X-Git-Url: https://git.sesse.net/?p=movit;a=blobdiff_plain;f=fp16.h;h=56a5607c5886b07cb3a38af711d48087c4565ab0;hp=5f71fec593d8924deaee981a6aa3100d035171c1;hb=425d68dcbdd681ad3157000360521e8f36eb6c4c;hpb=919101c59390dbbe380af7cc77102819e515a632

diff --git a/fp16.h b/fp16.h
index 5f71fec..56a5607 100644
--- a/fp16.h
+++ b/fp16.h
@@ -44,8 +44,79 @@ static inline fp16_int_t fp32_to_fp16(float x)
 
 #else
 
-float fp16_to_fp32(fp16_int_t x);
-fp16_int_t fp32_to_fp16(float x);
+union fp32 {
+	float f;
+	unsigned int u;
+};
+
+static inline float fp16_to_fp32(fp16_int_t h)
+{
+	fp32 magic; magic.u = 113 << 23;
+	unsigned int shifted_exp = 0x7c00 << 13;  // exponent mask after shift
+	fp32 o;
+
+	// mantissa+exponent
+	unsigned int shifted = (h.val & 0x7fff) << 13;
+	unsigned int exponent = shifted & shifted_exp;
+
+	// exponent cases
+	o.u = shifted;
+	if (exponent == 0) {  // Zero / Denormal
+		o.u += magic.u;
+		o.f -= magic.f;
+	} else if (exponent == shifted_exp) {  // Inf/NaN
+		o.u += (255 - 31) << 23;
+	} else {
+		o.u += (127 - 15) << 23;
+	}
+
+	o.u |= (h.val & 0x8000) << 16;  // copy sign bit
+	return o.f;
+}
+
+static inline fp16_int_t fp32_to_fp16(float x)
+{
+	fp32 f; f.f = x;
+	unsigned int f32infty = 255 << 23;
+	unsigned int f16max = (127 + 16) << 23;
+	fp32 denorm_magic; denorm_magic.u = ((127 - 15) + (23 - 10) + 1) << 23;
+	unsigned int sign_mask = 0x80000000u;
+	fp16_int_t o = { 0 };
+
+	unsigned int sign = f.u & sign_mask;
+	f.u ^= sign;
+
+	// NOTE all the integer compares in this function can be safely
+	// compiled into signed compares since all operands are below
+	// 0x80000000. Important if you want fast straight SSE2 code
+	// (since there's no unsigned PCMPGTD).
+
+	if (f.u >= f16max) {  // result is Inf or NaN (all exponent bits set)
+		o.val = (f.u > f32infty) ? 0x7e00 : 0x7c00; // NaN->qNaN and Inf->Inf
+	} else {  // (De)normalized number or zero
+		if (f.u < (113 << 23)) {  // resulting FP16 is subnormal or zero
+			// use a magic value to align our 10 mantissa bits at the bottom of
+			// the float. as long as FP addition is round-to-nearest-even this
+			// just works.
+			f.f += denorm_magic.f;
+
+			// and one integer subtract of the bias later, we have our final float!
+			o.val = f.u - denorm_magic.u;
+		} else {
+			unsigned int mant_odd = (f.u >> 13) & 1; // resulting mantissa is odd
+
+			// update exponent, rounding bias part 1
+			f.u += ((15 - 127) << 23) + 0xfff;
+			// rounding bias part 2
+			f.u += mant_odd;
+			// take the bits!
+			o.val = f.u >> 13;
+		}
+	}
+
+	o.val |= sign >> 16;
+	return o;
+}
 
 #endif