single global timer
Dependencies: TextLCD mbed-rtos mbed
Fork of pacemaker_v8 by
main.cpp
- Committer:
- jfields
- Date:
- 2014-12-03
- Revision:
- 0:3afa00a23ce2
- Child:
- 1:ea01c3232c4a
File content as of revision 0:3afa00a23ce2:
#include "mbed.h" #include "rtos.h" #include "TextLCD.h" #include <stdio.h> #include <stdlib.h> #define RUN 0x1 TextLCD lcd(p15, p16, p17, p18, p19, p20, TextLCD::LCD16x2); Serial pc (USBTX, USBRX); // ports DigitalIn VGet(p11); DigitalIn AGet(p12); DigitalOut VPace(p13); DigitalOut APace(p14); // LEDs DigitalOut leds[] = {LED1, LED2, LED3, LED4}; // 1 = VP // 2 = AP // 3 = VS // 4 = AS // global clocks Timer ta; // time since a event Timer tv; // time since v event // heart rate global vars int HR = 0; int beats = 0; int sampleRate = 10000; // default 10 seconds int firstSample = 1; // Normal Values const int N_PVARP = 325; // ms const int N_VRP = 300; // ms const int N_LRI = 857; // ms (= about 70ppm) const int N_AVI = 65; // ms const int N_UB = 100; // 100ppm const int N_LB = 40; // 40ppm // Heart Values - Normal Mode is default int PVARP = N_PVARP; int VRP = N_VRP; int LRI = N_LRI; int AVI = N_AVI; int UB = N_UB; int LB = N_LB; // status flags int isVRP = 0; int isPVARP = 0; int waitingForV = 1; // functions void VP_func(void const *args); void AP_func(void const *args); void VS_func(void const *args); void AS_func(void const *args); void manage_flags(void const *i); void calcHR(void const *args); void disp(void const *args); void send_Apace(); void send_Vpace(); void listen_Aget(void const *args); void listen_Vget(void const *args); void flashLED(int i); void blind(); void Aevent(); // threads Thread * VS_thread; Thread * AS_thread; Thread * VP_thread; Thread * AP_thread; Thread * VG_thread; Thread * AG_thread; Thread * disp_thread; // rtos timers RtosTimer * VRP_timer; RtosTimer * PVARP_timer; RtosTimer * HR_timer; int main() { // start global timer tv.start(); ta.start(); tv.stop(); // init threads VS_thread = new Thread(VS_func); AS_thread = new Thread(AS_func); VP_thread = new Thread(VP_func); AP_thread = new Thread(AP_func); VG_thread = new Thread(listen_Vget); AG_thread = new Thread(listen_Aget); // init timers VRP_timer = new RtosTimer(manage_flags, osTimerOnce, (void *)1); PVARP_timer = new RtosTimer(manage_flags, osTimerOnce, (void *)2); HR_timer = new RtosTimer(calcHR, osTimerPeriodic, (void *)0); // start display and heart rate sample HR_timer->start(sampleRate); disp_thread->signal_set(RUN); // main thread while (1) { } } void calcHR(void const *args) { if (firstSample == 1) { HR = beats*(60000/sampleRate); firstSample = 0; } else { HR = (beats*60000/sampleRate+HR)/2; } disp_thread->signal_set(RUN); } void disp(void const *args) { while (1) { Thread::signal_wait(RUN,osWaitForever); lcd.printf("HR = %d ppm\nCyle = %d s\n",HR,sampleRate/1000); beats = 0; } } void manage_flags(void const *i) { if ((int)i==1) isVRP = 0; if ((int)i==2) isPVARP = 0; } void AP_func(void const *args) { while (1) { if (tv.read_ms() >= (LRI-AVI)) { Aevent(); send_Apace(); flashLED(2); } } } void VP_func(void const *args) { while (1) { if (ta.read_ms() >= AVI) { blind(); send_Vpace(); flashLED(1); } } } void AS_func(void const *args) { while (1) { Thread::signal_wait(RUN,osWaitForever); Aevent(); flashLED(4); } } void VS_func(void const *args) { while (1) { Thread::signal_wait(RUN,osWaitForever); blind(); flashLED(4); } } void listen_Vget(void const *args) { while (1) { if (VGet==1) { if (!isVRP && waitingForV) VS_thread->signal_set(RUN); while(VGet == 1); } } } void listen_Aget(void const *args) { while (1) { if (AGet == 1) { if (!isPVARP && !waitingForV) AS_thread->signal_set(RUN); while(AGet == 1); } } } void flashLED(int i) { leds[i-1] = 1; wait(0.01); leds[i-1] = 0; } void blind() { tv.start(); ta.reset(); ta.stop(); isVRP = 1; isPVARP = 1; VRP_timer->start(VRP); PVARP_timer->start(PVARP); beats++; waitingForV = 0; } void Aevent() { ta.start(); tv.reset(); tv.stop(); waitingForV = 1; } void send_Apace() { APace = 1; Thread::wait(50); APace = 0; } void send_Vpace() { VPace = 1; Thread::wait(50); VPace = 0; }