRaw(%c); out_linepos %d, out_linestart %s\n",
ch, out_linepos, out_linestart ? "TRUE" : "FALSE");
if( save_on )
{ fprintf(err_fp, "%s internal error (EmitRaw save_on)\n", ErrorHeader());
abort();
}
/* drop empty lines following formfeed */
if( out_formfeed && (ch == '\n' || ch == '\f') )
{
out_formfeed = (ch == '\f');
return;
}
/* emit line number if required */
if( print_lines && out_linepos == 0 )
{
char buff[20];
if( out_formfeed ) print_num--;
sprintf(buff, "%d", print_num++);
fprintf(out_fp, "@PL{\"%s\"}", buff);
out_linepos += strlen(buff);
out_linestart = FALSE;
EmitTab();
}
switch( ch )
{
case ' ':
fputc(ch, out_fp);
out_linepos++;
out_formfeed = FALSE;
break;
case '\t':
EmitTab();
out_formfeed = FALSE;
break;
case '\n':
fputc(ch, out_fp);
out_linepos = 0;
out_linestart = TRUE;
out_formfeed = FALSE;
break;
case '\f':
fputs("\n@NP\n", out_fp);
out_linepos = 0;
out_linestart = TRUE;
out_formfeed = TRUE;
break;
default:
fputc(ch, out_fp);
out_linepos++;
out_linestart = FALSE;
out_formfeed = FALSE;
break;
}
if( DEBUG_EMIT )
fprintf(stderr, "EmitRaw(%c) returning; out_linepos %d, out_linestart %s\n",
ch, out_linepos, out_linestart ? "TRUE" : "FALSE");
} /* end EmitRaw */
/*****************************************************************************/
/* */
/* StartEmit(LANGUAGE *lang, TOKEN *current_token, char *start_delim, len) */
/* */
/* Start the emission of a token. If it is a PRINT_WHOLE_QUOTED, it has */
/* to be saved since it might be a keyword. */
/* */
/* The token began with the starting delimiter start_delim[0..len-1]. */
/* */
/*****************************************************************************/
void StartEmit(LANGUAGE *lang, TOKEN *current_token, char *start_delim, int len)
{ int i;
if( save_on )
{
fprintf(err_fp, "%s internal error (StartEmit)\n", ErrorHeader());
abort();
}
save_language = lang;
/* emit line number if required */
if( print_lines && out_linepos == 0 )
{
char buff[20];
if( out_formfeed ) print_num--;
sprintf(buff, "%d", print_num++);
fprintf(out_fp, "@PL{\"%s\"}", buff);
out_linepos += strlen(buff);
out_linestart = FALSE;
EmitTab();
}
switch( current_token->print_style )
{
case PRINT_WHOLE_QUOTED:
/* start_delim is to be printed */
save_on = TRUE;
save_len = 0;
save_value[save_len] = '\0';
for( i = 0; i < len; i++ )
Emit(current_token, start_delim[i]);
break;
case PRINT_NODELIMS_QUOTED:
/* like PRINT_WHOLE_QUOTED, but no delims */
save_on = TRUE;
save_len = 0;
save_value[save_len] = '\0';
break;
case PRINT_WHOLE_UNQUOTED:
/* print command */
if( current_token->command[0] != '\0' )
fprintf(out_fp, "%s{", current_token->command); /*}*/
/* print opening delimiter, verbatim */
for( i = 0; i < len; i++ )
putc(start_delim[i], out_fp);
break;
case PRINT_NODELIMS_UNQUOTED:
/* command is printed but not delimiter */
if( current_token->command[0] != '\0' )
fprintf(out_fp, "%s{", current_token->command); /*}*/
/* record that we are currently inside no braces in the verbatim text */
brace_depth = 0;
break;
case PRINT_NODELIMS_INNER:
/* command is printed but not delimiter; always print opening brace */
fprintf(out_fp, "%s{", current_token->command); /*}*/
break;
case PRINT_COMMAND_ONLY:
/* command is printed but nothing else */
fprintf(out_fp, "%s", current_token->command);
break;
default:
fprintf(err_fp, "%s internal error (print_style)\n", ErrorHeader());
abort();
break;
}
} /* end StartEmit */
/*****************************************************************************/
/* */
/* EndEmit(TOKEN *current_token, char *end_delim) */
/* */
/* End emitting the current token. Its ending delimiter was end_delim. */
/* */
/*****************************************************************************/
#define at_start_line(s, i) ((i) == 0 || s[(i)-1] == '\n' || s[(i)-1] == '\f' )
void EndEmit(TOKEN *current_token, char *end_delim)
{ char *com;
int i;
BOOLEAN quoted_now = FALSE;
switch( current_token->print_style )
{
case PRINT_WHOLE_QUOTED:
/* first, emit (i.e. save) ending delimiter */
for( i = 0; end_delim[i] != '\0'; i++ )
Emit(current_token, end_delim[i]);
/* NB NO BREAK */
case PRINT_NODELIMS_QUOTED:
/* work out whether we are printing the command or its alternative */
com=(current_token->alternate_command[0]!='\0'&&HashRetrieve(save_value)?
