Andriy Makukha / Mbed 2 deprecated football_project_wo_output

football_project_wo_output

Dependencies:   mbed

Fork of football_project by MZJ

main.cpp@90:b4d53a870147, 2016-06-12 (annotated)

Committer:
andriym
Date:
Sun Jun 12 05:10:34 2016 +0000
Revision:
90:b4d53a870147
Parent:
89:425369a595c4
Child:
91:0fc897cccc06
Simplified and changed the FOTA code (according to Shaun).

Who changed what in which revision?

UserRevisionLine numberNew contents of line
elmbed 76:6638d83939d5 1 #include <RFM69.h>
andriym 78:43a6b54f0372 2 #include <list>
andriym 78:43a6b54f0372 3 #include "output.h"
andriym 82:1e552cc1a615 4 #include <DebounceIn.h>
andriym 89:425369a595c4 5 #ifdef BLE_ENABLE
andriym 90:b4d53a870147 6 #include "ble/services/DFUService.h"
andriym 89:425369a595c4 7 #endif
AntonLS 0:28ca4562fe1a 8
andriym 78:43a6b54f0372 9 using namespace std;
andriym 78:43a6b54f0372 10
andriym 89:425369a595c4 11 Timer tmr;
andriym 78:43a6b54f0372 12 Output out;
elmbed 17:d8b901d791fd 13
andriym 89:425369a595c4 14 #ifdef BLE_ENABLE
andriym 90:b4d53a870147 15 BLEDevice ble;
andriym 90:b4d53a870147 16 DFUService dfu(ble);
andriym 90:b4d53a870147 17
andriym 89:425369a595c4 18 /* Optional: Device Name, add for human read-ability */
andriym 90:b4d53a870147 19 //const static char DEVICE_NAME[] = "PassiveCoach";
andriym 89:425369a595c4 20
andriym 89:425369a595c4 21 /* You have up to 26 bytes of advertising data to use. */
andriym 89:425369a595c4 22 //const static uint8_t AdvData[] = {0x01,0x02,0x03,0x04,0x05}; /* Example of hex data */
andriym 90:b4d53a870147 23 //const static uint8_t AdvData[] = {"Keep the Space!"}; /* Example of character data */
andriym 89:425369a595c4 24 #endif // BLE_ENABLE
andriym 89:425369a595c4 25
andriym 78:43a6b54f0372 26 /////////////////////////////////// PINS ///////////////////////////////////
andriym 79:9db29f41dc9d 27
andriym 82:1e552cc1a615 28 DebounceIn buttonTeam(BUT_TEAM);
andriym 82:1e552cc1a615 29 DebounceIn buttonSpace(BUT_SPACE);
andriym 82:1e552cc1a615 30 DebounceIn buttonVolMore(BUT_VOL_MORE);
andriym 82:1e552cc1a615 31 DebounceIn buttonVolLess(BUT_VOL_LESS);
andriym 81:3cd7de5d01ef 32
andriym 79:9db29f41dc9d 33 DigitalOut ledTeamA(LED_TEAM_A);
andriym 79:9db29f41dc9d 34 DigitalOut ledTeamB(LED_TEAM_B);
andriym 79:9db29f41dc9d 35 DigitalOut ledSpace5(LED_SPACE5);
andriym 79:9db29f41dc9d 36 DigitalOut ledSpace10(LED_SPACE10);
andriym 79:9db29f41dc9d 37 DigitalOut ledSpace15(LED_SPACE15);
andriym 79:9db29f41dc9d 38 DigitalOut ledSpace20(LED_SPACE20);
andriym 81:3cd7de5d01ef 39 DigitalOut ledBuzzer(LED_BUZZER_ON);
andriym 81:3cd7de5d01ef 40
andriym 79:9db29f41dc9d 41 AnalogIn ain(ANALOG_IN); // used for randomizing
andriym 78:43a6b54f0372 42 #ifdef NORDIC
andriym 79:9db29f41dc9d 43 DigitalOut buzzer(BUZZER);
andriym 88:d3f0394da5aa 44 #ifndef HARD_V2
andriym 79:9db29f41dc9d 45 DigitalOut buzzLow(BUZZ_LOW);
andriym 88:d3f0394da5aa 46 #endif
andriym 79:9db29f41dc9d 47 DigitalOut buzzMed(BUZZ_MED);
andriym 79:9db29f41dc9d 48 DigitalOut buzzHigh(BUZZ_HIGH);
andriym 79:9db29f41dc9d 49 #else
andriym 79:9db29f41dc9d 50 PwmOut speaker(BUZZER); // passive buzzer
andriym 79:9db29f41dc9d 51 #endif
AntonLS 30:c60b0d52b067 52
andriym 78:43a6b54f0372 53 /////////////////////////////////// RADIO ///////////////////////////////////
