Added new state IDLE
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bf2176ed83
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f6132f1c85
2 changed files with 44 additions and 31 deletions
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@ -52,12 +52,13 @@ typedef struct transcv_struct{
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#define DISPLAY_I2C_ADDRESS 0x3C //Adress of the Display
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#define DISPLAY_I2C_ADDRESS 0x3C //Adress of the Display
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typedef enum {TIMER_INIT = 0, TIMER_READY, TIMER_STARTED, TIMER_RUNNING , TIMER_CANCELLED, TIMER_STOPPED, TIMER_TIMEDOUT, TIMER_FAIL, TIMER_WAIT} timer_state_e;
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typedef enum {TIMER_INIT = 0, TIMER_IDLE, TIMER_READY, TIMER_STARTED, TIMER_RUNNING , TIMER_CANCELLED, TIMER_STOPPED, TIMER_TIMEDOUT, TIMER_FAIL, TIMER_WAIT} timer_state_e;
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// READY_LED, WARN_LED, RUN_LED, FAIL_LED
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// READY_LED, WARN_LED, RUN_LED, FAIL_LED
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const float LEDStates[][3] =
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const float LEDStates[][3] =
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{
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{
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[TIMER_INIT] = {READY_LED_OFF, RUN_LED_OFF, FAIL_LED_OFF},
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[TIMER_INIT] = {READY_LED_OFF, RUN_LED_OFF, FAIL_LED_OFF},
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[TIMER_IDLE] = {READY_LED_ON, RUN_LED_OFF, FAIL_LED_OFF},
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[TIMER_READY] = {READY_LED_ON, RUN_LED_OFF, FAIL_LED_OFF},
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[TIMER_READY] = {READY_LED_ON, RUN_LED_OFF, FAIL_LED_OFF},
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[TIMER_STARTED] = {READY_LED_ON, RUN_LED_ON, FAIL_LED_OFF},
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[TIMER_STARTED] = {READY_LED_ON, RUN_LED_ON, FAIL_LED_OFF},
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[TIMER_RUNNING] = {READY_LED_OFF, RUN_LED_ON, FAIL_LED_OFF},
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[TIMER_RUNNING] = {READY_LED_OFF, RUN_LED_ON, FAIL_LED_OFF},
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@ -87,10 +88,10 @@ const float LEDStates[][3] =
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//--------------------------------------- function declarations ----------------------------------------------
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//--------------------------------------- function declarations ----------------------------------------------
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void false_start_isr(void);
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void false_start_isr(void);
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void update_screen(timer_state_e timer_state);
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void update_screen(timer_state_e state);
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void set_state_LEDs(timer_state_e state, boolean warn);
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void set_state_LEDs(timer_state_e state, boolean warn);
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void startSequence(void);
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void startSequence(void);
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void update_statemassage(timer_state_e timer_state);
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void update_statemessage(timer_state_e timer_state);
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void failSequence(void);
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void failSequence(void);
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#endif
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#endif
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@ -176,8 +176,11 @@ void loop(void) {
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// set state to new_state
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// set state to new_state
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if(timer_state != timer_new_state){
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if(timer_state != timer_new_state){
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update_statemassage(timer_new_state);
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update_statemessage(timer_new_state);
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}
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}
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update_screen(timer_new_state);
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timer_state = timer_new_state;
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timer_state = timer_new_state;
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// set LEDs
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// set LEDs
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@ -185,15 +188,13 @@ void loop(void) {
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switch(timer_state){
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switch(timer_state){
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case TIMER_INIT:
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case TIMER_INIT:
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update_screen(timer_state);
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// check if we are ready ...
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// check if we are ready ...
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if(counter_time_offset > REQUIRED_NUMBER_MEANVALS){
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if(counter_time_offset > REQUIRED_NUMBER_MEANVALS){
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// check if offset is OK - if not .. set state back to INIT
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// check if offset is OK - if not .. set state back to INIT
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timer_new_state = TIMER_READY;
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timer_new_state = TIMER_IDLE;
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}
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}
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break;
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break;
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case TIMER_READY:
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case TIMER_IDLE:
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update_screen(timer_state);
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warn_during_run = false;
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warn_during_run = false;
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if(counter_time_offset < REQUIRED_NUMBER_MEANVALS){
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if(counter_time_offset < REQUIRED_NUMBER_MEANVALS){
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// check if offset is OK - if not .. set state back to INIT
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// check if offset is OK - if not .. set state back to INIT
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@ -203,8 +204,15 @@ void loop(void) {
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// check if the FALSESTATE button is pressed - somebody is ready to run ...
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// check if the FALSESTATE button is pressed - somebody is ready to run ...
