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blender-archive/source/blender/blenlib/intern/string.c
Sergey Sharybin 0d945fe20e Fix deprecation warnings about printf() on macOS 
The new Xcode 14.1 brings the new Apple Clang compiler which
considers sprintf unsafe and geenrates deprecation warnings
suggesting to sue snprintf instead. This only happens for C++
code by default, and C code can still use sprintf without any
warning.

This changes does the following:

- Whenever is trivial replace sprintf() with BLI_snprintf.
- For all other cases use the newly introduced BLI_sprintf
  which is a wrapper around sprintf() but without warning.

There is a discouragement note in the BLI_sprintf comment to
suggest use of BLI_snprintf when the size is known.

Differential Revision: https://developer.blender.org/D16410
2022-11-08 12:01:01 +01:00

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/* SPDX-License-Identifier: GPL-2.0-or-later
* Copyright 2001-2002 NaN Holding BV. All rights reserved. */
/** \file
* \ingroup bli
*/
#include <ctype.h>
#include <inttypes.h>
#include <math.h>
#include <stdarg.h>
#include <stdio.h>
#include <stdlib.h>
#include <string.h>
#include "MEM_guardedalloc.h"
#include "BLI_dynstr.h"
#include "BLI_string.h"
#include "BLI_utildefines.h"
#ifdef __GNUC__
# pragma GCC diagnostic error "-Wsign-conversion"
#endif
// #define DEBUG_STRSIZE
/* -------------------------------------------------------------------- */
/** \name String Duplicate/Copy
* \{ */
char *BLI_strdupn(const char *str, const size_t len)
{
char *n = MEM_mallocN(len + 1, "strdup");
memcpy(n, str, len);
n[len] = '\0';
return n;
}
char *BLI_strdup(const char *str)
{
return BLI_strdupn(str, strlen(str));
}
char *BLI_strdupcat(const char *__restrict str1, const char *__restrict str2)
{
/* include the NULL terminator of str2 only */
const size_t str1_len = strlen(str1);
const size_t str2_len = strlen(str2) + 1;
char *str, *s;
str = MEM_mallocN(str1_len + str2_len, "strdupcat");
s = str;
memcpy(s, str1, str1_len); /* NOLINT: bugprone-not-null-terminated-result */
s += str1_len;
memcpy(s, str2, str2_len);
return str;
}
char *BLI_strncpy(char *__restrict dst, const char *__restrict src, const size_t maxncpy)
{
size_t srclen = BLI_strnlen(src, maxncpy - 1);
BLI_assert(maxncpy != 0);
#ifdef DEBUG_STRSIZE
memset(dst, 0xff, sizeof(*dst) * maxncpy);
#endif
memcpy(dst, src, srclen);
dst[srclen] = '\0';
return dst;
}
char *BLI_strncpy_ensure_pad(char *__restrict dst,
const char *__restrict src,
const char pad,
size_t maxncpy)
{
BLI_assert(maxncpy != 0);
#ifdef DEBUG_STRSIZE
memset(dst, 0xff, sizeof(*dst) * maxncpy);
