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parse.c
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parse.c
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/*
Pattern Parser package for LPmud
Ver 3.1
If you have questions or complaints about this code please refer them
*/
#include <alloca.h>
#include <inttypes.h>
#include <stdio.h>
#include <stdlib.h>
#include <string.h>
#include <ctype.h>
#include <time.h>
#include "config.h"
#include "lint.h"
#include "mstring.h"
#include "interpret.h"
#include "object.h"
#include "exec.h"
#include "simulate.h"
#include "mapping.h"
#include "inline_svalue.h"
extern int d_flag; /* for debugging purposes */
extern struct object *previous_ob;
struct object *vbfc_object;
#ifndef tolower /* On some systems this is a function */
extern int tolower (int);
#endif
/*****************************************************
This is the parser used by the efun parse_command
*/
/*
General documentation:
parse_command() is one of the most complex efun in LPmud to use. It takes
some effort to learn and use, but when mastered, very powerful constructs
can be implemented.
Basically parse_command() is a hotted sscanf operating on word basis. It
works similar to sscanf in that it takes a pattern and a variable set of
destination arguments. It is together with sscanf the only efun to use
pass by reference for other variables than arrays.
To make the efun useful it must have a certain support from the mudlib,
there is a set of functions that it needs to call to get relevant
information before it can parse in a sensible manner.
In earlier versions it used the normal id() lfun in the LPC objects to
find out if a given object was identified by a certain string. This was
highly inefficient as it could result in hundreds or maybe thousands of
calls when very long commands were parsed.
The new version relies on the LPC objects to give it three lists of 'names'.
1 - The normal singular names.
2 - The plural forms of the names.
3 - The acknowledged adjectives of the object.
These are fetched by calls to the functions:
1 - string *parse_command_id_list();
2 - string *parse_command_plural_id_list();
3 - string *parse_command_adjectiv_id_list();
The only really needed list is the first. If the second does not exist
than the efun will try to create one from the singular list. For
grammatical reasons it does not always succeed in a perfect way. This is
especially true when the 'names' are not single words but phrases.
The third is very nice to have because it makes constructs like
'get all the little blue ones' possible.
Apart from these functions that should exist in all objects, and which
are therefore best put in /std/object.c there is also a set of functions
needed in /secure/master.c These are not absolutely necessary but they
give extra power to the efun.
Basically these /secure/master.c lfuns are there to give default values
for the lists of names fetched from each object.
The names in these lists are applicable to any and all objects, the first
three are identical to the lfun's in the objects:
string *parse_command_id_list()
- Would normally return: ({ "one", "thing" })
string *parse_command_plural_id_list()
- Would normally return: ({ "ones", "things", "them" })
string *parse_command_adjectiv_id_list()
- Would normally return ({ "iffish" })
The last two are the default list of the prepositions and a single so called
'all' word.
string *parse_command_prepos_list()
- Would normally return: ({ "in", "on", "under" })
string parse_command_all_word()
- Would normally return: "all"
IF you want to use a different language than English but still want the
default pluralform maker to work, you need to replace parse.c with the
following file:
#if 0
* Language configured parse.c
*
#define PARSE_FOREIGN
char *parse_to_plural(str)
char *str;
{
* Your own plural converter for your language *
}
* The numberwords below should be replaced for the new language *
static char *ord1[] = {"", "first", "second", "third", "fourth", "fifth",
"sixth", "seventh", "eighth", "ninth", "tenth",
"eleventh", "twelfth", "thirteenth", "fourteenth",
"fifteenth", "sixteenth", "seventeenth",
"eighteenth","nineteenth"};
static char *ord10[] = {"", "", "twenty","thirty","forty","fifty","sixty",
"seventy", "eighty","ninety"};
static char *sord10[] = {"", "", "twentieth", "thirtieth", "fortieth",
"fiftieth", "sixtieth","seventieth", "eightieth",
"ninetieth"};
static char *num1[] = {"", "one","two","three","four","five","six",
"seven","eight","nine","ten",
"eleven","twelve","thirteen","fourteen","fifteen",
"sixteen", "seventeen","eighteen","nineteen"};
static char *num10[] = {"", "", "twenty","thirty","forty","fifty","sixty",
"seventy", "eighty","ninety"};
#include "parse_english.c" * This parse.c file *
#endif
When all these things are defined parse_command() works best and most
efficient. What follows is the docs for how to use it from LPC:
Doc for LPC function
int parse_command(string, object/object*, string, destargs...)
