001// Copyright (c) FIRST and other WPILib contributors. 002// Open Source Software; you can modify and/or share it under the terms of 003// the WPILib BSD license file in the root directory of this project. 004 005package edu.wpi.first.util; 006 007import java.util.Arrays; 008 009/** This is a simple circular buffer so we don't need to "bucket brigade" copy old values. */ 010public class DoubleCircularBuffer { 011 private double[] m_data; 012 013 // Index of element at front of buffer 014 private int m_front; 015 016 // Number of elements used in buffer 017 private int m_length; 018 019 /** 020 * Create a CircularBuffer with the provided size. 021 * 022 * @param size The size of the circular buffer. 023 */ 024 public DoubleCircularBuffer(int size) { 025 m_data = new double[size]; 026 Arrays.fill(m_data, 0.0); 027 } 028 029 /** 030 * Returns number of elements in buffer. 031 * 032 * @return number of elements in buffer 033 */ 034 public int size() { 035 return m_length; 036 } 037 038 /** 039 * Get value at front of buffer. 040 * 041 * @return value at front of buffer 042 */ 043 public double getFirst() { 044 return m_data[m_front]; 045 } 046 047 /** 048 * Get value at back of buffer. 049 * 050 * @return value at back of buffer 051 */ 052 public double getLast() { 053 // If there are no elements in the buffer, do nothing 054 if (m_length == 0) { 055 return 0.0; 056 } 057 058 return m_data[(m_front + m_length - 1) % m_data.length]; 059 } 060 061 /** 062 * Push new value onto front of the buffer. The value at the back is overwritten if the buffer is 063 * full. 064 * 065 * @param value The value to push. 066 */ 067 public void addFirst(double value) { 068 if (m_data.length == 0) { 069 return; 070 } 071 072 m_front = moduloDec(m_front); 073 074 m_data[m_front] = value; 075 076 if (m_length < m_data.length) { 077 m_length++; 078 } 079 } 080 081 /** 082 * Push new value onto back of the buffer. The value at the front is overwritten if the buffer is 083 * full. 084 * 085 * @param value The value to push. 086 */ 087 public void addLast(double value) { 088 if (m_data.length == 0) { 089 return; 090 } 091 092 m_data[(m_front + m_length) % m_data.length] = value; 093 094 if (m_length < m_data.length) { 095 m_length++; 096 } else { 097 // Increment front if buffer is full to maintain size 098 m_front = moduloInc(m_front); 099 } 100 } 101 102 /** 103 * Pop value at front of buffer. 104 * 105 * @return value at front of buffer 106 */ 107 public double removeFirst() { 108 // If there are no elements in the buffer, do nothing 109 if (m_length == 0) { 110 return 0.0; 111 } 112 113 double temp = m_data[m_front]; 114 m_front = moduloInc(m_front); 115 m_length--; 116 return temp; 117 } 118 119 /** 120 * Pop value at back of buffer. 121 * 122 * @return value at back of buffer 123 */ 124 public double removeLast() { 125 // If there are no elements in the buffer, do nothing 126 if (m_length == 0) { 127 return 0.0; 128 } 129 130 m_length--; 131 return m_data[(m_front + m_length) % m_data.length]; 132 } 133 134 /** 135 * Resizes internal buffer to given size. 136 * 137 * <p>A new buffer is allocated because arrays are not resizable. 138 * 139 * @param size New buffer size. 140 */ 141 public void resize(int size) { 142 double[] newBuffer = new double[size]; 143 m_length = Math.min(m_length, size); 144 for (int i = 0; i < m_length; i++) { 145 newBuffer[i] = m_data[(m_front + i) % m_data.length]; 146 } 147 m_data = newBuffer; 148 m_front = 0; 149 } 150 151 /** Sets internal buffer contents to zero. */ 152 public void clear() { 153 Arrays.fill(m_data, 0.0); 154 m_front = 0; 155 m_length = 0; 156 } 157 158 /** 159 * Get the element at the provided index relative to the start of the buffer. 160 * 161 * @param index Index into the buffer. 162 * @return Element at index starting from front of buffer. 163 */ 164 public double get(int index) { 165 return m_data[(m_front + index) % m_data.length]; 166 } 167 168 /** 169 * Increment an index modulo the length of the buffer. 170 * 171 * @param index Index into the buffer. 172 * @return The incremented index. 173 */ 174 private int moduloInc(int index) { 175 return (index + 1) % m_data.length; 176 } 177 178 /** 179 * Decrement an index modulo the length of the buffer. 180 * 181 * @param index Index into the buffer. 182 * @return The decremented index. 183 */ 184 private int moduloDec(int index) { 185 if (index == 0) { 186 return m_data.length - 1; 187 } else { 188 return index - 1; 189 } 190 } 191}