andriym 83:79cb2ba44b66 54 #ifdef ENABLE_PIN
andriym 83:79cb2ba44b66 55 static RFM69 radio(RFM_MOSI, RFM_MISO, RFM_SCK, RFM_SS, RFM_IRQ, RFM_ISM_EN);
andriym 83:79cb2ba44b66 56 #else
andriym 79:9db29f41dc9d 57 static RFM69 radio(RFM_MOSI, RFM_MISO, RFM_SCK, RFM_SS, RFM_IRQ);
andriym 83:79cb2ba44b66 58 #endif
AntonLS 12:6d313d575f84 59
elmbed 76:6638d83939d5 60 static bool promiscuousMode = true; // set 'true' to sniff all packets on the same network
AntonLS 0:28ca4562fe1a 61
andriym 78:43a6b54f0372 62 /////////////////////////////////// FUNCTIONS ///////////////////////////////////
andriym 78:43a6b54f0372 63
andriym 81:3cd7de5d01ef 64 void beep(float period, float time, uint8_t vol) {
andriym 78:43a6b54f0372 65 #ifdef ENABLE_SOUND
andriym 81:3cd7de5d01ef 66 if(!vol) return;
andriym 79:9db29f41dc9d 67 #ifdef NORDIC
andriym 81:3cd7de5d01ef 68 if(vol>=3) {
andriym 88:d3f0394da5aa 69 #ifndef HARD_V2
andriym 88:d3f0394da5aa 70 buzzLow = LOW_ON;
andriym 88:d3f0394da5aa 71 #endif
andriym 88:d3f0394da5aa 72 buzzMed = MED_OFF; buzzHigh = HIGH_OFF;
andriym 81:3cd7de5d01ef 73 } else if(vol>=2) {
andriym 88:d3f0394da5aa 74 #ifndef HARD_V2
andriym 88:d3f0394da5aa 75 buzzLow = LOW_OFF;
andriym 88:d3f0394da5aa 76 #endif
andriym 88:d3f0394da5aa 77 buzzMed = MED_ON; buzzHigh = HIGH_OFF;
andriym 79:9db29f41dc9d 78 } else {
andriym 88:d3f0394da5aa 79 #ifndef HARD_V2
andriym 88:d3f0394da5aa 80 buzzLow = LOW_OFF;
andriym 88:d3f0394da5aa 81 #endif
andriym 88:d3f0394da5aa 82 buzzMed = MED_OFF; buzzHigh = HIGH_ON;
andriym 79:9db29f41dc9d 83 }
andriym 80:8d4f190bd253 84 buzzer = 0; // P-MOSFET
andriym 80:8d4f190bd253 85 wait(time);
andriym 79:9db29f41dc9d 86 buzzer = 1;
andriym 79:9db29f41dc9d 87 #else
andriym 78:43a6b54f0372 88 speaker.period(period);
andriym 81:3cd7de5d01ef 89 if(vol>=3)
andriym 81:3cd7de5d01ef 90 speaker = 0.5; //50% duty cycle - max volume
andriym 81:3cd7de5d01ef 91 else if(vol>=2)
andriym 81:3cd7de5d01ef 92 speaker = 0.33;
andriym 81:3cd7de5d01ef 93 else
andriym 81:3cd7de5d01ef 94 speaker = 0.2;
andriym 78:43a6b54f0372 95 wait(time);
andriym 78:43a6b54f0372 96 speaker=0.0; // turn off audio
andriym 78:43a6b54f0372 97 #endif
andriym 79:9db29f41dc9d 98 #endif
andriym 78:43a6b54f0372 99 }
andriym 78:43a6b54f0372 100
andriym 78:43a6b54f0372 101 void binary_sound(int z) {
andriym 78:43a6b54f0372 102 // Beeps numbers according to their binary form
andriym 78:43a6b54f0372 103 // (used for debugging in display-less and serial-less environments)
andriym 78:43a6b54f0372 104 #ifdef ENABLE_SOUND
andriym 79:9db29f41dc9d 105 #ifndef NORDIC
andriym 78:43a6b54f0372 106 speaker.period(0.004);
andriym 78:43a6b54f0372 107 while(z) {
andriym 78:43a6b54f0372 108 speaker = 0.5;
andriym 78:43a6b54f0372 109 if(z&1) wait(0.5);
andriym 78:43a6b54f0372 110 else wait(0.25);
andriym 78:43a6b54f0372 111 speaker = 0.0;
andriym 78:43a6b54f0372 112 wait(1.0);
andriym 78:43a6b54f0372 113 z >>= 1;
andriym 78:43a6b54f0372 114 }
andriym 81:3cd7de5d01ef 115 beep(NOTE_A4, 1.0, 2);
andriym 79:9db29f41dc9d 116 #endif
andriym 78:43a6b54f0372 117 #endif
andriym 78:43a6b54f0372 118 }
andriym 78:43a6b54f0372 119
andriym 78:43a6b54f0372 120 void generate_name(char rand_name[], uint8_t size) {
andriym 78:43a6b54f0372 121 // Generate random name on the 62 character alphabet