Returns 1 if pattern matches
string Given command
object* if arr
object array holding the accessible objects
if ob
object from which to recurse and create
the list of accessible objects, normally
ob = environment(this_player())
string Parsepattern as list of words and formats:
Example string = " 'get' / 'take' %i "
Syntax:
'word' obligatory text
[word] optional text
/ Alternative marker
%o Single item, object
%l Living objects
%s Any text
%w Any word
%p One of a list (prepositions)
%i Any items
%d Number 0- or tx(0-99)
destargs This is the list of result variables as in sscanf
One variable is needed for each %_
The return types of different %_ is:
%o Returns an object
%s Returns a string of words
%w Returns a string of one word
%p Can on entry hold a list of word in array
or an empty variable
Returns:
if empty variable: a string
if array: array[0]=matched word
%i Returns a special array on the form:
[0] = (int) +(wanted) -(order) 0(all)
[1..n] (object) Objectpointers
%l Returns a special array on the form:
[0] = (int) +(wanted) -(order) 0(all)
[1..n] (object) Objectpointers
These are only living objects.
%d Returns a number
The only types of % that uses all the loaded information from the objects
are %i and %l. These are in fact identical except that %l filters out
all nonliving objects from the list of objects before trying to parse.
The return values of %i and %l is also the most complex. They return an
array consisting of first a number and then all possible objects matching.
As the typical string matched by %i/%l looks like: 'three red roses',
'all nasty bugs' or 'second blue sword' the number indicates which
of these numerical constructs was matched:
if numeral >0 then three, four, five etc were matched
if numeral <0 then second, twentyfirst etc were matched
if numeral==0 then 'all' or a generic plural form such as 'apples'
were matched.
NOTE!
The efun makes no semantic implication on the given numeral. It does
not matter if 'all apples' or 'second apple' is given. A %i will
return ALL possible objects matching in the array. It is up to the
caller to decide what 'second' means in a given context.
Also when given an object and not an explicit array of objects the
entire recursive inventory of the given object is searched. It is up
to the caller to decide which of the objects are actually visible
meaning that 'second' might not at all mean the second object in
the returned array of objects.
Example:
if (parse_command("spray car",environment(this_player()),
" 'spray' / 'paint' [paint] %i ",items))
{
If the pattern matched then items holds a return array as described
under 'destargs' %i above.
}
BUGS / Features
:
Patterns of type: "%s %w %i"
Might not work as one would expect. %w will always succeed so the arg
corresponding to %s will always be empty.
Patterns of the type: 'word' and [word]
The 'word' can not contain spaces. It must be a single word. This is so
because the pattern is exploded on " " (space) and a pattern element can
therefore not contain spaces.
This will be fixed in the future
*/
/* Some useful string macros
*/
#define EQ(x,y) (strcmp(x,y)==0)
/* Function in LPC which returns a list of ids
*/
#define QGET_ID "parse_command_id_list"
#define M_QGET_ID M_PARSE_COMMAND_ID_LIST
/* Function in LPC which returns a list of plural ids
*/
#define QGET_PLURID "parse_command_plural_id_list"
#define M_QGET_PLURID M_PARSE_COMMAND_PLURAL_ID_LIST
/* Function in LPC which returns a list of adjectiv ids
*/
#define QGET_ADJID "parse_command_adjectiv_id_list"
#define M_QGET_ADJID M_PARSE_COMMAND_ADJECTIV_ID_LIST
/* Function in LPC which returns a list of prepositions
*/
#define QGET_PREPOS "parse_command_prepos_list"
#define M_QGET_PREPOS M_PARSE_COMMAND_PREPOS_LIST
/* Function in LPC which returns the 'all' word
*/
#define QGET_ALLWORD "parse_command_all_word"
#define M_QGET_ALLWORD M_PARSE_COMMAND_ALL_WORD
/* Global vectors for 'caching' of ids
The main 'parse' routine stores these on call, making the entire
parse_command() reentrant.