#endif
if (src[0] == '\0') {
dst[0] = '\0';
}
else {
/* Add heading/trailing wildcards if needed. */
size_t idx = 0;
size_t srclen;
if (src[idx] != pad) {
dst[idx++] = pad;
maxncpy--;
}
maxncpy--; /* trailing '\0' */
srclen = BLI_strnlen(src, maxncpy);
if ((src[srclen - 1] != pad) && (srclen == maxncpy)) {
srclen--;
}
memcpy(&dst[idx], src, srclen);
idx += srclen;
if (dst[idx - 1] != pad) {
dst[idx++] = pad;
}
dst[idx] = '\0';
}
return dst;
}
size_t BLI_strncpy_rlen(char *__restrict dst, const char *__restrict src, const size_t maxncpy)
{
size_t srclen = BLI_strnlen(src, maxncpy - 1);
BLI_assert(maxncpy != 0);
#ifdef DEBUG_STRSIZE
memset(dst, 0xff, sizeof(*dst) * maxncpy);
#endif
memcpy(dst, src, srclen);
dst[srclen] = '\0';
return srclen;
}
size_t BLI_strcpy_rlen(char *__restrict dst, const char *__restrict src)
{
size_t srclen = strlen(src);
memcpy(dst, src, srclen + 1);
return srclen;
}
/** \} */
/* -------------------------------------------------------------------- */
/** \name String Printing
* \{ */
size_t BLI_vsnprintf(char *__restrict buffer,
size_t maxncpy,
const char *__restrict format,
va_list arg)
{
size_t n;
BLI_assert(buffer != NULL);
BLI_assert(maxncpy > 0);
BLI_assert(format != NULL);
n = (size_t)vsnprintf(buffer, maxncpy, format, arg);
if (n != -1 && n < maxncpy) {
buffer[n] = '\0';
}
else {
buffer[maxncpy - 1] = '\0';
}
return n;
}
size_t BLI_vsnprintf_rlen(char *__restrict buffer,
size_t maxncpy,
const char *__restrict format,
va_list arg)
{
size_t n;
BLI_assert(buffer != NULL);
BLI_assert(maxncpy > 0);
BLI_assert(format != NULL);
n = (size_t)vsnprintf(buffer, maxncpy, format, arg);
if (n != -1 && n < maxncpy) {
/* pass */
}
else {
n = maxncpy - 1;
}
buffer[n] = '\0';
return n;
}
size_t BLI_snprintf(char *__restrict dst, size_t maxncpy, const char *__restrict format, ...)
{
size_t n;
va_list arg;
#ifdef DEBUG_STRSIZE
memset(dst, 0xff, sizeof(*dst) * maxncpy);
#endif
va_start(arg, format);
n = BLI_vsnprintf(dst, maxncpy, format, arg);
va_end(arg);
return n;
}
size_t BLI_snprintf_rlen(char *__restrict dst, size_t maxncpy, const char *__restrict format, ...)
{
size_t n;
va_list arg;
#ifdef DEBUG_STRSIZE
memset(dst, 0xff, sizeof(*dst) * maxncpy);
#endif
va_start(arg, format);
n = BLI_vsnprintf_rlen(dst, maxncpy, format, arg);
va_end(arg);
return n;
}
char *BLI_sprintfN(const char *__restrict format, ...)
{
DynStr *ds;
va_list arg;
char *n;
va_start(arg, format);
ds = BLI_dynstr_new();
BLI_dynstr_vappendf(ds, format, arg);
n = BLI_dynstr_get_cstring(ds);
BLI_dynstr_free(ds);
va_end(arg);
return n;
}
int BLI_sprintf(char *__restrict str, const char *__restrict format, ...)
