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mirror of https://github.com/mpv-player/mpv synced 2024-11-07 01:47:00 +01:00
mpv/options/m_option.c
wm4 52c51149db options: fix channel map options sometimes failing
Channel amp otpions were not copied correctly: it copied the size of a
pointer to struct chmap, not the struct itself. Since mp_chmap is
currently 9 bytes, this meant the last channel entry was not copied
correctly on 64 bit systems, leading to very strange failures. It could
be triggered especially when using the client API, because the client
API always copies options on access (mpv command line options tend to
work directly on options).
2014-12-01 16:09:25 +01:00

3153 lines
88 KiB
C

/*
* This file is part of MPlayer.
*
* MPlayer 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.
*
* MPlayer 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 MPlayer; if not, write to the Free Software Foundation, Inc.,
* 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA.
*/
/// \file
/// \ingroup Options
#include "config.h"
#include <stdlib.h>
#include <string.h>
#include <math.h>
#include <stdio.h>
#include <stdarg.h>
#include <limits.h>
#include <inttypes.h>
#include <unistd.h>
#include <assert.h>
#include <libavutil/common.h>
#include <libavutil/avstring.h>
#include "libmpv/client.h"
#include "player/client.h"
#include "talloc.h"
#include "common/common.h"
#include "common/msg.h"
#include "common/msg_control.h"
#include "misc/json.h"
#include "m_option.h"
#include "m_config.h"
#if HAVE_DOS_PATHS
#define OPTION_PATH_SEPARATOR ';'
#else
#define OPTION_PATH_SEPARATOR ':'
#endif
const char m_option_path_separator = OPTION_PATH_SEPARATOR;
char *m_option_strerror(int code)
{
switch (code) {
case M_OPT_UNKNOWN:
return "option not found";
case M_OPT_MISSING_PARAM:
return "option requires parameter";
case M_OPT_INVALID:
return "option parameter could not be parsed";
case M_OPT_OUT_OF_RANGE:
return "parameter is outside values allowed for option";
case M_OPT_DISALLOW_PARAM:
return "option doesn't take a parameter";
case M_OPT_PARSER_ERR:
default:
return "parser error";
}
}
int m_option_required_params(const m_option_t *opt)
{
if (((opt->flags & M_OPT_OPTIONAL_PARAM) ||
(opt->type->flags & M_OPT_TYPE_OPTIONAL_PARAM)))
return 0;
return 1;
}
static const struct m_option *m_option_list_findb(const struct m_option *list,
struct bstr name)
{
for (int i = 0; list[i].name; i++) {
struct bstr lname = bstr0(list[i].name);
if ((list[i].type->flags & M_OPT_TYPE_ALLOW_WILDCARD)
&& bstr_endswith0(lname, "*")) {
lname.len--;
if (bstrcmp(bstr_splice(name, 0, lname.len), lname) == 0)
return &list[i];
} else if (bstrcmp(lname, name) == 0)
return &list[i];
}
return NULL;
}
const m_option_t *m_option_list_find(const m_option_t *list, const char *name)
{
return m_option_list_findb(list, bstr0(name));
}
// Default function that just does a memcpy
static void copy_opt(const m_option_t *opt, void *dst, const void *src)
{
if (dst && src)
memcpy(dst, src, opt->type->size);
}
// Flag
#define VAL(x) (*(int *)(x))
static int clamp_flag(const m_option_t *opt, void *val)
{
if (VAL(val) == 0 || VAL(val) == 1)
return 0;
VAL(val) = 0;
return M_OPT_OUT_OF_RANGE;
}
static int parse_flag(struct mp_log *log, const m_option_t *opt,
struct bstr name, struct bstr param, void *dst)
{
if (param.len) {
if (!bstrcmp0(param, "yes")) {
if (dst)
VAL(dst) = 1;
return 1;
}
if (!bstrcmp0(param, "no")) {
if (dst)
VAL(dst) = 0;
return 1;
}
mp_err(log, "Invalid parameter for %.*s flag: %.*s\n",
BSTR_P(name), BSTR_P(param));
return M_OPT_INVALID;
} else {
if (dst)
VAL(dst) = 1;
return 0;
}
}
static char *print_flag(const m_option_t *opt, const void *val)
{
return talloc_strdup(NULL, VAL(val) ? "yes" : "no");
}
static void add_flag(const m_option_t *opt, void *val, double add, bool wrap)
{
if (fabs(add) < 0.5)
return;
bool state = !!VAL(val);
state = wrap ? !state : add > 0;
VAL(val) = state ? 1 : 0;
}
static int flag_set(const m_option_t *opt, void *dst, struct mpv_node *src)
{
if (src->format != MPV_FORMAT_FLAG)
return M_OPT_UNKNOWN;
VAL(dst) = !!src->u.flag;
return 1;
}
static int flag_get(const m_option_t *opt, void *ta_parent,
struct mpv_node *dst, void *src)
{
dst->format = MPV_FORMAT_FLAG;
dst->u.flag = !!VAL(src);
return 1;
}
const m_option_type_t m_option_type_flag = {
// need yes or no in config files
.name = "Flag",
.size = sizeof(int),
.flags = M_OPT_TYPE_OPTIONAL_PARAM,
.parse = parse_flag,
.print = print_flag,
.copy = copy_opt,
.add = add_flag,
.clamp = clamp_flag,
.set = flag_set,
.get = flag_get,
};
// Single-value, write-only flag
static int parse_store(struct mp_log *log, const m_option_t *opt,
struct bstr name, struct bstr param, void *dst)
{
if (param.len == 0) {
if (dst)
VAL(dst) = opt->max;
return 0;
} else {
mp_err(log, "Invalid parameter for %.*s flag: %.*s\n",
BSTR_P(name), BSTR_P(param));
return M_OPT_DISALLOW_PARAM;
}
}
static int store_set(const m_option_t *opt, void *dst, struct mpv_node *src)
{
if (src->format != MPV_FORMAT_FLAG)
return M_OPT_UNKNOWN;
if (!src->u.flag)
return M_OPT_INVALID;
VAL(dst) = opt->max;
return 1;
}
const m_option_type_t m_option_type_store = {
// can only be activated
.name = "Flag",
.size = sizeof(int),
.flags = M_OPT_TYPE_OPTIONAL_PARAM,
.parse = parse_store,
.copy = copy_opt,
.set = store_set,
};
// Same for float types
#undef VAL
#define VAL(x) (*(float *)(x))
static int parse_store_float(struct mp_log *log, const m_option_t *opt,
struct bstr name, struct bstr param, void *dst)
{
if (param.len == 0) {
if (dst)
VAL(dst) = opt->max;
return 0;
} else {
mp_err(log, "Invalid parameter for %.*s flag: %.*s\n",
BSTR_P(name), BSTR_P(param));
return M_OPT_DISALLOW_PARAM;
}
}
static int store_float_set(const m_option_t *opt, void *dst, struct mpv_node *src)
{
if (src->format != MPV_FORMAT_FLAG)
return M_OPT_UNKNOWN;
if (!src->u.flag)
return M_OPT_INVALID;
VAL(dst) = opt->max;
return 1;
}
const m_option_type_t m_option_type_float_store = {
// can only be activated
.name = "Flag",
.size = sizeof(float),
.flags = M_OPT_TYPE_OPTIONAL_PARAM,
.parse = parse_store_float,
.copy = copy_opt,
.set = store_float_set,
};
// Integer
#undef VAL
static int clamp_longlong(const m_option_t *opt, void *val)
{
long long v = *(long long *)val;
int r = 0;
if ((opt->flags & M_OPT_MAX) && (v > opt->max)) {
v = opt->max;
r = M_OPT_OUT_OF_RANGE;
}
if ((opt->flags & M_OPT_MIN) && (v < opt->min)) {
v = opt->min;
r = M_OPT_OUT_OF_RANGE;
}
*(long long *)val = v;
return r;
}
static int parse_longlong(struct mp_log *log, const m_option_t *opt,
struct bstr name, struct bstr param, void *dst)
{
if (param.len == 0)
return M_OPT_MISSING_PARAM;
struct bstr rest;
long long tmp_int = bstrtoll(param, &rest, 10);
if (rest.len)
tmp_int = bstrtoll(param, &rest, 0);
if (rest.len) {
mp_err(log, "The %.*s option must be an integer: %.*s\n",
BSTR_P(name), BSTR_P(param));
return M_OPT_INVALID;
}
if ((opt->flags & M_OPT_MIN) && (tmp_int < opt->min)) {
mp_err(log, "The %.*s option must be >= %d: %.*s\n",
BSTR_P(name), (int) opt->min, BSTR_P(param));
return M_OPT_OUT_OF_RANGE;
}
if ((opt->flags & M_OPT_MAX) && (tmp_int > opt->max)) {
mp_err(log, "The %.*s option must be <= %d: %.*s\n",
BSTR_P(name), (int) opt->max, BSTR_P(param));
return M_OPT_OUT_OF_RANGE;
}
if (dst)
*(long long *)dst = tmp_int;
return 1;
}
static int clamp_int(const m_option_t *opt, void *val)
{
long long tmp = *(int *)val;
int r = clamp_longlong(opt, &tmp);
*(int *)val = tmp;
return r;
}
static int clamp_int64(const m_option_t *opt, void *val)
{
long long tmp = *(int64_t *)val;
int r = clamp_longlong(opt, &tmp);
*(int64_t *)val = tmp;
return r;
}
static int parse_int(struct mp_log *log, const m_option_t *opt,
struct bstr name, struct bstr param, void *dst)
{
long long tmp;
int r = parse_longlong(log, opt, name, param, &tmp);
if (r >= 0 && dst)
*(int *)dst = tmp;
return r;
}
static int parse_int64(struct mp_log *log, const m_option_t *opt,
struct bstr name, struct bstr param, void *dst)
{
long long tmp;
int r = parse_longlong(log, opt, name, param, &tmp);
if (r >= 0 && dst)
*(int64_t *)dst = tmp;
return r;
}
static char *print_int(const m_option_t *opt, const void *val)
{
if (opt->type->size == sizeof(int64_t))
return talloc_asprintf(NULL, "%"PRId64, *(const int64_t *)val);
return talloc_asprintf(NULL, "%d", *(const int *)val);
}
static void add_int64(const m_option_t *opt, void *val, double add, bool wrap)
{
int64_t v = *(int64_t *)val;
v = v + add;
bool is64 = opt->type->size == sizeof(int64_t);
int64_t nmin = is64 ? INT64_MIN : INT_MIN;
int64_t nmax = is64 ? INT64_MAX : INT_MAX;
int64_t min = (opt->flags & M_OPT_MIN) ? opt->min : nmin;
int64_t max = (opt->flags & M_OPT_MAX) ? opt->max : nmax;
if (v < min)
v = wrap ? max : min;
if (v > max)
v = wrap ? min : max;
*(int64_t *)val = v;
}
static void add_int(const m_option_t *opt, void *val, double add, bool wrap)
{
int64_t tmp = *(int *)val;
add_int64(opt, &tmp, add, wrap);
*(int *)val = tmp;
}
static void multiply_int64(const m_option_t *opt, void *val, double f)
{
double v = *(int64_t *)val * f;
int64_t iv = v;
if (v < INT64_MIN)
iv = INT64_MIN;
if (v > INT64_MAX)
iv = INT64_MAX;
*(int64_t *)val = iv;
clamp_int64(opt, val);
}