*/
static struct vector *gId_list = 0;
static struct vector *gPluid_list = 0;
static struct vector *gAdjid_list = 0;
static struct vector *gId_list_d = 0; /* From master */
static struct vector *gPluid_list_d = 0; /* From master */
static struct vector *gAdjid_list_d = 0; /* From master */
static struct vector *gPrepos_list = 0; /* From master */
static char *gAllword = 0; /* From master */
/*
* Master has been (re)loaded; fetch params needed for parsing
*/
void
load_parse_information()
{
struct svalue *pval;
free_parse_information();
/* Get the default ids of 'general references' from master object
*/
pval = apply_master_ob(M_QGET_ID, 0);
if (pval && pval->type == T_POINTER)
{
gId_list_d = pval->u.vec;
INCREF(pval->u.vec->ref); /* Otherwise next sapply will free it */
}
else
gId_list_d = 0;
pval = apply_master_ob(M_QGET_PLURID,0);
if (pval && pval->type == T_POINTER)
{
gPluid_list_d = pval->u.vec;
INCREF(pval->u.vec->ref); /* Otherwise next sapply will free it */
}
else
gPluid_list_d = 0;
pval = apply_master_ob(M_QGET_ADJID, 0);
if (pval && pval->type == T_POINTER)
{
gAdjid_list_d = pval->u.vec;
INCREF(pval->u.vec->ref); /* Otherwise next sapply will free it */
}
else
gAdjid_list_d = 0;
pval = apply_master_ob(M_QGET_PREPOS,0);
if (pval && pval->type == T_POINTER)
{
gPrepos_list = pval->u.vec;
INCREF(pval->u.vec->ref); /* Otherwise next sapply will free it */
}
else
gPrepos_list = 0;
pval = apply_master_ob(M_QGET_ALLWORD,0);
if (pval && pval->type == T_STRING)
gAllword = string_copy(pval->u.string);
else
gAllword = 0;
}
/*
* Function name: load_lpc_info
* Description: Loads relevant information from a given object.
* This is the ids, plural ids and adjectiv ids. This
* is the only calls to LPC objects other than the
* master object that occur within the efun
* parse_command().
* Arguments: ix: Index in the array
* ob: The object to call for information.
