Adapter#

class Adapter(**properties: Any)#

Superclasses: Object

This class is for elements that receive buffers in an undesired size. While for example raw video contains one image per buffer, the same is not true for a lot of other formats, especially those that come directly from a file. So if you have undefined buffer sizes and require a specific size, this object is for you.

An adapter is created with new(). It can be freed again with unref().

The theory of operation is like this: All buffers received are put into the adapter using push() and the data is then read back in chunks of the desired size using map()/unmap() and/or copy(). After the data has been processed, it is freed using unmap().

Other methods such as take() and take_buffer() combine map() and unmap() in one method and are potentially more convenient for some use cases.

For example, a sink pad’s chain function that needs to pass data to a library in 512-byte chunks could be implemented like this:

static GstFlowReturn
sink_pad_chain (GstPad *pad, GstObject *parent, GstBuffer *buffer)
{
  MyElement *this;
  GstAdapter *adapter;
  GstFlowReturn ret = GST_FLOW_OK;

  this = MY_ELEMENT (parent);

  adapter = this->adapter;

  // put buffer into adapter
  gst_adapter_push (adapter, buffer);

  // while we can read out 512 bytes, process them
  while (gst_adapter_available (adapter) >= 512 && ret == GST_FLOW_OK) {
    const guint8 *data = gst_adapter_map (adapter, 512);
    // use flowreturn as an error value
    ret = my_library_foo (data);
    gst_adapter_unmap (adapter);
    gst_adapter_flush (adapter, 512);
  }
  return ret;
}

For another example, a simple element inside GStreamer that uses Adapter is the libvisual element.

An element using Adapter in its sink pad chain function should ensure that when the FLUSH_STOP event is received, that any queued data is cleared using clear(). Data should also be cleared or processed on EOS and when changing state from %GST_STATE_PAUSED to %GST_STATE_READY.

Also check the GST_BUFFER_FLAG_DISCONT flag on the buffer. Some elements might need to clear the adapter after a discontinuity.

The adapter will keep track of the timestamps of the buffers that were pushed. The last seen timestamp before the current position can be queried with prev_pts(). This function can optionally return the number of bytes between the start of the buffer that carried the timestamp and the current adapter position. The distance is useful when dealing with, for example, raw audio samples because it allows you to calculate the timestamp of the current adapter position by using the last seen timestamp and the amount of bytes since. Additionally, the prev_pts_at_offset() can be used to determine the last seen timestamp at a particular offset in the adapter.

The adapter will also keep track of the offset of the buffers (GST_BUFFER_OFFSET) that were pushed. The last seen offset before the current position can be queried with prev_offset(). This function can optionally return the number of bytes between the start of the buffer that carried the offset and the current adapter position.

Additionally the adapter also keeps track of the PTS, DTS and buffer offset at the last discontinuity, which can be retrieved with pts_at_discont(), dts_at_discont() and offset_at_discont(). The number of bytes that were consumed since then can be queried with distance_from_discont().

A last thing to note is that while Adapter is pretty optimized, merging buffers still might be an operation that requires a malloc() and memcpy() operation, and these operations are not the fastest. Because of this, some functions like available_fast() are provided to help speed up such cases should you want to. To avoid repeated memory allocations, copy() can be used to copy data into a (statically allocated) user provided buffer.

Adapter is not MT safe. All operations on an adapter must be serialized by the caller. This is not normally a problem, however, as the normal use case of Adapter is inside one pad’s chain function, in which case access is serialized via the pad’s STREAM_LOCK.

Note that push() takes ownership of the buffer passed. Use gst_buffer_ref() before pushing it into the adapter if you still want to access the buffer later. The adapter will never modify the data in the buffer pushed in it.

Constructors#

class Adapter
classmethod new() Adapter#

Creates a new Adapter. Free with unref().

Methods#

class Adapter
available() int#

Gets the maximum amount of bytes available, that is it returns the maximum value that can be supplied to map() without that function returning None.

available_fast() int#

Gets the maximum number of bytes that are immediately available without requiring any expensive operations (like copying the data into a temporary buffer).

clear() None#

Removes all buffers from adapter.

distance_from_discont() int#

Get the distance in bytes since the last buffer with the %GST_BUFFER_FLAG_DISCONT flag.

The distance will be reset to 0 for all buffers with %GST_BUFFER_FLAG_DISCONT on them, and then calculated for all other following buffers based on their size.

Added in version 1.10.

dts_at_discont() int#

Get the DTS that was on the last buffer with the GST_BUFFER_FLAG_DISCONT flag, or GST_CLOCK_TIME_NONE.

