tests/test_argpar.c: fix coding style
[argpar.git] / argpar / argpar.h
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903a5b8a 1/*
03e1579f 2 * SPDX-License-Identifier: MIT
903a5b8a 3 *
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4 * Copyright (c) 2019-2021 Philippe Proulx <pproulx@efficios.com>
5 * Copyright (c) 2020-2021 Simon Marchi <simon.marchi@efficios.com>
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6 */
7
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8#ifndef ARGPAR_ARGPAR_H
9#define ARGPAR_ARGPAR_H
03e1579f 10
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11#include <stdbool.h>
12
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13/*
14 * argpar is a library which provides facilities for command-line
15 * argument parsing.
16 *
17 * Two APIs are available:
18 *
19 * Iterator API:
20 * Create a parsing iterator with argpar_iter_create(), then
21 * repeatedly call argpar_iter_parse_next() to access the parsing
22 * results, until one of:
23 *
24 * * There are no more arguments.
25 *
26 * * The argument parser encounters an error (for example, an
27 * unknown option).
28 *
29 * * You need to stop.
30 *
31 * This API provides more parsing control than the next one.
32 *
33 * Single call API:
34 * Call argpar_parse(), which parses the arguments until one of:
35 *
36 * * There are no more arguments.
37 *
38 * * It encounters an argument parsing error.
39 *
40 * argpar_parse() returns a single array of parsing results.
41 *
42 * Both methods parse the arguments `argv` of which the count is `argc`
43 * using the sentinel-terminated (use `ARGPAR_OPT_DESCR_SENTINEL`)
44 * option descriptor array `descrs`.
45 *
46 * argpar considers ALL the elements of `argv`, including the first one,
47 * so that you would typically pass `argc - 1` and `&argv[1]` from what
48 * main() receives.
49 *
50 * The argpar parsers support:
51 *
52 * * Short options without an argument, possibly tied together:
53 *
54 * -f -auf -n
55 *
56 * * Short options with argument:
57 *
58 * -b 45 -f/mein/file -xyzhello
59 *
60 * * Long options without an argument:
61 *
62 * --five-guys --burger-king --pizza-hut --subway
63 *
64 * * Long options with arguments:
65 *
66 * --security enable --time=18.56
67 *
68 * * Non-option arguments (anything else).
69 *
70 * The argpar parsers don't accept `-` or `--` as arguments. The latter
71 * means "end of options" for many command-line tools, but this library
72 * is all about keeping the order of the arguments, so it doesn't mean
73 * much to put them at the end. This has the side effect that a
74 * non-option argument cannot have the form of an option, for example if
75 * you need to pass the exact relative path `--component`. In that case,
76 * you would need to pass `./--component`. There's no generic way to
77 * escape `-` as of this version.
78 *
79 * Both argpar_iter_create() and argpar_parse() accept duplicate options
80 * (they produce one item for each instance).
81 *
82 * A returned parsing item has the type `struct argpar_item *`. Each
83 * item is to be casted to the appropriate type
84 * (`struct argpar_item_opt *` or `struct argpar_item_non_opt *`)
85 * depending on its `type` member.
86 *
87 * Both argpar_iter_create() and argpar_parse() produce the items in
88 * the same order that the arguments were parsed, including non-option
89 * arguments. This means, for example, that for:
90 *
91 * --hello --count=23 /path/to/file -ab --type file magie
92 *
93 * The produced items are, in this order:
94 *
95 * 1. Option item (`--hello`).
96 * 2. Option item (`--count` with argument `23`).
97 * 3. Non-option item (`/path/to/file`).
98 * 4. Option item (`-a`).
99 * 5. Option item (`-b`).
100 * 6. Option item (`--type` with argument `file`).
101 * 7. Non-option item (`magie`).
102 */
103
903a5b8a 104/* Sentinel for an option descriptor array */
1c9a6bde 105#define ARGPAR_OPT_DESCR_SENTINEL { -1, '\0', NULL, false }
903a5b8a 106
7ac57709 107/*
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108 * If argpar is used in some shared library, we don't want said library
109 * to export its symbols, so mark them as "hidden".
7ac57709 110 *
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111 * On Windows, symbols are local unless explicitly exported; see
112 * <https://gcc.gnu.org/wiki/Visibility>.
