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|
/* vi:set ts=8 sts=4 sw=4 noet:
*
* VIM - Vi IMproved by Bram Moolenaar
*
* Do ":help uganda" in Vim to read copying and usage conditions.
* Do ":help credits" in Vim to see a list of people who contributed.
* See README.txt for an overview of the Vim source code.
*/
/*
* strings.c: string manipulation functions
*/
#define USING_FLOAT_STUFF
#include "vim.h"
/*
* Copy "string" into newly allocated memory.
*/
char_u *
vim_strsave(char_u *string)
{
char_u *p;
size_t len;
len = STRLEN(string) + 1;
p = alloc(len);
if (p != NULL)
mch_memmove(p, string, len);
return p;
}
/*
* Copy up to "len" bytes of "string" into newly allocated memory and
* terminate with a NUL.
* The allocated memory always has size "len + 1", also when "string" is
* shorter.
*/
char_u *
vim_strnsave(char_u *string, size_t len)
{
char_u *p;
p = alloc(len + 1);
if (p == NULL)
return NULL;
STRNCPY(p, string, len);
p[len] = NUL;
return p;
}
/*
* Same as vim_strsave(), but any characters found in esc_chars are preceded
* by a backslash.
*/
char_u *
vim_strsave_escaped(char_u *string, char_u *esc_chars)
{
return vim_strsave_escaped_ext(string, esc_chars, '\\', FALSE);
}
/*
* Same as vim_strsave_escaped(), but when "bsl" is TRUE also escape
* characters where rem_backslash() would remove the backslash.
* Escape the characters with "cc".
*/
char_u *
vim_strsave_escaped_ext(
char_u *string,
char_u *esc_chars,
int cc,
int bsl)
{
char_u *p;
char_u *p2;
char_u *escaped_string;
unsigned length;
int l;
// First count the number of backslashes required.
// Then allocate the memory and insert them.
length = 1; // count the trailing NUL
for (p = string; *p; p++)
{
if (has_mbyte && (l = (*mb_ptr2len)(p)) > 1)
{
length += l; // count a multibyte char
p += l - 1;
continue;
}
if (vim_strchr(esc_chars, *p) != NULL || (bsl && rem_backslash(p)))
++length; // count a backslash
++length; // count an ordinary char
}
escaped_string = alloc(length);
if (escaped_string == NULL)
return NULL;
p2 = escaped_string;
for (p = string; *p; p++)
{
if (has_mbyte && (l = (*mb_ptr2len)(p)) > 1)
{
mch_memmove(p2, p, (size_t)l);
p2 += l;
p += l - 1; // skip multibyte char
continue;
}
if (vim_strchr(esc_chars, *p) != NULL || (bsl && rem_backslash(p)))
*p2++ = cc;
*p2++ = *p;
}
*p2 = NUL;
return escaped_string;
}
/*
* Return TRUE when 'shell' has "csh" in the tail.
*/
int
csh_like_shell(void)
{
return (strstr((char *)gettail(p_sh), "csh") != NULL);
}
/*
* Return TRUE when 'shell' has "fish" in the tail.
*/
static int
fish_like_shell(void)
{
return (strstr((char *)gettail(p_sh), "fish") != NULL);
}
/*
* Escape "string" for use as a shell argument with system().
* This uses single quotes, except when we know we need to use double quotes
* (MS-DOS and MS-Windows not using PowerShell and without 'shellslash' set).
* PowerShell also uses a novel escaping for enclosed single quotes - double
* them up.
* Escape a newline, depending on the 'shell' option.
* When "do_special" is TRUE also replace "!", "%", "#" and things starting
* with "<" like "<cfile>".
* When "do_newline" is FALSE do not escape newline unless it is csh shell.
* Returns the result in allocated memory, NULL if we have run out.
*/
char_u *
vim_strsave_shellescape(char_u *string, int do_special, int do_newline)
{
unsigned length;
char_u *p;
char_u *d;
char_u *escaped_string;
int l;
int csh_like;
int fish_like;
char_u *shname;
int powershell;
# ifdef MSWIN
int double_quotes;
# endif
// Only csh and similar shells expand '!' within single quotes. For sh and
// the like we must not put a backslash before it, it will be taken
// literally. If do_special is set the '!' will be escaped twice.
// Csh also needs to have "\n" escaped twice when do_special is set.
csh_like = csh_like_shell();
// Fish shell uses '\' as an escape character within single quotes, so '\'
// itself must be escaped to get a literal '\'.
fish_like = fish_like_shell();
// PowerShell uses its own version for quoting single quotes
shname = gettail(p_sh);
powershell = strstr((char *)shname, "pwsh") != NULL;
# ifdef MSWIN
powershell = powershell || strstr((char *)shname, "powershell") != NULL;
// PowerShell only accepts single quotes so override shellslash.
double_quotes = !powershell && !p_ssl;
# endif
// First count the number of extra bytes required.
length = (unsigned)STRLEN(string) + 3; // two quotes and a trailing NUL
for (p = string; *p != NUL; MB_PTR_ADV(p))
{
# ifdef MSWIN
if (double_quotes)
{
if (*p == '"')
++length; // " -> ""
}
else
# endif
if (*p == '\'')
{
if (powershell)
length +=2; // ' => ''
else
length += 3; // ' => '\''
}
if ((*p == '\n' && (csh_like || do_newline))
|| (*p == '!' && (csh_like || do_special)))
{
++length; // insert backslash
if (csh_like && do_special)
++length; // insert backslash
}
if (do_special && find_cmdline_var(p, &l) >= 0)
{
++length; // insert backslash
p += l - 1;
}
if (*p == '\\' && fish_like)
++length; // insert backslash
}
// Allocate memory for the result and fill it.
escaped_string = alloc(length);
if (escaped_string != NULL)
{
d = escaped_string;
// add opening quote
# ifdef MSWIN
if (double_quotes)
*d++ = '"';
else
# endif
*d++ = '\'';
for (p = string; *p != NUL; )
{
# ifdef MSWIN
if (double_quotes)
{
if (*p == '"')
{
*d++ = '"';
*d++ = '"';
++p;
continue;
}
}
else
# endif
if (*p == '\'')
{
if (powershell)
{
*d++ = '\'';
*d++ = '\'';
}
else
{
*d++ = '\'';
*d++ = '\\';
*d++ = '\'';
*d++ = '\'';
}
++p;
continue;
}
if ((*p == '\n' && (csh_like || do_newline))
|| (*p == '!' && (csh_like || do_special)))
{
*d++ = '\\';
if (csh_like && do_special)
*d++ = '\\';
*d++ = *p++;
continue;
}
if (do_special && find_cmdline_var(p, &l) >= 0)
{
*d++ = '\\'; // insert backslash
while (--l >= 0) // copy the var
*d++ = *p++;
continue;
}
if (*p == '\\' && fish_like)
{
*d++ = '\\';
*d++ = *p++;
continue;
}
MB_COPY_CHAR(p, d);
}
// add terminating quote and finish with a NUL
# ifdef MSWIN
if (double_quotes)
*d++ = '"';
else
# endif
*d++ = '\'';
*d = NUL;
}
return escaped_string;
}
/*
* Like vim_strsave(), but make all characters uppercase.
* This uses ASCII lower-to-upper case translation, language independent.
*/
char_u *
vim_strsave_up(char_u *string)
{
char_u *p1;
p1 = vim_strsave(string);
vim_strup(p1);
return p1;
}
/*
* Like vim_strnsave(), but make all characters uppercase.
* This uses ASCII lower-to-upper case translation, language independent.
*/
char_u *
vim_strnsave_up(char_u *string, size_t len)
{
char_u *p1;
p1 = vim_strnsave(string, len);
vim_strup(p1);
return p1;
}
/*
* ASCII lower-to-upper case translation, language independent.
*/
void
vim_strup(
char_u *p)
{
char_u *p2;
int c;
if (p == NULL)
return;
p2 = p;
while ((c = *p2) != NUL)
*p2++ = (c < 'a' || c > 'z') ? c : (c - 0x20);
}
#if defined(FEAT_EVAL) || defined(FEAT_SPELL) || defined(PROTO)
/*
* Make string "s" all upper-case and return it in allocated memory.
* Handles multi-byte characters as well as possible.
* Returns NULL when out of memory.
*/
static char_u *
strup_save(char_u *orig)
{
char_u *p;
char_u *res;
res = p = vim_strsave(orig);
if (res != NULL)
while (*p != NUL)
{
int l;
if (enc_utf8)
{
int c, uc;
int newl;
char_u *s;
c = utf_ptr2char(p);
l = utf_ptr2len(p);
if (c == 0)
{
// overlong sequence, use only the first byte
c = *p;
l = 1;
}
uc = utf_toupper(c);
// Reallocate string when byte count changes. This is rare,
// thus it's OK to do another malloc()/free().
newl = utf_char2len(uc);
if (newl != l)
{
s = alloc(STRLEN(res) + 1 + newl - l);
if (s == NULL)
{
vim_free(res);
return NULL;
}
mch_memmove(s, res, p - res);
STRCPY(s + (p - res) + newl, p + l);
p = s + (p - res);
vim_free(res);
res = s;
}
utf_char2bytes(uc, p);
p += newl;
}
else if (has_mbyte && (l = (*mb_ptr2len)(p)) > 1)
p += l; // skip multi-byte character
else
{
*p = TOUPPER_LOC(*p); // note that toupper() can be a macro
p++;
}
}
return res;
}
/*
* Make string "s" all lower-case and return it in allocated memory.