{
va_list arg;
va_start(arg, format);
const int result = vsprintf(str, format, arg);
va_end(arg);
return result;
}
/** \} */
/* -------------------------------------------------------------------- */
/** \name String Escape/Un-Escape
* \{ */
size_t BLI_str_escape(char *__restrict dst, const char *__restrict src, const size_t dst_maxncpy)
{
BLI_assert(dst_maxncpy != 0);
size_t len = 0;
for (; (len < dst_maxncpy) && (*src != '\0'); dst++, src++, len++) {
char c = *src;
if (ELEM(c, '\\', '"') || /* Use as-is. */
((c == '\t') && ((void)(c = 't'), true)) || /* Tab. */
((c == '\n') && ((void)(c = 'n'), true)) || /* Newline. */
((c == '\r') && ((void)(c = 'r'), true)) || /* Carriage return. */
((c == '\a') && ((void)(c = 'a'), true)) || /* Bell. */
((c == '\b') && ((void)(c = 'b'), true)) || /* Backspace. */
((c == '\f') && ((void)(c = 'f'), true))) /* Form-feed. */
{
if (UNLIKELY(len + 1 >= dst_maxncpy)) {
/* Not enough space to escape. */
break;
}
*dst++ = '\\';
len++;
}
*dst = c;
}
*dst = '\0';
return len;
}
BLI_INLINE bool str_unescape_pair(char c_next, char *r_out)
{
#define CASE_PAIR(value_src, value_dst) \
case value_src: { \
*r_out = value_dst; \
return true; \
}
switch (c_next) {
CASE_PAIR('"', '"'); /* Quote. */
CASE_PAIR('\\', '\\'); /* Backslash. */
CASE_PAIR('t', '\t'); /* Tab. */
CASE_PAIR('n', '\n'); /* Newline. */
CASE_PAIR('r', '\r'); /* Carriage return. */
CASE_PAIR('a', '\a'); /* Bell. */
CASE_PAIR('b', '\b'); /* Backspace. */
CASE_PAIR('f', '\f'); /* Form-feed. */
}
#undef CASE_PAIR
return false;
}
size_t BLI_str_unescape_ex(char *__restrict dst,
const char *__restrict src,
const size_t src_maxncpy,
/* Additional arguments to #BLI_str_unescape */
const size_t dst_maxncpy,
bool *r_is_complete)
{
size_t len = 0;
bool is_complete = true;
const size_t max_strlen = dst_maxncpy - 1; /* Account for trailing zero byte. */
for (const char *src_end = src + src_maxncpy; (src < src_end) && *src; src++) {
if (UNLIKELY(len == max_strlen)) {
is_complete = false;
break;
}
char c = *src;
if (UNLIKELY(c == '\\') && str_unescape_pair(*(src + 1), &c)) {
src++;
}
dst[len++] = c;
}
dst[len] = 0;
*r_is_complete = is_complete;
return len;
}
size_t BLI_str_unescape(char *__restrict dst, const char *__restrict src, const size_t src_maxncpy)
{
size_t len = 0;
for (const char *src_end = src + src_maxncpy; (src < src_end) && *src; src++) {
char c = *src;
if (UNLIKELY(c == '\\') && str_unescape_pair(*(src + 1), &c)) {
src++;
}
dst[len++] = c;
}
dst[len] = 0;
return len;
}
const char *BLI_str_escape_find_quote(const char *str)
{
bool escape = false;
while (*str && (*str != '"' || escape)) {
/* A pair of back-slashes represents a single back-slash,
* only use a single back-slash for escaping. */
escape = (escape == false) && (*str == '\\');
str++;
}
return (*str == '"') ? str : NULL;
}
/** \} */
/* -------------------------------------------------------------------- */
/** \name String Quote/Un-Quote
* \{ */
bool BLI_str_quoted_substr_range(const char *__restrict str,
const char *__restrict prefix,
int *__restrict r_start,
int *__restrict r_end)
{
const char *str_start = strstr(str, prefix);
if (str_start == NULL) {
return false;
}
const size_t prefix_len = strlen(prefix);
if (UNLIKELY(prefix_len == 0)) {
BLI_assert_msg(0,
"Zero length prefix passed in, "
"caller must prevent this from happening!");
return false;
}
BLI_assert_msg(prefix[prefix_len - 1] != '"',
"Prefix includes trailing quote, "
"caller must prevent this from happening!");
str_start += prefix_len;
if (UNLIKELY(*str_start != '\"')) {
return false;
}
str_start += 1;
const char *str_end = BLI_str_escape_find_quote(str_start);
if (UNLIKELY(str_end == NULL)) {
return false;
}
*r_start = (int)(str_start - str);
*r_end = (int)(str_end - str);
return true;
}
/* NOTE(@campbellbarton): in principal it should be possible to access a quoted string
* with an arbitrary size, currently all callers for this functionality
* happened to use a fixed size buffer, so only #BLI_str_quoted_substr is needed. */
#if 0
/**
* Makes a copy of the text within the "" that appear after the contents of \a prefix.
* i.e. for string `pose["apples"]` with prefix `pose[`, it will return `apples`.