andriym 78:43a6b54f0372 122 memset(rand_name, 0x00, size);
andriym 78:43a6b54f0372 123 char alph[63] = "ABCDEFGHIJKLMNOPQRSTUVWXYZabcdefghijklmnopqrstuvwxyz0123456789";
andriym 78:43a6b54f0372 124 uint32_t seed = ((ain.read_u16()+3)/17)*(radio.readTemperature(-1)+37)*((ain.read_u16()+5)/13);
andriym 78:43a6b54f0372 125 srand(seed);
andriym 78:43a6b54f0372 126 for(int i=0;i<size-1;i++) {
andriym 78:43a6b54f0372 127 rand_name[i] = alph[abs(rand()) % 62];
andriym 78:43a6b54f0372 128 }
andriym 78:43a6b54f0372 129 }
andriym 78:43a6b54f0372 130
andriym 86:2a569d9e67f5 131 void spaceLEDs(int level) {
andriym 85:4692a1790cfa 132 if(level<=0) {
andriym 85:4692a1790cfa 133 ledSpace5 = 1; ledSpace10 = 0; ledSpace15 = 0; ledSpace20 = 0;
andriym 85:4692a1790cfa 134 } else if(level<=1) {
andriym 85:4692a1790cfa 135 ledSpace5 = 0; ledSpace10 = 1; ledSpace15 = 0; ledSpace20 = 0;
andriym 85:4692a1790cfa 136 } else if(level<=2) {
andriym 85:4692a1790cfa 137 ledSpace5 = 0; ledSpace10 = 0; ledSpace15 = 1; ledSpace20 = 0;
andriym 85:4692a1790cfa 138 } else {
andriym 85:4692a1790cfa 139 ledSpace5 = 0; ledSpace10 = 0; ledSpace15 = 0; ledSpace20 = 1;
andriym 85:4692a1790cfa 140 }
andriym 85:4692a1790cfa 141 }
andriym 85:4692a1790cfa 142
andriym 89:425369a595c4 143 #ifdef BLE_ENABLE
andriym 90:b4d53a870147 144 /*
andriym 90:b4d53a870147 145 // Optional: Restart advertising when peer disconnects
andriym 89:425369a595c4 146 void disconnectionCallback(const Gap::DisconnectionCallbackParams_t *params)
andriym 89:425369a595c4 147 {
andriym 89:425369a595c4 148 BLE::Instance().gap().startAdvertising();
andriym 89:425369a595c4 149 }
andriym 90:b4d53a870147 150
andriym 90:b4d53a870147 151 // This function is called when the ble initialization process has failed
andriym 89:425369a595c4 152 void onBleInitError(BLE &ble, ble_error_t error)
andriym 89:425369a595c4 153 {
andriym 90:b4d53a870147 154 // Avoid compiler warnings
andriym 89:425369a595c4 155 (void) ble;
andriym 89:425369a595c4 156 (void) error;
andriym 89:425369a595c4 157
andriym 90:b4d53a870147 158 // Initialization error handling should go here
andriym 89:425369a595c4 159 }
andriym 89:425369a595c4 160
andriym 90:b4d53a870147 161 // Callback triggered when the ble initialization process has finished
andriym 89:425369a595c4 162 void bleInitComplete(BLE::InitializationCompleteCallbackContext *params)
andriym 89:425369a595c4 163 {
andriym 89:425369a595c4 164 BLE& ble = params->ble;
andriym 89:425369a595c4 165 ble_error_t error = params->error;
andriym 89:425369a595c4 166
andriym 89:425369a595c4 167 if (error != BLE_ERROR_NONE) {
andriym 90:b4d53a870147 168 // In case of error, forward the error handling to onBleInitError
andriym 89:425369a595c4 169 onBleInitError(ble, error);
andriym 89:425369a595c4 170 return;
andriym 89:425369a595c4 171 }
andriym 89:425369a595c4 172
andriym 90:b4d53a870147 173 // Ensure that it is the default instance of BLE
andriym 89:425369a595c4 174 if(ble.getInstanceID() != BLE::DEFAULT_INSTANCE) {
andriym 89:425369a595c4 175 return;
andriym 89:425369a595c4 176 }
andriym 89:425369a595c4 177
andriym 90:b4d53a870147 178 // Set device name characteristic data
andriym 89:425369a595c4 179 ble.gap().setDeviceName((const uint8_t *) DEVICE_NAME);
andriym 89:425369a595c4 180