* Handles multi-byte characters as well as possible.
* Returns NULL when out of memory.
*/
char_u *
strlow_save(char_u *orig)
{
char_u *p;
char_u *res;
res = p = vim_strsave(orig);
if (res != NULL)
while (*p != NUL)
{
int l;
if (enc_utf8)
{
int c, lc;
int newl;
char_u *s;
c = utf_ptr2char(p);
l = utf_ptr2len(p);
if (c == 0)
{
// overlong sequence, use only the first byte
c = *p;
l = 1;
}
lc = utf_tolower(c);
// Reallocate string when byte count changes. This is rare,
// thus it's OK to do another malloc()/free().
newl = utf_char2len(lc);
if (newl != l)
{
s = alloc(STRLEN(res) + 1 + newl - l);
if (s == NULL)
{
vim_free(res);
return NULL;
}
mch_memmove(s, res, p - res);
STRCPY(s + (p - res) + newl, p + l);
p = s + (p - res);
vim_free(res);
res = s;
}
utf_char2bytes(lc, p);
p += newl;
}
else if (has_mbyte && (l = (*mb_ptr2len)(p)) > 1)
p += l; // skip multi-byte character
else
{
*p = TOLOWER_LOC(*p); // note that tolower() can be a macro
p++;
}
}
return res;
}
#endif
/*
* delete spaces at the end of a string
*/
void
del_trailing_spaces(char_u *ptr)
{
char_u *q;
q = ptr + STRLEN(ptr);
while (--q > ptr && VIM_ISWHITE(q[0]) && q[-1] != '\\' && q[-1] != Ctrl_V)
*q = NUL;
}
/*
* Like strncpy(), but always terminate the result with one NUL.
* "to" must be "len + 1" long!
*/
void
vim_strncpy(char_u *to, char_u *from, size_t len)
{
STRNCPY(to, from, len);
to[len] = NUL;
}
/*
* Like strcat(), but make sure the result fits in "tosize" bytes and is
* always NUL terminated. "from" and "to" may overlap.
*/
void
vim_strcat(char_u *to, char_u *from, size_t tosize)
{
size_t tolen = STRLEN(to);
size_t fromlen = STRLEN(from);
if (tolen + fromlen + 1 > tosize)
{
mch_memmove(to + tolen, from, tosize - tolen - 1);
to[tosize - 1] = NUL;
}
else
mch_memmove(to + tolen, from, fromlen + 1);
}
/*
* A version of strlen() that has a maximum length.
*/
size_t
vim_strlen_maxlen(char *s, size_t maxlen)
{
size_t i;
for (i = 0; i < maxlen; ++i)
if (s[i] == NUL)
break;
return i;
}
#if (!defined(HAVE_STRCASECMP) && !defined(HAVE_STRICMP)) || defined(PROTO)
/*
* Compare two strings, ignoring case, using current locale.
* Doesn't work for multi-byte characters.
* return 0 for match, < 0 for smaller, > 0 for bigger
*/
int
vim_stricmp(char *s1, char *s2)
{
int i;
for (;;)
{
i = (int)TOLOWER_LOC(*s1) - (int)TOLOWER_LOC(*s2);
if (i != 0)
return i; // this character different
if (*s1 == NUL)
break; // strings match until NUL
++s1;
++s2;
}
return 0; // strings match
}
#endif
#if (!defined(HAVE_STRNCASECMP) && !defined(HAVE_STRNICMP)) || defined(PROTO)
/*
* Compare two strings, for length "len", ignoring case, using current locale.
* Doesn't work for multi-byte characters.
* return 0 for match, < 0 for smaller, > 0 for bigger
*/
int
vim_strnicmp(char *s1, char *s2, size_t len)
{
int i;
while (len > 0)
{
i = (int)TOLOWER_LOC(*s1) - (int)TOLOWER_LOC(*s2);
if (i != 0)
return i; // this character different
if (*s1 == NUL)
break; // strings match until NUL
++s1;
++s2;
--len;
}
return 0; // strings match
}
#endif
/*
* Search for first occurrence of "c" in "string".
* Version of strchr() that handles unsigned char strings with characters from
* 128 to 255 correctly. It also doesn't return a pointer to the NUL at the
* end of the string.
*/
char_u *
vim_strchr(char_u *string, int c)
{
char_u *p;
int b;
p = string;
if (enc_utf8 && c >= 0x80)
{
while (*p != NUL)
{
int l = utfc_ptr2len(p);
// Avoid matching an illegal byte here.
if (utf_ptr2char(p) == c && l > 1)
return p;
p += l;
}
return NULL;
}
if (enc_dbcs != 0 && c > 255)
{
int n2 = c & 0xff;
c = ((unsigned)c >> 8) & 0xff;
while ((b = *p) != NUL)
{
if (b == c && p[1] == n2)
return p;
p += (*mb_ptr2len)(p);
}
return NULL;
}
if (has_mbyte)
{
while ((b = *p) != NUL)
{
if (b == c)
return p;
p += (*mb_ptr2len)(p);
}
return NULL;
}
while ((b = *p) != NUL)
{
if (b == c)
return p;
++p;
}
return NULL;
}
/*
* Version of strchr() that only works for bytes and handles unsigned char
* strings with characters above 128 correctly. It also doesn't return a
* pointer to the NUL at the end of the string.
*/
char_u *
vim_strbyte(char_u *string, int c)
{
char_u *p = string;
while (*p != NUL)
{
if (*p == c)
return p;
++p;
}
return NULL;
}
/*
* Search for last occurrence of "c" in "string".
* Version of strrchr() that handles unsigned char strings with characters from
* 128 to 255 correctly. It also doesn't return a pointer to the NUL at the
* end of the string.
* Return NULL if not found.
* Does not handle multi-byte char for "c"!
*/
char_u *
vim_strrchr(char_u *string, int c)
{
char_u *retval = NULL;
char_u *p = string;
while (*p)
{
if (*p == c)
retval = p;
MB_PTR_ADV(p);
}
return retval;
}
/*
* Vim's version of strpbrk(), in case it's missing.
* Don't generate a prototype for this, causes problems when it's not used.
*/
#ifndef PROTO
# ifndef HAVE_STRPBRK
# ifdef vim_strpbrk
# undef vim_strpbrk
# endif
char_u *
vim_strpbrk(char_u *s, char_u *charset)
{
while (*s)
{
if (vim_strchr(charset, *s) != NULL)
return s;
MB_PTR_ADV(s);
}
return NULL;
}
# endif
#endif
/*
* Sort an array of strings.
*/
static int sort_compare(const void *s1, const void *s2);
static int
sort_compare(const void *s1, const void *s2)
{
return STRCMP(*(char **)s1, *(char **)s2);
}
void
sort_strings(
char_u **files,
int count)
{
qsort((void *)files, (size_t)count, sizeof(char_u *), sort_compare);
}
#if defined(FEAT_QUICKFIX) || defined(FEAT_SPELL) || defined(PROTO)
/*
* Return TRUE if string "s" contains a non-ASCII character (128 or higher).
* When "s" is NULL FALSE is returned.
*/
int
has_non_ascii(char_u *s)
{
char_u *p;
if (s != NULL)
for (p = s; *p != NUL; ++p)
if (*p >= 128)
return TRUE;
return FALSE;
}
#endif
/*
* Concatenate two strings and return the result in allocated memory.
* Returns NULL when out of memory.
*/
char_u *
concat_str(char_u *str1, char_u *str2)
{
char_u *dest;
size_t l = str1 == NULL ? 0 : STRLEN(str1);
dest = alloc(l + (str2 == NULL ? 0 : STRLEN(str2)) + 1L);
if (dest == NULL)
return NULL;
if (str1 == NULL)
*dest = NUL;
else
STRCPY(dest, str1);
if (str2 != NULL)
STRCPY(dest + l, str2);
return dest;
}
#if defined(FEAT_EVAL) || defined(PROTO)
/*
* Return string "str" in ' quotes, doubling ' characters.
* If "str" is NULL an empty string is assumed.
* If "function" is TRUE make it function('string').
*/
char_u *
string_quote(char_u *str, int function)
{
unsigned len;
char_u *p, *r, *s;
len = (function ? 13 : 3);
if (str != NULL)
{
len += (unsigned)STRLEN(str);
for (p = str; *p != NUL; MB_PTR_ADV(p))
if (*p == '\'')
++len;
}
s = r = alloc(len);
if (r == NULL)
return NULL;
if (function)
{
STRCPY(r, "function('");
r += 10;
}
else
*r++ = '\'';
if (str != NULL)
for (p = str; *p != NUL; )
{
if (*p == '\'')
*r++ = '\'';
MB_COPY_CHAR(p, r);
}
*r++ = '\'';
if (function)
*r++ = ')';
*r++ = NUL;
return s;
}
/*
* Count the number of times "needle" occurs in string "haystack". Case is
* ignored if "ic" is TRUE.