*/
void
load_lpc_info(int ix, struct object *ob)
{
struct vector *tmp, *sing;
struct svalue sval, *ret;
int il, make_plural = 0;
char *str;
char *parse_to_plural(char *);
if (!ob)
return;
if (gPluid_list &&
gPluid_list->size > ix &&
gPluid_list->item[ix].type == T_NUMBER &&
gPluid_list->item[ix].u.number == 0)
{
ret = apply(QGET_PLURID, ob, 0, 1);
if (ret && ret->type == T_POINTER)
assign_svalue_no_free(&gPluid_list->item[ix], ret);
else
{
make_plural = 1;
gPluid_list->item[ix].u.number = 1;
}
}
if (gId_list &&
gId_list->size > ix &&
gId_list->item[ix].type == T_NUMBER &&
gId_list->item[ix].u.number == 0)
{
ret = apply(QGET_ID, ob, 0, 1);
if (ret && ret->type == T_POINTER)
{
assign_svalue_no_free(&gId_list->item[ix], ret);
if (make_plural)
{
tmp = allocate_array(ret->u.vec->size);
sing = ret->u.vec;
sval.type = T_STRING;
sval.string_type = STRING_MSTRING;
for (il = 0; il < tmp->size; il++)
{
if (sing->item[il].type == T_STRING)
{
str = parse_to_plural(sing->item[il].u.string);
sval.u.string = str;
assign_svalue_no_free(&tmp->item[il],&sval);
free_mstring(sval.u.string);
}
}
sval.type = T_POINTER;
sval.u.vec = tmp;
assign_svalue_no_free(&gPluid_list->item[ix], &sval);
free_svalue(&sval);
}
}
else
{
gId_list->item[ix].u.number = 1;
}
}
if (gAdjid_list &&
gAdjid_list->size > ix &&
gAdjid_list->item[ix].type == T_NUMBER &&
gAdjid_list->item[ix].u.number == 0)
{
ret = apply(QGET_ADJID, ob, 0, 1);
if (ret && ret->type == T_POINTER)
assign_svalue_no_free(&gAdjid_list->item[ix], ret);
else
gAdjid_list->item[ix].u.number = 1;
}
}
void
free_parse_information()
{
if (gId_list_d)
free_vector(gId_list_d);
gId_list_d = 0;
if (gPluid_list_d)
free_vector(gPluid_list_d);
gPluid_list_d = 0;
if (gAdjid_list_d)
free_vector(gAdjid_list_d);
gAdjid_list_d = 0;
if (gPrepos_list)
free_vector(gPrepos_list);
gPrepos_list = 0;
if (gAllword)
free(gAllword);
gAllword = 0;
}
/* Main function, called from interpret.c
*/
/*
* Function name: parse
* Description: The main function for the efun: parse_command()
* It parses a given command using a given pattern and
* a set of objects (see args below). For details
* see LPC documentation of the efun.
* Arguments: cmd: The command to parse
* ob_or_array: A list of objects or one object from
* which to make a list of objects by
* using the objects deep_inventory
* pattern: The given parse pattern somewhat like sscanf
* but with different %-codes, see efun docs.
* stack_args: Pointer to destination arguments.
* num_arg: Number of destination arguments.
* Returns: True if command matched pattern.
*/
int
parse (char *cmd, struct svalue *ob_or_array, char *pattern,
struct svalue *stack_args, int num_arg)
/*
char *cmd; Command to parse
struct svalue *ob_or_array; Object or array of objects
char *pattern; Special parsing pattern
struct svalue *stack_args; Pointer to lvalue args on stack
int num_arg; Number of args on stack
*/
{
struct vector *obvec, *patvec, *wvec;
struct vector *old_id, *old_plid, *old_adjid;
int pix, cix, six, fail, fword, ocix, fpix;
struct svalue *pval;
void check_for_destr(struct svalue *); /* In interpret.c */
struct svalue *sub_parse(struct vector *, struct vector *, int *, struct vector *, int *, int *, struct svalue *);
struct svalue *slice_words(struct vector *, int, int), tmp;
void stack_put(struct svalue *, struct svalue *, int, int);
struct vector *deep_inventory(struct object *, int);
/*
* Pattern and commands can not be empty
*/
if (*cmd == '\0' || *pattern == '\0')
return 0;
wvec = explode_string(cmd," "); /* Array of words in command */
patvec = explode_string(pattern," "); /* Array of pattern elements */
/*
* Explode can return '0'.