current_token->alternate_command : current_token->command);
/* print command, opening brace */
if( com[0] != '\0' ) fprintf(out_fp, "%s{", com); /*}*/
/* print the token with appropriate escapes */
save_on = FALSE;
for( i = 0; i < save_len; i++ ) switch( save_value[i] )
{
case '@':
case '/':
case '|':
case '&':
case '#':
case '{':
case '}':
case '^':
case '~':
case '-':
if( !quoted_now )
{ putc('"', out_fp);
quoted_now = TRUE;
}
EmitRaw(save_value[i]);
break;
case '"':
case '\\':
if( !quoted_now )
{ putc('"', out_fp);
quoted_now = TRUE;
}
putc('\\', out_fp);
EmitRaw(save_value[i]);
break;
case ' ':
case '\t':
/* make initial white space significant using "" */
if( !quoted_now && at_start_line(save_value, i) )
{
putc('"', out_fp);
quoted_now = TRUE;
out_linestart = FALSE;
}
/* make sure we aren't in quoted text */
if( quoted_now )
{ putc('"', out_fp);
quoted_now = FALSE;
}
/* print the character */
EmitRaw(save_value[i]);
break;
case '\n':
case '\f':
/* these characters are not saved */
fprintf(err_fp, "%s internal error (EndEmit nl/ff)\n", ErrorHeader());
exit(1);
break;
default:
/* anything else can be quoted or unquoted ad. lib. */
EmitRaw(save_value[i]);
break;
}
/* print closing quote and closing brace if needed */
if( quoted_now ) putc('"', out_fp);
else if( save_len > 0 && is_whitespace(save_value[save_len-1]) )
fputs("\"\"", out_fp); /* makes trailing white space significant */
if( com[0] != '\0' ) /*{*/ putc('}', out_fp);
break;
case PRINT_WHOLE_UNQUOTED:
/* print end delimiter, verbatim */
fputs(end_delim, out_fp);
/* NB NO BREAK */
case PRINT_NODELIMS_UNQUOTED:
/* print closing brace if required*/
if( current_token->command[0] != '\0' )
{
if( brace_depth > 0 )
{
if( brace_depth > 1 )
fprintf(err_fp, "%s: inserted %d closing braces at end of %s\n",
ErrorHeader(), brace_depth, current_token->name);
else
fprintf(err_fp, "%s: inserted one closing brace at end of %s\n",
ErrorHeader(), current_token->name);
while( brace_depth > 0 )
{
/*{*/ putc('}', out_fp);
brace_depth--;
}
}
/*{*/ putc('}', out_fp);
}
break;
case PRINT_NODELIMS_INNER:
/* always print closing brace */
/*{*/ putc('}', out_fp);
break;
case PRINT_COMMAND_ONLY:
break;
default:
fprintf(err_fp, "%s internal error (print_style)\n", ErrorHeader());
abort();
break;
}
/* print following command if any */
if( current_token->following_command != NULL )
fprintf(out_fp, "%s", current_token->following_command);
} /* end EndEmit */
/*****************************************************************************/
/* */
/* Emit(TOKEN *current_token, char ch) */
/* */
/* Emit one character of the current token. */
/* */
/*****************************************************************************/
void Emit(TOKEN *current_token, char ch)
{
switch( current_token->print_style )
{
case PRINT_WHOLE_QUOTED:
case PRINT_NODELIMS_QUOTED:
if( !save_on )
{ fprintf(err_fp, "%s internal error (EmitChar)\n", ErrorHeader());
abort();
}
if( ch == '\n' || ch == '\f' )
{
/* could save newline too, but uses less memory if print now */
EndEmit(current_token, "");
EmitRaw(ch);
StartEmit(save_language, current_token, "", 0);
}
else if( save_len < MAX_LINE - 1 )
{
save_value[save_len++] = ch;
save_value[save_len] = '\0';
}
else
{
fprintf(err_fp, "%s internal error (token too long)\n", ErrorHeader());
exit(1);
}
break;
case PRINT_WHOLE_UNQUOTED:
case PRINT_NODELIMS_UNQUOTED:
/* keep trace of braces, and insert matching braces if required */
if( ch == '{' )
brace_depth++;
else if( ch == '}' )
{
brace_depth--;
if( brace_depth < 0 && current_token->command[0] != '\0' )
{
fprintf(err_fp, "%s: inserted opening brace within %s\n",
ErrorHeader(), current_token->name);
putc('{', out_fp); /*}*/
brace_depth++;
}
}
/* verbatim output */
putc(ch, out_fp);
break;
case PRINT_NODELIMS_INNER:
fprintf(err_fp, "%s internal error (emitting INNER)\n", ErrorHeader());
abort();
break;
case PRINT_COMMAND_ONLY:
/* emit nothing since printing the command only */
break;
default:
fprintf(err_fp, "%s internal error (print_style)\n", ErrorHeader());
abort();
break;
}
} /* end Emit */
/*****************************************************************************/
/* */
/* EmitProtected(char ch) */
/* */
/* Emit one character of the current token. If the character is a special */
/* one in Lout, protect it with quotes. */
/* */
/*****************************************************************************/
void EmitProtected(char ch)
{
switch( ch )
{
case '@':
case '/':
case '|':
case '&':
case '#':
case '{':
case '}':
case '^':
case '~':
case '-':
putc('"', out_fp);
EmitRaw(ch);
putc('"', out_fp);
break;
case '"':
case '\\':
putc('"', out_fp);
putc('\\', out_fp);
EmitRaw(ch);