static void multiply_int(const m_option_t *opt, void *val, double f)
{
int64_t tmp = *(int *)val;
multiply_int64(opt, &tmp, f);
*(int *)val = MPCLAMP(tmp, INT_MIN, INT_MAX);
}
static int int64_set(const m_option_t *opt, void *dst, struct mpv_node *src)
{
if (src->format != MPV_FORMAT_INT64)
return M_OPT_UNKNOWN;
int64_t val = src->u.int64;
if ((opt->flags & M_OPT_MIN) && val < opt->min)
return M_OPT_OUT_OF_RANGE;
if ((opt->flags & M_OPT_MAX) && val > opt->max)
return M_OPT_OUT_OF_RANGE;
*(int64_t *)dst = val;
return 1;
}
static int int_set(const m_option_t *opt, void *dst, struct mpv_node *src)
{
int64_t val;
int r = int64_set(opt, &val, src);
if (r >= 0) {
if (val < INT_MIN || val > INT_MAX)
return M_OPT_OUT_OF_RANGE;
*(int *)dst = val;
}
return r;
}
static int int64_get(const m_option_t *opt, void *ta_parent,
struct mpv_node *dst, void *src)
{
dst->format = MPV_FORMAT_INT64;
dst->u.int64 = *(int64_t *)src;
return 1;
}
static int int_get(const m_option_t *opt, void *ta_parent,
struct mpv_node *dst, void *src)
{
dst->format = MPV_FORMAT_INT64;
dst->u.int64 = *(int *)src;
return 1;
}
const m_option_type_t m_option_type_int = {
.name = "Integer",
.size = sizeof(int),
.parse = parse_int,
.print = print_int,
.copy = copy_opt,
.add = add_int,
.multiply = multiply_int,
.clamp = clamp_int,
.set = int_set,
.get = int_get,
};
const m_option_type_t m_option_type_int64 = {
.name = "Integer64",
.size = sizeof(int64_t),
.parse = parse_int64,
.print = print_int,
.copy = copy_opt,
.add = add_int64,
.multiply = multiply_int64,
.clamp = clamp_int64,
.set = int64_set,
.get = int64_get,
};
static int parse_intpair(struct mp_log *log, const struct m_option *opt,
struct bstr name, struct bstr param, void *dst)
{
if (param.len == 0)
return M_OPT_MISSING_PARAM;
struct bstr s = param;
int end = -1;
int start = bstrtoll(s, &s, 10);
if (s.len == param.len)
goto bad;
if (s.len > 0) {
if (!bstr_startswith0(s, "-"))
goto bad;
s = bstr_cut(s, 1);
}
if (s.len > 0)
end = bstrtoll(s, &s, 10);
if (s.len > 0)
goto bad;
if (dst) {
int *p = dst;
p[0] = start;
p[1] = end;
}
return 1;
bad:
mp_err(log, "Invalid integer range "
"specification for option %.*s: %.*s\n",
BSTR_P(name), BSTR_P(param));
return M_OPT_INVALID;
}
const struct m_option_type m_option_type_intpair = {
.name = "Int[-Int]",
.size = sizeof(int[2]),
.parse = parse_intpair,
.copy = copy_opt,
};
static int clamp_choice(const m_option_t *opt, void *val)
{
int v = *(int *)val;
if ((opt->flags & M_OPT_MIN) && (opt->flags & M_OPT_MAX)) {
if (v >= opt->min && v <= opt->max)
return 0;
}
;
for (struct m_opt_choice_alternatives *alt = opt->priv; alt->name; alt++) {
if (alt->value == v)
return 0;
}
return M_OPT_INVALID;
}
static int parse_choice(struct mp_log *log, const struct m_option *opt,
struct bstr name, struct bstr param, void *dst)
{
struct m_opt_choice_alternatives *alt = opt->priv;
for ( ; alt->name; alt++)
if (!bstrcmp0(param, alt->name))
break;
if (!alt->name) {
if (param.len == 0)
return M_OPT_MISSING_PARAM;
if ((opt->flags & M_OPT_MIN) && (opt->flags & M_OPT_MAX)) {
long long val;
if (parse_longlong(log, opt, name, param, &val) == 1) {
if (dst)
*(int *)dst = val;
return 1;
}
}
mp_err(log, "Invalid value for option %.*s: %.*s\n",
BSTR_P(name), BSTR_P(param));
mp_err(log, "Valid values are:");
for (alt = opt->priv; alt->name; alt++)
mp_err(log, " %s", alt->name);
if ((opt->flags & M_OPT_MIN) && (opt->flags & M_OPT_MAX))
mp_err(log, " %g-%g", opt->min, opt->max);
mp_err(log, "\n");
return M_OPT_INVALID;
}
if (dst)
*(int *)dst = alt->value;
return 1;
}
static void choice_get_min_max(const struct m_option *opt, int *min, int *max)
{
assert(opt->type == &m_option_type_choice);
*min = INT_MAX;
*max = INT_MIN;
for (struct m_opt_choice_alternatives *alt = opt->priv; alt->name; alt++) {
*min = FFMIN(*min, alt->value);
*max = FFMAX(*max, alt->value);
}
if ((opt->flags & M_OPT_MIN) && (opt->flags & M_OPT_MAX)) {
*min = FFMIN(*min, opt->min);
*max = FFMAX(*max, opt->max);
}
}
static void check_choice(int dir, int val, bool *found, int *best, int choice)
{
if ((dir == -1 && (!(*found) || choice > (*best)) && choice < val) ||
(dir == +1 && (!(*found) || choice < (*best)) && choice > val))
{
*found = true;
*best = choice;
}
}
static void add_choice(const m_option_t *opt, void *val, double add, bool wrap)
{
assert(opt->type == &m_option_type_choice);
int dir = add > 0 ? +1 : -1;
bool found = false;
int ival = *(int *)val;
int best = 0; // init. value unused
if (fabs(add) < 0.5)
return;
if ((opt->flags & M_OPT_MIN) && (opt->flags & M_OPT_MAX)) {
int newval = ival + add;
if (ival >= opt->min && ival <= opt->max &&
newval >= opt->min && newval <= opt->max)
{
found = true;
best = newval;
} else {
check_choice(dir, ival, &found, &best, opt->min);
check_choice(dir, ival, &found, &best, opt->max);
}
}
for (struct m_opt_choice_alternatives *alt = opt->priv; alt->name; alt++)
check_choice(dir, ival, &found, &best, alt->value);
if (!found) {
int min, max;
choice_get_min_max(opt, &min, &max);
best = (dir == -1) ^ wrap ? min : max;
}
*(int *)val = best;
}
static int choice_set(const m_option_t *opt, void *dst, struct mpv_node *src)
{
char buf[80];
char *src_str = NULL;
if (src->format == MPV_FORMAT_INT64) {
snprintf(buf, sizeof(buf), "%" PRId64, src->u.int64);
src_str = buf;
} else if (src->format == MPV_FORMAT_STRING) {
src_str = src->u.string;
}
if (!src_str)
return M_OPT_UNKNOWN;
int val = 0;
int r = parse_choice(mp_null_log, opt, (bstr){0}, bstr0(src_str), &val);
if (r >= 0)
*(int *)dst = val;
return r;
}
static struct m_opt_choice_alternatives *get_choice(const m_option_t *opt,
const void *val, int *out_val)
{
int v = *(int *)val;
struct m_opt_choice_alternatives *alt;
for (alt = opt->priv; alt->name; alt++) {
if (alt->value == v)
return alt;
}
if ((opt->flags & M_OPT_MIN) && (opt->flags & M_OPT_MAX)) {
if (v >= opt->min && v <= opt->max) {
*out_val = v;
return NULL;
}
}
abort();
}
static int choice_get(const m_option_t *opt, void *ta_parent,
struct mpv_node *dst, void *src)
{
int ival = 0;
struct m_opt_choice_alternatives *alt = get_choice(opt, src, &ival);
// If a choice string looks like a number, return it as number
if (alt) {
char *end = NULL;
ival = strtol(alt->name, &end, 10);
if (end && !end[0])
alt = NULL;
}
if (alt) {
dst->format = MPV_FORMAT_STRING;
dst->u.string = talloc_strdup(ta_parent, alt->name);
} else {
dst->format = MPV_FORMAT_INT64;
dst->u.int64 = ival;
}
return 1;
}
static char *print_choice(const m_option_t *opt, const void *val)
{
int ival = 0;
struct m_opt_choice_alternatives *alt = get_choice(opt, val, &ival);
return alt ? talloc_strdup(NULL, alt->name)
: talloc_asprintf(NULL, "%d", ival);
}
const struct m_option_type m_option_type_choice = {
.name = "Choice",
.size = sizeof(int),
.parse = parse_choice,
.print = print_choice,
.copy = copy_opt,
.add = add_choice,
.clamp = clamp_choice,
.set = choice_set,
.get = choice_get,
};
// Float
#undef VAL
#define VAL(x) (*(double *)(x))
static int clamp_double(const m_option_t *opt, void *val)
{
double v = VAL(val);
int r = 0;
if ((opt->flags & M_OPT_MAX) && (v > opt->max)) {
v = opt->max;
r = M_OPT_OUT_OF_RANGE;
}
if ((opt->flags & M_OPT_MIN) && (v < opt->min)) {
v = opt->min;
r = M_OPT_OUT_OF_RANGE;
}
if (!isfinite(v)) {
v = opt->min;
r = M_OPT_OUT_OF_RANGE;
}
VAL(val) = v;
return r;
}
static int parse_double(struct mp_log *log, const m_option_t *opt,
struct bstr name, struct bstr param, void *dst)
{
if (param.len == 0)
return M_OPT_MISSING_PARAM;
struct bstr rest;
double tmp_float = bstrtod(param, &rest);
if (bstr_eatstart0(&rest, ":") || bstr_eatstart0(&rest, "/"))
tmp_float /= bstrtod(rest, &rest);
if (rest.len) {
mp_err(log, "The %.*s option must be a floating point number or a "
"ratio (numerator[:/]denominator): %.*s\n",
BSTR_P(name), BSTR_P(param));
return M_OPT_INVALID;
}
if (opt->flags & M_OPT_MIN)
if (tmp_float < opt->min) {
mp_err(log, "The %.*s option must be >= %f: %.*s\n",
BSTR_P(name), opt->min, BSTR_P(param));
return M_OPT_OUT_OF_RANGE;
}
if (opt->flags & M_OPT_MAX)
if (tmp_float > opt->max) {
mp_err(log, "The %.*s option must be <= %f: %.*s\n",
BSTR_P(name), opt->max, BSTR_P(param));
return M_OPT_OUT_OF_RANGE;
}
if (!isfinite(tmp_float)) {
mp_err(log, "The %.*s option must be a finite number: %.*s\n",
BSTR_P(name), BSTR_P(param));
return M_OPT_OUT_OF_RANGE;
}
if (dst)
VAL(dst) = tmp_float;
return 1;
}
static char *print_double(const m_option_t *opt, const void *val)
{
return talloc_asprintf(NULL, "%f", VAL(val));
}
static char *print_double_f3(const m_option_t *opt, const void *val)
{
return talloc_asprintf(NULL, "%.3f", VAL(val));
}
static void add_double(const m_option_t *opt, void *val, double add, bool wrap)
{
double v = VAL(val);
v = v + add;
double min = (opt->flags & M_OPT_MIN) ? opt->min : -INFINITY;
double max = (opt->flags & M_OPT_MAX) ? opt->max : +INFINITY;
if (v < min)
v = wrap ? max : min;
if (v > max)
v = wrap ? min : max;
VAL(val) = v;
}
static void multiply_double(const m_option_t *opt, void *val, double f)
{
*(double *)val *= f;
clamp_double(opt, val);
}
static int double_set(const m_option_t *opt, void *dst, struct mpv_node *src)
{
double val;
if (src->format == MPV_FORMAT_INT64) {
// Can't always be represented exactly, but don't care.
