X-Git-Url: http://shamusworld.gotdns.org/cgi-bin/gitweb.cgi?p=rmac;a=blobdiff_plain;f=fltpoint.c;h=7e516fbd360686985aa160bb45f7f38658c6a67a;hp=38bd0b59be21cd829b79cd8146c3d811caf587f3;hb=ace0b549a94110b69ec61442f825fb421b79799a;hpb=29b32d134bc12831a8ddd098bf9aeeda26dcfe7c diff --git a/fltpoint.c b/fltpoint.c index 38bd0b5..7e516fb 100644 --- a/fltpoint.c +++ b/fltpoint.c @@ -2,7 +2,7 @@ // Floating point to IEEE-754 conversion routines // // by James Hammons -// (C) 2018 Underground Software +// (C) 2019 Underground Software // // Since there are no guarantees vis-a-vis floating point numbers in C, we have // to utilize routines like the following in order to guarantee that the thing @@ -14,6 +14,8 @@ #include "fltpoint.h" #include #include +#include +#include "error.h" // // Check for IEEE-754 conformance (C99 compilers should be OK here) @@ -66,13 +68,13 @@ uint32_t FloatToIEEE754(float f) { - uint32_t sign = (f < 0 ? 0x80000000 : 0); + uint32_t sign = (signbit(f) ? 0x80000000 : 0); // Split the float into normalized mantissa (range: (-1, -0.5], 0, // [+0.5, +1)) and base-2 exponent // d = mantissa * (2 ^ exponent) *exactly* for FLT_RADIX=2 // Also, since we want the mantissa to be non-inverted (2's complemented), - // we make sure to pass in a positive number (floats/doubles are not 2's + // we make sure to pass in a positive number (floats/doubles are *not* 2's // complemented) as we already captured the sign bit above. int32_t exponent; float mantissa = frexpf((f < 0 ? -f : f), &exponent); @@ -104,14 +106,14 @@ uint32_t FloatToIEEE754(float f) uint64_t DoubleToIEEE754(double d) { - uint64_t sign = (d < 0 ? 0x8000000000000000LL : 0); + uint64_t sign = (signbit(d) ? 0x8000000000000000LL : 0); int32_t exponent; // Split double into normalized mantissa (range: (-1, -0.5], 0, [+0.5, +1)) // and base-2 exponent // d = mantissa * (2 ^ exponent) *exactly* for FLT_RADIX=2 // Also, since we want the mantissa to be non-inverted (2's complemented), - // we make sure to pass in a positive number (floats/doubles are not 2's + // we make sure to pass in a positive number (floats/doubles are *not* 2's // complemented) as we already captured the sign bit above. double mantissa = frexp((d < 0 ? -d : d), &exponent); @@ -141,9 +143,10 @@ uint64_t DoubleToIEEE754(double d) void DoubleToExtended(double d, uint8_t out[]) { + int8_t sign = (signbit(d) ? 0x80 : 0); int32_t exponent; double mantissa = frexp((d < 0 ? -d : d), &exponent); - exponent += 0x3FFF; + exponent += 0x3FFE; if (d == 0) exponent = 0; @@ -154,7 +157,7 @@ void DoubleToExtended(double d, uint8_t out[]) // Motorola extended floating point is 96 bits, so we pack it into the // 12-byte array that's passed in. The format is as follows: 1 bit (sign), // 15 bits (exponent w/$3FFF bias), 16 bits of zero, 64 bits of mantissa. - out[0] = (d < 0 ? 0x80 : 0x00) | ((exponent >> 8) & 0x7F); + out[0] = sign | ((exponent >> 8) & 0x7F); out[1] = exponent & 0xFF; out[2] = 0; out[3] = 0; @@ -168,3 +171,47 @@ void DoubleToExtended(double d, uint8_t out[]) out[11] = intMant & 0xFF; } + +// +// Convert a double to a DSP56001 style fixed point float. +// Seems to be 23 bits of float value with 1 bit (MSB) for the sign. +// +uint32_t DoubleToDSPFloat(double d) +{ + if (d >= 1) + { + warn("DSP value clamped to +1."); + return 0x7FFFFF; + } + else if (d <= -1) + { + warn("DSP value clamped to -1."); + return 0x800000; + } + + // The casts are here because some compilers do weird shit. See bug #149. + return (uint32_t)((int32_t)trunc(round(ldexp(d, 23)))); +} + + +// +// Convert a host native floating point number to a fixed point number. +// +uint64_t DoubleToFixedPoint(double d, int intBits, int fracBits) +{ + uint8_t signBit = (signbit(d) ? 1 : 0); + + // Ensure what we're working on is positive... + if (d < 0) + d *= -1; + + double scaleFactor = (double)(1 << fracBits); + uint64_t result = (uint64_t)(d * scaleFactor); + + // Invert the result, if necessary + if (signBit == 1) + result = (result = 0xFFFFFFFFFFFFFFFFLL) + 1; + + return result; +} +