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if(digitalRead(FAILSTARTBUTTON_IN) == FAILSTARTBUTTON_PRESSED){
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if(digitalRead(FAILSTARTBUTTON_IN) == FAILSTARTBUTTON_PRESSED){
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//wait a few milliseconds to prevent keybouncing - this is a very simplistic method here
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//wait a few milliseconds to prevent keybouncing - this is a very simplistic method here
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delay(300);
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delay(10);
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//read again and check if still active ...
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//read again and check if still active ...
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if(digitalRead(FAILSTARTBUTTON_IN) == FAILSTARTBUTTON_PRESSED){
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timer_new_state = TIMER_READY;
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}
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}
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}
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break;
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case TIMER_READY:
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if(digitalRead(FAILSTARTBUTTON_IN) == FAILSTARTBUTTON_PRESSED){
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if(digitalRead(FAILSTARTBUTTON_IN) == FAILSTARTBUTTON_PRESSED){
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// check if the start button was pressed ... there is at least still someone waiting for the run .
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// check if the start button was pressed ... there is at least still someone waiting for the run .
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if(digitalRead(STARTBUTTON_IN) == STARTBUTTON_PRESSED){
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if(digitalRead(STARTBUTTON_IN) == STARTBUTTON_PRESSED){
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@ -213,18 +221,17 @@ void loop(void) {
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timer_new_state = TIMER_STARTED;
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timer_new_state = TIMER_STARTED;
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}
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}
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}
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}
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}
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else{
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timer_new_state = TIMER_IDLE;
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}
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}
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break;
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break;
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case TIMER_STARTED:
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case TIMER_STARTED:
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update_screen(timer_state);
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//initialize the start countdown
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//initialize the start countdown
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timer_new_state = TIMER_RUNNING;
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timer_new_state = TIMER_RUNNING;
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startSequence();
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startSequence();
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break;
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break;
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case TIMER_RUNNING:
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case TIMER_RUNNING:
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noTone(PIEZO_PIN);
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noTone(PIEZO_PIN);
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update_screen(timer_state);
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if(counter_time_offset < REQUIRED_NUMBER_MEANVALS){
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if(counter_time_offset < REQUIRED_NUMBER_MEANVALS){
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// check if offset is still OK - if not .. set state to TIMER_RUNNING
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// check if offset is still OK - if not .. set state to TIMER_RUNNING
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warn_during_run = true;
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warn_during_run = true;
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@ -243,7 +250,6 @@ void loop(void) {
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//calculate the run_time and switch to WAIT
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//calculate the run_time and switch to WAIT
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run_time = (radio_data.topbuttonpressedtime - running_time_offset) - start_time;
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run_time = (radio_data.topbuttonpressedtime - running_time_offset) - start_time;
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runner_run_time = runner_start_time - run_time;
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runner_run_time = runner_start_time - run_time;
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update_screen(timer_state);
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timer_new_state = TIMER_WAIT;
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timer_new_state = TIMER_WAIT;
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break;
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break;
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case TIMER_FAIL:
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case TIMER_FAIL:
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@ -251,21 +257,18 @@ void loop(void) {
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failSequence();
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failSequence();
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run_time = 99999;
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run_time = 99999;
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runner_run_time = runner_start_time - start_time;
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runner_run_time = runner_start_time - start_time;
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update_screen(timer_state);
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timer_new_state = TIMER_WAIT;
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timer_new_state = TIMER_WAIT;
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break;
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break;
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case TIMER_CANCELLED:
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case TIMER_CANCELLED:
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// what to do in chancel mode ?
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// what to do in chancel mode ?