val = src->u.int64;
} else if (src->format == MPV_FORMAT_DOUBLE) {
val = src->u.double_;
} else {
return M_OPT_UNKNOWN;
}
if ((opt->flags & M_OPT_MIN) && val < opt->min)
return M_OPT_OUT_OF_RANGE;
if ((opt->flags & M_OPT_MAX) && val > opt->max)
return M_OPT_OUT_OF_RANGE;
if (!isfinite(val))
return M_OPT_OUT_OF_RANGE;
*(double *)dst = val;
return 1;
}
static int double_get(const m_option_t *opt, void *ta_parent,
struct mpv_node *dst, void *src)
{
dst->format = MPV_FORMAT_DOUBLE;
dst->u.double_ = *(double *)src;
return 1;
}
const m_option_type_t m_option_type_double = {
// double precision float or ratio (numerator[:/]denominator)
.name = "Double",
.size = sizeof(double),
.parse = parse_double,
.print = print_double,
.pretty_print = print_double_f3,
.copy = copy_opt,
.clamp = clamp_double,
.add = add_double,
.multiply = multiply_double,
.set = double_set,
.get = double_get,
};
#undef VAL
#define VAL(x) (*(float *)(x))
static int clamp_float(const m_option_t *opt, void *val)
{
double tmp = VAL(val);
int r = clamp_double(opt, &tmp);
VAL(val) = tmp;
return r;
}
static int parse_float(struct mp_log *log, const m_option_t *opt,
struct bstr name, struct bstr param, void *dst)
{
double tmp;
int r = parse_double(log, opt, name, param, &tmp);
if (r == 1 && dst)
VAL(dst) = tmp;
return r;
}
static char *print_float(const m_option_t *opt, const void *val)
{
return talloc_asprintf(NULL, "%f", VAL(val));
}
static char *print_float_f3(const m_option_t *opt, const void *val)
{
return talloc_asprintf(NULL, "%.3f", VAL(val));
}
static void add_float(const m_option_t *opt, void *val, double add, bool wrap)
{
double tmp = VAL(val);
add_double(opt, &tmp, add, wrap);
VAL(val) = tmp;
}
static void multiply_float(const m_option_t *opt, void *val, double f)
{
double tmp = VAL(val);
multiply_double(opt, &tmp, f);
VAL(val) = tmp;
}
static int float_set(const m_option_t *opt, void *dst, struct mpv_node *src)
{
double tmp;
int r = double_set(opt, &tmp, src);
if (r >= 0)
VAL(dst) = tmp;
return r;
}
static int float_get(const m_option_t *opt, void *ta_parent,
struct mpv_node *dst, void *src)
{
dst->format = MPV_FORMAT_DOUBLE;
dst->u.double_ = VAL(src);
return 1;
}
const m_option_type_t m_option_type_float = {
// floating point number or ratio (numerator[:/]denominator)
.name = "Float",
.size = sizeof(float),
.parse = parse_float,
.print = print_float,
.pretty_print = print_float_f3,
.copy = copy_opt,
.add = add_float,
.multiply = multiply_float,
.clamp = clamp_float,
.set = float_set,
.get = float_get,
};
///////////// String
#undef VAL
#define VAL(x) (*(char **)(x))
static int clamp_str(const m_option_t *opt, void *val)
{
char *v = VAL(val);
int len = v ? strlen(v) : 0;
if ((opt->flags & M_OPT_MIN) && (len < opt->min))
return M_OPT_OUT_OF_RANGE;
if ((opt->flags & M_OPT_MAX) && (len > opt->max))
return M_OPT_OUT_OF_RANGE;
return 0;
}
static int parse_str(struct mp_log *log, const m_option_t *opt,
struct bstr name, struct bstr param, void *dst)
{
if (param.start == NULL)
return M_OPT_MISSING_PARAM;
m_opt_string_validate_fn validate = opt->priv;
if (validate) {
int r = validate(log, opt, name, param);
if (r < 0)
return r;
}
if ((opt->flags & M_OPT_MIN) && (param.len < opt->min)) {
mp_err(log, "Parameter must be >= %d chars: %.*s\n",
(int) opt->min, BSTR_P(param));
return M_OPT_OUT_OF_RANGE;
}
if ((opt->flags & M_OPT_MAX) && (param.len > opt->max)) {
mp_err(log, "Parameter must be <= %d chars: %.*s\n",
(int) opt->max, BSTR_P(param));
return M_OPT_OUT_OF_RANGE;
}
if (dst) {
talloc_free(VAL(dst));
VAL(dst) = bstrdup0(NULL, param);
}
return 0;
}
static char *print_str(const m_option_t *opt, const void *val)
{
return talloc_strdup(NULL, VAL(val) ? VAL(val) : "");
}
static void copy_str(const m_option_t *opt, void *dst, const void *src)
{
if (dst && src) {
talloc_free(VAL(dst));
VAL(dst) = talloc_strdup(NULL, VAL(src));
}
}
static int str_set(const m_option_t *opt, void *dst, struct mpv_node *src)
{
if (src->format != MPV_FORMAT_STRING)
return M_OPT_UNKNOWN;
char *s = src->u.string;
int r = s ? clamp_str(opt, &s) : M_OPT_INVALID;
if (r >= 0)
copy_str(opt, dst, &s);
return r;
}
static int str_get(const m_option_t *opt, void *ta_parent,
struct mpv_node *dst, void *src)
{
dst->format = MPV_FORMAT_STRING;
dst->u.string = talloc_strdup(ta_parent, VAL(src) ? VAL(src) : "");
return 1;
}
static void free_str(void *src)
{
if (src && VAL(src)) {
talloc_free(VAL(src));
VAL(src) = NULL;
}
}
const m_option_type_t m_option_type_string = {
.name = "String",
.size = sizeof(char *),
.flags = M_OPT_TYPE_DYNAMIC,
.parse = parse_str,
.print = print_str,
.copy = copy_str,
.free = free_str,
.clamp = clamp_str,
.set = str_set,
.get = str_get,
};
//////////// String list
#undef VAL
#define VAL(x) (*(char ***)(x))
#define OP_NONE 0
#define OP_ADD 1
#define OP_PRE 2
#define OP_DEL 3
#define OP_CLR 4
#define OP_TOGGLE 5
static void free_str_list(void *dst)
{
char **d;
int i;
if (!dst || !VAL(dst))
return;
d = VAL(dst);
for (i = 0; d[i] != NULL; i++)
talloc_free(d[i]);
talloc_free(d);
VAL(dst) = NULL;
}
static int str_list_add(char **add, int n, void *dst, int pre)
{
if (!dst)
return M_OPT_PARSER_ERR;
char **lst = VAL(dst);
int ln;
for (ln = 0; lst && lst[ln]; ln++)
/**/;
lst = talloc_realloc(NULL, lst, char *, n + ln + 1);
if (pre) {
memmove(&lst[n], lst, ln * sizeof(char *));
memcpy(lst, add, n * sizeof(char *));
} else
memcpy(&lst[ln], add, n * sizeof(char *));
// (re-)add NULL-termination
lst[ln + n] = NULL;
talloc_free(add);
VAL(dst) = lst;
return 1;
}
static int str_list_del(struct mp_log *log, char **del, int n, void *dst)
{
char **lst, *ep;
int i, ln, s;
long idx;
if (!dst)
return M_OPT_PARSER_ERR;
lst = VAL(dst);
for (ln = 0; lst && lst[ln]; ln++)
/**/;
s = ln;
for (i = 0; del[i] != NULL; i++) {
idx = strtol(del[i], &ep, 0);
if (*ep) {
mp_err(log, "Invalid index: %s\n", del[i]);
talloc_free(del[i]);
continue;
}
talloc_free(del[i]);
if (idx < 0 || idx >= ln) {
mp_err(log, "Index %ld is out of range.\n", idx);
continue;
} else if (!lst[idx])
continue;
talloc_free(lst[idx]);
lst[idx] = NULL;
s--;
}
talloc_free(del);
if (s == 0) {
talloc_free(lst);
VAL(dst) = NULL;
return 1;
}
// Don't bother shrinking the list allocation
for (i = 0, n = 0; i < ln; i++) {
if (!lst[i])
continue;
lst[n] = lst[i];
n++;
}
lst[s] = NULL;
return 1;
}
static struct bstr get_nextsep(struct bstr *ptr, char sep, bool modify)
{
struct bstr str = *ptr;
struct bstr orig = str;
for (;;) {
int idx = bstrchr(str, sep);
if (idx > 0 && str.start[idx - 1] == '\\') {
if (modify) {
memmove(str.start + idx - 1, str.start + idx, str.len - idx);
str.len--;
str = bstr_cut(str, idx);
} else
str = bstr_cut(str, idx + 1);
} else {
str = bstr_cut(str, idx < 0 ? str.len : idx);
break;
}
}
*ptr = str;
return bstr_splice(orig, 0, str.start - orig.start);
}
static int parse_str_list(struct mp_log *log, const m_option_t *opt,
struct bstr name, struct bstr param, void *dst)
{
char **res;
int op = OP_NONE;
if (bstr_endswith0(bstr0(opt->name), "*")) {
struct bstr suffix = bstr_cut(name, strlen(opt->name) - 1);
if (bstrcmp0(suffix, "-add") == 0)
op = OP_ADD;
else if (bstrcmp0(suffix, "-pre") == 0)
op = OP_PRE;
else if (bstrcmp0(suffix, "-del") == 0)
op = OP_DEL;
else if (bstrcmp0(suffix, "-clr") == 0)
op = OP_CLR;
else if (suffix.len == 0)
op = OP_NONE;
else
return M_OPT_UNKNOWN;
}
// Clear the list ??
if (op == OP_CLR) {
if (dst)
free_str_list(dst);
return 0;
}
// All other ops need a param
if (param.len == 0 && op != OP_NONE)
return M_OPT_MISSING_PARAM;
// custom type for "profile" calls this but uses ->priv for something else
char separator = opt->type == &m_option_type_string_list && opt->priv ?
