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Run clang-format, add config

This commit is contained in:
Xiretza 2022-08-16 20:24:24 +02:00
parent 0c468f3e4f
commit b06c799e21
2 changed files with 174 additions and 145 deletions
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1
ITS_Open_direct_2fb/.clang-format Normal file
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@ -0,0 +1 @@
BasedOnStyle: Chromium

318
ITS_Open_direct_2fb/ITS_Open_direct_2fb.ino
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@ -12,42 +12,42 @@ Example sketches from Arduino team, Ethernet by Adrian McEwen
Based on the Ethernet to Thingspeak exaple by Hans Scharler
*/
#include <SPI.h>
#include <Ethernet.h>
#include <SPI.h>
#include "APIKey.h"
#include "TimerOne.h"
byte mac[] = { 0xD4, 0xBA, 0xD9, 0x9A, 0x7C, 0x95 }; // Must be unique on local network
// Must be unique on local network
byte mac[] = {0xD4, 0xBA, 0xD9, 0x9A, 0x7C, 0x95};
// Initialize Arduino Ethernet Client
EthernetClient client;
// Twitter response variables
#define SERVER_DOMAIN "spaceapi.it-syndikat.org" // URL
String currentLine = ""; // string to hold the text from server
String currentLine = ""; // string to hold the text from server
// Specific variables
// Status
int hsopen;
int ethernetstatus;
int ledtimer =0;
const int ledspan =100;
int ledtimer = 0;
const int ledspan = 100;
int pingtimer =-1;
const int pingspan =250;
int pingtimer = -1;
const int pingspan = 250;
int checktimer = 0;
const int checkspan =1000;
const int checkspan = 1000;
int update = 0;
//debug options
// debug options
boolean debug = true;
//LED and Switch pins
// LED and Switch pins
const int glight = 5;
const int rlight = 6;
@ -55,91 +55,94 @@ const int topen = 2;
const int tclose = 3;
const int beeper = A5;
void setLeds(){
if (pingtimer>=0)
{
if(hsopen){ // If space is not closed, beep three times with
//beep
if((pingtimer> 220)&&((pingtimer/5)%2 ==1)){
void setLeds() {
if (pingtimer >= 0) {
if (hsopen) { // If space is not closed, beep three times with
// beep
if ((pingtimer > 220) && ((pingtimer / 5) % 2 == 1)) {
digitalWrite(beeper, HIGH);
}else{
} else {
digitalWrite(beeper, LOW);
}
}else{ // if closed, beep once
//beep
if((pingtimer> 240)&&((pingtimer/5)%2 ==1)){
} else { // if closed, beep once
// beep
if ((pingtimer > 240) && ((pingtimer / 5) % 2 == 1)) {
digitalWrite(beeper, HIGH);
}else{
} else {
digitalWrite(beeper, LOW);
}
}
// blink like crazy
if((pingtimer/2)%2 ==1){
if ((pingtimer / 2) % 2 == 1) {
analogWrite(rlight, 255);
analogWrite(glight, 255);
}else{
} else {
analogWrite(rlight, 0);
analogWrite(glight, 0);
}
pingtimer--;
}else{
switch(ethernetstatus){
case 0:{ // ethernet fail
//blink red
if(ledtimer < (ledspan/2)){
} else {
switch (ethernetstatus) {
case 0: { // ethernet fail
// blink red
if (ledtimer < (ledspan / 2)) {
analogWrite(rlight, 255);
}else{
} else {
analogWrite(rlight, 0);
}
analogWrite(glight, 0);
break;
}
case -1:{ // ethernet unknown
case -1: { // ethernet unknown
// fade green
if(ledtimer < (ledspan/2)){
analogWrite(glight, (255/(ledspan/2)*ledtimer));//fade up
}else{
analogWrite(glight, 255-(255/(ledspan/2)*(ledtimer-(ledspan/2))));//fade down
if (ledtimer < (ledspan / 2)) {
analogWrite(glight, (255 / (ledspan / 2) * ledtimer)); // fade up
} else {
analogWrite(glight, 255 - (255 / (ledspan / 2) *
(ledtimer - (ledspan / 2)))); // fade down
}
analogWrite(rlight, 0);
break;
}
case 1:{ // ethernet ok
switch(hsopen){
case 0:{ // closed
//red
case 1: { // ethernet ok
switch (hsopen) {
case 0: { // closed
// red
analogWrite(rlight, 255);
analogWrite(glight, 0);
break;
}
case 1:{ // open
case 1: { // open
// green
analogWrite(rlight, 0);
analogWrite(glight, 255);
break;
}
case 2:{ // wait
case 2: { // wait
// fade red and green
if(ledtimer < (ledspan/2)){
int tmp=(255/(ledspan/2)*ledtimer);
analogWrite(glight, tmp);//fade up
analogWrite(rlight, tmp);//fade up
if (ledtimer < (ledspan / 2)) {
int tmp = (255 / (ledspan / 2) * ledtimer);
analogWrite(glight, tmp); // fade up
analogWrite(rlight, tmp); // fade up
}else{