*/
if (!wvec)
wvec = allocate_array(0);
if (!patvec)
patvec = allocate_array(0);
INCREF(wvec->ref); /* Do not lose these arrays */
INCREF(patvec->ref);
if (ob_or_array->type == T_POINTER)
obvec = ob_or_array->u.vec;
else if (ob_or_array->type == T_OBJECT)
obvec = deep_inventory(ob_or_array->u.ob, 1); /* 1 == ob + deepinv */
else
{
obvec = 0;
error("Bad second argument to parse_command()\n");
}
tmp.type = T_POINTER;
tmp.u.vec = obvec;
check_for_destr(&tmp);
INCREF(obvec->ref);
/* Copy and make space for id arrays
*/
old_id = gId_list;
old_plid = gPluid_list;
old_adjid = gAdjid_list;
gId_list = allocate_array(obvec->size);
gPluid_list = allocate_array(obvec->size);
gAdjid_list = allocate_array(obvec->size);
/* Loop through the pattern. Handle %s but not '/'
*/
pix = 0;
#ifndef OLD_EXPLODE
while (pix < patvec->size && !*(patvec->item[pix].u.string))
pix++;
#endif
six = 0;
cix = 0;
fail = 0;
for (; pix < patvec->size; pix++)
{
pval = 0; /* The 'fill-in' value */
fail = 0; /* 1 if match failed */
if (EQ(patvec->item[pix].u.string, "%s"))
{
/* We are at end of pattern, scrap up the remaining
words and put them in the fill-in value.
*/
if (pix == (patvec->size-1))
{
pval = slice_words(wvec, cix, wvec->size - 1);
cix = wvec->size;
stack_put(pval, stack_args, six++, num_arg);
}
else
/*
There is something after %s, try to parse with the
next pattern. Begin with the current word and step
one word for each fail, until match or end of words.
*/
{
ocix = fword = cix; /* Current word */
fpix = ++pix; /* pix == next pattern */
do
{
fail = 0;
/*
Parse the following pattern, fill-in values:
stack_args[six] = result of %s
stack_args[six + 1] = result of following pattern,
if it is a fill-in pattern
*/
pval = sub_parse(obvec, patvec, &pix, wvec, &cix, &fail,
((six + 1) < num_arg) ?
stack_args[six + 1].u.lvalue
: 0);
if (fail)
{
cix = ++ocix;
pix = fpix;
}
} while ((fail) && (cix < wvec->size));
/*
We found something matching the pattern after %s.
First
stack_args[six + 1] = result of match
Then
stack_args[six] = the skipped words before match
*/
if (!fail)
{
/* A match with a value fill in param */
if (pval)
{
stack_put(pval, stack_args, six + 1, num_arg);
pval = slice_words(wvec, fword, ocix - 1);
stack_put(pval, stack_args, six, num_arg);
six += 2;
}
else
{
/* A match with a non value ie 'word' */
pval = slice_words(wvec, fword, ocix - 1);
stack_put(pval, stack_args, six++, num_arg);
}
pval = 0;
}
}
}
else if (!EQ(patvec->item[pix].u.string,"/"))
{
/* The pattern was not %s, parse the pattern if
* it is not '/', a '/' here is skipped.
* If match, put in fill-in value.
*/
pval = sub_parse(obvec, patvec, &pix, wvec, &cix, &fail,
(six < num_arg) ? stack_args[six].u.lvalue : 0);
if (!fail && pval)
stack_put(pval, stack_args, six++, num_arg);
}
/* Terminate parsing if no match
*/
if (fail)
break;
}
/* Also fail when there are words left to parse and pattern exhausted
*/
if (cix < wvec->size)
fail = 1;
/* Delete and free the id arrays
*/
if (gId_list)
{
free_vector(gId_list);
}
if (gPluid_list)
{
free_vector(gPluid_list);
}
if (gAdjid_list)
{
free_vector(gAdjid_list);
}
gId_list = old_id;
gPluid_list = old_plid;
gAdjid_list = old_adjid;
DECREF(wvec->ref);
DECREF(patvec->ref);
DECREF(obvec->ref);
free_vector(wvec);
free_vector(patvec);
/*
* A vector we made should be freed
*/
if (ob_or_array->type == T_OBJECT)
{
free_vector(obvec);
}
return !fail;
}
/*
* Function name: stack_put
* Description: Puts an svalue on the stack.