*(char *)opt->priv : OPTION_LIST_SEPARATOR;
int n = 0;
struct bstr str = param;
while (str.len) {
get_nextsep(&str, separator, 0);
str = bstr_cut(str, 1);
n++;
}
if (n == 0 && op != OP_NONE)
return M_OPT_INVALID;
if (((opt->flags & M_OPT_MIN) && (n < opt->min)) ||
((opt->flags & M_OPT_MAX) && (n > opt->max)))
return M_OPT_OUT_OF_RANGE;
if (!dst)
return 1;
res = talloc_array(NULL, char *, n + 2);
str = bstrdup(NULL, param);
char *ptr = str.start;
n = 0;
while (1) {
struct bstr el = get_nextsep(&str, separator, 1);
res[n] = bstrdup0(NULL, el);
n++;
if (!str.len)
break;
str = bstr_cut(str, 1);
}
res[n] = NULL;
talloc_free(ptr);
switch (op) {
case OP_ADD:
return str_list_add(res, n, dst, 0);
case OP_PRE:
return str_list_add(res, n, dst, 1);
case OP_DEL:
return str_list_del(log, res, n, dst);
}
if (VAL(dst))
free_str_list(dst);
VAL(dst) = res;
if (!res[0])
free_str_list(dst);
return 1;
}
static void copy_str_list(const m_option_t *opt, void *dst, const void *src)
{
int n;
char **d, **s;
if (!(dst && src))
return;
s = VAL(src);
if (VAL(dst))
free_str_list(dst);
if (!s) {
VAL(dst) = NULL;
return;
}
for (n = 0; s[n] != NULL; n++)
/* NOTHING */;
d = talloc_array(NULL, char *, n + 1);
for (; n >= 0; n--)
d[n] = talloc_strdup(NULL, s[n]);
VAL(dst) = d;
}
static char *print_str_list(const m_option_t *opt, const void *src)
{
char **lst = NULL;
char *ret = NULL;
if (!(src && VAL(src)))
return talloc_strdup(NULL, "");
lst = VAL(src);
for (int i = 0; lst[i]; i++) {
if (ret)
ret = talloc_strdup_append_buffer(ret, ",");
ret = talloc_strdup_append_buffer(ret, lst[i]);
}
return ret;
}
static int str_list_set(const m_option_t *opt, void *dst, struct mpv_node *src)
{
if (src->format != MPV_FORMAT_NODE_ARRAY)
return M_OPT_UNKNOWN;
struct mpv_node_list *srclist = src->u.list;
for (int n = 0; n < srclist->num; n++) {
if (srclist->values[n].format != MPV_FORMAT_STRING)
return M_OPT_INVALID;
}
free_str_list(dst);
if (srclist->num > 0) {
VAL(dst) = talloc_array(NULL, char*, srclist->num + 1);
for (int n = 0; n < srclist->num; n++)
VAL(dst)[n] = talloc_strdup(NULL, srclist->values[n].u.string);
VAL(dst)[srclist->num] = NULL;
}
return 1;
}
static int str_list_get(const m_option_t *opt, void *ta_parent,
struct mpv_node *dst, void *src)
{
dst->format = MPV_FORMAT_NODE_ARRAY;
dst->u.list = talloc_zero(ta_parent, struct mpv_node_list);
struct mpv_node_list *list = dst->u.list;
for (int n = 0; VAL(src) && VAL(src)[n]; n++) {
struct mpv_node node;
node.format = MPV_FORMAT_STRING;
node.u.string = talloc_strdup(list, VAL(src)[n]);
MP_TARRAY_APPEND(list, list->values, list->num, node);
}
return 1;
}
const m_option_type_t m_option_type_string_list = {
/* A list of strings separated by ','.
* Option with a name ending in '*' permits using the following suffixes:
* -add: Add the given parameters at the end of the list.
* -pre: Add the given parameters at the beginning of the list.
* -del: Remove the entry at the given indices.
* -clr: Clear the list.
* e.g: -vf-add flip,mirror -vf-del 2,5
*/
.name = "String list",
.size = sizeof(char **),
.flags = M_OPT_TYPE_DYNAMIC | M_OPT_TYPE_ALLOW_WILDCARD,
.parse = parse_str_list,
.print = print_str_list,
.copy = copy_str_list,
.free = free_str_list,
.get = str_list_get,
.set = str_list_set,
};
static void str_list_append(void *dst, bstr s)
{
if (!dst)
return;
char **list= VAL(dst);
int len = 0;
while (list && list[len])
len++;
MP_TARRAY_APPEND(NULL, list, len, bstrto0(NULL, s));
MP_TARRAY_APPEND(NULL, list, len, NULL);
VAL(dst) = list;
}
static int parse_str_append_list(struct mp_log *log, const m_option_t *opt,
struct bstr name, struct bstr param, void *dst)
{
if (param.len == 0)
return M_OPT_MISSING_PARAM;
str_list_append(dst, param);
return 1;
}
const m_option_type_t m_option_type_string_append_list = {
.name = "String list",
.size = sizeof(char **),
.flags = M_OPT_TYPE_DYNAMIC,
.parse = parse_str_append_list,
.print = print_str_list,
.copy = copy_str_list,
.free = free_str_list,
.get = str_list_get,
.set = str_list_set,
};
static int read_subparam(struct mp_log *log, bstr optname,
bstr *str, bstr *out_subparam);
static int parse_keyvalue_list(struct mp_log *log, const m_option_t *opt,
struct bstr name, struct bstr param, void *dst)
{
char **lst = NULL;
int num = 0;
int r = 0;
while (param.len) {
bstr key, val;
r = read_subparam(log, name, &param, &key);
if (r < 0)
break;
if (!bstr_eatstart0(&param, "=")) {
mp_err(log, "Expected '=' and a value.\n");
r = M_OPT_INVALID;
break;
}
r = read_subparam(log, name, &param, &val);
if (r < 0)
break;
if (dst) {
MP_TARRAY_APPEND(NULL, lst, num, bstrto0(NULL, key));
MP_TARRAY_APPEND(NULL, lst, num, bstrto0(NULL, val));
}
if (!bstr_eatstart0(&param, ","))
break;
}
if (dst)
MP_TARRAY_APPEND(NULL, lst, num, NULL);
if (param.len) {
mp_err(log, "Unparseable garbage at end of option value: '%.*s'\n",
BSTR_P(param));
r = M_OPT_INVALID;
}
if (dst) {
VAL(dst) = lst;
if (r < 0)
free_str_list(dst);
}
return r;
}
static char *print_keyvalue_list(const m_option_t *opt, const void *src)
{
char **lst = VAL(src);
char *ret = talloc_strdup(NULL, "");
for (int n = 0; lst && lst[n] && lst[n + 1]; n += 2) {
if (ret[0])
ret = talloc_strdup_append(ret, ",");
ret = talloc_asprintf_append(ret, "%s=%s", lst[n], lst[n + 1]);
}
return ret;
}
static int keyvalue_list_set(const m_option_t *opt, void *dst,
struct mpv_node *src)
{
if (src->format != MPV_FORMAT_NODE_MAP)
return M_OPT_UNKNOWN;
struct mpv_node_list *srclist = src->u.list;
for (int n = 0; n < srclist->num; n++) {
if (srclist->values[n].format != MPV_FORMAT_STRING)
return M_OPT_INVALID;
}
free_str_list(dst);
if (srclist->num > 0) {
VAL(dst) = talloc_array(NULL, char*, (srclist->num + 1) * 2);
for (int n = 0; n < srclist->num; n++) {
VAL(dst)[n * 2 + 0] = talloc_strdup(NULL, srclist->keys[n]);
VAL(dst)[n * 2 + 1] = talloc_strdup(NULL, srclist->values[n].u.string);
}
VAL(dst)[srclist->num * 2 + 0] = NULL;
VAL(dst)[srclist->num * 2 + 1] = NULL;
}
return 1;
}
static int keyvalue_list_get(const m_option_t *opt, void *ta_parent,
struct mpv_node *dst, void *src)
{
dst->format = MPV_FORMAT_NODE_MAP;
dst->u.list = talloc_zero(ta_parent, struct mpv_node_list);
struct mpv_node_list *list = dst->u.list;
for (int n = 0; VAL(src) && VAL(src)[n * 2 + 0]; n++) {
MP_TARRAY_GROW(list, list->values, list->num);
MP_TARRAY_GROW(list, list->keys, list->num);
list->keys[list->num] = talloc_strdup(list, VAL(src)[n * 2 + 0]);
list->values[list->num] = (struct mpv_node){
.format = MPV_FORMAT_STRING,
.u.string = talloc_strdup(list, VAL(src)[n * 2 + 1]),
};
list->num++;
}
return 1;
}
const m_option_type_t m_option_type_keyvalue_list = {
.name = "Key/value list",
.size = sizeof(char **),
.flags = M_OPT_TYPE_DYNAMIC,
.parse = parse_keyvalue_list,
.print = print_keyvalue_list,
.copy = copy_str_list,
.free = free_str_list,
.get = keyvalue_list_get,
.set = keyvalue_list_set,
};
/////////////////// Print
static int parse_print(struct mp_log *log, const m_option_t *opt,
struct bstr name, struct bstr param, void *dst)
{
((m_opt_print_fn) opt->priv)(log);
return M_OPT_EXIT;
}
const m_option_type_t m_option_type_print_fn = {
.name = "Print",
.flags = M_OPT_TYPE_ALLOW_WILDCARD | M_OPT_TYPE_OPTIONAL_PARAM,
.parse = parse_print,
};
/////////////////////// Subconfig
#undef VAL
#define VAL(x) (*(char ***)(x))
// Read s sub-option name, or a positional sub-opt value.
// Return 0 on succes, M_OPT_ error code otherwise.
// optname is for error reporting.
static int read_subparam(struct mp_log *log, bstr optname,
bstr *str, bstr *out_subparam)
{
bstr p = *str;
bstr subparam = {0};
if (bstr_eatstart0(&p, "\"")) {
int optlen = bstrcspn(p, "\"");
subparam = bstr_splice(p, 0, optlen);
p = bstr_cut(p, optlen);
if (!bstr_startswith0(p, "\"")) {
mp_err(log, "Terminating '\"' missing for '%.*s'\n",
BSTR_P(optname));
return M_OPT_INVALID;
}
p = bstr_cut(p, 1);
} else if (bstr_eatstart0(&p, "[")) {
if (!bstr_split_tok(p, "]", &subparam, &p)) {
mp_err(log, "Terminating ']' missing for '%.*s'\n",
BSTR_P(optname));
return M_OPT_INVALID;
}
} else if (bstr_eatstart0(&p, "%")) {
int optlen = bstrtoll(p, &p, 0);
if (!bstr_startswith0(p, "%") || (optlen > p.len - 1)) {
mp_err(log, "Invalid length %d for '%.*s'\n",
optlen, BSTR_P(optname));
return M_OPT_INVALID;
}
subparam = bstr_splice(p, 1, optlen + 1);
p = bstr_cut(p, optlen + 1);
} else {
// Skip until the next character that could possibly be a meta
// character in option parsing.
int optlen = bstrcspn(p, ":=,\\%\"'[]");
subparam = bstr_splice(p, 0, optlen);
p = bstr_cut(p, optlen);
}
*str = p;
*out_subparam = subparam;
return 0;
}
// Return 0 on success, otherwise error code
// On success, set *out_name and *out_val, and advance *str
// out_val.start is NULL if there was no parameter.
// optname is for error reporting.
static int split_subconf(struct mp_log *log, bstr optname, bstr *str,
bstr *out_name, bstr *out_val)
{
bstr p = *str;
bstr subparam = {0};
bstr subopt;
int r = read_subparam(log, optname, &p, &subopt);
if (r < 0)
return r;
if (bstr_eatstart0(&p, "=")) {
r = read_subparam(log, subopt, &p, &subparam);
if (r < 0)
return r;
}
*str = p;
*out_name = subopt;
*out_val = subparam;
return 0;
}
static int parse_subconf(struct mp_log *log, const m_option_t *opt,
struct bstr name, struct bstr param, void *dst)
{
int nr = 0;
char **lst = NULL;
if (param.len == 0)
return M_OPT_MISSING_PARAM;
struct bstr p = param;
while (p.len) {
bstr subopt, subparam;
int r = split_subconf(log, name, &p, &subopt, &subparam);
if (r < 0)
return r;
if (bstr_startswith0(p, ":"))
p = bstr_cut(p, 1);
else if (p.len > 0) {
mp_err(log, "Incorrect termination for '%.*s'\n", BSTR_P(subopt));
return M_OPT_INVALID;
}
if (dst) {
lst = talloc_realloc(NULL, lst, char *, 2 * (nr + 2));
lst[2 * nr] = bstrto0(lst, subopt);
lst[2 * nr + 1] = bstrto0(lst, subparam);
memset(&lst[2 * (nr + 1)], 0, 2 * sizeof(char *));
nr++;
}
}
if (dst)
VAL(dst) = lst;
return 1;
}
const m_option_type_t m_option_type_subconfig = {
.name = "Subconfig",
.flags = M_OPT_TYPE_HAS_CHILD,
.parse = parse_subconf,
};
#undef VAL
#define VAL(x) (*(char **)(x))
static int parse_msglevels(struct mp_log *log, const m_option_t *opt,
struct bstr name, struct bstr param, void *dst)
{
if (param.start == NULL)
return M_OPT_MISSING_PARAM;
if (bstr_equals0(param, "help")) {
mp_info(log, "Syntax: --msglevel=module1=level:module2=level:...\n"
"'module' is output prefix as shown with -v, or a prefix\n"
"of it. level is one of:\n\n"
" fatal error warn info status v debug trace\n\n"
"The level specifies the minimum log level a message\n"
"must have to be printed.\n"
"The special module name 'all' affects all modules.\n");
return M_OPT_EXIT;
}
bstr s = param;
while (1) {
int res = mp_msg_split_msglevel(&s, &(bstr){0}, &(int){0});
if (res == 0)
break;
if (res < 0) {
mp_err(log, "Invalid syntax: %.*s\n", BSTR_P(s));
return M_OPT_INVALID;
}
}
if (dst && param.len) {
char *prev = VAL(dst);
char *new;
if (prev && prev[0]) {
new = talloc_asprintf(NULL, "%s:%.*s", prev, BSTR_P(param));
} else {
new = bstrdup0(NULL, param);
}
talloc_free(prev);
VAL(dst) = new;
}
return 1;
}
const m_option_type_t m_option_type_msglevels = {
.name = "Output verbosity levels",
.size = sizeof(char *),
.flags = M_OPT_TYPE_DYNAMIC,
.parse = parse_msglevels,
.print = print_str,
.copy = copy_str,
.free = free_str,
};
#undef VAL
// Split the string on the given split character.