Added in version 1.10.

flush(flush: int) None#

Flushes the first flush bytes in the adapter. The caller must ensure that at least this many bytes are available.

See also: map(), unmap()

Parameters:

flush – the number of bytes to flush

get_buffer(nbytes: int) Buffer | None#

Returns a Buffer containing the first nbytes of the adapter, but does not flush them from the adapter. See take_buffer() for details.

Caller owns a reference to the returned buffer. gst_buffer_unref() after usage.

Free-function: gst_buffer_unref

Added in version 1.6.

Parameters:

nbytes – the number of bytes to get

get_buffer_fast(nbytes: int) Buffer | None#

Returns a Buffer containing the first nbytes of the adapter, but does not flush them from the adapter. See take_buffer_fast() for details.

Caller owns a reference to the returned buffer. gst_buffer_unref() after usage.

Free-function: gst_buffer_unref

Added in version 1.6.

Parameters:

nbytes – the number of bytes to get

get_buffer_list(nbytes: int) BufferList | None#

Returns a BufferList of buffers containing the first nbytes bytes of the adapter but does not flush them from the adapter. See take_buffer_list() for details.

Caller owns the returned list. Call gst_buffer_list_unref() to free the list after usage.

Added in version 1.6.

Parameters:

nbytes – the number of bytes to get

get_list(nbytes: int) list[Buffer] | None#

Returns a GList of buffers containing the first nbytes bytes of the adapter, but does not flush them from the adapter. See take_list() for details.

Caller owns returned list and contained buffers. gst_buffer_unref() each buffer in the list before freeing the list after usage.

Added in version 1.6.

Parameters:

nbytes – the number of bytes to get

map() list[int] | None#

Gets the first size bytes stored in the adapter. The returned pointer is valid until the next function is called on the adapter.

Note that setting the returned pointer as the data of a Buffer is incorrect for general-purpose plugins. The reason is that if a downstream element stores the buffer so that it has access to it outside of the bounds of its chain function, the buffer will have an invalid data pointer after your element flushes the bytes. In that case you should use take(), which returns a freshly-allocated buffer that you can set as Buffer memory or the potentially more performant take_buffer().

Returns None if size bytes are not available.

masked_scan_uint32(mask: int, pattern: int, offset: int, size: int) int#

Scan for pattern pattern with applied mask mask in the adapter data, starting from offset offset.

The bytes in pattern and mask are interpreted left-to-right, regardless of endianness. All four bytes of the pattern must be present in the adapter for it to match, even if the first or last bytes are masked out.

It is an error to call this function without making sure that there is enough data (offset+size bytes) in the adapter.

This function calls masked_scan_uint32_peek() passing None for value.

Parameters:

  • mask – mask to apply to data before matching against pattern

  • pattern – pattern to match (after mask is applied)

  • offset – offset into the adapter data from which to start scanning, returns the last scanned position.

  • size – number of bytes to scan from offset

masked_scan_uint32_peek(mask: int, pattern: int, offset: int, size: int) Tuple[int, int]#

Scan for pattern pattern with applied mask mask in the adapter data, starting from offset offset. If a match is found, the value that matched is returned through value, otherwise value is left untouched.

The bytes in pattern and mask are interpreted left-to-right, regardless of endianness. All four bytes of the pattern must be present in the adapter for it to match, even if the first or last bytes are masked out.

It is an error to call this function without making sure that there is enough data (offset+size bytes) in the adapter.

Parameters:

  • mask – mask to apply to data before matching against pattern

  • pattern – pattern to match (after mask is applied)

  • offset – offset into the adapter data from which to start scanning, returns the last scanned position.

  • size – number of bytes to scan from offset

offset_at_discont() int#

Get the offset that was on the last buffer with the GST_BUFFER_FLAG_DISCONT flag, or GST_BUFFER_OFFSET_NONE.

Added in version 1.10.

prev_dts() Tuple[int, int]#

Get the dts that was before the current byte in the adapter. When distance is given, the amount of bytes between the dts and the current position is returned.

The dts is reset to GST_CLOCK_TIME_NONE and the distance is set to 0 when the adapter is first created or when it is cleared. This also means that before the first byte with a dts is removed from the adapter, the dts and distance returned are GST_CLOCK_TIME_NONE and 0 respectively.

prev_dts_at_offset(offset: int) Tuple[int, int]#

Get the dts that was before the byte at offset offset in the adapter. When distance is given, the amount of bytes between the dts and the current position is returned.

The dts is reset to GST_CLOCK_TIME_NONE and the distance is set to 0 when the adapter is first created or when it is cleared. This also means that before the first byte with a dts is removed from the adapter, the dts and distance returned are GST_CLOCK_TIME_NONE and 0 respectively.

