/* * ***** BEGIN GPL LICENSE BLOCK ***** * * 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 the Free Software Foundation, * Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA. * * The Original Code is Copyright (C) 2001-2002 by NaN Holding BV. * All rights reserved. * * The Original Code is: all of this file. * * Contributor(s): none yet. * * ***** END GPL LICENSE BLOCK ***** * * various string, file, list operations. */ /** \file blender/blenlib/intern/path_util.c * \ingroup bli */ #include #include #include #include #include "DNA_listBase.h" #include "BLI_utildefines.h" #include "BLI_fileops.h" #include "BLI_path_util.h" #include "BLI_string.h" #include "BLI_string_utf8.h" #include "BLI_fnmatch.h" #ifdef WIN32 # include "utf_winfunc.h" # include "utfconv.h" # include # ifdef _WIN32_IE # undef _WIN32_IE # endif # define _WIN32_IE 0x0501 # include # include # include "BLI_winstuff.h" # include "BLI_alloca.h" #else # include "unistd.h" #endif /* WIN32 */ #include "MEM_guardedalloc.h" /* Declarations */ #ifdef WIN32 /* return true if the path is absolute ie starts with a drive specifier (eg A:\) or is a UNC path */ static bool BLI_path_is_abs(const char *name); #endif /* WIN32 */ /* implementation */ /** * Looks for a sequence of decimal digits in string, preceding any filename extension, * returning the integer value if found, or 0 if not. * * \param string String to scan. * \param head Optional area to return copy of part of string prior to digits, or before dot if no digits. * \param tail Optional area to return copy of part of string following digits, or from dot if no digits. * \param numlen Optional to return number of digits found. */ int BLI_stringdec(const char *string, char *head, char *tail, unsigned short *numlen) { unsigned int nums = 0, nume = 0; int i; bool found_digit = false; const char * const lslash = BLI_last_slash(string); const unsigned int string_len = strlen(string); const unsigned int lslash_len = lslash != NULL ? (int)(lslash - string) : 0; unsigned int name_end = string_len; while (name_end > lslash_len && string[--name_end] != '.') {} /* name ends at dot if present */ if (name_end == lslash_len && string[name_end] != '.') name_end = string_len; for (i = name_end - 1; i >= (int)lslash_len; i--) { if (isdigit(string[i])) { if (found_digit) { nums = i; } else { nume = i; nums = i; found_digit = true; } } else { if (found_digit) break; } } if (found_digit) { if (tail) strcpy(tail, &string[nume + 1]); if (head) { strcpy(head, string); head[nums] = 0; } if (numlen) *numlen = nume - nums + 1; return ((int)atoi(&(string[nums]))); } else { if (tail) strcpy(tail, string + name_end); if (head) { /* name_end points to last character of head, * make it +1 so null-terminator is nicely placed */ BLI_strncpy(head, string, name_end + 1); } if (numlen) *numlen = 0; return 0; } } /** * Returns in area pointed to by string a string of the form "", where pic * is formatted as numlen digits with leading zeroes. */ void BLI_stringenc(char *string, const char *head, const char *tail, unsigned short numlen, int pic) { sprintf(string, "%s%.*d%s", head, numlen, MAX2(0, pic), tail); } static int BLI_path_unc_prefix_len(const char *path); /* defined below in same file */ /* ******************** string encoding ***************** */ /** * Remove redundant characters from \a path and optionally make absolute. * * \param relabase: The path this is relative to, or ignored when NULL. * \param path: Can be any input, and this function converts it to a regular full path. * Also removes garbage from directory paths, like `/../` or double slashes etc. * * \note \a path isn't protected for max string names... */ void BLI_cleanup_path(const char *relabase, char *path) { ptrdiff_t a; char *start, *eind; if (relabase) { BLI_path_abs(path, relabase); } else { if (path[0] == '/' && path[1] == '/') { if (path[2] == '\0') { return; /* path is "//" - cant clean it */ } path = path + 2; /* leave the initial "//" untouched */ } } /* Note * memmove(start, eind, strlen(eind) + 1); * is the same as * strcpy(start, eind); * except strcpy should not be used because there is overlap, * so use memmove's slightly more obscure syntax - Campbell */ #ifdef WIN32 while ( (start = strstr(path, "\\..\\")) ) { eind = start + strlen("\\..\\") - 1; a = start - path - 1; while (a > 0) { if (path[a] == '\\') break; a--; } if (a < 0) { break; } else { memmove(path + a, eind, strlen(eind) + 1); } } while ( (start = strstr(path, "\\.\\")) ) { eind = start + strlen("\\.\\") - 1; memmove(start, eind, strlen(eind) + 1); } /* remove two consecutive backslashes, but skip the UNC prefix, * which needs to be preserved */ while ( (start = strstr(path + BLI_path_unc_prefix_len(path), "\\\\")) ) { eind = start + strlen("\\\\") - 1; memmove(start, eind, strlen(eind) + 1); } #else while ( (start = strstr(path, "/../")) ) { a = start - path - 1; if (a > 0) { /* //../ => / */ eind = start + (4 - 1) /* strlen("/../") - 1 */; /* strip "/.." and keep last "/" */ while (a > 0 && path[a] != '/') { /* find start of */ a--; } memmove(path + a, eind, strlen(eind) + 1); } else { /* support for odd paths: eg /../home/me --> /home/me * this is a valid path in blender but we cant handle this the usual way below * simply strip this prefix then evaluate the path as usual. * pythons os.path.normpath() does this */ /* Note: previous version of following call used an offset of 3 instead of 4, * which meant that the "/../home/me" example actually became "home/me". * Using offset of 3 gives behaviour consistent with the abovementioned * Python routine. */ memmove(path, path + 3, strlen(path + 3) + 1); } } while ( (start = strstr(path, "/./")) ) { eind = start + (3 - 1) /* strlen("/./") - 1 */; memmove(start, eind, strlen(eind) + 1); } while ( (start = strstr(path, "//")) ) { eind = start + (2 - 1) /* strlen("//") - 1 */; memmove(start, eind, strlen(eind) + 1); } #endif } /** * Cleanup filepath ensuring a trailing slash. */ void BLI_cleanup_dir(const char *relabase, char *dir) { BLI_cleanup_path(relabase, dir); BLI_add_slash(dir); } /** * Cleanup filepath ensuring no trailing slash. */ void BLI_cleanup_file(const char *relabase, char *path) { BLI_cleanup_path(relabase, path); BLI_del_slash(path); } /** * Make given name safe to be used in paths. * * \return true if \a fname was changed, false otherwise. * * For now, simply replaces reserved chars (as listed in * https://en.wikipedia.org/wiki/Filename#Reserved_characters_and_words ) * by underscores ('_'). * * \note Space case ' ' is a bit of an edge case here - in theory it is allowed, but again can be an issue * in some cases, so we simply replace it by an underscore too (good practice anyway). * REMOVED based on popular demand (see T45900). * Percent '%' char is a bit same case - not recommended to use it, but supported by all decent FS/OS around... * * \note On Windows, it also ensures there is no '.' (dot char) at the end of the file, this can lead to issues... * * \note On Windows, it also checks for forbidden names * (see https://msdn.microsoft.com/en-us/library/windows/desktop/aa365247%28v=vs.85%29.aspx ). */ bool BLI_filename_make_safe(char *fname) { const char *invalid = "\x01\x02\x03\x04\x05\x06\x07\x08\x09\x0a\x0b\x0c\x0d\x0e\x0f" "\x10\x11\x12\x13\x14\x15\x16\x17\x18\x19\x1a\x1b\x1c\x1d\x1e\x1f" "/\\?*:|\"<>"; char *fn; bool changed = false; if (*fname == '\0') { return changed; } for (fn = fname; *fn && (fn = strpbrk(fn, invalid)); fn++) { *fn = '_'; changed = true; } /* Forbid only dots. */ for (fn = fname; *fn == '.'; fn++); if (*fn == '\0') { *fname = '_'; changed = true; } #ifdef WIN32 { const size_t len = strlen(fname); const char *invalid_names[] = { "con", "prn", "aux", "null", "com1", "com2", "com3", "com4", "com5", "com6", "com7", "com8", "com9", "lpt1", "lpt2", "lpt3", "lpt4", "lpt5", "lpt6", "lpt7", "lpt8", "lpt9", NULL }; char *lower_fname = BLI_strdup(fname); const char **iname; /* Forbid trailing dot (trailing space has already been replaced above). */ if (fname[len - 1] == '.') { fname[len - 1] = '_'; changed = true; } /* Check for forbidden names - not we have to check all combination of upper and lower cases, hence the usage * of lower_fname (more efficient than using BLI_strcasestr repeatedly). */ BLI_str_tolower_ascii(lower_fname, len); for (iname = invalid_names; *iname; iname++) { if (strstr(lower_fname, *iname) == lower_fname) { const size_t iname_len = strlen(*iname); /* Only invalid if the whole name is made of the invalid chunk, or it has an (assumed extension) dot * just after. This means it will also catch 'valid' names like 'aux.foo.bar', but should be * good enough for us! */ if ((iname_len == len) || (lower_fname[iname_len] == '.')) { *fname = '_'; changed = true; break; } } } MEM_freeN(lower_fname); } #endif return changed; } /** * Make given path OS-safe. * * \return true if \a path was changed, false otherwise. */ bool BLI_path_make_safe(char *path) { /* Simply apply BLI_filename_make_safe() over each component of the path. * Luckily enough, same 'safe' rules applies to filenames and dirnames. */ char *curr_slash, *curr_path = path; bool changed = false; bool skip_first = false; #ifdef WIN32 if (BLI_path_is_abs(path)) { /* Do not make safe 'C:' in 'C:\foo\bar'... */ skip_first = true; } #endif for (curr_slash = (char *)BLI_first_slash(curr_path); curr_slash; curr_slash = (char *)BLI_first_slash(curr_path)) { const char backup = *curr_slash; *curr_slash = '\0'; if (!skip_first && (*curr_path != '\0') && BLI_filename_make_safe(curr_path)) { changed = true; } skip_first = false; curr_path = curr_slash + 1; *curr_slash = backup; } if (BLI_filename_make_safe(curr_path)) { changed = true; } return changed; } /** * Does path begin with the special "//" prefix that Blender uses to indicate * a path relative to the .blend file. */ bool BLI_path_is_rel(const char *path) { return path[0] == '/' && path[1] == '/'; } /* return true if the path is a UNC share */ bool BLI_path_is_unc(const char *name) { return name[0] == '\\' && name[1] == '\\'; } /** * Returns the length of the identifying prefix * of a UNC path which can start with '\\' (short version) * or '\\?\' (long version) * If the path is not a UNC path, return 0 */ static int BLI_path_unc_prefix_len(const char *path) { if (BLI_path_is_unc(path)) { if ((path[2] == '?') && (path[3] == '\\') ) { /* we assume long UNC path like \\?\server\share\folder etc... */ return 4; } else { return 2; } } return 0; } #if defined(WIN32) /* return true if the path is absolute ie starts with a drive specifier (eg A:\) or is a UNC path */ static bool BLI_path_is_abs(const char *name) { return (name[1] == ':' && (name[2] == '\\' || name[2] == '/') ) || BLI_path_is_unc(name); } static wchar_t *next_slash(wchar_t *path) { wchar_t *slash = path; while (*slash && *slash != L'\\') slash++; return slash; } /* adds a slash if the unc path points sto a share */ static void BLI_path_add_slash_to_share(wchar_t *uncpath) { wchar_t *slash_after_server = next_slash(uncpath + 2); if (*slash_after_server) { wchar_t *slash_after_share = next_slash(slash_after_server + 1); if (!(*slash_after_share)) { slash_after_share[0] = L'\\'; slash_after_share[1] = L'\0'; } } } static void BLI_path_unc_to_short(wchar_t *unc) { wchar_t tmp[PATH_MAX]; int len = wcslen(unc); int copy_start = 0; /* convert: * \\?