/* * Squeezelite for esp32 * * (c) Sebastien 2019 * Philippe G. 2019, philippe_44@outlook.com * * This software is released under the MIT License. * https://opensource.org/licenses/MIT * */ #pragma once #include "sys/time.h" #define PERF_MAX LONG_MAX #define MIN_MAX_VAL(x) x==PERF_MAX?0:x #define CURR_SAMPLE_RATE output.current_sample_rate>0?output.current_sample_rate:1 #define FRAMES_TO_MS(f) (uint32_t)f*(uint32_t)1000/(uint32_t)(CURR_SAMPLE_RATE) #ifdef BYTES_TO_FRAME #define BYTES_TO_MS(b) FRAMES_TO_MS(BYTES_TO_FRAME(b)) #else #define BYTES_TO_MS(b) FRAMES_TO_MS(b/BYTES_PER_FRAME) #endif #define SET_MIN_MAX(val,var) var=val; if(varmax_##var) max_##var=var; count_##var++; avgtot_##var+= var #define SET_MIN_MAX_SIZED(val,var,siz) var=val; if(varmax_##var) max_##var=var; count_##var++; avgtot_##var+= var;size_##var=siz #define RESET_MIN_MAX(var) min_##var=PERF_MAX; max_##var=0; avgtot_##var=0;count_##var=0;var=0;size_##var=0 #define RESET_MIN_MAX_DURATION(var) min_##var=PERF_MAX; max_##var=0; avgtot_##var=0;count_##var=0;var=0 #define DECLARE_MIN_MAX(var) static uint32_t min_##var = PERF_MAX, max_##var = 0, size_##var = 0, count_##var=0;static uint64_t avgtot_##var = 0; static uint32_t var=0 #define DECLARE_MIN_MAX_DURATION(var) static uint32_t min_##var = PERF_MAX, max_##var = 0, count_##var=0; uint64_t avgtot_##var = 0; uint32_t var=0 #define LINE_MIN_MAX_AVG(var) (uint32_t)(count_##var>0?avgtot_##var/count_##var:0) #define LINE_MIN_MAX_FORMAT_HEAD1 " +----------+----------+----------------+-----+----------------+" #define LINE_MIN_MAX_FORMAT_HEAD2 " | max | min | average | | count |" #define LINE_MIN_MAX_FORMAT_HEAD3 " | (bytes) | (bytes) | (bytes) | | |" #define LINE_MIN_MAX_FORMAT_HEAD4 " +----------+----------+----------------+-----+----------------+" #define LINE_MIN_MAX_FORMAT_FOOTER " +----------+----------+----------------+-----+----------------+" #define LINE_MIN_MAX_FORMAT "%14s|%10u|%10u|%16u|%5u|%16u|" #define LINE_MIN_MAX(name,var) name,\ MIN_MAX_VAL(max_##var),\ MIN_MAX_VAL(min_##var),\ LINE_MIN_MAX_AVG(var),\ size_##var!=0?100*LINE_MIN_MAX_AVG(var)/size_##var:0,\ count_##var #define LINE_MIN_MAX_FORMAT_STREAM "%14s|%10u|%10u|%16u|%5u|%16u|" #define LINE_MIN_MAX_STREAM(name,var) name,\ MIN_MAX_VAL(max_##var),\ MIN_MAX_VAL(min_##var),\ LINE_MIN_MAX_AVG(var),\ size_##var!=0?100*LINE_MIN_MAX_AVG(var)/size_##var:0,\ count_##var #define LINE_MIN_MAX_DURATION_FORMAT "%14s%10u|%10u|%11u|%11u|" #define LINE_MIN_MAX_DURATION(name,var) name,MIN_MAX_VAL(max_##var),MIN_MAX_VAL(min_##var), LINE_MIN_MAX_AVG(var), count_##var #define TIME_MEASUREMENT_START(x) x=esp_timer_get_time() #define TIME_MEASUREMENT_GET(x) (esp_timer_get_time()-x) #define TIMED_SECTION_START_MS_FORCE(x,force) if(hasTimeElapsed(x,force)) { #define TIMED_SECTION_START_MS(x) if(hasTimeElapsed(x,false)){ #define TIMED_SECTION_START_FORCE(x,force) TIMED_SECTION_START_MS(x * 1000UL,force) #define TIMED_SECTION_START(x) TIMED_SECTION_START_MS(x * 1000UL) #define TIMED_SECTION_END } static inline bool hasTimeElapsed(time_t delayMS, bool bforce) { static time_t lastTime=0; struct timeval tv; gettimeofday(&tv, NULL); if (lastTime <= tv.tv_sec * 1000 + tv.tv_usec / 1000 ||bforce) { lastTime = tv.tv_sec * 1000 + tv.tv_usec / 1000 + delayMS; return true; } else return false; }