#pragma once // // FILE: printHelpers.h // AUTHOR: Rob Tillaart // DATE: 2018-01-21 // VERSION: 0.4.3 // PUPROSE: Arduino library to help formatting for printing. // URL: https://github.com/RobTillaart/printHelpers #include "Arduino.h" #include "stdlib.h" #define PRINTHELPERS_VERSION (F("0.4.3")) // global buffer used by all functions so no static buffer in every function // is needed ==> results need to be printed/copied asap // not usable in multi-threading environments (use with care) // // 24 is a pretty safe minimum // #ifndef PRINTBUFFERSIZE #define PRINTBUFFERSIZE 66 #endif //////////////////////////////////////////////////////////// // // print64() // // print64 note // buffer size 66 will work for base 2 -36 // buffer size 34 will work for base 4 -36 // buffer size 24 will work for base 8 -36 // buffer size 22 will work for base 10 - 36 char * print64(int64_t value, uint8_t base = 10); char * print64(uint64_t value, uint8_t base = 10); //////////////////////////////////////////////////////////// // // Scientific + Engineering notation // // typical buffer size for 8 byte double is 22 bytes // 15 bytes mantissa, sign dot E-xxx // em = exponentMultiple. char * scieng(double value, uint8_t decimals, uint8_t em); char * eng(double value, uint8_t decimals); // em == 3 char * sci(double value, uint8_t decimals); // em == 1 size_t sci(Stream &str, double value, uint8_t decimals); //////////////////////////////////////////////////////////// // // toBytes() // // official support to UDA == 1024^12 // kilo mega giga tera peta exa (1024^6) // zetta yotta xona weka vunda uda (1024^12) // // (treda Byte == TDB is the next one and it is 2 char // so code wise difficult and as it is seldom used, support stops there. // // To have some support the code uses lowercase for the next 8 levels // treda sorta rinta quexa pepta ocha nena minga luma (1024 ^21 ~~ 10^63) char * toBytes(double value, uint8_t decimals = 2); //////////////////////////////////////////////////////////// // // hex() // // always leading zero's - no prefix - no separators // cast if needed. char * hex(uint64_t value, uint8_t digits = 16); char * hex(uint32_t value, uint8_t digits = 8); char * hex(uint16_t value, uint8_t digits = 4); char * hex(uint8_t value, uint8_t digits = 2); //////////////////////////////////////////////////////////// // // BIN // // always leading zero's - no prefix - no separators // cast if needed. char * bin(uint64_t value, uint8_t digits = 64); char * bin(uint32_t value, uint8_t digits = 32); char * bin(uint16_t value, uint8_t digits = 16); char * bin(uint8_t value, uint8_t digits = 8); //////////////////////////////////////////////////////////// // // toRoman() // // value should be in range 1..9999 // values 10K-100M are experimental in lower case (see readme.md) char * toRoman(uint32_t value); //////////////////////////////////////////////////////////// // // Distances // Experimental // // step == 2,4,8,16,32,64,128,256 (default 16) char * printInch(float inch, uint16_t step = 16); char * printFeet(float feet); //////////////////////////////////////////////////////////// // // Comma Separated Integers // Experimental // char * csi(int64_t n); char * csi(int32_t n); char * csi(int16_t n); char * csi(int8_t n); char * csi(uint64_t n); char * csi(uint32_t n); char * csi(uint16_t n); char * csi(uint8_t n); // -- END OF FILE --