quakeforge/libs/gamecode/engine/pr_strings.c

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/*
pr_strings.c
progs string managment
Copyright (C) 1996-1997 Id Software, Inc.
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
of the License, 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:
Free Software Foundation, Inc.
59 Temple Place - Suite 330
Boston, MA 02111-1307, USA
*/
#ifdef HAVE_CONFIG_H
# include "config.h"
#endif
static __attribute__ ((used)) const char rcsid[] =
"$Id$";
#ifdef HAVE_STRING_H
# include <string.h>
#endif
#ifdef HAVE_STRINGS_H
# include <strings.h>
#endif
#include <ctype.h>
#include <stdarg.h>
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#include <stdlib.h>
#include "QF/dstring.h"
#include "QF/hash.h"
#include "QF/progs.h"
typedef enum {
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str_free,
str_static,
str_dynamic,
str_mutable,
str_temp,
str_return,
} str_e;
struct strref_s {
strref_t *next;
strref_t **prev;
str_e type;
union {
char *string;
dstring_t *dstring;
} s;
};
// format adjustments
#define FMT_ALTFORM (1<<0)
#define FMT_LJUSTIFY (1<<1)
#define FMT_ZEROPAD (1<<2)
#define FMT_ADDSIGN (1<<3)
#define FMT_ADDBLANK (1<<4)
#define FMT_HEX (1<<5)
typedef struct fmt_item_s {
byte type;
unsigned flags;
int minFieldWidth;
int precision;
union {
const char *string_var;
int integer_var;
unsigned uinteger_var;
float float_var;
} data;
struct fmt_item_s *next;
} fmt_item_t;
static fmt_item_t *free_fmt_items;
static void *
pr_strings_alloc (void *_pr, size_t size)
{
progs_t *pr = (progs_t *) _pr;
return PR_Zone_Malloc (pr, size);
}
static void
pr_strings_free (void *_pr, void *ptr)
{
progs_t *pr = (progs_t *) _pr;
PR_Zone_Free (pr, ptr);
}
static void *
pr_strings_realloc (void *_pr, void *ptr, size_t size)
{
progs_t *pr = (progs_t *) _pr;
return PR_Zone_Realloc (pr, ptr, size);
}
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static strref_t *
new_string_ref (progs_t *pr)
{
strref_t *sr;
if (!pr->free_string_refs) {
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int i, size;
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pr->dyn_str_size++;
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size = pr->dyn_str_size * sizeof (strref_t *);
pr->string_map = realloc (pr->string_map, size);
if (!pr->string_map)
PR_Error (pr, "out of memory");
if (!(pr->free_string_refs = calloc (1024, sizeof (strref_t))))
PR_Error (pr, "out of memory");
pr->string_map[pr->dyn_str_size - 1] = pr->free_string_refs;
for (i = 0, sr = pr->free_string_refs; i < 1023; i++, sr++)
sr->next = sr + 1;
sr->next = 0;
}
sr = pr->free_string_refs;
pr->free_string_refs = sr->next;
sr->next = 0;
return sr;
}
static void
free_string_ref (progs_t *pr, strref_t *sr)
{
sr->type = str_free;
if (sr->prev)
*sr->prev = sr->next;
sr->next = pr->free_string_refs;
pr->free_string_refs = sr;
}
static int
string_index (progs_t *pr, strref_t *sr)
{
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long o = (long) (sr - pr->static_strings);
unsigned int i;
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if (o >= 0 && o < pr->num_strings)
return sr->s.string - pr->pr_strings;
for (i = 0; i < pr->dyn_str_size; i++) {
int d = sr - pr->string_map[i];
if (d >= 0 && d < 1024)
return ~(i * 1024 + d);
}
return 0;
}
static const char *
strref_get_key (void *_sr, void *notused)
{
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strref_t *sr = (strref_t*)_sr;
// only static strings will ever be in the hash table
return sr->s.string;
}
static void
strref_free (void *_sr, void *_pr)
{
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progs_t *pr = (progs_t*)_pr;
strref_t *sr = (strref_t*)_sr;
// Since this is only ever called by Hash_FlushTable, the memory pointed
// to by sr->string or sr->dstring has already been lost in the progs
// load/reload and thus there's no need to free it.
