#ifndef __DB___GWEATHER_GV__H__ #define __DB___GWEATHER_GV__H__ /* generated code for gweather.gv */ #include #include #if !GLIB_CHECK_VERSION (2, 68, 0) # define g_memdup2(ptr,sz) g_memdup(ptr,sz) #endif /********** Basic types *****************/ typedef struct { gconstpointer base; gsize size; } DbRef; #define DB_REF_READ_FRAME_OFFSET(_v, _index) Db_ref_read_unaligned_le ((guchar*)((_v).base) + (_v).size - (offset_size * ((_index) + 1)), offset_size) #define DB_REF_ALIGN(_offset, _align_to) ((_offset + _align_to - 1) & ~(gsize)(_align_to - 1)) /* Note: clz is undefinded for 0, so never call this size == 0 */ G_GNUC_CONST static inline guint Db_ref_get_offset_size (gsize size) { #if defined(__GNUC__) && (__GNUC__ >= 4) && defined(__OPTIMIZE__) && defined(__LP64__) /* Instead of using a lookup table we use nibbles in a lookup word */ guint32 v = (guint32)0x88884421; return (v >> (((__builtin_clzl(size) ^ 63) / 8) * 4)) & 0xf; #else if (size > G_MAXUINT16) { if (size > G_MAXUINT32) return 8; else return 4; } else { if (size > G_MAXUINT8) return 2; else return 1; } #endif } G_GNUC_PURE static inline guint64 Db_ref_read_unaligned_le (guchar *bytes, guint size) { union { guchar bytes[8]; guint64 integer; } tmpvalue; tmpvalue.integer = 0; /* we unroll the size checks here so that memcpy gets constant args */ if (size >= 4) { if (size == 8) memcpy (&tmpvalue.bytes, bytes, 8); else memcpy (&tmpvalue.bytes, bytes, 4); } else { if (size == 2) memcpy (&tmpvalue.bytes, bytes, 2); else memcpy (&tmpvalue.bytes, bytes, 1); } return GUINT64_FROM_LE (tmpvalue.integer); } static inline void __Db_gstring_append_double (GString *string, double d) { gchar buffer[100]; gint i; g_ascii_dtostr (buffer, sizeof buffer, d); for (i = 0; buffer[i]; i++) if (buffer[i] == '.' || buffer[i] == 'e' || buffer[i] == 'n' || buffer[i] == 'N') break; /* if there is no '.' or 'e' in the float then add one */ if (buffer[i] == '\0') { buffer[i++] = '.'; buffer[i++] = '0'; buffer[i++] = '\0'; } g_string_append (string, buffer); } static inline void __Db_gstring_append_string (GString *string, const char *str) { gunichar quote = strchr (str, '\'') ? '"' : '\''; g_string_append_c (string, quote); while (*str) { gunichar c = g_utf8_get_char (str); if (c == quote || c == '\\') g_string_append_c (string, '\\'); if (g_unichar_isprint (c)) g_string_append_unichar (string, c); else { g_string_append_c (string, '\\'); if (c < 0x10000) switch (c) { case '\a': g_string_append_c (string, 'a'); break; case '\b': g_string_append_c (string, 'b'); break; case '\f': g_string_append_c (string, 'f'); break; case '\n': g_string_append_c (string, 'n'); break; case '\r': g_string_append_c (string, 'r'); break; case '\t': g_string_append_c (string, 't'); break; case '\v': g_string_append_c (string, 'v'); break; default: g_string_append_printf (string, "u%04x", c); break; } else g_string_append_printf (string, "U%08x", c); } str = g_utf8_next_char (str); } g_string_append_c (string, quote); } /************** DbVariantRef *******************/ typedef struct { gconstpointer base; gsize size; } DbVariantRef; static inline DbRef Db_variant_get_child (DbVariantRef v, const GVariantType **out_type) { if (v.size) { guchar *base = (guchar *)v.base; gsize size = v.size - 1; /* find '\0' character */ while (size > 0 && base[size] != 0) size--; /* ensure we didn't just hit the start of the string */ if (base[size] == 0) { const char *type_string = (char *) base + size + 1; const char *limit = (char *)base + v.size; const char *end; if (g_variant_type_string_scan (type_string, limit, &end) && end == limit) { if (out_type) *out_type = (const GVariantType *)type_string; return (DbRef) { v.base, size }; } } } if (out_type) *out_type = G_VARIANT_TYPE_UNIT; return (DbRef) { "\0", 1 }; } static inline const GVariantType * Db_variant_get_type (DbVariantRef v) { if (v.size) { guchar *base = (guchar *)v.base; gsize size = v.size - 1; /* find '\0' character */ while (size > 0 && base[size] != 0) size--; /* ensure we didn't just hit the start of the string */ if (base[size] == 0) { const char *type_string = (char *) base + size + 1; const char *limit = (char *)base + v.size; const char *end; if (g_variant_type_string_scan (type_string, limit, &end) && end == limit) return (const GVariantType *)type_string; } } return G_VARIANT_TYPE_UNIT; } static inline gboolean Db_variant_is_type (DbVariantRef v, const GVariantType *type) { return g_variant_type_equal (Db_variant_get_type (v), type); } static inline DbVariantRef Db_variant_from_gvariant (GVariant *v) { g_assert (g_variant_type_equal (g_variant_get_type (v), G_VARIANT_TYPE_VARIANT)); return (DbVariantRef) { g_variant_get_data (v), g_variant_get_size (v) }; } static inline DbVariantRef Db_variant_from_bytes (GBytes *b) { return (DbVariantRef) { g_bytes_get_data (b, NULL), g_bytes_get_size (b) }; } static inline DbVariantRef Db_variant_from_data (gconstpointer data, gsize size) { return (DbVariantRef) { data, size }; } static inline GVariant * Db_variant_dup_to_gvariant (DbVariantRef v) { return g_variant_new_from_data (G_VARIANT_TYPE_VARIANT, g_memdup2 (v.base, v.size), v.size, TRUE, g_free, NULL); } static inline GVariant * Db_variant_to_gvariant (DbVariantRef v, GDestroyNotify notify, gpointer user_data) { return g_variant_new_from_data (G_VARIANT_TYPE_VARIANT, g_memdup2 (v.base, v.size), v.size, TRUE, notify, user_data); } static inline GVariant * Db_variant_to_owned_gvariant (DbVariantRef v, GVariant *base) { return Db_variant_to_gvariant (v, (GDestroyNotify)g_variant_unref, g_variant_ref (base)); } static inline GVariant * Db_variant_peek_as_variant (DbVariantRef v) { return g_variant_new_from_data (G_VARIANT_TYPE_VARIANT, v.base, v.size, TRUE, NULL, NULL); } static inline DbVariantRef Db_variant_from_variant (DbVariantRef v) { const GVariantType *type; DbRef child = Db_variant_get_child (v, &type); g_assert (g_variant_type_equal(type, G_VARIANT_TYPE_VARIANT)); return Db_variant_from_data (child.base, child.size); } static inline GVariant * Db_variant_dup_child_to_gvariant (DbVariantRef v) { const GVariantType *type; DbRef child = Db_variant_get_child (v, &type); return g_variant_new_from_data (type, g_memdup2 (child.base, child.size), child.size, TRUE, g_free, NULL); } static inline GVariant * Db_variant_peek_child_as_variant (DbVariantRef v) { const GVariantType *type; DbRef child = Db_variant_get_child (v, &type); return g_variant_new_from_data (type, child.base, child.size, TRUE, NULL, NULL); } static inline GString * Db_variant_format (DbVariantRef v, GString *s, gboolean type_annotate) { #ifdef DB_DEEP_VARIANT_FORMAT GVariant *gv = Db_variant_peek_as_variant (v); return g_variant_print_string (gv, s, TRUE); #else const GVariantType *type = Db_variant_get_type (v); g_string_append_printf (s, "<@%.