2010-01-09 01:45:08 +03:00
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#ifndef STRING_LIST_H
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#define STRING_LIST_H
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2008-07-21 22:03:49 +04:00
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2017-09-26 14:21:50 +03:00
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/**
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* The string_list API offers a data structure and functions to handle
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* sorted and unsorted arrays of strings. A "sorted" list is one whose
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2020-01-07 18:07:30 +03:00
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* entries are sorted by string value in the order specified by the `cmp`
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* member (`strcmp()` by default).
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2017-09-26 14:21:50 +03:00
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*
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* The caller:
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*
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* . Allocates and clears a `struct string_list` variable.
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*
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* . Initializes the members. You might want to set the flag `strdup_strings`
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* if the strings should be strdup()ed. For example, this is necessary
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* when you add something like git_path("..."), since that function returns
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* a static buffer that will change with the next call to git_path().
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*
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* If you need something advanced, you can manually malloc() the `items`
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* member (you need this if you add things later) and you should set the
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* `nr` and `alloc` members in that case, too.
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*
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* . Adds new items to the list, using `string_list_append`,
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* `string_list_append_nodup`, `string_list_insert`,
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* `string_list_split`, and/or `string_list_split_in_place`.
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*
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* . Can check if a string is in the list using `string_list_has_string` or
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* `unsorted_string_list_has_string` and get it from the list using
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* `string_list_lookup` for sorted lists.
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*
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* . Can sort an unsorted list using `string_list_sort`.
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*
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* . Can remove duplicate items from a sorted list using
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* `string_list_remove_duplicates`.
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*
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* . Can remove individual items of an unsorted list using
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* `unsorted_string_list_delete_item`.
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*
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* . Can remove items not matching a criterion from a sorted or unsorted
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* list using `filter_string_list`, or remove empty strings using
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* `string_list_remove_empty_items`.
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*
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* . Finally it should free the list using `string_list_clear`.
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*
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* Example:
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*
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* struct string_list list = STRING_LIST_INIT_NODUP;
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* int i;
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*
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* string_list_append(&list, "foo");
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* string_list_append(&list, "bar");
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* for (i = 0; i < list.nr; i++)
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* printf("%s\n", list.items[i].string)
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*
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* NOTE: It is more efficient to build an unsorted list and sort it
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* afterwards, instead of building a sorted list (`O(n log n)` instead of
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* `O(n^2)`).
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*
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* However, if you use the list to check if a certain string was added
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* already, you should not do that (using unsorted_string_list_has_string()),
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* because the complexity would be quadratic again (but with a worse factor).
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*/
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/**
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* Represents an item of the list. The `string` member is a pointer to the
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* string, and you may use the `util` member for any purpose, if you want.
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*/
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2008-07-21 22:03:49 +04:00
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struct string_list_item {
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char *string;
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void *util;
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};
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2013-01-08 00:24:55 +04:00
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typedef int (*compare_strings_fn)(const char *, const char *);
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2017-09-26 14:21:50 +03:00
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/**
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* Represents the list itself.
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*
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* . The array of items are available via the `items` member.
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* . The `nr` member contains the number of items stored in the list.
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* . The `alloc` member is used to avoid reallocating at every insertion.
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* You should not tamper with it.
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* . Setting the `strdup_strings` member to 1 will strdup() the strings
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* before adding them, see above.
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* . The `compare_strings_fn` member is used to specify a custom compare
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* function, otherwise `strcmp()` is used as the default function.
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*/
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2011-03-16 10:08:34 +03:00
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struct string_list {
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2008-07-21 22:03:49 +04:00
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struct string_list_item *items;
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2022-03-07 18:27:08 +03:00
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size_t nr;
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size_t alloc;
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2008-07-21 22:03:49 +04:00
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unsigned int strdup_strings:1;
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2013-01-08 00:24:55 +04:00
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compare_strings_fn cmp; /* NULL uses strcmp() */
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2008-07-21 22:03:49 +04:00
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};
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2021-07-01 13:51:25 +03:00
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#define STRING_LIST_INIT_NODUP { 0 }
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#define STRING_LIST_INIT_DUP { .strdup_strings = 1 }
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2010-07-04 23:46:19 +04:00
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2017-09-26 14:21:50 +03:00
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/* General functions which work with both sorted and unsorted lists. */
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/**
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string-list.[ch]: add a string_list_init_{nodup,dup}()
In order to use the new "memcpy() a 'blank' struct on the stack"
pattern for string_list_init(), and to make the macro initialization
consistent with the function initialization introduce two new
string_list_init_{nodup,dup}() functions. These are like the old
string_list_init() when called with a false and true second argument,
respectively.