// out_arr is at least max entries long.
// Return number of out_arr entries filled.
static int split_char(bstr str, unsigned char split, int max, bstr *out_arr)
{
if (max < 1)
return 0;
int count = 0;
while (1) {
int next = bstrchr(str, split);
if (next >= 0 && max - count > 1) {
out_arr[count++] = bstr_splice(str, 0, next);
str = bstr_cut(str, next + 1);
} else {
out_arr[count++] = str;
break;
}
}
return count;
}
static int parse_color(struct mp_log *log, const m_option_t *opt,
struct bstr name, struct bstr param, void *dst)
{
if (param.len == 0)
return M_OPT_MISSING_PARAM;
bstr val = param;
struct m_color color = {0};
if (bstr_eatstart0(&val, "#")) {
// #[AA]RRGGBB
if (val.len != 6 && val.len != 8)
goto error;
bool has_alpha = val.len == 8;
uint32_t c = bstrtoll(val, &val, 16);
if (val.len)
goto error;
color = (struct m_color) {
(c >> 16) & 0xFF,
(c >> 8) & 0xFF,
c & 0xFF,
has_alpha ? (c >> 24) & 0xFF : 0xFF,
};
} else {
bstr comp_str[5];
int num = split_char(param, '/', 5, comp_str);
if (num < 1 || num > 4)
goto error;
double comp[4] = {0, 0, 0, 1};
for (int n = 0; n < num; n++) {
bstr rest;
double d = bstrtod(comp_str[n], &rest);
if (rest.len || !comp_str[n].len || d < 0 || d > 1 || !isfinite(d))
goto error;
comp[n] = d;
}
if (num == 2)
comp[3] = comp[1];
if (num < 3)
comp[2] = comp[1] = comp[0];
color = (struct m_color) { comp[0] * 0xFF, comp[1] * 0xFF,
comp[2] * 0xFF, comp[3] * 0xFF };
}
if (dst)
*((struct m_color *)dst) = color;
return 1;
error:
mp_err(log, "Option %.*s: invalid color: '%.*s'\n",
BSTR_P(name), BSTR_P(param));
mp_err(log, "Valid colors must be in the form #RRGGBB or #AARRGGBB (in hex)\n"
"Or in the form 'r/g/b/a', where each component is a value in the\n"
"range 0.0-1.0. (Also allowed: 'gray', 'gray/a', 'r/g/b'.\n");
return M_OPT_INVALID;
}
const m_option_type_t m_option_type_color = {
.name = "Color",
.size = sizeof(struct m_color),
.parse = parse_color,
.copy = copy_opt,
};
// Parse a >=0 number starting at s. Set s to the string following the number.
// If the number ends with '%', eat that and set *out_per to true, but only
// if the number is between 0-100; if not, don't eat anything, even the number.
static bool eat_num_per(bstr *s, int *out_num, bool *out_per)
{
bstr rest;
long long v = bstrtoll(*s, &rest, 10);
if (s->len == rest.len || v < INT_MIN || v > INT_MAX)
return false;
*out_num = v;
*out_per = false;
*s = rest;
if (bstr_eatstart0(&rest, "%") && v >= 0 && v <= 100) {
*out_per = true;
*s = rest;
}
return true;
}
static bool parse_geometry_str(struct m_geometry *gm, bstr s)
{
*gm = (struct m_geometry) { .x = INT_MIN, .y = INT_MIN };
if (s.len == 0)
return true;
// Approximate grammar:
// [W[xH]][{+-}X{+-}Y] | [X:Y]
// (meaning: [optional] {one character of} one|alternative)
// Every number can be followed by '%'
int num;
bool per;
#define READ_NUM(F, F_PER) do { \
if (!eat_num_per(&s, &num, &per)) \
goto error; \
gm->F = num; \
gm->F_PER = per; \
} while(0)
#define READ_SIGN(F) do { \
if (bstr_eatstart0(&s, "+")) { \
gm->F = false; \
} else if (bstr_eatstart0(&s, "-")) {\
gm->F = true; \
} else goto error; \
} while(0)
if (bstrchr(s, ':') < 0) {
gm->wh_valid = true;
if (!bstr_startswith0(s, "+") && !bstr_startswith0(s, "-")) {
READ_NUM(w, w_per);
if (bstr_eatstart0(&s, "x"))
READ_NUM(h, h_per);
}
if (s.len > 0) {
gm->xy_valid = true;
READ_SIGN(x_sign);
READ_NUM(x, x_per);
READ_SIGN(y_sign);
READ_NUM(y, y_per);
}
} else {
gm->xy_valid = true;
READ_NUM(x, x_per);
if (!bstr_eatstart0(&s, ":"))
goto error;
READ_NUM(y, y_per);
}
return s.len == 0;
error:
return false;
}
#undef READ_NUM
#undef READ_SIGN
// xpos,ypos: position of the left upper corner
// widw,widh: width and height of the window
// scrw,scrh: width and height of the current screen
// The input parameters should be set to a centered window (default fallbacks).
void m_geometry_apply(int *xpos, int *ypos, int *widw, int *widh,
int scrw, int scrh, struct m_geometry *gm)
{
if (gm->wh_valid) {
int prew = *widw, preh = *widh;
if (gm->w > 0)
*widw = gm->w_per ? scrw * (gm->w / 100.0) : gm->w;
if (gm->h > 0)
*widh = gm->h_per ? scrh * (gm->h / 100.0) : gm->h;
// keep aspect if the other value is not set
double asp = (double)prew / preh;
if (gm->w > 0 && !(gm->h > 0)) {
*widh = *widw / asp;
} else if (!(gm->w > 0) && gm->h > 0) {
*widw = *widh * asp;
}
}
if (gm->xy_valid) {
if (gm->x != INT_MIN) {
*xpos = gm->x;
if (gm->x_per)
*xpos = (scrw - *widw) * (*xpos / 100.0);
if (gm->x_sign)
*xpos = scrw - *widw - *xpos;
}
if (gm->y != INT_MIN) {
*ypos = gm->y;
if (gm->y_per)
*ypos = (scrh - *widh) * (*ypos / 100.0);
if (gm->y_sign)
*ypos = scrh - *widh - *ypos;
}
}
}
static int parse_geometry(struct mp_log *log, const m_option_t *opt,
struct bstr name, struct bstr param, void *dst)
{
struct m_geometry gm;
if (!parse_geometry_str(&gm, param))
goto error;
if (dst)
*((struct m_geometry *)dst) = gm;
return 1;
error:
mp_err(log, "Option %.*s: invalid geometry: '%.*s'\n",
BSTR_P(name), BSTR_P(param));
mp_err(log, "Valid format: [W[%%][xH[%%]]][{+-}X[%%]{+-}Y[%%]] | [X[%%]:Y[%%]]\n");
return M_OPT_INVALID;
}
const m_option_type_t m_option_type_geometry = {
.name = "Window geometry",
.size = sizeof(struct m_geometry),
.parse = parse_geometry,
.copy = copy_opt,
};
static int parse_size_box(struct mp_log *log, const m_option_t *opt,
struct bstr name, struct bstr param, void *dst)
{
struct m_geometry gm;
if (!parse_geometry_str(&gm, param))
goto error;
if (gm.xy_valid)
goto error;
if (dst)
*((struct m_geometry *)dst) = gm;
return 1;
error:
mp_err(log, "Option %.*s: invalid size: '%.*s'\n",
BSTR_P(name), BSTR_P(param));
mp_err(log, "Valid format: W[%%][xH[%%]] or empty string\n");
return M_OPT_INVALID;
}
const m_option_type_t m_option_type_size_box = {
.name = "Window size",
.size = sizeof(struct m_geometry),
.parse = parse_size_box,
.copy = copy_opt,
};
#include "video/img_format.h"
static int parse_imgfmt(struct mp_log *log, const m_option_t *opt,
struct bstr name, struct bstr param, void *dst)
{
if (param.len == 0)
return M_OPT_MISSING_PARAM;
if (!bstrcmp0(param, "help")) {
mp_info(log, "Available formats:");
char **list = mp_imgfmt_name_list();
for (int i = 0; list[i]; i++)
mp_info(log, " %s", list[i]);
mp_info(log, "\n");
talloc_free(list);
return M_OPT_EXIT - 1;
}
unsigned int fmt = mp_imgfmt_from_name(param, true);
if (!fmt) {
mp_err(log, "Option %.*s: unknown format name: '%.*s'\n",
BSTR_P(name), BSTR_P(param));
return M_OPT_INVALID;
}
if (dst)
*((uint32_t *)dst) = fmt;
return 1;
}
const m_option_type_t m_option_type_imgfmt = {
// Please report any missing colorspaces
.name = "Image format",
.size = sizeof(uint32_t),
.parse = parse_imgfmt,
.copy = copy_opt,
};
#include "video/csputils.h"
static int parse_stereo_mode(struct mp_log *log, const m_option_t *opt,
struct bstr name, struct bstr param, void *dst)
{
if (param.len == 0)
return M_OPT_MISSING_PARAM;
if (!bstrcmp0(param, "help")) {
mp_info(log, "Available modes:");
for (int n = 0; n < MP_STEREO3D_COUNT; n++) {
if (mp_stereo3d_names[n])
mp_info(log, " %s\n", mp_stereo3d_names[n]);
}
mp_info(log, " none\n");
return M_OPT_EXIT - 1;
}
int mode = -1;
for (int n = 0; n < MP_STEREO3D_COUNT; n++) {
if (bstr_equals(param, bstr0(mp_stereo3d_names[n]))) {
mode = n;
break;
}
}
if (mode < 0 && !bstr_equals0(param, "none")) {
mp_err(log, "Option %.*s: unknown parameter: '%.*s'\n",
BSTR_P(name), BSTR_P(param));
return M_OPT_INVALID;
}
if (dst)
*((int *)dst) = mode;
return 1;
}
static char *print_stereo_mode(const m_option_t *opt, const void *val)
{
int mode = *(int *)val;
const char *name = mode >= 0 ? MP_STEREO3D_NAME(mode) : "none";
return talloc_strdup(NULL, name);
}
const m_option_type_t m_option_vid_stereo_mode = {
.name = "Stereo 3D mode",
.size = sizeof(int),
.parse = parse_stereo_mode,
.print = print_stereo_mode,
};
static int parse_fourcc(struct mp_log *log, const m_option_t *opt,
struct bstr name, struct bstr param, void *dst)
{
if (param.len == 0)
return M_OPT_MISSING_PARAM;
unsigned int value;
if (param.len == 4) {
uint8_t *s = param.start;
value = s[0] | (s[1] << 8) | (s[2] << 16) | (s[3] << 24);
} else {
bstr rest;
value = bstrtoll(param, &rest, 16);
if (rest.len != 0) {
mp_err(log, "Option %.*s: invalid FourCC: '%.*s'\n",
BSTR_P(name), BSTR_P(param));
return M_OPT_INVALID;
}
}
if (dst)
*((unsigned int *)dst) = value;
return 1;
}
const m_option_type_t m_option_type_fourcc = {
.name = "FourCC",
.size = sizeof(unsigned int),
.parse = parse_fourcc,
.copy = copy_opt,
};
#include "audio/format.h"
static int parse_afmt(struct mp_log *log, const m_option_t *opt,
struct bstr name, struct bstr param, void *dst)
{
if (param.len == 0)
return M_OPT_MISSING_PARAM;