putc('"', out_fp);
break;
default:
EmitRaw(ch);
break;
}
} /* end EmitProtected */
/*****************************************************************************/
/* */
/* TOKEN *ExpandToken(TOKEN *t, int starts_pos) */
/* */
/* Create a new token corresponding to t but using starts2[starts_pos] and */
/* ends2[starts_pos] only. */
/* */
/*****************************************************************************/
char *clone2strings(char *s1, char *s2)
{ char *res;
res = (char *) malloc( (strlen(s1) + strlen(s2) + 1) * sizeof(char));
sprintf(res, "%s%s", s1, s2);
if( DEBUG_SETUP )
fprintf(stderr, "clone2strings(%s, %s) = %s\n", s1, s2, res);
return res;
} /* end clone2strings */
TOKEN *ExpandToken(TOKEN *t, int starts_pos)
{ TOKEN *res; int i;
if( DEBUG_SETUP )
fprintf(stderr, "ExpandToken(%s, starts[0] = %s)\n", t->name, t->starts[0]);
res = (TOKEN *) calloc(1, sizeof(struct token_rec));
res->name = t->name;
res->print_style = t->print_style;
res->command = t->command;
res->alternate_command = t->alternate_command;
res->following_command = t->following_command;
res->start_line_only = t->start_line_only;
for( i = 0; t->starts[i] != NULL; i++ )
{
/* the starts of res are the start of t with starts2[starts_pos] added */
res->starts[i] = clone2strings(t->starts[i], t->starts2[starts_pos]);
}
res->legal = t->legal;
res->escape = t->escape;
res->escape_legal = t->escape_legal;
res->inner_escape = t->inner_escape;
res->end_inner_escape = t->end_inner_escape;
res->bracket_delimiter = t->brackets2[starts_pos];
res->end_delimiter = t->ends2[starts_pos];
res->end_start_line_only = t->end_start_line_only;
res->want_two_ends = t->want_two_ends;
if( DEBUG_SETUP )
fprintf(stderr, "ExpandToken returning res = %s, starts[0] = %s)\n",
res->name, res->starts[0]);
return res;
} /* end ExpandToken */
/*****************************************************************************/
/* */
/* void SetupOneToken(TOKEN *t) */
/* */
/* Set up one token. This involves initializing the chtype and */
/* escape_chtype fields for the token, and loading the trie with all */
/* the opening delimiters of the token. */
/* */
/*****************************************************************************/
#define LEGAL 1
#define ESCAPE 2
#define INNER_ESCAPE 3
TRIE Trie = (TRIE) NULL; /* these tokens allowed anywhere */
TRIE StartLineTrie = (TRIE) NULL; /* these allowed at line start only */
void SetupOneToken(TOKEN *t)
{ int j;
if( DEBUG_SETUP ) fprintf(stderr, "SetupOneToken(%s)\n", t->starts[0]);
/* check that any PRINT_NODELIMS_INNER styles have an end delimiter */
if( t->print_style == PRINT_NODELIMS_INNER )
{ if( t->end_delimiter == NULL || t->end_delimiter[0] == '\0' )
{ fprintf(err_fp, "%s: token %s is INNER but has no end delimiter\n",
t->name, ErrorHeader());
}
}
/* set up the chtype table for this token */
if( t->legal == NULL ) /* all characters are legal in this case */
for( j = 0; j < MAX_CHAR; j++ ) t->chtype[j] = LEGAL;
else /* the characters in t->legal are legal in this case */
for( j = 0; t->legal[j] != '\0'; j++ ) t->chtype[(int) t->legal[j]] = LEGAL;
if( t->escape[0] != '\0' )
t->chtype[(int) t->escape[0]] = ESCAPE;
if( t->inner_escape[0] != '\0' )
t->chtype[(int) t->inner_escape[0]] = INNER_ESCAPE;
/* set up the escape_chtype table for this token */
if( t->escape_legal == NULL )
{ /* all characters are legal after an escape character */
for( j = 0; j < MAX_CHAR; j++ ) t->escape_chtype[j] = LEGAL;
}
else
{ /* the characters in t->escape_legal are legal after an escape character */
for( j = 0; t->escape_legal[j] != '\0'; j++ )
t->escape_chtype[(int) t->escape_legal[j]] = LEGAL;
}
/* load the opening delimiters of this token into the trie */
for( j = 0; t->starts[j] != (char *) NULL; j++ )
{ if( !TrieInsert(t->start_line_only ? &StartLineTrie:&Trie,t->starts[j],t) )
{ if( *(t->starts[j]) == '\0' )
fprintf(err_fp, "%s: empty starting delimiter\n", ErrorHeader());
else
fprintf(err_fp, "%s: starting delimiter %s appears twice\n",
ErrorHeader(), t->starts[j]);
}
}
if( DEBUG_SETUP ) fprintf(stderr, "SetupOneToken ending %s\n", t->starts[0]);
} /* end SetupOneToken */
/*****************************************************************************/
/* */
/* SetupLanguage(LANGUAGE *lang) */
/* */
/* Set up the runtime token structures. This involves setting up each */
/* token (see above), and also loading the hash table with the keywords. */
/* */
/* If a token has non-empty start2 and end2 pairs, it is expanded into */
/* a set of tokens, one for each pair, with the start delimiter set to */
/* the concatenation of the start delimiters and starts2, and end */
/* delimiter set to the corresponding end2. */