*/
long
string_count(char_u *haystack, char_u *needle, int ic)
{
long n = 0;
char_u *p = haystack;
char_u *next;
if (p == NULL || needle == NULL || *needle == NUL)
return 0;
if (ic)
{
size_t len = STRLEN(needle);
while (*p != NUL)
{
if (MB_STRNICMP(p, needle, len) == 0)
{
++n;
p += len;
}
else
MB_PTR_ADV(p);
}
}
else
while ((next = (char_u *)strstr((char *)p, (char *)needle)) != NULL)
{
++n;
p = next + STRLEN(needle);
}
return n;
}
/*
* Make a typval_T of the first character of "input" and store it in "output".
* Return OK or FAIL.
*/
static int
copy_first_char_to_tv(char_u *input, typval_T *output)
{
char_u buf[MB_MAXBYTES + 1];
int len;
if (input == NULL || output == NULL)
return FAIL;
len = has_mbyte ? mb_ptr2len(input) : 1;
STRNCPY(buf, input, len);
buf[len] = NUL;
output->v_type = VAR_STRING;
output->vval.v_string = vim_strsave(buf);
return output->vval.v_string == NULL ? FAIL : OK;
}
/*
* Implementation of map() and filter() for a String. Apply "expr" to every
* character in string "str" and return the result in "rettv".
*/
void
string_filter_map(
char_u *str,
filtermap_T filtermap,
typval_T *expr,
typval_T *rettv)
{
char_u *p;
typval_T tv;
garray_T ga;
int len = 0;
int idx = 0;
int rem;
typval_T newtv;
funccall_T *fc;
rettv->v_type = VAR_STRING;
rettv->vval.v_string = NULL;
// set_vim_var_nr() doesn't set the type
set_vim_var_type(VV_KEY, VAR_NUMBER);
// Create one funccal_T for all eval_expr_typval() calls.
fc = eval_expr_get_funccal(expr, &newtv);
ga_init2(&ga, sizeof(char), 80);
for (p = str; *p != NUL; p += len)
{
if (copy_first_char_to_tv(p, &tv) == FAIL)
break;
len = (int)STRLEN(tv.vval.v_string);
newtv.v_type = VAR_UNKNOWN;
set_vim_var_nr(VV_KEY, idx);
if (filter_map_one(&tv, expr, filtermap, fc, &newtv, &rem) == FAIL
|| did_emsg)
{
clear_tv(&newtv);
clear_tv(&tv);
break;
}
else if (filtermap != FILTERMAP_FILTER)
{
if (newtv.v_type != VAR_STRING)
{
clear_tv(&newtv);
clear_tv(&tv);
emsg(_(e_string_required));
break;
}
else
ga_concat(&ga, newtv.vval.v_string);
}
else if (!rem)
ga_concat(&ga, tv.vval.v_string);
clear_tv(&newtv);
clear_tv(&tv);
++idx;
}
ga_append(&ga, NUL);
rettv->vval.v_string = ga.ga_data;
if (fc != NULL)
remove_funccal();
}
/*
* Implementation of reduce() for String "argvars[0]" using the function "expr"
* starting with the optional initial value "argvars[2]" and return the result
* in "rettv".
*/
void
string_reduce(
typval_T *argvars,
typval_T *expr,
typval_T *rettv)
{
char_u *p = tv_get_string(&argvars[0]);
int len;
typval_T argv[3];
int r;
int called_emsg_start = called_emsg;
funccall_T *fc;
if (argvars[2].v_type == VAR_UNKNOWN)
{
if (*p == NUL)
{
semsg(_(e_reduce_of_an_empty_str_with_no_initial_value), "String");
return;
}
if (copy_first_char_to_tv(p, rettv) == FAIL)
return;
p += STRLEN(rettv->vval.v_string);
}
else if (check_for_string_arg(argvars, 2) == FAIL)
return;
else
copy_tv(&argvars[2], rettv);
// Create one funccal_T for all eval_expr_typval() calls.
fc = eval_expr_get_funccal(expr, rettv);
for ( ; *p != NUL; p += len)
{
argv[0] = *rettv;
if (copy_first_char_to_tv(p, &argv[1]) == FAIL)
break;
len = (int)STRLEN(argv[1].vval.v_string);
r = eval_expr_typval(expr, argv, 2, fc, rettv);
clear_tv(&argv[0]);
clear_tv(&argv[1]);
if (r == FAIL || called_emsg != called_emsg_start)
return;
}
if (fc != NULL)
remove_funccal();
}
static void
byteidx(typval_T *argvars, typval_T *rettv, int comp UNUSED)
{
char_u *t;
char_u *str;
varnumber_T idx;
rettv->vval.v_number = -1;
if (in_vim9script()
&& (check_for_string_arg(argvars, 0) == FAIL
|| check_for_number_arg(argvars, 1) == FAIL))
return;
str = tv_get_string_chk(&argvars[0]);
idx = tv_get_number_chk(&argvars[1], NULL);
if (str == NULL || idx < 0)
return;
t = str;
for ( ; idx > 0; idx--)
{
if (*t == NUL) // EOL reached
return;
if (enc_utf8 && comp)
t += utf_ptr2len(t);
else
t += (*mb_ptr2len)(t);
}
rettv->vval.v_number = (varnumber_T)(t - str);
}
/*
* "byteidx()" function
*/
void
f_byteidx(typval_T *argvars, typval_T *rettv)
{
byteidx(argvars, rettv, FALSE);
}
/*
* "byteidxcomp()" function
*/
void
f_byteidxcomp(typval_T *argvars, typval_T *rettv)
{
byteidx(argvars, rettv, TRUE);
}
/*
* "charidx()" function
*/
void
f_charidx(typval_T *argvars, typval_T *rettv)
{
char_u *str;
varnumber_T idx;
varnumber_T countcc = FALSE;
char_u *p;
int len;
int (*ptr2len)(char_u *);
rettv->vval.v_number = -1;
if ((check_for_string_arg(argvars, 0) == FAIL
|| check_for_number_arg(argvars, 1) == FAIL
|| check_for_opt_bool_arg(argvars, 2) == FAIL))
return;
str = tv_get_string_chk(&argvars[0]);
idx = tv_get_number_chk(&argvars[1], NULL);
if (str == NULL || idx < 0)
return;
if (argvars[2].v_type != VAR_UNKNOWN)
countcc = tv_get_bool(&argvars[2]);
if (countcc < 0 || countcc > 1)
{
semsg(_(e_using_number_as_bool_nr), countcc);
return;
}
if (enc_utf8 && countcc)
ptr2len = utf_ptr2len;
else
ptr2len = mb_ptr2len;
for (p = str, len = 0; p <= str + idx; len++)
{
if (*p == NUL)
return;
p += ptr2len(p);
}
rettv->vval.v_number = len > 0 ? len - 1 : 0;
}
/*
* "str2list()" function
*/
void
f_str2list(typval_T *argvars, typval_T *rettv)
{
char_u *p;
int utf8 = FALSE;
if (rettv_list_alloc(rettv) == FAIL)
return;
if (in_vim9script()
&& (check_for_string_arg(argvars, 0) == FAIL
|| check_for_opt_bool_arg(argvars, 1) == FAIL))
return;
if (argvars[1].v_type != VAR_UNKNOWN)
utf8 = (int)tv_get_bool_chk(&argvars[1], NULL);
p = tv_get_string(&argvars[0]);
if (has_mbyte || utf8)
{
int (*ptr2len)(char_u *);
int (*ptr2char)(char_u *);
if (utf8 || enc_utf8)
{
ptr2len = utf_ptr2len;
ptr2char = utf_ptr2char;
}
else
{
ptr2len = mb_ptr2len;
ptr2char = mb_ptr2char;
}
for ( ; *p != NUL; p += (*ptr2len)(p))
list_append_number(rettv->vval.v_list, (*ptr2char)(p));
}
else
for ( ; *p != NUL; ++p)
list_append_number(rettv->vval.v_list, *p);
}
/*
* "str2nr()" function
*/
void
f_str2nr(typval_T *argvars, typval_T *rettv)
{
int base = 10;
char_u *p;
varnumber_T n;
int what = 0;
int isneg;
if (in_vim9script()
&& (check_for_string_arg(argvars, 0) == FAIL
|| check_for_opt_number_arg(argvars, 1) == FAIL
|| (argvars[1].v_type != VAR_UNKNOWN
&& check_for_opt_bool_arg(argvars, 2) == FAIL)))
return;
if (argvars[1].v_type != VAR_UNKNOWN)
{
base = (int)tv_get_number(&argvars[1]);
if (base != 2 && base != 8 && base != 10 && base != 16)
{
emsg(_(e_invalid_argument));
return;
}
if (argvars[2].v_type != VAR_UNKNOWN && tv_get_bool(&argvars[2]))
what |= STR2NR_QUOTE;
}
p = skipwhite(tv_get_string_strict(&argvars[0]));
isneg = (*p == '-');
if (*p == '+' || *p == '-')
p = skipwhite(p + 1);
switch (base)
{
case 2: what |= STR2NR_BIN + STR2NR_FORCE; break;
case 8: what |= STR2NR_OCT + STR2NR_OOCT + STR2NR_FORCE; break;
case 16: what |= STR2NR_HEX + STR2NR_FORCE; break;
}
vim_str2nr(p, NULL, NULL, what, &n, NULL, 0, FALSE);
// Text after the number is silently ignored.