andriym 90:b4d53a870147 181 // Optional: add callback for disconnection
andriym 89:425369a595c4 182 ble.gap().onDisconnection(disconnectionCallback);
andriym 89:425369a595c4 183
andriym 90:b4d53a870147 184 // Sacrifice 3B of 31B to Advertising Flags
andriym 89:425369a595c4 185 ble.gap().accumulateAdvertisingPayload(GapAdvertisingData::BREDR_NOT_SUPPORTED | GapAdvertisingData::LE_GENERAL_DISCOVERABLE );
andriym 89:425369a595c4 186 ble.gap().setAdvertisingType(GapAdvertisingParams::ADV_CONNECTABLE_UNDIRECTED);
andriym 89:425369a595c4 187
andriym 90:b4d53a870147 188 // Sacrifice 2B of 31B to AdvType overhead, rest goes to AdvData array you define
andriym 89:425369a595c4 189 ble.gap().accumulateAdvertisingPayload(GapAdvertisingData::MANUFACTURER_SPECIFIC_DATA, AdvData, sizeof(AdvData));
andriym 89:425369a595c4 190
andriym 90:b4d53a870147 191 // Optional: Add name to device
andriym 89:425369a595c4 192 ble.gap().accumulateAdvertisingPayload(GapAdvertisingData::COMPLETE_LOCAL_NAME, (uint8_t *)DEVICE_NAME, sizeof(DEVICE_NAME));
andriym 89:425369a595c4 193
andriym 90:b4d53a870147 194 // Set advertising interval. Longer interval == longer battery life
andriym 90:b4d53a870147 195 ble.gap().setAdvertisingInterval(100); // 100ms
andriym 89:425369a595c4 196
andriym 90:b4d53a870147 197 // Start advertising
andriym 89:425369a595c4 198 ble.gap().startAdvertising();
andriym 89:425369a595c4 199 }
andriym 90:b4d53a870147 200 */
andriym 89:425369a595c4 201 #endif // BLE_ENABLE
andriym 89:425369a595c4 202
andriym 78:43a6b54f0372 203 /////////////////////////////////// CLASSES ///////////////////////////////////
andriym 78:43a6b54f0372 204
andriym 78:43a6b54f0372 205 struct Contact {
andriym 78:43a6b54f0372 206 int16_t rssi;
andriym 78:43a6b54f0372 207 uint32_t time_ms;
andriym 78:43a6b54f0372 208 };
andriym 78:43a6b54f0372 209
andriym 78:43a6b54f0372 210 class Player {
andriym 78:43a6b54f0372 211 public:
andriym 78:43a6b54f0372 212 char name[NAME_LEN+1];
andriym 78:43a6b54f0372 213 int8_t team;
andriym 78:43a6b54f0372 214 Player(const char rand_name[]) {
andriym 78:43a6b54f0372 215 memset(name, 0x00, NAME_LEN+1);
andriym 78:43a6b54f0372 216 memcpy(name, rand_name, NAME_LEN);
andriym 78:43a6b54f0372 217 }
andriym 78:43a6b54f0372 218 void update(int8_t _team, int rssi, uint32_t time=NULL) {
andriym 78:43a6b54f0372 219 // Remember this contact
andriym 78:43a6b54f0372 220 team = _team;
andriym 78:43a6b54f0372 221 Contact c;
andriym 78:43a6b54f0372 222 c.rssi = rssi;
andriym 89:425369a595c4 223 c.time_ms = (time!=NULL) ? time : tmr.read_ms();
andriym 78:43a6b54f0372 224 contacts.push_front(c);
andriym 78:43a6b54f0372 225
andriym 78:43a6b54f0372 226 // Cleanup
andriym 78:43a6b54f0372 227 while(contacts.size() > MAX_RECORDS) contacts.pop_back();
andriym 78:43a6b54f0372 228 while(!contacts.empty() && c.time_ms - contacts.back().time_ms > MAX_HISTORY_MS) contacts.pop_back();
andriym 78:43a6b54f0372 229 }
andriym 78:43a6b54f0372 230 int16_t get_distance(int &cnt) {
andriym 78:43a6b54f0372 231 // Find max RSSI
andriym 89:425369a595c4 232 uint32_t cur_time = tmr.read_ms();
andriym 78:43a6b54f0372 233 int16_t max_rssi=-128;
andriym 78:43a6b54f0372 234 cnt=0;
andriym 78:43a6b54f0372 235 for (list<Contact>::iterator it=contacts.begin(); it != contacts.end(); ++it) {
