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|
%{
// levcomp.lpp:
// Level compiler lexer for Dungeon Crawl Stone Soup.
//
// Based loosely on NetHack's lev_comp.l
#include <algorithm>
#include <cstring>
#include <queue>
#include "AppHdr.h"
#include "mapdef.h"
#include "levcomp.tab.h"
#include "stuff.h"
static bool alloced = false;
std::queue<const char *> free_queue;
static void flush_free_queue(unsigned int max_allowed)
{
while (free_queue.size() > max_allowed)
{
const char *s = free_queue.front();
free((void *) s);
free_queue.pop();
}
}
static void add_to_queue(const char *s)
{
free_queue.push(s);
flush_free_queue(100);
}
static void clean()
{
if (yylval.text && alloced)
add_to_queue(yylval.text);
yylval.text = NULL;
alloced = false;
}
// Enter a new state, first clearing yylval of junk.
#define CBEGIN(x) do { BEGIN(x); clean(); } while (0)
static void post_proc_text(char *text, bool trim_right, int strip_trailing)
{
char *s = NULL;
if (trim_right)
{
s = text + strlen(text) - 1;
while (s >= text && isspace(*s))
*s-- = 0;
}
if (strip_trailing)
{
if (!s)
s = text + strlen(text) - 1;
while (s >= text && --strip_trailing >= 0)
*s-- = 0;
}
}
static char *copy_text(bool trim_right, int strip_trailing)
{
char *newstring = NULL;
if ((yylval.text = newstring = strdup(yytext)))
{
alloced = true;
post_proc_text(newstring, trim_right, strip_trailing);
}
return (newstring);
}
static void settext(bool trim_right = false, int strip_trailing = 0)
{
clean();
char *newstring = copy_text(trim_right, strip_trailing);
yylval.text = newstring;
}
static void str_check()
{
if (!yylval.text)
{
char *buf = (char *) malloc(1);
if (buf)
{
yylval.text = buf;
*buf = 0;
alloced = true;
}
}
}
static void cattext(bool trim_right = false, int strip_trailing = 0)
{
if (!yylval.text)
settext(trim_right, strip_trailing);
else
{
bool was_alloced = alloced;
char *newbuf = (char*) malloc(strlen(yylval.text) + strlen(yytext) + 1);
if (!newbuf)
end(1, "Out of memory");
alloced = true;
strcpy(newbuf, yylval.text);
strcat(newbuf, yytext);
post_proc_text(newbuf, trim_right, strip_trailing);
if (was_alloced)
free((void*) yylval.text);
yylval.text = newbuf;
}
}
%}
%x MAPDEF
%x LUA
%x LUA_ONELINER
%s ARGUMENT
%s MNAME
%s KEYWORDS
%x ITEM_LIST
%option yylineno
%option never-interactive
NSPACE [^\ \t\r\n]
SPACE [\ \t\r]
%%
<MAPDEF>^\s*ENDMAP[ ]* { BEGIN(INITIAL); }
<MAPDEF>^[^\r\n\t]+ {
settext(true);
return MAP_LINE;
}
<MAPDEF>^[ ]*\r?\n return CHARACTER;
<MAPDEF># return CHARACTER;
<MAPDEF>[\ ][^\ \r\n] return CHARACTER;
<MAPDEF>[ ]*\r?\n ;
<LUA>\s*\}\}[ \t\r]*$ { BEGIN(INITIAL); }
<LUA>[^\r\n]+\}\}[ \t\r]*$ {
settext(true, 2);
BEGIN(INITIAL);
return LUA_LINE;
}
<LUA>[^\r\n]+ {
settext(true);
return LUA_LINE;
}
<LUA>\r?\n ;
<LUA_ONELINER>[^\r\n]+\r?$ {
settext(true);
return LUA_LINE;
}
<LUA_ONELINER>\r?\n { BEGIN(INITIAL); }
<KEYWORDS>[A-Za-z_0-9\-]+ {