I think this not only makes things more consistent, but also easier to
read. I often had to lookup what the ", 0)" or ", 1)" in these
invocations meant, now it's right there in the function name, and
corresponds to the macros.
A subsequent commit will convert existing API users to this pattern,
but as this is a very common API let's leave a compatibility function
in place for later removal. This intermediate state also proves that
the compatibility function works.
Signed-off-by: Ævar Arnfjörð Bjarmason <avarab@gmail.com>
Signed-off-by: Junio C Hamano <gitster@pobox.com>
2021-07-01 13:51:28 +03:00
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* Initialize the members of a string_list pointer in the same way as
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* the corresponding `STRING_LIST_INIT_NODUP` and
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* `STRING_LIST_INIT_DUP` macros.
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*/
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void string_list_init_nodup(struct string_list *list);
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void string_list_init_dup(struct string_list *list);
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2017-09-26 14:21:50 +03:00
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/** Callback function type for for_each_string_list */
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typedef int (*string_list_each_func_t)(struct string_list_item *, void *);
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/**
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* Apply `want` to each item in `list`, retaining only the ones for which
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* the function returns true. If `free_util` is true, call free() on
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* the util members of any items that have to be deleted. Preserve
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* the order of the items that are retained.
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*/
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void filter_string_list(struct string_list *list, int free_util,
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string_list_each_func_t want, void *cb_data);
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/**
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* Free a string_list. The `string` pointer of the items will be freed
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* in case the `strdup_strings` member of the string_list is set. The
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* second parameter controls if the `util` pointer of the items should
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* be freed or not.
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*/
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2008-07-21 22:03:49 +04:00
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void string_list_clear(struct string_list *list, int free_util);
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2017-09-26 14:21:50 +03:00
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/**
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* Callback type for `string_list_clear_func`. The string associated
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* with the util pointer is passed as the second argument
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*/
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2009-02-08 17:34:28 +03:00
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typedef void (*string_list_clear_func_t)(void *p, const char *str);
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2017-09-26 14:21:50 +03:00
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/** Call a custom clear function on each util pointer */
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2009-02-08 17:34:28 +03:00
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void string_list_clear_func(struct string_list *list, string_list_clear_func_t clearfunc);
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string-list: introduce `string_list_setlen()`
It is sometimes useful to reduce the size of a `string_list`'s list of
items without having to re-allocate them. For example, doing the
following:
struct strbuf buf = STRBUF_INIT;
struct string_list parts = STRING_LIST_INIT_NO_DUP;
while (strbuf_getline(&buf, stdin) != EOF) {
parts.nr = 0;
string_list_split_in_place(&parts, buf.buf, ":", -1);
/* ... */
}
string_list_clear(&parts, 0);
is preferable over calling `string_list_clear()` on every iteration of
the loop. This is because `string_list_clear()` causes us free our
existing `items` array. This means that every time we call
`string_list_split_in_place()`, the string-list internals re-allocate
the same size array.
Since in the above example we do not care about the individual parts
after processing each line, it is much more efficient to pretend that
there aren't any elements in the `string_list` by setting `list->nr` to
0 while leaving the list of elements allocated as-is.
This allows `string_list_split_in_place()` to overwrite any existing
entries without needing to free and re-allocate them.
However, setting `list->nr` manually is not safe in all instances. There
are a couple of cases worth worrying about:
- If the `string_list` is initialized with `strdup_strings`,
truncating the list can lead to overwriting strings which are
allocated elsewhere. If there aren't any other pointers to those
strings other than the ones inside of the `items` array, they will
become unreachable and leak.
(We could ourselves free the truncated items between
string_list->items[nr] and `list->nr`, but no present or future
callers would benefit from this additional complexity).
- If the given `nr` is larger than the current value of `list->nr`,
we'll trick the `string_list` into a state where it thinks there are
more items allocated than there actually are, which can lead to
undefined behavior if we try to read or write those entries.
Guard against both of these by introducing a helper function which
guards assignment of `list->nr` against each of the above conditions.
Co-authored-by: Jeff King <peff@peff.net>
Signed-off-by: Jeff King <peff@peff.net>
Signed-off-by: Taylor Blau <me@ttaylorr.com>
Signed-off-by: Junio C Hamano <gitster@pobox.com>
2023-04-25 01:20:14 +03:00
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/*
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* Set the length of a string_list to `nr`, provided that (a) `list`
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* does not own its own storage, and (b) that `nr` is no larger than
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* `list->nr`.
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*
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* Useful when "shrinking" `list` to write over existing entries that
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* are no longer used without reallocating.
