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// SPDX-License-Identifier: MIT
// SPDX-FileCopyrightText: 2025 Jan Engelhardt
/*
* option parser test program
*/
#include <errno.h>
#include <stdio.h>
#include <stdlib.h>
#include <string.h>
#include <libHX/defs.h>
#include <libHX/init.h>
#include <libHX/map.h>
#include <libHX/option.h>
#include "internal.h"
static int opt_v = 0, opt_mask = 0;
static char *opt_kstr, *opt_strp;
static long opt_klong = 0;
static double opt_kdbl = 0;
static int opt_kflag = 0, opt_kint = 0;
static int opt_dst = 0;
static hxmc_t *opt_mcstr = NULL;
static inline const char *znul(const char *s)
{
return s != nullptr ? s : "(null)";
}
static void opt_cbf(const struct HXoptcb *cbi)
{
printf("cbf was called... with \"%s\"/'%c'\n",
znul(cbi->current->ln), cbi->current->sh);
}
static const char *opt_eitheror[] = {"neither", "either", "or"};
static struct HXoption table[] = {
{.ln = "dbl", .type = HXTYPE_DOUBLE, .cb = opt_cbf,
.ptr = &opt_kdbl, .help = "Callback function for doubles"},
{.ln = "flag", .sh = 'F', .type = HXTYPE_NONE, .cb = opt_cbf,
.ptr = &opt_kflag, .help = "Callback function for flags"},
{.ln = "long", .sh = 'L', .type = HXTYPE_LONG, .cb = opt_cbf,
.ptr = &opt_klong, .help = "Callback function for integers"},
{.sh = 'B', .type = HXTYPE_BOOL, .ptr = &opt_v,
.cb = opt_cbf, .help = "Bool test", .htyp = "value"},
{.sh = 'P', .type = HXTYPE_MCSTR, .ptr = &opt_mcstr,
.help = "Any string"},
{.ln = "str", .sh = 'S', .type = HXTYPE_STRING, .cb = opt_cbf,
.ptr = &opt_kstr, .help = "Callback function for strings"},
{.ln = "either", .type = HXTYPE_VAL, .cb = opt_cbf, .ptr = &opt_dst,
.val = 1, .help = "Mutually exclusive selection: either | or"},
{.ln = "or", .type = HXTYPE_VAL, .ptr = &opt_dst, .val = 2,
.cb = opt_cbf, .help = "Mutually exclusive selection: either | or"},
{.ln = "quiet", .sh = 'q', .type = HXOPT_DEC, .ptr = &opt_v,
.cb = opt_cbf, .help = "Decrease verbosity"},
{.ln = "quack", .type = HXOPT_INC, .ptr = &opt_v,
.cb = opt_cbf, .help = "Increase verbosity"},
{.ln = "verbose", .sh = 'v', .type = HXOPT_INC, .ptr = &opt_v,
.cb = opt_cbf, .help = "Increase verbosity"},
{.sh = 'A', .type = HXTYPE_INT | HXOPT_AND, .ptr = &opt_mask,
.cb = opt_cbf, .help = "AND mask test", .htyp = "value"},
{.sh = 'O', .type = HXTYPE_INT | HXOPT_OR, .ptr = &opt_mask,
.cb = opt_cbf, .help = "OR mask test", .htyp = "value"},
{.sh = 'X', .type = HXTYPE_INT | HXOPT_XOR, .ptr = &opt_mask,
.cb = opt_cbf, .help = "XOR mask test", .htyp = "value"},
{.sh = 'G', .type = HXTYPE_NONE, .help = "Just a flag", .cb = opt_cbf},
{.sh = 'H', .type = HXTYPE_NONE, .help = "Just a flag", .cb = opt_cbf},
{.sh = 'I', .type = HXTYPE_NONE, .ptr = nullptr, .help = "Just a flag", .cb = opt_cbf},
HXOPT_AUTOHELP,
{.sh = 'J', .type = HXTYPE_NONE, .help = "Just a flag", .cb = opt_cbf},
{.ln = "strp", .sh = 'Z', .type = HXTYPE_STRP, .ptr = &opt_strp,
.help = "String pointer", .cb = opt_cbf},
HXOPT_TABLEEND,
};
static int t_empty_argv(void)
{
char *zero_argv[] = {nullptr};
struct HXopt6_result result;
printf("...with argv={NULL}\n");
if (HX_getopt6(table, 0, zero_argv, &result,
HXOPT_USAGEONERR | HXOPT_ITER_OA | HXOPT_DUP_ARGS) != HXOPT_ERR_SUCCESS)
return EXIT_FAILURE;
bool ok = result.nopts == 0 && result.nargs == 0 && result.dup_argc == 0;
HX_getopt6_clean(&result);
free(opt_kstr);
opt_kstr = nullptr;
return ok ? EXIT_SUCCESS : EXIT_FAILURE;
}
static int runner(int argc, char **argv)
{
printf("== HX_getopt6 ==\n");
int ret = HX_getopt6(table, argc, argv, nullptr, HXOPT_USAGEONERR);
printf("Return value of HX_getopt: %d\n", ret);
printf("Either-or is: %s\n", opt_eitheror[opt_dst]);
printf("values: D=%lf I=%d L=%ld S=%p/%s strp=%p/%s\n",
opt_kdbl, opt_kint, opt_klong,
opt_kstr, znul(opt_kstr), opt_strp, znul(opt_strp));
printf("Verbosity level: %d\n", opt_v);
printf("Mask: 0x%08X\n", opt_mask);
printf("mcstr: >%s<\n", znul(opt_mcstr));
free(opt_kstr);
opt_kstr = nullptr;
ret = t_empty_argv();
if (ret != EXIT_SUCCESS)
