/* * 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 #include #include #include #include #include #include #include #include #include #include #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->type->flags & M_OPT_TYPE_OPTIONAL_PARAM) return 0; if (opt->type == &m_option_type_choice) { struct m_opt_choice_alternatives *alt; for (alt = opt->priv; alt->name; alt++) { if (strcmp(alt->name, "yes") == 0) 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 (bstr_equals0(param, "yes") || !param.len) { if (dst) VAL(dst) = 1; return 1; } if (bstr_equals0(param, "no")) { if (dst) VAL(dst) = 0; return 1; } mp_fatal(log, "Invalid parameter for %.*s flag: %.*s\n", BSTR_P(name), BSTR_P(param)); mp_info(log, "Valid values are:\n"); mp_info(log, " yes\n"); mp_info(log, " no\n"); mp_info(log, " (passing nothing)\n"); return M_OPT_INVALID; } 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 && param.len == 0) { // allow flag-style options, e.g. "--mute" implies "--mute=yes" for (alt = opt->priv; alt->name; alt++) { if (!strcmp("yes", 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(mp_null_log, opt, name, param, &val) == 1) { if (dst) *(int *)dst = val; return 1; } } mp_fatal(log, "Invalid value for option %.*s: %.*s\n", BSTR_P(name), BSTR_P(param)); mp_info(log, "Valid values are:\n"); for (alt = opt->priv; alt->name; alt++) mp_info(log, " %s\n", alt->name[0] ? alt->name : "(passing nothing)"); if ((opt->flags & M_OPT_MIN) && (opt->flags & M_OPT_MAX)) mp_info(log, " %g-%g (integer range)\n", opt->min, opt->max); 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, }; static int apply_flag(const struct m_option *opt, int *val, bstr flag) { struct m_opt_choice_alternatives *alt; for (alt = opt->priv; alt->name; alt++) { if (bstr_equals0(flag, alt->name)) { if (*val & alt->value) return M_OPT_INVALID; *val |= alt->value; return 0; } } return M_OPT_UNKNOWN; } static const char *find_next_flag(const struct m_option *opt, int *val) { struct m_opt_choice_alternatives *alt; for (alt = opt->priv; alt->name; alt++) { if (alt->value && (alt->value & (*val)) == alt->value) { *val = *val & ~(unsigned)alt->value; return alt->name; } } *val = 0; // if there are still flags left, there's not much we can do return NULL; } static int parse_flags(struct mp_log *log, const struct m_option *opt, struct bstr name, struct bstr param, void *dst) { int value = 0; while (param.len) { bstr flag; bstr_split_tok(param, "+", &flag, ¶m); int r = apply_flag(opt, &value, flag); if (r == M_OPT_UNKNOWN) { mp_fatal(log, "Invalid flag for option %.*s: %.*s\n", BSTR_P(name), BSTR_P(flag)); mp_info(log, "Valid flags are:\n"); struct m_opt_choice_alternatives *alt; for (alt = opt->priv; alt->name; alt++) mp_info(log, " %s\n", alt->name); mp_info(log, "Flags can usually be combined with '+'.\n"); return M_OPT_INVALID; } else if (r < 0) { mp_fatal(log, "Option %.*s: flag '%.*s' conflicts with a previous " "flag value.\n", BSTR_P(name), BSTR_P(flag)); return M_OPT_INVALID; } } if (dst) *(int *)dst = value; return 1; } static int flags_set(const m_option_t *opt, void *dst, struct mpv_node *src) { int value = 0; 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; if (apply_flag(opt, &value, bstr0(srclist->values[n].u.string)) < 0) return M_OPT_INVALID; } *(int *)dst = value; return 0; } static int flags_get(const m_option_t *opt, void *ta_parent, struct mpv_node *dst, void *src) { int value = *(int *)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; while (1) { const char *flag = find_next_flag(opt, &value); if (!flag) break; struct mpv_node node; node.format = MPV_FORMAT_STRING; node.u.string = (char *)flag; MP_TARRAY_APPEND(list, list->values, list->num, node); } return 1; } static char *print_flags(const m_option_t *opt, const void *val) { int value = *(int *)val; char *res = talloc_strdup(NULL, ""); while (1) { const char *flag = find_next_flag(opt, &value); if (!flag) break; res = talloc_asprintf_append_buffer(res, "%s%s", res[0] ? "+" : "", flag); } return res; } const struct m_option_type m_option_type_flags = { .name = "Flags", .size = sizeof(int), .parse = parse_flags, .print = print_flags, .copy = copy_opt, .set = flags_set, .get = flags_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, ¶m, &key); if (r < 0) break; if (!bstr_eatstart0(¶m, "=")) { mp_err(log, "Expected '=' and a value.