stmbl/shared/old/hal_term.c

#include <stdio.h>
#include "hal_term.h"

void hal_term_print_pin(hal_pin_t *pin) {
  if(pin == pin->source) {  //if pin is not linked
    printf("%s = %f\n", pin->name, pin->source->source->value);
  } else {  //pin is linked
    printf("%s <= %s = %f\n", pin->name, pin->source->name, pin->source->source->value);
  }
}

void hal_term_list() {
  for(int i = 0; i < hal.hal_pin_count; i++) {
    printf("%s <= %s = %f\n", hal.hal_pins[i]->name, hal.hal_pins[i]->source->name, hal.hal_pins[i]->source->source->value);
    Wait(1);  //TODO: remove wait...
  }
}

void hal_term_getconf() {
  for(int i = 0; i < hal.hal_pin_count; i++) {
    char name[6];
    strncpy(name, hal.hal_pins[i]->name, 5);
    name[5] = '\0';
    if(!strcmp(name, "conf0")) {
      printf("%s = %f\n", hal.hal_pins[i]->name, hal.hal_pins[i]->value);
    }
  }
}

void hal_term_print_state() {
  switch(hal.hal_state) {
    case HAL2_OK:
      printf("HAL state:  HAL2_OK\n");
      break;
    case RT_TOO_LONG:
      printf("HAL state:  RT_TOO_LONG\n");
      break;
    case FRT_TOO_LONG:
      printf("HAL state:  FRT_TOO_LONG\n");
      break;
    case MISC_ERROR:
      printf("HAL state:  MISC_ERROR\n");
      break;
    case MEM_ERROR:
      printf("HAL state:  MEM_ERROR\n");
      break;
    case CONFIG_LOAD_ERROR:
      printf("HAL state:  CONFIG_LOAD_ERROR\n");
      break;
    case CONFIG_ERROR:
      printf("HAL state:  CONFIG_ERROR\n");
      break;
    case NAN_ERROR:
      printf("HAL state:  NAN_ERROR\n");
      break;
    default:
      printf("HAL state:  unkonwn error\n");
  }
}

