Changes done in ECG and BT
Dependencies: SDFileSystem ds3231 eeprom_Nikita mbed testUniGraphic_150217
Fork of merged_code2_20sept_2017_4th_oct_2017 by
main.cpp
- Committer:
- avp2417
- Date:
- 2017-07-29
- Revision:
- 35:43133f017ed4
- Parent:
- 34:8f6b0dc124e8
- Child:
- 37:92fcbf22bf91
File content as of revision 35:43133f017ed4:
// changed the pid in all to int32_t; //added bt #include "mbed.h" #include "display_modules.h" #include "touch_modules.h" #include "ecg_dec.h" #include "touch_modules.h" #include "glc.h" #include "bp.h" #include "sdcard.h" #include "eeprom_pgm.h" #include "struct.h" #include "battery.h" Serial gc(USBTX, USBRX); DigitalIn q1(PTB11); DigitalIn q(PTC5); DigitalIn q3(PTC12); DigitalIn BT(PTA5); //bluetooth status pin static uint32_t current_test_pid=0; static uint32_t bt_file_sent_pid=0; uint8_t touch(uint8_t state); // touch state uint8_t display(uint8_t state1); // display state int32_t pid=0; // patient ID static uint8_t nstate=0; static uint8_t nstate1=0; static uint8_t flag=0; //flag to indicate not to update pid as it is already done static uint8_t ecg_flag=0; // ecg_flag to indicate the ecg test is already done for the same pid static uint8_t glc_flag=0; // glc_flag to indicate the glc test is already done for the same pid uint8_t state_r=0; // state to receive from bluetooth uint8_t state_t=1; // state to transmit to bluetooth uint16_t heart_rate=0; int main(){ DisableTouch(); gc.baud(115200); init_screen(); //initialize lcd screen_main(); // display of main screen //state=10; flag=0; //nstate=state; EnableTouch(); // enable touch function static uint8_t main_state=1; static uint8_t state_display=0; static uint8_t state_touch=1; static uint8_t state_t=1; static uint8_t state_r=0; float b_voltage=0; /* b_voltage=battery_voltage(); //gc.printf("%f \n", b_voltage ); if (b_voltage<3.5) { bat_screen_nocharge(); DisableTouch(); } else { // enable touch function bat_screen_charge(); EnableTouch();*/ while(1) { switch(main_state) // main state machine { case 1: state_display=touch(state_touch); // touch state if(state_display==12) main_state=3; else main_state=2; break; case 2: state_touch=display(state_display); //display state /* if (b_voltage<3.5) { bat_screen_nocharge(); DisableTouch(); } else { */ // bat_screen_charge(); main_state=1; // } break; case 3: DisableTouch(); // bluetooth send if(BT==1) { BT_connection() ; // displaying connection on bluetooth state_r=bt_send(state_t); main_state=4; } else { BT_no_connection(); gc.printf("timeout"); } break; case 4: state_t=bt_receive(state_r); // bluetooth receive main_state=3; // gc.printf("statet=%d",state_t); if(state_t ==0) { BT_finished(); screen_BT_return(); EnableTouch(); main_state=1; state_touch=12; // jumping to touch case 12 } break; } } } //} uint8_t touch(uint8_t state) { static uint8_t state1=0; detect_touch(); // determine the touch points switch(state) // state for touch { case 1: state1=touch_main(); // determining the touch for main screen state=0; nstate1=state1; break; case 2: state1=touch_main_1(); // determining the touch for SYSTEM CONFIGURATION screen state=0; nstate1=state1; break; case 3: state1=touch_main_2(); //// determining the touch for TEST screen state=0; nstate1=state1; break; case 4: state1=touch_glc(); // determining the touch for GLC screen state=0; nstate1=state1; break; case 5: state1=touch_ecg(); // determining the touch for ECG screen state=0; nstate1=state1; break; case 6: state1=touch_ret(); // determining the touch for returning back to the main