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*/
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void string_list_setlen(struct string_list *list, size_t nr);
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2017-09-26 14:21:50 +03:00
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/**
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* Apply `func` to each item. If `func` returns nonzero, the
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* iteration aborts and the return value is propagated.
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*/
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2010-06-26 03:41:34 +04:00
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int for_each_string_list(struct string_list *list,
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2017-09-26 14:21:50 +03:00
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string_list_each_func_t func, void *cb_data);
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2022-09-27 16:57:01 +03:00
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/**
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* Iterate over each item, as a macro.
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*
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* Be sure that 'list' is non-NULL. The macro cannot perform NULL
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* checks due to -Werror=address errors.
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*/
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2017-09-20 08:27:05 +03:00
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#define for_each_string_list_item(item,list) \
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for (item = (list)->items; \
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item && item < (list)->items + (list)->nr; \
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++item)
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2009-02-25 11:32:18 +03:00
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2017-09-26 14:21:50 +03:00
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/**
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2012-11-04 11:07:06 +04:00
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* Remove any empty strings from the list. If free_util is true, call
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* free() on the util members of any items that have to be deleted.
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* Preserve the order of the items that are retained.
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*/
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void string_list_remove_empty_items(struct string_list *list, int free_util);
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2008-07-21 22:03:49 +04:00
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/* Use these functions only on sorted lists: */
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2017-09-26 14:21:50 +03:00
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/** Determine if the string_list has a given string or not. */
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2008-07-21 22:03:49 +04:00
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int string_list_has_string(const struct string_list *list, const char *string);
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2009-02-08 17:34:28 +03:00
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int string_list_find_insert_index(const struct string_list *list, const char *string,
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int negative_existing_index);
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2017-09-26 14:21:50 +03:00
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/**
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* Insert a new element to the string_list. The returned pointer can
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* be handy if you want to write something to the `util` pointer of
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* the string_list_item containing the just added string. If the given
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* string already exists the insertion will be skipped and the pointer
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* to the existing item returned.
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*
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* Since this function uses xrealloc() (which die()s if it fails) if the
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* list needs to grow, it is safe not to check the pointer. I.e. you may
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* write `string_list_insert(...)->util = ...;`.
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2014-11-25 00:22:02 +03:00
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*/
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2010-06-26 03:41:35 +04:00
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struct string_list_item *string_list_insert(struct string_list *list, const char *string);
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2014-11-25 00:22:02 +03:00
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2017-09-26 14:21:50 +03:00
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/**
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* Remove the given string from the sorted list. If the string
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* doesn't exist, the list is not altered.
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2017-04-20 02:13:21 +03:00
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*/
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2019-04-29 11:28:14 +03:00
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void string_list_remove(struct string_list *list, const char *string,
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2019-04-29 11:28:23 +03:00
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int free_util);
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2017-04-20 02:13:21 +03:00
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2017-09-26 14:21:50 +03:00
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/**
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* Check if the given string is part of a sorted list. If it is part of the list,
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2019-11-05 20:07:23 +03:00
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* return the corresponding string_list_item, NULL otherwise.
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2014-11-25 00:22:02 +03:00
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*/
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2010-06-26 03:41:37 +04:00
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struct string_list_item *string_list_lookup(struct string_list *list, const char *string);
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2008-07-21 22:03:49 +04:00
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2012-09-12 18:04:45 +04:00
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/*
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* Remove all but the first of consecutive entries with the same
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* string value. If free_util is true, call free() on the util
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* members of any items that have to be deleted.
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*/
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void string_list_remove_duplicates(struct string_list *sorted_list, int free_util);
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2012-09-12 18:04:42 +04:00
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2008-07-21 22:03:49 +04:00
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/* Use these functions only on unsorted lists: */
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2012-09-12 18:04:42 +04:00
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2017-09-26 14:21:50 +03:00
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/**
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2012-09-12 18:04:42 +04:00
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* Add string to the end of list. If list->strdup_string is set, then
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* string is copied; otherwise the new string_list_entry refers to the
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* input string.
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*/
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2010-06-26 03:41:38 +04:00
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struct string_list_item *string_list_append(struct string_list *list, const char *string);
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2012-09-12 18:04:42 +04:00
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2017-09-26 14:21:50 +03:00
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/**
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2012-09-12 18:04:42 +04:00
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* Like string_list_append(), except string is never copied. When
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* list->strdup_strings is set, this function can be used to hand
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* ownership of a malloc()ed string to list without making an extra
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* copy.
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*/
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struct string_list_item *string_list_append_nodup(struct string_list *list, char *string);
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2017-09-26 14:21:50 +03:00
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/**
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2020-01-07 18:07:30 +03:00
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* Sort the list's entries by string value in order specified by list->cmp
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* (strcmp() if list->cmp is NULL).
