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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 s390x
import (
"math/bits"
)
// RotateParams represents the immediates required for a "rotate
// then ... selected bits instruction".
//
// The Start and End values are the indexes that represent
// the masked region. They are inclusive and are in big-
// endian order (bit 0 is the MSB, bit 63 is the LSB). They
// may wrap around.
//
// Some examples:
//
// Masked region | Start | End
// --------------------------+-------+----
// 0x00_00_00_00_00_00_00_0f | 60 | 63
// 0xf0_00_00_00_00_00_00_00 | 0 | 3
// 0xf0_00_00_00_00_00_00_0f | 60 | 3
//
// The Amount value represents the amount to rotate the
// input left by. Note that this rotation is performed
// before the masked region is used.
type RotateParams struct {
Start uint8 // big-endian start bit index [0..63]
End uint8 // big-endian end bit index [0..63]
Amount uint8 // amount to rotate left
}
// NewRotateParams creates a set of parameters representing a
// rotation left by the amount provided and a selection of the bits
// between the provided start and end indexes (inclusive).
//
// The start and end indexes and the rotation amount must all
// be in the range 0-63 inclusive or this function will panic.
func NewRotateParams(start, end, amount uint8) RotateParams {
if start&^63 != 0 {
panic("start out of bounds")
}
if end&^63 != 0 {
panic("end out of bounds")
}
if amount&^63 != 0 {
panic("amount out of bounds")
}
return RotateParams{
Start: start,
End: end,
Amount: amount,
}
}
// RotateLeft generates a new set of parameters with the rotation amount
// increased by the given value. The selected bits are left unchanged.
func (r RotateParams) RotateLeft(amount uint8) RotateParams {
r.Amount += amount
r.Amount &= 63
return r
}
// OutMask provides a mask representing the selected bits.
func (r RotateParams) OutMask() uint64 {
// Note: z must be unsigned for bootstrap compiler
z := uint8(63-r.End+r.Start) & 63 // number of zero bits in mask
return bits.RotateLeft64(^uint64(0)<<z, -int(r.Start))
}
// InMask provides a mask representing the selected bits relative
// to the source value (i.e. pre-rotation).
func (r RotateParams) InMask() uint64 {
return bits.RotateLeft64(r.OutMask(), -int(r.Amount))
}
// OutMerge tries to generate a new set of parameters representing
// the intersection between the selected bits and the provided mask.
// If the intersection is unrepresentable (0 or not contiguous) nil
// will be returned.
func (r RotateParams) OutMerge(mask uint64) *RotateParams {
mask &= r.OutMask()
if mask == 0 {
return nil
}
// normalize the mask so that the set bits are left aligned
o := bits.LeadingZeros64(^mask)
mask = bits.RotateLeft64(mask, o)
z := bits.LeadingZeros64(mask)
mask = bits.RotateLeft64(mask, z)
// check that the normalized mask is contiguous
l := bits.LeadingZeros64(^mask)
if l+bits.TrailingZeros64(mask) != 64 {
return nil
}
// update start and end positions (rotation amount remains the same)
r.Start = uint8(o+z) & 63
r.End = (r.Start + uint8(l) - 1) & 63
return &r
}
// InMerge tries to generate a new set of parameters representing
// the intersection between the selected bits and the provided mask
// as applied to the source value (i.e. pre-rotation).
// If the intersection is unrepresentable (0 or not contiguous) nil
// will be returned.
func (r RotateParams) InMerge(mask uint64) *RotateParams {
return r.OutMerge(bits.RotateLeft64(mask, int(r.Amount)))
}
func (RotateParams) CanBeAnSSAAux() {}