\n"); r = M_OPT_INVALID; break; } r = read_subparam(log, name, ¶m, &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(¶m, ",") && !bstr_eatstart0(¶m, ":")) 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, }; #undef VAL #define VAL(x) (*(char **)(x)) static int check_msg_levels(struct mp_log *log, char **list) { for (int n = 0; list && list[n * 2 + 0]; n++) { char *level = list[n * 2 + 1]; if (mp_msg_find_level(level) < 0 && strcmp(level, "no") != 0) { mp_err(log, "Invalid message level '%s'\n", level); return M_OPT_INVALID; } } return 1; } static int parse_msglevels(struct mp_log *log, const m_option_t *opt, struct bstr name, struct bstr param, void *dst) { 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; } char **dst_copy = NULL; int r = m_option_type_keyvalue_list.parse(log, opt, name, param, &dst_copy); if (r >= 0) r = check_msg_levels(log, dst_copy); if (r >= 0) m_option_type_keyvalue_list.copy(opt, dst, &dst_copy); m_option_type_keyvalue_list.free(&dst_copy); return r; } static int set_msglevels(const m_option_t *opt, void *dst, struct mpv_node *src) { char **dst_copy = NULL; int r = m_option_type_keyvalue_list.set(opt, &dst_copy, src); if (r >= 0) r = check_msg_levels(mp_null_log, dst_copy); if (r >= 0) m_option_type_keyvalue_list.copy(opt, dst, &dst_copy); m_option_type_keyvalue_list.free(&dst_copy); return r; } 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_keyvalue_list, .copy = copy_str_list, .free = free_str_list, .get = keyvalue_list_get, .set = set_msglevels, }; /////////////////// 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 // 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, "-")) { if (!bstr_startswith0(s, "x")) 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; } #define HAS_NOPTS(opt) ((opt)->min == MP_NOPTS_VALUE) 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 (HAS_NOPTS(opt) && 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 *print_time(const m_option_t *opt, const void *val) { double pts = *(double *)val; if (pts == MP_NOPTS_VALUE && HAS_NOPTS(opt)) return talloc_strdup(NULL, "no"); // symmetry with parsing return talloc_asprintf(NULL, "%f", pts); } static char *pretty_print_time(const m_option_t *opt, const void *val) { double pts = *(double *)val; if (pts == MP_NOPTS_VALUE && HAS_NOPTS(opt)) return talloc_strdup(NULL, "no"); // symmetry with parsing return mp_format_time(pts, false); } static int time_set(const m_option_t *opt, void *dst, struct mpv_node *src) { if (HAS_NOPTS(opt) && src->format == MPV_FORMAT_STRING) { if (strcmp(src->u.string, "no") == 0) { *(double *)dst = MP_NOPTS_VALUE; return 1; } } return double_set(opt, dst, src); } static int time_get(const m_option_t *opt, void *ta_parent, struct mpv_node *dst, void *src) { if (HAS_NOPTS(opt) && *(double *)src == MP_NOPTS_VALUE) { dst->format = MPV_FORMAT_STRING; dst->u.string = talloc_strdup(ta_parent, "no"); return 1; } return double_get(opt, ta_parent, dst, src); } const m_option_type_t m_option_type_time = { .name = "Time", .size = sizeof(double), .parse = parse_time, .print = print_time, .pretty_print = pretty_print_time, .copy = copy_opt, .add = add_double, .clamp = clamp_double, .set = time_set, .get = time_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), ¶m); 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), ¶m, 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' -> 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, ¶m, dst, mark_del); if (r == 0) { r = parse_obj_settings(log, name, ¶m, ol, dst ? &res : NULL); } if (r < 0) return r; if (param.len > 0) { const char sep[2] = {OPTION_LIST_SEPARATOR, 0}; if (!bstr_eatstart0(¶m, 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, }; // Special-cased by m_config.c. const m_option_type_t m_option_type_alias = { .name = "alias", }; const m_option_type_t m_option_type_removed = { .name = "removed", };