/* -*- Mode: C; indent-tabs-mode: t; c-basic-offset: 4; tab-width: 4 -*- */ /* * presets.c * Copyright (C) John Stebbins 2008 * * presets.c is free software. * * You may 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. * */ #include #include #include #include "values.h" static void dict_delete_key(gpointer data); static void dict_delete_value(gpointer data); GValue* ghb_value_new(GType gtype) { GValue *gval = g_malloc0(sizeof(GValue)); g_value_init(gval, gtype); return gval; } void ghb_value_free(GValue *gval) { if (gval == NULL) return; g_value_unset(gval); g_free(gval); } GValue* ghb_value_dup(const GValue *val) { if (val == NULL) return NULL; GValue *copy = ghb_value_new(G_VALUE_TYPE(val)); g_value_copy(val, copy); return copy; } static void debug_show_type(GType tp) { const gchar *str = "unknown"; if (tp == G_TYPE_STRING) { str ="string"; } else if (tp == G_TYPE_INT) { str ="int"; } else if (tp == G_TYPE_INT64) { str ="int64"; } else if (tp == G_TYPE_BOOLEAN) { str ="bool"; } else if (tp == ghb_array_get_type()) { str ="array"; } else if (tp == ghb_dict_get_type()) { str ="dict"; } g_debug("%s", str); } gint ghb_value_int(const GValue *val) { gint result; if (val == NULL) return 0; GValue xform = {0,}; if (G_VALUE_TYPE(val) != G_TYPE_INT64) { g_value_init(&xform, G_TYPE_INT64); if (!g_value_transform(val, &xform)) { debug_show_type(G_VALUE_TYPE(val)); g_warning("int can't transform"); return 0; } result = (gint)g_value_get_int64(&xform); g_value_unset(&xform); } else { result = (gint)g_value_get_int64(val); } return result; } gint64 ghb_value_int64(const GValue *val) { gint64 result; if (val == NULL) return 0; GValue xform = {0,}; if (G_VALUE_TYPE(val) != G_TYPE_INT64) { g_value_init(&xform, G_TYPE_INT64); if (!g_value_transform(val, &xform)) { debug_show_type(G_VALUE_TYPE(val)); g_warning("int64 can't transform"); return 0; } result = g_value_get_int64(&xform); g_value_unset(&xform); } else { result = g_value_get_int64(val); } return result; } gdouble ghb_value_double(const GValue *val) { gdouble result; if (val == NULL) return 0; GValue xform = {0,}; if (G_VALUE_TYPE(val) != G_TYPE_DOUBLE) { g_value_init(&xform, G_TYPE_DOUBLE); if (!g_value_transform(val, &xform)) { debug_show_type(G_VALUE_TYPE(val)); g_warning("double can't transform"); return 0; } result = g_value_get_double(&xform); g_value_unset(&xform); } else { result = g_value_get_double(val); } return result; } gchar* ghb_value_string(const GValue *val) { gchar *result; if (val == NULL) return 0; GValue xform = {0,}; if (G_VALUE_TYPE(val) != G_TYPE_STRING) { g_value_init(&xform, G_TYPE_STRING); if (!g_value_transform(val, &xform)) { debug_show_type(G_VALUE_TYPE(val)); g_warning("string can't transform"); return NULL; } result = g_strdup(g_value_get_string(&xform)); g_value_unset(&xform); } else { result = g_strdup(g_value_get_string(val)); } return result; } gboolean ghb_value_boolean(const GValue *val) { gboolean result; if (val == NULL) return FALSE; GValue xform = {0,}; if (G_VALUE_TYPE(val) != G_TYPE_BOOLEAN) { g_value_init(&xform, G_TYPE_BOOLEAN); if (!g_value_transform(val, &xform)) { debug_show_type(G_VALUE_TYPE(val)); g_warning("boolean can't transform"); return FALSE; } result = g_value_get_boolean(&xform); g_value_unset(&xform); } else { result = g_value_get_boolean(val); } return result; } gint ghb_value_cmp(const GValue *vala, const GValue *valb) { GType typa; GType typb; typa = G_VALUE_TYPE(vala); typb = G_VALUE_TYPE(valb); if (typa != typb) { return 1; } if (typa == G_TYPE_STRING) { char *stra, *strb; gint res; stra = ghb_value_string(vala); strb = ghb_value_string(valb); if (stra == NULL && strb == NULL) return 0; if (stra == NULL) { g_free(strb); return -1; } if (strb == NULL) { g_free(stra); return 1; } res = strcmp(stra, strb); g_free(stra); g_free(strb); return res; } else if (typa == G_TYPE_INT64 || typa == G_TYPE_INT || typa == G_TYPE_BOOLEAN) { return ghb_value_int64(vala) - ghb_value_int64(valb); } else if (typa == G_TYPE_DOUBLE || typa == G_TYPE_FLOAT) { return ghb_value_double(vala) - ghb_value_double(valb); } else if (typa == ghb_array_get_type()) { // Cheating here. Just assume they are different. // Maybe later I'll recurse through these return 1; } else if (typa == ghb_dict_get_type()) { // Cheating here. Just assume they are different. // Maybe later I'll recurse through these return 1; } else { g_warning("ghb_value_cmp: unrecognized type"); return 1; } return 0; } GValue* ghb_string_value(const gchar *str) { static GValue gval = {0,}; if (!G_IS_VALUE(&gval)) g_value_init(&gval, G_TYPE_STRING); g_value_set_string(&gval, str); return &gval; } GValue* ghb_int64_value(gint64 ival) { static GValue gval = {0,}; if (!G_IS_VALUE(&gval)) g_value_init(&gval, G_TYPE_INT64); g_value_set_int64(&gval, ival); return &gval; } GValue* ghb_int_value(gint ival) { static GValue gval = {0,}; if (!G_IS_VALUE(&gval)) g_value_init(&gval, G_TYPE_INT64); g_value_set_int64(&gval, (gint64)ival); return &gval; } GValue* ghb_double_value(gdouble dval) { static GValue gval = {0,}; if (!G_IS_VALUE(&gval)) g_value_init(&gval, G_TYPE_DOUBLE); g_value_set_double(&gval, dval); return &gval; } GValue* ghb_boolean_value(gboolean bval) { static GValue gval = {0,}; if (!G_IS_VALUE(&gval)) g_value_init(&gval, G_TYPE_BOOLEAN); g_value_set_boolean(&gval, bval); return &gval; } GValue* ghb_string_value_new(const gchar *str) { if (str == NULL) str = ""; GValue *gval = ghb_value_new(G_TYPE_STRING); g_value_set_string(gval, str); return gval; } GValue* ghb_int64_value_new(gint64 ival) { GValue *gval = ghb_value_new(G_TYPE_INT64); g_value_set_int64(gval, ival); return gval; } GValue* ghb_int_value_new(gint ival) { GValue *gval = ghb_value_new(G_TYPE_INT64); g_value_set_int64(gval, ival); return gval; } GValue* ghb_double_value_new(gdouble dval) { GValue *gval = ghb_value_new(G_TYPE_DOUBLE); g_value_set_double(gval, dval); return gval; } GValue* ghb_boolean_value_new(gboolean bval) { GValue *gval = ghb_value_new(G_TYPE_BOOLEAN); g_value_set_boolean(gval, bval); return gval; } GValue* ghb_dict_value_new() { GHashTable *dict; GValue *gval = ghb_value_new(ghb_dict_get_type()); dict = g_hash_table_new_full(g_str_hash, g_str_equal, dict_delete_key, dict_delete_value); g_value_take_boxed(gval, dict); return gval; } GValue* ghb_array_value_new(guint size) { GValue *gval = ghb_value_new(ghb_array_get_type()); GArray *array; array = g_array_sized_new(FALSE, FALSE, sizeof(GValue*), size); g_value_take_boxed(gval, array); return gval; } void ghb_array_value_reset(GValue *gval, guint size) { GArray *array; g_value_reset(gval); array = g_array_sized_new(FALSE, FALSE, sizeof(GValue*), size); g_value_take_boxed(gval, array); } GValue* ghb_date_value_new(GDate *date) { GValue *gval = ghb_value_new(g_date_get_type()); g_value_set_boxed(gval, date); return gval; } GValue* ghb_rawdata_value_new(ghb_rawdata_t *data) { GValue *gval = ghb_value_new(ghb_rawdata_get_type()); g_value_take_boxed(gval, data); return gval; } static gpointer rawdata_copy(gpointer boxed) { const ghb_rawdata_t *data = (const ghb_rawdata_t*)boxed; ghb_rawdata_t *copy = g_malloc(sizeof(ghb_rawdata_t)); copy->size = data->size; if (data->data) { copy->data = g_malloc(data->size); memcpy(copy->data, data->data, data->size); } else { copy->data = NULL; copy->size = 0; } return copy; } static void rawdata_free(gpointer boxed) { ghb_rawdata_t *data = (ghb_rawdata_t*)boxed; if (data->data) g_free(data->data); g_free(data); } GType ghb_rawdata_get_type(void) { static GType type_id = 0; if (!type_id) type_id = g_boxed_type_register_static(g_intern_static_string("GHBData"), (GBoxedCopyFunc) rawdata_copy, (GBoxedFreeFunc) rawdata_free); return type_id; } static void dict_delete_key(gpointer data) { if (data == NULL) { g_warning("dict frees null key"); return; } g_free(data); } static void dict_delete_value(gpointer data) { GValue *gval = (GValue*)data; if (gval == NULL) { g_warning("dict frees null value"); return; } ghb_value_free(gval); } static gpointer dict_copy(gpointer boxed) { GHashTable *dict = (GHashTable*)boxed; GHashTable *copy; GHashTableIter iter; gchar *key; GValue *gval; copy = g_hash_table_new_full(g_str_hash, g_str_equal, dict_delete_key, dict_delete_value); g_hash_table_iter_init(&iter, dict); // middle (void*) cast prevents gcc warning "defreferencing type-punned // pointer will break strict-aliasing rules" while (g_hash_table_iter_next( &iter, (gpointer*)(void*)&key, (gpointer*)(void*)&gval)) { g_hash_table_insert(copy, g_strdup(key), ghb_value_dup(gval)); } return