*
* \param str: is the entire string to chop.
* \param prefix: is the part of the string to step over.
*
* Assume that the strings returned must be freed afterwards,
* and that the inputs will contain data we want.
*/
char *BLI_str_quoted_substrN(const char *__restrict str, const char *__restrict prefix)
{
int start_match_ofs, end_match_ofs;
if (!BLI_str_quoted_substr_range(str, prefix, &start_match_ofs, &end_match_ofs)) {
return NULL;
}
const size_t escaped_len = (size_t)(end_match_ofs - start_match_ofs);
char *result = MEM_mallocN(sizeof(char) * (escaped_len + 1), __func__);
const size_t unescaped_len = BLI_str_unescape(result, str + start_match_ofs, escaped_len);
if (unescaped_len != escaped_len) {
result = MEM_reallocN(result, sizeof(char) * (unescaped_len + 1));
}
return result;
}
#endif
bool BLI_str_quoted_substr(const char *__restrict str,
const char *__restrict prefix,
char *result,
size_t result_maxlen)
{
int start_match_ofs, end_match_ofs;
if (!BLI_str_quoted_substr_range(str, prefix, &start_match_ofs, &end_match_ofs)) {
return false;
}
const size_t escaped_len = (size_t)(end_match_ofs - start_match_ofs);
bool is_complete;
BLI_str_unescape_ex(result, str + start_match_ofs, escaped_len, result_maxlen, &is_complete);
if (is_complete == false) {
*result = '\0';
}
return is_complete;
}
/** \} */
/* -------------------------------------------------------------------- */
/** \name String Replace
* \{ */
char *BLI_str_replaceN(const char *__restrict str,
const char *__restrict substr_old,
const char *__restrict substr_new)
{
DynStr *ds = NULL;
size_t len_old = strlen(substr_old);
const char *match;
BLI_assert(substr_old[0] != '\0');
/* While we can still find a match for the old sub-string that we're searching for,
* keep dicing and replacing. */
while ((match = strstr(str, substr_old))) {
/* the assembly buffer only gets created when we actually need to rebuild the string */
if (ds == NULL) {
ds = BLI_dynstr_new();
}
/* If the match position does not match the current position in the string,
* copy the text up to this position and advance the current position in the string. */
if (str != match) {
/* Add the segment of the string from `str` to match to the buffer,
* then restore the value at match. */
BLI_dynstr_nappend(ds, str, (match - str));
/* now our current position should be set on the start of the match */
str = match;
}
/* Add the replacement text to the accumulation buffer. */
BLI_dynstr_append(ds, substr_new);
/* Advance the current position of the string up to the end of the replaced segment. */
str += len_old;
}
/* Finish off and return a new string that has had all occurrences of. */
if (ds) {
char *str_new;
/* Add what's left of the string to the assembly buffer
* - we've been adjusting `str` to point at the end of the replaced segments. */
BLI_dynstr_append(ds, str);
/* Convert to new c-string (MEM_malloc'd), and free the buffer. */
str_new = BLI_dynstr_get_cstring(ds);
BLI_dynstr_free(ds);
return str_new;
}
/* Just create a new copy of the entire string - we avoid going through the assembly buffer
* for what should be a bit more efficiency. */
return BLI_strdup(str);
}
void BLI_str_replace_char(char *str, char src, char dst)
{
while (*str) {
if (*str == src) {
*str = dst;
}
str++;
}
}
bool BLI_str_replace_table_exact(char *string,
const size_t string_len,
const char *replace_table[][2],
int replace_table_len)
{
for (int i = 0; i < replace_table_len; i++) {
