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TimeOBJ.cpp
251 lines (228 loc) · 11.5 KB
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TimeOBJ.cpp
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/*
* TimeOBJ.cpp
* CREATED on TUESDAY 16 AUGUST 2018
* by CHANSIGAUD YANN
*/
#if (ARDUINO < 100)
#include <WProgram.h>
#else
#include <Arduino.h>
#endif
#include <inttypes.h>
#include "TimeOBJ.h"
TimeOBJ::TimeOBJ(){ reset(); }
uint16_t &TimeOBJ::operator[]( byte type ){
if( type > 6 ){ return( TimeTab[6] ); }
else{ return( TimeTab[type] ); }
}
TimeOBJ &TimeOBJ::operator+( const TimeOBJ &TimeToAdd ){ static TimeOBJ objTemp = TimeOBJ(); for( byte i=0 ; i<7 ; i++ ){ objTemp.TimeTab[i] = TimeTab[i] + TimeToAdd[i]; } return( objTemp ); }
TimeOBJ &TimeOBJ::operator-( const TimeOBJ &TimeToSub ){ static TimeOBJ objTemp = TimeOBJ(); for( byte i=0 ; i<7 ; i++ ){ objTemp.TimeTab[i] = TimeTab[i] - TimeToSub[i]; } return( objTemp ); }
TimeOBJ &TimeOBJ::operator+( uint32_t val ){
timeToSplit = val; typeToSplit = MILLI; split();
static TimeOBJ objTemp = TimeOBJ();
for( byte i=0 ; i<7 ; i++ ){
objTemp.TimeTab[i] = TimeTab[i] + splitTab[i];
}
return( objTemp );
}
TimeOBJ &TimeOBJ::operator-( uint32_t val ){
timeToSplit = val; typeToSplit = MILLI; split();
static TimeOBJ objTemp = TimeOBJ();
for( byte i=0 ; i<7 ; i++ ){
objTemp.TimeTab[i] = TimeTab[i] + splitTab[i];
}
return( objTemp );
}
bool TimeOBJ::operator==( uint32_t val ){
timeToSplit = val;
typeToSplit = MILLI;
split();
byte A=0;
for( byte i=0 ; i<7 ; i++ ){
if( TimeTab[i] != splitTab[i] ){ A++; }
}
if( A>0 ){ return( false ); }
else{ return( true ); }
}
void TimeOBJ::operator=( uint32_t val ){ reset(); add( val, MILLI ); }
void TimeOBJ::operator+=( uint32_t val ){ add( val, MILLI ); }
void TimeOBJ::operator-=( uint32_t val ){ sub( val, MILLI ); }
bool TimeOBJ::operator>=( uint32_t val ){ return( !(*this<val) ); }
bool TimeOBJ::operator<=( uint32_t val ){ return( !(*this>val) ); }
bool TimeOBJ::operator==( const TimeOBJ &TimeToCompare ){
byte A=0;
for( byte i=0 ; i<7 ; i++ ){
if( TimeTab[i] != TimeToCompare[i] ){ A++; }
}
if( A>0 ){ return( false ); }
else{ return( true ); }
}
void TimeOBJ::operator=( const TimeOBJ &TimeToSetTo ){ for( byte i=0 ; i<7 ; i++ ){ TimeTab[i] = TimeToSetTo[i]; } }
void TimeOBJ::operator+=( const TimeOBJ &TimeToAdd ){ for( byte i=0 ; i<7 ; i++ ){ splitTab[i] = TimeToAdd.TimeTab[i]; } add(); }
void TimeOBJ::operator-=( const TimeOBJ &TimeToSub ){ for( byte i=0 ; i<7 ; i++ ){ splitTab[i] = TimeToSub.TimeTab[i]; } sub(); }
bool TimeOBJ::operator>=( const TimeOBJ &TimeToCompare ){ return( !(*this<TimeToCompare) ); }
bool TimeOBJ::operator<=( const TimeOBJ &TimeToCompare ){ return( !(*this>TimeToCompare) ); }
bool TimeOBJ::operator!=( uint32_t val ){
return( !(*this==val) );
}
bool TimeOBJ::operator!=( const TimeOBJ &TimeToCompare ){