int tmp = 255-(255/(ledspan/2)*(ledtimer-(ledspan/2)));
analogWrite(glight, tmp);//fade down
analogWrite(rlight, tmp);//fade down
} else {
int tmp =
255 - (255 / (ledspan / 2) * (ledtimer - (ledspan / 2)));
analogWrite(glight, tmp); // fade down
analogWrite(rlight, tmp); // fade down
}
break;
}
case -1:{ // unknown
case -1: { // unknown
// fade red
if(ledtimer < (ledspan/2)){
analogWrite(rlight, (255/(ledspan/2)*ledtimer));//fade up
}else{
analogWrite(rlight, 255-(255/(ledspan/2)*(ledtimer-(ledspan/2))));//fade down
if (ledtimer < (ledspan / 2)) {
analogWrite(rlight, (255 / (ledspan / 2) * ledtimer)); // fade up
} else {
analogWrite(rlight,
255 - (255 / (ledspan / 2) *
(ledtimer - (ledspan / 2)))); // fade down
}
analogWrite(glight, 0);
break;
@ -149,39 +152,38 @@ void setLeds(){
}
}
ledtimer++;
if ( ledtimer >= ledspan ) {
if (ledtimer >= ledspan) {
ledtimer = 0;
}
}
checktimer++;
if ( checktimer >= checkspan ) {
checktimer = 0;
update=1;
}
checktimer++;
if (checktimer >= checkspan) {
checktimer = 0;
update = 1;
}
}
void setEth(int statuss){
void setEth(int statuss) {
ethernetstatus = statuss;
if(debug){
if (debug) {
Serial.println("Setting eth ");
Serial.println(statuss);
}
setLeds();
}
void setRoom(int statuss){
hsopen= statuss;
if(debug){
void setRoom(int statuss) {
hsopen = statuss;
if (debug) {
Serial.print("Setting room ");
Serial.println(statuss);
}
setLeds();
}
void startEthernet()
{
void startEthernet() {
client.stop();
if(debug){
if (debug) {
Serial.println("Connecting Arduino to network...");
Serial.println();
}
@ -189,35 +191,32 @@ void startEthernet()
delay(1000);
// Connect to network amd obtain an IP address using DHCP
if (Ethernet.begin(mac) == 0)
{
if(debug){
if (Ethernet.begin(mac) == 0) {
if (debug) {
Serial.println("DHCP Failed, reset Arduino to try again");
Serial.println();
}
setEth(0);
}
else
{
if(debug){
} else {
if (debug) {
Serial.println("Arduino connected to network using DHCP");
Serial.println();
}
setEth(1);
}
if(debug){
if (debug) {
Serial.println("DONE");
Serial.println();
}
delay(1000);
}
//reads out the status returned by the server and sets the LED's appropriately.
//the mode is defied by the intended call:
// reads out the status returned by the server and sets the LED's appropriately.
// the mode is defied by the intended call:
void readServerStatus(int mode) {
char lastsign='0';
char lastsign = '0';
boolean readStatus = false;
while(client.connected()) {
while (client.connected()) {
if (client.available()) {
// read incoming bytes:
char inChar = client.read();
@ -225,49 +224,62 @@ void readServerStatus(int mode) {
// add incoming byte to end of line:
currentLine += inChar;
if(debug){Serial.print(inChar);}
if (debug) {
Serial.print(inChar);
}
// if you get a newline, clear the line:
if (inChar == '\n') {
currentLine = "";
if(lastsign == '\n'){ // /r/n /r/n is the end of a header
readStatus= true; //start to parse the content of the line
if(debug){Serial.println("##END OF HEADER##");}
if (lastsign == '\n') { // /r/n /r/n is the end of a header
readStatus = true; // start to parse the content of the line
if (debug) {
Serial.println("##END OF HEADER##");
}
}
}
if (readStatus) {
if(currentLine.startsWith("true", 0)){
if(debug){Serial.println("");}
switch(mode){
if (currentLine.startsWith("true", 0)) {
if (debug) {
Serial.println("");
}
switch (mode) {
case 0:
setRoom(1);
break;
setRoom(1);
break;
case 1:
if(debug){Serial.println("Wink Wink");}
pingtimer = pingspan;
break;
if (debug) {
Serial.println("Wink Wink");
}
pingtimer = pingspan;
break;
}
// close the connection to the server:
client.stop();
return;
}
if(currentLine.startsWith("false", 0)){
if(debug){Serial.println("");}
switch(mode){
if (currentLine.startsWith("false", 0)) {
if (debug) {
Serial.println("");
}
switch (mode) {
case 0:
setRoom(0);
break;
setRoom(0);
break;
case 1:
if(debug){Serial.println("No Wink");}
break;
if (debug) {
Serial.println("No Wink");
}
break;
}
// close the connection to the server:
client.stop();
return;
}
}
if (inChar != '\r') {// removes /r so we dan test if the header end with two newlines, hacky but works.