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2017-09-26 14:21:50 +03:00
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*/
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2014-11-25 11:02:35 +03:00
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void string_list_sort(struct string_list *list);
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2017-09-26 14:21:50 +03:00
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/**
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* Like `string_list_has_string()` but for unsorted lists. Linear in
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* size of the list.
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*/
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2008-07-21 22:03:49 +04:00
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int unsorted_string_list_has_string(struct string_list *list, const char *string);
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2017-09-26 14:21:50 +03:00
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/**
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* Like `string_list_lookup()` but for unsorted lists. Linear in size
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* of the list.
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*/
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2010-03-24 10:16:02 +03:00
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struct string_list_item *unsorted_string_list_lookup(struct string_list *list,
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const char *string);
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2017-09-26 14:21:50 +03:00
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/**
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* Remove an item from a string_list. The `string` pointer of the
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* items will be freed in case the `strdup_strings` member of the
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* string_list is set. The third parameter controls if the `util`
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* pointer of the items should be freed or not.
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*/
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2011-08-12 09:20:00 +04:00
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void unsorted_string_list_delete_item(struct string_list *list, int i, int free_util);
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2012-09-12 18:04:43 +04:00
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2017-09-26 14:21:50 +03:00
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/**
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* Split string into substrings on character `delim` and append the
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* substrings to `list`. The input string is not modified.
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2012-09-12 18:04:43 +04:00
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* list->strdup_strings must be set, as new memory needs to be
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* allocated to hold the substrings. If maxsplit is non-negative,
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* then split at most maxsplit times. Return the number of substrings
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* appended to list.
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*
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* Examples:
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* string_list_split(l, "foo:bar:baz", ':', -1) -> ["foo", "bar", "baz"]
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* string_list_split(l, "foo:bar:baz", ':', 0) -> ["foo:bar:baz"]
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* string_list_split(l, "foo:bar:baz", ':', 1) -> ["foo", "bar:baz"]
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* string_list_split(l, "foo:bar:", ':', -1) -> ["foo", "bar", ""]
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* string_list_split(l, "", ':', -1) -> [""]
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* string_list_split(l, ":", ':', -1) -> ["", ""]
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*/
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int string_list_split(struct string_list *list, const char *string,
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int delim, int maxsplit);
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/*
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* Like string_list_split(), except that string is split in-place: the
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* delimiter characters in string are overwritten with NULs, and the
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* new string_list_items point into string (which therefore must not
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* be modified or freed while the string_list is in use).
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* list->strdup_strings must *not* be set.
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*/
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int string_list_split_in_place(struct string_list *list, char *string,
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string-list: multi-delimiter `string_list_split_in_place()`
Enhance `string_list_split_in_place()` to accept multiple characters as
delimiters instead of a single character.
Instead of using `strchr(2)` to locate the first occurrence of the given
delimiter character, `string_list_split_in_place_multi()` uses
`strcspn(2)` to move past the initial segment of characters comprised of
any characters in the delimiting set.
When only a single delimiting character is provided, `strpbrk(2)` (which
is implemented with `strcspn(2)`) has equivalent performance to
`strchr(2)`. Modern `strcspn(2)` implementations treat an empty
delimiter or the singleton delimiter as a special case and fall back to
calling strchrnul(). Both glibc[1] and musl[2] implement `strcspn(2)`
this way.
This change is one step to removing `strtok(2)` from the tree. Note that
`string_list_split_in_place()` is not a strict replacement for
`strtok()`, since it will happily turn sequential delimiter characters
into empty entries in the resulting string_list. For example:
string_list_split_in_place(&xs, "foo:;:bar:;:baz", ":;", -1)
would yield a string list of:
["foo", "", "", "bar", "", "", "baz"]
Callers that wish to emulate the behavior of strtok(2) more directly
should call `string_list_remove_empty_items()` after splitting.
To avoid regressions for the new multi-character delimter cases, update
t0063 in this patch as well.
[1]: https://sourceware.org/git/?p=glibc.git;a=blob;f=string/strcspn.c;hb=glibc-2.37#l35
[2]: https://git.musl-libc.org/cgit/musl/tree/src/string/strcspn.c?h=v1.2.3#n11
Signed-off-by: Taylor Blau <me@ttaylorr.com>
Signed-off-by: Junio C Hamano <gitster@pobox.com>
2023-04-25 01:20:10 +03:00
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const char *delim, int maxsplit);
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2010-01-09 01:45:08 +03:00
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#endif /* STRING_LIST_H */
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