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run_time = 99999;
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run_time = 99999;
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runner_run_time = runner_start_time - start_time;
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runner_run_time = runner_start_time - start_time;
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update_screen(timer_state);
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timer_new_state = TIMER_WAIT;
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timer_new_state = TIMER_WAIT;
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break;
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break;
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case TIMER_TIMEDOUT:
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case TIMER_TIMEDOUT:
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// time out
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// time out
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run_time = millis() - start_time;
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run_time = millis() - start_time;
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runner_run_time = runner_start_time - start_time;
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runner_run_time = runner_start_time - start_time;
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update_screen(timer_state);
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timer_new_state = TIMER_WAIT;
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timer_new_state = TIMER_WAIT;
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break;
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break;
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case TIMER_WAIT:
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case TIMER_WAIT:
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@ -273,7 +276,7 @@ void loop(void) {
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detachInterrupt(digitalPinToInterrupt(FAILSTARTBUTTON_IN));
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detachInterrupt(digitalPinToInterrupt(FAILSTARTBUTTON_IN));
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// wait until the chancel button was pressed to go ahead
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// wait until the chancel button was pressed to go ahead
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if(digitalRead(CANCELBUTTON_IN) == CANCELBUTTON_PRESSED){
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if(digitalRead(CANCELBUTTON_IN) == CANCELBUTTON_PRESSED){
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timer_new_state = TIMER_READY;
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timer_new_state = TIMER_IDLE;
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}
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}
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break;
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break;
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}
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}
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@ -283,11 +286,14 @@ void loop(void) {
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//####################### HELPER FUNCTIONS ###########################
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//####################### HELPER FUNCTIONS ###########################
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void update_statemassage(timer_state_e timer_state){
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void update_statemessage(timer_state_e timer_state){
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switch(timer_state){
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switch(timer_state){
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case TIMER_INIT:
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case TIMER_INIT:
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Serial.println("*** TIMER_INIT ***");
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Serial.println("*** TIMER_INIT ***");
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break;
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break;
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case TIMER_IDLE:
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Serial.println("*** TIMER_IDLE ***");
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break;
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case TIMER_READY:
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case TIMER_READY:
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Serial.println("*** TIMER_READY ***");
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Serial.println("*** TIMER_READY ***");
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break;
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break;
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@ -317,7 +323,7 @@ void update_statemassage(timer_state_e timer_state){
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}
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}
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}
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}
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void update_screen(timer_state_e timer_state){
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void update_screen(timer_state_e state){
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bool scr_update = true;
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bool scr_update = true;
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int ypos = 64-42/2;
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int ypos = 64-42/2;
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String header = "no state";
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String header = "no state";
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@ -330,16 +336,21 @@ void update_screen(timer_state_e timer_state){
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float curr_time_test = 0.0;
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float curr_time_test = 0.0;
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switch(timer_state){
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switch(state){
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case TIMER_INIT:
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case TIMER_INIT:
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header = "Init";
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header = "Init";
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content = "...";
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content = "...";
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footer = "please wait";
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footer = "please wait";
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break;
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break;
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case TIMER_IDLE:
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header = "Idle!";
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content = "00:00";
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footer = "Waiting for climber";
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break;
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case TIMER_READY:
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case TIMER_READY:
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header = "Ready!";
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header = "Ready!";
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content = "00:00";
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content = "00:00";
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footer = "Waiting for climber";
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footer = "Press Startbuton to run ...";
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break;
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break;
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case TIMER_STARTED:
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case TIMER_STARTED:
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header = "Starting ...";
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header = "Starting ...";
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@ -367,10 +378,11 @@ void update_screen(timer_state_e timer_state){
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scr_update = false;
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scr_update = false;
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break;
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break;
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}
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}
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if(scr_update == true){
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if(timer_new_state != timer_state){
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if(timer_new_state != timer_state){
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display.clear();
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display.clear();
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}
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}
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if(scr_update == true){
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//snprintf( string_to_char, sizeof(string_to_char),"%s", header);
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//snprintf( string_to_char, sizeof(string_to_char),"%s", header);
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header.toCharArray(header_to_char, sizeof(header_to_char));
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header.toCharArray(header_to_char, sizeof(header_to_char));
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content.toCharArray(content_to_char, sizeof(content_to_char));
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content.toCharArray(content_to_char, sizeof(content_to_char));
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@ -464,12 +476,12 @@ void false_start_isr(void)
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// this will save the time when the runner is really started
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// this will save the time when the runner is really started
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Serial.println("** Interrupt service routine started: false_start_ISR **");
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Serial.println("** Interrupt service routine started: false_start_ISR **");
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runner_start_time = millis();
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runner_start_time = millis();
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if(timer_state == TIMER_STARTED & timer_new_state == TIMER_STARTED){
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if((timer_state == TIMER_STARTED) & (timer_new_state == TIMER_STARTED)){
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timer_new_state = TIMER_FAIL;
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timer_new_state = TIMER_FAIL;
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detachInterrupt(digitalPinToInterrupt(FAILSTARTBUTTON_IN));
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detachInterrupt(digitalPinToInterrupt(FAILSTARTBUTTON_IN));
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noTone(PIEZO_PIN);
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noTone(PIEZO_PIN);
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} else {
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} else {
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if(timer_state == TIMER_RUNNING | timer_new_state == TIMER_RUNNING ){
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if((timer_state == TIMER_RUNNING) | (timer_new_state == TIMER_RUNNING) ){
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// disable this interrupt;
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// disable this interrupt;
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detachInterrupt(digitalPinToInterrupt(FAILSTARTBUTTON_IN));
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detachInterrupt(digitalPinToInterrupt(FAILSTARTBUTTON_IN));
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}
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}
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