// free the string and ref only if it's not a static string
if (sr < pr->static_strings || sr >= pr->static_strings + pr->num_strings) {
free_string_ref (pr, sr);
}
}
int
PR_LoadStrings (progs_t *pr)
{
char *end = pr->pr_strings + pr->progs->numstrings;
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char *str = pr->pr_strings;
int count = 0;
while (str < end) {
count++;
str += strlen (str) + 1;
}
if (!pr->ds_mem) {
pr->ds_mem = malloc (sizeof (dstring_mem_t));
pr->ds_mem->alloc = pr_strings_alloc;
pr->ds_mem->free = pr_strings_free;
pr->ds_mem->realloc = pr_strings_realloc;
pr->ds_mem->data = pr;
}
if (pr->strref_hash) {
Hash_FlushTable (pr->strref_hash);
} else {
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pr->strref_hash = Hash_NewTable (1021, strref_get_key, strref_free,
pr);
pr->string_map = 0;
pr->free_string_refs = 0;
pr->dyn_str_size = 0;
}
if (pr->static_strings)
free (pr->static_strings);
pr->static_strings = malloc (count * sizeof (strref_t));
count = 0;
str = pr->pr_strings;
while (str < end) {
if (!Hash_Find (pr->strref_hash, str)) {
pr->static_strings[count].type = str_static;
pr->static_strings[count].s.string = str;
Hash_Add (pr->strref_hash, &pr->static_strings[count]);
count++;
}
str += strlen (str) + 1;
}
pr->static_strings = realloc (pr->static_strings,
count * sizeof (strref_t));
pr->num_strings = count;
return 1;
}
static inline strref_t *
get_strref (progs_t *pr, int num)
{
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if (num < 0) {
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strref_t *ref;
unsigned int row = ~num / 1024;
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num = ~num % 1024;
if (row >= pr->dyn_str_size)
return 0;
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ref = &pr->string_map[row][num];
if (ref->type == str_free)
return 0;
return ref;
}
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return 0;
}
static inline const char *
get_string (progs_t *pr, int num)
{
if (num < 0) {
strref_t *ref = get_strref (pr, num);
if (!ref)
return 0;
switch (ref->type) {
case str_static:
case str_temp:
case str_dynamic:
case str_return:
return ref->s.string;
case str_mutable:
return ref->s.dstring->str;
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case str_free:
break;
}
PR_Error (pr, "internal string error");
} else {
if (num >= pr->pr_stringsize)
return 0;
return pr->pr_strings + num;
}
}
qboolean
PR_StringValid (progs_t *pr, int num)
{
return get_string (pr, num) != 0;
}
const char *
PR_GetString (progs_t *pr, int num)
{
const char *str;
str = get_string (pr, num);
if (str)
return str;
PR_RunError (pr, "Invalid string offset %d", num);
}
dstring_t *
PR_GetMutableString (progs_t *pr, int num)
{
strref_t *ref = get_strref (pr, num);
if (ref) {
if (ref->type == str_mutable)
return ref->s.dstring;
PR_RunError (pr, "not a dstring: %d", num);
}
PR_RunError (pr, "Invalid string offset: %d", num);
}
static inline char *
pr_stralloc (progs_t *pr, int len)
{
return PR_Zone_Malloc (pr, len + 1);
}
static inline void
pr_strfree (progs_t *pr, char *s)
{
PR_Zone_Free (pr, s);
}
static inline char *
pr_strdup (progs_t *pr, const char *s)
{
char *new = pr_stralloc (pr, strlen (s));
strcpy (new, s);
return new;
}
int
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PR_SetString (progs_t *pr, const char *s)
{
strref_t *sr;
if (!s)
s = "";
sr = Hash_Find (pr->strref_hash, s);
if (!sr) {
sr = new_string_ref (pr);
sr->type = str_static;
sr->s.string = pr_strdup(pr, s);
Hash_Add (pr->strref_hash, sr);
}
return string_index (pr, sr);
}
void
PR_ClearReturnStrings (progs_t *pr)
{
int i;
