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// Copyright 2019 The Go Authors. All rights reserved. // Use of this source code is governed by a BSD-style // license that can be found in the LICENSE file. package math import "math/bits" func zero(x uint64) uint64 { if x == 0 { return 1 } return 0 // branchless: // return ((x>>1 | x&1) - 1) >> 63 } func nonzero(x uint64) uint64 { if x != 0 { return 1 } return 0 // branchless: // return 1 - ((x>>1|x&1)-1)>>63 } func shl(u1, u2 uint64, n uint) (r1, r2 uint64) { r1 = u1<>(64-n) | u2<<(n-64) r2 = u2 << n return } func shr(u1, u2 uint64, n uint) (r1, r2 uint64) { r2 = u2>>n | u1<<(64-n) | u1>>(n-64) r1 = u1 >> n return } // shrcompress compresses the bottom n+1 bits of the two-word // value into a single bit. the result is equal to the value // shifted to the right by n, except the result's 0th bit is // set to the bitwise OR of the bottom n+1 bits. func shrcompress(u1, u2 uint64, n uint) (r1, r2 uint64) { // TODO: Performance here is really sensitive to the // order/placement of these branches. n == 0 is common // enough to be in the fast path. Perhaps more measurement // needs to be done to find the optimal order/placement? switch { case n == 0: return u1, u2 case n == 64: return 0, u1 | nonzero(u2) case n >= 128: return 0, nonzero(u1 | u2) case n < 64: r1, r2 = shr(u1, u2, n) r2 |= nonzero(u2 & (1<> 63) exp = int32(b>>52) & mask mantissa = b & fracMask if exp == 0 { // Normalize value if subnormal. shift := uint(bits.LeadingZeros64(mantissa) - 11) mantissa <<= shift exp = 1 - int32(shift) } else { // Add implicit 1 bit mantissa |= 1 << 52 } return } // FMA returns x * y + z, computed with only one rounding. // (That is, FMA returns the fused multiply-add of x, y, and z.) func FMA(x, y, z float64) float64 { bx, by, bz := Float64bits(x), Float64bits(y), Float64bits(z) // Inf or NaN or zero involved. At most one rounding will occur. if x == 0.0 || y == 0.0 || z == 0.0 || bx&uvinf == uvinf || by&uvinf == uvinf { return x*y + z } // Handle non-finite z separately. Evaluating x*y+z where // x and y are finite, but z is infinite, should always result in z. if bz&uvinf == uvinf { return z } // Inputs are (sub)normal. // Split x, y, z into sign, exponent, mantissa. xs, xe, xm := split(bx) ys, ye, ym := split(by) zs, ze, zm := split(bz) // Compute product p = x*y as sign, exponent, two-word mantissa. // Start with exponent. "is normal" bit isn't subtracted yet. pe := xe + ye - bias + 1 // pm1:pm2 is the double-word mantissa for the product p. // Shift left to leave top bit in product. Effectively // shifts the 106-bit product to the left by 21. pm1, pm2 := bits.Mul64(xm<<10, ym<<11) zm1, zm2 := zm<<10, uint64(0) ps := xs ^ ys // product sign // normalize to 62nd bit is62zero := uint((^pm1 >> 62) & 1) pm1, pm2 = shl(pm1, pm2, is62zero) pe -= int32(is62zero) // Swap addition operands so |p| >= |z| if pe < ze || pe == ze && pm1 < zm1 { ps, pe, pm1, pm2, zs, ze, zm1, zm2 = zs, ze, zm1, zm2, ps, pe, pm1, pm2 } // Special case: if p == -z the result is always +0 since neither operand is zero. if ps != zs && pe == ze && pm1 == zm1 && pm2 == zm2 { return 0 } // Align significands zm1, zm2 = shrcompress(zm1, zm2, uint(pe-ze)) // Compute resulting significands, normalizing if necessary. var m, c uint64 if ps == zs { // Adding (pm1:pm2) + (zm1:zm2) pm2, c = bits.Add64(pm2, zm2, 0) pm1, _ = bits.Add64(pm1, zm1, c) pe -= int32(^pm1 >> 63) pm1, m = shrcompress(pm1, pm2, uint(64+pm1>>63)) } else { // Subtracting (pm1:pm2) - (zm1:zm2) // TODO: should we special-case cancellation? pm2, c = bits.Sub64(pm2, zm2, 0) pm1, _ = bits.Sub64(pm1, zm1, c) nz := lz(pm1, pm2) pe -= nz m, pm2 = shl(pm1, pm2, uint(nz-1)) m |= nonzero(pm2) } // Round and break ties to even if pe > 1022+bias || pe == 1022+bias && (m+1<<9)>>63 == 1 { // rounded value overflows exponent range return Float64frombits(uint64(ps)<<63 | uvinf) } if pe < 0 { n := uint(-pe) m = m>>n | nonzero(m&(1<> 10) & ^zero((m&(1<<10-1))^1<<9) pe &= -int32(nonzero(m)) return Float64frombits(uint64(ps)<<63 + uint64(pe)<<52 + m) }