return( !(*this==TimeToCompare) );
}
bool TimeOBJ::operator>( uint32_t val ){
timeToSplit = val;
typeToSplit = MILLI;
split();
byte A=0;
byte B=0;
for( byte i=0 ; i<7 ; i++ ){
if( TimeTab[6-i] > splitTab[6-i] ){ A = i; }
else if( TimeTab[6-i] < splitTab[6-i] ){ B = i; }
}
if( A>B ){ return( true ); }
else{ return( false ); }
}
bool TimeOBJ::operator<( uint32_t val ){
timeToSplit = val;
typeToSplit = MILLI;
split();
byte A=0;
byte B=0;
for( byte i=0 ; i<7 ; i++ ){
if( TimeTab[6-i] > splitTab[6-i] ){ A = i; }
else if( TimeTab[6-i] < splitTab[6-i] ){ B = i; }
}
if( A<B ){ return( true ); }
else{ return( false ); }
}
bool TimeOBJ::operator>( const TimeOBJ &TimeToCompare ){
byte A=0;
byte B=0;
for( byte i=0 ; i<7 ; i++ ){
if( TimeTab[6-i] > TimeToCompare[6-i] ){ A = i; }
else if( TimeTab[6-i] < TimeToCompare[6-i] ) { B = i; }
}
if( A>B ){ return( true ); }
else{ return( false ); }
}
bool TimeOBJ::operator<( const TimeOBJ &TimeToCompare ){
byte A=0;
byte B=0;
for( byte i=0 ; i<7 ; i++ ){
if( TimeTab[6-i] > TimeToCompare[6-i] ){ A = i; }
else if( TimeTab[6-i] < TimeToCompare[6-i] ) { B = i; }
}
if( A<B ){ return( true ); }
else{ return( false ); }
}
void TimeOBJ::add( uint32_t T, byte type ){
timeToSplit = T;
typeToSplit = type;
split();
add();
}
void TimeOBJ::sub( uint32_t T, byte type ){
timeToSplit = T;
typeToSplit = type;
split();
sub();
}
void TimeOBJ::split(){
if( typeToSplit < MILLI ){ timeToSplit &= 0xFFFF; }
byte first = 0;
byte last = 0;
diviseur = 1;
switch( typeToSplit ){
case YEAR :{ first = YEAR; last = YEAR; break; }
case DAY :{ first = YEAR; last = DAY; break; }
case HOUR :{ first = YEAR; last = HOUR; break; }
case MINUTE :{ first = DAY; last = MINUTE; break; }
case SECONDE :{ first = HOUR; last = SECONDE; break; }
case MILLI :{ first = DAY; last = MILLI; break; }
case MICRO :{ first = HOUR; last = MICRO; break; }
}
div_calculator( first, last );
switch( first ){
case YEAR :{ div_eucli( YEAR ); if( last == YEAR ){ break; } }
case DAY :{ div_eucli( DAY ); if( last == DAY ){ break; } }
case HOUR :{ div_eucli( HOUR ); if( last == HOUR ){ break; } }
case MINUTE :{ div_eucli( MINUTE ); if( last == MINUTE ){ break; } }
case SECONDE :{ div_eucli( SECONDE ); if( last == SECONDE ){ break; } }
case MILLI :{ div_eucli( MILLI ); if( last == MILLI ){ break; } }
case MICRO :{ div_eucli( MICRO ); if( last == MICRO ){ break; } }
}
}
void TimeOBJ::print(){
//Serial.print( "TimeTab : " );
Serial.print( TimeTab[YEAR] ); Serial.print( "y " );
Serial.print( TimeTab[DAY] ); Serial.print( "d " );
Serial.print( TimeTab[HOUR] ); Serial.print( "h " );
Serial.print( TimeTab[MINUTE] ); Serial.print( "m " );
Serial.print( TimeTab[SECONDE] ); Serial.print( "s " );
Serial.print( TimeTab[MILLI] ); Serial.print( "ms " );
Serial.print( TimeTab[MICRO] ); Serial.print( "us " );
Serial.println();
/*
Serial.print( "splitTab : " );