void hal_term_print_info() {
  printf("######## hal info ########\n");
  printf("#pins %i\n", hal.hal_pin_count);
  printf("#comps %i\n", hal.comp_count);
  printf("link errors %lu\n", hal.link_errors);
  printf("pin errors %lu\n", hal.pin_errors);
  printf("comp errors %lu\n", hal.comp_errors);
  printf("set errors %lu\n", hal.set_errors);
  printf("get errors %lu\n", hal.get_errors);
  printf("foo0.bar:  %f\n", hal_get_pin("foo0.bar"));
  printf("error_name: %s\n", hal.error_name);
  float pe = hal_get_pin("net0.rt_period");
  float ct = hal_get_pin("net0.rt_calc_time");
  if(pe > 0.0) {
    printf("rt time: %fus/%fus = %f%% @ %fkHz\n", ct * 1000000.0, pe * 1000000.0, (ct / pe) * 100.0, 1.0 / pe / 1000.0);
    //printf("=%f%%\n",(ct/pe)*100);
  }
  pe = hal_get_pin("net0.frt_period");
  ct = hal_get_pin("net0.frt_calc_time");
  if(pe > 0.0) {
    printf("frt time: %fus/%fus = %f%% @ %fkHz\n", ct * 1000000.0, pe * 1000000.0, (ct / pe) * 100.0, 1.0 / pe / 1000.0);
    //printf("=%f%%\n",(ct/pe)*100);
  }
  pe = hal_get_pin("net0.nrt_period");
  ct = hal_get_pin("net0.nrt_calc_time");
  if(pe > 0.0) {
    printf("nrt time: %f/%fs", ct, pe);
    printf("=%f%%\n", (ct / pe) * 100);
  }
  switch(hal.rt_state) {
    case RT_STOP:
      printf("rt state:  STOP\n");
      break;
    case RT_SLEEP:
      printf("rt state:  SLEEP\n");
      break;
    case RT_CALC:
      printf("rt state:  CALC\n");
      break;
  }
  switch(hal.frt_state) {
    case FRT_STOP:
      printf("frt state:  STOP\n");
      break;
    case FRT_SLEEP:
      printf("frt state:  SLEEP\n");
      break;
    case FRT_CALC:
      printf("frt state:  CALC\n");
      break;
  }
  hal_term_print_state();
  uint32_t p = 0;
  int32_t i  = -1;
  char str[HAL_NAME_LENGTH];
  printf("active rt funcs(%u):\n", hal.rt_func_count);
  pe = hal_get_pin("net0.rt_period");
  for(int j = 0; j < hal.rt_func_count; j++) {
    p = (uint32_t)hal.rt[j];
    i = find_comp_by_func(p);
    if(i >= 0) {
      sprintf(str, "%s%lu.rt_calc_time", hal.hal_comps[i]->name, hal.hal_comps[i]->instance);
      ct = hal_get_pin(str);
      printf("-%s%lu.rt(%f) %fus", hal.hal_comps[i]->name, hal.hal_comps[i]->instance, hal.hal_pins[hal.hal_comps[i]->hal_pin_start_index + 2]->source->source->value, ct * 1000000.0f);
      if(ct > 0.0) {
        printf(" = %f%%", (ct / pe) * 100.0);
      }
      printf("\n");
    }
  }
  printf("\nactive frt funcs(%u):\n", hal.frt_func_count);
  pe = hal_get_pin("net0.frt_period");
  for(int j = 0; j < hal.frt_func_count; j++) {
    p = (uint32_t)hal.frt[j];
    i = find_comp_by_func(p);
    if(i >= 0) {
      ct = hal_get_pin(str);
      printf("-%s%lu.frt(%f) %fus", hal.hal_comps[i]->name, hal.hal_comps[i]->instance, hal.hal_pins[hal.hal_comps[i]->hal_pin_start_index + 3]->source->source->value, ct * 1000000.0f);
      if(ct > 0.0) {
        printf(" = %f%%", (ct / pe) * 100.0);
      }
      printf("\n");
    }
  }
  printf("\nactive rt_init funcs(%u):\n", hal.rt_init_func_count);
  for(int j = 0; j < hal.rt_init_func_count; j++) {
    p = (uint32_t)hal.rt_init[j];
    i = find_comp_by_func(p);
    if(i >= 0) {
      printf("-%s%lu.rt_init\n", hal.hal_comps[i]->name, hal.hal_comps[i]->instance);
    }
  }
  printf("\nactive rt_deinit funcs(%u):\n", hal.rt_deinit_func_count);
  for(int j = 0; j < hal.rt_deinit_func_count; j++) {
    p = (uint32_t)hal.rt_deinit[j];
    i = find_comp_by_func(p);
    if(i >= 0) {
      printf("-%s%lu.rt_deinit\n", hal.hal_comps[i]->name, hal.hal_comps[i]->instance);
    }
  }
  printf("\nactive nrt_init funcs(%u):\n", hal.nrt_init_func_count);
  for(int j = 0; j < hal.nrt_init_func_count; j++) {
    p = (uint32_t)hal.nrt_init[j];
    i = find_comp_by_func(p);
    if(i >= 0) {
      printf("-%s%lu.nrt_init\n", hal.hal_comps[i]->name, hal.hal_comps[i]->instance);
    }
  }
  printf("\nactive nrt funcs(%u):\n", hal.nrt_func_count);
  for(int j = 0; j < hal.nrt_func_count; j++) {
    p = (uint32_t)hal.nrt[j];
    i = find_comp_by_func(p);
    if(i >= 0) {
      printf("-%s%lu.nrt\n", hal.hal_comps[i]->name, hal.hal_comps[i]->instance);
    }
  }
  printf("\n");
}