/* SPDX-License-Identifier: LGPL-2.1-or-later */ #pragma once #include #include #include #include #include #include "alloc-util.h" #include "extract-word.h" #include "hashmap.h" #include "macro.h" #include "string-util.h" char* strv_find(char * const *l, const char *name) _pure_; char* strv_find_case(char * const *l, const char *name) _pure_; char* strv_find_prefix(char * const *l, const char *name) _pure_; char* strv_find_startswith(char * const *l, const char *name) _pure_; /* Given two vectors, the first a list of keys and the second a list of key-value pairs, returns the value * of the first key from the first vector that is found in the second vector. */ char* strv_find_first_field(char * const *needles, char * const *haystack) _pure_; #define strv_contains(l, s) (!!strv_find((l), (s))) #define strv_contains_case(l, s) (!!strv_find_case((l), (s))) char** strv_free(char **l); DEFINE_TRIVIAL_CLEANUP_FUNC(char**, strv_free); #define _cleanup_strv_free_ _cleanup_(strv_freep) char** strv_free_erase(char **l); DEFINE_TRIVIAL_CLEANUP_FUNC(char**, strv_free_erase); #define _cleanup_strv_free_erase_ _cleanup_(strv_free_erasep) char** strv_copy_n(char * const *l, size_t n); static inline char** strv_copy(char * const *l) { return strv_copy_n(l, SIZE_MAX); } size_t strv_length(char * const *l) _pure_; int strv_extend_strv(char ***a, char * const *b, bool filter_duplicates); int strv_extend_strv_concat(char ***a, char * const *b, const char *suffix); int strv_prepend(char ***l, const char *value); /* _with_size() are lower-level functions where the size can be provided externally, * which allows us to skip iterating over the strv to find the end, which saves * a bit of time and reduces the complexity of appending from O(n²) to O(n). */ int strv_extend_with_size(char ***l, size_t *n, const char *value); static inline int strv_extend(char ***l, const char *value) { return strv_extend_with_size(l, NULL, value); } int strv_extendf(char ***l, const char *format, ...) _printf_(2,3); int strv_extend_front(char ***l, const char *value); int strv_push_with_size(char ***l, size_t *n, char *value); static inline int strv_push(char ***l, char *value) { return strv_push_with_size(l, NULL, value); } int strv_push_pair(char ***l, char *a, char *b); int strv_insert(char ***l, size_t position, char *value); static inline int strv_push_prepend(char ***l, char *value) { return strv_insert(l, 0, value); } int strv_consume_with_size(char ***l, size_t *n, char *value); static inline int strv_consume(char ***l, char *value) { return strv_consume_with_size(l, NULL, value); } int strv_consume_pair(char ***l, char *a, char *b); int strv_consume_prepend(char ***l, char *value); char** strv_remove(char **l, const char *s); char** strv_uniq(char **l); bool strv_is_uniq(char * const *l); int strv_compare(char * const *a, char * const *b); static inline bool strv_equal(char * const *a, char * const *b) { return strv_compare(a, b) == 0; } char** strv_new_internal(const char *x, ...) _sentinel_; char** strv_new_ap(const char *x, va_list ap); #define strv_new(...) strv_new_internal(__VA_ARGS__, NULL) #define STRV_IGNORE ((const char *) POINTER_MAX) static inline const char* STRV_IFNOTNULL(const char *x) { return x ?: STRV_IGNORE; } static inline bool strv_isempty(char * const *l) { return !l || !