if (isneg)
rettv->vval.v_number = -n;
else
rettv->vval.v_number = n;
}
/*
* "strgetchar()" function
*/
void
f_strgetchar(typval_T *argvars, typval_T *rettv)
{
char_u *str;
int len;
int error = FALSE;
int charidx;
int byteidx = 0;
rettv->vval.v_number = -1;
if (in_vim9script()
&& (check_for_string_arg(argvars, 0) == FAIL
|| check_for_number_arg(argvars, 1) == FAIL))
return;
str = tv_get_string_chk(&argvars[0]);
if (str == NULL)
return;
len = (int)STRLEN(str);
charidx = (int)tv_get_number_chk(&argvars[1], &error);
if (error)
return;
while (charidx >= 0 && byteidx < len)
{
if (charidx == 0)
{
rettv->vval.v_number = mb_ptr2char(str + byteidx);
break;
}
--charidx;
byteidx += MB_CPTR2LEN(str + byteidx);
}
}
/*
* "stridx()" function
*/
void
f_stridx(typval_T *argvars, typval_T *rettv)
{
char_u buf[NUMBUFLEN];
char_u *needle;
char_u *haystack;
char_u *save_haystack;
char_u *pos;
int start_idx;
if (in_vim9script()
&& (check_for_string_arg(argvars, 0) == FAIL
|| check_for_string_arg(argvars, 1) == FAIL
|| check_for_opt_number_arg(argvars, 2) == FAIL))
return;
needle = tv_get_string_chk(&argvars[1]);
save_haystack = haystack = tv_get_string_buf_chk(&argvars[0], buf);
rettv->vval.v_number = -1;
if (needle == NULL || haystack == NULL)
return; // type error; errmsg already given
if (argvars[2].v_type != VAR_UNKNOWN)
{
int error = FALSE;
start_idx = (int)tv_get_number_chk(&argvars[2], &error);
if (error || start_idx >= (int)STRLEN(haystack))
return;
if (start_idx >= 0)
haystack += start_idx;
}
pos = (char_u *)strstr((char *)haystack, (char *)needle);
if (pos != NULL)
rettv->vval.v_number = (varnumber_T)(pos - save_haystack);
}
/*
* "string()" function
*/
void
f_string(typval_T *argvars, typval_T *rettv)
{
char_u *tofree;
char_u numbuf[NUMBUFLEN];
rettv->v_type = VAR_STRING;
rettv->vval.v_string = tv2string(&argvars[0], &tofree, numbuf,
get_copyID());
// Make a copy if we have a value but it's not in allocated memory.
if (rettv->vval.v_string != NULL && tofree == NULL)
rettv->vval.v_string = vim_strsave(rettv->vval.v_string);
}
/*
* "strlen()" function
*/
void
f_strlen(typval_T *argvars, typval_T *rettv)
{
if (in_vim9script()
&& check_for_string_or_number_arg(argvars, 0) == FAIL)
return;
rettv->vval.v_number = (varnumber_T)(STRLEN(
tv_get_string(&argvars[0])));
}
static void
strchar_common(typval_T *argvars, typval_T *rettv, int skipcc)
{
char_u *s = tv_get_string(&argvars[0]);
varnumber_T len = 0;
int (*func_mb_ptr2char_adv)(char_u **pp);
func_mb_ptr2char_adv = skipcc ? mb_ptr2char_adv : mb_cptr2char_adv;
while (*s != NUL)
{
func_mb_ptr2char_adv(&s);
++len;
}
rettv->vval.v_number = len;
}
/*
* "strcharlen()" function
*/
void
f_strcharlen(typval_T *argvars, typval_T *rettv)
{
if (in_vim9script()
&& check_for_string_or_number_arg(argvars, 0) == FAIL)
return;
strchar_common(argvars, rettv, TRUE);
}
/*
* "strchars()" function
*/
void
f_strchars(typval_T *argvars, typval_T *rettv)
{
varnumber_T skipcc = FALSE;
if (in_vim9script()
&& (check_for_string_arg(argvars, 0) == FAIL
|| check_for_opt_bool_arg(argvars, 1) == FAIL))
return;
if (argvars[1].v_type != VAR_UNKNOWN)
skipcc = tv_get_bool(&argvars[1]);
if (skipcc < 0 || skipcc > 1)
semsg(_(e_using_number_as_bool_nr), skipcc);
else
strchar_common(argvars, rettv, skipcc);
}
/*
* "strdisplaywidth()" function
*/
void
f_strdisplaywidth(typval_T *argvars, typval_T *rettv)
{
char_u *s;
int col = 0;
rettv->vval.v_number = -1;
if (in_vim9script()
&& (check_for_string_arg(argvars, 0) == FAIL
|| check_for_opt_number_arg(argvars, 1) == FAIL))
return;
s = tv_get_string(&argvars[0]);
if (argvars[1].v_type != VAR_UNKNOWN)
col = (int)tv_get_number(&argvars[1]);
rettv->vval.v_number = (varnumber_T)(linetabsize_col(col, s) - col);
}
/*
* "strwidth()" function
*/
void
f_strwidth(typval_T *argvars, typval_T *rettv)
{
char_u *s;
if (in_vim9script() && check_for_string_arg(argvars, 0) == FAIL)
return;
s = tv_get_string_strict(&argvars[0]);
rettv->vval.v_number = (varnumber_T)(mb_string2cells(s, -1));
}
/*
* "strcharpart()" function
*/
void
f_strcharpart(typval_T *argvars, typval_T *rettv)
{
char_u *p;
int nchar;
int nbyte = 0;
int charlen;
int skipcc = FALSE;
int len = 0;
int slen;
int error = FALSE;
if (in_vim9script()
&& (check_for_string_arg(argvars, 0) == FAIL
|| check_for_number_arg(argvars, 1) == FAIL
|| check_for_opt_number_arg(argvars, 2) == FAIL
|| (argvars[2].v_type != VAR_UNKNOWN
&& check_for_opt_bool_arg(argvars, 3) == FAIL)))
return;
p = tv_get_string(&argvars[0]);
slen = (int)STRLEN(p);
nchar = (int)tv_get_number_chk(&argvars[1], &error);
if (!error)
{
if (argvars[2].v_type != VAR_UNKNOWN
&& argvars[3].v_type != VAR_UNKNOWN)
{
skipcc = tv_get_bool(&argvars[3]);
if (skipcc < 0 || skipcc > 1)
{
semsg(_(e_using_number_as_bool_nr), skipcc);
return;
}
}
if (nchar > 0)
while (nchar > 0 && nbyte < slen)
{
if (skipcc)
nbyte += mb_ptr2len(p + nbyte);
else
nbyte += MB_CPTR2LEN(p + nbyte);
--nchar;
}
else
nbyte = nchar;
if (argvars[2].v_type != VAR_UNKNOWN)
{
charlen = (int)tv_get_number(&argvars[2]);
while (charlen > 0 && nbyte + len < slen)
{
int off = nbyte + len;
if (off < 0)
len += 1;
else
{
if (skipcc)
len += mb_ptr2len(p + off);
else
len += MB_CPTR2LEN(p + off);
}
--charlen;
}
}
else
len = slen - nbyte; // default: all bytes that are available.
}
// Only return the overlap between the specified part and the actual
// string.
if (nbyte < 0)
{
len += nbyte;
nbyte = 0;
}
else if (nbyte > slen)
nbyte = slen;
if (len < 0)
len = 0;
else if (nbyte + len > slen)
len = slen - nbyte;
rettv->v_type = VAR_STRING;
rettv->vval.v_string = vim_strnsave(p + nbyte, len);
}
/*
* "strpart()" function
*/
void
f_strpart(typval_T *argvars, typval_T *rettv)
{
char_u *p;
int n;
int len;
int slen;
int error = FALSE;
if (in_vim9script()
&& (check_for_string_arg(argvars, 0) == FAIL
|| check_for_number_arg(argvars, 1) == FAIL
|| check_for_opt_number_arg(argvars, 2) == FAIL
|| (argvars[2].v_type != VAR_UNKNOWN
&& check_for_opt_bool_arg(argvars, 3) == FAIL)))
return;
p = tv_get_string(&argvars[0]);
slen = (int)STRLEN(p);
n = (int)tv_get_number_chk(&argvars[1], &error);
if (error)
len = 0;
else if (argvars[2].v_type != VAR_UNKNOWN)
len = (int)tv_get_number(&argvars[2]);
else
len = slen - n; // default len: all bytes that are available.
