amiro-os / devices / PowerManagement / userthread.cpp @ a47d64ad
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1 | 58fe0e0b | Thomas Schöpping | #include "userthread.h" |
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2 | |||
3 | #include "global.hpp" |
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4 | #include <array> |
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5 | 2f3e64c4 | Thomas Schöpping | #include <chprintf.h> |
6 | 61b0791a | Thomas Schöpping | #include <cmath> |
7 | 58fe0e0b | Thomas Schöpping | |
8 | using namespace amiro; |
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9 | |||
10 | extern Global global;
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11 | |||
12 | 61b0791a | Thomas Schöpping | volatile UserThread::State current_state;
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13 | volatile UserThread::State next_state;
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14 | types::kinematic kinematic; |
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15 | 58fe0e0b | Thomas Schöpping | |
16 | 61b0791a | Thomas Schöpping | namespace obstacle_avoidance {
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17 | 58fe0e0b | Thomas Schöpping | |
18 | uint16_t constexpr proxThresholdLow = 0x0000;
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19 | b4885314 | Thomas Schöpping | uint16_t constexpr proxThresholdHigh = 0x1000;
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20 | 58fe0e0b | Thomas Schöpping | uint16_t constexpr proxRange = proxThresholdHigh - proxThresholdLow; |
21 | |||
22 | std::array< std::array<float, 2>, 8> constexpr namMatrix = { |
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23 | /* x w_z */
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24 | std::array<float, 2>/* SSW */{ 0.00f, 0.00f}, |
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25 | std::array<float, 2>/* WSW */{ 0.25f, -0.25f}, |
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26 | std::array<float, 2>/* WNW */{-0.75f, -0.50f}, |
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27 | std::array<float, 2>/* NNW */{-0.75f, -1.00f}, |
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28 | std::array<float, 2>/* NNE */{-0.75f, 1.00f}, |
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29 | std::array<float, 2>/* ENE */{-0.75f, 0.50f}, |
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30 | std::array<float, 2>/* ESE */{ 0.25f, 0.25f}, |
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31 | std::array<float, 2>/* SSE */{ 0.00f, 0.00f} |
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32 | }; |
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33 | b4885314 | Thomas Schöpping | uint32_t constexpr baseTranslation = 100e3; // 2cm/s |
34 | 58fe0e0b | Thomas Schöpping | uint32_t constexpr baseRotation = 1e6; // 1rad/s |
35 | types::kinematic constexpr defaultKinematic = { |
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36 | /* x [µm/s] */ baseTranslation,
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37 | /* y [µm/s] */ 0, |
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38 | /* z [µm/s] */ 0, |
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39 | /* w_x [µrad/s] */ 0, |
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40 | /* w_y [µrad/s] */ 0, |
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41 | /* w_z [µrad/s] */ 0 |
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42 | }; |
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43 | |||
44 | inline uint8_t ProxId2LedId(const uint8_t proxId) { |
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45 | return (proxId < 4) ? proxId+4 : proxId-4; |
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46 | } |
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47 | |||
48 | Color Prox2Color(const float prox) { |
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49 | float p = 0.0f; |
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50 | if (prox < 0.5f) { |
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51 | p = 2.0f * prox; |
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52 | return Color(0x00, p*0xFF, (1.0f-p)*0xFF); |
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53 | } else {
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54 | p = 2.0f * (prox - 0.5f); |
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55 | return Color(p*0xFF, (1.0f-p)*0xFF, 0x00); |
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56 | } |
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57 | } |
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58 | |||
59 | 61b0791a | Thomas Schöpping | } /* namespace obstacle_avoidance */
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60 | |||
61 | namespace wii_steering {
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62 | |||
63 | BluetoothWiimote wiimote(&global.wt12, RX_TX); |
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64 | BluetoothSerial btserial(&global.wt12, RX_TX); |
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65 | |||
66 | float deadzone;
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67 | char bt_address[18] = {'\0'}; |
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68 | float wiimoteCalib[3] = {0.0f}; |
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69 | 33c91ff2 | Thomas Schöpping | uint8_t principal_axis = 1;
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70 | int8_t axis_direction = -1;
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71 | 61b0791a | Thomas Schöpping | |
72 | uint32_t constexpr maxTranslation = 500e3; |
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73 | uint32_t constexpr maxRotation = 3.1415927f * 1000000.0f * 2.0f; |
