xref: /aosp_15_r20/external/webrtc/modules/audio_coding/neteq/audio_vector.h (revision d9f758449e529ab9291ac668be2861e7a55c2422) 
1 /*
2  *  Copyright (c) 2012 The WebRTC project authors. All Rights Reserved.
3  *
4  *  Use of this source code is governed by a BSD-style license
5  *  that can be found in the LICENSE file in the root of the source
6  *  tree. An additional intellectual property rights grant can be found
7  *  in the file PATENTS.  All contributing project authors may
8  *  be found in the AUTHORS file in the root of the source tree.
9  */
10 
11 #ifndef MODULES_AUDIO_CODING_NETEQ_AUDIO_VECTOR_H_
12 #define MODULES_AUDIO_CODING_NETEQ_AUDIO_VECTOR_H_
13 
14 #include <string.h>
15 
16 #include <cstdint>
17 #include <memory>
18 
19 #include "rtc_base/checks.h"
20 
21 namespace webrtc {
22 
23 class AudioVector {
24  public:
25   // Creates an empty AudioVector.
26   AudioVector();
27 
28   // Creates an AudioVector with an initial size.
29   explicit AudioVector(size_t initial_size);
30 
31   virtual ~AudioVector();
32 
33   AudioVector(const AudioVector&) = delete;
34   AudioVector& operator=(const AudioVector&) = delete;
35 
36   // Deletes all values and make the vector empty.
37   virtual void Clear();
38 
39   // Copies all values from this vector to `copy_to`. Any contents in `copy_to`
40   // are deleted before the copy operation. After the operation is done,
41   // `copy_to` will be an exact replica of this object.
42   virtual void CopyTo(AudioVector* copy_to) const;
43 
44   // Copies `length` values from `position` in this vector to `copy_to`.
45   virtual void CopyTo(size_t length, size_t position, int16_t* copy_to) const;
46 
47   // Prepends the contents of AudioVector `prepend_this` to this object. The
48   // length of this object is increased with the length of `prepend_this`.
49   virtual void PushFront(const AudioVector& prepend_this);
50 
51   // Same as above, but with an array `prepend_this` with `length` elements as
52   // source.
53   virtual void PushFront(const int16_t* prepend_this, size_t length);
54 
55   // Same as PushFront but will append to the end of this object.
56   virtual void PushBack(const AudioVector& append_this);
57 
58   // Appends a segment of `append_this` to the end of this object. The segment
59   // starts from `position` and has `length` samples.
60   virtual void PushBack(const AudioVector& append_this,
61                         size_t length,
62                         size_t position);
63 
64   // Same as PushFront but will append to the end of this object.
65   virtual void PushBack(const int16_t* append_this, size_t length);
66 
67   // Removes `length` elements from the beginning of this object.
68   virtual void PopFront(size_t length);
69 
70   // Removes `length` elements from the end of this object.
71   virtual void PopBack(size_t length);
72 
73   // Extends this object with `extra_length` elements at the end. The new
74   // elements are initialized to zero.
75   virtual void Extend(size_t extra_length);
76 
77   // Inserts `length` elements taken from the array `insert_this` and insert
78   // them at `position`. The length of the AudioVector is increased by `length`.
79   // `position` = 0 means that the new values are prepended to the vector.
80   // `position` = Size() means that the new values are appended to the vector.
81   virtual void InsertAt(const int16_t* insert_this,
82                         size_t length,
83                         size_t position);
84 
85   // Like InsertAt, but inserts `length` zero elements at `position`.
86   virtual void InsertZerosAt(size_t length, size_t position);
87 
88   // Overwrites `length` elements of this AudioVector starting from `position`
89   // with first values in `AudioVector`. The definition of `position`
90   // is the same as for InsertAt(). If `length` and `position` are selected
91   // such that the new data extends beyond the end of the current AudioVector,
92   // the vector is extended to accommodate the new data.
93   virtual void OverwriteAt(const AudioVector& insert_this,
94                            size_t length,
95                            size_t position);
96 
97   // Overwrites `length` elements of this AudioVector with values taken from the
98   // array `insert_this`, starting at `position`. The definition of `position`
99   // is the same as for InsertAt(). If `length` and `position` are selected
100   // such that the new data extends beyond the end of the current AudioVector,
101   // the vector is extended to accommodate the new data.
102   virtual void OverwriteAt(const int16_t* insert_this,
103                            size_t length,
104                            size_t position);
105 
106   // Appends `append_this` to the end of the current vector. Lets the two
107   // vectors overlap by `fade_length` samples, and cross-fade linearly in this
108   // region.
109   virtual void CrossFade(const AudioVector& append_this, size_t fade_length);
110 
111   // Returns the number of elements in this AudioVector.
112   virtual size_t Size() const;
113 
114   // Returns true if this AudioVector is empty.
115   virtual bool Empty() const;
116 
117   // Accesses and modifies an element of AudioVector.
118   inline const int16_t& operator[](size_t index) const {
119     return array_[WrapIndex(index, begin_index_, capacity_)];
120   }
121 
122   inline int16_t& operator[](size_t index) {
123     return array_[WrapIndex(index, begin_index_, capacity_)];
124   }
125 
126  private:
127   static const size_t kDefaultInitialSize = 10;
128 
129   // This method is used by the [] operators to calculate an index within the
130   // capacity of the array, but without using the modulo operation (%).
WrapIndex(size_t index,size_t begin_index,size_t capacity)131   static inline size_t WrapIndex(size_t index,
132                                  size_t begin_index,
133                                  size_t capacity) {
134     RTC_DCHECK_LT(index, capacity);
135     RTC_DCHECK_LT(begin_index, capacity);
136     size_t ix = begin_index + index;
137     RTC_DCHECK_GE(ix, index);  // Check for overflow.
138     if (ix >= capacity) {
139       ix -= capacity;
140     }
141     RTC_DCHECK_LT(ix, capacity);
142     return ix;
143   }
144 
145   void Reserve(size_t n);
146 
147   void InsertByPushBack(const int16_t* insert_this,
148                         size_t length,
149                         size_t position);
150 
151   void InsertByPushFront(const int16_t* insert_this,
152                          size_t length,
153                          size_t position);
154 
155   void InsertZerosByPushBack(size_t length, size_t position);
156 
157   void InsertZerosByPushFront(size_t length, size_t position);
158 
159   std::unique_ptr<int16_t[]> array_;
160 
161   size_t capacity_;  // Allocated number of samples in the array.
162 
163   // The index of the first sample in `array_`, except when
164   // |begin_index_ == end_index_|, which indicates an empty buffer.
165   size_t begin_index_;
166 
167   // The index of the sample after the last sample in `array_`.
168   size_t end_index_;
169 };
170 
171 }  // namespace webrtc
172 #endif  // MODULES_AUDIO_CODING_NETEQ_AUDIO_VECTOR_H_
173