/* */
/*****************************************************************************/
void SetupLanguage(LANGUAGE *lang)
{ int i, j; TOKEN *t;
if( DEBUG_SETUP )
fprintf(stderr, "SetupLanguage(%s)\n", lang->names[0]);
/* set up each token in the language */
for( i = 0; lang->tokens[i] != (TOKEN *) NULL; i++ )
{
if( DEBUG_SETUP )
fprintf(stderr, " (1) setting up token %s (starts[0] = %s)\n",
lang->tokens[i]->name, lang->tokens[i]->starts[0]);
if( lang->tokens[i]->starts2[0] != NULL )
{
/* starts2, so set up one token for each entry in starts[2] */
for( j = 0; lang->tokens[i]->starts2[j] != NULL; j++ )
{
t = ExpandToken(lang->tokens[i], j);
if( DEBUG_SETUP )
fprintf(stderr, " (2) setting up token %s (starts[0] = %s)\n",
t->name, t->starts[0]);
SetupOneToken(t);
}
}
else
{
/* no starts2, so set up just one token */
SetupOneToken(lang->tokens[i]);
}
}
/* load the keyword hash table */
for( j = 0; lang->keywords[j] != (char *) NULL; j++ )
HashInsert(lang->keywords[j]);
if( DEBUG_SETUP )
fprintf(stderr, "SetupLanguage(%s) returning.\n", lang->names[0]);
} /* end SetupLanguage */
/*****************************************************************************/
/* */
/* BOOLEAN Printable(char ch) */
/* */
/* TRUE if ch is a printable character. Used only by error messages so */
/* can be slow. */
/* */
/*****************************************************************************/
BOOLEAN Printable(char ch)
{ char *p;
for( p = AllPrintable; *p != '\0' && *p != ch; p++ );
return (*p == ch);
} /* end Printable */
/*****************************************************************************/
/* */
/* TOKEN *TokenStartingHere(int *len) */
/* */
/* Returns the token starting here if there is one, else NULL. */
/* If found, the length of its starting delimiter is returned in *len. */
/* */
/*****************************************************************************/
TOKEN *TokenStartingHere(int *len)
{ TOKEN *res;
if( line_pos == 1 )
{
res = TrieRetrieve(StartLineTrie, &curr_line[line_pos], len);
if( res == (TOKEN *) NULL )
res = TrieRetrieve(Trie, &curr_line[line_pos], len);
}
else
{
res = TrieRetrieve(Trie, &curr_line[line_pos], len);
}
return res;
}
/*****************************************************************************/
/* */
/* int Matching() */
/* */
/* Return the index of the pair that matches the current input. */
/* */
/*****************************************************************************/
int Matching()
{ int i;
for( i = 0; pairs[i].first != NULL && !InputMatches(pairs[i].first); i++ );
if( DEBUG_PROCESS )
fprintf(stderr, "Matching() = %d (\"%s\", \"%s\")\n", i,
pairs[i].first == NULL ? "NULL" : pairs[i].first,
pairs[i].second == NULL ? "NULL" : pairs[i].second);
return i;
}
/*****************************************************************************/
/* */
/* Process(LANGUAGE *lang, TOKEN *outer_token, char *outer_end_delimiter) */
/* */
/* Process a sequence of input tokens. If we are currently recursing */
/* inside some other token, outer_token is non-null and is that token, */
/* and we stop when we reach outer_end_delimiter outside any token. */
/* Otherwise we stop at end of file. */
/* */
/*****************************************************************************/
#define START 1
#define IN_TOKEN 2
#define IN_TOKEN_NEEDING_DELIM 3
#define IN_TOKEN_AFTER_ESCAPE 4
#define IN_TOKEN_AFTER_INNER_ESCAPE 5
#define STOP 6
char *debug_state(int s)
{
switch( s )
{
case START: return "START";
case IN_TOKEN: return "IN_TOKEN";
case IN_TOKEN_NEEDING_DELIM: return "IN_TOKEN_NEEDING_DELIM";
case IN_TOKEN_AFTER_ESCAPE: return "IN_TOKEN_AFTER_ESCAPE";
case IN_TOKEN_AFTER_INNER_ESCAPE: return "IN_TOKEN_AFTER_INNER_ESCAPE";
case STOP: return "STOP";
default: return "?";
}
}
void Process(LANGUAGE *lang, TOKEN *outer_token, char *outer_end_delimiter)
{ TOKEN *current_token; int len, i, state;
int end_delimiter_depth, end_delimiter_count;
char *curr_end_delim, *curr_bracket_delim;
if( DEBUG_PROCESS )
fprintf(stderr, "[ Process(%s, -, -, -, -)\n", lang->names[0]);
state = START;
while( curr_line[line_pos] != '\0' && state != STOP )
{
if( DEBUG_PROCESS )
{
if( state >= IN_TOKEN )
fprintf(stderr,
" %s, depth %d, count %d, bracket \"%s\", end \"%s\", ch %c\n",
debug_state(state), end_delimiter_depth, end_delimiter_count,
curr_bracket_delim, curr_end_delim, curr_line[line_pos]);
else
fprintf(stderr, " %s, ch %c\n",
debug_state(state), curr_line[line_pos]);
}
switch( state )
{
case START: /* between tokens; try each of the following */
/* check whether outer_token is ending here, in which case stop */
if( outer_token != (TOKEN *) NULL &&
curr_line[line_pos] == outer_end_delimiter[0] &&
