weeb grammers
/
Assignment2
something
Fork of HelloWorld by
PaceHeart.cpp
- Committer:
- weebgrammers
- Date:
- 2016-11-14
- Revision:
- 5:45d58f8a5912
- Parent:
- 3:641eefd1110b
File content as of revision 5:45d58f8a5912:
#include "PaceHeart.h" #include "mbed.h" #include "Hardware.h" using namespace std; PaceHeart::PaceHeart(){ p_pacingState = 0; p_pacingMode = 0; int p_hysteresis = 0; int p_hysteresisInterval = 300; int lowrateInterval = 1000; int uprateInterval = 500; //upper rate limit //Ventricle double p_vPaceAmp = 3500.0; double p_vPaceWidth = 0.4; int p_VRP = 320; //Atrium (change defaults) double p_aPaceAmp = 3500.0; double p_aPaceWidth = 0.4; int p_ARP = 320; } PaceHeart::PaceHeart(int mode){ p_pacingState = 0; p_pacingMode = mode; int lowrateInterval = 1000; //30-50->5 50-90->1 90-175->5 ppm int uprateInterval = 500; //upper rate limit 50-175->5 ppm int maxSensorRate = 500; //50-175->5 ppm //Ventricle double p_vPaceAmp = 3750.0; //3750 can change to 0, 1250, 2500, 3750, 5000 double p_vPaceWidth = 0.4; //0.05->no change 0.1-1.9 0.1 int p_activityThresh = 4; //1-7 print out string with level ie. Med int p_reactionTime = 30; //10-50->10 int p_responseFactor = 8; //1-16->1 int p_recoveryTime = 5; //2-16->1 } int PaceHeart::get_p_pacingState() { return p_pacingState; } int PaceHeart::get_p_pacingMode() { return p_pacingMode; } int PaceHeart::get_p_hysteresis() { return p_hysteresis; } void PaceHeart::set_p_hysteresis(int x) { p_hysteresis = x; return; } int PaceHeart::get_p_hysteresisInterval() { return p_hysteresisInterval; } void PaceHeart::set_p_hysteresisInterval(int x) { p_hysteresisInterval = x; return; } int PaceHeart::get_lowrateInterval() { return lowrateInterval; } void PaceHeart::set_lowrateInterval(int x) { lowrateInterval = x; return; } int PaceHeart::get_uprateInterval() { return uprateInterval; } void PaceHeart::set_uprateInterval(int x) { uprateInterval = x; return; } //Ventricle double PaceHeart::get_p_vPaceAmp() { return p_vPaceAmp; } void PaceHeart::set_p_vPaceAmp(double x) { p_vPaceAmp = x; return; } double PaceHeart::get_p_vPaceWidth() { return p_vPaceWidth; } void PaceHeart::set_p_vPaceWidth(double x) { p_vPaceWidth = x; return; } int PaceHeart::get_p_VRP() { return p_VRP; } void PaceHeart::set_p_VRP(int x) { p_VRP = x; return; } //Atrium double PaceHeart::get_p_aPaceAmp() { return p_aPaceAmp; } void PaceHeart::set_p_aPaceAmp(double x) { p_aPaceAmp = x; return; } double PaceHeart::get_p_aPaceWidth() { return p_aPaceWidth; } void PaceHeart::set_p_aPaceWidth(double x) { p_aPaceWidth = x; return; } int PaceHeart::get_p_ARP() { return p_ARP; } void PaceHeart::set_p_ARP(int x) { p_ARP = x; return; } void PaceHeart::pace_A(double amp, double wid,int pin) { output_pin_A = !output_pin_A ; wait(1); return; } void PaceHeart::pace_A() { double amplitude = get_p_aPaceAmp(); double width = get_p_aPaceWidth(); // int output_pin = hardware.get_output_pin; //include the hardware module pace_A(amplitude,width,output_pin_A); return; } void PaceHeart::pace_V(double amp, double wid, int pin) { output_pin_V = !output_pin_V ; wait(2); return; } void PaceHeart::pace_V() { double amplitude = get_p_vPaceAmp(); double width = get_p_vPaceWidth(); // int output_pin = hardware.get_output_pin; //include the hardware module pace_V(amplitude,width,output_pin_V); return; } void PaceHeart::pace(int mode) { switch(mode){ case 1: //AOO pace_A(); case 2: //VOO pace_V(); } return; } void PaceHeart::pace() { int mode = get_p_pacingMode(); pace(mode); return; } int PaceHeart::get_activityThresh() { return p_activityThresh; } int PaceHeart::get_reactionTime() { return p_reactionTime; } int PaceHeart::get_responseFactor() { return p_responseFactor; } int PaceHeart::get_recoveryTime() { return p_recoveryTime; } void PaceHeart::set_activityThresh(int x) { p_activityThresh=x; return; } void PaceHeart::set_reactionTime(int x) { p_reactionTime=x; return; } void PaceHeart::set_responseFactor(int x) { p_responseFactor=x; return; } void PaceHeart::set_recoveryTime(int x) { p_recoveryTime=x; return; }