*s>", (int)g_variant_type_get_string_length (type), (const char *)type); return s; #endif } static inline char * Db_variant_print (DbVariantRef v, gboolean type_annotate) { GString *s = g_string_new (""); Db_variant_format (v, s, type_annotate); return g_string_free (s, FALSE); } static inline gboolean Db_variant_get_boolean (DbVariantRef v) { return (gboolean)*((guint8 *)v.base); } static inline guint8 Db_variant_get_byte (DbVariantRef v) { return (guint8)*((guint8 *)v.base); } static inline gint16 Db_variant_get_int16 (DbVariantRef v) { return (gint16)*((gint16 *)v.base); } static inline guint16 Db_variant_get_uint16 (DbVariantRef v) { return (guint16)*((guint16 *)v.base); } static inline gint32 Db_variant_get_int32 (DbVariantRef v) { return (gint32)*((gint32 *)v.base); } static inline guint32 Db_variant_get_uint32 (DbVariantRef v) { return (guint32)*((guint32 *)v.base); } static inline gint64 Db_variant_get_int64 (DbVariantRef v) { return (gint64)*((gint64 *)v.base); } static inline guint64 Db_variant_get_uint64 (DbVariantRef v) { return (guint64)*((guint64 *)v.base); } static inline guint32 Db_variant_get_handle (DbVariantRef v) { return (guint32)*((guint32 *)v.base); } static inline double Db_variant_get_double (DbVariantRef v) { return (double)*((double *)v.base); } static inline const char * Db_variant_get_string (DbVariantRef v) { return (const char *)v.base; } static inline const char * Db_variant_get_objectpath (DbVariantRef v) { return (const char *)v.base; } static inline const char * Db_variant_get_signature (DbVariantRef v) { return (const char *)v.base; } /************** DbI18n *******************/ #define DB_I18N_TYPESTRING "(ss)" #define DB_I18N_TYPEFORMAT ((const GVariantType *) DB_I18N_TYPESTRING) typedef struct { gconstpointer base; gsize size; } DbI18nRef; static inline DbI18nRef db_i18n_from_gvariant (GVariant *v) { g_assert (g_variant_type_equal (g_variant_get_type (v), DB_I18N_TYPESTRING)); return (DbI18nRef) { g_variant_get_data (v), g_variant_get_size (v) }; } static inline DbI18nRef db_i18n_from_bytes (GBytes *b) { return (DbI18nRef) { g_bytes_get_data (b, NULL), g_bytes_get_size (b) }; } static inline DbI18nRef db_i18n_from_data (gconstpointer data, gsize size) { return (DbI18nRef) { data, size }; } static inline GVariant * db_i18n_dup_to_gvariant (DbI18nRef v) { return g_variant_new_from_data (DB_I18N_TYPEFORMAT, g_memdup2 (v.base, v.size), v.size, TRUE, g_free, NULL); } static inline GVariant * db_i18n_to_gvariant (DbI18nRef v, GDestroyNotify notify, gpointer user_data) { return g_variant_new_from_data (DB_I18N_TYPEFORMAT, v.base, v.size, TRUE, notify, user_data); } static inline GVariant * db_i18n_to_owned_gvariant (DbI18nRef v, GVariant *base) { return db_i18n_to_gvariant (v, (GDestroyNotify)g_variant_unref, g_variant_ref (base)); } static inline GVariant * db_i18n_peek_as_gvariant (DbI18nRef v) { return g_variant_new_from_data (DB_I18N_TYPEFORMAT, v.base, v.size, TRUE, NULL, NULL); } static inline DbI18nRef db_i18n_from_variant (DbVariantRef v) { const GVariantType *type; DbRef child = Db_variant_get_child (v, &type); g_assert (g_variant_type_equal(type, DB_I18N_TYPESTRING)); return db_i18n_from_data (child.base, child.size); } #define DB_I18N_INDEXOF_STR 0 static inline const char * db_i18n_get_str (DbI18nRef v) { guint offset_size = Db_ref_get_offset_size (v.size); guint offset = ((0) & (~(gsize)0)) + 0; const char *base = (const char *)v.base; gsize start = offset; G_GNUC_UNUSED gsize end = DB_REF_READ_FRAME_OFFSET(v, 0); g_assert (start <= end); g_assert (end <= v.size); g_assert (base[end-1] == 0); return &G_STRUCT_MEMBER(const char, v.base, start); } #define DB_I18N_INDEXOF_MSGCTXT 1 static inline const char * db_i18n_get_msgctxt (DbI18nRef v) { guint offset_size = Db_ref_get_offset_size (v.size); gsize last_end = DB_REF_READ_FRAME_OFFSET(v, 0); guint offset = ((last_end + 0) & (~(gsize)0)) + 0; const char *base = (const char *)v.base; gsize start = offset; G_GNUC_UNUSED gsize end = v.size - offset_size * 1; g_assert (start <= end); g_assert (end <= v.size); g_assert (base[end-1] == 0); return &G_STRUCT_MEMBER(const char, v.base, start); } static inline GString * db_i18n_format (DbI18nRef v, GString *s, gboolean type_annotate) { g_string_append (s, "("); __Db_gstring_append_string (s, db_i18n_get_str (v)); g_string_append (s, ", "); __Db_gstring_append_string (s, db_i18n_get_msgctxt (v)); g_string_append (s, ")"); return s; } static inline char * db_i18n_print (DbI18nRef v, gboolean type_annotate) { GString *s = g_string_new (""); db_i18n_format (v, s, type_annotate); return g_string_free (s, FALSE); } /************** DbArrayofstring *******************/ #define DB_ARRAYOFSTRING_TYPESTRING "as" #define DB_ARRAYOFSTRING_TYPEFORMAT ((const GVariantType *) DB_ARRAYOFSTRING_TYPESTRING) typedef struct { gconstpointer base; gsize size; } DbArrayofstringRef; static inline DbArrayofstringRef db_arrayofstring_from_gvariant (GVariant *v) { g_assert (g_variant_type_equal (g_variant_get_type (v), DB_ARRAYOFSTRING_TYPESTRING)); return (DbArrayofstringRef) { g_variant_get_data (v), g_variant_get_size (v) }; } static inline DbArrayofstringRef db_arrayofstring_from_bytes (GBytes *b) { return (DbArrayofstringRef) { g_bytes_get_data (b, NULL), g_bytes_get_size (b) }; } static inline DbArrayofstringRef db_arrayofstring_from_data (gconstpointer data, gsize size) { return (DbArrayofstringRef) { data, size }; } static inline GVariant * db_arrayofstring_dup_to_gvariant (DbArrayofstringRef v) { return g_variant_new_from_data (DB_ARRAYOFSTRING_TYPEFORMAT, g_memdup2 (v.base, v.size), v.size, TRUE, g_free, NULL); } static inline GVariant * db_arrayofstring_to_gvariant (DbArrayofstringRef v, GDestroyNotify notify, gpointer user_data) { return g_variant_new_from_data (DB_ARRAYOFSTRING_TYPEFORMAT, v.base, v.size, TRUE, notify, user_data); } static inline GVariant * db_arrayofstring_to_owned_gvariant (DbArrayofstringRef v, GVariant *base) { return db_arrayofstring_to_gvariant (v, (GDestroyNotify)g_variant_unref, g_variant_ref (base)); } static inline GVariant * db_arrayofstring_peek_as_gvariant (DbArrayofstringRef v) { return g_variant_new_from_data (DB_ARRAYOFSTRING_TYPEFORMAT, v.base, v.size, TRUE, NULL, NULL); } static inline DbArrayofstringRef db_arrayofstring_from_variant (DbVariantRef v) { const GVariantType *type; DbRef child = Db_variant_get_child (v, &type); g_assert (g_variant_type_equal(type, DB_ARRAYOFSTRING_TYPESTRING)); return db_arrayofstring_from_data (child.base, child.size); } static inline gsize db_arrayofstring_get_length (DbArrayofstringRef v) { if (v.size == 0) return 0; guint offset_size = Db_ref_get_offset_size (v.size); gsize last_end = DB_REF_READ_FRAME_OFFSET(v, 0); gsize offsets_array_size; if (last_end > v.size) return 0; offsets_array_size = v.size - last_end; if (offsets_array_size % offset_size != 0) return 0; gsize length = offsets_array_size / offset_size; return length; } static inline const char * db_arrayofstring_get_at (DbArrayofstringRef v, gsize index) { guint offset_size = Db_ref_get_offset_size (v.size); gsize last_end = DB_REF_READ_FRAME_OFFSET(v, 0); gsize len = (v.size - last_end) / offset_size; gsize start = (index > 0) ? DB_REF_ALIGN(DB_REF_READ_FRAME_OFFSET(v, len - index), 1) : 0; G_GNUC_UNUSED gsize end = DB_REF_READ_FRAME_OFFSET(v, len - index - 1); g_assert (start <= end); g_assert (end <= last_end); const char *base = (const char *)v.base; g_assert (base[end-1] == 0); return base + start; } static inline const char ** db_arrayofstring_to_strv (DbArrayofstringRef v, gsize *length_out) { gsize length = db_arrayofstring_get_length (v); gsize i; const char **resv = g_new (const char *, length + 1); for (i = 0; i < length; i++) resv[i] = db_arrayofstring_get_at (v, i); resv[i] = NULL; if (length_out) *length_out = length; return resv; } static inline GString * db_arrayofstring_format (DbArrayofstringRef v, GString *s, gboolean type_annotate) { gsize len = db_arrayofstring_get_length (v); gsize i; if (len == 