InputMatches(outer_end_delimiter) )
{
len = strlen(outer_end_delimiter);
for( i = 0; i < len; i++ )
NextChar();
state = STOP;
}
/* check whether a token is starting here, in which case start it */
else if( (current_token = TokenStartingHere(&len)) != (TOKEN *) NULL )
{
if( DEBUG_PROCESS )
{ fprintf(stderr, "current_token (len = %d): %s\n",
len, EchoToken(current_token));
}
StartEmit(lang, current_token, &curr_line[line_pos], len);
/* skip the starting delimiter */
for( i = 0; i < len; i++ )
NextChar();
/* we are now either in a token, or else we have to start an inner */
if( current_token->print_style == PRINT_NODELIMS_INNER )
{
Process(lang, current_token, current_token->end_delimiter);
EndEmit(current_token, "");
}
else
{
end_delimiter_depth = 1;
end_delimiter_count = current_token->want_two_ends ? 2 : 1;
curr_end_delim = current_token->end_delimiter;
curr_bracket_delim = current_token->bracket_delimiter;
state = IN_TOKEN;
}
}
/* check whether we have a space */
else if( is_whitespace(curr_line[line_pos]) )
{
EmitRaw(curr_line[line_pos]);
NextChar();
}
/* check whether we are supposed to echo things that don't match */
else if( lang->no_match == NO_MATCH_PRINT )
{
EmitProtected(curr_line[line_pos]);
NextChar();
}
/* finally, we have an error and must skip the character */
else if( lang->no_match == NO_MATCH_ERROR )
{
if( Printable(curr_line[line_pos]) )
fprintf(err_fp, "%s: skipping unexpected %c character\n",
ErrorHeader(), curr_line[line_pos]);
else
fprintf(err_fp, "%s: %s (octal %o)\n",
ErrorHeader(), "skipping unexpected unprintable character",
(int) curr_line[line_pos]);
NextChar();
}
else
{
fprintf(err_fp, "%s internal error: lang->no_match\n", ErrorHeader());
}
break;
case IN_TOKEN: /* within a token; current_token says which kind */
/* check for ending delimiter if there is one */
if( curr_end_delim[0] != '\0' &&
(!current_token->end_start_line_only || line_pos == 1) &&
InputMatches(curr_end_delim) )
{
end_delimiter_depth--;
if( DEBUG_PROCESS )
fprintf(stderr, " InputMatches(%s) so end_delimiter_depth--\n",
curr_end_delim);
if( end_delimiter_depth > 0 )
{
/* if this end delimiter matches with a bracketing delimiter, */
/* so is not the end of the token, emit the char and carry on */
Emit(current_token, curr_line[line_pos]);
NextChar();
}
else
{
end_delimiter_count--;
if( DEBUG_PROCESS )
fprintf(stderr, " InputMatches(%s) so end_delimiter_count--\n",
curr_end_delim);
if( end_delimiter_count == 0 )
{
/* seen all the end delimiters we need, so token ends */
len = strlen(curr_end_delim);
for( i = 0; i < len; i++ )
NextChar();
EndEmit(current_token, curr_end_delim);
state = START;
}
else
{
/* need more end delimiters yet, so keep scanning */
Emit(current_token, curr_line[line_pos]);
NextChar();
if( curr_bracket_delim[0] != '\0' )
state = IN_TOKEN_NEEDING_DELIM;
else
state = IN_TOKEN;
}
}
}
else
{
/* check for bracketing delimiter if there is one */
if( curr_bracket_delim[0] != '\0' &&
InputMatches(curr_bracket_delim) )
{
if( DEBUG_PROCESS )
fprintf(stderr, " InputMatches(%s) so end_delimiter_depth++\n",
curr_bracket_delim);
end_delimiter_depth++;
}
/* handle current character as usual */
switch( current_token->chtype[(int) curr_line[line_pos]] )
{
case LEGAL:
Emit(current_token, curr_line[line_pos]);
NextChar();
break;
case ESCAPE:
NextChar();
state = IN_TOKEN_AFTER_ESCAPE;
break;
case INNER_ESCAPE:
EndEmit(current_token, "");
NextChar();
Process(lang, current_token, current_token->end_inner_escape);
state = IN_TOKEN_AFTER_INNER_ESCAPE;
break;
default:
if( curr_end_delim[0] != '\0' )
{
/* error: token ends at delimiter, not unexpected character */
if( Printable(curr_line[line_pos]) )
fprintf(err_fp,
"%s: skipping %c character (not allowed in %s)\n",
ErrorHeader(), curr_line[line_pos], current_token->name);
else if( curr_line[line_pos] == '\t' )
fprintf(err_fp,
"%s: skipping tab character (not allowed in %s)\n",
ErrorHeader(), current_token->name);
else if( curr_line[line_pos] == '\n' )
fprintf(err_fp,
"%s: skipping newline character (not allowed in %s)\n",
ErrorHeader(), current_token->name);
else if( curr_line[line_pos] == '\f' )
fprintf(err_fp,
"%s: skipping formfeed character (not allowed in %s)\n",
ErrorHeader(), current_token->name);
else
fprintf(err_fp, "%s: %s, octal code %o (not allowed in %s)\n",
ErrorHeader(), "skipping unprintable character",
(unsigned) curr_line[line_pos], current_token->name);
NextChar();
}
else
{
/* normal termination after last legal character */
EndEmit(current_token, "");
state = START;
}
break;
}
}
break;
case IN_TOKEN_NEEDING_DELIM: /* within a token looking for delim */
/* looking for either a white space or a new matching delim */