// Only return the overlap between the specified part and the actual
// string.
if (n < 0)
{
len += n;
n = 0;
}
else if (n > slen)
n = slen;
if (len < 0)
len = 0;
else if (n + len > slen)
len = slen - n;
if (argvars[2].v_type != VAR_UNKNOWN && argvars[3].v_type != VAR_UNKNOWN)
{
int off;
// length in characters
for (off = n; off < slen && len > 0; --len)
off += mb_ptr2len(p + off);
len = off - n;
}
rettv->v_type = VAR_STRING;
rettv->vval.v_string = vim_strnsave(p + n, len);
}
/*
* "strridx()" function
*/
void
f_strridx(typval_T *argvars, typval_T *rettv)
{
char_u buf[NUMBUFLEN];
char_u *needle;
char_u *haystack;
char_u *rest;
char_u *lastmatch = NULL;
int haystack_len, end_idx;
if (in_vim9script()
&& (check_for_string_arg(argvars, 0) == FAIL
|| check_for_string_arg(argvars, 1) == FAIL
|| check_for_opt_number_arg(argvars, 2) == FAIL))
return;
needle = tv_get_string_chk(&argvars[1]);
haystack = tv_get_string_buf_chk(&argvars[0], buf);
rettv->vval.v_number = -1;
if (needle == NULL || haystack == NULL)
return; // type error; errmsg already given
haystack_len = (int)STRLEN(haystack);
if (argvars[2].v_type != VAR_UNKNOWN)
{
// Third argument: upper limit for index
end_idx = (int)tv_get_number_chk(&argvars[2], NULL);
if (end_idx < 0)
return; // can never find a match
}
else
end_idx = haystack_len;
if (*needle == NUL)
{
// Empty string matches past the end.
lastmatch = haystack + end_idx;
}
else
{
for (rest = haystack; *rest != '\0'; ++rest)
{
rest = (char_u *)strstr((char *)rest, (char *)needle);
if (rest == NULL || rest > haystack + end_idx)
break;
lastmatch = rest;
}
}
if (lastmatch == NULL)
rettv->vval.v_number = -1;
else
rettv->vval.v_number = (varnumber_T)(lastmatch - haystack);
}
/*
* "strtrans()" function
*/
void
f_strtrans(typval_T *argvars, typval_T *rettv)
{
if (in_vim9script() && check_for_string_arg(argvars, 0) == FAIL)
return;
rettv->v_type = VAR_STRING;
rettv->vval.v_string = transstr(tv_get_string(&argvars[0]));
}
/*
* "tolower(string)" function
*/
void
f_tolower(typval_T *argvars, typval_T *rettv)
{
if (in_vim9script() && check_for_string_arg(argvars, 0) == FAIL)
return;
rettv->v_type = VAR_STRING;
rettv->vval.v_string = strlow_save(tv_get_string(&argvars[0]));
}
/*
* "toupper(string)" function
*/
void
f_toupper(typval_T *argvars, typval_T *rettv)
{
if (in_vim9script() && check_for_string_arg(argvars, 0) == FAIL)
return;
rettv->v_type = VAR_STRING;
rettv->vval.v_string = strup_save(tv_get_string(&argvars[0]));
}
/*
* "tr(string, fromstr, tostr)" function
*/
void
f_tr(typval_T *argvars, typval_T *rettv)
{
char_u *in_str;
char_u *fromstr;
char_u *tostr;
char_u *p;
int inlen;
int fromlen;
int tolen;
int idx;
char_u *cpstr;
int cplen;
int first = TRUE;
char_u buf[NUMBUFLEN];
char_u buf2[NUMBUFLEN];
garray_T ga;
if (in_vim9script()
&& (check_for_string_arg(argvars, 0) == FAIL
|| check_for_string_arg(argvars, 1) == FAIL
|| check_for_string_arg(argvars, 2) == FAIL))
return;
in_str = tv_get_string(&argvars[0]);
fromstr = tv_get_string_buf_chk(&argvars[1], buf);
tostr = tv_get_string_buf_chk(&argvars[2], buf2);
// Default return value: empty string.
rettv->v_type = VAR_STRING;
rettv->vval.v_string = NULL;
if (fromstr == NULL || tostr == NULL)
return; // type error; errmsg already given
ga_init2(&ga, sizeof(char), 80);
if (!has_mbyte)
// not multi-byte: fromstr and tostr must be the same length
if (STRLEN(fromstr) != STRLEN(tostr))
{
error:
semsg(_(e_invalid_argument_str), fromstr);
ga_clear(&ga);
return;
}
// fromstr and tostr have to contain the same number of chars
while (*in_str != NUL)
{
if (has_mbyte)
{
inlen = (*mb_ptr2len)(in_str);
cpstr = in_str;
cplen = inlen;
idx = 0;
for (p = fromstr; *p != NUL; p += fromlen)
{
fromlen = (*mb_ptr2len)(p);
if (fromlen == inlen && STRNCMP(in_str, p, inlen) == 0)
{
for (p = tostr; *p != NUL; p += tolen)
{
tolen = (*mb_ptr2len)(p);
if (idx-- == 0)
{
cplen = tolen;
cpstr = p;
break;
}
}
if (*p == NUL) // tostr is shorter than fromstr
goto error;
break;
}
++idx;
}
if (first && cpstr == in_str)
{
// Check that fromstr and tostr have the same number of
// (multi-byte) characters. Done only once when a character
// of in_str doesn't appear in fromstr.
first = FALSE;
for (p = tostr; *p != NUL; p += tolen)
{
tolen = (*mb_ptr2len)(p);
--idx;
}
if (idx != 0)
goto error;
}
(void)ga_grow(&ga, cplen);
mch_memmove((char *)ga.ga_data + ga.ga_len, cpstr, (size_t)cplen);
ga.ga_len += cplen;
in_str += inlen;
}
else
{
// When not using multi-byte chars we can do it faster.
p = vim_strchr(fromstr, *in_str);
if (p != NULL)
ga_append(&ga, tostr[p - fromstr]);
else
ga_append(&ga, *in_str);
++in_str;
}
}
// add a terminating NUL
(void)ga_grow(&ga, 1);
ga_append(&ga, NUL);
rettv->vval.v_string = ga.ga_data;
}
/*
* "trim({expr})" function
*/
void
f_trim(typval_T *argvars, typval_T *rettv)
{
char_u buf1[NUMBUFLEN];
char_u buf2[NUMBUFLEN];
char_u *head;
char_u *mask = NULL;
char_u *tail;
char_u *prev;
char_u *p;
int c1;
int dir = 0;
rettv->v_type = VAR_STRING;
rettv->vval.v_string = NULL;
if (in_vim9script()
&& (check_for_string_arg(argvars, 0) == FAIL
|| check_for_opt_string_arg(argvars, 1) == FAIL
|| (argvars[1].v_type != VAR_UNKNOWN
&& check_for_opt_number_arg(argvars, 2) == FAIL)))
return;
head = tv_get_string_buf_chk(&argvars[0], buf1);
if (head == NULL)
return;
if (check_for_opt_string_arg(argvars, 1) == FAIL)
return;
if (argvars[1].v_type == VAR_STRING)
{
mask = tv_get_string_buf_chk(&argvars[1], buf2);
if (argvars[2].v_type != VAR_UNKNOWN)
{
int error = 0;
// leading or trailing characters to trim
dir = (int)tv_get_number_chk(&argvars[2], &error);
if (error)
return;
if (dir < 0 || dir > 2)
{
semsg(_(e_invalid_argument_str), tv_get_string(&argvars[2]));
return;
}
}
}
if (dir == 0 || dir == 1)
{
// Trim leading characters
while (*head != NUL)
{
c1 = PTR2CHAR(head);
if (mask == NULL)
{
if (c1 > ' ' && c1 != 0xa0)
break;
}
else
{
for (p = mask; *p != NUL; MB_PTR_ADV(p))
if (c1 == PTR2CHAR(p))
break;
if (*p == NUL)
break;
}
MB_PTR_ADV(head);
}
}
tail = head + STRLEN(head);
if (dir == 0 || dir == 2)
{
// Trim trailing characters
for (; tail > head; tail = prev)
{
prev = tail;
MB_PTR_BACK(head, prev);
c1 = PTR2CHAR(prev);
if (mask == NULL)
{
if (c1 > ' ' && c1 != 0xa0)
break;
}
else
{
for (p = mask; *p != NUL; MB_PTR_ADV(p))
if (c1 == PTR2CHAR(p))
break;
if (*p == NUL)
break;
}
}
}
rettv->vval.v_string = vim_strnsave(head, tail - head);
}
static char *e_printf = N_(e_insufficient_arguments_for_printf);
/*
* Get number argument from "idxp" entry in "tvs". First entry is 1.
*/
static varnumber_T
tv_nr(typval_T *tvs, int *idxp)
{
int idx = *idxp - 1;
varnumber_T n = 0;
int err = FALSE;
if (tvs[idx].v_type == VAR_UNKNOWN)
emsg(_(e_printf));
else
{
++*idxp;
n = tv_get_number_chk(&tvs[idx], &err);
if (err)
n = 0;
}
return n;
}
/*
* Get string argument from "idxp" entry in "tvs". First entry is 1.
* If "tofree" is NULL tv_get_string_chk() is used. Some types (e.g. List)
* are not converted to a string.