Serial.print( splitTab[YEAR] ); Serial.print( "y " );
Serial.print( splitTab[DAY] ); Serial.print( "d " );
Serial.print( splitTab[HOUR] ); Serial.print( "h " );
Serial.print( splitTab[MINUTE] ); Serial.print( "m " );
Serial.print( splitTab[SECONDE] ); Serial.print( "s " );
Serial.print( splitTab[MILLI] ); Serial.print( "m " );
Serial.print( splitTab[MICRO] ); Serial.print( "u " );
Serial.println();
*/
}
void TimeOBJ::get( uint16_t *Y, uint16_t *D, uint16_t *H, uint16_t *M, uint16_t *S, uint16_t *MS, uint16_t *US ){
*Y = TimeTab[YEAR]; *D = TimeTab[DAY]; *H = TimeTab[HOUR]; *M = TimeTab[MINUTE]; *S = TimeTab[SECONDE]; *MS = TimeTab[MILLI]; *US = TimeTab[MICRO];
}
void TimeOBJ::add(){ // Add step by step splitTab to timeTab
for( byte i=0 ; i<7 ; i++ ){ //
TimeTab[6-i] += splitTab[6-i] ; // Add one value
if( TimeTab[6-i] >= maxiTab[6-i] ){ // EXAMPLE : minutes has a maximum ex : maxi = 60
TimeTab[6-(i+1)] ++; // IF maximum is overpass ex : M = 65
TimeTab[6-i] -= maxiTab[6-i]; // Increase the next step ex : H = H + 1
} // Decrease this step by maximum ex : M = 65-60 = 5
splitTab[6-i] = 0; // resetting this splitTab value
} //
} //
void TimeOBJ::sub(){ // Substract step by step splitTab to timeTab
for( byte i=0 ; i<7 ; i++ ){ //
if( splitTab[6-i] > TimeTab[6-i] ){ // If sub value is bigger than time
TimeTab[6-i] = (maxiTab[6-i] - splitTab[6-i]) + TimeTab[6-i]; // include corresponding maximum
splitTab[6-(i+1)] ++; // increase the next value to substract
} //
else{ // If not
TimeTab[6-i] -= splitTab[6-i]; // just substract split to time
} //
splitTab[6-i] = 0; // resseting this splitTab value
} //
} //
void TimeOBJ::reset(){ // RESET all tabs to zero
for( byte i=0 ; i<7 ; i++ ){ //
TimeTab[i] = 0; //
splitTab[i] = 0; //
} //
} //
void TimeOBJ::div_eucli( byte type ){ // SEQUENTIAL DIVISION by type
/*
Serial.print( "div_eucli =" ); Serial.println( type) ;
Serial.print( "timeToSplit =" ); Serial.println( timeToSplit );
Serial.print( "diviseur =" ); Serial.println( diviseur );
*/
splitTab[ type ] = timeToSplit / diviseur ; // quotient to corresponding split value
timeToSplit -= splitTab[ type ] * diviseur; // timeToSplit updated
diviseur /= maxiTab[type+1]; // divisor updated corresponding to the next division
} //
void TimeOBJ::div_calculator( byte first, byte last ){
diviseur = 1;
switch( first ){
case YEAR :{ diviseur *= maxiTab[DAY]; if( last == DAY ){ break; } }
case DAY :{ diviseur *= maxiTab[HOUR]; if( last == HOUR ){ break; } }
case HOUR :{ diviseur *= maxiTab[MINUTE]; if( last == MINUTE ){ break; } }
case MINUTE :{ diviseur *= maxiTab[SECONDE]; if( last == SECONDE ){ break; } }
case SECONDE :{ diviseur *= maxiTab[MILLI]; if( last == MILLI ){ break; } }
case MILLI :{ diviseur *= maxiTab[MICRO]; if( last == MICRO ){ break; } }
case MICRO :{ diviseur *= 1; if( last == MICRO ){ break; } }
}
}