This sets up API to release OutputSurface from LTHClient.
[chromium-blink-merge.git] / media / midi / midi_message_queue.cc
blobd35acc27bf93bf6241c72a0de0ac50ac2516fe5f
1 // Copyright 2013 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 #include "media/midi/midi_message_queue.h"
7 #include <algorithm>
9 #include "base/logging.h"
10 #include "media/midi/midi_message_util.h"
12 namespace media {
13 namespace midi {
14 namespace {
16 const uint8 kSysEx = 0xf0;
17 const uint8 kEndOfSysEx = 0xf7;
19 bool IsDataByte(uint8 data) {
20 return (data & 0x80) == 0;
23 bool IsFirstStatusByte(uint8 data) {
24 return !IsDataByte(data) && data != kEndOfSysEx;
27 bool IsSystemRealTimeMessage(uint8 data) {
28 return 0xf8 <= data;
31 bool IsSystemMessage(uint8 data) {
32 return 0xf0 <= data;
35 } // namespace
37 MidiMessageQueue::MidiMessageQueue(bool allow_running_status)
38 : allow_running_status_(allow_running_status) {}
40 MidiMessageQueue::~MidiMessageQueue() {}
42 void MidiMessageQueue::Add(const std::vector<uint8>& data) {
43 queue_.insert(queue_.end(), data.begin(), data.end());
46 void MidiMessageQueue::Add(const uint8* data, size_t length) {
47 queue_.insert(queue_.end(), data, data + length);
50 void MidiMessageQueue::Get(std::vector<uint8>* message) {
51 message->clear();
53 while (true) {
54 if (queue_.empty())
55 return;
57 const uint8 next = queue_.front();
58 queue_.pop_front();
60 // "System Real Time Messages" is a special kind of MIDI messages, which can
61 // appear at arbitrary byte position of MIDI stream. Here we reorder
62 // "System Real Time Messages" prior to |next_message_| so that each message
63 // can be clearly separated as a complete MIDI message.
64 if (IsSystemRealTimeMessage(next)) {
65 message->push_back(next);
66 return;
69 // Here |next_message_[0]| may contain the previous status byte when
70 // |allow_running_status_| is true. Following condition fixes up
71 // |next_message_| if running status condition is not fulfilled.
72 if (!next_message_.empty() &&
73 ((next_message_[0] == kSysEx && IsFirstStatusByte(next)) ||
74 (next_message_[0] != kSysEx && !IsDataByte(next)))) {
75 // An invalid data sequence is found or running status condition is not
76 // fulfilled.
77 next_message_.clear();
80 if (next_message_.empty()) {
81 if (IsFirstStatusByte(next)) {
82 next_message_.push_back(next);
83 } else {
84 // MIDI protocol doesn't provide any error correction mechanism in
85 // physical layers, and incoming messages can be corrupted, and should
86 // be corrected here.
88 continue;
91 // Here we can assume |next_message_| starts with a valid status byte.
92 const uint8 status_byte = next_message_[0];
93 next_message_.push_back(next);
95 if (status_byte == kSysEx) {
96 if (next == kEndOfSysEx) {
97 std::swap(*message, next_message_);
98 next_message_.clear();
99 return;
101 continue;
104 DCHECK(IsDataByte(next));
105 DCHECK_NE(kSysEx, status_byte);
106 const size_t target_len = GetMidiMessageLength(status_byte);
107 if (next_message_.size() < target_len)
108 continue;
109 if (next_message_.size() == target_len) {
110 std::swap(*message, next_message_);
111 next_message_.clear();
112 if (allow_running_status_ && !IsSystemMessage(status_byte)) {
113 // Speculatively keep the status byte in case of running status. If this
114 // assumption is not true, |next_message_| will be cleared anyway.
115 // Note that system common messages should reset the running status.
116 next_message_.push_back(status_byte);
118 return;
121 NOTREACHED();
125 } // namespace midi
126 } // namespace media