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113 */
114#if defined(_WIN32) || defined(__CYGWIN__)
fb12ac67 115# define ARGPAR_HIDDEN
7ac57709 116#else
fb12ac67 117# define ARGPAR_HIDDEN __attribute__((visibility("hidden")))
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118#endif
119
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120/* Forward-declaration for the opaque type */
121struct argpar_iter;
122
903a5b8a 123/* Option descriptor */
1c9a6bde 124struct argpar_opt_descr {
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125 /* Numeric ID for this option */
126 const int id;
127
128 /* Short option character, or `\0` */
129 const char short_name;
130
131 /* Long option name (without `--`), or `NULL` */
132 const char * const long_name;
133
134 /* True if this option has an argument */
135 const bool with_arg;
136};
137
138/* Item type */
1c9a6bde 139enum argpar_item_type {
903a5b8a 140 /* Option */
1c9a6bde 141 ARGPAR_ITEM_TYPE_OPT,
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142
143 /* Non-option */
1c9a6bde 144 ARGPAR_ITEM_TYPE_NON_OPT,
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145};
146
147/* Base item */
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148struct argpar_item {
149 enum argpar_item_type type;
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150};
151
152/* Option item */
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153struct argpar_item_opt {
154 struct argpar_item base;
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155
156 /* Corresponding descriptor */
1c9a6bde 157 const struct argpar_opt_descr *descr;
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158
159 /* Argument, or `NULL` if none */
160 const char *arg;
161};
162
163/* Non-option item */
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164struct argpar_item_non_opt {
165 struct argpar_item base;
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166
167 /*
168 * Complete argument, pointing to one of the entries of the
169 * original arguments (`argv`).
170 */
171 const char *arg;
172
173 /* Index of this argument amongst all original arguments (`argv`) */
174 unsigned int orig_index;
175
176 /* Index of this argument amongst other non-option arguments */
177 unsigned int non_opt_index;
178};
179
1c9a6bde 180struct argpar_item_array {
fb12ac67 181 const struct argpar_item **items;
7ac57709 182
fb12ac67 183 /* Number of used slots in `items` */
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184 unsigned int n_items;
185
fb12ac67 186 /* Number of allocated slots in `items` */
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187 unsigned int n_alloc;
188};
189
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190/* What is returned by argpar_parse() */
191struct argpar_parse_ret {
fc07e526 192 /*
fb12ac67 193 * Array of parsing items, or `NULL` on error.
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194 *
195 * Do NOT destroy those items manually with
196 * argpar_iter_destroy(): call argpar_parse_ret_fini() to
197 * finalize the whole structure.
198 */
1c9a6bde 199 struct argpar_item_array *items;
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200
201 /* Error string, or `NULL` if none */
7ac57709 202 char *error;
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203
204 /* Number of original arguments (`argv`) ingested */
205 unsigned int ingested_orig_args;
206};
207
208/*
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209 * Parses arguments in `argv` until the end is reached or an error is
210 * encountered.
903a5b8a 211 *
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212 * On success, this function returns an array of items (field `items` of
213 * `struct argpar_parse_ret`).
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214 *
215 * In the returned structure, `ingested_orig_args` is the number of
216 * ingested arguments within `argv` to produce the resulting array of
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217 * items.
218 *
219 * If `fail_on_unknown_opt` is true, then on success
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220 * `ingested_orig_args` is equal to `argc`. Otherwise,
221 * `ingested_orig_args` contains the number of original arguments until
222 * an unknown _option_ occurs. For example, with
223 *
224 * --great --white contact nuance --shark nuclear
225 *
226 * if `--shark` is not described within `descrs` and
227 * `fail_on_unknown_opt` is false, then `ingested_orig_args` is 4 (two
228 * options, two non-options), whereas `argc` is 6.
229 *
230 * This makes it possible to know where a command name is, for example.
231 * With those arguments:
232 *
233 * --verbose --stuff=23 do-something --specific-opt -f -b
234 *
235 * and the descriptors for `--verbose` and `--stuff` only, the function
236 * returns the `--verbose` and `--stuff` option items, the
237 * `do-something` non-option item, and that three original arguments
238 * were ingested. This means you can start the next argument parsing
239 * stage, with option descriptors depending on the command name, at
240 * `&argv[3]`.
