/* ** table.c ** Module to control static tables */ char *rcs_table="$Id: table.c,v 1.1 1993/12/17 18:41:19 celes Exp roberto $"; #include #include #include "opcode.h" #include "hash.h" #include "inout.h" #include "table.h" #include "lua.h" #define streq(s1,s2) (s1[0]==s2[0]&&strcmp(s1+1,s2+1)==0) #ifndef MAXSYMBOL #define MAXSYMBOL 512 #endif static Symbol tablebuffer[MAXSYMBOL] = { {"type",{T_CFUNCTION,{lua_type}}}, {"tonumber",{T_CFUNCTION,{lua_obj2number}}}, {"next",{T_CFUNCTION,{lua_next}}}, {"nextvar",{T_CFUNCTION,{lua_nextvar}}}, {"print",{T_CFUNCTION,{lua_print}}}, {"dofile",{T_CFUNCTION,{lua_internaldofile}}}, {"dostring",{T_CFUNCTION,{lua_internaldostring}}} }; Symbol *lua_table=tablebuffer; Word lua_ntable=7; struct List { Symbol *s; struct List *next; }; static struct List o6={ tablebuffer+6, 0}; static struct List o5={ tablebuffer+5, &o6 }; static struct List o4={ tablebuffer+4, &o5 }; static struct List o3={ tablebuffer+3, &o4 }; static struct List o2={ tablebuffer+2, &o3 }; static struct List o1={ tablebuffer+1, &o2 }; static struct List o0={ tablebuffer+0, &o1 }; static struct List *searchlist=&o0; #ifndef MAXCONSTANT #define MAXCONSTANT 256 #endif static char *constantbuffer[MAXCONSTANT] = {"mark","nil","number", "string","table", "function","cfunction" }; char **lua_constant = constantbuffer; Word lua_nconstant=T_CFUNCTION+1; #ifndef MAXSTRING #define MAXSTRING 512 #endif static char *stringbuffer[MAXSTRING]; char **lua_string = stringbuffer; Word lua_nstring=0; #ifndef MAXARRAY #define MAXARRAY 512 #endif static Hash *arraybuffer[MAXARRAY]; Hash **lua_array = arraybuffer; Word lua_narray=0; #define MAXFILE 20 char *lua_file[MAXFILE]; int lua_nfile; /* ** Given a name, search it at symbol table and return its index. If not ** found, allocate at end of table, checking oveflow and return its index. ** On error, return -1. */ int lua_findsymbol (char *s) { struct List *l, *p; for (p=NULL, l=searchlist; l!=NULL; p=l, l=l->next) if (streq(s,l->s->name)) { if (p!=NULL) { p->next = l->next; l->next = searchlist; searchlist = l; } return (l->s-lua_table); } if (lua_ntable >= MAXSYMBOL-1) { lua_error ("symbol table overflow"); return -1; } s_name(lua_ntable) = strdup(s); if (s_name(lua_ntable) == NULL) { lua_error ("not enough memory"); return -1; } s_tag(lua_ntable) = T_NIL; p = malloc(sizeof(*p)); p->s = lua_table+lua_ntable; p->next = searchlist; searchlist = p; return lua_ntable++; } /* ** Given a constant string, search it at constant table and return its index. ** If not found, allocate at end of the table, checking oveflow and return ** its index. ** ** For each allocation, the function allocate a extra char to be used to ** mark used string (it's necessary to deal with constant and string ** uniformily). The function store at the table the second position allocated, ** that represents the beginning of the real string. On error, return -1. ** */ int lua_findconstant (char *s) { int i; for (i=0; i= MAXCONSTANT-1) { lua_error ("lua: constant string table overflow"); return -1; } { char *c = calloc(strlen(s)+2,sizeof(char)); c++; /* create mark space */ lua_constant[lua_nconstant++] = strcpy(c,s); } return (lua_nconstant-1); } /* ** Mark an object if it is a string or a unmarked array. */ void lua_markobject (Object *o) { if (tag(o) == T_STRING) lua_markstring (svalue(o)) = 1; else if (tag(o) == T_ARRAY && markarray(avalue(o)) == 0) lua_hashmark (avalue(o)); } /* ** Mark all strings and arrays used by any object stored at symbol table. */ static void lua_marktable (void) { int i; for (i=0; i= MAXSTRING-1) { lua_pack (); if (lua_nstring >= MAXSTRING-1) { lua_error ("string table overflow"); return NULL; } } lua_string[lua_nstring++] = s; return s; } /* ** Allocate a new array, already created, at array table. The function puts ** it at the end of the table, checking overflow, and returns its own pointer, ** or NULL on error. */ void *lua_createarray (void *a) { if (a == NULL) return NULL; if (lua_narray >= MAXARRAY-1) { lua_pack (); if (lua_narray >= MAXARRAY-1) { lua_error ("indexed table overflow"); return NULL; } } lua_array[lua_narray++] = a; return a; } /* ** Add a file name at file table, checking overflow. This function also set ** the external variable "lua_filename" with the function filename set. ** Return 0 on success or 1 on error. */ int lua_addfile (char *fn) { if (lua_nfile >= MAXFILE-1) { lua_error ("too many files"); return 1; } if ((lua_file[lua_nfile++] = strdup (fn)) == NULL) { lua_error ("not enough memory"); return 1; } return 0; } /* ** Delete a file from file stack */ int lua_delfile (void) { lua_nfile--; return 1; } /* ** Return the last file name set. */ char *lua_filename (void) { return lua_file[lua_nfile-1]; } /* ** Internal function: return next global variable */ void lua_nextvar (void) { int index; Object *o = lua_getparam (1); if (o == NULL) { lua_error ("too few arguments to function `nextvar'"); return; } if (lua_getparam (2) != NULL) { lua_error ("too many arguments to function `nextvar'"); return; } if (tag(o) == T_NIL) { index = 0; } else if (tag(o) != T_STRING) { lua_error ("incorrect argument to function `nextvar'"); return; } else { for (index=0; index