#pragma once #include //#define TROLLER #define STATIC_ASSERT(COND, MSG) extern char MSG[(COND)?1:-1] #define DATABAUD 2000000 //baudrate used for communication //fixed point calculations #define TOFIXED(a) ((int16_t)((a) * 64)) #define TOFLOAT(a) ((float)((a) / 64.0)) #define TOSFLOAT(a) (ABS(a) >= 4.0) ? (((int16_t)((a) * 64)) | 0x4000) : (((int16_t)((a) * 4096.0)) & 0xBFFFF) #define TOFLOATS(a) ((a) & 0x4000) ? ((float)(((a) & 0xBFFFF) / 64.0)) : ((float)(((a) & 0xBFFFF) / 4096.0)) #define CLAMP(x, low, high) (((x) > (high)) ? (high) : (((x) < (low)) ? (low) : (x))) #define PWM_RES 2400 typedef struct{ uint8_t start; // 255 uint8_t key; } packet_header_t; //data from f1 to f4 typedef struct{ int16_t dc_cur; int16_t dc_volt; int16_t hv_temp; #ifdef TROLLER int16_t a; int16_t b; int16_t c; #endif } from_hv_t; //data from f4 to f1 typedef struct{ int16_t a; int16_t b; } to_hv_t; typedef struct{ packet_header_t head; to_hv_t data; } packet_to_hv_t; typedef struct{ packet_header_t head; from_hv_t data; } packet_from_hv_t; void buff_packet(packet_header_t* p, uint8_t size); void unbuff_packet(packet_header_t* p, uint8_t size); //check if structs can be send at 5kHz using DATABAUD STATIC_ASSERT(sizeof(to_hv_t) <= DATABAUD / 11 / 5000 - 1 - 5, to_hv_struct_to_large); STATIC_ASSERT(sizeof(from_hv_t) <= DATABAUD / 11 / 5000 - 1 - 5, from_hv_struct_to_large); // struct f1tof4{ // int16 a; // int16 b; // int16 udc; // int16 value; // struct { // bool enabled; // bool temp_limit; // bool current_limit; // bool watchdog; // toggle // int4 misc; // }flags; // int8 crc; // }; // // struct f4tof1{ // int16 a; // u/i // int16 b; // u/i // int16 value; // int6 address; // /* // rw: // r // l // max_i // max_temp // max_pwm // phase_offset_uv // phase_offset_vw // svm_mode (centered, svm, bottom low) // u/i cmd mode // u/i fb mode // // r: // temp0 // temp1 // temp2 // temp3 // hw version // */ // bool enable; // bool watchdog; // toggle in hal // int8 crc; // };