andriym 78:43a6b54f0372 236 if(cur_time - it->time_ms > SIGNALS_VALID_MS) break;
andriym 78:43a6b54f0372 237 if(it->rssi > max_rssi) max_rssi = it->rssi;
andriym 78:43a6b54f0372 238 cnt++;
andriym 78:43a6b54f0372 239 }
andriym 78:43a6b54f0372 240 return max_rssi;
andriym 78:43a6b54f0372 241 }
andriym 78:43a6b54f0372 242 inline bool operator==(const char rhs[]){ return memcmp(name, rhs, NAME_LEN)==0; }
andriym 78:43a6b54f0372 243 inline bool operator==(const Player& rhs){ return *this==rhs.name; }
andriym 78:43a6b54f0372 244 //inline bool operator!=(const char rhs[]){ return !(*this == rhs); }
andriym 78:43a6b54f0372 245 private:
andriym 78:43a6b54f0372 246 list<Contact> contacts;
andriym 78:43a6b54f0372 247 };
andriym 78:43a6b54f0372 248
andriym 78:43a6b54f0372 249 class Players {
andriym 78:43a6b54f0372 250 public:
andriym 78:43a6b54f0372 251 list<Player> players;
andriym 78:43a6b54f0372 252
andriym 78:43a6b54f0372 253 void update(const char name[], int8_t team, int16_t rssi, uint32_t time_ms=NULL) {
andriym 78:43a6b54f0372 254 list<Player>::iterator it;
andriym 78:43a6b54f0372 255 for (it=players.begin(); it != players.end(); ++it) {
andriym 78:43a6b54f0372 256 if(*it==name) break;
andriym 78:43a6b54f0372 257 }
andriym 78:43a6b54f0372 258 if(it!=players.end()) {
andriym 78:43a6b54f0372 259 it->update(team, rssi, time_ms);
andriym 78:43a6b54f0372 260 } else {
andriym 78:43a6b54f0372 261 Player p(name);
andriym 78:43a6b54f0372 262 p.update(team, rssi, time_ms);
andriym 78:43a6b54f0372 263 players.push_front(p);
andriym 78:43a6b54f0372 264 }
andriym 78:43a6b54f0372 265 }
andriym 78:43a6b54f0372 266
andriym 81:3cd7de5d01ef 267 void showAll(int8_t team, uint8_t level, uint8_t volume) {
andriym 79:9db29f41dc9d 268 // Output the current state to the user:
andriym 79:9db29f41dc9d 269 // - show the current information table and/or
andriym 79:9db29f41dc9d 270 // - beep if the user is too close to another one
andriym 79:9db29f41dc9d 271 int i=0, nContacts, signal, maxTeamSignal = -128;
andriym 78:43a6b54f0372 272 list<Player>::iterator it;
andriym 78:43a6b54f0372 273 out.clear();
andriym 78:43a6b54f0372 274 for (it=players.begin(); it != players.end(); ++it) {
andriym 79:9db29f41dc9d 275 signal = it->get_distance(nContacts);
andriym 79:9db29f41dc9d 276 if(signal>-128) {
andriym 78:43a6b54f0372 277 out.printf("%d ", ++i);
andriym 78:43a6b54f0372 278 out.printf((team==it->team) ? "+" : "-"); // teammate or opponent?
andriym 78:43a6b54f0372 279 out.printf("%s ", it->name);
andriym 79:9db29f41dc9d 280 out.printf("%d/%d", -signal, nContacts);
andriym 79:9db29f41dc9d 281 out.printf((-signal<SPACE[level]) ? "!" : " ");
andriym 79:9db29f41dc9d 282 out.printf("\r\n");
andriym 79:9db29f41dc9d 283 }
andriym 79:9db29f41dc9d 284 if(team==it->team && signal>maxTeamSignal) {
andriym 79:9db29f41dc9d 285 maxTeamSignal = signal;
andriym 78:43a6b54f0372 286 }
andriym 78:43a6b54f0372 287 }
andriym 79:9db29f41dc9d 288 //if(!i) {
andriym 79:9db29f41dc9d 289 // out.printf("Nobody around\r\n");
andriym 81:3cd7de5d01ef 290 // beep(NOTE_A5,0.5,volume);
andriym 79:9db29f41dc9d 291 //}
andriym 79:9db29f41dc9d 292 if(-maxTeamSignal<SPACE[level]) {
andriym 81:3cd7de5d01ef 293 beep(NOTE_A4, 0.33, volume);
andriym 78:43a6b54f0372 294 }
andriym 78:43a6b54f0372 295 }
andriym 78:43a6b54f0372 296 };
