ppc64/ppc64asm/field.go - arch - Git at Google

 // Copyright 2014 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 ppc64asm

 import (
 	"fmt"
 	"strings"
 )

 // A BitField is a bit-field in a 32-bit word.
 // Bits are counted from 0 from the MSB to 31 as the LSB.
 type BitField struct {
 	Offs uint8 // the offset of the left-most bit.
 	Bits uint8 // length in bits.
 }

 func (b BitField) String() string {
 	if b.Bits > 1 {
 		return fmt.Sprintf("[%d:%d]", b.Offs, int(b.Offs+b.Bits)-1)
 	} else if b.Bits == 1 {
 		return fmt.Sprintf("[%d]", b.Offs)
 	} else {
 		return fmt.Sprintf("[%d, len=0]", b.Offs)
 	}
 }

 // Parse extracts the bitfield b from i, and return it as an unsigned integer.
 // Parse will panic if b is invalid.
 func (b BitField) Parse(i uint32) uint32 {
 	if b.Bits > 32 || b.Bits == 0 || b.Offs > 31 || b.Offs+b.Bits > 32 {
 		panic(fmt.Sprintf("invalid bitfiled %v", b))
 	}
 	return (i >> (32 - b.Offs - b.Bits)) & ((1 << b.Bits) - 1)
 }

 // ParseSigned extracts the bitfield b from i, and return it as a signed integer.
 // ParseSigned will panic if b is invalid.
 func (b BitField) ParseSigned(i uint32) int32 {
 	u := int32(b.Parse(i))
 	return u << (32 - b.Bits) >> (32 - b.Bits)
 }

 // BitFields is a series of BitFields representing a single number.
 type BitFields []BitField

 func (bs BitFields) String() string {
 	ss := make([]string, len(bs))
 	for i, bf := range bs {
 		ss[i] = bf.String()
 	}
 	return fmt.Sprintf("<%s>", strings.Join(ss, "|"))
 }

 func (bs *BitFields) Append(b BitField) {
 	*bs = append(*bs, b)
 }

 // parse extracts the bitfields from i, concatenate them and return the result
 // as an unsigned integer and the total length of all the bitfields.
 // parse will panic if any bitfield in b is invalid, but it doesn't check if
 // the sequence of bitfields is reasonable.
 func (bs BitFields) parse(i uint32) (u uint32, Bits uint8) {
 	for _, b := range bs {
 		u = (u << b.Bits) | b.Parse(i)
 		Bits += b.Bits
 	}
 	return u, Bits
 }

 // Parse extracts the bitfields from i, concatenate them and return the result
 // as an unsigned integer. Parse will panic if any bitfield in b is invalid.
 func (bs BitFields) Parse(i uint32) uint32 {
 	u, _ := bs.parse(i)
 	return u
 }

 // Parse extracts the bitfields from i, concatenate them and return the result
 // as a signed integer. Parse will panic if any bitfield in b is invalid.
 func (bs BitFields) ParseSigned(i uint32) int32 {
 	u, l := bs.parse(i)
 	return int32(u) << (32 - l) >> (32 - l)
 }
	// Copyright 2014 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 ppc64asm

	import (
	"fmt"
	"strings"
	)

	// A BitField is a bit-field in a 32-bit word.
	// Bits are counted from 0 from the MSB to 31 as the LSB.
	type BitField struct {
	Offs uint8 // the offset of the left-most bit.
	Bits uint8 // length in bits.
	}

	func (b BitField) String() string {
	if b.Bits > 1 {
	return fmt.Sprintf("[%d:%d]", b.Offs, int(b.Offs+b.Bits)-1)
	} else if b.Bits == 1 {
	return fmt.Sprintf("[%d]", b.Offs)
	} else {
	return fmt.Sprintf("[%d, len=0]", b.Offs)
	}
	}

	// Parse extracts the bitfield b from i, and return it as an unsigned integer.
	// Parse will panic if b is invalid.
	func (b BitField) Parse(i uint32) uint32 {
	if b.Bits > 32 \|\| b.Bits == 0 \|\| b.Offs > 31 \|\| b.Offs+b.Bits > 32 {
	panic(fmt.Sprintf("invalid bitfiled %v", b))
	}
	return (i >> (32 - b.Offs - b.Bits)) & ((1 << b.Bits) - 1)
	}

	// ParseSigned extracts the bitfield b from i, and return it as a signed integer.
	// ParseSigned will panic if b is invalid.
	func (b BitField) ParseSigned(i uint32) int32 {
	u := int32(b.Parse(i))
	return u << (32 - b.Bits) >> (32 - b.Bits)
	}

	// BitFields is a series of BitFields representing a single number.
	type BitFields []BitField

	func (bs BitFields) String() string {
	ss := make([]string, len(bs))
	for i, bf := range bs {
	ss[i] = bf.String()
	}
	return fmt.Sprintf("<%s>", strings.Join(ss, "\|"))
	}

	func (bs *BitFields) Append(b BitField) {
	bs = append(bs, b)
	}

	// parse extracts the bitfields from i, concatenate them and return the result
	// as an unsigned integer and the total length of all the bitfields.
	// parse will panic if any bitfield in b is invalid, but it doesn't check if
	// the sequence of bitfields is reasonable.
	func (bs BitFields) parse(i uint32) (u uint32, Bits uint8) {
	for _, b := range bs {
	u = (u << b.Bits) \| b.Parse(i)
	Bits += b.Bits
	}
	return u, Bits
	}

	// Parse extracts the bitfields from i, concatenate them and return the result
	// as an unsigned integer. Parse will panic if any bitfield in b is invalid.
	func (bs BitFields) Parse(i uint32) uint32 {
	u, _ := bs.parse(i)
	return u
	}

	// Parse extracts the bitfields from i, concatenate them and return the result
	// as a signed integer. Parse will panic if any bitfield in b is invalid.
	func (bs BitFields) ParseSigned(i uint32) int32 {
	u, l := bs.parse(i)
	return int32(u) << (32 - l) >> (32 - l)
	}