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74 | |||
75 | } |
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76 | |||
77 | 58fe0e0b | Thomas Schöpping | UserThread::UserThread() : |
78 | chibios_rt::BaseStaticThread<USER_THREAD_STACK_SIZE>() |
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79 | { |
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80 | } |
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81 | |||
82 | UserThread::~UserThread() |
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83 | { |
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84 | } |
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85 | |||
86 | msg_t |
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87 | UserThread::main() |
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88 | { |
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89 | 61b0791a | Thomas Schöpping | /*
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90 | * initialize some variables
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91 | */
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92 | current_state = IDLE; |
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93 | 58fe0e0b | Thomas Schöpping | |
94 | 61b0791a | Thomas Schöpping | /*
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95 | * set all LEDs black (off)
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96 | */
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97 | for (uint8_t led = 0; led < 8; ++led) { |
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98 | global.robot.setLightColor(led, Color(Color::BLACK)); |
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99 | } |
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100 | |||
101 | /*
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102 | * thread loop
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103 | */
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104 | while (!this->shouldTerminate()) { |
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105 | /*
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106 | * handle changes of the state
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107 | */
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108 | if (next_state != current_state) {
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109 | switch (current_state) {
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110 | case IDLE:
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111 | { |
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112 | if (next_state == OBSTACLE_AVOIDANCE) {
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113 | // set all LEDs to white for one second
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114 | for (uint8_t led = 0; led < 8; ++led) { |
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115 | global.robot.setLightColor(led, Color(Color::WHITE)); |
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116 | } |
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117 | this->sleep(MS2ST(1000)); |
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118 | for (uint8_t led = 0; led < 8; ++led) { |
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119 | global.robot.setLightColor(led, Color(Color::BLACK)); |
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120 | 58fe0e0b | Thomas Schöpping | } |
121 | 61b0791a | Thomas Schöpping | } |
122 | /* if (this->next_state == WII_STEERING) */ else { |
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123 | // setup bluetooth
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124 | wii_steering::wiimote.bluetoothWiimoteListen(wii_steering::bt_address); |
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125 | wii_steering::btserial.bluetoothSerialListen("ALL");
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126 | |||
127 | // set LEDs: front = green; rear = red; sides = blue
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128 | global.robot.setLightColor(constants::LightRing::LED_NNW, Color(Color::GREEN)); |
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129 | global.robot.setLightColor(constants::LightRing::LED_NNE, Color(Color::GREEN)); |
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130 | global.robot.setLightColor(constants::LightRing::LED_SSW, Color(Color::RED)); |
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131 | global.robot.setLightColor(constants::LightRing::LED_SSE, Color(Color::RED)); |
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132 | global.robot.setLightColor(constants::LightRing::LED_WNW, Color(Color::BLUE)); |
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133 | global.robot.setLightColor(constants::LightRing::LED_WSW, Color(Color::BLUE)); |
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134 | global.robot.setLightColor(constants::LightRing::LED_ENE, Color(Color::BLUE)); |
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135 | global.robot.setLightColor(constants::LightRing::LED_ESE, Color(Color::BLUE)); |
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136 | |||
137 | chprintf((BaseSequentialStream*)&global.sercanmux1, "press buttons '1' and '2' to connect\n");
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138 | } |
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139 | break;
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140 | } |
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141 | case OBSTACLE_AVOIDANCE:
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142 | { |
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143 | if (next_state == IDLE) {
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144 | // stop the robot
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145 | kinematic = {0, 0, 0, 0, 0, 0}; |