* If "tofree" is not NULL echo_string() is used. All types are converted to
* a string with the same format as ":echo". The caller must free "*tofree".
* Returns NULL for an error.
*/
static char *
tv_str(typval_T *tvs, int *idxp, char_u **tofree)
{
int idx = *idxp - 1;
char *s = NULL;
static char_u numbuf[NUMBUFLEN];
if (tvs[idx].v_type == VAR_UNKNOWN)
emsg(_(e_printf));
else
{
++*idxp;
if (tofree != NULL)
s = (char *)echo_string(&tvs[idx], tofree, numbuf, get_copyID());
else
s = (char *)tv_get_string_chk(&tvs[idx]);
}
return s;
}
/*
* Get float argument from "idxp" entry in "tvs". First entry is 1.
*/
static double
tv_float(typval_T *tvs, int *idxp)
{
int idx = *idxp - 1;
double f = 0;
if (tvs[idx].v_type == VAR_UNKNOWN)
emsg(_(e_printf));
else
{
++*idxp;
if (tvs[idx].v_type == VAR_FLOAT)
f = tvs[idx].vval.v_float;
else if (tvs[idx].v_type == VAR_NUMBER)
f = (double)tvs[idx].vval.v_number;
else
emsg(_(e_expected_float_argument_for_printf));
}
return f;
}
#endif
/*
* Return the representation of infinity for printf() function:
* "-inf", "inf", "+inf", " inf", "-INF", "INF", "+INF" or " INF".
*/
static const char *
infinity_str(int positive,
char fmt_spec,
int force_sign,
int space_for_positive)
{
static const char *table[] =
{
"-inf", "inf", "+inf", " inf",
"-INF", "INF", "+INF", " INF"
};
int idx = positive * (1 + force_sign + force_sign * space_for_positive);
if (ASCII_ISUPPER(fmt_spec))
idx += 4;
return table[idx];
}
/*
* This code was included to provide a portable vsnprintf() and snprintf().
* Some systems may provide their own, but we always use this one for
* consistency.
*
* This code is based on snprintf.c - a portable implementation of snprintf
* by Mark Martinec <mark.martinec@ijs.si>, Version 2.2, 2000-10-06.
* Included with permission. It was heavily modified to fit in Vim.
* The original code, including useful comments, can be found here:
* http://www.ijs.si/software/snprintf/
*
* This snprintf() only supports the following conversion specifiers:
* s, c, d, u, o, x, X, p (and synonyms: i, D, U, O - see below)
* with flags: '-', '+', ' ', '0' and '#'.
* An asterisk is supported for field width as well as precision.
*
* Limited support for floating point was added: 'f', 'F', 'e', 'E', 'g', 'G'.
*
* Length modifiers 'h' (short int) and 'l' (long int) and 'll' (long long int)
* are supported. NOTE: for 'll' the argument is varnumber_T or uvarnumber_T.
*
* The locale is not used, the string is used as a byte string. This is only
* relevant for double-byte encodings where the second byte may be '%'.
*
* It is permitted for "str_m" to be zero, and it is permitted to specify NULL
* pointer for resulting string argument if "str_m" is zero (as per ISO C99).
*
* The return value is the number of characters which would be generated
* for the given input, excluding the trailing NUL. If this value
* is greater or equal to "str_m", not all characters from the result
* have been stored in str, output bytes beyond the ("str_m"-1) -th character
* are discarded. If "str_m" is greater than zero it is guaranteed
* the resulting string will be NUL-terminated.
*/
/*
* When va_list is not supported we only define vim_snprintf().
*
* vim_vsnprintf_typval() can be invoked with either "va_list" or a list of
* "typval_T". When the latter is not used it must be NULL.
*/
// When generating prototypes all of this is skipped, cproto doesn't
// understand this.
#ifndef PROTO
// Like vim_vsnprintf() but append to the string.
int
vim_snprintf_add(char *str, size_t str_m, const char *fmt, ...)
{
va_list ap;
int str_l;
size_t len = STRLEN(str);
size_t space;
if (str_m <= len)
space = 0;
else
space = str_m - len;
va_start(ap, fmt);
str_l = vim_vsnprintf(str + len, space, fmt, ap);
va_end(ap);
return str_l;
}
int
vim_snprintf(char *str, size_t str_m, const char *fmt, ...)
{
va_list ap;
int str_l;
va_start(ap, fmt);
str_l = vim_vsnprintf(str, str_m, fmt, ap);
va_end(ap);
return str_l;
}
int
vim_vsnprintf(
char *str,
size_t str_m,
const char *fmt,
va_list ap)
{
return vim_vsnprintf_typval(str, str_m, fmt, ap, NULL);
}
int
vim_vsnprintf_typval(
char *str,
size_t str_m,
const char *fmt,
va_list ap,
typval_T *tvs)
{
size_t str_l = 0;
const char *p = fmt;
int arg_idx = 1;
if (p == NULL)
p = "";
while (*p != NUL)
{
if (*p != '%')
{
char *q = strchr(p + 1, '%');
size_t n = (q == NULL) ? STRLEN(p) : (size_t)(q - p);
// Copy up to the next '%' or NUL without any changes.
if (str_l < str_m)
{
size_t avail = str_m - str_l;
mch_memmove(str + str_l, p, n > avail ? avail : n);
}
p += n;
str_l += n;
}
else
{
size_t min_field_width = 0, precision = 0;
int zero_padding = 0, precision_specified = 0, justify_left = 0;
int alternate_form = 0, force_sign = 0;
// If both the ' ' and '+' flags appear, the ' ' flag should be
// ignored.
int space_for_positive = 1;
// allowed values: \0, h, l, L
char length_modifier = '\0';
// temporary buffer for simple numeric->string conversion
# define TMP_LEN 350 // On my system 1e308 is the biggest number possible.
// That sounds reasonable to use as the maximum
// printable.
char tmp[TMP_LEN];
// string address in case of string argument
const char *str_arg = NULL;
// natural field width of arg without padding and sign
size_t str_arg_l;
// unsigned char argument value - only defined for c conversion.
// N.B. standard explicitly states the char argument for the c
// conversion is unsigned
unsigned char uchar_arg;
// number of zeros to be inserted for numeric conversions as
// required by the precision or minimal field width
size_t number_of_zeros_to_pad = 0;
// index into tmp where zero padding is to be inserted
size_t zero_padding_insertion_ind = 0;
// current conversion specifier character
char fmt_spec = '\0';
// buffer for 's' and 'S' specs
char_u *tofree = NULL;
p++; // skip '%'
// parse flags
while (*p == '0' || *p == '-' || *p == '+' || *p == ' '
|| *p == '#' || *p == '\'')
{
switch (*p)
{
case '0': zero_padding = 1; break;
case '-': justify_left = 1; break;
case '+': force_sign = 1; space_for_positive = 0; break;
case ' ': force_sign = 1;
// If both the ' ' and '+' flags appear, the ' '
// flag should be ignored
break;
case '#': alternate_form = 1; break;
case '\'': break;
}
p++;
}
// If the '0' and '-' flags both appear, the '0' flag should be
// ignored.
// parse field width
if (*p == '*')
{
int j;
p++;
j =
# if defined(FEAT_EVAL)
tvs != NULL ? tv_nr(tvs, &arg_idx) :
# endif
va_arg(ap, int);
if (j >= 0)
min_field_width = j;
else
{
min_field_width = -j;
justify_left = 1;
}
}
else if (VIM_ISDIGIT((int)(*p)))
{
// size_t could be wider than unsigned int; make sure we treat
// argument like common implementations do
unsigned int uj = *p++ - '0';
while (VIM_ISDIGIT((int)(*p)))
uj = 10 * uj + (unsigned int)(*p++ - '0');
min_field_width = uj;
}
// parse precision
if (*p == '.')
{
p++;
precision_specified = 1;
if (*p == '*')
{
int j;
j =
# if defined(FEAT_EVAL)
tvs != NULL ? tv_nr(tvs, &arg_idx) :
# endif
va_arg(ap, int);
p++;
if (j >= 0)
precision = j;
else
{
precision_specified = 0;
precision = 0;
}
}
else if (VIM_ISDIGIT((int)(*p)))
{
// size_t could be wider than unsigned int; make sure we
// treat argument like common implementations do
unsigned int uj = *p++ - '0';
while (VIM_ISDIGIT((int)(*p)))
uj = 10 * uj + (unsigned int)(*p++ - '0');
precision = uj;
}
}
// parse 'h', 'l' and 'll' length modifiers
if (*p == 'h' || *p == 'l')
{
length_modifier = *p;
p++;
if (length_modifier == 'l' && *p == 'l')
{
// double l = __int64 / varnumber_T
length_modifier = 'L';
p++;
}
}
fmt_spec = *p;
// common synonyms:
switch (fmt_spec)
{
case 'i': fmt_spec = 'd'; break;
case 'D': fmt_spec = 'd'; length_modifier = 'l'; break;
case 'U': fmt_spec = 'u'; length_modifier = 'l'; break;
case 'O': fmt_spec = 'o'; length_modifier = 'l'; break;
default: break;
}
# if defined(FEAT_EVAL)
switch (fmt_spec)
{
case 'd': case 'u': case 'o': case 'x': case 'X':
if (tvs != NULL && length_modifier == '\0')
length_modifier = 'L';
}
# endif
// get parameter value, do initial processing
switch (fmt_spec)
{
// '%' and 'c' behave similar to 's' regarding flags and field
// widths
case '%':
case 'c':
case 's':
case 'S':
str_arg_l = 1;
switch (fmt_spec)
{
case '%':
str_arg = p;
break;
case 'c':
{
int j;
j =
# if defined(FEAT_EVAL)
tvs != NULL ? tv_nr(tvs, &arg_idx) :
# endif
va_arg(ap, int);
// standard demands unsigned char
uchar_arg = (unsigned char)j;
str_arg = (char *)&uchar_arg;
break;
}
case 's':
case 'S':
str_arg =
# if defined(FEAT_EVAL)
tvs != NULL ? tv_str(tvs, &arg_idx, &tofree) :
# endif
va_arg(ap, char *);
if (str_arg == NULL)
{
str_arg = "[NULL]";
str_arg_l = 6;
}
// make sure not to address string beyond the specified
// precision !!!
else if (!precision_specified)
str_arg_l = strlen(str_arg);
// truncate string if necessary as requested by precision
else if (precision == 0)
str_arg_l = 0;
else
{
// Don't put the #if inside memchr(), it can be a
// macro.