copy; } static void dict_free(gpointer boxed) { GHashTable *dict = (GHashTable*)boxed; g_hash_table_destroy(dict); } GType ghb_dict_get_type(void) { static GType type_id = 0; if (!type_id) type_id = g_boxed_type_register_static( g_intern_static_string("GHBDict"), (GBoxedCopyFunc) dict_copy, (GBoxedFreeFunc) dict_free); return type_id; } void ghb_dict_insert(GValue *gval, gchar *key, GValue *val) { GHashTable *dict = g_value_get_boxed(gval); g_hash_table_insert(dict, key, val); } void ghb_dict_iter_init(GHashTableIter *iter, GValue *gval) { GHashTable *dict = g_value_get_boxed(gval); g_hash_table_iter_init(iter, dict); } GValue* ghb_dict_lookup(GValue *gval, const gchar *key) { GHashTable *dict = g_value_get_boxed(gval); return g_hash_table_lookup(dict, key); } gboolean ghb_dict_remove(GValue *gval, const gchar *key) { GHashTable *dict = g_value_get_boxed(gval); return g_hash_table_remove(dict, key); } static gpointer array_copy(gpointer boxed) { const GArray *array = (const GArray*)boxed; GArray *copy = g_array_new(FALSE, FALSE, sizeof(GValue*)); GValue *gval, *gval_copy; gint ii; for (ii = 0; ii < array->len; ii++) { gval = g_array_index(array, GValue*, ii); if (gval) { gval_copy = ghb_value_dup(gval); g_array_append_val(copy, gval_copy); } } return copy; } static void array_free(gpointer boxed) { GArray *array = (GArray*)boxed; GValue *gval; gint ii; for (ii = 0; ii < array->len; ii++) { gval = g_array_index(array, GValue*, ii); if (gval) { ghb_value_free(gval); } } g_array_free(array, TRUE); } GType ghb_array_get_type(void) { static GType type_id = 0; if (!type_id) type_id = g_boxed_type_register_static( g_intern_static_string("GHBArray"), (GBoxedCopyFunc) array_copy, (GBoxedFreeFunc) array_free); return type_id; } GValue* ghb_array_get_nth(const GValue *gval, gint ii) { GArray *arr = g_value_get_boxed(gval); return g_array_index(arr, GValue*, ii); } void ghb_array_insert(GValue *gval, guint ii, GValue *val) { GArray *arr = g_value_get_boxed(gval); // A little nastyness here. The array pointer // can change when the array changes size. So // I must re-box it in the GValue each time. arr = g_array_insert_val(arr, ii, val); memset(gval, 0, sizeof(GValue)); g_value_init(gval, ghb_array_get_type()); g_value_take_boxed(gval, arr); } void ghb_array_append(GValue *gval, GValue *val) { GArray *arr = g_value_get_boxed(gval); // A little nastyness here. The array pointer // can change when the array changes size. So // I must re-box it in the GValue each time. arr = g_array_append_val(arr, val); memset(gval, 0, sizeof(GValue)); g_value_init(gval, ghb_array_get_type()); g_value_take_boxed(gval, arr); } void ghb_array_remove(GValue *gval, guint ii) { GArray *arr = g_value_get_boxed(gval); // A little nastyness here. The array pointer // can change when the array changes size. So // I must re-box it in the GValue each time. arr = g_array_remove_index(arr, ii); memset(gval, 0, sizeof(GValue)); g_value_init(gval, ghb_array_get_type()); g_value_take_boxed(gval, arr); } gint ghb_array_len(const GValue *gval) { if (gval == NULL) return 0; GArray *arr = g_value_get_boxed(gval); return arr->len; } static void xform_string_int(const GValue *sval, GValue *ival) { const gchar *str = g_value_get_string(sval); gint val = g_strtod(str, NULL); g_value_set_int(ival, val); } static void xform_string_int64(const GValue *sval, GValue *ival) { const gchar *str = g_value_get_string(sval); gint64 val = g_strtod(str, NULL); g_value_set_int64(ival, val); } static void xform_string_double(const GValue *sval, GValue *dval) { const gchar *str = g_value_get_string(sval); double val = g_strtod(str, NULL); g_value_set_double(dval, val); } static void xform_boolean_double(const GValue *bval, GValue *dval) { gboolean b = g_value_get_boolean(bval); double val = b; g_value_set_double(dval, val); } void ghb_register_transforms() { g_value_register_transform_func(G_TYPE_STRING, G_TYPE_INT64, xform_string_int64); g_value_register_transform_func(G_TYPE_STRING, G_TYPE_INT, xform_string_int); g_value_register_transform_func(G_TYPE_STRING, G_TYPE_DOUBLE, xform_string_double); g_value_register_transform_func(G_TYPE_BOOLEAN, G_TYPE_DOUBLE, xform_boolean_double); }