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146 | global.robot.setTargetSpeed(kinematic); |
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147 | 58fe0e0b | Thomas Schöpping | |
148 | // set all LEDs to white for one second
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149 | for (uint8_t led = 0; led < 8; ++led) { |
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150 | 61b0791a | Thomas Schöpping | global.robot.setLightColor(led, Color(Color::WHITE)); |
151 | 58fe0e0b | Thomas Schöpping | } |
152 | this->sleep(MS2ST(1000)); |
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153 | for (uint8_t led = 0; led < 8; ++led) { |
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154 | 61b0791a | Thomas Schöpping | global.robot.setLightColor(led, Color(Color::BLACK)); |
155 | 58fe0e0b | Thomas Schöpping | } |
156 | 61b0791a | Thomas Schöpping | } |
157 | /* if (this->next_state == WII_STEERING) */ else { |
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158 | // must turn off obstacle avoidance first
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159 | chprintf((BaseSequentialStream*)&global.sercanmux1, "ERROR: turn off obstacle avoidance first!\n");
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160 | next_state = OBSTACLE_AVOIDANCE; |
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161 | } |
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162 | break;
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163 | 58fe0e0b | Thomas Schöpping | } |
164 | 61b0791a | Thomas Schöpping | case WII_STEERING: {
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165 | if (next_state == IDLE) {
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166 | // stop the robot
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167 | kinematic = {0, 0, 0, 0, 0, 0}; |
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168 | global.robot.setTargetSpeed(kinematic); |
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169 | 58fe0e0b | Thomas Schöpping | |
170 | 61b0791a | Thomas Schöpping | // disconnect from Wiimote controller
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171 | wii_steering::wiimote.bluetoothWiimoteDisconnect(wii_steering::bt_address); |
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172 | wii_steering::btserial.bluetoothSerialStop(); |
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173 | wii_steering::wiimote.bluetoothWiimoteStop(); |
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174 | |||
175 | // set all LEDs to black
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176 | for (uint8_t led = 0; led < 8; ++led) { |
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177 | global.robot.setLightColor(led, Color(Color::BLACK)); |
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178 | 58fe0e0b | Thomas Schöpping | } |
179 | 61b0791a | Thomas Schöpping | } |
180 | /* if (this->next_state == OBSTACLE_AVOIDANCE) */ else { |
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181 | // must turn off wii steering first
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182 | chprintf((BaseSequentialStream*)&global.sercanmux1, "ERROR: turn off wii steering first!\n");
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183 | next_state = WII_STEERING; |
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184 | } |
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185 | break;
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186 | } |
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187 | } |
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188 | 1d9e5660 | galberding | next_state = IDLE; |
189 | 98e7c69b | galberding | current_state = next_state; |
190 | 61b0791a | Thomas Schöpping | } |
191 | 58fe0e0b | Thomas Schöpping | |
192 | 61b0791a | Thomas Schöpping | // sleep here so the loop is executed as quickly as possible
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193 | this->sleep(CAN::UPDATE_PERIOD);
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194 | |||
195 | /*
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196 | * exeute behaviour depending on the current state
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197 | */
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198 | switch (current_state) {
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199 | case IDLE:
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200 | { |
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201 | // read touch sensors
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202 | if (global.mpr121.getButtonStatus() == 0x0F) { |
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203 | next_state = OBSTACLE_AVOIDANCE; |
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204 | } |
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205 | break;
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206 | } |
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207 | case OBSTACLE_AVOIDANCE:
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208 | { |
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209 | // read touch sensors
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210 | if (global.mpr121.getButtonStatus() == 0x0F) { |
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211 | next_state = IDLE; |
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212 | break;
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213 | } |
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214 | |||
215 | // initialize some variables
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216 | uint8_t sensor = 0;
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217 | std::array<uint16_t, 8> proximity;
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218 | std::array<float, 8> proxNormalized; |