Added in version 1.2.

Parameters:

offset – the offset in the adapter at which to get timestamp

prev_offset() Tuple[int, int]#

Get the offset that was before the current byte in the adapter. When distance is given, the amount of bytes between the offset and the current position is returned.

The offset is reset to GST_BUFFER_OFFSET_NONE and the distance is set to 0 when the adapter is first created or when it is cleared. This also means that before the first byte with an offset is removed from the adapter, the offset and distance returned are GST_BUFFER_OFFSET_NONE and 0 respectively.

Added in version 1.10.

prev_pts() Tuple[int, int]#

Get the pts that was before the current byte in the adapter. When distance is given, the amount of bytes between the pts and the current position is returned.

The pts is reset to GST_CLOCK_TIME_NONE and the distance is set to 0 when the adapter is first created or when it is cleared. This also means that before the first byte with a pts is removed from the adapter, the pts and distance returned are GST_CLOCK_TIME_NONE and 0 respectively.

prev_pts_at_offset(offset: int) Tuple[int, int]#

Get the pts that was before the byte at offset offset in the adapter. When distance is given, the amount of bytes between the pts and the current position is returned.

The pts is reset to GST_CLOCK_TIME_NONE and the distance is set to 0 when the adapter is first created or when it is cleared. This also means that before the first byte with a pts is removed from the adapter, the pts and distance returned are GST_CLOCK_TIME_NONE and 0 respectively.

Added in version 1.2.

Parameters:

offset – the offset in the adapter at which to get timestamp

pts_at_discont() int#

Get the PTS that was on the last buffer with the GST_BUFFER_FLAG_DISCONT flag, or GST_CLOCK_TIME_NONE.

Added in version 1.10.

push(buf: Buffer) None#

Adds the data from buf to the data stored inside adapter and takes ownership of the buffer.

Parameters:

buf – a Buffer to add to queue in the adapter

take() list[int] | None#

Returns a freshly allocated buffer containing the first nbytes bytes of the adapter. The returned bytes will be flushed from the adapter.

Caller owns returned value. g_free after usage.

Free-function: g_free

take_buffer(nbytes: int) Buffer | None#

Returns a Buffer containing the first nbytes bytes of the adapter. The returned bytes will be flushed from the adapter. This function is potentially more performant than take() since it can reuse the memory in pushed buffers by subbuffering or merging. This function will always return a buffer with a single memory region.

Note that no assumptions should be made as to whether certain buffer flags such as the DISCONT flag are set on the returned buffer, or not. The caller needs to explicitly set or unset flags that should be set or unset.

Since 1.6 this will also copy over all GstMeta of the input buffers except for meta with the %GST_META_FLAG_POOLED flag or with the “memory” tag.

Caller owns a reference to the returned buffer. gst_buffer_unref() after usage.

Free-function: gst_buffer_unref

Parameters:

nbytes – the number of bytes to take

take_buffer_fast(nbytes: int) Buffer | None#

Returns a Buffer containing the first nbytes of the adapter. The returned bytes will be flushed from the adapter. This function is potentially more performant than take_buffer() since it can reuse the memory in pushed buffers by subbuffering or merging. Unlike take_buffer(), the returned buffer may be composed of multiple non-contiguous Memory objects, no copies are made.

Note that no assumptions should be made as to whether certain buffer flags such as the DISCONT flag are set on the returned buffer, or not. The caller needs to explicitly set or unset flags that should be set or unset.

This will also copy over all GstMeta of the input buffers except for meta with the %GST_META_FLAG_POOLED flag or with the “memory” tag.

This function can return buffer up to the return value of available() without making copies if possible.

Caller owns a reference to the returned buffer. gst_buffer_unref() after usage.

Free-function: gst_buffer_unref

Added in version 1.2.

Parameters:

nbytes – the number of bytes to take

take_buffer_list(nbytes: int) BufferList | None#

Returns a BufferList of buffers containing the first nbytes bytes of the adapter. The returned bytes will be flushed from the adapter. When the caller can deal with individual buffers, this function is more performant because no memory should be copied.

Caller owns the returned list. Call gst_buffer_list_unref() to free the list after usage.

Added in version 1.6.

Parameters:

nbytes – the number of bytes to take

take_list(nbytes: int) list[Buffer] | None#

Returns a GList of buffers containing the first nbytes bytes of the adapter. The returned bytes will be flushed from the adapter. When the caller can deal with individual buffers, this function is more performant because no memory should be copied.

Caller owns returned list and contained buffers. gst_buffer_unref() each buffer in the list before freeing the list after usage.

Parameters:

nbytes – the number of bytes to take

unmap() None#

Releases the memory obtained with the last map().