* Arguments: pval: Value to put
* sp: Stackpointer
* pos: Position on stack to put value
* max: The number of args on the stack
*/
void
stack_put(struct svalue *pval, struct svalue *msp, int pos, int max)
{
if (pos >= max)
return;
if ((pval) && (msp[pos].type == T_LVALUE))
assign_svalue(msp[pos].u.lvalue, pval);
}
/*
* Function name: slice_words
* Description: Gives an imploded string of words from an array
* Arguments: wvec: array of words
* from: First word to use
* to: Last word to use
* Returns: A pointer to a static svalue now containing string.
*/
struct svalue *
slice_words(struct vector *wvec, int from, int to)
{
struct vector *slice;
char *tx;
static struct svalue stmp = { T_NUMBER };
tx = 0;
if (from <= to)
{
slice = slice_array(wvec, from, to);
if (slice->size)
tx = implode_string(slice, " ");
free_vector(slice);
}
free_svalue(&stmp); /* May be allocated! */
if (tx)
{
stmp.type = T_STRING;
stmp.string_type = STRING_MSTRING;
stmp.u.string = tx;
}
else
{
stmp.type = T_STRING;
stmp.string_type = STRING_CSTRING;
stmp.u.string = "";
}
return &stmp;
}
/*
* Function name: sub_parse
* Description: Parses a vector of words against a pattern. Gives
* result as an svalue. Sets fail if parsing fails and
* updates pointers in pattern and word vectors. It
* handles alternate patterns but not "%s"
*/
struct svalue *
sub_parse(struct vector *obvec, struct vector *patvec, int *pix_in,
struct vector *wvec, int *cix_in, int *fail, struct svalue *msp)
{
int cix, pix, subfail;
struct svalue *pval;
struct svalue *one_parse(struct vector *, char *, struct vector *,
int *, int *, struct svalue *);
cix = *cix_in; pix = *pix_in; subfail = 0;
pval = one_parse(obvec, patvec->item[pix].u.string,
wvec, &cix, &subfail, msp);
while (subfail)
{
pix++;
cix = *cix_in;
/*
Find the next alternative pattern, consecutive '/' are skipped
*/
while ((pix < patvec->size) && (EQ(patvec->item[pix].u.string, "/")))
{
subfail = 0;
pix++;
}
if (!subfail && (pix < patvec->size))
{
pval = one_parse(obvec, patvec->item[pix].u.string, wvec, &cix,
&subfail, msp);
}
else if (subfail == 2) /* failed optional */
{
subfail = 0;
pix = pix-1;
}
else
{
*fail = 1; *pix_in = pix-1;
return 0;
}
}
/* If there are alternatives left after the matching pattern, skip them
*/
if ((pix + 1 < patvec->size) && (EQ(patvec->item[pix + 1].u.string, "/")))
{
while ((pix + 1 <patvec->size) &&
(EQ(patvec->item[pix + 1].u.string, "/")))
{
pix += 2;
}
if (pix>=patvec->size)
pix = patvec->size-1;
}
*cix_in = cix;
*pix_in = pix;
*fail = 0;
return pval;
}
/*
* Function name: one_parse
* Description: Checks one parse pattern to see if match. Consumes
* needed number of words from wvec.
* Arguments: obvec: Vector of objects relevant to parse
* pat: The pattern to match against.
* wvec: Vector of words in the command to parse
* cix_in: Current word in commandword vector
* fail: Fail flag if parse did not match
* prep_param: Only used on %p (see prepos_parse)
* Returns: svalue holding result of parse.