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219 | float factor_x = 0.0f; |
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220 | float factor_wz = 0.0f; |
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221 | |||
222 | // read proximity values
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223 | for (sensor = 0; sensor < 8; ++sensor) { |
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224 | proximity[sensor] = global.vcnl4020[sensor].getProximityScaledWoOffset(); |
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225 | } |
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226 | |||
227 | // normalize proximity values
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228 | for (sensor = 0; sensor < 8; ++sensor) { |
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229 | register uint16_t prox = proximity[sensor];
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230 | // limit to high treshold
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231 | if (prox > obstacle_avoidance::proxThresholdHigh)
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232 | prox = obstacle_avoidance::proxThresholdHigh; |
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233 | // limit to low threshold
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234 | else if (prox < obstacle_avoidance::proxThresholdLow) |
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235 | prox = obstacle_avoidance::proxThresholdLow; |
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236 | // apply low threshold
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237 | prox -= obstacle_avoidance::proxThresholdLow; |
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238 | // normalize to [0, 1]
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239 | proxNormalized[sensor] = float(prox) / float(obstacle_avoidance::proxRange); |
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240 | } |
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241 | |||
242 | // map the sensor values to the top LEDs
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243 | for (sensor = 0; sensor < 8; ++sensor) { |
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244 | global.robot.setLightColor(obstacle_avoidance::ProxId2LedId(sensor), obstacle_avoidance::Prox2Color(proxNormalized[sensor])); |
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245 | } |
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246 | |||
247 | // evaluate NAM
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248 | for (sensor = 0; sensor < 8; ++sensor) { |
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249 | factor_x += proxNormalized[sensor] * obstacle_avoidance::namMatrix[sensor][0];
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250 | factor_wz += proxNormalized[sensor] * obstacle_avoidance::namMatrix[sensor][1];
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251 | } |
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252 | |||
253 | // set motor commands
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254 | kinematic = obstacle_avoidance::defaultKinematic; |
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255 | kinematic.x += (factor_x * obstacle_avoidance::baseTranslation) + 0.5f; |
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256 | kinematic.w_z += (factor_wz * obstacle_avoidance::baseRotation) + 0.5f; |
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257 | global.robot.setTargetSpeed(kinematic); |
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258 | |||
259 | break;
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260 | } |
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261 | case WII_STEERING:
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262 | { |
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263 | // if not yet connected to the Wiimote controller
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264 | if (!wii_steering::wiimote.bluetoothWiimoteIsConnected()) {
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265 | // try to connect
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266 | chprintf((BaseSequentialStream*)&global.sercanmux1, "connecting...\n");
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267 | wii_steering::wiimote.bluetoothWiimoteConnect(wii_steering::bt_address); |
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268 | |||
269 | if (wii_steering::wiimote.bluetoothWiimoteIsConnected()) {
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270 | chprintf((BaseSequentialStream*)&global.sercanmux1, "connection established\n");
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271 | chprintf((BaseSequentialStream*)&global.sercanmux1, "\n");
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272 | chprintf((BaseSequentialStream*)&global.sercanmux1, "Wiimote control:\n");
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273 | chprintf((BaseSequentialStream*)&global.sercanmux1, "\tpress 'home' to calibrate\n");
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274 | chprintf((BaseSequentialStream*)&global.sercanmux1, "\thold 'A' to steer\n");
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275 | } |
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276 | } |
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277 | // steer AMiRo using the Wiimote controller like a joystick
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278 | else {
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279 | // initialize some variables
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280 | float wiimoteAcc[3] = {0.0f, 0.0f, 0.0f}; |
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281 | |||