for (i = 0; i < PR_RS_SLOTS; i++) {
if (pr->return_strings[i])
free_string_ref (pr, pr->return_strings[i]);
pr->return_strings[i] = 0;
}
}
int
PR_SetReturnString (progs_t *pr, const char *s)
{
strref_t *sr;
if (!s)
s = "";
if ((sr = Hash_Find (pr->strref_hash, s))) {
return string_index (pr, sr);
}
if ((sr = pr->return_strings[pr->rs_slot])) {
if (sr->type != str_return)
PR_Error (pr, "internal string error");
pr_strfree (pr, sr->s.string);
} else {
sr = new_string_ref (pr);
}
sr->type = str_return;
sr->s.string = pr_strdup(pr, s);
pr->return_strings[pr->rs_slot++] = sr;
pr->rs_slot %= PR_RS_SLOTS;
return string_index (pr, sr);
}
static inline int
pr_settempstring (progs_t *pr, char *s)
{
strref_t *sr;
sr = new_string_ref (pr);
sr->type = str_temp;
sr->s.string = s;
sr->next = pr->pr_xtstr;
pr->pr_xtstr = sr;
return string_index (pr, sr);
}
int
PR_CatStrings (progs_t *pr, const char *a, const char *b)
{
int lena;
char *c;
lena = strlen (a);
c = pr_stralloc (pr, lena + strlen (b));
strcpy (c, a);
strcpy (c + lena, b);
return pr_settempstring (pr, c);
}
int
PR_SetTempString (progs_t *pr, const char *s)
{
strref_t *sr;
if (!s)
return PR_SetString (pr, "");
if ((sr = Hash_Find (pr->strref_hash, s))) {
return string_index (pr, sr);
}
return pr_settempstring (pr, pr_strdup (pr, s));
}
int
PR_SetDynamicString (progs_t *pr, const char *s)
{
strref_t *sr;
if (!s)
return PR_SetString (pr, "");
if ((sr = Hash_Find (pr->strref_hash, s))) {
return string_index (pr, sr);
}
sr = new_string_ref (pr);
sr->type = str_dynamic;
sr->s.string = pr_strdup (pr, s);
return string_index (pr, sr);
}
void
PR_MakeTempString (progs_t *pr, int str)
{
strref_t *sr = get_strref (pr, str);
if (!sr)
PR_RunError (pr, "invalid string %d", str);
if (sr->type != str_mutable)
PR_RunError (pr, "not a dstring: %d", str);
if (sr->s.dstring->str) {
sr->s.string = dstring_freeze (sr->s.dstring);
} else {
dstring_delete (sr->s.dstring);
}
if (!sr->s.string)
sr->s.string = pr_strdup (pr, "");
sr->type = str_temp;
sr->next = pr->pr_xtstr;
pr->pr_xtstr = sr;
}
int
PR_NewMutableString (progs_t *pr)
{
strref_t *sr = new_string_ref (pr);
sr->type = str_mutable;
sr->s.dstring = _dstring_newstr (pr->ds_mem);
return string_index (pr, sr);
}
void
PR_FreeString (progs_t *pr, int str)
{
strref_t *sr = get_strref (pr, str);
if (sr) {
switch (sr->type) {
case str_static:
case str_temp:
return;
case str_mutable:
dstring_delete (sr->s.dstring);
break;
case str_dynamic:
pr_strfree (pr, sr->s.string);
break;
case str_return:
default:
PR_Error (pr, "internal string error");
}
free_string_ref (pr, sr);
return;
}
if (!get_string (pr, str))
PR_RunError (pr, "attempt to free invalid string %d", str);
}
void
PR_FreeTempStrings (progs_t *pr)
{
strref_t *sr, *t;
for (sr = pr->pr_xtstr; sr; sr = t) {
t = sr->next;
if (sr->type != str_temp)
PR_Error (pr, "internal string error");
pr_strfree (pr, sr->s.string);
free_string_ref (pr, sr);
}
pr->pr_xtstr = 0;
}
#define PRINT(t) \
switch ((doWidth << 1) | doPrecision) { \
case 3: \
dasprintf (result, tmp->str, current->minFieldWidth, \
current->precision, current->data.t##_var); \
break; \
case 2: \
dasprintf (result, tmp->str, current->minFieldWidth, \
current->precision, current->data.t##_var); \
break; \
case 1: \
dasprintf (result, tmp->str, current->precision, \
current->data.t##_var); \
break; \
case 0: \
dasprintf (result, tmp->str, current->data.t##_var); \
break; \
}
/*
This function takes as input a linked list of fmt_item_t representing
EVERYTHING to be printed. This includes text that is not affected by
formatting. A string without any formatting would wind up with only one
list item.