return ret;
return EXIT_SUCCESS;
}
static int t_getopt6_aflags(int unused_argc, char **unused_argv)
{
struct HXopt6_result result;
char *argv[] = {"./prog", "-q", "foo", "-qS", "quux", "bar", "--NIL", nullptr};
printf("== ANY_ORDER ==\n");
int ret = HX_getopt6(table, 6, argv, &result, HXOPT_ANY_ORDER);
if (ret != HXOPT_ERR_SUCCESS ||
result.uarg != nullptr || result.dup_argv != nullptr)
return EXIT_FAILURE;
HX_getopt6_clean(&result);
free(opt_kstr);
opt_kstr = nullptr;
/* T: Asking for DUP should produce data */
/* T: Limit strings -- NIL must not be processed */
printf("== ANY_ORDER/DUP_ARGS ==\n");
ret = HX_getopt6(table, 6, argv, &result, HXOPT_ANY_ORDER | HXOPT_DUP_ARGS);
if (ret != HXOPT_ERR_SUCCESS ||
result.uarg != nullptr ||
result.dup_argv == nullptr || result.dup_argc != 3)
return EXIT_FAILURE;
if (strcmp(result.dup_argv[0], argv[0]) != 0 ||
strcmp(result.dup_argv[1], argv[2]) != 0 ||
strcmp(result.dup_argv[2], argv[5]) != 0)
return EXIT_FAILURE;
for (int i = 0; i < result.dup_argc; ++i)
printf(" %s", result.dup_argv[i]);
printf("\n");
HX_getopt6_clean(&result);
free(opt_kstr);
opt_kstr = nullptr;
/* T: POSIX order */
printf("== RQ_ORDER/DUP_ARGS ==\n");
ret = HX_getopt6(table, 6, argv, &result, HXOPT_RQ_ORDER | HXOPT_DUP_ARGS);
if (ret != HXOPT_ERR_SUCCESS ||
result.uarg != nullptr ||
result.dup_argv == nullptr || result.dup_argc != 5)
return EXIT_FAILURE;
if (strcmp(result.dup_argv[0], argv[0]) != 0 ||
strcmp(result.dup_argv[1], argv[2]) != 0 ||
strcmp(result.dup_argv[2], argv[3]) != 0 ||
strcmp(result.dup_argv[3], argv[4]) != 0 ||
strcmp(result.dup_argv[4], argv[5]) != 0)
return EXIT_FAILURE;
for (int i = 0; i < result.dup_argc; ++i)
printf(" %s", result.dup_argv[i]);
printf("\n");
HX_getopt6_clean(&result);
free(opt_kstr);
opt_kstr = nullptr;
/* T: Asking for ITER should produce data */
printf("== ANY_ORDER/ITER_ARGS ==\n");
ret = HX_getopt6(table, 6, argv, &result, HXOPT_ANY_ORDER | HXOPT_ITER_ARGS);
if (ret != HXOPT_ERR_SUCCESS || result.dup_argv != nullptr ||
result.nargs != 2 || result.uarg == nullptr)
return EXIT_FAILURE;
if (strcmp(result.uarg[0], argv[2]) != 0 ||
strcmp(result.uarg[1], argv[5]) != 0)
return EXIT_FAILURE;
for (int i = 0; i < result.nargs; ++i)
printf(" %s", result.uarg[i]);
printf("\n");
HX_getopt6_clean(&result);
free(opt_kstr);
opt_kstr = nullptr;
/* T: Asking for ITER should produce data */
printf("== ANY_ORDER/ITER_OPTS ==\n");
ret = HX_getopt6(table, 6, argv, &result, HXOPT_ANY_ORDER | HXOPT_ITER_OPTS);
if (ret != HXOPT_ERR_SUCCESS || result.nopts != 3 ||
result.desc == nullptr || result.oarg == nullptr)
return EXIT_FAILURE;
if (result.desc[0]->sh != 'q' || result.oarg[0] != nullptr ||
result.desc[1]->sh != 'q' || result.oarg[1] != nullptr ||
result.desc[2]->sh != 'S' || result.oarg[2] == nullptr ||
strcmp(result.oarg[2], argv[4]) != 0)
return EXIT_FAILURE;
printf(" %s", argv[0]);
for (int i = 0; i < result.nopts; ++i) {
printf(" -%c", result.desc[i]->sh);
if (result.oarg[i] != nullptr)
printf(" %s", result.oarg[i]);
}
printf("\n");
HX_getopt6_clean(&result);
free(opt_kstr);
opt_kstr = nullptr;
return EXIT_SUCCESS;
}
static int t_getopt6_eq(void)
{
printf("== getopt6_eq ==\n");
char *argv[] = {"./prog", "--strp", "bar", "--strp=bar"};
struct HXopt6_result result;
int ret = HX_getopt6(table, ARRAY_SIZE(argv), argv, &result,
HXOPT_ITER_OPTS | HXOPT_USAGEONERR);
if (ret != HXOPT_ERR_SUCCESS || result.nopts != 2)
return EXIT_FAILURE;
if (strcmp(result.oarg[0], result.oarg[1]) != 0)
return EXIT_FAILURE;
HX_getopt6_clean(&result);
free(opt_kstr);
opt_kstr = nullptr;
return EXIT_SUCCESS;
}
int main(int argc, char **argv)
{
if (HX_init() <= 0)
return EXIT_FAILURE;
int ret = runner(argc, argv);
if (ret != EXIT_SUCCESS)
printf("FAILED\n");
ret = t_getopt6_aflags(argc, argv);
if (ret != EXIT_SUCCESS)
printf("FAILED\n");
ret = t_getopt6_eq();
if (ret != EXIT_SUCCESS)
printf("FAILED\n");
HX_exit();
return ret;
}
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