282 | // get Wiimote accelerometer data
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283 | wiimoteAcc[0] = wii_steering::wiimote.getAccelerometer()->x_axis;
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284 | wiimoteAcc[1] = wii_steering::wiimote.getAccelerometer()->y_axis;
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285 | wiimoteAcc[2] = wii_steering::wiimote.getAccelerometer()->z_axis;
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286 | |||
287 | // calibrate accelerometer offset
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288 | if (wii_steering::wiimote.getButtons()->home) {
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289 | 33c91ff2 | Thomas Schöpping | chprintf((BaseSequentialStream*)&global.sercanmux1, "%f | %f | %f\n", wiimoteAcc[0], wiimoteAcc[1], wiimoteAcc[2]); |
290 | |||
291 | // detect principal axis
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292 | if (std::fabs(wiimoteAcc[0]) > std::fabs(wiimoteAcc[1]) && std::fabs(wiimoteAcc[0]) > std::fabs(wiimoteAcc[2])) { |
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293 | wii_steering::principal_axis = 0;
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294 | } else if (std::fabs(wiimoteAcc[1]) > std::fabs(wiimoteAcc[0]) && std::fabs(wiimoteAcc[1]) > std::fabs(wiimoteAcc[2])) { |
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295 | wii_steering::principal_axis = 1;
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296 | } else if (std::fabs(wiimoteAcc[2]) > std::fabs(wiimoteAcc[0]) && std::fabs(wiimoteAcc[2]) > std::fabs(wiimoteAcc[1])) { |
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297 | wii_steering::principal_axis = 2;
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298 | } |
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299 | wii_steering::axis_direction = (wiimoteAcc[wii_steering::principal_axis] >= 0) ? 1 : -1; |
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300 | |||
301 | // get calibration offset
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302 | 61b0791a | Thomas Schöpping | wii_steering::wiimoteCalib[0] = wiimoteAcc[0]; |
303 | 33c91ff2 | Thomas Schöpping | wii_steering::wiimoteCalib[1] = wiimoteAcc[1]; |
304 | 61b0791a | Thomas Schöpping | wii_steering::wiimoteCalib[2] = wiimoteAcc[2]; |
305 | 33c91ff2 | Thomas Schöpping | wii_steering::wiimoteCalib[wii_steering::principal_axis] += -100.0f * wii_steering::axis_direction; |
306 | 61b0791a | Thomas Schöpping | |
307 | 33c91ff2 | Thomas Schöpping | // print information
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308 | 61b0791a | Thomas Schöpping | chprintf((BaseSequentialStream*)&global.sercanmux1, "accelerometer calibrated:\n");
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309 | 33c91ff2 | Thomas Schöpping | chprintf((BaseSequentialStream*)&global.sercanmux1, "\tprincipal axis: %c\n", (wii_steering::principal_axis == 0) ? 'X' : (wii_steering::principal_axis == 1) ? 'Y' : 'Z'); |
310 | 61b0791a | Thomas Schöpping | chprintf((BaseSequentialStream*)&global.sercanmux1, "\tX = %d\n", (int32_t)wii_steering::wiimoteCalib[0]); |
311 | chprintf((BaseSequentialStream*)&global.sercanmux1, "\tY = %d\n", (int32_t)wii_steering::wiimoteCalib[1]); |
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312 | chprintf((BaseSequentialStream*)&global.sercanmux1, "\tZ = %d\n", (int32_t)wii_steering::wiimoteCalib[2]); |
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313 | } |
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314 | |||
315 | for (uint8_t axis = 0; axis < 3; ++axis) { |
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316 | // apply calibration values
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317 | wiimoteAcc[axis] -= wii_steering::wiimoteCalib[axis]; |
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318 | |||
319 | // normalize to (-1, 1)
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320 | wiimoteAcc[axis] /= 100.0f; |
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321 | |||
322 | // limit to 1G
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323 | if (wiimoteAcc[axis] > 1.0f) { |
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324 | wiimoteAcc[axis] = 1.0f; |
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325 | } else if (wiimoteAcc[axis] < -1.0f) { |
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326 | wiimoteAcc[axis] = -1.0f; |
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327 | 58fe0e0b | Thomas Schöpping | } |
328 | |||
329 | 61b0791a | Thomas Schöpping | // apply deadzone
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330 | if (std::fabs(wiimoteAcc[axis]) < wii_steering::deadzone) {
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331 | wiimoteAcc[axis] = 0.0f; |
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332 | 58fe0e0b | Thomas Schöpping | } |
333 | |||
334 | /*
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335 | 61b0791a | Thomas Schöpping | * the value is now in (-1 .. -deazone, 0, deadzone .. 1)
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336 | * note the gaps [-deadzone .. 0] and [0 .. deadzone]
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337 | 58fe0e0b | Thomas Schöpping | */
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338 | 61b0791a | Thomas Schöpping | |
339 | // normalize (deadzone, 1) to (0, 1) and (-1, -deadzone) tpo (-1, 0)
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340 | if (wiimoteAcc[axis] > 0) { |
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341 | wiimoteAcc[axis] -= wii_steering::deadzone; |
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342 | } else if (wiimoteAcc[axis] < 0){ |
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343 | wiimoteAcc[axis] += wii_steering::deadzone; |