241 *
242 * Note that `ingested_orig_args` is not always equal to the number of
243 * returned items, as
244 *
245 * --hello -fdw
246 *
247 * for example contains two ingested original arguments, but four
248 * resulting items.
249 *
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250 * On failure, the `items` member of the returned structure is `NULL`,
251 * and the `error` string member contains details about the error.
903a5b8a 252 *
fc07e526 253 * Finalize the returned structure with argpar_parse_ret_fini().
903a5b8a 254 */
7ac57709 255ARGPAR_HIDDEN
1c9a6bde 256struct argpar_parse_ret argpar_parse(unsigned int argc,
903a5b8a 257 const char * const *argv,
1c9a6bde 258 const struct argpar_opt_descr *descrs,
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259 bool fail_on_unknown_opt);
260
261/*
fc07e526 262 * Finalizes what argpar_parse() returns.
903a5b8a 263 *
fc07e526 264 * You may call argpar_parse() multiple times with the same structure.
903a5b8a 265 */
7ac57709 266ARGPAR_HIDDEN
1c9a6bde 267void argpar_parse_ret_fini(struct argpar_parse_ret *ret);
903a5b8a 268
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269/*
270 * Creates an argument parsing iterator.
271 *
272 * This function initializes the returned structure, but doesn't
273 * actually start parsing the arguments.
274 *
275 * `*argv` and `*descrs` must NOT change for the lifetime of the
276 * returned iterator (until you call argpar_iter_destroy()).
277 *
278 * Call argpar_iter_parse_next() with the returned iterator to obtain
279 * the next parsing result (item).
280 */
281ARGPAR_HIDDEN
282struct argpar_iter *argpar_iter_create(unsigned int argc,
283 const char * const *argv,
284 const struct argpar_opt_descr *descrs);
285
286/*
287 * Destroys `iter`, as returned by argpar_iter_create().
288 */
289ARGPAR_HIDDEN
290void argpar_iter_destroy(struct argpar_iter *iter);
291
292/*
293 * Return type of argpar_iter_parse_next().
294 */
295enum argpar_iter_parse_next_status {
296 ARGPAR_ITER_PARSE_NEXT_STATUS_OK,
297 ARGPAR_ITER_PARSE_NEXT_STATUS_END,
298 ARGPAR_ITER_PARSE_NEXT_STATUS_ERROR_UNKNOWN_OPT,
299 ARGPAR_ITER_PARSE_NEXT_STATUS_ERROR,
300};
301
302/*
303 * Parses and returns the next item from `iter`.
304 *
305 * On success, this function sets `*item` to an item which describes the
306 * next option or non-option argument and returns
307 * `ARGPAR_ITER_PARSE_NEXT_STATUS_OK`. Destroy `*item` with
308 * argpar_item_destroy().
309 *
310 * If there are no more items to return, this function returns
311 * `ARGPAR_ITER_PARSE_NEXT_STATUS_END`.
312 *
313 * On failure (status codes
314 * `ARGPAR_ITER_PARSE_NEXT_STATUS_ERROR_UNKNOWN_OPT` and
315 * `ARGPAR_ITER_PARSE_NEXT_STATUS_ERROR`), this function sets `*error`
316 * to a descriptive error string. Free `*error` with free().
317 *
318 * Create an argument parsing iterator with argpar_iter_create().
319 */
320enum argpar_iter_parse_next_status argpar_iter_parse_next(
321 struct argpar_iter *iter, const struct argpar_item **item,
322 char **error);
323
324/*
325 * Returns the number of ingested elements from `argv`, as passed to
326 * argpar_iter_create() to create `*iter`, that were required to produce
327 * the previously returned items.
328 */
329ARGPAR_HIDDEN
330unsigned int argpar_iter_get_ingested_orig_args(const struct argpar_iter *iter);
331
332/*
333 * Destroys `item`, as created by argpar_iter_parse_next().
334 */
335ARGPAR_HIDDEN
336void argpar_item_destroy(const struct argpar_item *item);
337
338/*
339 * Destroys `_item` (`const struct argpar_item *`) and sets it to
340 * `NULL`.
341 */
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342#define ARGPAR_ITEM_DESTROY_AND_RESET(_item) \
343 { \
344 argpar_item_destroy(_item); \
345 _item = NULL; \
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346 }
347
fe5a18f8 348#endif /* ARGPAR_ARGPAR_H */
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