switch( curr_line[line_pos] )
{
case ' ':
case '\t':
case '\n':
case '\f':
Emit(current_token, curr_line[line_pos]);
NextChar();
break;
default:
/* had better match */
i = Matching();
if( pairs[i].first == NULL )
{
/* this is not a suitable new start for delimiters */
fprintf(err_fp, "%s: expected new delimiter here, found %c\n",
ErrorHeader(), curr_line[line_pos]);
exit(0);
}
curr_bracket_delim = pairs[i].first;
curr_end_delim = pairs[i].second;
Emit(current_token, curr_line[line_pos]);
NextChar();
end_delimiter_depth++;
state = IN_TOKEN;
break;
}
break;
case IN_TOKEN_AFTER_ESCAPE:
if( current_token->escape_chtype[(int) curr_line[line_pos]] == LEGAL )
{
Emit(current_token, current_token->escape[0]);
Emit(current_token, curr_line[line_pos]);
}
else
{
if( Printable(curr_line[line_pos]) )
fprintf(err_fp,"%s: skipping %c%c in %s, since %c not legal here\n",
ErrorHeader(), current_token->escape[0], curr_line[line_pos],
current_token->name, curr_line[line_pos]);
else
fprintf(err_fp,
"%s: skipping %c and %s (octal %o)\n", ErrorHeader(),
current_token->escape[0], "unprintable unexpected character",
(int) curr_line[line_pos]);
}
NextChar();
state = IN_TOKEN;
break;
case IN_TOKEN_AFTER_INNER_ESCAPE:
/* ending delimiter of inner escape has been read over */
StartEmit(lang, current_token, "", 0);
state = IN_TOKEN;
break;
default:
fprintf(err_fp, "%s internal error (state = %d)\n",
ErrorHeader(), state);
abort();
break;
}
}
/* at end, need to tidy up any residual messiness */
switch( state )
{
case START:
case STOP:
/* we stopped outside any token, or after an escape */
break;
case IN_TOKEN:
/* we stopped in a token (only a problem if it ends with a delimiter) */
if( current_token->end_delimiter[0] != '\0' )
{
if( outer_token == (TOKEN *) NULL )
fprintf(err_fp, "%s: program text ended within %s\n",
ErrorHeader(), current_token->name);
else
fprintf(err_fp, "%s: %s token ended within %s\n",
ErrorHeader(), outer_token->name, current_token->name);
EndEmit(current_token, "");
}
break;
case IN_TOKEN_NEEDING_DELIM:
/* we stopped in a token at a point where we were looking for a delim */
if( outer_token == (TOKEN *) NULL )
fprintf(err_fp, "%s: program text ended within %s\n",
ErrorHeader(), current_token->name);
else
fprintf(err_fp, "%s: %s token ended within %s\n",
ErrorHeader(), outer_token->name, current_token->name);
EndEmit(current_token, "");
break;
case IN_TOKEN_AFTER_ESCAPE:
/* we stopped after the escape character */
fprintf(err_fp, "%s: skipping %c at end of program text\n",
ErrorHeader(), current_token->escape[0]);
EndEmit(current_token, "");
break;
case IN_TOKEN_AFTER_INNER_ESCAPE:
/* we stopped after an inner escape (NB no EndEmit in this case) */
if( current_token->end_delimiter[0] != '\0' )
{
if( outer_token == (TOKEN *) NULL )
fprintf(err_fp, "%s: program text ended within %s after escape\n",
ErrorHeader(), current_token->name);
else
fprintf(err_fp, "%s: %s token ended within %s after escape\n",
ErrorHeader(), outer_token->name, current_token->name);
}
break;
default:
fprintf(err_fp, "%s: internal error (state %d)\n",
ErrorHeader(), state);
abort();
break;
}
} /* end Process */
/*****************************************************************************/
/* */
/* PrintUsage() */
/* */
/* Print usage message on file err_fp. */
/* */
/*****************************************************************************/
void PrintUsage()
{ int i;
fprintf(err_fp, "\n");
fprintf(err_fp, "usage: prg2lout <options> <files>\n\n");
fprintf(err_fp, " where <options> can be\n");
fprintf(err_fp, "\n");
fprintf(err_fp, " -r raw mode (used within Lout only)\n");
fprintf(err_fp, " -i<file> take input from <file>\n");
fprintf(err_fp, " -o<file> send output to <file>\n");
fprintf(err_fp, " -e<file> send error messages to <file>\n");
fprintf(err_fp, " -l<language> input is in this programming language\n");
fprintf(err_fp, " -p<style> print style: fixed, varying, symbol\n");
fprintf(err_fp, " -f<family> font family (e.g. Times)\n");
fprintf(err_fp, " -s<size> font size (e.g. 10p or 12p)\n");
fprintf(err_fp, " -v<space> line spacing (e.g. 1.1fx)\n");
fprintf(err_fp, " -t<num> tab interval (e.g. 8 is default)\n");
fprintf(err_fp, " -T<dist> output tab interval (e.g. 0.5i)\n");
fprintf(err_fp, " -S<file> use this as the setup file\n");
fprintf(err_fp, " -L<num> number lines from <num> (default is 1)\n");
fprintf(err_fp, " -n no file names as page headers\n");
fprintf(err_fp, " -V print version information and exit\n");
fprintf(err_fp, " -u print this usage message and exit\n");
fprintf(err_fp, "\n");
fprintf(err_fp, " <language> (which is compulsory) can be any one of:\n");
for( i = 0; languages[i] != (LANGUAGE *) NULL; i++ )