\UNC\server\share\folder\... to \\server\share\folder\... * \\?\C:\ to C:\ and \\?\C:\folder\... to C:\folder\... */ if ((len > 3) && (unc[0] == L'\\') && (unc[1] == L'\\') && (unc[2] == L'?') && ((unc[3] == L'\\') || (unc[3] == L'/'))) { if ((len > 5) && (unc[5] == L':')) { wcsncpy(tmp, unc + 4, len - 4); tmp[len - 4] = L'\0'; wcscpy(unc, tmp); } else if ((len > 7) && (wcsncmp(&unc[4], L"UNC", 3) == 0) && ((unc[7] == L'\\') || (unc[7] == L'/'))) { tmp[0] = L'\\'; tmp[1] = L'\\'; wcsncpy(tmp + 2, unc + 8, len - 8); tmp[len - 6] = L'\0'; wcscpy(unc, tmp); } } } void BLI_cleanup_unc(char *path, int maxlen) { wchar_t *tmp_16 = alloc_utf16_from_8(path, 1); BLI_cleanup_unc_16(tmp_16); conv_utf_16_to_8(tmp_16, path, maxlen); } void BLI_cleanup_unc_16(wchar_t *path_16) { BLI_path_unc_to_short(path_16); BLI_path_add_slash_to_share(path_16); } #endif /** * Replaces *file with a relative version (prefixed by "//") such that BLI_path_abs, given * the same *relfile, will convert it back to its original value. */ void BLI_path_rel(char *file, const char *relfile) { const char *lslash; char temp[FILE_MAX]; char res[FILE_MAX]; /* if file is already relative, bail out */ if (BLI_path_is_rel(file)) { return; } /* also bail out if relative path is not set */ if (relfile[0] == '\0') { return; } #ifdef WIN32 if (BLI_strnlen(relfile, 3) > 2 && !BLI_path_is_abs(relfile)) { char *ptemp; /* fix missing volume name in relative base, * can happen with old recent-files.txt files */ get_default_root(temp); ptemp = &temp[2]; if (relfile[0] != '\\' && relfile[0] != '/') { ptemp++; } BLI_strncpy(ptemp, relfile, FILE_MAX - 3); } else { BLI_strncpy(temp, relfile, FILE_MAX); } if (BLI_strnlen(file, 3) > 2) { bool is_unc = BLI_path_is_unc(file); /* Ensure paths are both UNC paths or are both drives */ if (BLI_path_is_unc(temp) != is_unc) { return; } /* Ensure both UNC paths are on the same share */ if (is_unc) { int off; int slash = 0; for (off = 0; temp[off] && slash < 4; off++) { if (temp[off] != file[off]) return; if (temp[off] == '\\') slash++; } } else if (temp[1] == ':' && file[1] == ':' && temp[0] != file[0]) { return; } } #else BLI_strncpy(temp, relfile, FILE_MAX); #endif BLI_str_replace_char(temp + BLI_path_unc_prefix_len(temp), '\\', '/'); BLI_str_replace_char(file + BLI_path_unc_prefix_len(file), '\\', '/'); /* remove /./ which confuse the following slash counting... */ BLI_cleanup_path(NULL, file); BLI_cleanup_path(NULL, temp); /* the last slash in the file indicates where the path part ends */ lslash = BLI_last_slash(temp); if (lslash) { /* find the prefix of the filename that is equal for both filenames. * This is replaced by the two slashes at the beginning */ const char *p = temp; const char *q = file; char *r = res; #ifdef WIN32 while (tolower(*p) == tolower(*q)) #else while (*p == *q) #endif { p++; q++; /* don't search beyond the end of the string * in the rare case they match */ if ((*p == '\0') || (*q == '\0')) { break; } } /* we might have passed the slash when the beginning of a dir matches * so we rewind. Only check on the actual filename */ if (*q != '/') { while ( (q >= file) && (*q != '/') ) { --q; --p; } } else if (*p != '/') { while ( (p >= temp) && (*p != '/') ) { --p; --q; } } r += BLI_strcpy_rlen(r, "//"); /* p now points to the slash that is at the beginning of the part * where the path is different from the relative path. * We count the number of directories we need to go up in the * hierarchy to arrive at the common 'prefix' of the path */ if (p < temp) p = temp; while (p && p < lslash) { if (*p == '/') { r += BLI_strcpy_rlen(r, "../"); } p++; } /* don't copy the slash at the beginning */ r += BLI_strcpy_rlen(r, q + 1); #ifdef WIN32 BLI_str_replace_char(res + 2, '/', '\\'); #endif strcpy(file, res); } } /** * Appends a suffix to the string, fitting it before the extension * * string = Foo.png, suffix = 123, separator = _ * Foo.png -> Foo_123.png * * \param string original (and final) string * \param maxlen Maximum length of string * \param suffix String to append to the original string * \param sep Optional separator character * \return true if succeeded */ bool BLI_path_suffix(char *string, size_t maxlen, const char *suffix, const char *sep) { const size_t string_len = strlen(string); const size_t suffix_len = strlen(suffix); const size_t sep_len = strlen(sep); ssize_t a; char extension[FILE_MAX]; bool has_extension = false; if (string_len + sep_len + suffix_len >= maxlen) return false; for (a = string_len - 1; a >= 0; a--) { if (string[a] == '.') { has_extension = true; break; } else if (ELEM(string[a], '/', '\\')) { break; } } if (!has_extension) a = string_len; BLI_strncpy(extension, string + a, sizeof(extension)); sprintf(string + a, "%s%s%s", sep, suffix, extension); return true; } /** * Replaces path with the path of its parent directory, returning true if * it was able to find a parent directory within the pathname. */ bool BLI_parent_dir(char *path) { const char parent_dir[] = {'.', '.', SEP, '\0'}; /* "../" or "..