if (!bstrcmp0(param, "help")) {
mp_info(log, "Available formats:");
for (int i = 0; af_fmtstr_table[i].name; i++)
mp_info(log, " %s", af_fmtstr_table[i].name);
mp_info(log, "\n");
return M_OPT_EXIT - 1;
}
int fmt = af_str2fmt_short(param);
if (!fmt) {
mp_err(log, "Option %.*s: unknown format name: '%.*s'\n",
BSTR_P(name), BSTR_P(param));
return M_OPT_INVALID;
}
if (dst)
*((uint32_t *)dst) = fmt;
return 1;
}
const m_option_type_t m_option_type_afmt = {
// Please report any missing formats
.name = "Audio format",
.size = sizeof(uint32_t),
.parse = parse_afmt,
.copy = copy_opt,
};
#include "audio/chmap.h"
static int parse_chmap(struct mp_log *log, const m_option_t *opt,
struct bstr name, struct bstr param, void *dst)
{
// min>0: at least min channels, min=0: empty ok
int min_ch = (opt->flags & M_OPT_MIN) ? opt->min : 1;
assert(min_ch >= 0);
if (bstr_equals0(param, "help")) {
mp_chmap_print_help(log);
return M_OPT_EXIT - 1;
}
if (param.len == 0 && min_ch >= 1)
return M_OPT_MISSING_PARAM;
struct mp_chmap res = {0};
if (!mp_chmap_from_str(&res, param)) {
mp_err(log, "Error parsing channel layout: %.*s\n", BSTR_P(param));
return M_OPT_INVALID;
}
if (!mp_chmap_is_valid(&res) && !(min_ch == 0 && mp_chmap_is_empty(&res))) {
mp_err(log, "Invalid channel layout: %.*s\n", BSTR_P(param));
return M_OPT_INVALID;
}
if (dst)
*(struct mp_chmap *)dst = res;
return 1;
}
const m_option_type_t m_option_type_chmap = {
.name = "Audio channels or channel map",
.size = sizeof(struct mp_chmap),
.parse = parse_chmap,
.copy = copy_opt,
};
static int parse_timestring(struct bstr str, double *time, char endchar)
{
int a, b, len;
double d;
*time = 0; /* ensure initialization for error cases */
if (bstr_sscanf(str, "%d:%d:%lf%n", &a, &b, &d, &len) >= 3)
*time = 3600 * a + 60 * b + d;
else if (bstr_sscanf(str, "%d:%lf%n", &a, &d, &len) >= 2)
*time = 60 * a + d;
else if (bstr_sscanf(str, "%lf%n", &d, &len) >= 1)
*time = d;
else
return 0; /* unsupported time format */
if (len < str.len && str.start[len] != endchar)
return 0; /* invalid extra characters at the end */
if (!isfinite(*time))
return 0;
return len;
}
static int parse_time(struct mp_log *log, const m_option_t *opt,
struct bstr name, struct bstr param, void *dst)
{
double time;
if (param.len == 0)
return M_OPT_MISSING_PARAM;
if (opt->min == MP_NOPTS_VALUE && bstr_equals0(param, "no")) {
time = MP_NOPTS_VALUE;
} else if (!parse_timestring(param, &time, 0)) {
mp_err(log, "Option %.*s: invalid time: '%.*s'\n",
BSTR_P(name), BSTR_P(param));
return M_OPT_INVALID;
}
if (dst)
*(double *)dst = time;
return 1;
}
static char *pretty_print_time(const m_option_t *opt, const void *val)
{
double pts = *(double *)val;
if (pts == MP_NOPTS_VALUE && opt->min == MP_NOPTS_VALUE)
return talloc_strdup(NULL, "no"); // symmetry with parsing
return mp_format_time(pts, false);
}
const m_option_type_t m_option_type_time = {
.name = "Time",
.size = sizeof(double),
.parse = parse_time,
.print = print_double,
.pretty_print = pretty_print_time,
.copy = copy_opt,
.add = add_double,
.clamp = clamp_double,
.set = double_set,
.get = double_get,
};
// Relative time
static int parse_rel_time(struct mp_log *log, const m_option_t *opt,
struct bstr name, struct bstr param, void *dst)
{
struct m_rel_time t = {0};
if (param.len == 0)
return M_OPT_MISSING_PARAM;
// Percent pos
if (bstr_endswith0(param, "%")) {
double percent = bstrtod(bstr_splice(param, 0, -1), &param);
if (param.len == 0 && percent >= 0 && percent <= 100) {
t.type = REL_TIME_PERCENT;
t.pos = percent;
goto out;
}
}
// Chapter pos
if (bstr_startswith0(param, "#")) {
int chapter = bstrtoll(bstr_cut(param, 1), &param, 10);
if (param.len == 0 && chapter >= 1) {
t.type = REL_TIME_CHAPTER;
t.pos = chapter - 1;
goto out;
}
}
double time;
if (parse_timestring(param, &time, 0)) {
if (bstr_startswith0(param, "+") || bstr_startswith0(param, "-")) {
t.type = REL_TIME_RELATIVE;
} else {
t.type = REL_TIME_ABSOLUTE;
}
t.pos = time;
goto out;
}
mp_err(log, "Option %.*s: invalid time or position: '%.*s'\n",
BSTR_P(name), BSTR_P(param));
return M_OPT_INVALID;
out:
if (dst)
*(struct m_rel_time *)dst = t;
return 1;
}
const m_option_type_t m_option_type_rel_time = {
.name = "Relative time or percent position",
.size = sizeof(struct m_rel_time),
.parse = parse_rel_time,
.copy = copy_opt,
};
//// Objects (i.e. filters, etc) settings
#undef VAL
#define VAL(x) (*(m_obj_settings_t **)(x))
bool m_obj_list_find(struct m_obj_desc *dst, const struct m_obj_list *l,
bstr name)
{
for (int i = 0; ; i++) {
if (!l->get_desc(dst, i))
break;
if (bstr_equals0(name, dst->name))
return true;
}
for (int i = 0; l->aliases[i][0]; i++) {
const char *aname = l->aliases[i][0];
const char *alias = l->aliases[i][1];
const char *opts = l->aliases[i][2];
if (bstr_equals0(name, aname) && m_obj_list_find(dst, l, bstr0(alias)))
{
if (opts) {
dst->init_options = opts;
} else {
// Assume it's deprecated in this case.
// Also, it's used by the VO code only, so whatever.
dst->replaced_name = aname;
}
return true;
}
}
return false;
}
static void obj_setting_free(m_obj_settings_t *item)
{
talloc_free(item->name);
talloc_free(item->label);
free_str_list(&(item->attribs));
}
// If at least one item has a label, compare labels only - otherwise ignore them.
static bool obj_setting_equals(m_obj_settings_t *a, m_obj_settings_t *b)
{
bstr la = bstr0(a->label), lb = bstr0(b->label);
if (la.len || lb.len)
return bstr_equals(la, lb);
if (strcmp(a->name, b->name) != 0)
return false;
int a_attr_count = 0;
while (a->attribs && a->attribs[a_attr_count])
a_attr_count++;
int b_attr_count = 0;
while (b->attribs && b->attribs[b_attr_count])
b_attr_count++;
if (a_attr_count != b_attr_count)
return false;
for (int n = 0; n < a_attr_count; n++) {
if (strcmp(a->attribs[n], b->attribs[n]) != 0)
return false;
}
return true;
}
static int obj_settings_list_num_items(m_obj_settings_t *obj_list)
{
int num = 0;
while (obj_list && obj_list[num].name)
num++;
return num;
}
static void obj_settings_list_del_at(m_obj_settings_t **p_obj_list, int idx)
{
m_obj_settings_t *obj_list = *p_obj_list;
int num = obj_settings_list_num_items(obj_list);
assert(idx >= 0 && idx < num);
obj_setting_free(&obj_list[idx]);
// Note: the NULL-terminating element is moved down as part of this
memmove(&obj_list[idx], &obj_list[idx + 1],
sizeof(m_obj_settings_t) * (num - idx));
*p_obj_list = talloc_realloc(NULL, obj_list, struct m_obj_settings, num);
}
// Insert such that *p_obj_list[idx] is set to item.
// If idx < 0, set idx = count + idx + 1 (i.e. -1 inserts it as last element).
// Memory referenced by *item is not copied.
static void obj_settings_list_insert_at(m_obj_settings_t **p_obj_list, int idx,
m_obj_settings_t *item)
{
int num = obj_settings_list_num_items(*p_obj_list);
if (idx < 0)
idx = num + idx + 1;
assert(idx >= 0 && idx <= num);
*p_obj_list = talloc_realloc(NULL, *p_obj_list, struct m_obj_settings,
num + 2);
memmove(*p_obj_list + idx + 1, *p_obj_list + idx,
(num - idx) * sizeof(m_obj_settings_t));
(*p_obj_list)[idx] = *item;
(*p_obj_list)[num + 1] = (m_obj_settings_t){0};
}
static int obj_settings_list_find_by_label(m_obj_settings_t *obj_list,
bstr label)
{
for (int n = 0; obj_list && obj_list[n].name; n++) {
if (label.len && bstr_equals0(label, obj_list[n].label))
return n;
}
return -1;
}
static int obj_settings_list_find_by_label0(m_obj_settings_t *obj_list,
const char *label)
{
return obj_settings_list_find_by_label(obj_list, bstr0(label));
}
static int obj_settings_find_by_content(m_obj_settings_t *obj_list,
m_obj_settings_t *item)
{
for (int n = 0; obj_list && obj_list[n].name; n++) {
if (obj_setting_equals(&obj_list[n], item))
return n;
}
return -1;
}
static void free_obj_settings_list(void *dst)
{
int n;
m_obj_settings_t *d;
if (!dst || !VAL(dst))
return;
d = VAL(dst);
for (n = 0; d[n].name; n++)
obj_setting_free(&d[n]);
talloc_free(d);
VAL(dst) = NULL;
}
static void copy_obj_settings_list(const m_option_t *opt, void *dst,
const void *src)
{
m_obj_settings_t *d, *s;
int n;
if (!(dst && src))
return;
s = VAL(src);
if (VAL(dst))
free_obj_settings_list(dst);
if (!s)
return;
for (n = 0; s[n].name; n++)
/* NOP */;
d = talloc_array(NULL, struct m_obj_settings, n + 1);
for (n = 0; s[n].name; n++) {
d[n].name = talloc_strdup(NULL, s[n].name);
d[n].label = talloc_strdup(NULL, s[n].label);
d[n].attribs = NULL;
copy_str_list(NULL, &(d[n].attribs), &(s[n].attribs));
}
d[n].name = NULL;
d[n].label = NULL;
d[n].attribs = NULL;
VAL(dst) = d;
}
// Consider -vf a=b=c:d=e. This verifies "b"="c" and "d"="e" and that the
// option names/values are correct. Try to determine whether an option
// without '=' sets a flag, or whether it's a positional argument.