*/
static void
I_DoPrint (dstring_t *result, fmt_item_t *formatting)
{
fmt_item_t *current = formatting;
dstring_t *tmp = dstring_new ();
while (current) {
qboolean doPrecision, doWidth;
doPrecision = -1 != current->precision;
doWidth = 0 != current->minFieldWidth;
dsprintf (tmp, "%%%s%s%s%s%s%s%s",
(current->flags & FMT_ALTFORM) ? "#" : "", // hash
(current->flags & FMT_ZEROPAD) ? "0" : "", // zero padding
(current->flags & FMT_LJUSTIFY) ? "-" : "", // left justify
(current->flags & FMT_ADDBLANK) ? " " : "", // add space for +ve
(current->flags & FMT_ADDSIGN) ? "+" : "", // add sign always
doWidth ? "*" : "",
doPrecision ? ".*" : "");
switch (current->type) {
case 's':
dstring_appendstr (tmp, "s");
PRINT (string);
break;
case 'i':
dstring_appendstr (tmp, "d");
PRINT (integer);
break;
case 'x':
dstring_appendstr (tmp, "x");
PRINT (integer);
break;
case 'u':
if (current->flags & FMT_HEX)
dstring_appendstr (tmp, "x");
else
dstring_appendstr (tmp, "u");
PRINT (uinteger);
break;
case 'f':
dstring_appendstr (tmp, "f");
PRINT (float);
break;
case 'g':
dstring_appendstr (tmp, "g");
PRINT (float);
break;
default:
break;
}
current = current->next;
}
dstring_delete (tmp);
}
static fmt_item_t *
new_fmt_item (void)
{
int i;
fmt_item_t *fi;
if (!free_fmt_items) {
free_fmt_items = malloc (16 * sizeof (fmt_item_t));
for (i = 0; i < 15; i++)
free_fmt_items[i].next = free_fmt_items + i + 1;
free_fmt_items[i].next = 0;
}
fi = free_fmt_items;
free_fmt_items = fi->next;
memset (fi, 0, sizeof (*fi));
fi->precision = -1;
return fi;
}
static void
free_fmt_item (fmt_item_t *fi)
{
fi->next = free_fmt_items;
free_fmt_items = fi;
}
#undef P_var
#define P_var(p,n,t) (args[n]->t##_var)
void
PR_Sprintf (progs_t *pr, dstring_t *result, const char *name,
const char *format, int count, pr_type_t **args)
{
const char *c, *l;
const char *msg = "";
fmt_item_t *fmt_items = 0;
fmt_item_t **fi = &fmt_items;
int fmt_count = 0;
if (!name)
name = "PF_InternalSprintf";
*fi = new_fmt_item ();
c = l = format;
while (*c) {
if (*c++ == '%') {
if (c != l + 1) {
// have some unformatted text to print
(*fi)->precision = c - l - 1;
(*fi)->type = 's';
(*fi)->data.string_var = l;
(*fi)->next = new_fmt_item ();
fi = &(*fi)->next;
}
if (*c == '%') {
(*fi)->type = 's';
(*fi)->data.string_var = "%";
(*fi)->next = new_fmt_item ();
fi = &(*fi)->next;
} else {
do {
switch (*c) {
// format options
case '\0':
msg = "Unexpected end of format string";
goto error;
case '0':
(*fi)->flags |= FMT_ZEROPAD;
c++;
continue;
case '#':
(*fi)->flags |= FMT_ALTFORM;
c++;
continue;
case ' ':
(*fi)->flags |= FMT_ADDBLANK;
c++;
continue;
case '-':
(*fi)->flags |= FMT_LJUSTIFY;
c++;
continue;
case '+':
(*fi)->flags |= FMT_ADDSIGN;
c++;
continue;
case '.':
(*fi)->precision = 0;
c++;
while (isdigit (*c)) {
(*fi)->precision *= 10;