\\" */ char tmp[FILE_MAX + 4]; BLI_join_dirfile(tmp, sizeof(tmp), path, parent_dir); BLI_cleanup_dir(NULL, tmp); /* does all the work of normalizing the path for us */ if (!BLI_testextensie(tmp, parent_dir)) { strcpy(path, tmp); /* We assume pardir is always shorter... */ return true; } else { return false; } } /** * Looks for a sequence of "#" characters in the last slash-separated component of *path, * returning the indexes of the first and one past the last character in the sequence in * *char_start and *char_end respectively. Returns true if such a sequence was found. */ static bool stringframe_chars(const char *path, int *char_start, int *char_end) { unsigned int ch_sta, ch_end, i; /* Insert current frame: file### -> file001 */ ch_sta = ch_end = 0; for (i = 0; path[i] != '\0'; i++) { if (path[i] == '\\' || path[i] == '/') { ch_end = 0; /* this is a directory name, don't use any hashes we found */ } else if (path[i] == '#') { ch_sta = i; ch_end = ch_sta + 1; while (path[ch_end] == '#') { ch_end++; } i = ch_end - 1; /* keep searching */ /* don't break, there may be a slash after this that invalidates the previous #'s */ } } if (ch_end) { *char_start = ch_sta; *char_end = ch_end; return true; } else { *char_start = -1; *char_end = -1; return false; } } /** * Ensure *path contains at least one "#" character in its last slash-separated * component, appending one digits long if not. */ static void ensure_digits(char *path, int digits) { char *file = (char *)BLI_last_slash(path); if (file == NULL) file = path; if (strrchr(file, '#') == NULL) { int len = strlen(file); while (digits--) { file[len++] = '#'; } file[len] = '\0'; } } /** * Replaces "#" character sequence in last slash-separated component of *path * with frame as decimal integer, with leading zeroes as necessary, to make digits digits. */ bool BLI_path_frame(char *path, int frame, int digits) { int ch_sta, ch_end; if (digits) ensure_digits(path, digits); if (stringframe_chars(path, &ch_sta, &ch_end)) { /* warning, ch_end is the last # +1 */ char tmp[FILE_MAX]; BLI_snprintf(tmp, sizeof(tmp), "%.*s%.*d%s", ch_sta, path, ch_end - ch_sta, frame, path + ch_end); BLI_strncpy(path, tmp, FILE_MAX); return true; } return false; } /** * Replaces "#" character sequence in last slash-separated component of *path * with sta and end as decimal integers, with leading zeroes as necessary, to make digits * digits each, with a hyphen in-between. */ bool BLI_path_frame_range(char *path, int sta, int end, int digits) { int ch_sta, ch_end; if (digits) ensure_digits(path, digits); if (stringframe_chars(path, &ch_sta, &ch_end)) { /* warning, ch_end is the last # +1 */ char tmp[FILE_MAX]; BLI_snprintf(tmp, sizeof(tmp), "%.*s%.*d-%.*d%s", ch_sta, path, ch_end - ch_sta, sta, ch_end - ch_sta, end, path + ch_end); BLI_strncpy(path, tmp, FILE_MAX); return true; } return false; } /** * Get the frame from a filename formatted by blender's frame scheme */ bool BLI_path_frame_get(char *path, int *r_frame, int *r_numdigits) { if (*path) { char *file = (char *)BLI_last_slash(path); char *c; int len, numdigits; numdigits = *r_numdigits = 0; if (file == NULL) file = path; /* first get the extension part */ len = strlen(file); c = file + len; /* isolate extension */ while (--c != file) { if (*c == '.') { c--; break; } } /* find start of number */ while (c != (file - 1) && isdigit(*c)) { c--; numdigits++; } if (numdigits) { char prevchar; c++; prevchar = c[numdigits]; c[numdigits] = 0; /* was the number really an extension? */ *r_frame = atoi(c); c[numdigits] = prevchar; *r_numdigits = numdigits; return true; } } return false; } void BLI_path_frame_strip(char *path, bool set_frame_char, char *ext) { if (*path) { char *file = (char *)BLI_last_slash(path); char *c, *suffix; int len; int numdigits = 0; if (file == NULL) file = path; /* first get the extension part */ len = strlen(file); c = file + len; /* isolate extension */ while (--c != file) { if (*c == '.') { c--; break; } } suffix = c + 1; /* find start of number */ while (c != (file - 1) && isdigit(*c)) { c--; numdigits++; } c++; if (numdigits) { /* replace the number with the suffix and terminate the string */ while (numdigits--) { *ext++ = *suffix; *c++ = set_frame_char ? '#' : *suffix; suffix++; } *c = '\0'; *ext = '\0'; } } } /** * Check if we have '#' chars, usable for #BLI_path_frame, #BLI_path_frame_range */ bool BLI_path_frame_check_chars(const char *path) { int ch_sta, ch_end; /* dummy args */ return stringframe_chars(path, &ch_sta, &ch_end); } /** * If path begins with "//", strips that and replaces it with basepath directory. * * \note Also converts drive-letter prefix to something more sensible * if this is a non-drive-letter-based system. * * \param path: The path to convert. * \param basepath: The directory to base relative paths with. * \return true if the path was relative (started with "//"). */ bool BLI_path_abs(char *path, const char *basepath) { const bool wasrelative = BLI_path_is_rel(path); char tmp[FILE_MAX]; char base[FILE_MAX]; #ifdef WIN32 /* without this: "" --> "C:\" */ if (*path == '\0') { return wasrelative; } /* we are checking here if we have an absolute path that is not in the current * blend file as a lib main - we are basically checking for the case that a * UNIX root '/' is passed. */ if (!wasrelative && !BLI_path_is_abs(path)) { char *p = path; get_default_root(tmp); // get rid of the slashes at the beginning of the path while (*p == '\\' || *p == '/') { p++; } strcat(tmp, p); } else { BLI_strncpy(tmp, path, FILE_MAX); } #else BLI_strncpy(tmp, path, sizeof(tmp)); /* Check for loading a windows path on a posix system * in this case, there is no use in trying C:/ since it * will never exist on a unix os. * * Add a / prefix and lowercase the driveletter, remove the : * C:\foo.JPG -> /c/foo.JPG */ if (isalpha(tmp[0]) && tmp[1] == ':' && (tmp[2] == '\\' || tmp[2] == '/') ) { tmp[1] = tolower(tmp[0]); /* replace ':' with driveletter */ tmp[0] = '/'; /* '\' the slash will be converted later */ } #endif /* push slashes into unix mode - strings entering this part are * potentially messed up: having both back- and forward slashes. * Here we push into one conform direction, and at the end we * push them into the system specific dir. This ensures uniformity * of paths and solving some problems (and prevent potential future * ones) -jesterKing. * For UNC paths the first characters containing the UNC prefix * shouldn't be switched as we need to distinguish them from * paths relative to the .blend file -elubie */ BLI_str_replace_char(tmp + BLI_path_unc_prefix_len(tmp), '\\', '/'); /* Paths starting with // will get the blend file as their base, * this isn't standard in any os but is used in blender all over the place */ if (wasrelative) { const char *lslash; BLI_strncpy(base, basepath, sizeof(base)); /* file component is ignored, so don't bother with the trailing slash */ BLI_cleanup_path(NULL, base); lslash = BLI_last_slash(base); BLI_str_replace_char(base + BLI_path_unc_prefix_len(base), '\\', '/'); if (lslash) { const int baselen = (int) (lslash - base) + 1; /* length up to and including last "/" */ /* use path for temp storage here, we copy back over it right away */ BLI_strncpy(path, tmp + 2, FILE_MAX); /* strip "//" */ memcpy(tmp, base, baselen); /* prefix with base up to last "/" */ BLI_strncpy(tmp + baselen, path, sizeof(tmp) - baselen); /* append path after "//" */ BLI_strncpy(path, tmp, FILE_MAX); /* return as result */ } else { /* base doesn't seem to be a directory--ignore it and just strip "//" prefix on path */ BLI_strncpy(path, tmp + 2, FILE_MAX); } } else { /* base ignored */ BLI_strncpy(path, tmp, FILE_MAX); } #ifdef WIN32 /* skip first two chars, which in case of * absolute path will be drive:/blabla and * in case of relpath //blabla/. So relpath * // will be retained, rest will be nice and * shiny win32 backward slashes :) -jesterKing */ BLI_str_replace_char(path + 2, '/', '\\'); #endif /* ensure this is after correcting for path switch */ BLI_cleanup_path(NULL, path); return wasrelative; } /** * Expands path relative to the current working directory, if it was relative. * Returns true if such expansion was done. * * \note Should only be done with command line paths. * this is _not_ something blenders internal paths support like the "//" prefix */ bool BLI_path_cwd(char *path, const size_t maxlen) { bool wasrelative = true; const int filelen = strlen(path); #ifdef WIN32 if ((filelen >= 3 && BLI_path_is_abs(path)) || BLI_path_is_unc(path)) wasrelative = false; #else if (filelen >= 2 && path[0] == '/') wasrelative = false; #endif if (wasrelative) { char cwd[FILE_MAX]; /* in case the full path to the blend isn't used */ if (BLI_current_working_dir(cwd, sizeof(cwd))) { char origpath[FILE_MAX]; BLI_strncpy(origpath, path, FILE_MAX); BLI_join_dirfile(path, maxlen, cwd, origpath); } else { printf("Could not get the current working directory - $PWD for an unknown reason.\n"); } } return wasrelative; } #ifdef _WIN32 /** * Tries appending each of the semicolon-separated extensions in the PATHEXT * environment variable (Windows-only) onto *name in turn until such a file is found. * Returns success/failure. */ bool BLI_path_program_extensions_add_win32(char *name, const size_t maxlen) { bool retval = false; int type; type = BLI_exists(name); if ((type == 0) || S_ISDIR(type)) { /* typically 3-5, ".EXE", ".BAT"... etc */ const int ext_max = 12; const char *ext = getenv("PATHEXT"); if (ext) { const int name_len = strlen(name); char *filename = alloca(name_len + ext_max); char *filename_ext; const char *ext_next; /* null terminated in the loop */ memcpy(filename, name, name_len); filename_ext = filename + name_len; do { int ext_len; ext_next = strchr(ext, ';'); ext_len = ext_next ? ((ext_next++) - ext) : strlen(ext); if (LIKELY(ext_len < ext_max)) { memcpy(filename_ext, ext, ext_len); filename_ext[ext_len] = '\0'; type = BLI_exists(filename); if (type && (!S_ISDIR(type))) { retval = true; BLI_strncpy(name, filename, maxlen); break; } } } while ((ext = ext_next)); } } else { retval = true; } return retval; } #endif /* WIN32 */ /** * Search for a binary (executable) */ bool BLI_path_program_search( char *fullname, const size_t maxlen, const char *name) { const char *path; bool retval = false; #ifdef _WIN32 const char separator = ';'; #else const char separator = ':'; #endif path = getenv("PATH"); if (path) { char filename[FILE_MAX]; const char *temp; do { temp = strchr(path, separator); if (temp) { strncpy(filename, path, temp - path); filename[temp - path] = 0; path = temp + 1; } else { strncpy(filename, path, sizeof(filename)); } BLI_path_append(filename, maxlen, name); if ( #ifdef _WIN32 BLI_path_program_extensions_add_win32(filename, maxlen) #else BLI_exists(filename) #endif ) { BLI_strncpy(fullname, filename, maxlen); retval = true; break; } } while (temp); } if (retval == false) { *fullname = '\0'; } return retval; } /** * Sets the specified environment variable to the specified value, * and clears it if val == NULL. */ void BLI_setenv(const char *env, const char *val) { /* free windows */ #if (defined(WIN32) || defined(WIN64)) && defined(FREE_WINDOWS) char *envstr; if (val) envstr = BLI_sprintfN("%s=%s", env, val); else envstr = BLI_sprintfN("%s=", env); putenv(envstr); MEM_freeN(envstr); /* non-free windows */ #elif (defined(WIN32) || defined(WIN64)) /* not free windows */ uputenv(env, val); #else /* linux/osx/bsd */ if (val) setenv(env, val, 1); else unsetenv(env); #endif } /** * Only set an env var if already not there. * Like Unix setenv(env, val, 0); * * (not used anywhere). */ void BLI_setenv_if_new(const char *env, const char *val) { if (getenv(env) == NULL) BLI_setenv(env, val); } /** * Strips off nonexistent (or non-accessible) subdirectories from the end of *dir, leaving the path of * the lowest-level directory that does exist and we can read. */ void BLI_make_exist(char *dir) { bool valid_path = true; /* Loop as long as cur path is not a dir, and we can get a parent path. */ while ((BLI_access(dir, R_OK) != 0) && (valid_path = BLI_parent_dir(dir))); /* If we could not find an existing dir, use default root... */ if (!valid_path || !dir[0]) { #ifdef WIN32 get_default_root(dir); #else strcpy(dir, "/"); #endif } } /** * Ensures that the parent directory of *name exists. * * \return true on success (i.e. given path now exists on FS), false otherwise. */ bool BLI_make_existing_file(const char *name) { char di[FILE_MAX]; BLI_split_dir_part(name, di, sizeof(di)); /* make if the dir doesn't exist */ return BLI_dir_create_recursive(di); } /** * Returns in *string the concatenation of *dir and *file (also with *relabase on the * front if specified and *dir begins with "//"). Normalizes all occurrences of path * separators, including ensuring there is exactly one between the copies of *dir and *file, * and between the copies of *relabase and *dir. * * \param relabase Optional prefix to substitute for "//" on front of *dir * \param string Area to return result */ void BLI_make_file_string(const char *relabase, char *string, const char *dir, const char *file) { int sl; if (string) { /* ensure this is always set even if dir/file are NULL */ string[0] = '\0'; if (ELEM(NULL, dir, file)) { return; /* We don't want any NULLs */ } } else { return; /* string is NULL, probably shouldnt happen but return anyway */ } /* we first push all slashes into unix mode, just to make sure we don't get * any mess with slashes later on. -jesterKing */ /* constant strings can be passed for those parameters - don't change them - elubie */ #if 0 BLI_str_replace_char(relabase, '\\', '/'); BLI_str_replace_char(dir, '\\', '/'); BLI_str_replace_char(file, '\\', '/'); #endif /* Resolve relative references */ if (relabase && dir[0] == '/' && dir[1] == '/') { char *lslash; /* Get the file name, chop everything past the last slash (ie. the filename) */ strcpy(string, relabase); lslash = (char *)BLI_last_slash(string); if (lslash) *(lslash + 1) = 0; dir += 2; /* Skip over the relative reference */ } #ifdef WIN32 else { if (BLI_strnlen(dir, 3) >= 2 && dir[1] == ':') { BLI_strncpy(string, dir, 3); dir += 2; } else if (BLI_strnlen(dir, 3) >= 2 && BLI_path_is_unc(dir)) { string[0] = 0; } else { /* no drive specified */ /* first option: get the drive from the relabase if it has one */ if (relabase && BLI_strnlen(relabase, 3) >= 2 && relabase[1] == ':') { BLI_strncpy(string, relabase, 3); string[2] = '\\'; string[3] = '\0'; } else { /* we're out of luck here, guessing the first valid drive, usually c:\ */ get_default_root(string); } /* ignore leading slashes */ while (*dir == '/' || *dir == '\\') dir++; } } #endif strcat(string, dir); /* Make sure string ends in one (and only one) slash */ /* first trim all slashes from the end of the string */ sl = strlen(string); while (sl > 0 && (string[sl - 1] == '/' || string[sl - 1] == '\\') ) { string[sl - 1] = '\0'; sl--; } /* since we've now removed all slashes, put back one slash at the end. */ strcat(string, "/"); while (*file && (*file == '/' || *file == '\\')) /* Trim slashes from the front of file */ file++; strcat(string, file); /* Push all slashes to the system preferred direction */ BLI_path_native_slash(string); } static bool testextensie_ex(const char *str, const size_t str_len, const char *ext, const size_t ext_len) { BLI_assert(strlen(str) == str_len); BLI_assert(strlen(ext) == ext_len); return (((str_len == 0 || ext_len == 0 || ext_len >= str_len) == 0) && (BLI_strcasecmp(ext, str + str_len - ext_len) == 0)); } /* does str end with ext. */ bool BLI_testextensie(const char *str, const char *ext) { return testextensie_ex(str, strlen(str), ext, strlen(ext)); } bool BLI_testextensie_n(const char *str, ...) { const size_t str_len = strlen(str); va_list args; const char *ext; bool ret = false; va_start(args, str); while ((ext = (const char *) va_arg(args, void *))) { if (testextensie_ex(str, str_len, ext, strlen(ext))) { ret = true; break; } } va_end(args); return ret; } /* does str end with any of the suffixes in *ext_array. */ bool BLI_testextensie_array(const char *str, const char **ext_array) { const size_t str_len = strlen(str); int i = 0; while (ext_array[i]) { if (testextensie_ex(str, str_len, ext_array[i], strlen(ext_array[i]))) { return true; } i++; } return false; } /** * Semicolon separated wildcards, eg: * '*.zip;*.py;*.exe' * does str match any of the semicolon-separated glob patterns in fnmatch. */ bool BLI_testextensie_glob(const char *str, const char *ext_fnmatch) { const char *ext_step = ext_fnmatch; char pattern[16]; while (ext_step[0]) { const char *ext_next; size_t len_ext; if ((ext_next = strchr(ext_step, ';'))) { len_ext = ext_next - ext_step + 1; BLI_strncpy(pattern, ext_step, (len_ext > sizeof(pattern)) ? sizeof(pattern) : len_ext); } else { len_ext = BLI_strncpy_rlen(pattern, ext_step, sizeof(pattern)); } if (fnmatch(pattern, str, FNM_CASEFOLD) == 0) { return true; } ext_step += len_ext; } return false; } /** * Removes any existing extension on the end of \a path and appends \a ext. * \return false if there was no room. */ bool BLI_replace_extension(char *path, size_t maxlen, const char *ext) { const size_t path_len = strlen(path); const size_t ext_len = strlen(ext); ssize_t a; for (a = path_len - 1; a >= 0; a--) { if (ELEM(path[a], '.', '/', '\\')) { break; } } if ((a < 0) || (path[a] != '.')) { a = path_len; } if (a + ext_len >= maxlen) return false; memcpy(path + a, ext, ext_len + 1); return true; } /** * Strip's trailing '.'s and adds the extension only when needed */ bool BLI_ensure_extension(char *path, size_t maxlen, const char *ext) { const size_t path_len = strlen(path); const size_t ext_len = strlen(ext); ssize_t