commit
871d99ab35
@ -1,7 +1,7 @@
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// Example of the LARS Movement library
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#include <LARS.h>
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LARS robot; // using default ESP32 pinning values for constructor
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LARS robot;
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boolean walk_forward = false;
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boolean walk_backward = false;
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@ -19,7 +19,25 @@ boolean PushUp = false;
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void setup() {
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Serial.begin(115200);
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robot.init();
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/*
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How to wire:
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init(FRH, FLH, BRH, BLH, FRL, FLL, BRL, BLL)
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Leg Hip Face Hip Leg
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__________ __________ _________________
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|(FLL)_____)(FLH) (FRH)(______(FRL)|
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|__| |left FRONT right| |__|
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_________ | | __________
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|(BLL)_____)(BLH)______(BRH)(______(BRL)|
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|__| |__|
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*/
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robot.init(26, 25, 17, 16, 27, 5, 23, 13); // Calling init with default values
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delay(500);
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}
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@ -1,9 +1,23 @@
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// Example of the LARS Movement library using the ESPUI Webinferface by Lukas Bachschwell
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// Example of the LARS Movement library using the ESPUI Webinferface and the SimleExpressions Library by Lukas Bachschwell
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#include <SimpleExpressions.h>
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#include <WiFi.h>
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#include <ESPUI.h>
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#include <LARS.h>
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LARS robot; // using default ESP32 pinning values for constructor
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#define ledDataPin 27 // cannot use
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#define beeperPin 17 // cannot use
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#define echoPin 5 // cannot use
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#define triggerPin 23 //cannot use
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#define checkTime 1000
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#define warningDistance 20
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long oldTime = 0;
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bool warning = false;
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const char* ssid = "Lars";
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LARS robot;
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boolean walk_forward = false;
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boolean walk_backward = false;
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@ -21,8 +35,8 @@ boolean PushUp = false;
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void setup() {
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Serial.begin(115200);
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WiFi.mode(WIFI_AP);
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WiFi.setHostname("Lars");
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WiFi.softAP("Lars");
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WiFi.setHostname(ssid);
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WiFi.softAP(ssid);
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Serial.println("");
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Serial.print("IP address: ");
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Serial.println(WiFi.softAPIP());
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@ -40,25 +54,73 @@ void setup() {
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ESPUI.begin("Crabby Control");
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robot.init();
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SimpleExpressions.init(ledDataPin, beeperPin);
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SimpleExpressions.clearMouth();
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SimpleExpressions.writeMouth("happySmall", 0, 0, 80);
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SimpleExpressions.playSound(S_SUPER_HAPPY);
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SimpleExpressions.writeMouth("happyFull", 0, 60, 100);
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/*
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How to wire:
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init(FRH, FLH, BRH, BLH, FRL, FLL, BRL, BLL)
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Leg Hip Face Hip Leg
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__________ __________ _________________
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|(FLL)_____)(FLH) (FRH)(______(FRL)|
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|__| |left FRONT right| |__|
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_________ | | __________
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|(BLL)_____)(BLH)______(BRH)(______(BRL)|
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|__| |__|
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*/
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robot.init(26, 25, 17, 16, 27, 5, 23, 13); // Calling init with default values
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delay(1000);
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}
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void loop() {
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if (millis() - oldTime > checkTime) {
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checkDistance();
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oldTime = millis();
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}
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if (walk_forward) robot.walk(0);
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else if (walk_backward) robot.walk();
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else if (hello) robot.hello();
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else if (turn_left) robot.turnL(1, 550);
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else if (turn_right) robot.turnR(1, 550);
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else if (moonwalk) robot.moonwalk(1, 5000);
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else if (audience) robot.wave(1);
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else if (dance) robot.dance(1, 600);
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else if (omni) robot.omniWalk(1, 600, true, 1);
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else if (omni_left) robot.omniWalk(1, 600, false, 1);
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else if (PushUp) robot.pushUp(1, 600);
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else if (upDown) robot.upDown(1, 5000);
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else robot.home();
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}
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// UI Callbacks
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void audienceWaveButton(Control c, int type) {
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if (type == B_DOWN) {
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audience = true;
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}
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else {
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} else {
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audience = false;
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}
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}
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void moonWalkButton(Control c, int type) {
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if (type == B_DOWN) {
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moonwalk = true;
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}
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else {
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} else {
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moonwalk = false;
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}
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}
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@ -66,32 +128,31 @@ void moonWalkButton(Control c, int type) {
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void danceButton(Control c, int type) {
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if (type == B_DOWN) {
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dance = true;
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}
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else {
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} else {
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dance = false;
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}
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}
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void pushUpButton(Control c, int type) {
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if (type == B_DOWN) {
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PushUp = true;
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}
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else {
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} else {
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PushUp = false;
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}
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}
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void upDownButton(Control c, int type) {
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if (type == B_DOWN) {
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upDown = true;
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}