*/
struct svalue *
one_parse(struct vector *obvec, char *pat, struct vector *wvec, int *cix_in,
int *fail, struct svalue *prep_param)
{
struct svalue *pval;
static struct svalue stmp = { T_NUMBER };
char *str1, *str2;
struct svalue *item_parse(struct vector *, struct vector *, int *, int *);
struct svalue *living_parse(struct vector *, struct vector *, int *, int *);
struct svalue *single_parse(struct vector *, struct vector *, int *, int *);
struct svalue *prepos_parse(struct vector *, int *, int *, struct svalue *);
struct svalue *number_parse(struct vector *, int *, int *);
/*
Fail if we have a pattern left but no words to parse
*/
if (*cix_in >= wvec->size)
{
if (pat[0] == '[')
*fail = 0;
else
*fail = 1;
return 0;
}
pval = 0;
switch (pat[0]) {
case '%':
switch (pat[1]) {
case 'i':
pval = item_parse(obvec, wvec, cix_in, fail);
break;
case 'l':
pval = living_parse(obvec, wvec, cix_in, fail);
break;
case 's':
*fail = 0; /* This is double %s in pattern, skip it */
break;
case 'w':
free_svalue(&stmp);
stmp.type = T_STRING;
stmp.string_type = STRING_SSTRING;
stmp.u.string = make_sstring(wvec->item[*cix_in].u.string);
pval = &stmp;
(*cix_in)++;
*fail = 0;
break;
case 'o':
pval = single_parse(obvec, wvec, cix_in, fail);
break;
case 'p':
pval = prepos_parse(wvec, cix_in, fail, prep_param);
break;
case 'd':
pval = number_parse(wvec, cix_in, fail);
break;
default:
warning("Invalid pattern in parse_command: %s\n", pat);
break;
}
break;
case '\'':
str1 = &pat[1]; str2 = wvec->item[*cix_in].u.string;
if ((strncmp(str1, str2, strlen(str1) - 1) == 0) &&
(strlen(str1) == strlen(str2) + 1))
{
*fail = 0;
(*cix_in)++;
}
else
*fail = 1;
break;
case '[':
str1 = &pat[1]; str2 = wvec->item[*cix_in].u.string;
if ((strncmp(str1, str2, strlen(str1) - 1) == 0) &&
(strlen(str1) == strlen(str2) + 1))
{
(*cix_in)++;
*fail = 0;
}
else
{
*fail = 2;
}
break;
default:
warning("%s: Invalid pattern in parse_command: %s\n", current_object->name, pat);
*fail = 0; /* Skip invalid patterns */
}
return pval;
}
/*
* Parse a number %d style, restricted to range 0-<x>
*/
struct svalue *
number_parse(struct vector *wvec, int *cix_in, int *fail)
{
int64_t num;
int cix = *cix_in; *fail = 0;
static struct svalue ret;
ret = const0;
if (sscanf(wvec->item[cix].u.string, "%" SCNd64, &num))
{
if (num >= 0)
{
(*cix_in)++;
ret.type = T_NUMBER;
ret.u.number = num;
return &ret;
}
}
*fail = 1;
return NULL;
}
/*
We normally define these, see initial documentation (top of file)
*/
#ifndef PARSE_FOREIGN
static char *ord1[] = {"", "first", "second", "third", "fourth", "fifth",
"sixth", "seventh", "eighth", "ninth", "tenth",
"eleventh", "twelfth", "thirteenth", "fourteenth",
"fifteenth", "sixteenth", "seventeenth",
"eighteenth","nineteenth"};
static char *ord10[] = {"", "", "twenty","thirty","forty","fifty","sixty",
"seventy", "eighty","ninety"};
static char *sord10[] = {"", "", "twentieth", "thirtieth", "fortieth",
"fiftieth", "sixtieth","seventieth", "eightieth",
"ninetieth"};
static char *num1[] = {"", "one","two","three","four","five","six",
"seven","eight","nine","ten",
"eleven","twelve","thirteen","fourteen","fifteen",
"sixteen", "seventeen","eighteen","nineteen"};
static char *num10[] = {"", "", "twenty","thirty","forty","fifty","sixty",
"seventy", "eighty","ninety"};
#endif
/*
* Function name: number_parse
* Description: Tries to interpret the word in wvec as a numeral
* descriptor and returns the result on the form: