diff options
Diffstat (limited to 'src/upb_sink.h')
-rw-r--r-- | src/upb_sink.h | 56 |
1 files changed, 35 insertions, 21 deletions
diff --git a/src/upb_sink.h b/src/upb_sink.h index 2055688..d864512 100644 --- a/src/upb_sink.h +++ b/src/upb_sink.h @@ -45,11 +45,10 @@ typedef enum { // The normal case, where the consumer wants to continue consuming. UPB_SINK_CONTINUE, - // The consumer has consumed the current value, but it wants to stop for now. - // When the source is next invoked, it should resume at the next value. Note - // that sources are not necessarily resumable; if a source is not resumable, - // returning UPB_SINK_SUSPEND will simply halt it. - UPB_SINK_SUSPEND, + // The sink did not consume this value, and wants to halt further processing. + // If the source is resumable, it should save the current state so that when + // resumed, the value that was just provided will be replayed. + UPB_SINK_STOP, // The consumer wants to skip to the end of the current submessage and // continue consuming. If we are at the top-level, the rest of the @@ -64,18 +63,18 @@ typedef struct { /* upb_sink callbacks *********************************************************/ -// The value callback is called when a regular value (ie. not a string or -// submessage) is pushed. +// The value callback is called for a regular value (ie. not a string or +// submessage). typedef upb_sink_status (*upb_value_cb)(upb_sink *s, struct upb_fielddef *f, union upb_value val); -// The string callback is called when a string is pushed. "str" is the string -// in which the data lives, but it may contain more data than the effective -// string. "start" and "end" indicate the substring of "str" that is the -// effective string. If "start" is <0, this string is a continuation of the -// previous string for this field. If end > upb_strlen(str) then there is more -// data to follow for this string. "end" can also be used as a hint for how -// much data follows, but this is only a hint and is not guaranteed. +// The string callback is called for string data. "str" is the string in which +// the data lives, but it may contain more data than the effective string. +// "start" and "end" indicate the substring of "str" that is the effective +// string. If "start" is <0, this string is a continuation of the previous +// string for this field. If end > upb_strlen(str) then there is more data to +// follow for this string. "end" can also be used as a hint for how much data +// follows, but this is only a hint and is not guaranteed. // // The data is supplied this way to give you the opportunity to reference this // data instead of copying it (perhaps using upb_strslice), or to minimize @@ -87,10 +86,10 @@ typedef upb_sink_status (*upb_str_cb)(upb_sink *s, struct upb_fielddef *f, // The start and end callbacks are called when a submessage begins and ends, // respectively. typedef upb_sink_status (*upb_start_cb)(upb_sink *s, struct upb_fielddef *f); -typedef upb_sink_status (*upb_end_cb)(upb_sink *s); +typedef upb_sink_status (*upb_end_cb)(upb_sink *s, struct upb_fielddef *f); -/* upb_sink implementation *************************************************/ +/* upb_sink implementation ****************************************************/ typedef struct upb_sink_callbacks { upb_value_cb value_cb; @@ -101,19 +100,34 @@ typedef struct upb_sink_callbacks { // We could potentially define these later to also be capable of calling a C++ // virtual method instead of doing the virtual dispatch manually. This would -// make it possible to write C++ sinks in a more natural style. We could have -// a flag in upb_sink defining whether it is a C sink or a C++ one. +// make it possible to write C++ sinks in a more natural style without loss of +// efficiency. We could have a flag in upb_sink defining whether it is a C +// sink or a C++ one. #define upb_sink_onvalue(s, f, val) s->vtbl->value_cb(s, f, val) #define upb_sink_onstr(s, f, str, start, end) s->vtbl->str_cb(s, f, str, start, end) #define upb_sink_onstart(s, f) s->vtbl->start_cb(s, f) -#define upb_sink_onend(s) s->vtbl->end_cb(s) +#define upb_sink_onend(s, f) s->vtbl->end_cb(s, f) -// Initializes a plain C visitor with the given vtbl. The visitor must have -// been allocated separately. +// Initializes a plain C visitor with the given vtbl. The sink must have been +// allocated separately. INLINE void upb_sink_init(upb_sink *s, upb_sink_callbacks *vtbl) { s->vtbl = vtbl; } + +/* upb_bytesink ***************************************************************/ + +// A upb_bytesink is like a upb_sync, but for bytes instead of structured +// protobuf data. Parsers implement upb_bytesink and push to a upb_sink, +// serializers do the opposite (implement upb_sink and push to upb_bytesink). +// +// The two simplest kinds of sinks are "write to string" and "write to FILE*". + +// The single bytesink callback; it takes the bytes to be written and returns +// how many were successfully written. If zero is returned, it indicates that +// no more bytes can be accepted right now. +//typedef size_t (*upb_byte_cb)(upb_bytesink *s, upb_strptr str); + #ifdef __cplusplus } /* extern "C" */ #endif |