if (STREQ(string, replace_table[i][0])) {
BLI_strncpy(string, replace_table[i][1], string_len);
return true;
}
}
return false;
}
/** \} */
/* -------------------------------------------------------------------- */
/** \name String Comparison/Matching
* \{ */
int BLI_strcaseeq(const char *a, const char *b)
{
return (BLI_strcasecmp(a, b) == 0);
}
char *BLI_strcasestr(const char *s, const char *find)
{
char c, sc;
size_t len;
if ((c = *find++) != 0) {
c = tolower(c);
len = strlen(find);
do {
do {
if ((sc = *s++) == 0) {
return NULL;
}
sc = tolower(sc);
} while (sc != c);
} while (BLI_strncasecmp(s, find, len) != 0);
s--;
}
return ((char *)s);
}
int BLI_string_max_possible_word_count(const int str_len)
{
return (str_len / 2) + 1;
}
bool BLI_string_has_word_prefix(const char *haystack, const char *needle, size_t needle_len)
{
const char *match = BLI_strncasestr(haystack, needle, needle_len);
if (match) {
if ((match == haystack) || (*(match - 1) == ' ') || ispunct(*(match - 1))) {
return true;
}
return BLI_string_has_word_prefix(match + 1, needle, needle_len);
}
return false;
}
bool BLI_string_all_words_matched(const char *name,
const char *str,
int (*words)[2],
const int words_len)
{
int index;
for (index = 0; index < words_len; index++) {
if (!BLI_string_has_word_prefix(name, str + words[index][0], (size_t)words[index][1])) {
break;
}
}
const bool all_words_matched = (index == words_len);
return all_words_matched;
}
char *BLI_strncasestr(const char *s, const char *find, size_t len)
{
char c, sc;
if ((c = *find++) != 0) {
c = tolower(c);
if (len > 1) {
do {
do {
if ((sc = *s++) == 0) {
return NULL;
}
sc = tolower(sc);
} while (sc != c);
} while (BLI_strncasecmp(s, find, len - 1) != 0);
}
else {
{
do {
if ((sc = *s++) == 0) {
return NULL;
}
sc = tolower(sc);
} while (sc != c);
}
}
s--;
}
return ((char *)s);
}
int BLI_strcasecmp(const char *s1, const char *s2)
{
int i;
char c1, c2;
for (i = 0;; i++) {
c1 = tolower(s1[i]);
c2 = tolower(s2[i]);
if (c1 < c2) {
return -1;
}
if (c1 > c2) {
return 1;
}
if (c1 == 0) {
break;
}
}
return 0;
}
int BLI_strncasecmp(const char *s1, const char *s2, size_t len)
{
size_t i;
char c1, c2;
for (i = 0; i < len; i++) {
c1 = tolower(s1[i]);
c2 = tolower(s2[i]);
if (c1 < c2) {
return -1;
}
if (c1 > c2) {
return 1;
}
if (c1 == 0) {
break;
}
}
return 0;
}
/* compare number on the left size of the string */
static int left_number_strcmp(const char *s1, const char *s2, int *tiebreaker)
{
const char *p1 = s1, *p2 = s2;
int numdigit, numzero1, numzero2;
/* count and skip leading zeros */
for (numzero1 = 0; *p1 == '0'; numzero1++) {
p1++;
}
for (numzero2 = 0; *p2 == '0'; numzero2++) {
p2++;
}
/* find number of consecutive digits */
for (numdigit = 0;; numdigit++) {
if (isdigit(*(p1 + numdigit)) && isdigit(*(p2 + numdigit))) {
continue;
}
if (isdigit(*(p1 + numdigit))) {
return 1; /* s2 is bigger */
}
if (isdigit(*(p2 + numdigit))) {
return -1; /* s1 is bigger */
}
break;
}
/* same number of digits, compare size of number */
if (numdigit > 0) {
int compare = (int)strncmp(p1, p2, (size_t)numdigit);
if (compare != 0) {
return compare;
}
}
/* use number of leading zeros as tie breaker if still equal */
if (*tiebreaker == 0) {
if (numzero1 > numzero2) {
*tiebreaker = 1;
}
else if (numzero1 < numzero2) {
*tiebreaker = -1;
}
}
return 0;
}
int BLI_strcasecmp_natural(const char *s1, const char *s2)
{
int d1 = 0, d2 = 0;
char c1, c2;
int tiebreaker = 0;
/* if both chars are numeric, to a left_number_strcmp().