fprintf(err_fp, " %s\n", languages[i]->names[0]);
fprintf(err_fp, "\n");
fprintf(err_fp, "The values of all formatting options not given are\n");
fprintf(err_fp, "taken from the setup file: either the file given after\n");
fprintf(err_fp, "-S, or the system default setup file for this language\n");
fprintf(err_fp, "if there is no -S option.\n");
fprintf(err_fp, "\n");
} /* end PrintUsage */
/*****************************************************************************/
/* */
/* main(argc, argv) */
/* */
/* Read command line and either process each file in turn, or, in the */
/* raw case, do the actual conversion of one file. */
/* */
/*****************************************************************************/
int main(int argc, char *argv[])
{ BOOLEAN stdin_seen; int i, j, arg_pos;
char *infilename, *outfilename, *errfilename;
LANGUAGE *lang = NO_LANGUAGE;
char *file_names[1024]; int file_count = 0;
/* echo command line */
if( DEBUG_MAIN )
{
for( i = 0; i < argc; i++ )
fprintf(stderr, i == 0 ? "%s" : " %s", argv[i]);
fprintf(stderr, "\n\n");
}
/* read command line */
in_fp = out_fp = (FILE *) NULL;
err_fp = stderr;
line_num = 0;
stdin_seen = raw_seen = FALSE;
tab_by_spacing = TRUE;
tab_in = 8;
tab_out = 3;
tab_unit = 'f';
print_lines = FALSE;
numbered_option = NULL;
headers_option = TRUE;
font_option = size_option = line_option = tabin_option =
tabout_option = setup_option = language_option = (char *) NULL;
if( argc == 1 )
{ PrintUsage();
exit(1);
}
for( arg_pos = 1; arg_pos < argc; arg_pos++ )
{
if( DEBUG_SETUP )
fprintf(stderr, "examining argument %d = \"%s\"\n",
arg_pos, argv[arg_pos]);
if( *argv[arg_pos] == '-' ) switch( *(argv[arg_pos]+1) )
{
case 'r':
if( arg_pos > 1 )
{ fprintf(err_fp, "%s: -r must be first if it occurs at all\n",
ErrorHeader());
exit(1);
}
raw_seen = TRUE;
break;
case 'i':
/* read name of input file */
if( !raw_seen )
{ fprintf(err_fp, "%s: -i illegal with -r\n", ErrorHeader());
exit(1);
}
if( in_fp != NULL )
{ fprintf(err_fp, "%s: -i seen twice\n", ErrorHeader());
exit(1);
}
GetArg(infilename, "usage: -i<filename>", FALSE);
/* open the file */
in_fp = fopen(infilename, "r");
if( in_fp == NULL )
{ fprintf(err_fp, "%s: cannot open input file %s\n",
ErrorHeader(), infilename);
exit(1);
}
/* initialize file position */
strcpy(file_name, infilename);
line_num = 1;
line_pos = 0;
break;
case 'o':
/* read name of output file */
if( out_fp != NULL )
{ fprintf(err_fp, "%s: -o seen twice\n", ErrorHeader());
exit(1);
}
GetArg(outfilename, "usage: -o<filename>", FALSE);
out_fp = fopen(outfilename, "w");
if( out_fp == NULL )
{ fprintf(err_fp, "%s: cannot open output file %s\n",
ErrorHeader(), outfilename);
exit(1);
}
/* setbuf(out_fp, (char *) NULL); */
break;
case 'e':
/* read name of error file */
GetArg(errfilename, "usage: -e<filename>", FALSE);
err_fp = fopen(errfilename, "w");
if( err_fp == NULL )
{ fprintf(stderr, "%s: cannot open error file %s",
ErrorHeader(), errfilename);
exit(1);
}
break;
case 'p':
/* read print style */
if( raw_seen )
{ fprintf(err_fp, "%s: -p illegal with -r option\n", ErrorHeader());
exit(1);
}
GetArg(style_option, "usage: -p<printstyle>", FALSE);
if( strcmp(style_option, "fixed") != 0 &&
strcmp(style_option, "varying") != 0 &&
strcmp(style_option, "symbol") != 0 )
{ fprintf(err_fp, "%s: unknown -p option %s\n", ErrorHeader(),
style_option);
exit(1);
}
break;
case 'f':
/* read font family */
if( raw_seen )
{ fprintf(err_fp, "%s: -f illegal with -r option\n", ErrorHeader());
exit(1);
}
GetArg(font_option, "usage: -f<font_family>", FALSE);
break;
case 's':
/* read font size */
if( raw_seen )
{ fprintf(err_fp, "%s: -s illegal with -r option\n", ErrorHeader());
exit(1);
}
GetArg(size_option, "usage: -s<size>", FALSE);
break;
case 'v':
/* read line spacing */
if( raw_seen )
{ fprintf(err_fp, "%s: -v illegal with -r option\n", ErrorHeader());
exit(1);
}
GetArg(line_option, "usage: -v<line_spacing>", FALSE);
break;
case 't':
/* read tab interval */
GetArg(tabin_option, "usage: -t<number>", TRUE);
if( tabin_option != NULL && sscanf(tabin_option,"%d",&tab_in) != 1 )
{ fprintf(err_fp, "%s usage: -t<number>\n", ErrorHeader());
exit(1);
}
if( tab_in <= 0 )
{ fprintf(err_fp, "%s -t: tab interval must be greater than 0\n",
ErrorHeader());
exit(1);
}
break;
case 'T':
/* read tab_out and tab_unit */
GetArg(tabout_option, "usage: -T<number><unit>", TRUE);
if( tabout_option != NULL )
{ if( sscanf(tabout_option, "%f%c",&tab_out,&tab_unit) != 2 )
{ fprintf(err_fp, "%s usage: -T<number><unit>\n", ErrorHeader());
exit(1);
}
if( tab_out <= 0 || tab_out >= 50 )
{ fprintf(err_fp, "%s -T: unreasonably large or small tab interval\n",
ErrorHeader());
