mirror of
https://github.com/RobTillaart/Arduino.git
synced 2024-10-03 18:09:02 -04:00
00877f4951
+ added IEEE_INF + version string
274 lines
5.5 KiB
C
274 lines
5.5 KiB
C
//
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// FILE: IEEE754tools.h
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// AUTHOR: Rob Tillaart
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// VERSION: 0.1.01
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// PURPOSE: IEEE754 tools
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//
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// http://playground.arduino.cc//Main/IEEE754tools
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//
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// Released to the public domain
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// not tested, use with care
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//
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// 0.1.01 added IEEE_NAN, IEEE_INF tests + version string
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// 0.1.00 initial version
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#ifndef IEEE754tools_h
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#define IEEE754tools_h
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#if defined(ARDUINO) && ARDUINO >= 100
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#include "Arduino.h"
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#else
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#include "WProgram.h"
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#endif
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#define IEEE754_VERSION "0.1.01"
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// (un)comment lines to configure functionality / size
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//#define IEEE754_ENABLE_MSB // +78 bytes
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#define IEEE754_ENABLE_DUMP
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// IEEE754 float layout;
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struct IEEEfloat
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{
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uint32_t m:23;
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uint8_t e:8;
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uint8_t s:1;
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};
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// IEEE754 double layout;
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struct IEEEdouble
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{
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uint64_t m:52;
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uint16_t e:11;
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uint8_t s:1;
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};
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// Arduino UNO double layout:
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// the UNO has no 64 bit double, it is only able to map 23 bits of the mantisse
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// a filler is added.
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struct _DBL
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{
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uint32_t filler:29;
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uint32_t m:23;
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uint16_t e:11;
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uint8_t s:1;
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};
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// for packing and unpacking a float
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typedef union _FLOATCONV
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{
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IEEEfloat p;
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float f;
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byte b[4];
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} _FLOATCONV;
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// for packing and unpacking a double
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typedef union _DBLCONV
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{
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// IEEEdouble p;
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_DBL p;
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double d; // !! is a 32bit float for UNO.
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byte b[4];
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} _DBLCONV;
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#ifdef IEEE754_ENABLE_DUMP
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// print float components
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void dumpFloat(float number)
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{
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IEEEfloat* x = (IEEEfloat*) ((void*)&number);
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Serial.print(x->s, HEX);
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Serial.print("\t");
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Serial.print(x->e, HEX);
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Serial.print("\t");
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Serial.println(x->m, HEX);
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// Serial.print(" sign: "); Serial.print(x->s);
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// Serial.print(" exp: "); Serial.print(x->e);
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// Serial.print(" mant: "); Serial.println(x->m);
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}
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// print "double" components
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void dumpDBL(struct _DBL dbl)
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{
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Serial.print(dbl.s, HEX);
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Serial.print("\t");
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Serial.print(dbl.e, HEX);
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Serial.print("\t");
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Serial.println(dbl.m, HEX);
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}
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#endif
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//
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// converts a float to a packed array of 8 bytes representing a 64 bit double
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// restriction exponent and mantisse.
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//
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// float; array of 8 bytes; LSBFIRST; MSBFIRST
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//
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void float2DoublePacked(float number, byte* bar, int byteOrder=LSBFIRST)
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{
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_FLOATCONV fl;
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fl.f = number;
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_DBLCONV dbl;
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dbl.p.s = fl.p.s;
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dbl.p.e = fl.p.e-127 +1023; // exponent adjust
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dbl.p.m = fl.p.m;
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#ifdef IEEE754_ENABLE_MSB
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if (byteOrder == LSBFIRST)
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{
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#endif
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for (int i=0; i<8; i++)
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{
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bar[i] = dbl.b[i];
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}
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#ifdef IEEE754_ENABLE_MSB
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}
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else
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{
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for (int i=0; i<8; i++)
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{
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bar[i] = dbl.b[7-i];
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}
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}
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#endif
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}
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// converts a packed array of bytes into a 32bit float.