* then increase string deltas as long they are
* numeric, else do a tolower and char compare */
while (1) {
if (isdigit(s1[d1]) && isdigit(s2[d2])) {
int numcompare = left_number_strcmp(s1 + d1, s2 + d2, &tiebreaker);
if (numcompare != 0) {
return numcompare;
}
/* Some wasted work here, left_number_strcmp already consumes at least some digits. */
d1++;
while (isdigit(s1[d1])) {
d1++;
}
d2++;
while (isdigit(s2[d2])) {
d2++;
}
}
/* Test for end of strings first so that shorter strings are ordered in front. */
if (ELEM(0, s1[d1], s2[d2])) {
break;
}
c1 = tolower(s1[d1]);
c2 = tolower(s2[d2]);
if (c1 == c2) {
/* Continue iteration */
}
/* Check for '.' so "foo.bar" comes before "foo 1.bar". */
else if (c1 == '.') {
return -1;
}
else if (c2 == '.') {
return 1;
}
else if (c1 < c2) {
return -1;
}
else if (c1 > c2) {
return 1;
}
d1++;
d2++;
}
if (tiebreaker) {
return tiebreaker;
}
/* we might still have a different string because of lower/upper case, in
* that case fall back to regular string comparison */
return strcmp(s1, s2);
}
int BLI_strcmp_ignore_pad(const char *str1, const char *str2, const char pad)
{
size_t str1_len, str2_len;
while (*str1 == pad) {
str1++;
}
while (*str2 == pad) {
str2++;
}
str1_len = strlen(str1);
str2_len = strlen(str2);
while (str1_len && (str1[str1_len - 1] == pad)) {
str1_len--;
}
while (str2_len && (str2[str2_len - 1] == pad)) {
str2_len--;
}
if (str1_len == str2_len) {
return strncmp(str1, str2, str2_len);
}
if (str1_len > str2_len) {
int ret = strncmp(str1, str2, str2_len);
if (ret == 0) {
ret = 1;
}
return ret;
}
{
int ret = strncmp(str1, str2, str1_len);
if (ret == 0) {
ret = -1;
}
return ret;
}
}
/** \} */
/* -------------------------------------------------------------------- */
/** \name String Comparison at Start/End
* \{ */
int BLI_str_index_in_array_n(const char *__restrict str,
const char **__restrict str_array,
const int str_array_len)
{
int index;
const char **str_iter = str_array;
for (index = 0; index < str_array_len; str_iter++, index++) {
if (STREQ(str, *str_iter)) {
return index;
}
}
return -1;
}
int BLI_str_index_in_array(const char *__restrict str, const char **__restrict str_array)
{
int index;
const char **str_iter = str_array;
for (index = 0; *str_iter; str_iter++, index++) {
if (STREQ(str, *str_iter)) {
return index;
}
}
return -1;
}
bool BLI_str_startswith(const char *__restrict str, const char *__restrict start)
{
for (; *str && *start; str++, start++) {
if (*str != *start) {
return false;
}
}
return (*start == '\0');
}
bool BLI_strn_endswith(const char *__restrict str, const char *__restrict end, size_t slength)
{
size_t elength = strlen(end);
if (elength < slength) {
const char *iter = &str[slength - elength];
while (*iter) {
if (*iter++ != *end++) {
return false;
}
}
return true;
}
return false;
}
bool BLI_str_endswith(const char *__restrict str, const char *__restrict end)
{
const size_t slength = strlen(str);
return BLI_strn_endswith(str, end, slength);
}
/** \} */
/* -------------------------------------------------------------------- */
/** \name String Length
* \{ */
size_t BLI_strnlen(const char *s, const size_t maxlen)
{
size_t len;
for (len = 0; len < maxlen; len++, s++) {
if (!*s) {
break;
}
}
return len;
