Pipe v8CacheOptions for ServiceWorker from the browser process to blink [2/2 chromium]
[chromium-blink-merge.git] / media / video / jpeg_decode_accelerator.h
blob83c59403134c3b32da3eab711d30415abd70449f
1 // Copyright 2014 The Chromium Authors. All rights reserved.
2 // Use of this source code is governed by a BSD-style license that can be
3 // found in the LICENSE file.
5 #ifndef MEDIA_VIDEO_JPEG_DECODE_ACCELERATOR_H_
6 #define MEDIA_VIDEO_JPEG_DECODE_ACCELERATOR_H_
8 #include "base/basictypes.h"
9 #include "media/base/bitstream_buffer.h"
10 #include "media/base/media_export.h"
11 #include "media/base/video_frame.h"
13 namespace media {
15 // JPEG decoder interface.
16 // The input are JPEG images including headers (Huffman tables may be omitted).
17 // The output color format is I420. The decoder will convert the color format
18 // to I420 if the color space or subsampling does not match that and if it is
19 // capable of doing so. The client is responsible for allocating buffers and
20 // keeps the ownership of them. All methods must be called on the same thread.
21 // The intended use case of this interface is decoding MJPEG images coming
22 // from camera capture. It can also be used for normal still JPEG image
23 // decoding, but normal JPEG images may use more JPEG features that may not be
24 // supported by a particular accelerator implementation and/or platform.
25 class MEDIA_EXPORT JpegDecodeAccelerator {
26 public:
27 static const int32_t kInvalidBitstreamBufferId = -1;
29 // Enumeration of decode errors generated by NotifyError callback.
30 enum Error {
31 // Invalid argument was passed to an API method, e.g. the output buffer is
32 // too small, JPEG width/height are too big for JDA.
33 INVALID_ARGUMENT,
34 // Encoded input is unreadable, e.g. failed to map on another process.
35 UNREADABLE_INPUT,
36 // Failed to parse compressed JPEG picture.
37 PARSE_JPEG_FAILED,
38 // Failed to decode JPEG due to unsupported JPEG features, such as profiles,
39 // coding mode, or color formats.
40 UNSUPPORTED_JPEG,
41 // A fatal failure occurred in the GPU process layer or one of its
42 // dependencies. Examples of such failures include hardware failures,
43 // driver failures, library failures, browser programming errors, and so
44 // on. Client is responsible for destroying JDA after receiving this.
45 PLATFORM_FAILURE,
46 // Largest used enum. This should be adjusted when new errors are added.
47 LARGEST_ERROR_ENUM = PLATFORM_FAILURE,
50 class MEDIA_EXPORT Client {
51 public:
52 // Callback called after each successful Decode().
53 // Parameters:
54 // |bitstream_buffer_id| is the id of BitstreamBuffer corresponding to
55 // Decode() call.
56 virtual void VideoFrameReady(int32_t bitstream_buffer_id) = 0;
58 // Callback to notify errors. Client is responsible for destroying JDA when
59 // receiving a fatal error, i.e. PLATFORM_FAILURE. For other errors, client
60 // is informed about the buffer that failed to decode and may continue
61 // using the same instance of JDA.
62 // Parameters:
63 // |error| is the error code.
64 // |bitstream_buffer_id| is the bitstream buffer id that resulted in the
65 // recoverable error. For PLATFORM_FAILURE, |bitstream_buffer_id| may be
66 // kInvalidBitstreamBufferId if the error was not related to any
67 // particular buffer being processed.
68 virtual void NotifyError(int32_t bitstream_buffer_id, Error error) = 0;
70 protected:
71 virtual ~Client() {}
74 // JPEG decoder functions.
76 // Initializes the JPEG decoder. Should be called once per decoder
77 // construction. This call is synchronous and returns true iff initialization
78 // is successful.
79 // Parameters:
80 // |client| is the Client interface for decode callback. The provided
81 // pointer must be valid until Destroy() is called.
82 virtual bool Initialize(Client* client) = 0;
84 // Decodes the given bitstream buffer that contains one JPEG picture. It
85 // supports at least baseline encoding defined in JPEG ISO/IEC 10918-1. The
86 // decoder will convert the color format to I420 or return UNSUPPORTED_JPEG
87 // if it cannot convert. Client still owns this buffer, but should deallocate
88 // or access the buffer only after receiving a decode callback VideoFrameReady
89 // with the corresponding bitstream_buffer_id, or NotifyError.
90 // Parameters:
91 // |bitstream_buffer| contains encoded JPEG picture.
92 // |video_frame| contains an allocated video frame for the output.
93 // Client is responsible for filling the coded_size of video_frame and
94 // allocating its backing buffer. For now, only shared memory backed
95 // VideoFrames are supported. After decode completes, decoded JPEG picture
96 // will be filled into the |video_frame|.
97 // Ownership of the |bitstream_buffer| and |video_frame| remains with the
98 // client. The client is not allowed to deallocate them before
99 // VideoFrameReady or NotifyError() is invoked for given id of
100 // |bitstream_buffer|, or Destroy() returns.
101 virtual void Decode(const BitstreamBuffer& bitstream_buffer,
102 const scoped_refptr<media::VideoFrame>& video_frame) = 0;
104 // Destroys the decoder: all pending inputs are dropped immediately. This
105 // call may asynchronously free system resources, but its client-visible
106 // effects are synchronous. After this method returns, no more callbacks
107 // will be made on the client. Deletes |this| unconditionally, so make sure
108 // to drop all pointers to it!
109 virtual void Destroy() = 0;
111 protected:
112 // Do not delete directly; use Destroy() or own it with a scoped_ptr, which
113 // will Destroy() it properly by default.
114 virtual ~JpegDecodeAccelerator();
117 } // namespace media
119 namespace base {
121 template <class T>
122 struct DefaultDeleter;
124 // Specialize DefaultDeleter so that scoped_ptr<JpegDecodeAccelerator> always
125 // uses "Destroy()" instead of trying to use the destructor.
126 template <>
127 struct MEDIA_EXPORT DefaultDeleter<media::JpegDecodeAccelerator> {
128 public:
129 void operator()(void* jpeg_decode_accelerator) const;
132 } // namespace base
134 #endif // MEDIA_VIDEO_JPEG_DECODE_ACCELERATOR_H_