settext();
return STRING;
}
<KEYWORDS>{SPACE}*\\{SPACE}*\n ;
<KEYWORDS>[ \t]+ ;
<KEYWORDS>[ \t]*\r?\n { BEGIN(INITIAL); }
<ITEM_LIST>[^,\ \t\r\n][^,\r\n]*\\{SPACE}*\n {
cattext(true, 1);
}
<ITEM_LIST>{SPACE}*\\{SPACE}*\n ;
<ITEM_LIST>[^, \t\r\n][^,\r\n]*[^, \t\r\n] {
cattext();
return ITEM_INFO;
}
<ITEM_LIST>, { clean(); return COMMA; }
<ITEM_LIST>[ \t]+ ;
<ITEM_LIST>[ \t]*\r?\n { BEGIN(INITIAL); }
<MNAME>[\ \t\r]*\n { BEGIN(INITIAL); }
<MNAME>[^,\ \t\r\n][^,\r\n]*\\{SPACE}*\n {
cattext(true, 1);
}
<MNAME>{SPACE}*\\{SPACE}*\n ;
<MNAME>[^,\ \t\r\n][^,\r\n]*[^,\ \t\r\n] {
cattext();
return MONSTER_NAME;
}
<MNAME>, { clean(); return COMMA; }
<MNAME>[ \t\r]+ ;
<ARGUMENT>{NSPACE}.*\\{SPACE}*\n {
cattext(true, 1);
}
<ARGUMENT>{SPACE}*\\{SPACE}*\n ;
<ARGUMENT>{NSPACE}.*{NSPACE} {
cattext();
}
<ARGUMENT>{NSPACE} cattext();
<ARGUMENT>{SPACE}*$ { BEGIN(INITIAL); str_check(); return STRING; }
^[ \t]*#.* ;
^\s*MAP[ \t\r]*$ { BEGIN(MAPDEF); }
^[ \t]*: { BEGIN(LUA_ONELINER); return MAIN; }
^[ \t]*prelude[ \t]*\{\{ { BEGIN(LUA); return PRELUDE; }
^[ \t]*lua[ \t]*\{\{ { BEGIN(LUA); return MAIN; }
^[ \t]*\{\{ { BEGIN(LUA); return MAIN; }
^[ \t]*validate[ \t]*\{\{ { BEGIN(LUA); return VALIDATE; }
^[ \t]*veto[ \t]*\{\{ { BEGIN(LUA); return VETO; }
NAME: { CBEGIN(ARGUMENT); return NAME; }
default-depth: { CBEGIN(ARGUMENT); return DEFAULT_DEPTH; }
DEPTH: { CBEGIN(ARGUMENT); return DEPTH; }
ORIENT: { CBEGIN(ARGUMENT); return ORIENT; }
PLACE: { CBEGIN(ARGUMENT); return PLACE; }
WELCOME: { CBEGIN(ARGUMENT); return WELCOME; }
CHANCE: return CHANCE;
WEIGHT: return WEIGHT;
FLAGS: { CBEGIN(KEYWORDS); return TAGS; }
TAGS: { CBEGIN(KEYWORDS); return TAGS; }
LFLAGS: { CBEGIN(ARGUMENT); return LFLAGS; }
BFLAGS: { CBEGIN(ARGUMENT); return BFLAGS; }
SUBST: { CBEGIN(ITEM_LIST); return SUBST; }
NSUBST: { CBEGIN(ITEM_LIST); return NSUBST; }
COLOUR: { CBEGIN(ITEM_LIST); return COLOUR; }
LFLOORCOL: { CBEGIN(ARGUMENT); return LFLOORCOL; }
LROCKCOL: { CBEGIN(ARGUMENT); return LROCKCOL; }
LFLOORTILE: { CBEGIN(ARGUMENT); return LFLOORTILE; }
LROCKTILE: { CBEGIN(ARGUMENT); return LROCKTILE; }
FTILE: { CBEGIN(ITEM_LIST); return FTILE; }
RTILE: { CBEGIN(ITEM_LIST); return RTILE; }
TILE: { CBEGIN(ITEM_LIST); return TILE; }
MONS: { CBEGIN(MNAME); return MONS; }
ITEM: { CBEGIN(ITEM_LIST); return ITEM; }
MARKER: { CBEGIN(ARGUMENT); return MARKER; }
SHUFFLE: { CBEGIN(ITEM_LIST); return SHUFFLE; }
KFEAT: { CBEGIN(ARGUMENT); return KFEAT; }
KITEM: { CBEGIN(ARGUMENT); return KITEM; }
KMONS: { CBEGIN(ARGUMENT); return KMONS; }
KMASK: { CBEGIN(ARGUMENT); return KMASK; }
KPROP: { CBEGIN(ARGUMENT); return KPROP; }
SUBVAULT: { CBEGIN(ARGUMENT); return SUBVAULT; }
, return COMMA;
: return COLON;
% return PERC;
[+-]?[0-9]+ {
clean();
yylval.i = atoi(yytext);
return INTEGER;
}
[\ \t]+ ;
\r?\n ;
\r ;
. return CHARACTER;
%%
int yywrap()
{
clean();
flush_free_queue(0);
return 1;
}
|