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else {
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} else {
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upDown = false;
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}
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}
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void slowTurnRight(Control c, int type) {
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if (type == B_DOWN) {
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omni = true;
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}
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else {
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} else {
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omni = false;
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}
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}
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@ -99,8 +160,7 @@ void slowTurnRight(Control c, int type) {
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void slowTurnLeft(Control c, int type) {
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if (type == B_DOWN) {
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omni_left = true;
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}
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else {
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} else {
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omni_left = false;
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}
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}
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@ -157,20 +217,51 @@ void wavePad(Control c, int value) {
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}
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}
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void loop() {
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if (walk_forward) robot.walk(0);
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else if (walk_backward) robot.walk();
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else if (hello) robot.hello();
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else if (turn_left) robot.turnL(1, 550);
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else if (turn_right) robot.turnR(1, 550);
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else if (moonwalk) robot.moonwalk(1, 5000);
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else if (audience) robot.wave(1);
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else if (dance) robot.dance(1, 600);
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else if (omni) robot.omniWalk(1, 600, true, 1);
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else if (omni_left) robot.omniWalk(1, 600, false, 1);
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else if (PushUp) robot.pushUp(1, 600);
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else if (upDown) robot.upDown(1, 5000);
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else robot.home();
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// Ultrasonic Sensor
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void checkDistance() {
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int d = distance(triggerPin, echoPin);
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ESPUI.print("Distance", String(d));
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if (d < warningDistance) {
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delay(100);
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d = distance(triggerPin, echoPin);
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if (d < warningDistance) {
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if(!warning) {
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SimpleExpressions.writeMouth("sadFull", 100, 0, 0);
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SimpleExpressions.writeMouth("sadFull", 100, 0, 0); // only twice please
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}
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SimpleExpressions.playSound(S_CONFUSED);
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warning = true;
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}
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} else {
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if (warning) {
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SimpleExpressions.writeMouth("happyFull", 0, 60, 100);
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SimpleExpressions.writeMouth("happyFull", 0, 60, 100); // only twice please
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warning = false;
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}
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}
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}
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long US_init(int trigger_pin, int echo_pin)
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{
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digitalWrite(trigger_pin, LOW);
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delayMicroseconds(2);
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digitalWrite(trigger_pin, HIGH);
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delayMicroseconds(10);
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digitalWrite(trigger_pin, LOW);
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return pulseIn(echo_pin, HIGH, 100000);
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}
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long distance(int trigger_pin, int echo_pin)
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{
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long microseconds = US_init(trigger_pin, echo_pin);
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long distance;
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distance = microseconds / 29 / 2;
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if (distance == 0) {
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distance = 999;
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}
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return distance;
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}
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35
src/LARS.cpp
35
src/LARS.cpp
@ -16,7 +16,15 @@
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*/
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LARS::LARS(int FRH, int FLH, int BRH, int BLH, int FRL, int FLL, int BRL, int BLL): reverse{0, 0, 0, 0, 0, 0, 0, 0}, trim{0, 0, 0, 0, 0, 0, 0, 0} {
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LARS::LARS(): reverse{0, 0, 0, 0, 0, 0, 0, 0}, trim{0, 0, 0, 0, 0, 0, 0, 0} {
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}
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void LARS::init(){
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init(26, 25, 17, 16, 27, 5, 23, 13); // Calling init with default values
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}
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void LARS::init(int FRH, int FLH, int BRH, int BLH, int FRL, int FLL, int BRL, int BLL) {
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board_pins[FRONT_RIGHT_HIP] = FRH; // front right inner
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board_pins[FRONT_LEFT_HIP] = FLH; // front left inner
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board_pins[BACK_RIGHT_HIP] = BRH; // back right inner
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@ -25,31 +33,6 @@ LARS::LARS(int FRH, int FLH, int BRH, int BLH, int FRL, int FLL, int BRL, int BL
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board_pins[FRONT_LEFT_LEG] = FLL; // front left outer // POSITIONS LOOKING FROM THE MIDDLE OF THE ROBOT!!!!!
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board_pins[BACK_RIGHT_LEG] = BRL; // back right outer
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board_pins[BACK_LEFT_LEG] = BLL; // back left outer
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}
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void LARS::init() {
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/*
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trim[] for calibrating servo deviation,
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initial posture (home) should like below
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in symmetric
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\ /
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\_____/
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|_____|
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/ \
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/ \
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*/
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/*
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trim[FRONT_LEFT_HIP] = 0;
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trim[FRONT_RIGHT_HIP] = -8;
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trim[BACK_LEFT_HIP] = 8;
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trim[BACK_RIGHT_HIP] = 5;
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trim[FRONT_LEFT_LEG] = 2;
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trim[FRONT_RIGHT_LEG] = -6;
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trim[BACK_LEFT_LEG] = 6;
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trim[BACK_RIGHT_LEG] = 5;
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*/
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for (int i = 0; i < 8; i++) {
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oscillator[i].start();
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class LARS {
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public:
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LARS(int FRH = 26, int FLH = 25, int BRH = 17, int BLH = 16, int FRL = 27, int FLL = 5, int BRL = 23, int BLL = 13);
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LARS();
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void init();
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void init(int FRH = 26, int FLH = 25, int BRH = 17, int BLH = 16, int FRL = 27, int FLL = 5, int BRL = 23, int BLL = 13);
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void walk(int dir = 1, float steps = 1, float T = 800); // T initial 400
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void omniWalk(float steps, float T, bool side, float turn_factor);
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void turnL(float steps, float period);
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Loading…
Reference in New Issue
Block a user