*l; } int strv_split_full(char ***t, const char *s, const char *separators, ExtractFlags flags); static inline char** strv_split(const char *s, const char *separators) { char **ret; if (strv_split_full(&ret, s, separators, EXTRACT_RETAIN_ESCAPE) < 0) return NULL; return ret; } int strv_split_and_extend_full(char ***t, const char *s, const char *separators, bool filter_duplicates, ExtractFlags flags); #define strv_split_and_extend(t, s, sep, dup) strv_split_and_extend_full(t, s, sep, dup, 0) int strv_split_newlines_full(char ***ret, const char *s, ExtractFlags flags); static inline char** strv_split_newlines(const char *s) { char **ret; if (strv_split_newlines_full(&ret, s, 0) < 0) return NULL; return ret; } /* Given a string containing white-space separated tuples of words themselves separated by ':', * returns a vector of strings. If the second element in a tuple is missing, the corresponding * string in the vector is an empty string. */ int strv_split_colon_pairs(char ***t, const char *s); char* strv_join_full(char * const *l, const char *separator, const char *prefix, bool escape_separator); static inline char *strv_join(char * const *l, const char *separator) { return strv_join_full(l, separator, NULL, false); } bool strv_overlap(char * const *a, char * const *b) _pure_; #define _STRV_FOREACH_BACKWARDS(s, l, h, i) \ for (typeof(*(l)) *s, *h = (l), *i = ({ \ size_t _len = strv_length(h); \ _len > 0 ? h + _len - 1 : NULL; \ }); \ (s = i); \ i = PTR_SUB1(i, h)) #define STRV_FOREACH_BACKWARDS(s, l) \ _STRV_FOREACH_BACKWARDS(s, l, UNIQ_T(h, UNIQ), UNIQ_T(i, UNIQ)) #define _STRV_FOREACH_PAIR(x, y, l, i) \ for (typeof(*l) *x, *y, *i = (l); \ i && *(x = i) && *(y = i + 1); \ i += 2) #define STRV_FOREACH_PAIR(x, y, l) \ _STRV_FOREACH_PAIR(x, y, l, UNIQ_T(i, UNIQ)) char** strv_sort(char **l); void strv_print_full(char * const *l, const char *prefix); static inline void strv_print(char * const *l) { strv_print_full(l, NULL); } #define strv_from_stdarg_alloca(first) \ ({ \ char **_l; \ \ if (!first) \ _l = (char**) &first; \ else { \ size_t _n; \ va_list _ap; \ \ _n = 1; \ va_start(_ap, first); \ while (va_arg(_ap, char*)) \ _n++; \ va_end(_ap); \ \ _l = newa(char*, _n+1); \ _l[_n = 0] = (char*) first; \ va_start(_ap, first); \ for (;;) { \ _l[++_n] = va_arg(_ap, char*); \ if (!_l[_n]) \ break; \ } \ va_end(_ap); \ } \ _l; \ }) #define STR_IN_SET(x, ...) strv_contains(STRV_MAKE(__VA_ARGS__), x) #define STRPTR_IN_SET(x, ...) \ ({ \ const char* _x = (x); \ _x && strv_contains(STRV_MAKE(__VA_ARGS__), _x); \ }) #define STRCASE_IN_SET(x, ...) strv_contains_case(STRV_MAKE(__VA_ARGS__), x) #define STRCASEPTR_IN_SET(x, ...) \ ({ \ const char* _x = (x); \ _x && strv_contains_case(STRV_MAKE(__VA_ARGS__), _x); \ }) #define ENDSWITH_SET(p, ...) \ ({ \ const char *_p = (p); \ char *_found = NULL; \ STRV_FOREACH(_i, STRV_MAKE(__VA_ARGS__)) { \ _found = endswith(_p, *_i); \ if (_found) \ break; \ } \ _found; \ }) #define _FOREACH_STRING(uniq, x, y, ...) \ for (const char *x, * const*UNIQ_T(l, uniq) = STRV_MAKE_CONST(({ x = y; }), ##__VA_ARGS__); \ x; \ x = *(++UNIQ_T(l, uniq))) #define FOREACH_STRING(x, y, ...) \ _FOREACH_STRING(UNIQ, x, y, ##__VA_ARGS__) char** strv_reverse(char **l); char** strv_shell_escape(char **l, const char *bad); bool strv_fnmatch_full(char* const* patterns, const char *s, int flags, size_t *ret_matched_pos); static inline bool strv_fnmatch(char* const* patterns, const char *s) { return strv_fnmatch_full(patterns, s, 0, NULL); } static inline bool strv_fnmatch_or_empty(char* const* patterns, const char *s, int flags) { assert(s); return strv_isempty(patterns) || strv_fnmatch_full(patterns, s, flags, NULL); } char** strv_skip(char **l, size_t n); int strv_extend_n(char ***l, const char *value, size_t n); int strv_extend_assignment(char ***l, const char *lhs, const char *rhs); int fputstrv(FILE *f, char * const *l, const char *separator, bool *space); #define strv_free_and_replace(a, b) \ free_and_replace_full(a, b, strv_free) extern const struct hash_ops string_strv_hash_ops; int _string_strv_hashmap_put(Hashmap **h, const char *key, const char *value HASHMAP_DEBUG_PARAMS); int _string_strv_ordered_hashmap_put(OrderedHashmap **h, const char *key, const char *value HASHMAP_DEBUG_PARAMS); #define string_strv_hashmap_put(h, k, v) _string_strv_hashmap_put(h, k, v HASHMAP_DEBUG_SRC_ARGS) #define string_strv_ordered_hashmap_put(h, k, v) _string_strv_ordered_hashmap_put(h, k, v HASHMAP_DEBUG_SRC_ARGS)