// memchr on HP does not like n > 2^31 !!!
char *q = memchr(str_arg, '\0',
precision <= (size_t)0x7fffffffL ? precision
: (size_t)0x7fffffffL);
str_arg_l = (q == NULL) ? precision
: (size_t)(q - str_arg);
}
if (fmt_spec == 'S')
{
char_u *p1;
size_t i;
int cell;
for (i = 0, p1 = (char_u *)str_arg; *p1;
p1 += mb_ptr2len(p1))
{
cell = mb_ptr2cells(p1);
if (precision_specified && i + cell > precision)
break;
i += cell;
}
str_arg_l = p1 - (char_u *)str_arg;
if (min_field_width != 0)
min_field_width += str_arg_l - i;
}
break;
default:
break;
}
break;
case 'd': case 'u':
case 'b': case 'B':
case 'o':
case 'x': case 'X':
case 'p':
{
// NOTE: the u, b, o, x, X and p conversion specifiers
// imply the value is unsigned; d implies a signed
// value
// 0 if numeric argument is zero (or if pointer is
// NULL for 'p'), +1 if greater than zero (or nonzero
// for unsigned arguments), -1 if negative (unsigned
// argument is never negative)
int arg_sign = 0;
// only set for length modifier h, or for no length
// modifiers
int int_arg = 0;
unsigned int uint_arg = 0;
// only set for length modifier l
long int long_arg = 0;
unsigned long int ulong_arg = 0;
// only set for length modifier ll
varnumber_T llong_arg = 0;
uvarnumber_T ullong_arg = 0;
// only set for b conversion
uvarnumber_T bin_arg = 0;
// pointer argument value -only defined for p
// conversion
void *ptr_arg = NULL;
if (fmt_spec == 'p')
{
length_modifier = '\0';
ptr_arg =
# if defined(FEAT_EVAL)
tvs != NULL ? (void *)tv_str(tvs, &arg_idx,
NULL) :
# endif
va_arg(ap, void *);
if (ptr_arg != NULL)
arg_sign = 1;
}
else if (fmt_spec == 'b' || fmt_spec == 'B')
{
bin_arg =
# if defined(FEAT_EVAL)
tvs != NULL ?
(uvarnumber_T)tv_nr(tvs, &arg_idx) :
# endif
va_arg(ap, uvarnumber_T);
if (bin_arg != 0)
arg_sign = 1;
}
else if (fmt_spec == 'd')
{
// signed
switch (length_modifier)
{
case '\0':
case 'h':
// char and short arguments are passed as int.
int_arg =
# if defined(FEAT_EVAL)
tvs != NULL ? tv_nr(tvs, &arg_idx) :
# endif
va_arg(ap, int);
if (int_arg > 0)
arg_sign = 1;
else if (int_arg < 0)
arg_sign = -1;
break;
case 'l':
long_arg =
# if defined(FEAT_EVAL)
tvs != NULL ? tv_nr(tvs, &arg_idx) :
# endif
va_arg(ap, long int);
if (long_arg > 0)
arg_sign = 1;
else if (long_arg < 0)
arg_sign = -1;
break;
case 'L':
llong_arg =
# if defined(FEAT_EVAL)
tvs != NULL ? tv_nr(tvs, &arg_idx) :
# endif
va_arg(ap, varnumber_T);
if (llong_arg > 0)
arg_sign = 1;
else if (llong_arg < 0)
arg_sign = -1;
break;
}
}
else
{
// unsigned
switch (length_modifier)
{
case '\0':
case 'h':
uint_arg =
# if defined(FEAT_EVAL)
tvs != NULL ? (unsigned)
tv_nr(tvs, &arg_idx) :
# endif
va_arg(ap, unsigned int);
if (uint_arg != 0)
arg_sign = 1;
break;
case 'l':
ulong_arg =
# if defined(FEAT_EVAL)
tvs != NULL ? (unsigned long)
tv_nr(tvs, &arg_idx) :
# endif
va_arg(ap, unsigned long int);
if (ulong_arg != 0)
arg_sign = 1;
break;
case 'L':
ullong_arg =
# if defined(FEAT_EVAL)
tvs != NULL ? (uvarnumber_T)
tv_nr(tvs, &arg_idx) :
# endif
va_arg(ap, uvarnumber_T);
if (ullong_arg != 0)
arg_sign = 1;
break;
}
}
str_arg = tmp;
str_arg_l = 0;
// NOTE:
// For d, i, u, o, x, and X conversions, if precision is
// specified, the '0' flag should be ignored. This is so
// with Solaris 2.6, Digital UNIX 4.0, HPUX 10, Linux,
// FreeBSD, NetBSD; but not with Perl.
if (precision_specified)
zero_padding = 0;
if (fmt_spec == 'd')
{
if (force_sign && arg_sign >= 0)
tmp[str_arg_l++] = space_for_positive ? ' ' : '+';
// leave negative numbers for sprintf to handle, to
// avoid handling tricky cases like (short int)-32768
}
else if (alternate_form)
{
if (arg_sign != 0
&& (fmt_spec == 'b' || fmt_spec == 'B'
|| fmt_spec == 'x' || fmt_spec == 'X') )
{
tmp[str_arg_l++] = '0';
tmp[str_arg_l++] = fmt_spec;
}
// alternate form should have no effect for p
// conversion, but ...
}
zero_padding_insertion_ind = str_arg_l;
if (!precision_specified)
precision = 1; // default precision is 1
if (precision == 0 && arg_sign == 0)
{
// When zero value is formatted with an explicit
// precision 0, the resulting formatted string is
// empty (d, i, u, b, B, o, x, X, p).
}
else
{
char f[6];
int f_l = 0;
// construct a simple format string for sprintf
f[f_l++] = '%';
if (!length_modifier)
;
else if (length_modifier == 'L')
{
# ifdef MSWIN
f[f_l++] = 'I';
f[f_l++] = '6';
f[f_l++] = '4';
# else
f[f_l++] = 'l';
f[f_l++] = 'l';
# endif
}
else
f[f_l++] = length_modifier;
f[f_l++] = fmt_spec;
f[f_l++] = '\0';
if (fmt_spec == 'p')
str_arg_l += sprintf(tmp + str_arg_l, f, ptr_arg);
else if (fmt_spec == 'b' || fmt_spec == 'B')
{
char b[8 * sizeof(uvarnumber_T)];
size_t b_l = 0;
uvarnumber_T bn = bin_arg;
do
{
b[sizeof(b) - ++b_l] = '0' + (bn & 0x1);
bn >>= 1;
}
while (bn != 0);
memcpy(tmp + str_arg_l, b + sizeof(b) - b_l, b_l);
str_arg_l += b_l;
}
else if (fmt_spec == 'd')
{
// signed
switch (length_modifier)
{
case '\0': str_arg_l += sprintf(
tmp + str_arg_l, f,
int_arg);
break;
case 'h': str_arg_l += sprintf(
tmp + str_arg_l, f,
(short)int_arg);
break;
case 'l': str_arg_l += sprintf(
tmp + str_arg_l, f, long_arg);
break;
case 'L': str_arg_l += sprintf(
tmp + str_arg_l, f, llong_arg);
break;
}
}
else
{
// unsigned
switch (length_modifier)
{
case '\0': str_arg_l += sprintf(
tmp + str_arg_l, f,
uint_arg);
break;
case 'h': str_arg_l += sprintf(
tmp + str_arg_l, f,
(unsigned short)uint_arg);
break;
case 'l': str_arg_l += sprintf(
tmp + str_arg_l, f, ulong_arg);
break;
case 'L': str_arg_l += sprintf(
tmp + str_arg_l, f, ullong_arg);
break;
}
}
// include the optional minus sign and possible
// "0x" in the region before the zero padding
// insertion point
if (zero_padding_insertion_ind < str_arg_l
&& tmp[zero_padding_insertion_ind] == '-')
zero_padding_insertion_ind++;
if (zero_padding_insertion_ind + 1 < str_arg_l
&& tmp[zero_padding_insertion_ind] == '0'
&& (tmp[zero_padding_insertion_ind + 1] == 'x'
|| tmp[zero_padding_insertion_ind + 1] == 'X'))
zero_padding_insertion_ind += 2;
}
{
size_t num_of_digits = str_arg_l
- zero_padding_insertion_ind;
if (alternate_form && fmt_spec == 'o'
// unless zero is already the first
// character
&& !(zero_padding_insertion_ind < str_arg_l
&& tmp[zero_padding_insertion_ind] == '0'))
{
// assure leading zero for alternate-form
// octal numbers
if (!precision_specified
|| precision < num_of_digits + 1)
{
// precision is increased to force the
// first character to be zero, except if a
// zero value is formatted with an
// explicit precision of zero
precision = num_of_digits + 1;
}
}
// zero padding to specified precision?