0 && type_annotate) g_string_append_printf (s, "@%s ", DB_ARRAYOFSTRING_TYPESTRING); g_string_append_c (s, '['); for (i = 0; i < len; i++) { if (i != 0) g_string_append (s, ", "); __Db_gstring_append_string (s, db_arrayofstring_get_at (v, i)); } g_string_append_c (s, ']'); return s; } static inline char * db_arrayofstring_print (DbArrayofstringRef v, gboolean type_annotate) { GString *s = g_string_new (""); db_arrayofstring_format (v, s, type_annotate); return g_string_free (s, FALSE); } /************** DbTimezone *******************/ #define DB_TIMEZONE_TYPESTRING "((ss)as)" #define DB_TIMEZONE_TYPEFORMAT ((const GVariantType *) DB_TIMEZONE_TYPESTRING) typedef struct { gconstpointer base; gsize size; } DbTimezoneRef; static inline DbTimezoneRef db_timezone_from_gvariant (GVariant *v) { g_assert (g_variant_type_equal (g_variant_get_type (v), DB_TIMEZONE_TYPESTRING)); return (DbTimezoneRef) { g_variant_get_data (v), g_variant_get_size (v) }; } static inline DbTimezoneRef db_timezone_from_bytes (GBytes *b) { return (DbTimezoneRef) { g_bytes_get_data (b, NULL), g_bytes_get_size (b) }; } static inline DbTimezoneRef db_timezone_from_data (gconstpointer data, gsize size) { return (DbTimezoneRef) { data, size }; } static inline GVariant * db_timezone_dup_to_gvariant (DbTimezoneRef v) { return g_variant_new_from_data (DB_TIMEZONE_TYPEFORMAT, g_memdup2 (v.base, v.size), v.size, TRUE, g_free, NULL); } static inline GVariant * db_timezone_to_gvariant (DbTimezoneRef v, GDestroyNotify notify, gpointer user_data) { return g_variant_new_from_data (DB_TIMEZONE_TYPEFORMAT, v.base, v.size, TRUE, notify, user_data); } static inline GVariant * db_timezone_to_owned_gvariant (DbTimezoneRef v, GVariant *base) { return db_timezone_to_gvariant (v, (GDestroyNotify)g_variant_unref, g_variant_ref (base)); } static inline GVariant * db_timezone_peek_as_gvariant (DbTimezoneRef v) { return g_variant_new_from_data (DB_TIMEZONE_TYPEFORMAT, v.base, v.size, TRUE, NULL, NULL); } static inline DbTimezoneRef db_timezone_from_variant (DbVariantRef v) { const GVariantType *type; DbRef child = Db_variant_get_child (v, &type); g_assert (g_variant_type_equal(type, DB_TIMEZONE_TYPESTRING)); return db_timezone_from_data (child.base, child.size); } #define DB_TIMEZONE_INDEXOF_NAME 0 static inline DbI18nRef db_timezone_get_name (DbTimezoneRef v) { guint offset_size = Db_ref_get_offset_size (v.size); guint offset = ((0) & (~(gsize)0)) + 0; gsize start = offset; gsize end = DB_REF_READ_FRAME_OFFSET(v, 0); g_assert (start <= end); g_assert (end <= v.size); return (DbI18nRef) { G_STRUCT_MEMBER_P(v.base, start), end - start }; } #define DB_TIMEZONE_INDEXOF_OBSOLETES 1 static inline DbArrayofstringRef db_timezone_get_obsoletes (DbTimezoneRef v) { guint offset_size = Db_ref_get_offset_size (v.size); gsize last_end = DB_REF_READ_FRAME_OFFSET(v, 0); guint offset = ((last_end + 0) & (~(gsize)0)) + 0; gsize start = offset; gsize end = v.size - offset_size * 1; g_assert (start <= end); g_assert (end <= v.size); return (DbArrayofstringRef) { G_STRUCT_MEMBER_P(v.base, start), end - start }; } static inline GString * db_timezone_format (DbTimezoneRef v, GString *s, gboolean type_annotate) { g_string_append (s, "("); db_i18n_format (db_timezone_get_name (v), s, type_annotate); g_string_append (s, ", "); db_arrayofstring_format (db_timezone_get_obsoletes (v), s, type_annotate); g_string_append (s, ")"); return s; } static inline char * db_timezone_print (DbTimezoneRef v, gboolean type_annotate) { GString *s = g_string_new (""); db_timezone_format (v, s, type_annotate); return g_string_free (s, FALSE); } /************** DbCoordinate *******************/ #define DB_COORDINATE_TYPESTRING "(dd)" #define DB_COORDINATE_TYPEFORMAT ((const GVariantType *) DB_COORDINATE_TYPESTRING) typedef struct { gconstpointer base; gsize size; } DbCoordinateRef; typedef struct { double lat; double lon; } DbCoordinate; static inline DbCoordinateRef db_coordinate_from_gvariant (GVariant *v) { g_assert (g_variant_type_equal (g_variant_get_type (v), DB_COORDINATE_TYPESTRING)); return (DbCoordinateRef) { g_variant_get_data (v), g_variant_get_size (v) }; } static inline DbCoordinateRef db_coordinate_from_bytes (GBytes *b) { g_assert (g_bytes_get_size (b) == 16); return (DbCoordinateRef) { g_bytes_get_data (b, NULL), g_bytes_get_size (b) }; } static inline DbCoordinateRef db_coordinate_from_data (gconstpointer data, gsize size) { g_assert (size == 16); return (DbCoordinateRef) { data, size }; } static inline GVariant * db_coordinate_dup_to_gvariant (DbCoordinateRef v) { return g_variant_new_from_data (DB_COORDINATE_TYPEFORMAT, g_memdup2 (v.base, v.size), v.size, TRUE, g_free, NULL); } static inline GVariant * db_coordinate_to_gvariant (DbCoordinateRef v, GDestroyNotify notify, gpointer user_data) { return g_variant_new_from_data (DB_COORDINATE_TYPEFORMAT, v.base, v.size, TRUE, notify, user_data); } static inline GVariant * db_coordinate_to_owned_gvariant (DbCoordinateRef v, GVariant *base) { return db_coordinate_to_gvariant (v, (GDestroyNotify)g_variant_unref, g_variant_ref (base)); } static inline GVariant * db_coordinate_peek_as_gvariant (DbCoordinateRef v) { return g_variant_new_from_data (DB_COORDINATE_TYPEFORMAT, v.base, v.size, TRUE, NULL, NULL); } static inline DbCoordinateRef db_coordinate_from_variant (DbVariantRef v) { const GVariantType *type; DbRef child = Db_variant_get_child (v, &type); g_assert (g_variant_type_equal(type, DB_COORDINATE_TYPESTRING)); return db_coordinate_from_data (child.base, child.size); } static inline const DbCoordinate * db_coordinate_peek (DbCoordinateRef v) { return (const DbCoordinate *)v.base; } #define DB_COORDINATE_INDEXOF_LAT 0 static inline double db_coordinate_get_lat (DbCoordinateRef v) { guint offset = ((7) & (~(gsize)7)) + 0; return (double)G_STRUCT_MEMBER(double, v.base, offset); } #define DB_COORDINATE_INDEXOF_LON 1 static inline double db_coordinate_get_lon (DbCoordinateRef v) { guint offset = ((7) & (~(gsize)7)) + 8; return (double)G_STRUCT_MEMBER(double, v.base, offset); } static inline GString * db_coordinate_format (DbCoordinateRef v, GString *s, gboolean type_annotate) { g_string_append (s, "("); __Db_gstring_append_double (s, db_coordinate_get_lat (v)); g_string_append (s, ", "); __Db_gstring_append_double (s, db_coordinate_get_lon (v)); g_string_append (s, ")"); return s; } static inline char * db_coordinate_print (DbCoordinateRef v, gboolean type_annotate) { GString *s = g_string_new (""); db_coordinate_format (v, s, type_annotate); return g_string_free (s, FALSE); } /************** DbArrayofuint16 *******************/ #define DB_ARRAYOFUINT16_TYPESTRING "aq" #define DB_ARRAYOFUINT16_TYPEFORMAT ((const GVariantType *) DB_ARRAYOFUINT16_TYPESTRING) typedef struct { gconstpointer base; gsize size; } DbArrayofuint16Ref; static inline DbArrayofuint16Ref db_arrayofuint16_from_gvariant (GVariant *v) { g_assert (g_variant_type_equal (g_variant_get_type (v), DB_ARRAYOFUINT16_TYPESTRING)); return (DbArrayofuint16Ref) { g_variant_get_data (v), g_variant_get_size (v) }; } static inline DbArrayofuint16Ref db_arrayofuint16_from_bytes (GBytes *b) { return (DbArrayofuint16Ref) { g_bytes_get_data (b, NULL), g_bytes_get_size (b) }; } static inline DbArrayofuint16Ref db_arrayofuint16_from_data (gconstpointer data, gsize size) { return (DbArrayofuint16Ref) { data, size }; } static inline GVariant * db_arrayofuint16_dup_to_gvariant (DbArrayofuint16Ref v) { return g_variant_new_from_data (DB_ARRAYOFUINT16_TYPEFORMAT, g_memdup2 (v.base, v.size), v.size, TRUE, g_free, NULL); } static inline GVariant * db_arrayofuint16_to_gvariant (DbArrayofuint16Ref v, GDestroyNotify notify, gpointer user_data) { return g_variant_new_from_data (DB_ARRAYOFUINT16_TYPEFORMAT, v.base, v.size, TRUE, notify, user_data); } static inline GVariant * db_arrayofuint16_to_owned_gvariant (DbArrayofuint16Ref v, GVariant *base) { return db_arrayofuint16_to_gvariant (v, (GDestroyNotify)g_variant_unref, g_variant_ref (base)); } static inline GVariant * db_arrayofuint16_peek_as_gvariant (DbArrayofuint16Ref v) { return g_variant_new_from_data (DB_ARRAYOFUINT16_TYPEFORMAT, v.base, v.size, TRUE, NULL, NULL); } static inline DbArrayofuint16Ref db_arrayofuint16_from_variant (DbVariantRef v) { const GVariantType *type; DbRef child = Db_variant_get_child (v, &type); g_assert (g_variant_type_equal(type, DB_ARRAYOFUINT16_TYPESTRING)); return db_arrayofuint16_from_data (child.base, child.size); } static inline gsize db_arrayofuint16_get_length (DbArrayofuint16Ref v) { gsize length = v.size / 2; return length; } static inline guint16 db_arrayofuint16_get_at (DbArrayofuint16Ref v, gsize index) { return (guint16)G_STRUCT_MEMBER(guint16, v.base, index * 2); } static inline const guint16 * db_arrayofuint16_peek (DbArrayofuint16Ref v) { return (const guint16 *)v.base; } static inline GString * db_arrayofuint16_format (DbArrayofuint16Ref v, GString *s, gboolean type_annotate) { gsize len = db_arrayofuint16_get_length (v); gsize i; if (len == 0 && type_annotate) g_string_append_printf (s, "@%s ", DB_ARRAYOFUINT16_TYPESTRING); g_string_append_c (s, '['); for (i = 0; i < len; i++) { if (i != 0) g_string_append (s, ", "); g_string_append_printf (s, "%s%"G_GUINT16_FORMAT"", ((i == 0) ? type_annotate : FALSE) ? "uint16 " : "", db_arrayofuint16_get_at (v, i)); } g_string_append_c (s, ']'); return s; } static inline char * db_arrayofuint16_print (DbArrayofuint16Ref v, gboolean type_annotate) { GString *s = g_string_new (""); db_arrayofuint16_format (v, s, type_annotate); return g_string_free (s, FALSE); } /************** DbLocation *******************/ #define DB_LOCATION_TYPESTRING "((ss)ss(dd)ssqyqqaqaq)" #define DB_LOCATION_TYPEFORMAT ((const GVariantType *) DB_LOCATION_TYPESTRING) typedef struct { gconstpointer base; gsize size; } DbLocationRef; static inline DbLocationRef db_location_from_gvariant (GVariant *v) { g_assert (g_variant_type_equal (g_variant_get_type (v), DB_LOCATION_TYPESTRING)); return (DbLocationRef) { g_variant_get_data (v), g_variant_get_size (v) }; } static inline DbLocationRef db_location_from_bytes (GBytes *b) { return (DbLocationRef) { g_bytes_get_data (b, NULL), g_bytes_get_size (b) }; } static inline DbLocationRef db_location_from_data (gconstpointer data, gsize size) { return (DbLocationRef) { data, size }; } static inline GVariant * db_location_dup_to_gvariant (DbLocationRef v) { return g_variant_new_from_data (DB_LOCATION_TYPEFORMAT, g_memdup2 (v.base, v.size), v.size, TRUE, g_free, NULL); } static inline GVariant * db_location_to_gvariant (DbLocationRef v, GDestroyNotify notify, gpointer user_data) { return g_variant_new_from_data (DB_LOCATION_TYPEFORMAT, v.base, v.size, TRUE, notify, user_data); } static inline GVariant * db_location_to_owned_gvariant (DbLocationRef v, GVariant *base) { return db_location_to_gvariant (v, (GDestroyNotify)g_variant_unref, g_variant_ref (base)); } static inline GVariant * db_location_peek_as_gvariant (DbLocationRef v) { return g_variant_new_from_data (DB_LOCATION_TYPEFORMAT, v.base, v.size, TRUE, NULL, NULL); } static inline DbLocationRef db_location_from_variant (DbVariantRef v) { const GVariantType *type; DbRef child = Db_variant_get_child (v, &type); g_assert (g_variant_type_equal(type, DB_LOCATION_TYPESTRING)); return db_location_from_data (child.base, child.size); } #define DB_LOCATION_INDEXOF_NAME 0 static inline DbI18nRef db_location_get_name (DbLocationRef v) { guint offset_size = Db_ref_get_offset_size (v.size); guint offset = ((0) & (~(gsize)0)) + 0; gsize start = offset; gsize end = DB_REF_READ_FRAME_OFFSET(v, 0); g_assert (start <= end); g_assert (end <= v.size); return (DbI18nRef) { G_STRUCT_MEMBER_P(v.base, start), end - start }; } #define DB_LOCATION_INDEXOF_FORECAST_ZONE 1 static inline const char * db_location_get_forecast_zone (DbLocationRef v) { guint offset_size = Db_ref_get_offset_size (v.size); gsize last_end = DB_REF_READ_FRAME_OFFSET(v, 0); guint offset = ((last_end + 0) & (~(gsize)0)) + 0; const char *base = (const char *)v.base; gsize start = offset; G_GNUC_UNUSED gsize end = DB_REF_READ_FRAME_OFFSET(v, 1); g_assert (start <= end); g_assert (end <= v.size); g_assert (base[end-1] == 0); return &G_STRUCT_MEMBER(const char, v.base, start); } #define DB_LOCATION_INDEXOF_RADAR 2 static inline const char * db_location_get_radar (DbLocationRef v) { guint offset_size = Db_ref_get_offset_size (v.size); gsize last_end = DB_REF_READ_FRAME_OFFSET(v, 1); guint offset = ((last_end + 0) & (~(gsize)0)) + 0; const char *base = (const char *)v.base; gsize start = offset; G_GNUC_UNUSED gsize end = DB_REF_READ_FRAME_OFFSET(v, 2); g_assert (start <= end); g_assert (end <= v.size); g_assert (base[end-1] == 0); return &G_STRUCT_MEMBER(const char, v.base, start); } #define DB_LOCATION_INDEXOF_COORDINATES 3 static inline DbCoordinateRef db_location_get_coordinates (DbLocationRef v) { guint offset_size = Db_ref_get_offset_size (v.size); gsize last_end = DB_REF_READ_FRAME_OFFSET(v, 2); guint offset = ((last_end + 7) & (~(gsize)7)) + 0; g_assert (offset + 16 < v.size); return (DbCoordinateRef) { G_STRUCT_MEMBER_P(v.base, offset), 16 }; } static inline const DbCoordinate * db_location_peek_coordinates (DbLocationRef v) { return (DbCoordinate *)db_location_get_coordinates (v).base; } #define DB_LOCATION_INDEXOF_COUNTRY_CODE 4 static inline const char * db_location_get_country_code (DbLocationRef v) { guint offset_size = Db_ref_get_offset_size (v.size); gsize last_end = DB_REF_READ_FRAME_OFFSET(v, 2); guint offset = ((last_end + 7) & (~(gsize)7)) + 16; const char *base = (const char *)v.base; gsize start = offset; G_GNUC_UNUSED gsize end = DB_REF_READ_FRAME_OFFSET(v, 3); g_assert (start <= end); g_assert (end <= v.size); g_assert (base[end-1] == 0); return &G_STRUCT_MEMBER(const char, v.base, start); } #define DB_LOCATION_INDEXOF_METAR_CODE 5 static inline const char * db_location_get_metar_code (DbLocationRef v) { guint offset_size = Db_ref_get_offset_size (v.size); gsize last_end = DB_REF_READ_FRAME_OFFSET(v, 3); guint offset = ((last_end + 0) & (~(gsize)0)) + 0; const char *base = (const char *)v.base; gsize start = offset; G_GNUC_UNUSED gsize end = DB_REF_READ_FRAME_OFFSET(v, 4); g_assert (start <= end); g_assert (end <= v.size); g_assert (base[end-1] == 0); return &G_STRUCT_MEMBER(const char, v.base, start); } #define DB_LOCATION_INDEXOF_TZ_HINT 6 static inline guint16 db_location_get_tz_hint (DbLocationRef v) { guint offset_size = Db_ref_get_offset_size (v.size); gsize last_end = DB_REF_READ_FRAME_OFFSET(v, 4); guint offset = ((last_end + 1) & (~(gsize)1)) + 0; g_assert (offset + 2 < v.size); return (guint16)G_STRUCT_MEMBER(guint16, v.base, offset); } #define DB_LOCATION_INDEXOF_LEVEL 7 static inline guint8 db_location_get_level (DbLocationRef v) { guint offset_size = Db_ref_get_offset_size (v.size); gsize last_end = DB_REF_READ_FRAME_OFFSET(v, 4); guint offset = ((last_end + 1) & (~(gsize)1)) + 2; g_assert (offset + 1 < v.size); return (guint8)G_STRUCT_MEMBER(guint8, v.base, offset); } #define DB_LOCATION_INDEXOF_NEAREST 8 static inline guint16 db_location_get_nearest (DbLocationRef v) { guint offset_size = Db_ref_get_offset_size (v.size); gsize last_end = DB_REF_READ_FRAME_OFFSET(v, 4); guint offset = ((last_end + 1) & (~(gsize)1)) + 4; g_assert (offset + 2 < v.size); return (guint16)G_STRUCT_MEMBER(guint16, v.base, offset); } #define DB_LOCATION_INDEXOF_PARENT 9 static inline guint16 db_location_get_parent (DbLocationRef v) { guint offset_size = Db_ref_get_offset_size (v.size); gsize last_end = DB_REF_READ_FRAME_OFFSET(v, 4); guint offset = ((last_end + 1) & (~(gsize)1)) + 6; g_assert (offset + 2 < v.size); return (guint16)G_STRUCT_MEMBER(guint16, v.base, offset); } #define DB_LOCATION_INDEXOF_CHILDREN 10 static inline DbArrayofuint16Ref db_location_get_children (DbLocationRef v) { guint offset_size = Db_ref_get_offset_size (v.size); gsize last_end = DB_REF_READ_FRAME_OFFSET(v, 4); guint offset = ((last_end + 1) & (~(gsize)1)) + 8; gsize start = offset; gsize end = DB_REF_READ_FRAME_OFFSET(v, 5); g_assert (start <= end); g_assert (end <= v.size); return (DbArrayofuint16Ref) { G_STRUCT_MEMBER_P(v.base, start), end - start }; } static inline const guint16 * db_location_peek_children (DbLocationRef v, gsize *len) { DbArrayofuint16Ref a = db_location_get_children (v); if (len != NULL) *len = db_arrayofuint16_get_length (a); return (const guint16 *)a.base; } #define DB_LOCATION_INDEXOF_TIMEZONES 11 static inline DbArrayofuint16Ref db_location_get_timezones (DbLocationRef v) { guint offset_size = Db_ref_get_offset_size (v.size); gsize last_end = DB_REF_READ_FRAME_OFFSET(v, 5); guint offset = ((last_end + 1) & (~(gsize)1)) + 0; gsize start = offset; gsize end = v.size - offset_size * 6; g_assert (start <= end); g_assert (end <= v.size); return (DbArrayofuint16Ref) { G_STRUCT_MEMBER_P(v.base, start), end - start }; } static inline const guint16 * db_location_peek_timezones (DbLocationRef v, gsize *len) { DbArrayofuint16Ref a = db_location_get_timezones (v); if (len != NULL) *len = db_arrayofuint16_get_length (a); return (const guint16 *)a.base; } static inline GString * db_location_format (DbLocationRef v, GString *s, gboolean type_annotate) { g_string_append (s, "("); db_i18n_format (db_location_get_name (v), s, type_annotate); g_string_append (s, ", "); __Db_gstring_append_string (s, db_location_get_forecast_zone (v)); g_string_append (s, ", "); __Db_gstring_append_string (s, db_location_get_radar (v)); g_string_append (s, ", "); db_coordinate_format (db_location_get_coordinates (v), s, type_annotate); g_string_append (s, ", "); __Db_gstring_append_string (s, db_location_get_country_code (v)); g_string_append (s, ", "); __Db_gstring_append_string (s, db_location_get_metar_code (v)); g_string_append (s, ", "); g_string_append_printf (s, "%s%"G_GUINT16_FORMAT", %s0x%02x, %s%"G_GUINT16_FORMAT", %s%"G_GUINT16_FORMAT", ", type_annotate ? "uint16 " : "", db_location_get_tz_hint (v), type_annotate ? "byte " : "", db_location_get_level (v), type_annotate ? "uint16 " : "", db_location_get_nearest (v), type_annotate ? "uint16 " : "", db_location_get_parent (v)); db_arrayofuint16_format (db_location_get_children (v), s, type_annotate); g_string_append (s, ", "); db_arrayofuint16_format (db_location_get_timezones (v), s, type_annotate); g_string_append (s, ")"); return s; } static inline char * db_location_print (DbLocationRef v, gboolean type_annotate) { GString *s = g_string_new (""); db_location_format (v, s, type_annotate); return g_string_free (s, FALSE); } /************** DbWorldLocByCountry *******************/ #define DB_WORLD_LOC_BY_COUNTRY_TYPESTRING "a{sq}" #define DB_WORLD_LOC_BY_COUNTRY_TYPEFORMAT ((const GVariantType *) DB_WORLD_LOC_BY_COUNTRY_TYPESTRING) typedef struct { gconstpointer base; gsize size; } DbWorldLocByCountryRef; typedef struct { gconstpointer base; gsize size; } DbWorldLocByCountryEntryRef; static inline DbWorldLocByCountryRef db_world_loc_by_country_from_gvariant (GVariant *v) { g_assert (g_variant_type_equal (g_variant_get_type (v), DB_WORLD_LOC_BY_COUNTRY_TYPESTRING)); return (DbWorldLocByCountryRef) { g_variant_get_data (v), g_variant_get_size (v) }; } static inline DbWorldLocByCountryRef db_world_loc_by_country_from_bytes (GBytes *b) { return (DbWorldLocByCountryRef) { g_bytes_get_data (b, NULL), g_bytes_get_size (b) }; } static inline DbWorldLocByCountryRef db_world_loc_by_country_from_data (gconstpointer data, gsize size) { return (DbWorldLocByCountryRef) { data, size }; } static inline GVariant * db_world_loc_by_country_dup_to_gvariant (DbWorldLocByCountryRef v) { return g_variant_new_from_data (DB_WORLD_LOC_BY_COUNTRY_TYPEFORMAT, g_memdup2 (v.base, v.size), v.size, TRUE, g_free, NULL); } static inline GVariant * db_world_loc_by_country_to_gvariant (DbWorldLocByCountryRef v, GDestroyNotify notify, gpointer user_data) { return g_variant_new_from_data (DB_WORLD_LOC_BY_COUNTRY_TYPEFORMAT, v.base, v.size, TRUE, notify, user_data); } static inline GVariant * db_world_loc_by_country_to_owned_gvariant (DbWorldLocByCountryRef v, GVariant *base) { return db_world_loc_by_country_to_gvariant (v, (GDestroyNotify)g_variant_unref, g_variant_ref (base)); } static inline GVariant * db_world_loc_by_country_peek_as_gvariant (DbWorldLocByCountryRef v) { return g_variant_new_from_data (DB_WORLD_LOC_BY_COUNTRY_TYPEFORMAT, v.base, v.size, TRUE, NULL, NULL); } static inline DbWorldLocByCountryRef db_world_loc_by_country_from_variant (DbVariantRef v) { const GVariantType *type; DbRef child = Db_variant_get_child (v, &type); g_assert (g_variant_type_equal(type, DB_WORLD_LOC_BY_COUNTRY_TYPESTRING)); return db_world_loc_by_country_from_data (child.base, child.size); } static inline gsize db_world_loc_by_country_get_length (DbWorldLocByCountryRef v) { if (v.size == 0) return 0; guint offset_size = Db_ref_get_offset_size (v.size); gsize last_end = DB_REF_READ_FRAME_OFFSET(v, 0); gsize offsets_array_size; if (last_end > v.size) return 0; offsets_array_size = v.size - last_end; if (offsets_array_size % offset_size != 0) return 0; gsize length = offsets_array_size / offset_size; return length; } static inline DbWorldLocByCountryEntryRef db_world_loc_by_country_get_at (DbWorldLocByCountryRef v, gsize index) { DbWorldLocByCountryEntryRef res; guint offset_size = Db_ref_get_offset_size (v.size); gsize last_end = DB_REF_READ_FRAME_OFFSET(v, 0); gsize len = (v.size - last_end) / offset_size; gsize start = (index > 0) ? DB_REF_ALIGN(DB_REF_READ_FRAME_OFFSET(v, len - index), 2) : 0; gsize end = DB_REF_READ_FRAME_OFFSET(v, len - index - 1); g_assert (start <= end); g_assert (end <= last_end); res = (DbWorldLocByCountryEntryRef) { ((const char *)v.base) + start, end - start }; return res; } static inline const char * db_world_loc_by_country_entry_get_key (DbWorldLocByCountryEntryRef v) { guint offset_size = Db_ref_get_offset_size (v.size); G_GNUC_UNUSED gsize end = DB_REF_READ_FRAME_OFFSET(v, 0); const char *base = (const char *)v.base; g_assert (end < v.size); g_assert (base[end-1] == 0); return base; } static inline guint16 db_world_loc_by_country_entry_get_value (DbWorldLocByCountryEntryRef v) { guint offset_size = Db_ref_get_offset_size (v.size); gsize end = DB_REF_READ_FRAME_OFFSET(v, 0); gsize offset = DB_REF_ALIGN(end, 2); g_assert (offset == v.size - offset_size - 2); return (guint16)*((guint16 *)((char *)v.base + offset)); } static inline gboolean db_world_loc_by_country_lookup (DbWorldLocByCountryRef v, const char * key, gsize *index_out, guint16 *out) { const char * canonical_key = key; guint offset_size = Db_ref_get_offset_size (v.size); gsize last_end = DB_REF_READ_FRAME_OFFSET(v, 0); if (last_end > v.size) return FALSE; gsize offsets_array_size = v.size - last_end; if (offsets_array_size % offset_size != 0) return FALSE; gsize len = offsets_array_size / offset_size; gsize start = 0; gsize end = len; while (start < end) { gsize mid = (end + start) / 2; gsize mid_end = DB_REF_READ_FRAME_OFFSET(v, len - mid - 1); gsize mid_start = mid == 0 ? 