static int get_obj_param(struct mp_log *log, bstr opt_name, bstr obj_name,
struct m_config *config, bstr name, bstr val,
int flags, int *nold, bstr *out_name, bstr *out_val)
{
int r;
if (!config)
return 0; // skip
// va.start != NULL => of the form name=val (not positional)
// If it's just "name", and the associated option exists and is a flag,
// don't accept it as positional argument.
if (val.start || m_config_option_requires_param(config, name) == 0) {
r = m_config_set_option_ext(config, name, val, flags);
if (r < 0) {
if (r == M_OPT_UNKNOWN) {
mp_err(log, "Option %.*s: %.*s doesn't have a %.*s parameter.\n",
BSTR_P(opt_name), BSTR_P(obj_name), BSTR_P(name));
return M_OPT_UNKNOWN;
}
if (r > M_OPT_EXIT)
mp_err(log, "Option %.*s: "
"Error while parsing %.*s parameter %.*s (%.*s)\n",
BSTR_P(opt_name), BSTR_P(obj_name), BSTR_P(name),
BSTR_P(val));
return r;
}
*out_name = name;
*out_val = val;
return 1;
} else {
val = name;
// positional fields
if (val.len == 0) { // Empty field, count it and go on
(*nold)++;
return 0;
}
const char *opt = m_config_get_positional_option(config, *nold);
if (!opt) {
mp_err(log, "Option %.*s: %.*s has only %d "
"params, so you can't give more than %d unnamed params.\n",
BSTR_P(opt_name), BSTR_P(obj_name), *nold, *nold);
return M_OPT_OUT_OF_RANGE;
}
r = m_config_set_option_ext(config, bstr0(opt), val, flags);
if (r < 0) {
if (r > M_OPT_EXIT)
mp_err(log, "Option %.*s: "
"Error while parsing %.*s parameter %s (%.*s)\n",
BSTR_P(opt_name), BSTR_P(obj_name), opt, BSTR_P(val));
return r;
}
*out_name = bstr0(opt);
*out_val = val;
(*nold)++;
return 1;
}
}
// Consider -vf a=b:c:d. This parses "b:c:d" into name/value pairs, stored as
// linear array in *_ret. In particular, config contains what options a the
// object takes, and verifies the option values as well.
// If config is NULL, all parameters are accepted without checking.
// _ret set to NULL can be used for checking-only.
// flags can contain any M_SETOPT_* flag.
// desc is optional.
static int m_obj_parse_sub_config(struct mp_log *log, struct bstr opt_name,
struct bstr name, struct bstr *pstr,
struct m_config *config, int flags,
struct m_obj_desc *desc, char ***ret)
{
int nold = 0;
char **args = NULL;
int num_args = 0;
int r = 1;
if (ret) {
args = *ret;
while (args && args[num_args])
num_args++;
}
while (pstr->len > 0) {
bstr fname, fval;
r = split_subconf(log, opt_name, pstr, &fname, &fval);
if (r < 0)
goto exit;
if (bstr_equals0(fname, "help"))
goto print_help;
r = get_obj_param(log, opt_name, name, config, fname, fval, flags, &nold,
&fname, &fval);
if (r < 0)
goto exit;
if (r > 0 && ret) {
MP_TARRAY_APPEND(NULL, args, num_args, bstrto0(NULL, fname));
MP_TARRAY_APPEND(NULL, args, num_args, bstrto0(NULL, fval));
MP_TARRAY_APPEND(NULL, args, num_args, NULL);
MP_TARRAY_APPEND(NULL, args, num_args, NULL);
num_args -= 2;
}
if (!bstr_eatstart0(pstr, ":"))
break;
}
if (ret) {
if (num_args > 0) {
*ret = args;
args = NULL;
} else {
*ret = NULL;
}
}
goto exit;
print_help: ;
if (config) {
if (desc->print_help)
desc->print_help(log);
m_config_print_option_list(config);
} else {
mp_warn(log, "Option %.*s doesn't exist.\n",
BSTR_P(opt_name));
}
r = M_OPT_EXIT - 1;
exit:
free_str_list(&args);
return r;
}
// Characters which may appear in a filter name
#define NAMECH "abcdefghijklmnopqrstuvwxyzABCDEFGHIJKLMNOPQRSTUVWXYZ0123456789_-"
// Parse one item, e.g. -vf a=b:c:d,e=f:g => parse a=b:c:d into "a" and "b:c:d"
static int parse_obj_settings(struct mp_log *log, struct bstr opt,
struct bstr *pstr, const struct m_obj_list *list,
m_obj_settings_t **_ret)
{
int r;
char **plist = NULL;
struct m_obj_desc desc;
bstr label = {0};
if (bstr_eatstart0(pstr, "@")) {
if (!bstr_split_tok(*pstr, ":", &label, pstr)) {
mp_err(log, "Option %.*s: ':' expected after label.\n", BSTR_P(opt));
return M_OPT_INVALID;
}
}
bool has_param = false;
int idx = bstrspn(*pstr, NAMECH);
bstr str = bstr_splice(*pstr, 0, idx);
*pstr = bstr_cut(*pstr, idx);
// video filters use "=", VOs use ":"
if (bstr_eatstart0(pstr, "=") || bstr_eatstart0(pstr, ":"))
has_param = true;
bool skip = false;
if (m_obj_list_find(&desc, list, str)) {
if (desc.replaced_name)
mp_warn(log, "Driver '%s' has been replaced with '%s'!\n",
desc.replaced_name, desc.name);
} else {
if (!list->allow_unknown_entries) {
mp_err(log, "Option %.*s: %.*s doesn't exist.\n",
BSTR_P(opt), BSTR_P(str));
return M_OPT_INVALID;
}
desc = (struct m_obj_desc){0};
skip = true;
}
if (_ret && desc.init_options) {
struct m_config *config = m_config_from_obj_desc_noalloc(NULL, log, &desc);
bstr s = bstr0(desc.init_options);
m_obj_parse_sub_config(log, opt, str, &s, config,
M_SETOPT_CHECK_ONLY, NULL, &plist);
assert(s.len == 0);
talloc_free(config);
}
if (has_param) {
struct m_config *config = NULL;
if (!skip)
config = m_config_from_obj_desc_noalloc(NULL, log, &desc);
r = m_obj_parse_sub_config(log, opt, str, pstr, config,
M_SETOPT_CHECK_ONLY, &desc,
_ret ? &plist : NULL);
talloc_free(config);
if (r < 0)
return r;
}
if (!_ret)
return 1;
m_obj_settings_t item = {
.name = bstrto0(NULL, str),
.label = bstrdup0(NULL, label),
.attribs = plist,
};
obj_settings_list_insert_at(_ret, -1, &item);
return 1;
}
// Parse a single entry for -vf-del (return 0 if not applicable)
// mark_del is bounded by the number of items in dst
static int parse_obj_settings_del(struct mp_log *log, struct bstr opt_name,
struct bstr *param, void *dst, bool *mark_del)
{
bstr s = *param;
if (bstr_eatstart0(&s, "@")) {
// '@name:' -> parse as normal filter entry
// '@name,' or '@name<end>' -> parse here
int idx = bstrspn(s, NAMECH);
bstr label = bstr_splice(s, 0, idx);
s = bstr_cut(s, idx);
if (bstr_startswith0(s, ":"))
return 0;
if (dst) {
int label_index = obj_settings_list_find_by_label(VAL(dst), label);
if (label_index >= 0) {
mark_del[label_index] = true;
} else {
mp_warn(log, "Option %.*s: item label @%.*s not found.\n",
BSTR_P(opt_name), BSTR_P(label));
}
}
*param = s;
return 1;
}
bstr rest;
long long id = bstrtoll(s, &rest, 0);
if (rest.len == s.len)
return 0;
if (dst) {
int num = obj_settings_list_num_items(VAL(dst));
if (id < 0)
id = num + id;
if (id >= 0 && id < num) {
mark_del[id] = true;
} else {
mp_warn(log, "Option %.*s: Index %lld is out of range.\n",
BSTR_P(opt_name), id);
}
}
*param = rest;
return 1;
}
static int parse_obj_settings_list(struct mp_log *log, const m_option_t *opt,
struct bstr name, struct bstr param, void *dst)
{
m_obj_settings_t *res = NULL;
int op = OP_NONE;
bool *mark_del = NULL;
int num_items = obj_settings_list_num_items(dst ? VAL(dst) : 0);
struct m_obj_list *ol = opt->priv;
assert(opt->priv);
if (bstr_endswith0(bstr0(opt->name), "*")) {
struct bstr suffix = bstr_cut(name, strlen(opt->name) - 1);
if (bstrcmp0(suffix, "-add") == 0)
op = OP_ADD;
else if (bstrcmp0(suffix, "-set") == 0)
op = OP_NONE;
else if (bstrcmp0(suffix, "-pre") == 0)
op = OP_PRE;
else if (bstrcmp0(suffix, "-del") == 0)
op = OP_DEL;
else if (bstrcmp0(suffix, "-clr") == 0)
op = OP_CLR;
else if (bstrcmp0(suffix, "-toggle") == 0)
op = OP_TOGGLE;
else if (suffix.len == 0)
op = OP_NONE;
else {
char pre[80];
snprintf(pre, sizeof(pre), "%.*s", (int)(strlen(opt->name) - 1),
opt->name);
mp_err(log, "Option %.*s: unknown postfix %.*s\n"
"Supported postfixes are:\n"
" %s-set\n"
" Overwrite the old list with the given list\n\n"
" %s-add\n"
" Append the given list to the current list\n\n"
" %s-pre\n"
" Prepend the given list to the current list\n\n"
" %s-del x,y,...\n"
" Remove the given elements. Take the list element index (starting from 0).\n"
" Negative index can be used (i.e. -1 is the last element).\n"
" Filter names work as well.\n\n"
" %s-toggle\n"
" Add the filter to the list, or remove it if it's already added.\n\n"
" %s-clr\n"
" Clear the current list.\n\n",
BSTR_P(name), BSTR_P(suffix), pre, pre, pre, pre, pre, pre);
return M_OPT_UNKNOWN;
}
}
if (!bstrcmp0(param, "help")) {
mp_info(log, "Available %s:\n", ol->description);
for (int n = 0; ; n++) {
struct m_obj_desc desc;
if (!ol->get_desc(&desc, n))
break;
if (!desc.hidden) {
mp_info(log, " %-15s: %s\n",
desc.name, desc.description);
}
}
mp_info(log, "\n");
return M_OPT_EXIT - 1;
}
if (op == OP_CLR) {
if (dst)
free_obj_settings_list(dst);
return 0;
} else if (op == OP_DEL) {
mark_del = talloc_zero_array(NULL, bool, num_items + 1);
}
if (op != OP_NONE && param.len == 0)
return M_OPT_MISSING_PARAM;
while (param.len > 0) {
int r = 0;
if (op == OP_DEL)
r = parse_obj_settings_del(log, name, &param, dst, mark_del);
if (r == 0) {
r = parse_obj_settings(log, name, &param, ol, dst ? &res : NULL);
}
if (r < 0)
return r;
if (param.len > 0) {
const char sep[2] = {OPTION_LIST_SEPARATOR, 0};
if (!bstr_eatstart0(&param, sep))
return M_OPT_INVALID;
if (param.len == 0) {
if (!ol->allow_trailer)
return M_OPT_INVALID;
if (dst) {
m_obj_settings_t item = {
.name = talloc_strdup(NULL, ""),
};
obj_settings_list_insert_at(&res, -1, &item);
}
}
}
}
if (dst) {
m_obj_settings_t *list = VAL(dst);
if (op == OP_PRE) {
int prepend_counter = 0;
for (int n = 0; res && res[n].name; n++) {
int label = obj_settings_list_find_by_label0(list, res[n].label);
if (label < 0) {
obj_settings_list_insert_at(&list, prepend_counter, &res[n]);
prepend_counter++;
} else {
// Prefer replacement semantics, instead of actually
// prepending.