a; /* first check the extension is already there */ if ((ext_len <= path_len) && (STREQ(path + (path_len - ext_len), ext))) { return true; } for (a = path_len - 1; a >= 0; a--) { if (path[a] == '.') { path[a] = '\0'; } else { break; } } a++; if (a + ext_len >= maxlen) return false; memcpy(path + a, ext, ext_len + 1); return true; } bool BLI_ensure_filename(char *filepath, size_t maxlen, const char *filename) { char *c = (char *)BLI_last_slash(filepath); if (!c || ((c - filepath) < maxlen - (strlen(filename) + 1))) { strcpy(c ? &c[1] : filepath, filename); return true; } return false; } /* Converts "/foo/bar.txt" to "/foo/" and "bar.txt" * - wont change 'string' * - wont create any directories * - dosnt use CWD, or deal with relative paths. * - Only fill's in *dir and *file when they are non NULL * */ void BLI_split_dirfile(const char *string, char *dir, char *file, const size_t dirlen, const size_t filelen) { const char *lslash_str = BLI_last_slash(string); const size_t lslash = lslash_str ? (size_t)(lslash_str - string) + 1 : 0; if (dir) { if (lslash) { BLI_strncpy(dir, string, MIN2(dirlen, lslash + 1)); /* +1 to include the slash and the last char */ } else { dir[0] = '\0'; } } if (file) { BLI_strncpy(file, string + lslash, filelen); } } /** * Copies the parent directory part of string into *dir, max length dirlen. */ void BLI_split_dir_part(const char *string, char *dir, const size_t dirlen) { BLI_split_dirfile(string, dir, NULL, dirlen, 0); } /** * Copies the leaf filename part of string into *file, max length filelen. */ void BLI_split_file_part(const char *string, char *file, const size_t filelen) { BLI_split_dirfile(string, NULL, file, 0, filelen); } /** * Append a filename to a dir, ensuring slash separates. */ void BLI_path_append(char *__restrict dst, const size_t maxlen, const char *__restrict file) { size_t dirlen = BLI_strnlen(dst, maxlen); /* inline BLI_add_slash */ if ((dirlen > 0) && (dst[dirlen - 1] != SEP)) { dst[dirlen++] = SEP; dst[dirlen] = '\0'; } if (dirlen >= maxlen) { return; /* fills the path */ } BLI_strncpy(dst + dirlen, file, maxlen - dirlen); } /** * Simple appending of filename to dir, does not check for valid path! * Puts result into *dst, which may be same area as *dir. */ void BLI_join_dirfile(char *__restrict dst, const size_t maxlen, const char *__restrict dir, const char *__restrict file) { size_t dirlen = BLI_strnlen(dir, maxlen); /* args can't match */ BLI_assert(!ELEM(dst, dir, file)); if (dirlen == maxlen) { memcpy(dst, dir, dirlen); dst[dirlen - 1] = '\0'; return; /* dir fills the path */ } else { memcpy(dst, dir, dirlen + 1); } if (dirlen + 1 >= maxlen) { return; /* fills the path */ } /* inline BLI_add_slash */ if ((dirlen > 0) && !ELEM(dst[dirlen - 1], SEP, ALTSEP)) { dst[dirlen++] = SEP; dst[dirlen] = '\0'; } if (dirlen >= maxlen) { return; /* fills the path */ } BLI_strncpy(dst + dirlen, file, maxlen - dirlen); } /** * Join multiple strings into a path, ensuring only a single path separator between each, * and trailing slash is kept. * * \note If you want a trailing slash, add ``SEP_STR`` as the last path argument, * duplicate slashes will be cleaned up. */ size_t BLI_path_join(char *__restrict dst, const size_t dst_len, const char *path, ...) { if (UNLIKELY(dst_len == 0)) { return 0; } const size_t dst_last = dst_len - 1; size_t ofs = BLI_strncpy_rlen(dst, path, dst_len); if (ofs == dst_last) { return ofs; } /* remove trailing slashes, unless there are _only_ trailing slashes * (allow "//" as the first argument). */ bool has_trailing_slash = false; if (ofs != 0) { size_t len = ofs; while ((len != 0) && ELEM(path[len - 1], SEP, ALTSEP)) { len -= 1; } if (len != 0) { ofs = len; } has_trailing_slash = (path[len] != '\0'); } va_list args; va_start(args, path); while ((path = (const char *) va_arg(args, const char *))) { has_trailing_slash = false; const char *path_init = path; while (ELEM(path[0], SEP, ALTSEP)) { path++; } size_t len = strlen(path); if (len != 0) { while ((len != 0) && ELEM(path[len - 1], SEP, ALTSEP)) { len -= 1; } if (len != 0) { /* the very first path may have a slash at the end */ if (ofs && !ELEM(dst[ofs - 1], SEP, ALTSEP)) { dst[ofs++] = SEP; if (ofs == dst_last) { break; } } has_trailing_slash = (path[len] != '\0'); if (ofs + len >= dst_last) { len = dst_last - ofs; } memcpy(&dst[ofs], path, len); ofs += len; if (ofs == dst_last) { break; } } } else { has_trailing_slash = (path_init != path); } } va_end(args); if (has_trailing_slash) { if ((ofs != dst_last) && (ofs != 0) && (ELEM(dst[ofs - 1], SEP, ALTSEP) == 0)) { dst[ofs++] = SEP; } } BLI_assert(ofs <= dst_last); dst[ofs] = '\0'; return ofs; } /** * like pythons os.path.basename() * * \return The pointer into \a path string immediately after last slash, * or start of \a path if none found. */ const char *BLI_path_basename(const char *path) { const char * const filename = BLI_last_slash(path); return filename ? filename + 1 : path; } /** * Get an element of the path at an index, eg: * "/some/path/file.txt" where an index of... * - 0 or -3: "some" * - 1 or -2: "path" * - 2 or -1: "file.txt" * * Ignores multiple slashes at any point in the path (including start/end). */ bool BLI_path_name_at_index(const char *path, const int index, int *r_offset, int *r_len) { if (index >= 0) { int index_step = 0; int prev = -1; int i = 0; while (true) { const char c = path[i]; if (ELEM(c, SEP, ALTSEP, '\0')) { if (prev + 1 != i) { prev += 1; if (index_step == index) { *r_offset = prev; *r_len = i - prev; /* printf("!!! %d %d\n", start, end); */ return true; } index_step += 1; } if (c == '\0') { break; } prev = i; } i += 1; } return false; } else { /* negative number, reverse