}
/** \} */
/* -------------------------------------------------------------------- */
/** \name String Case Conversion
* \{ */
char BLI_tolower_ascii(const char c)
{
return (c >= 'A' && c <= 'Z') ? c + ('a' - 'A') : c;
}
char BLI_toupper_ascii(const char c)
{
return (c >= 'a' && c <= 'z') ? c - ('a' - 'A') : c;
}
void BLI_str_tolower_ascii(char *str, const size_t len)
{
size_t i;
for (i = 0; (i < len) && str[i]; i++) {
str[i] = BLI_tolower_ascii(str[i]);
}
}
void BLI_str_toupper_ascii(char *str, const size_t len)
{
size_t i;
for (i = 0; (i < len) && str[i]; i++) {
str[i] = BLI_toupper_ascii(str[i]);
}
}
/** \} */
/* -------------------------------------------------------------------- */
/** \name String Stripping
* \{ */
void BLI_str_rstrip(char *str)
{
for (int i = (int)strlen(str) - 1; i >= 0; i--) {
if (isspace(str[i])) {
str[i] = '\0';
}
else {
break;
}
}
}
int BLI_str_rstrip_float_zero(char *str, const char pad)
{
char *p = strchr(str, '.');
int totstrip = 0;
if (p) {
char *end_p;
p++; /* position at first decimal place */
end_p = p + (strlen(p) - 1); /* position at last character */
if (end_p > p) {
while (end_p != p && *end_p == '0') {
*end_p = pad;
end_p--;
totstrip++;
}
}
}
return totstrip;
}
/** \} */
/* -------------------------------------------------------------------- */
/** \name String Split (Partition)
* \{ */
size_t BLI_str_partition(const char *str, const char delim[], const char **sep, const char **suf)
{
return BLI_str_partition_ex(str, NULL, delim, sep, suf, false);
}
size_t BLI_str_rpartition(const char *str, const char delim[], const char **sep, const char **suf)
{
return BLI_str_partition_ex(str, NULL, delim, sep, suf, true);
}
size_t BLI_str_partition_ex(const char *str,
const char *end,
const char delim[],
const char **sep,
const char **suf,
const bool from_right)
{
const char *d;
char *(*func)(const char *str, int c) = from_right ? strrchr : strchr;
BLI_assert(end == NULL || end > str);
*sep = *suf = NULL;
for (d = delim; *d != '\0'; d++) {
const char *tmp;
if (end) {
if (from_right) {
for (tmp = end - 1; (tmp >= str) && (*tmp != *d); tmp--) {
/* pass */
}
if (tmp < str) {
tmp = NULL;
}
}
else {
tmp = func(str, *d);
if (tmp >= end) {
tmp = NULL;
}
}
}
else {
tmp = func(str, *d);
}
if (tmp && (from_right ? (*sep < tmp) : (!*sep || *sep > tmp))) {
*sep = tmp;
}
}
if (*sep) {
*suf = *sep + 1;
return (size_t)(*sep - str);
}
return end ? (size_t)(end - str) : strlen(str);
}
int BLI_string_find_split_words(
const char *str, const size_t len, const char delim, int r_words[][2], int words_max)
{
int n = 0, i;
bool charsearch = true;
/* Skip leading spaces */
for (i = 0; (i < len) && (str[i] != '\0'); i++) {
if (str[i] != delim) {
break;
}
}
for (; (i < len) && (str[i] != '\0') && (n < words_max); i++) {
if ((str[i] != delim) && (charsearch == true)) {
r_words[n][0] = i;
charsearch = false;
}
else {
if ((str[i] == delim) && (charsearch == false)) {
r_words[n][1] = i - r_words[n][0];
n++;
charsearch = true;
}
}
}
if (charsearch == false) {
r_words[n][1] = i - r_words[n][0];
n++;
}
return n;
}
/** \} */
/* -------------------------------------------------------------------- */
/** \name String Formatting (Numeric)
* \{ */