0 : DB_REF_ALIGN(DB_REF_READ_FRAME_OFFSET(v, len - mid), 2); g_assert (mid_start <= mid_end); g_assert (mid_end <= last_end); DbWorldLocByCountryEntryRef e = { ((const char *)v.base) + mid_start, mid_end - mid_start }; const char * e_key = db_world_loc_by_country_entry_get_key (e); gint32 cmp = strcmp(canonical_key, e_key); if (cmp == 0) { if (index_out) *index_out = mid; if (out) *out = db_world_loc_by_country_entry_get_value (e); return TRUE; } if (cmp < 0) end = mid; /* canonical_key < e_key */ else start = mid + 1; /* canonical_key > e_key */ } return FALSE; } static inline GString * db_world_loc_by_country_format (DbWorldLocByCountryRef v, GString *s, gboolean type_annotate) { gsize len = db_world_loc_by_country_get_length (v); gsize i; if (len == 0 && type_annotate) g_string_append_printf (s, "@%s ", DB_WORLD_LOC_BY_COUNTRY_TYPESTRING); g_string_append_c (s, '{'); for (i = 0; i < len; i++) { DbWorldLocByCountryEntryRef entry = db_world_loc_by_country_get_at (v, i); if (i != 0) g_string_append (s, ", "); __Db_gstring_append_string (s, db_world_loc_by_country_entry_get_key (entry)); g_string_append (s, ": "); g_string_append_printf (s, "%s%"G_GUINT16_FORMAT"", type_annotate ? "uint16 " : "", db_world_loc_by_country_entry_get_value (entry)); } g_string_append_c (s, '}'); return s; } static inline char * db_world_loc_by_country_print (DbWorldLocByCountryRef v, gboolean type_annotate) { GString *s = g_string_new (""); db_world_loc_by_country_format (v, s, type_annotate); return g_string_free (s, FALSE); } /************** DbWorldLocByMetar *******************/ #define DB_WORLD_LOC_BY_METAR_TYPESTRING "a{sq}" #define DB_WORLD_LOC_BY_METAR_TYPEFORMAT ((const GVariantType *) DB_WORLD_LOC_BY_METAR_TYPESTRING) typedef struct { gconstpointer base; gsize size; } DbWorldLocByMetarRef; typedef struct { gconstpointer base; gsize size; } DbWorldLocByMetarEntryRef; static inline DbWorldLocByMetarRef db_world_loc_by_metar_from_gvariant (GVariant *v) { g_assert (g_variant_type_equal (g_variant_get_type (v), DB_WORLD_LOC_BY_METAR_TYPESTRING)); return (DbWorldLocByMetarRef) { g_variant_get_data (v), g_variant_get_size (v) }; } static inline DbWorldLocByMetarRef db_world_loc_by_metar_from_bytes (GBytes *b) { return (DbWorldLocByMetarRef) { g_bytes_get_data (b, NULL), g_bytes_get_size (b) }; } static inline DbWorldLocByMetarRef db_world_loc_by_metar_from_data (gconstpointer data, gsize size) { return (DbWorldLocByMetarRef) { data, size }; } static inline GVariant * db_world_loc_by_metar_dup_to_gvariant (DbWorldLocByMetarRef v) { return g_variant_new_from_data (DB_WORLD_LOC_BY_METAR_TYPEFORMAT, g_memdup2 (v.base, v.size), v.size, TRUE, g_free, NULL); } static inline GVariant * db_world_loc_by_metar_to_gvariant (DbWorldLocByMetarRef v, GDestroyNotify notify, gpointer user_data) { return g_variant_new_from_data (DB_WORLD_LOC_BY_METAR_TYPEFORMAT, v.base, v.size, TRUE, notify, user_data); } static inline GVariant * db_world_loc_by_metar_to_owned_gvariant (DbWorldLocByMetarRef v, GVariant *base) { return db_world_loc_by_metar_to_gvariant (v, (GDestroyNotify)g_variant_unref, g_variant_ref (base)); } static inline GVariant * db_world_loc_by_metar_peek_as_gvariant (DbWorldLocByMetarRef v) { return g_variant_new_from_data (DB_WORLD_LOC_BY_METAR_TYPEFORMAT, v.base, v.size, TRUE, NULL, NULL); } static inline DbWorldLocByMetarRef db_world_loc_by_metar_from_variant (DbVariantRef v) { const GVariantType *type; DbRef child = Db_variant_get_child (v, &type); g_assert (g_variant_type_equal(type, DB_WORLD_LOC_BY_METAR_TYPESTRING)); return db_world_loc_by_metar_from_data (child.base, child.size); } static inline gsize db_world_loc_by_metar_get_length (DbWorldLocByMetarRef v) { if (v.size == 0) return 0; guint offset_size = Db_ref_get_offset_size (v.size); gsize last_end = DB_REF_READ_FRAME_OFFSET(v, 0); gsize offsets_array_size; if (last_end > v.size) return 0; offsets_array_size = v.size - last_end; if (offsets_array_size % offset_size != 0) return 0; gsize length = offsets_array_size / offset_size; return length; } static inline DbWorldLocByMetarEntryRef db_world_loc_by_metar_get_at (DbWorldLocByMetarRef v, gsize index) { DbWorldLocByMetarEntryRef res; guint offset_size = Db_ref_get_offset_size (v.size); gsize last_end = DB_REF_READ_FRAME_OFFSET(v, 0); gsize len = (v.size - last_end) / offset_size; gsize start = (index > 0) ? DB_REF_ALIGN(DB_REF_READ_FRAME_OFFSET(v, len - index), 2) : 0; gsize end = DB_REF_READ_FRAME_OFFSET(v, len - index - 1); g_assert (start <= end); g_assert (end <= last_end); res = (DbWorldLocByMetarEntryRef) { ((const char *)v.base) + start, end - start }; return res; } static inline const char * db_world_loc_by_metar_entry_get_key (DbWorldLocByMetarEntryRef v) { guint offset_size = Db_ref_get_offset_size (v.size); G_GNUC_UNUSED gsize end = DB_REF_READ_FRAME_OFFSET(v, 0); const char *base = (const char *)v.base; g_assert (end < v.size); g_assert (base[end-1] == 0); return base; } static inline guint16 db_world_loc_by_metar_entry_get_value (DbWorldLocByMetarEntryRef v) { guint offset_size = Db_ref_get_offset_size (v.size); gsize end = DB_REF_READ_FRAME_OFFSET(v, 0); gsize offset = DB_REF_ALIGN(end, 2); g_assert (offset == v.size - offset_size - 2); return (guint16)*((guint16 *)((char *)v.base + offset)); } static inline gboolean db_world_loc_by_metar_lookup (DbWorldLocByMetarRef v, const char * key, gsize *index_out, guint16 *out) { const char * canonical_key = key; guint offset_size = Db_ref_get_offset_size (v.size); gsize last_end = DB_REF_READ_FRAME_OFFSET(v, 0); if (last_end > v.size) return FALSE; gsize offsets_array_size = v.size - last_end; if (offsets_array_size % offset_size != 0) return FALSE; gsize len = offsets_array_size / offset_size; gsize start = 0; gsize end = len; while (start < end) { gsize mid = (end + start) / 2; gsize mid_end = DB_REF_READ_FRAME_OFFSET(v, len - mid - 1); gsize mid_start = mid == 0 ? 0 : DB_REF_ALIGN(DB_REF_READ_FRAME_OFFSET(v, len - mid), 2); g_assert (mid_start <= mid_end); g_assert (mid_end <= last_end); DbWorldLocByMetarEntryRef e = { ((const char *)v.base) + mid_start, mid_end - mid_start }; const char * e_key = db_world_loc_by_metar_entry_get_key (e); gint32 cmp = strcmp(canonical_key, e_key); if (cmp == 0) { if (index_out) *index_out = mid; if (out) *out = db_world_loc_by_metar_entry_get_value (e); return TRUE; } if (cmp < 0) end = mid; /* canonical_key < e_key */ else start = mid + 1; /* canonical_key > e_key */ } return FALSE; } static inline GString * db_world_loc_by_metar_format (DbWorldLocByMetarRef v, GString *s, gboolean type_annotate) { gsize len = db_world_loc_by_metar_get_length (v); gsize i; if (len == 0 && type_annotate) g_string_append_printf (s, "@%s ", DB_WORLD_LOC_BY_METAR_TYPESTRING); g_string_append_c (s, '{'); for (i = 0; i < len; i++) { DbWorldLocByMetarEntryRef entry = db_world_loc_by_metar_get_at (v, i); if (i != 0) g_string_append (s, ", "); __Db_gstring_append_string (s, db_world_loc_by_metar_entry_get_key (entry)); g_string_append (s, ": "); g_string_append_printf (s, "%s%"G_GUINT16_FORMAT"", type_annotate ? "uint16 " : "", db_world_loc_by_metar_entry_get_value (entry)); } g_string_append_c (s, '}'); return s; } static inline char * db_world_loc_by_metar_print (DbWorldLocByMetarRef v, gboolean type_annotate) { GString *s = g_string_new (""); db_world_loc_by_metar_format (v, s, type_annotate); return g_string_free (s, FALSE); } /************** DbWorldTimezones *******************/ #define DB_WORLD_TIMEZONES_TYPESTRING "a{s((ss)as)}" #define DB_WORLD_TIMEZONES_TYPEFORMAT ((const GVariantType *) DB_WORLD_TIMEZONES_TYPESTRING) typedef struct { gconstpointer base; gsize size; } DbWorldTimezonesRef; typedef struct { gconstpointer base; gsize size; } DbWorldTimezonesEntryRef; static inline DbWorldTimezonesRef db_world_timezones_from_gvariant (GVariant *v) { g_assert (g_variant_type_equal (g_variant_get_type (v), DB_WORLD_TIMEZONES_TYPESTRING)); return (DbWorldTimezonesRef) { g_variant_get_data (v), g_variant_get_size (v) }; } static inline DbWorldTimezonesRef db_world_timezones_from_bytes (GBytes *b) { return (DbWorldTimezonesRef) { g_bytes_get_data (b, NULL), g_bytes_get_size (b) }; } static inline DbWorldTimezonesRef db_world_timezones_from_data (gconstpointer data, gsize size) { return (DbWorldTimezonesRef) { data, size }; } static inline GVariant * db_world_timezones_dup_to_gvariant (DbWorldTimezonesRef v) { return g_variant_new_from_data (DB_WORLD_TIMEZONES_TYPEFORMAT, g_memdup2 (v.base, v.size), v.size, TRUE, g_free, NULL); } static inline GVariant * db_world_timezones_to_gvariant (DbWorldTimezonesRef v, GDestroyNotify notify, gpointer user_data) { return g_variant_new_from_data (DB_WORLD_TIMEZONES_TYPEFORMAT, v.base, v.size, TRUE, notify, user_data); } static inline GVariant * db_world_timezones_to_owned_gvariant (DbWorldTimezonesRef v, GVariant *base) { return db_world_timezones_to_gvariant (v, (GDestroyNotify)g_variant_unref, g_variant_ref (base)); } static inline GVariant * db_world_timezones_peek_as_gvariant (DbWorldTimezonesRef v) { return g_variant_new_from_data (DB_WORLD_TIMEZONES_TYPEFORMAT, v.base, v.size, TRUE, NULL, NULL); } static inline DbWorldTimezonesRef db_world_timezones_from_variant (DbVariantRef v) { const GVariantType *type; DbRef child = Db_variant_get_child (v, &type); g_assert (g_variant_type_equal(type, DB_WORLD_TIMEZONES_TYPESTRING)); return db_world_timezones_from_data (child.base, child.size); } static inline gsize db_world_timezones_get_length (DbWorldTimezonesRef v) { if (v.size == 0) return 0; guint offset_size = Db_ref_get_offset_size (v.size); gsize last_end = DB_REF_READ_FRAME_OFFSET(v, 0); gsize offsets_array_size; if (last_end > v.size) return 0; offsets_array_size = v.size - last_end; if (offsets_array_size % offset_size != 0) return 0; gsize length = offsets_array_size / offset_size; return length; } static inline DbWorldTimezonesEntryRef db_world_timezones_get_at (DbWorldTimezonesRef v, gsize index) { DbWorldTimezonesEntryRef res; guint offset_size = Db_ref_get_offset_size (v.size); gsize last_end = DB_REF_READ_FRAME_OFFSET(v, 0); gsize len = (v.size - last_end) / offset_size; gsize start = (index > 0) ? DB_REF_ALIGN(DB_REF_READ_FRAME_OFFSET(v, len - index), 1) : 0; gsize end = DB_REF_READ_FRAME_OFFSET(v, len - index - 1); g_assert (start <= end); g_assert (end <= last_end); res = (DbWorldTimezonesEntryRef) { ((const char *)v.base) + start, end - start }; return res; } static inline const char * db_world_timezones_entry_get_key (DbWorldTimezonesEntryRef v) { guint offset_size = Db_ref_get_offset_size (v.size); G_GNUC_UNUSED gsize end = DB_REF_READ_FRAME_OFFSET(v, 0); const char *base = (const char *)v.base; g_assert (end < v.size); g_assert (base[end-1] == 0); return base; } static inline DbTimezoneRef db_world_timezones_entry_get_value (DbWorldTimezonesEntryRef v) { guint offset_size = Db_ref_get_offset_size (v.size); gsize end = DB_REF_READ_FRAME_OFFSET(v, 0); gsize offset = DB_REF_ALIGN(end, 1); g_assert (offset <= v.size); return (DbTimezoneRef) { (char *)v.base + offset, (v.size - offset_size) - offset }; } static inline gboolean db_world_timezones_lookup (DbWorldTimezonesRef v, const char * key, gsize *index_out, DbTimezoneRef *out) { const char * canonical_key = key; guint offset_size = Db_ref_get_offset_size (v.size); gsize last_end = DB_REF_READ_FRAME_OFFSET(v, 0); if (last_end > v.size) return FALSE; gsize offsets_array_size = v.size - last_end; if (offsets_array_size % offset_size != 0) return FALSE; gsize len = offsets_array_size / offset_size; gsize start = 0; gsize end = len; while (start < end) { gsize mid = (end + start) / 2; gsize mid_end = DB_REF_READ_FRAME_OFFSET(v, len - mid - 1); gsize mid_start = mid == 0 ? 0 : DB_REF_ALIGN(DB_REF_READ_FRAME_OFFSET(v, len - mid), 1); g_assert (mid_start <= mid_end); g_assert (mid_end <= last_end); DbWorldTimezonesEntryRef e = { ((const char *)v.base) + mid_start, mid_end - mid_start }; const char * e_key = db_world_timezones_entry_get_key (e); gint32 cmp = strcmp(canonical_key, e_key); if (cmp == 0) { if (index_out) *index_out = mid; if (out) *out = db_world_timezones_entry_get_value (e); return TRUE; } if (cmp < 0) end = mid; /* canonical_key < e_key */ else start = mid + 1; /* canonical_key > e_key */ } return FALSE; } static inline GString * db_world_timezones_format (DbWorldTimezonesRef v, GString *s, gboolean type_annotate) { gsize len = db_world_timezones_get_length (v); gsize i; if (len == 0 && type_annotate) g_string_append_printf (s, "@%s ", DB_WORLD_TIMEZONES_TYPESTRING); g_string_append_c (s, '{'); for (i = 0; i < len; i++) { DbWorldTimezonesEntryRef entry = db_world_timezones_get_at (v, i); if (i != 0) g_string_append (s, ", "); __Db_gstring_append_string (s, db_world_timezones_entry_get_key (entry)); g_string_append (s, ": "); db_timezone_format (db_world_timezones_entry_get_value (entry), s, type_annotate); } g_string_append_c (s, '}'); return s; } static inline char * db_world_timezones_print (DbWorldTimezonesRef v, gboolean type_annotate) { GString *s = g_string_new (""); db_world_timezones_format (v, s, type_annotate); return g_string_free (s, FALSE); } /************** DbArrayofLocation *******************/ #define DB_ARRAYOF_LOCATION_TYPESTRING "a((ss)ss(dd)ssqyqqaqaq)" #define DB_ARRAYOF_LOCATION_TYPEFORMAT ((const GVariantType *) DB_ARRAYOF_LOCATION_TYPESTRING) typedef struct { gconstpointer base; gsize size; } DbArrayofLocationRef; static inline DbArrayofLocationRef db_arrayof_location_from_gvariant (GVariant *v) { g_assert (g_variant_type_equal (g_variant_get_type (v), DB_ARRAYOF_LOCATION_TYPESTRING)); return (DbArrayofLocationRef) { g_variant_get_data (v), g_variant_get_size (v) }; } static inline DbArrayofLocationRef db_arrayof_location_from_bytes (GBytes *b) { return (DbArrayofLocationRef) { g_bytes_get_data (b, NULL), g_bytes_get_size (b) }; } static inline DbArrayofLocationRef db_arrayof_location_from_data (gconstpointer data, gsize size) { return (DbArrayofLocationRef) { data, size }; } static inline GVariant * db_arrayof_location_dup_to_gvariant (DbArrayofLocationRef v) { return g_variant_new_from_data (DB_ARRAYOF_LOCATION_TYPEFORMAT, g_memdup2 (v.base, v.size), v.size, TRUE, g_free, NULL); } static inline GVariant * db_arrayof_location_to_gvariant (DbArrayofLocationRef v, GDestroyNotify notify, gpointer user_data) { return g_variant_new_from_data (DB_ARRAYOF_LOCATION_TYPEFORMAT, v.base, v.size, TRUE, notify, user_data); } static inline GVariant * db_arrayof_location_to_owned_gvariant (DbArrayofLocationRef v, GVariant *base) { return db_arrayof_location_to_gvariant (v, (GDestroyNotify)g_variant_unref, g_variant_ref (base)); } static inline GVariant * db_arrayof_location_peek_as_gvariant (DbArrayofLocationRef v) { return g_variant_new_from_data (DB_ARRAYOF_LOCATION_TYPEFORMAT, v.base, v.size, TRUE, NULL, NULL); } static inline DbArrayofLocationRef db_arrayof_location_from_variant (DbVariantRef v) { const GVariantType *type; DbRef child = Db_variant_get_child (v, &type); g_assert (g_variant_type_equal(type, DB_ARRAYOF_LOCATION_TYPESTRING)); return db_arrayof_location_from_data (child.base, child.size); } static inline gsize db_arrayof_location_get_length (DbArrayofLocationRef v) { if (v.size == 0) return 0; guint offset_size = Db_ref_get_offset_size (v.size); gsize last_end = DB_REF_READ_FRAME_OFFSET(v, 0); gsize offsets_array_size; if (last_end > v.size) return 0; offsets_array_size = v.size - last_end; if (offsets_array_size % offset_size != 0) return 0; gsize length = offsets_array_size / offset_size; return length; } static inline DbLocationRef db_arrayof_location_get_at (DbArrayofLocationRef v, gsize index) { guint offset_size = Db_ref_get_offset_size (v.size); gsize last_end = DB_REF_READ_FRAME_OFFSET(v, 0); gsize len = (v.size - last_end) / offset_size; gsize start = (index > 0) ? DB_REF_ALIGN(DB_REF_READ_FRAME_OFFSET(v, len - index), 8) : 0; G_GNUC_UNUSED gsize end = DB_REF_READ_FRAME_OFFSET(v, len - index - 1); g_assert (start <= end); g_assert (end <= last_end); return (DbLocationRef) { ((const char *)v.base) + start, end - start }; } static inline GString * db_arrayof_location_format (DbArrayofLocationRef v, GString *s, gboolean type_annotate) { gsize len = db_arrayof_location_get_length (v); gsize i; if (len == 0 && type_annotate) g_string_append_printf (s, "@%s ", DB_ARRAYOF_LOCATION_TYPESTRING); g_string_append_c (s, '['); for (i = 0; i < len; i++) { if (i != 0) g_string_append (s, ", "); db_location_format (db_arrayof_location_get_at (v, i), s, ((i == 0) ? type_annotate : FALSE)); } g_string_append_c (s, ']'); return s; } static inline char * db_arrayof_location_print (DbArrayofLocationRef v, gboolean type_annotate) { GString *s = g_string_new (""); db_arrayof_location_format (v, s, type_annotate); return g_string_free (s, FALSE); } /************** DbWorld *******************/ #define DB_WORLD_TYPESTRING "(ta{sq}a{sq}a{s((ss)as)}a((ss)ss(dd)ssqyqqaqaq))" #define DB_WORLD_TYPEFORMAT ((const GVariantType *) DB_WORLD_TYPESTRING) typedef struct { gconstpointer base; gsize size; } DbWorldRef; static inline DbWorldRef db_world_from_gvariant (GVariant *v) { g_assert (g_variant_type_equal (g_variant_get_type (v), DB_WORLD_TYPESTRING)); return (DbWorldRef) { g_variant_get_data (v), g_variant_get_size (v) }; } static inline DbWorldRef db_world_from_bytes (GBytes *b) { return (DbWorldRef) { g_bytes_get_data (b, NULL), g_bytes_get_size (b) }; } static inline DbWorldRef db_world_from_data (gconstpointer data, gsize size) { return (DbWorldRef) { data, size }; } static inline GVariant * db_world_dup_to_gvariant (DbWorldRef v) { return g_variant_new_from_data (DB_WORLD_TYPEFORMAT, g_memdup2 (v.base, v.size), v.size, TRUE, g_free, NULL); } static inline GVariant * db_world_to_gvariant (DbWorldRef v, GDestroyNotify notify, gpointer user_data) { return g_variant_new_from_data (DB_WORLD_TYPEFORMAT, v.base, v.size, TRUE, notify, user_data); } static inline GVariant * db_world_to_owned_gvariant (DbWorldRef v, GVariant *base) { return db_world_to_gvariant (v, (GDestroyNotify)g_variant_unref, g_variant_ref (base)); } static inline GVariant * db_world_peek_as_gvariant (DbWorldRef v) { return g_variant_new_from_data (DB_WORLD_TYPEFORMAT, v.base, v.size, TRUE, NULL, NULL); } static inline DbWorldRef db_world_from_variant (DbVariantRef v) { const GVariantType *type; DbRef child = Db_variant_get_child (v, &type); g_assert (g_variant_type_equal(type, DB_WORLD_TYPESTRING)); return db_world_from_data (child.base, child.size); } #define DB_WORLD_INDEXOF_MAGIC 0 static inline guint64 db_world_get_magic (DbWorldRef v) { guint offset = ((7) & (~(gsize)7)) + 0; g_assert (offset + 8 < v.size); return (guint64)G_STRUCT_MEMBER(guint64, v.base, offset); } #define DB_WORLD_INDEXOF_LOC_BY_COUNTRY 1 static inline DbWorldLocByCountryRef db_world_get_loc_by_country (DbWorldRef v) { guint offset_size = Db_ref_get_offset_size (v.size); guint offset = ((7) & (~(gsize)7)) + 8; gsize start = offset; gsize end = DB_REF_READ_FRAME_OFFSET(v, 0); g_assert (start <= end); g_assert (end <= v.size); return (DbWorldLocByCountryRef) { G_STRUCT_MEMBER_P(v.base, start), end - start }; } #define DB_WORLD_INDEXOF_LOC_BY_METAR 2 static inline DbWorldLocByMetarRef db_world_get_loc_by_metar (DbWorldRef v) { guint offset_size = Db_ref_get_offset_size (v.size); gsize last_end = DB_REF_READ_FRAME_OFFSET(v, 0); guint offset = ((last_end + 1) & (~(gsize)1)) + 0; gsize start = offset; gsize end = DB_REF_READ_FRAME_OFFSET(v, 1); g_assert (start <= end); g_assert (end <= v.size); return (DbWorldLocByMetarRef) { G_STRUCT_MEMBER_P(v.base, start), end - start }; } #define DB_WORLD_INDEXOF_TIMEZONES 3 static inline DbWorldTimezonesRef db_world_get_timezones (DbWorldRef v) { guint offset_size = Db_ref_get_offset_size (v.size); gsize last_end = DB_REF_READ_FRAME_OFFSET(v, 1); guint offset = ((last_end + 0) & (~(gsize)0)) + 0; gsize start = offset; gsize end = DB_REF_READ_FRAME_OFFSET(v, 2); g_assert (start <= end); g_assert (end <= v.size); return (DbWorldTimezonesRef) { G_STRUCT_MEMBER_P(v.base, start), end - start }; } #define DB_WORLD_INDEXOF_LOCATIONS 4 static inline DbArrayofLocationRef db_world_get_locations (DbWorldRef v) { guint offset_size = Db_ref_get_offset_size (v.size); gsize last_end = DB_REF_READ_FRAME_OFFSET(v, 2); guint offset = ((last_end + 7) & (~(gsize)7)) + 0; gsize start = offset; gsize end = v.size - offset_size * 3; g_assert (start <= end); g_assert (end <= v.size); return (DbArrayofLocationRef) { G_STRUCT_MEMBER_P(v.base, start), end - start }; } static inline GString * db_world_format (DbWorldRef v, GString *s, gboolean type_annotate) { g_string_append_printf (s, "(%s%"G_GUINT64_FORMAT", ", type_annotate ? "uint64 " : "", db_world_get_magic (v)); db_world_loc_by_country_format (db_world_get_loc_by_country (v), s, type_annotate); g_string_append (s, ", "); db_world_loc_by_metar_format (db_world_get_loc_by_metar (v), s, type_annotate); g_string_append (s, ", "); db_world_timezones_format (db_world_get_timezones (v), s, type_annotate); g_string_append (s, ", "); db_arrayof_location_format (db_world_get_locations (v), s, type_annotate); g_string_append (s, ")"); return s; } static inline char * db_world_print (DbWorldRef v, gboolean type_annotate) { GString *s = g_string_new (""); db_world_format (v, s, type_annotate); return g_string_free (s, FALSE); } #endif