andriym 78:43a6b54f0372 297
andriym 78:43a6b54f0372 298 /////////////////////////////////// MAIN CODE ///////////////////////////////////
andriym 78:43a6b54f0372 299
elmbed 76:6638d83939d5 300 int main()
andriym 78:43a6b54f0372 301 {
elmbed 76:6638d83939d5 302 char tx_buff[100] = {0};
elmbed 76:6638d83939d5 303 char rx_buff[100] = {0};
andriym 78:43a6b54f0372 304 char rand_name[NAME_LEN+1] = {0};
andriym 78:43a6b54f0372 305 char other_name[NAME_LEN+1] = {0};
andriym 79:9db29f41dc9d 306 int8_t myTeam = 1, otherTeam;
andriym 87:a9870d513fcf 307 uint8_t level = 1, volume = 1; // SPACE10, VOL_LOW
andriym 89:425369a595c4 308 int bTeamNew, bTeamOld, bSpaceOld, bSpaceNew, bVMNew, bVLNew, bVMOld, bVLOld;
elmbed 76:6638d83939d5 309
andriym 89:425369a595c4 310 // Blink all the space LEDs at startup
andriym 89:425369a595c4 311 spaceLEDs(0); wait(0.2); spaceLEDs(1); wait(0.2); spaceLEDs(2); wait(0.2); spaceLEDs(3); wait(0.2);
andriym 89:425369a595c4 312 // ...and go to a single LED
andriym 89:425369a595c4 313 spaceLEDs(level);
andriym 89:425369a595c4 314
andriym 89:425369a595c4 315 // Beep on startup
andriym 81:3cd7de5d01ef 316 ledBuzzer = volume ? 1 : 0;
andriym 81:3cd7de5d01ef 317 beep(NOTE_A5, 0.5, volume);
andriym 78:43a6b54f0372 318
andriym 89:425369a595c4 319 // Turn on the team LED
andriym 89:425369a595c4 320 ledTeamA = myTeam & 1;
andriym 89:425369a595c4 321 ledTeamB = ~myTeam & 1;
andriym 89:425369a595c4 322
andriym 89:425369a595c4 323 // Buttons initialization
andriym 79:9db29f41dc9d 324 buttonSpace.mode(PullDown);
andriym 81:3cd7de5d01ef 325 buttonVolMore.mode(PullDown);
andriym 81:3cd7de5d01ef 326 buttonVolLess.mode(PullDown);
andriym 79:9db29f41dc9d 327 #ifdef NORDIC
andriym 79:9db29f41dc9d 328 buttonTeam.mode(PullDown);
andriym 89:425369a595c4 329 bTeamOld = 0;
andriym 79:9db29f41dc9d 330 #else
andriym 79:9db29f41dc9d 331 buttonTeam.mode(PullUp);
andriym 89:425369a595c4 332 bTeamOld = 1;
andriym 79:9db29f41dc9d 333 #endif
andriym 89:425369a595c4 334 bSpaceOld = 0;
andriym 89:425369a595c4 335 bVMOld = 0;
andriym 89:425369a595c4 336 bVLOld = 0;
elmbed 76:6638d83939d5 337
andriym 89:425369a595c4 338 #ifdef BLE_ENABLE
andriym 89:425369a595c4 339 // BLE initialization
andriym 90:b4d53a870147 340 /*
andriym 89:425369a595c4 341 BLE& ble = BLE::Instance(BLE::DEFAULT_INSTANCE);
andriym 89:425369a595c4 342 ble.init(bleInitComplete); // Initialize BLE baselayer
andriym 90:b4d53a870147 343 */
andriym 89:425369a595c4 344 #endif // BLE_ENABLE
andriym 89:425369a595c4 345
andriym 89:425369a595c4 346 // Pick node number
andriym 78:43a6b54f0372 347 char this_node = int(ain.read()*255+17)*int(ain.read()*255+11); // random node value
andriym 78:43a6b54f0372 348 out.printf("Node: %d\r\n", this_node);
andriym 78:43a6b54f0372 349
andriym 89:425369a595c4 350 // Initialize the radio
andriym 78:43a6b54f0372 351 radio.initialize(FREQUENCY, this_node, NETWORKID);
andriym 78:43a6b54f0372 352 #ifdef HIGH_POWER
andriym 78:43a6b54f0372 353 radio.setHighPower(true);
andriym 78:43a6b54f0372 354 #endif
elmbed 76:6638d83939d5 355 radio.encrypt(0);
elmbed 76:6638d83939d5 356 radio.promiscuous(promiscuousMode);
andriym 85:4692a1790cfa 357 if(FREQUENCY == RF69_868MHZ)
andriym 85:4692a1790cfa 358 radio.setFrequency(868000000);
andriym 85:4692a1790cfa 359 else if(FREQUENCY == RF69_915MHZ)