static size_t BLI_str_format_int_grouped_ex(char src[16], char dst[16], int num_len)
{
char *p_src = src;
char *p_dst = dst;
const char separator = ',';
int commas;
if (*p_src == '-') {
*p_dst++ = *p_src++;
num_len--;
}
for (commas = 2 - num_len % 3; *p_src; commas = (commas + 1) % 3) {
*p_dst++ = *p_src++;
if (commas == 1) {
*p_dst++ = separator;
}
}
*--p_dst = '\0';
return (size_t)(p_dst - dst);
}
size_t BLI_str_format_int_grouped(char dst[16], int num)
{
char src[16];
const int num_len = BLI_snprintf(src, sizeof(src), "%d", num);
return BLI_str_format_int_grouped_ex(src, dst, num_len);
}
size_t BLI_str_format_uint64_grouped(char dst[16], uint64_t num)
{
/* NOTE: Buffer to hold maximum `uint64`, which is 1.8e+19. but
* we also need space for commas and null-terminator. */
char src[27];
const int num_len = BLI_snprintf(src, sizeof(src), "%" PRIu64 "", num);
return BLI_str_format_int_grouped_ex(src, dst, num_len);
}
void BLI_str_format_byte_unit(char dst[15], long long int bytes, const bool base_10)
{
double bytes_converted = bytes;
int order = 0;
int decimals;
const int base = base_10 ? 1000 : 1024;
const char *units_base_10[] = {"B", "KB", "MB", "GB", "TB", "PB"};
const char *units_base_2[] = {"B", "KiB", "MiB", "GiB", "TiB", "PiB"};
const int units_num = ARRAY_SIZE(units_base_2);
BLI_STATIC_ASSERT(ARRAY_SIZE(units_base_2) == ARRAY_SIZE(units_base_10), "array size mismatch");
while ((fabs(bytes_converted) >= base) && ((order + 1) < units_num)) {
bytes_converted /= base;
order++;
}
decimals = MAX2(order - 1, 0);
/* Format value first, stripping away floating zeroes. */
const size_t dst_len = 15;
size_t len = BLI_snprintf_rlen(dst, dst_len, "%.*f", decimals, bytes_converted);
len -= (size_t)BLI_str_rstrip_float_zero(dst, '\0');
dst[len++] = ' ';
BLI_strncpy(dst + len, base_10 ? units_base_10[order] : units_base_2[order], dst_len - len);
}
void BLI_str_format_decimal_unit(char dst[7], int number_to_format)
{
float number_to_format_converted = number_to_format;
int order = 0;
const float base = 1000;
const char *units[] = {"", "K", "M", "B"};
const int units_num = ARRAY_SIZE(units);
while ((fabsf(number_to_format_converted) >= base) && ((order + 1) < units_num)) {
number_to_format_converted /= base;
order++;
}
const size_t dst_len = 7;
int decimals = 0;
if ((order > 0) && fabsf(number_to_format_converted) < 100.0f) {
decimals = 1;
}
BLI_snprintf(dst, dst_len, "%.*f%s", decimals, number_to_format_converted, units[order]);
}
void BLI_str_format_integer_unit(char dst[5], const int number_to_format)
{
float number_to_format_converted = number_to_format;
int order = 0;
const float base = 1000;
const char *units[] = {"", "K", "M", "B"};
const int units_num = ARRAY_SIZE(units);
while ((fabsf(number_to_format_converted) >= base) && ((order + 1) < units_num)) {
number_to_format_converted /= base;
order++;
}
const bool add_dot = (abs(number_to_format) > 99999) && fabsf(number_to_format_converted) > 99;
if (add_dot) {
number_to_format_converted /= 100;
order++;
}
const size_t dst_len = 5;
BLI_snprintf(dst,
dst_len,
"%s%s%d%s",
number_to_format < 0 ? "-" : "",
add_dot ? "." : "",
(int)floorf(fabsf(number_to_format_converted)),
units[order]);
}
/** \} */
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