obj_setting_free(&list[label]);
list[label] = res[n];
}
}
talloc_free(res);
} else if (op == OP_ADD) {
for (int n = 0; res && res[n].name; n++) {
int label = obj_settings_list_find_by_label0(list, res[n].label);
if (label < 0) {
obj_settings_list_insert_at(&list, -1, &res[n]);
} else {
// Prefer replacement semantics, instead of actually
// appending.
obj_setting_free(&list[label]);
list[label] = res[n];
}
}
talloc_free(res);
} else if (op == OP_TOGGLE) {
for (int n = 0; res && res[n].name; n++) {
int found = obj_settings_find_by_content(list, &res[n]);
if (found < 0) {
obj_settings_list_insert_at(&list, -1, &res[n]);
} else {
obj_settings_list_del_at(&list, found);
obj_setting_free(&res[n]);
}
}
talloc_free(res);
} else if (op == OP_DEL) {
for (int n = num_items - 1; n >= 0; n--) {
if (mark_del[n])
obj_settings_list_del_at(&list, n);
}
for (int n = 0; res && res[n].name; n++) {
int found = obj_settings_find_by_content(list, &res[n]);
if (found < 0) {
mp_warn(log, "Option %.*s: Item not found\n", BSTR_P(name));
} else {
obj_settings_list_del_at(&list, found);
}
}
free_obj_settings_list(&res);
} else {
assert(op == OP_NONE);
free_obj_settings_list(&list);
list = res;
}
VAL(dst) = list;
}
talloc_free(mark_del);
return 1;
}
static void append_param(char **res, char *param)
{
if (strspn(param, NAMECH) == strlen(param)) {
*res = talloc_strdup_append(*res, param);
} else {
// Simple escaping: %BYTECOUNT%STRING
*res = talloc_asprintf_append(*res, "%%%zd%%%s", strlen(param), param);
}
}
static char *print_obj_settings_list(const m_option_t *opt, const void *val)
{
m_obj_settings_t *list = VAL(val);
char *res = talloc_strdup(NULL, "");
for (int n = 0; list && list[n].name; n++) {
m_obj_settings_t *entry = &list[n];
if (n > 0)
res = talloc_strdup_append(res, ",");
// Assume labels and names don't need escaping
if (entry->label && entry->label[0])
res = talloc_asprintf_append(res, "@%s:", entry->label);
res = talloc_strdup_append(res, entry->name);
if (entry->attribs && entry->attribs[0]) {
res = talloc_strdup_append(res, "=");
for (int i = 0; entry->attribs[i * 2 + 0]; i++) {
if (i > 0)
res = talloc_strdup_append(res, ":");
append_param(&res, entry->attribs[i * 2 + 0]);
res = talloc_strdup_append(res, "=");
append_param(&res, entry->attribs[i * 2 + 1]);
}
}
}
return res;
}
static int set_obj_settings_list(const m_option_t *opt, void *dst,
struct mpv_node *src)
{
if (src->format != MPV_FORMAT_NODE_ARRAY)
return M_OPT_INVALID;
m_obj_settings_t *entries =
talloc_zero_array(NULL, m_obj_settings_t, src->u.list->num + 1);
for (int n = 0; n < src->u.list->num; n++) {
m_obj_settings_t *entry = &entries[n];
if (src->u.list->values[n].format != MPV_FORMAT_NODE_MAP)
goto error;
struct mpv_node_list *src_entry = src->u.list->values[n].u.list;
for (int i = 0; i < src_entry->num; i++) {
const char *key = src_entry->keys[i];
struct mpv_node *val = &src_entry->values[i];
if (strcmp(key, "name") == 0) {
if (val->format != MPV_FORMAT_STRING)
goto error;
entry->name = talloc_strdup(NULL, val->u.string);
} else if (strcmp(key, "label") == 0) {
if (val->format != MPV_FORMAT_STRING)
goto error;
entry->label = talloc_strdup(NULL, val->u.string);
} else if (strcmp(key, "params") == 0) {
if (val->format != MPV_FORMAT_NODE_MAP)
goto error;
struct mpv_node_list *src_params = val->u.list;
entry->attribs =
talloc_zero_array(NULL, char*, (src_params->num + 1) * 2);
for (int x = 0; x < src_params->num; x++) {
if (src_params->values[x].format != MPV_FORMAT_STRING)
goto error;
entry->attribs[x * 2 + 0] =
talloc_strdup(NULL, src_params->keys[x]);
entry->attribs[x * 2 + 1] =
talloc_strdup(NULL, src_params->values[x].u.string);
}
}
}
}
free_obj_settings_list(dst);
VAL(dst) = entries;
return 0;
error:
free_obj_settings_list(&entries);
return M_OPT_INVALID;
}
static struct mpv_node *add_array_entry(struct mpv_node *dst)
{
struct mpv_node_list *list = dst->u.list;
assert(dst->format == MPV_FORMAT_NODE_ARRAY&& dst->u.list);
MP_TARRAY_GROW(list, list->values, list->num);
return &list->values[list->num++];
}
static struct mpv_node *add_map_entry(struct mpv_node *dst, const char *key)
{
struct mpv_node_list *list = dst->u.list;
assert(dst->format == MPV_FORMAT_NODE_MAP && dst->u.list);
MP_TARRAY_GROW(list, list->values, list->num);
MP_TARRAY_GROW(list, list->keys, list->num);
list->keys[list->num] = talloc_strdup(list, key);
return &list->values[list->num++];
}
static void add_map_string(struct mpv_node *dst, const char *key, const char *val)
{
struct mpv_node *entry = add_map_entry(dst, key);
entry->format = MPV_FORMAT_STRING;
entry->u.string = talloc_strdup(dst->u.list, val);
}
static int get_obj_settings_list(const m_option_t *opt, void *ta_parent,
struct mpv_node *dst, void *val)
{
m_obj_settings_t *list = VAL(val);
dst->format = MPV_FORMAT_NODE_ARRAY;
dst->u.list = talloc_zero(ta_parent, struct mpv_node_list);
ta_parent = dst->u.list;
for (int n = 0; list && list[n].name; n++) {
m_obj_settings_t *entry = &list[n];
struct mpv_node *nentry = add_array_entry(dst);
nentry->format = MPV_FORMAT_NODE_MAP;
nentry->u.list = talloc_zero(ta_parent, struct mpv_node_list);
add_map_string(nentry, "name", entry->name);
if (entry->label && entry->label[0])
add_map_string(nentry, "label", entry->label);
struct mpv_node *params = add_map_entry(nentry, "params");
params->format = MPV_FORMAT_NODE_MAP;
params->u.list = talloc_zero(ta_parent, struct mpv_node_list);
for (int i = 0; entry->attribs && entry->attribs[i * 2 + 0]; i++) {
add_map_string(params, entry->attribs[i * 2 + 0],
entry->attribs[i * 2 + 1]);
}
}
return 1;
}
const m_option_type_t m_option_type_obj_settings_list = {
.name = "Object settings list",
.size = sizeof(m_obj_settings_t *),
.flags = M_OPT_TYPE_DYNAMIC | M_OPT_TYPE_ALLOW_WILDCARD,
.parse = parse_obj_settings_list,
.print = print_obj_settings_list,
.copy = copy_obj_settings_list,
.free = free_obj_settings_list,
.set = set_obj_settings_list,
.get = get_obj_settings_list,
};
#undef VAL
#define VAL(x) (*(struct mpv_node *)(x))
static int parse_node(struct mp_log *log, const m_option_t *opt,
struct bstr name, struct bstr param, void *dst)
{
// Maybe use JSON?
mp_err(log, "option type doesn't accept strings");
return M_OPT_INVALID;
}
static char *print_node(const m_option_t *opt, const void *val)
{
char *t = talloc_strdup(NULL, "");
if (json_write(&t, &VAL(val)) < 0) {
talloc_free(t);
t = NULL;
}
return t;
}
static void dup_node(void *ta_parent, struct mpv_node *node)
{
switch (node->format) {
case MPV_FORMAT_STRING:
node->u.string = talloc_strdup(ta_parent, node->u.string);
break;
case MPV_FORMAT_NODE_ARRAY:
case MPV_FORMAT_NODE_MAP: {
struct mpv_node_list *oldlist = node->u.list;
struct mpv_node_list *new = talloc_zero(ta_parent, struct mpv_node_list);
node->u.list = new;
if (oldlist->num > 0) {
*new = *oldlist;
new->values = talloc_array(new, struct mpv_node, new->num);
for (int n = 0; n < new->num; n++) {
new->values[n] = oldlist->values[n];
dup_node(new, &new->values[n]);
}
if (node->format == MPV_FORMAT_NODE_MAP) {
new->keys = talloc_array(new, char*, new->num);
for (int n = 0; n < new->num; n++)
new->keys[n] = talloc_strdup(new, oldlist->keys[n]);
}
}
break;
}
case MPV_FORMAT_NONE:
case MPV_FORMAT_FLAG:
case MPV_FORMAT_INT64:
case MPV_FORMAT_DOUBLE:
break;
default:
// unknown entry - mark as invalid
node->format = (mpv_format)-1;
}
}
static void copy_node(const m_option_t *opt, void *dst, const void *src)
{
assert(sizeof(struct mpv_node) <= sizeof(union m_option_value));
if (!(dst && src))
return;
opt->type->free(dst);
VAL(dst) = VAL(src);
dup_node(NULL, &VAL(dst));
}
void *node_get_alloc(struct mpv_node *node)
{
// Assume it was allocated with copy_node(), which allocates all
// sub-nodes with the parent node as talloc parent.
switch (node->format) {
case MPV_FORMAT_STRING:
return node->u.string;
case MPV_FORMAT_NODE_ARRAY:
case MPV_FORMAT_NODE_MAP:
return node->u.list;
default:
return NULL;
}
}
static void free_node(void *src)
{
if (src) {
struct mpv_node *node = &VAL(src);
talloc_free(node_get_alloc(node));
*node = (struct mpv_node){{0}};
}
}
// idempotent functions for convenience
static int node_set(const m_option_t *opt, void *dst, struct mpv_node *src)
{
copy_node(opt, dst, src);
return 1;
}
static int node_get(const m_option_t *opt, void *ta_parent,
struct mpv_node *dst, void *src)
{
*dst = VAL(src);
dup_node(ta_parent, dst);
return 1;
}
const m_option_type_t m_option_type_node = {
.name = "Complex",
.size = sizeof(struct mpv_node),
.flags = M_OPT_TYPE_DYNAMIC,
.parse = parse_node,
.print = print_node,
.copy = copy_node,
.free = free_node,
.set = node_set,
.get = node_get,
};