where -1 is the last element */ int index_step = -1; int prev = strlen(path); int i = prev - 1; while (true) { const char c = i >= 0 ? path[i] : '\0'; if (ELEM(c, SEP, ALTSEP, '\0')) { if (prev - 1 != i) { i += 1; if (index_step == index) { *r_offset = i; *r_len = prev - i; return true; } index_step -= 1; } if (c == '\0') { break; } prev = i; } i -= 1; } return false; } } /* UNUSED */ #if 0 /** * Produce image export path. * * Returns: * 0 if image filename is empty or if destination path * matches image path (i.e. both are the same file). * 2 if source is identical to destination. * 1 if rebase was successful * ------------------------------------------------------------- * Hint: Trailing slash in dest_dir is optional. * * Logic: * * - if an image is "below" current .blend file directory: * rebuild the same dir structure in dest_dir * * Example: * src : //textures/foo/bar.png * dest: [dest_dir]/textures/foo/bar.png. * * - if an image is not "below" current .blend file directory, * disregard it's path and copy it into the destination * directory. * * Example: * src : //../foo/bar.png becomes * dest: [dest_dir]/bar.png. * * This logic ensures that all image paths are relative and * that a user gets his images in one place. It'll also provide * consistent behavior across exporters. * IMPORTANT NOTE: If base_dir contains an empty string, then * this function returns wrong results! * XXX: test on empty base_dir and return an error ? */ /** * * \param abs Optional string to return new full path * \param abs_len Size of *abs string * \param rel Optional area to return new path relative to parent directory of .blend file * (only meaningful if item is in a subdirectory thereof) * \param rel_len Size of *rel area * \param base_dir Path of .blend file * \param src_dir Original path of item (any initial "//" will be expanded to * parent directory of .blend file) * \param dest_dir New directory into which item will be moved * \return bli_rebase_state * * \note Not actually used anywhere! */ int BLI_rebase_path(char *abs, size_t abs_len, char *rel, size_t rel_len, const char *base_dir, const char *src_dir, const char *dest_dir) { char path[FILE_MAX]; /* original full path of item */ char dir[FILE_MAX]; /* directory part of src_dir */ char base[FILE_MAX]; /* basename part of src_dir */ char blend_dir[FILE_MAX]; /* directory, where current .blend file resides */ char dest_path[FILE_MAX]; char rel_dir[FILE_MAX]; int len; if (abs) abs[0] = 0; if (rel) rel[0] = 0; BLI_split_dir_part(base_dir, blend_dir, sizeof(blend_dir)); if (src_dir[0] == '\0') return BLI_REBASE_NO_SRCDIR; BLI_strncpy(path, src_dir, sizeof(path)); /* expand "//" in filename and get absolute path */ BLI_path_abs(path, base_dir); /* get the directory part */ BLI_split_dirfile(path, dir, base, sizeof(dir), sizeof(base)); len = strlen(blend_dir); rel_dir[0] = 0; /* if image is "below" current .blend file directory */ if (!BLI_path_ncmp(path, blend_dir, len)) { if (BLI_path_cmp(dir, blend_dir) == 0) { /* image is directly in .blend file parent directory => put directly in dest_dir */ BLI_join_dirfile(dest_path, sizeof(dest_path), dest_dir, base); } else { /* "below" (in subdirectory of .blend file parent directory) => put in same relative directory structure in dest_dir */ /* rel = image_path_dir - blend_dir */ BLI_strncpy(rel_dir, dir + len, sizeof(rel_dir)); /* subdirectories relative to blend_dir */ BLI_join_dirfile(dest_path, sizeof(dest_path), dest_dir, rel_dir); /* same subdirectories relative to dest_dir */ BLI_path_append(dest_path, sizeof(dest_path), base); /* keeping original item basename */ } } /* image is out of current directory -- just put straight in dest_dir */ else { BLI_join_dirfile(dest_path, sizeof(dest_path), dest_dir, base); } if (abs) BLI_strncpy(abs, dest_path, abs_len); if (rel) { strncat(rel, rel_dir, rel_len); strncat(rel, base, rel_len); /* FIXME: could overflow rel area! */ } /* return 2 if (src == dest) */ if (BLI_path_cmp(path, dest_path) == 0) { // if (G.debug & G_DEBUG) printf("%s and %s are the same file\n", path, dest_path); return BLI_REBASE_IDENTITY; } return BLI_REBASE_OK; } #endif /** * Returns pointer to the leftmost path separator in string. Not actually used anywhere. */ const char *BLI_first_slash(const char *string) { const char * const ffslash = strchr(string, '/'); const char * const fbslash = strchr(string, '\\'); if (!ffslash) return fbslash; else if (!fbslash) return ffslash; return (ffslash < fbslash) ? ffslash : fbslash; } /** * Returns pointer to the rightmost path separator in string. */ const char *BLI_last_slash(const char *string) { const char * const lfslash = strrchr(string, '/'); const char * const lbslash = strrchr(string, '\\'); if (!lfslash) return lbslash; else if (!lbslash) return lfslash; return (lfslash > lbslash) ? lfslash : lbslash; } /** * Appends a slash to string if there isn't one there already. * Returns the new length of the string. */ int BLI_add_slash(char *string) { int len = strlen(string); if (len == 0 || string[len - 1] != SEP) { string[len] = SEP; string[len + 1] = '\0'; return len + 1; } return len; } /** * Removes the last slash and everything after it to the end of string, if there is one. */ void BLI_del_slash(char *string) { int len = strlen(string); while (len) { if (string[len - 1] == SEP) { string[len - 1] = '\0'; len--; } else { break; } } } /** * Changes to the path separators to the native ones for this OS. */ void BLI_path_native_slash(char *path) { #ifdef WIN32 if (path && BLI_strnlen(path, 3) > 2) { BLI_str_replace_char(path + 2, '/', '\\'); } #else BLI_str_replace_char(path + BLI_path_unc_prefix_len(path), '\\', '/'); #endif }