andriym 85:4692a1790cfa 360 radio.setFrequency(915000000);
AntonLS 11:d3aa5fca2330 361
andriym 89:425369a595c4 362 // Pick node name
andriym 78:43a6b54f0372 363 generate_name(rand_name, sizeof(rand_name));
andriym 78:43a6b54f0372 364 out.printf("Name: %s\r\n", rand_name);
andriym 78:43a6b54f0372 365 out.sleep(2.0);
andriym 78:43a6b54f0372 366
andriym 89:425369a595c4 367 tmr.start();
andriym 78:43a6b54f0372 368
andriym 78:43a6b54f0372 369 Players players;
andriym 78:43a6b54f0372 370
andriym 89:425369a595c4 371 uint32_t last_send = tmr.read_ms();
andriym 89:425369a595c4 372 uint32_t last_shown = tmr.read_ms();
andriym 78:43a6b54f0372 373 //uint32_t min_wait = SEND_RATE_MS - 0.5*SEND_RATE_MS*SEND_DESYNC;
andriym 78:43a6b54f0372 374 //uint32_t send_wait = min_wait;
AntonLS 49:626e84ce5e52 375
elmbed 76:6638d83939d5 376 while (true)
AntonLS 19:afcbb425b3cf 377 {
andriym 79:9db29f41dc9d 378 // Read team button
andriym 79:9db29f41dc9d 379 bTeamNew = buttonTeam;
andriym 79:9db29f41dc9d 380 if(bTeamNew==PRESSED && bTeamOld==RELEASED) {
andriym 79:9db29f41dc9d 381 myTeam = (myTeam==1) ? 2 : 1;
andriym 79:9db29f41dc9d 382 ledTeamA = myTeam & 1;
andriym 79:9db29f41dc9d 383 ledTeamB = ~myTeam & 1;
andriym 78:43a6b54f0372 384 out.clear();
andriym 79:9db29f41dc9d 385 out.printf("New team: %d\r\n", myTeam);
andriym 78:43a6b54f0372 386 out.sleep(2);
andriym 78:43a6b54f0372 387 }
andriym 79:9db29f41dc9d 388 bTeamOld = bTeamNew;
andriym 79:9db29f41dc9d 389
andriym 79:9db29f41dc9d 390 // Read space button
andriym 79:9db29f41dc9d 391 bSpaceNew = buttonSpace;
andriym 79:9db29f41dc9d 392 if(bSpaceNew && !bSpaceOld) {
andriym 79:9db29f41dc9d 393 level = (level+1) & 0b11; // four states
andriym 85:4692a1790cfa 394 spaceLEDs(level);
andriym 79:9db29f41dc9d 395 out.clear();
andriym 79:9db29f41dc9d 396 out.printf("New level: %d\r\n", level);
andriym 79:9db29f41dc9d 397 out.sleep(2);
andriym 79:9db29f41dc9d 398 }
andriym 79:9db29f41dc9d 399 bSpaceOld = bSpaceNew;
andriym 81:3cd7de5d01ef 400
andriym 81:3cd7de5d01ef 401 // Read volume buttons
andriym 82:1e552cc1a615 402 bVMNew = buttonVolMore.read();
andriym 82:1e552cc1a615 403 bVLNew = buttonVolLess.read();
andriym 81:3cd7de5d01ef 404 if(bVMNew && !bVMOld) {
andriym 81:3cd7de5d01ef 405 volume++;
andriym 81:3cd7de5d01ef 406 if(volume>3) volume=3;
andriym 81:3cd7de5d01ef 407 ledBuzzer = 1;
andriym 81:3cd7de5d01ef 408 out.clear();
andriym 81:3cd7de5d01ef 409 out.printf("New volume: %d\r\n", volume);
andriym 81:3cd7de5d01ef 410 out.sleep(2);
andriym 81:3cd7de5d01ef 411 }
andriym 81:3cd7de5d01ef 412 if(bVLNew && !bVLOld) {
andriym 81:3cd7de5d01ef 413 if(volume>0) volume--;
andriym 81:3cd7de5d01ef 414 if(!volume) ledBuzzer = 0;
andriym 81:3cd7de5d01ef 415 out.clear();
andriym 81:3cd7de5d01ef 416 out.printf("New volume: %d\r\n", volume);
andriym 81:3cd7de5d01ef 417 out.sleep(2);
andriym 81:3cd7de5d01ef 418 }
andriym 81:3cd7de5d01ef 419 bVMOld = bVMNew;
andriym 81:3cd7de5d01ef 420 bVLOld = bVLNew;
andriym 81:3cd7de5d01ef 421
andriym 81:3cd7de5d01ef 422 // Output
andriym 89:425369a595c4 423 unsigned long current_time = tmr.read_ms();
elmbed 76:6638d83939d5 424
andriym 79:9db29f41dc9d 425 if (current_time - last_shown > CYCLE_MS)
andriym 78:43a6b54f0372 426 {
andriym 81:3cd7de5d01ef 427 players.showAll(myTeam, level, volume);