screen /* if (ecg_flag==1) state1=8; else if (glc_flag==1) state1=7; */ state=0; nstate1=state1; break; case 7: state1=touch_again_ecg(); // determining the touch when readings are taken more than once screen state=0; nstate1=state1; break; case 8: state1=touch_bp(); // determining the touch for BP screen state=0; nstate1=state1; break; case 9: state1=touch_again_glc(); state=0; nstate1=state1; break; case 10 : DisableTouch(); wait_ms(300); EnableTouch(); state=nstate; break; case 11: state1=touch_again_bp(); state=0; nstate1=state1; break; case 12: state1=BT_return(); state=0; nstate1=state1; break; default : DisableTouch(); wait_ms(300); EnableTouch(); state=nstate; break; } return state1; } uint8_t display(uint8_t state1) { static uint8_t state=0; switch(state1) // state for display screens { case 1: DisableTouch(); screen_main(); // main screen state1=0; state=1; nstate=state; flag=0; ecg_flag=0; // ecg, glc flag to determine whether the readings are taken more than once glc_flag=0; EnableTouch(); break; case 2: DisableTouch(); // bt(); screen_main_1(); // System configration screen state1=0; state=2; nstate=state; EnableTouch(); break; case 3: DisableTouch(); if (flag==0) { //pid=pid+1; pid=eprom_read(1); // reading the patient id from eeprom gc.printf("pidinit=%d",pid); pid=pid+1; gc.printf("pid+1=%d",pid); eprom_write(1,pid); // writing the patient id to eeprom screen_main_2(pid); /* sd_open_GLCfilee(pid); // only opening the glc,bp and ecg file sd_close(); sd_open_ECGfilee(pid); sd_close(); sd_open_BPfilee(pid); sd_close();*/ flag=1; } else { screen_main_2(pid); // TEST screen } state1=0; state=3; nstate=state; EnableTouch(); break; case 4: DisableTouch(); if (glc_flag==1) // glc_flag=1 when already the reading has been taken { screen_again(); state1=0; state=9; nstate=state; } else { screen_glc(); // glc screen state1=0; state=4; nstate=state; } EnableTouch(); break; case 5: DisableTouch(); if (ecg_flag==1) { screen_again(); state1=0; state=7; nstate=state; } else { screen_ecg(); //ecg main screen state1=0; state=5; nstate=state; } EnableTouch(); break; case 6: DisableTouch(); screen_bp(); // bp main screen //EnableTouch(); state1=0; state=8; nstate=state; /////// EnableTouch(); /////// break; case 7: DisableTouch(); glc(pid); // glc measurement // bt(); glc_flag=1; wait(1); state1=0; screen_glc_2(); state=6; eprom_write_8(30,0); // gc.printf("%d", state); nstate=state; ////////////// EnableTouch(); break; case 8: DisableTouch(); ecg_countdown(); // countdown before ecg capture heart_rate=ecg(pid); // capturing ecg state1=0; if (heart_rate==0) { screen_ecg_lead(); } else if(heart_rate==1) // if heart rate goes above or below range display error // 10/7/17 nikita { screen_ecg_error(); } else { screen_ecg_2(heart_rate); ecg_flag=1; } state=6; eprom_write_8(30,1); nstate=state; screen_ecg_bp(); EnableTouch(); break; /*case 9: DisableTouch(); screen_glc_2(); state1=0; state=6; nstate=state; EnableTouch(); break;*/ case 9: DisableTouch(); screen_bp2(); // bp main screen bp_countdown(); // countdown for bp bp(pid); // measuring bp earlier bp() changed to bp(pid) 28/4/2017 state1=0; // wait(1); state=6; eprom_write_8(30,2); nstate=state; EnableTouch(); break; case 10 : DisableTouch(); wait_ms(300); EnableTouch(); state=nstate; break; case 11 : DisableTouch(); current_test_pid=eprom_read(1); bt_file_sent_pid=eprom_read(6); screen_patient_info(current_test_pid, bt_file_sent_pid); state1=0; state=12; EnableTouch(); break; default : state1=nstate1; break; } return state; }