exit(1);
}
if( tab_unit != 'c' && tab_unit != 'i' && tab_unit != 'p' &&
tab_unit != 'm' && tab_unit != 'f' && tab_unit != 's' &&
tab_unit != 'v' )
{ fprintf(err_fp, "%s -T: tab unit must be one of cipmfsv\n",
ErrorHeader());
exit(1);
}
tab_by_spacing = FALSE;
}
break;
case 'S':
/* read alternative setup file */
if( raw_seen )
{ fprintf(err_fp, "%s: -S illegal with -r option\n", ErrorHeader());
exit(1);
}
GetArg(setup_option, "usage: -S<filename>", FALSE);
break;
case 'L':
/* read line numbering */
GetArg(numbered_option, "usage: -L<number>", TRUE);
print_lines = TRUE;
print_num = 1;
if( numbered_option!=NULL && sscanf(numbered_option,"%d",&print_num)!=1)
{ fprintf(err_fp, "%s usage: -L or -L<number>\n", ErrorHeader());
exit(1);
}
break;
case 'n':
if( raw_seen )
{ fprintf(err_fp, "%s: -n illegal with -r option\n", ErrorHeader());
exit(1);
}
headers_option = FALSE;
break;
case 'V':
if( raw_seen )
{ fprintf(err_fp, "%s: -V illegal with -r option\n", ErrorHeader());
exit(1);
}
fprintf(err_fp, "%s\n", PRG2LOUT_VERSION);
exit(0);
break;
case 'u':
if( raw_seen )
{ fprintf(err_fp, "%s: -u illegal with -r option\n", ErrorHeader());
exit(1);
}
PrintUsage();
exit(0);
break;
case 'l':
if( language_option != (char *) NULL )
{ fprintf(err_fp, "%s: -l seen twice\n", ErrorHeader());
exit(1);
}
GetArg(language_option, "usage: -l<language>", FALSE);
i = 0; j = 0;
while( lang == NO_LANGUAGE && languages[i] != NO_LANGUAGE )
{
if( languages[i]->names[j] == (char *) NULL )
i++, j = 0;
else if( strcmp(languages[i]->names[j], language_option) == 0 )
lang = languages[i];
else
j++;
}
if( lang == NO_LANGUAGE )
{
fprintf(err_fp, "%s: unknown language %s\n", ErrorHeader(),
language_option);
exit(1);
}
break;
default:
fprintf(err_fp, "%s: unknown command line flag %s\n", ErrorHeader(),
argv[i]);
exit(1);
break;
}
else
{
if( raw_seen )
{ fprintf(err_fp, "%s: file parameter illegal with -r flag\n",
ErrorHeader());
exit(1);
}
if( DEBUG_SETUP )
fprintf(stderr, "file_names[%d++] = argv[%d] = %s\n",
file_count, arg_pos, argv[arg_pos]);
file_names[file_count++] = argv[arg_pos];
}
} /* for */
/* make sure we have a language */
if( lang == NO_LANGUAGE )
{
fprintf(err_fp, "%s: missing -l option\n", ErrorHeader());
exit(0);
}
/* do the actual work */
if( raw_seen )
{
/* check that input and output files are open */
if( in_fp == NULL )
in_fp = stdin;
if( out_fp == NULL )
{ fprintf(err_fp, "%s -r: missing -o option\n", ErrorHeader());
exit(1);
}
/* process the file */
SetupLanguage(lang);
line_pos = 1;
curr_line[line_pos] = '\n'; /* forces line read */
line_num = 0;
NextChar();
Process(lang, (TOKEN *) NULL, "");
}
else if( file_count > 0 )
{ int ch;
/* make sure we have an output file */
if( out_fp == (FILE *) NULL )
out_fp = stdout;
/* print the initial @Use clauses etc.*/
fprintf(out_fp, "%s%s\n", "@Sy", "sInclude { doc }");
if( setup_option != NULL )
fprintf(out_fp, "%s%s { %s }\n", "@In", "clude", setup_option);
else
fprintf(out_fp, "%s%s { %s }\n", "@Sy", "sInclude", lang->setup_file);
fprintf(out_fp, "@Document\n");
fprintf(out_fp, " @InitialBreak { lines 1.2fx nohyphen }\n");
fprintf(out_fp, "//\n");
fprintf(out_fp, "%s%s\n", "@Text @Be", "gin");
/* print each file, possibly with a header */
for( i = 0; i < file_count; i++ )
{
/* open file and initialize file position */
in_fp = fopen(file_names[i], "r");
if( in_fp == NULL )
{ fprintf(err_fp, "%s: skipping input file %s (cannot open)\n",
ErrorHeader(), file_names[i]);
continue;
}
strcpy(file_name, file_names[i]);
/* print @NP if not first, and header if required */
if( i > 0 )
fprintf(out_fp, "\n\n@NP\n\n");
if( headers_option )
fprintf(out_fp, "{ Times Bold \"+3p\" } @Font \"%s\"\n@DP\n",
file_names[i]);
/* print file name and contents (don't format, let Lout call back) */
/* this string has been disguised to avoid recognition by prg2lout */
fprintf(out_fp, "%s\n", lang->lang_sym);
if( style_option != NULL )
fprintf(out_fp, " style { %s }\n", style_option );
if( font_option != NULL )
fprintf(out_fp, " font { %s }\n", font_option );
if( size_option != NULL )
fprintf(out_fp, " size { %s }\n", size_option );
if( line_option != NULL )
fprintf(out_fp, " line { %s }\n", line_option );
if( tabin_option != NULL )
fprintf(out_fp, " tabin { %s }\n", tabin_option );
if( tabout_option != NULL )
fprintf(out_fp, " tabout { %s }\n", tabout_option );
if( print_lines )
fprintf(out_fp, " numbered { %d }\n", print_num );
fprintf(out_fp, "%s%s\n", "@Be", "gin");
while( (ch = getc(in_fp)) != EOF )
putc(ch, out_fp);
fprintf(out_fp, "%s%s %s\n", "@E", "nd", lang->lang_sym);
}
/* finish off whole input */
fprintf(out_fp, "%s%s%s\n", "@E", "nd @T", "ext");
}
exit(0);
} /* end main */