if (num_of_digits < precision)
number_of_zeros_to_pad = precision - num_of_digits;
}
// zero padding to specified minimal field width?
if (!justify_left && zero_padding)
{
int n = (int)(min_field_width - (str_arg_l
+ number_of_zeros_to_pad));
if (n > 0)
number_of_zeros_to_pad += n;
}
break;
}
case 'f':
case 'F':
case 'e':
case 'E':
case 'g':
case 'G':
{
// Floating point.
double f;
double abs_f;
char format[40];
int l;
int remove_trailing_zeroes = FALSE;
f =
# if defined(FEAT_EVAL)
tvs != NULL ? tv_float(tvs, &arg_idx) :
# endif
va_arg(ap, double);
abs_f = f < 0 ? -f : f;
if (fmt_spec == 'g' || fmt_spec == 'G')
{
// Would be nice to use %g directly, but it prints
// "1.0" as "1", we don't want that.
if ((abs_f >= 0.001 && abs_f < 10000000.0)
|| abs_f == 0.0)
fmt_spec = ASCII_ISUPPER(fmt_spec) ? 'F' : 'f';
else
fmt_spec = fmt_spec == 'g' ? 'e' : 'E';
remove_trailing_zeroes = TRUE;
}
if ((fmt_spec == 'f' || fmt_spec == 'F') &&
# ifdef VAX
abs_f > 1.0e38
# else
abs_f > 1.0e307
# endif
)
{
// Avoid a buffer overflow
STRCPY(tmp, infinity_str(f > 0.0, fmt_spec,
force_sign, space_for_positive));
str_arg_l = STRLEN(tmp);
zero_padding = 0;
}
else
{
if (isnan(f))
{
// Not a number: nan or NAN
STRCPY(tmp, ASCII_ISUPPER(fmt_spec) ? "NAN"
: "nan");
str_arg_l = 3;
zero_padding = 0;
}
else if (isinf(f))
{
STRCPY(tmp, infinity_str(f > 0.0, fmt_spec,
force_sign, space_for_positive));
str_arg_l = STRLEN(tmp);
zero_padding = 0;
}
else
{
// Regular float number
format[0] = '%';
l = 1;
if (force_sign)
format[l++] = space_for_positive ? ' ' : '+';
if (precision_specified)
{
size_t max_prec = TMP_LEN - 10;
// Make sure we don't get more digits than we
// have room for.
if ((fmt_spec == 'f' || fmt_spec == 'F')
&& abs_f > 1.0)
max_prec -= (size_t)log10(abs_f);
if (precision > max_prec)
precision = max_prec;
l += sprintf(format + l, ".%d", (int)precision);
}
format[l] = fmt_spec == 'F' ? 'f' : fmt_spec;
format[l + 1] = NUL;
str_arg_l = sprintf(tmp, format, f);
}
if (remove_trailing_zeroes)
{
int i;
char *tp;
// Using %g or %G: remove superfluous zeroes.
if (fmt_spec == 'f' || fmt_spec == 'F')
tp = tmp + str_arg_l - 1;
else
{
tp = (char *)vim_strchr((char_u *)tmp,
fmt_spec == 'e' ? 'e' : 'E');
if (tp != NULL)
{
// Remove superfluous '+' and leading
// zeroes from the exponent.
if (tp[1] == '+')
{
// Change "1.0e+07" to "1.0e07"
STRMOVE(tp + 1, tp + 2);
--str_arg_l;
}
i = (tp[1] == '-') ? 2 : 1;
while (tp[i] == '0')
{
// Change "1.0e07" to "1.0e7"
STRMOVE(tp + i, tp + i + 1);
--str_arg_l;
}
--tp;
}
}
if (tp != NULL && !precision_specified)
// Remove trailing zeroes, but keep the one
// just after a dot.
while (tp > tmp + 2 && *tp == '0'
&& tp[-1] != '.')
{
STRMOVE(tp, tp + 1);
--tp;
--str_arg_l;
}
}
else
{
char *tp;
// Be consistent: some printf("%e") use 1.0e+12
// and some 1.0e+012. Remove one zero in the last
// case.
tp = (char *)vim_strchr((char_u *)tmp,
fmt_spec == 'e' ? 'e' : 'E');
if (tp != NULL && (tp[1] == '+' || tp[1] == '-')
&& tp[2] == '0'
&& vim_isdigit(tp[3])
&& vim_isdigit(tp[4]))
{
STRMOVE(tp + 2, tp + 3);
--str_arg_l;
}
}
}
if (zero_padding && min_field_width > str_arg_l
&& (tmp[0] == '-' || force_sign))
{
// padding 0's should be inserted after the sign
number_of_zeros_to_pad = min_field_width - str_arg_l;
zero_padding_insertion_ind = 1;
}
str_arg = tmp;
break;
}
default:
// unrecognized conversion specifier, keep format string
// as-is
zero_padding = 0; // turn zero padding off for non-numeric
// conversion
justify_left = 1;
min_field_width = 0; // reset flags
// discard the unrecognized conversion, just keep *
// the unrecognized conversion character
str_arg = p;
str_arg_l = 0;
if (*p != NUL)
str_arg_l++; // include invalid conversion specifier
// unchanged if not at end-of-string
break;
}
if (*p != NUL)
p++; // step over the just processed conversion specifier
// insert padding to the left as requested by min_field_width;
// this does not include the zero padding in case of numerical
// conversions
if (!justify_left)
{
// left padding with blank or zero
int pn = (int)(min_field_width - (str_arg_l + number_of_zeros_to_pad));
if (pn > 0)
{
if (str_l < str_m)
{
size_t avail = str_m - str_l;
vim_memset(str + str_l, zero_padding ? '0' : ' ',
(size_t)pn > avail ? avail
: (size_t)pn);
}
str_l += pn;
}
}
// zero padding as requested by the precision or by the minimal
// field width for numeric conversions required?
if (number_of_zeros_to_pad == 0)
{
// will not copy first part of numeric right now, *
// force it to be copied later in its entirety
zero_padding_insertion_ind = 0;
}
else
{
// insert first part of numerics (sign or '0x') before zero
// padding
int zn = (int)zero_padding_insertion_ind;
if (zn > 0)
{
if (str_l < str_m)
{
size_t avail = str_m - str_l;
mch_memmove(str + str_l, str_arg,
(size_t)zn > avail ? avail
: (size_t)zn);
}
str_l += zn;
}
// insert zero padding as requested by the precision or min
// field width
zn = (int)number_of_zeros_to_pad;
if (zn > 0)
{
if (str_l < str_m)
{
size_t avail = str_m - str_l;
vim_memset(str + str_l, '0',
(size_t)zn > avail ? avail
: (size_t)zn);
}
str_l += zn;
}
}
// insert formatted string
// (or as-is conversion specifier for unknown conversions)
{
int sn = (int)(str_arg_l - zero_padding_insertion_ind);
if (sn > 0)
{
if (str_l < str_m)
{
size_t avail = str_m - str_l;
mch_memmove(str + str_l,
str_arg + zero_padding_insertion_ind,
(size_t)sn > avail ? avail : (size_t)sn);
}
str_l += sn;
}
}
// insert right padding
if (justify_left)
{
// right blank padding to the field width
int pn = (int)(min_field_width
- (str_arg_l + number_of_zeros_to_pad));
if (pn > 0)
{
if (str_l < str_m)
{
size_t avail = str_m - str_l;
vim_memset(str + str_l, ' ',
(size_t)pn > avail ? avail
: (size_t)pn);
}
str_l += pn;
}
}
vim_free(tofree);
}
}
if (str_m > 0)
{
// make sure the string is nul-terminated even at the expense of
// overwriting the last character (shouldn't happen, but just in case)
//
str[str_l <= str_m - 1 ? str_l : str_m - 1] = '\0';
}
if (tvs != NULL && tvs[arg_idx - 1].v_type != VAR_UNKNOWN)
emsg(_(e_too_many_arguments_to_printf));
// Return the number of characters formatted (excluding trailing nul
// character), that is, the number of characters that would have been
// written to the buffer if it were large enough.
return (int)str_l;
}
#endif // PROTO
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