(*fi)->precision += *c++ - '0';
}
continue;
case '1': case '2': case '3': case '4': case '5':
case '6': case '7': case '8': case '9':
while (isdigit (*c)) {
(*fi)->minFieldWidth *= 10;
(*fi)->minFieldWidth += *c++ - '0';
}
continue;
// format types
case '@':
// object
fmt_count++;
(*fi)->next = new_fmt_item ();
fi = &(*fi)->next;
break;
case 'e':
// entity
(*fi)->type = 'i';
(*fi)->data.integer_var =
P_EDICTNUM (pr, fmt_count);
fmt_count++;
(*fi)->next = new_fmt_item ();
fi = &(*fi)->next;
break;
case 'i':
// integer
(*fi)->type = *c;
(*fi)->data.integer_var = P_INT (pr, fmt_count);
fmt_count++;
(*fi)->next = new_fmt_item ();
fi = &(*fi)->next;
break;
case 'f':
// float
case 'g':
// float, no trailing zeroes, trim "." if nothing
// after
(*fi)->type = *c;
(*fi)->data.float_var = P_FLOAT (pr, fmt_count);
fmt_count++;
(*fi)->next = new_fmt_item ();
fi = &(*fi)->next;
break;
case 'p':
// pointer
(*fi)->flags |= FMT_ALTFORM;
(*fi)->type = 'x';
(*fi)->data.uinteger_var = P_UINT (pr, fmt_count);
fmt_count++;
(*fi)->next = new_fmt_item ();
fi = &(*fi)->next;
break;
case 's':
// string
(*fi)->type = *c;
(*fi)->data.string_var = P_GSTRING (pr, fmt_count);
fmt_count++;
(*fi)->next = new_fmt_item ();
fi = &(*fi)->next;
break;
case 'v':
case 'q':
// vector
{
int i, count = 3;
int flags = (*fi)->flags;
int precision = (*fi)->precision;
unsigned minWidth = (*fi)->minFieldWidth;
(*fi)->flags = 0;
(*fi)->precision = -1;
(*fi)->minFieldWidth = 0;
if (*c == 'q')
count = 4;
for (i = 0; i < count; i++) {
if (i == 0) {
(*fi)->type = 's';
(*fi)->data.string_var = "'";
} else {
(*fi)->type = 's';
(*fi)->data.string_var = " ";
}
(*fi)->next = new_fmt_item ();
fi = &(*fi)->next;
(*fi)->flags = flags;
(*fi)->precision = precision;
(*fi)->minFieldWidth = minWidth;
(*fi)->type = 'g';
(*fi)->data.float_var =
P_VECTOR (pr, fmt_count)[i];
(*fi)->next = new_fmt_item ();
fi = &(*fi)->next;
}
}
(*fi)->type = 's';
(*fi)->data.string_var = "'";
fmt_count++;
(*fi)->next = new_fmt_item ();
fi = &(*fi)->next;
break;
case 'x':
// integer, hex notation
(*fi)->type = *c;
(*fi)->data.uinteger_var = P_UINT (pr, fmt_count);
fmt_count++;
(*fi)->next = new_fmt_item ();
fi = &(*fi)->next;
break;
}
break;
} while (1);
}
l = ++c;
}
}
if (c != l) {
// have some unformatted text to print
(*fi)->precision = c - l;
(*fi)->type = 's';
(*fi)->data.string_var = l;
(*fi)->next = new_fmt_item ();
fi = &(*fi)->next;
}
if (fmt_count != count) {
printf ("%d %d", fmt_count, count);
if (fmt_count > count)
msg = "Not enough arguments for format string.";
else
msg = "Too many arguments for format string.";
goto error;
}
I_DoPrint (result, fmt_items);
while (fmt_items) {
fmt_item_t *t = fmt_items->next;
free_fmt_item (fmt_items);
fmt_items = t;
}
return;
error:
PR_RunError (pr, "%s: %s", name, msg);
}