andriym 78:43a6b54f0372 428 last_shown = current_time;
andriym 78:43a6b54f0372 429 }
andriym 78:43a6b54f0372 430
andriym 81:3cd7de5d01ef 431 // Radios
andriym 78:43a6b54f0372 432 if (current_time - last_send > SEND_RATE_MS)
AntonLS 19:afcbb425b3cf 433 {
elmbed 76:6638d83939d5 434 // Send message
andriym 79:9db29f41dc9d 435 snprintf(tx_buff, sizeof(tx_buff), "N=%s,%d", rand_name, myTeam);
andriym 78:43a6b54f0372 436 radio.send(EVERY_NODE, tx_buff, strlen(tx_buff));
andriym 78:43a6b54f0372 437 last_send = current_time;
andriym 78:43a6b54f0372 438 //send_wait = min_wait + (rand() % SEND_RATE_MS)*SEND_DESYNC;
andriym 78:43a6b54f0372 439
andriym 89:425369a595c4 440 //// Some debugging info I used to display
andriym 78:43a6b54f0372 441 //out.clear();
andriym 78:43a6b54f0372 442 //out.printf("Sent: %s\r\n", tx_buff);
andriym 78:43a6b54f0372 443 //uint8_t tempC = radio.readTemperature(-1); // -1 = user cal factor, adjust for correct ambient
andriym 78:43a6b54f0372 444 //uint8_t gain = (radio.readReg(REG_LNA) & 0b111000)>>3; // LNA Current Gain
andriym 78:43a6b54f0372 445 //uint32_t freq = radio.getFrequency();
andriym 78:43a6b54f0372 446 //out.printf("T: %d, G: %d\r\n", tempC, gain);
andriym 78:43a6b54f0372 447 //if(freq!=868000000) out.printf("Freq: %d\r\n", freq);
elmbed 76:6638d83939d5 448
andriym 81:3cd7de5d01ef 449 //beep(NOTE_A3, 0.05, volume);
elmbed 76:6638d83939d5 450 }
andriym 78:43a6b54f0372 451
elmbed 76:6638d83939d5 452 if (radio.receiveDone())
AntonLS 11:d3aa5fca2330 453 {
elmbed 76:6638d83939d5 454 memset(rx_buff, 0x00, sizeof(rx_buff));
elmbed 76:6638d83939d5 455 memcpy(rx_buff, (char*)radio.DATA, radio.DATALEN > sizeof(rx_buff)-1 ? sizeof(rx_buff)-1 : radio.DATALEN);
elmbed 76:6638d83939d5 456
andriym 78:43a6b54f0372 457 if(rx_buff[0]=='N' && rx_buff[1]=='=') {
andriym 78:43a6b54f0372 458 memcpy(other_name, rx_buff+2, NAME_LEN);
andriym 78:43a6b54f0372 459 other_name[5] = 0x00;
andriym 78:43a6b54f0372 460 if(sizeof(rx_buff)>8 && rx_buff[7]==',') {
andriym 79:9db29f41dc9d 461 otherTeam = rx_buff[8]-'0';
andriym 79:9db29f41dc9d 462 } else otherTeam = 1;
andriym 89:425369a595c4 463 players.update(other_name, otherTeam, radio.RSSI, tmr.read_ms());
andriym 78:43a6b54f0372 464
andriym 78:43a6b54f0372 465 //uint8_t gain = (radio.readReg(REG_LNA) & 0b111000)>>3; // LNA Current Gain
andriym 78:43a6b54f0372 466 //out.clear();
andriym 78:43a6b54f0372 467 //out.printf("Other: %s\r\n", other_name);
andriym 78:43a6b54f0372 468 //out.printf("RSSI: %d, G: %d\r\n", radio.RSSI, gain);
andriym 78:43a6b54f0372 469
andriym 81:3cd7de5d01ef 470 //beep(NOTE_A5, 0.5, volume);
andriym 78:43a6b54f0372 471 } else { // received unknown signal
andriym 78:43a6b54f0372 472 uint8_t gain = (radio.readReg(REG_LNA) & 0b111000)>>3; // LNA Current Gain
andriym 78:43a6b54f0372 473 out.clear();
andriym 78:43a6b54f0372 474 out.printf("Got: %s\r\n", rx_buff);
andriym 78:43a6b54f0372 475 out.printf("RSSI: %d, G: %d\r\n", radio.RSSI, gain);
andriym 78:43a6b54f0372 476 out.sleep(2.0);
andriym 78:43a6b54f0372 477 }
AntonLS 11:d3aa5fca2330 478 }
andriym 89:425369a595c4 479
andriym 89:425369a595c4 480 #ifdef BLE_ENABLE
andriym 90:b4d53a870147 481 // ble.waitForEvent();
andriym 89:425369a595c4 482 #endif
AntonLS 0:28ca4562fe1a 483 }
elmbed 76:6638d83939d5 484 }