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344 | 58fe0e0b | Thomas Schöpping | } |
345 | 61b0791a | Thomas Schöpping | wiimoteAcc[axis] *= (1.0f / (1.0f - wii_steering::deadzone)); |
346 | } |
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347 | 58fe0e0b | Thomas Schöpping | |
348 | 61b0791a | Thomas Schöpping | // only move when A is pressed
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349 | 33c91ff2 | Thomas Schöpping | if (wii_steering::wiimote.getButtons()->A || wii_steering::wiimote.getButtons()->B) {
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350 | 61b0791a | Thomas Schöpping | // set kinematic relaive to maximum speeds
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351 | 33c91ff2 | Thomas Schöpping | switch (wii_steering::principal_axis) {
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352 | case 1: |
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353 | if (wii_steering::axis_direction == -1) { |
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354 | kinematic.x = wii_steering::maxTranslation * wiimoteAcc[2];
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355 | kinematic.w_z = wii_steering::maxRotation * wiimoteAcc[0] * ((wiimoteAcc[2] < 0.0f) ? 1.0f : -1.0f); |
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356 | break;
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357 | } |
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358 | case 2: |
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359 | if (wii_steering::axis_direction == 1) { |
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360 | kinematic.x = wii_steering::maxTranslation * wiimoteAcc[1];
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361 | kinematic.w_z = wii_steering::maxRotation * wiimoteAcc[0] * ((wiimoteAcc[1] < 0.0f) ? 1.0f : -1.0f); |
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362 | break;
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363 | } |
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364 | default:
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365 | kinematic = {0, 0, 0, 0, 0, 0}; |
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366 | break;
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367 | } |
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368 | 61b0791a | Thomas Schöpping | } else {
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369 | kinematic = {0, 0, 0, 0, 0, 0}; |
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370 | } |
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371 | |||
372 | // set speed
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373 | global.robot.setTargetSpeed(kinematic); |
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374 | 58fe0e0b | Thomas Schöpping | } |
375 | |||
376 | 61b0791a | Thomas Schöpping | break;
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377 | } |
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378 | 58fe0e0b | Thomas Schöpping | } |
379 | 61b0791a | Thomas Schöpping | } |
380 | |||
381 | // stop the robot
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382 | kinematic = {0, 0, 0, 0, 0, 0}; |
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383 | global.robot.setTargetSpeed(kinematic); |
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384 | 58fe0e0b | Thomas Schöpping | |
385 | return RDY_OK;
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386 | } |
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387 | |||
388 | 61b0791a | Thomas Schöpping | void
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389 | UserThread::setNextState(const UserThread::State state)
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390 | { |
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391 | next_state = state; |
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392 | return;
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393 | } |
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394 | |||
395 | UserThread::State |
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396 | UserThread::getCurrenState() const
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397 | { |
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398 | return current_state;
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399 | } |
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400 | |||
401 | msg_t |
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402 | UserThread::setWiiAddress(const char* address) |
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403 | { |
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404 | if (strlen(address) != 17) { |
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405 | return RDY_RESET;
|
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406 | } |
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407 | else {
|
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408 | strcpy(wii_steering::bt_address, address); |
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409 | return RDY_OK;
|
||
410 | } |
||
411 | } |
||
412 | |||
413 | float
|
||
414 | UserThread::setWiiDeadzone(const float deadzone) |
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415 | { |
||
416 | // check for negative value and limit to zero
|
||
417 | float dz = (deadzone < 0.0f) ? 0.0f : deadzone; |
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418 | |||
419 | // if value is >1, range is assumed to be (0, 100)
|
||
420 | if (dz > 1.0f) { |
||
421 | // limit to 100
|
||
422 | if (dz > 100.0f) { |
||
423 | dz = 100.0f; |
||
424 | } |
||
425 | dz /= 100.0f; |
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426 | } |
||
427 | |||
428 | // set value and return it
|
||
429 | wii_steering::deadzone = dz; |
||
430 | return dz;
|
||
431 | } |