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// there can be an exponent overflow
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// the mantisse is truncated to 23 bits.
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float doublePacked2Float(byte* bar, int byteOrder=LSBFIRST)
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{
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_FLOATCONV fl;
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_DBLCONV dbl;
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#ifdef IEEE754_ENABLE_MSB
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if (byteOrder == LSBFIRST)
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{
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#endif
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for (int i=0; i<8; i++)
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{
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dbl.b[i] = bar[i];
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}
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#ifdef IEEE754_ENABLE_MSB
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}
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else
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{
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for (int i=0; i<8; i++)
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{
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dbl.b[i] = bar[7-i];
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}
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}
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#endif
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int e = dbl.p.e-1023+127; // exponent adjust
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// TODO check exponent overflow.
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if (e >=0 || e <= 255)
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{
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fl.p.s = dbl.p.s;
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fl.p.e = e;
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fl.p.m = dbl.p.m; // note this one clips the mantisse
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}
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else fl.f = NAN;
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return fl.f;
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}
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// ~1.7x faster
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int IEEE_NAN(float number)
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{
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return (* ((uint16_t*) &number + 1) ) == 0x7FC0;
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}
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// ~3.4x faster
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int IEEE_INF(float number)
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{
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uint8_t* x = ((uint8_t*) &number);
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if (*(x+2) != 0x80) return 0;
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if (*(x+3) == 0x7F) return 1;
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if (*(x+3) == 0xFF) return -1;
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return 0;
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}
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// for the real speed freaks, the next two
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bool IEEE_PosINF(float number)
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{
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return (* ((uint16_t*) &number + 1) ) == 0x7F80;
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}
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bool IEEE_NegINF(float number)
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{
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return (* ((uint16_t*) &number + 1) ) == 0xFF80;
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}
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// WARNING no overflow detection in the SHIFT (factor 3.5)
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float IEEE_SHIFT_LEFT(float number, uint8_t n)
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{
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_FLOATCONV fl;
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fl.f = number;
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fl.p.e += n;
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return fl.f;
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}
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float IEEE_SHIFT_RIGHT(float number, uint8_t n)
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{
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_FLOATCONV fl;
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fl.f = number;
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fl.p.e -= n;
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return fl.f;
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}
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//
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// NOT TESTED FUNCTIONS
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//
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uint8_t getSign(float number)
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{
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IEEEfloat* x = (IEEEfloat*) ((void*)&number);
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return x->s;
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}
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int getExponent(float number)
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{
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IEEEfloat* x = (IEEEfloat*) ((void*)&number);
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return x->e - 127;
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}
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uint32_t getMantisse(float number)
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{
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IEEEfloat* x = (IEEEfloat*) ((void*)&number);
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return x->m;
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}
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/*
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// ONELINERS to speed up some specific 32 bit float math
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// *(((byte*) &number)+3) &= 0x7F; // number == fabs(number);
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// x = *(((byte*) &number)+3) & 0x7F; // x = fabs(number);
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// GAIN = factor 2
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// *(((byte*) &number)+3) |= 0x80; // number == fabs(number);
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// x = *(((byte*) &number)+3) | 0x80; // x == -fabs(number);
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// GAIN = factor 2
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// *(((byte*) &number)+3) ^= 0x80; // number = -number;
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// x = *(((byte*) &number)+3) ^ 0x80; // x = -number;
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// GAIN = factor 2
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// s = *(((uint8_t*) &number)+3) & 0x80; // s = sign(number);
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// if ( *(((byte*) &number)+3) & 0x80) x=2; // if (number < 0) x=2;
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// GAIN = factor 5
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int getExponent(float number)
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{
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uint8_t e = (*(((uint8_t*) &number)+3) & 0x7F) << 1;
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if (*(((uint8_t*) &number)+2) & 0x80) e++;
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return e;
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}
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*/
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#endif
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// END OF FILE
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