if (inChar != '\r') { // removes /r so we dan test if the header end with
// two newlines, hacky but works.
lastsign = inChar;
}
}
@ -278,50 +290,54 @@ void readServerStatus(int mode) {
void TriggerServerReq(String s, int mode) {
// attempt to connect, and wait a millisecond:
if(debug){Serial.println("connecting to server... Status req");}
if (debug) {
Serial.println("connecting to server... Status req");
}
if (client.connect(SERVER_DOMAIN, 80)) {
if(debug){Serial.println("making HTTP request...");}
if (debug) {
Serial.println("making HTTP request...");
}
// make HTTP GET request to server:
client.println("GET "+ s +" HTTP/1.1");
client.println("GET " + s + " HTTP/1.1");
client.println("HOST: " SERVER_DOMAIN);
client.println("Connection: close");
client.println();
readServerStatus(mode);
}else{
if(debug){Serial.println("Not connected...");}
} else {
if (debug) {
Serial.println("Not connected...");
}
}
// note the time of this connect attempt:
}
void RequestState() {
TriggerServerReq("/api/status-s.php",0);
TriggerServerReq("/api/status-s.php", 0);
}
// Status LED pins
void setup()
{
void setup() {
pinMode(glight, OUTPUT);
pinMode(rlight, OUTPUT);
pinMode(beeper, OUTPUT);
digitalWrite(beeper,LOW);
pinMode(beeper, OUTPUT);
digitalWrite(beeper, LOW);
// Buttons with pullup resistor
pinMode(topen, INPUT);
pinMode(tclose, INPUT);
digitalWrite(topen,HIGH);
digitalWrite(tclose,HIGH);
digitalWrite(topen, HIGH);
digitalWrite(tclose, HIGH);
// Start Serial for debugging on the Serial Monitor
if(debug){
if (debug) {
Serial.begin(9600);
}
// Start Ethernet on Arduino
setEth(-1);
setRoom(2);
Timer1.initialize(20000); // 50 mal die Sekunde
Timer1.initialize(20000); // 50 mal die Sekunde
Timer1.attachInterrupt(setLeds);
startEthernet();
@ -334,64 +350,76 @@ void setup()
void TriggerServerUpdate(boolean stat) {
// attempt to connect, and wait a millisecond:
if(debug){Serial.println("connecting to server... Update Req");}
if (debug) {
Serial.println("connecting to server... Update Req");
}
if (client.connect(SERVER_DOMAIN, 80)) {
if(debug){Serial.println("making HTTP request...");}
if (debug) {
Serial.println("making HTTP request...");
}
// make HTTP GET request to server:
String s =(stat?"true":"false");
client.println("GET /api/update.php?open=" + s + "&apikey=" UPDATE_API_KEY + " HTTP/1.1");
String s = (stat ? "true" : "false");
client.println("GET /api/update.php?open=" + s + "&apikey=" UPDATE_API_KEY +
" HTTP/1.1");
client.println("HOST: " SERVER_DOMAIN);
client.println("Connection: close");
client.println();
readServerStatus(0);
}else{
if(debug){Serial.println("Not connected...");}
} else {
if (debug) {
Serial.println("Not connected...");
}
}
// note the time of this connect attempt:
}
void readButtons(){
if((digitalRead(topen)==LOW)&&(hsopen!=1)){
//startEthernet();
void readButtons() {
if ((digitalRead(topen) == LOW) && (hsopen != 1)) {
// startEthernet();
setRoom(2);
TriggerServerUpdate(true);
}
if((digitalRead(tclose)==LOW)&&(hsopen!=0)){
//startEthernet();
if ((digitalRead(tclose) == LOW) && (hsopen != 0)) {
// startEthernet();
setRoom(2);
TriggerServerUpdate(false);
}
}
void RequestPing() {
TriggerServerReq("/api/ping-get.php?apikey=" PING_GET_API_KEY,1);
TriggerServerReq("/api/ping-get.php?apikey=" PING_GET_API_KEY, 1);
}
void launchUpdate(){
if(update==1){
void launchUpdate() {
if (update == 1) {
RequestPing();
RequestState();
update = 0;
}
}
void loop()
{
void loop() {
readButtons();
launchUpdate();
}
//This just reads the server return and logs it to the serial
// @deprecated
// This just reads the server return and logs it to the serial
//@deprecated
void readServerReturn() {
//if(debug){Serial.println("readServerReturn ... ");}
while(client.connected()) {
if (client.available()) {
char c = client.read();
if(debug){Serial.print(c);}
}
}
if(debug){Serial.println();}
if(debug){Serial.println("disconnecting.");}
client.stop();
// if(debug){Serial.println("readServerReturn ... ");}
while (client.connected()) {
if (client.available()) {
char c = client.read();
if (debug) {
Serial.print(c);
}
}
}
if (debug) {
Serial.println();
}
if (debug) {
Serial.println("disconnecting.");
}
client.stop();
}