lib/vdl/opconst/op.go - release.go.x.ref - Git at Google

 // Copyright 2015 The Vanadium 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 opconst

 // UnaryOp represents a unary operation to be performed on a Const.
 type UnaryOp uint

 // BinaryOp represents a binary operation to be performed on two Consts.
 type BinaryOp uint

 const (
 	InvalidUnaryOp UnaryOp = iota
 	LogicNot               //  ! logical not
 	Pos                    //  + positive (nop)
 	Neg                    //  - negate
 	BitNot                 //  ^ bitwise not
 )

 const (
 	InvalidBinaryOp BinaryOp = iota
 	LogicAnd                 //  && logical and
 	LogicOr                  //  || logical or
 	EQ                       //  == equal
 	NE                       //  != not equal
 	LT                       //  <  less than
 	LE                       //  <= less than or equal
 	GT                       //  >  greater than
 	GE                       //  >= greater than or equal
 	Add                      //  +  add
 	Sub                      //  -  subtract
 	Mul                      //  *  multiply
 	Div                      //  /  divide
 	Mod                      //  %  modulo
 	BitAnd                   //  &  bitwise and
 	BitOr                    //  |  bitwise or
 	BitXor                   //  ^  bitwise xor
 	LeftShift                //  << left shift
 	RightShift               //  >> right shift
 )

 var unaryOpTable = [...]struct {
 	symbol, desc string
 }{
 	InvalidUnaryOp: {"invalid", "invalid"},
 	LogicNot:       {"!", "logic_not"},
 	Pos:            {"+", "pos"},
 	Neg:            {"-", "neg"},
 	BitNot:         {"^", "bit_not"},
 }

 var binaryOpTable = [...]struct {
 	symbol, desc string
 }{
 	InvalidBinaryOp: {"invalid", "invalid"},
 	LogicAnd:        {"&&", "logic_and"},
 	LogicOr:         {"||", "logic_or"},
 	EQ:              {"==", "eq"},
 	NE:              {"!=", "ne"},
 	LT:              {"<", "lt"},
 	LE:              {"<=", "le"},
 	GT:              {">", "gt"},
 	GE:              {">=", "ge"},
 	Add:             {"+", "add"},
 	Sub:             {"-", "sub"},
 	Mul:             {"*", "mul"},
 	Div:             {"/", "div"},
 	Mod:             {"%", "mod"},
 	BitAnd:          {"&", "bit_and"},
 	BitOr:           {"|", "bit_or"},
 	BitXor:          {"^", "bit_xor"},
 	LeftShift:       {"<<", "left_shift"},
 	RightShift:      {">>", "right_shift"},
 }

 func (op UnaryOp) String() string  { return unaryOpTable[op].desc }
 func (op BinaryOp) String() string { return binaryOpTable[op].desc }

 // ToUnaryOp converts s into a UnaryOp, or returns InvalidUnaryOp if it couldn't
 // be converted.
 func ToUnaryOp(s string) UnaryOp {
 	for op, item := range unaryOpTable {
 		if s == item.symbol || s == item.desc {
 			return UnaryOp(op)
 		}
 	}
 	return InvalidUnaryOp
 }

 // ToBinaryOp converts s into a BinaryOp, or returns InvalidBinaryOp if it
 // couldn't be converted.
 func ToBinaryOp(s string) BinaryOp {
 	for op, item := range binaryOpTable {
 		if s == item.symbol || s == item.desc {
 			return BinaryOp(op)
 		}
 	}
 	return InvalidBinaryOp
 }
	// Copyright 2015 The Vanadium 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 opconst

	// UnaryOp represents a unary operation to be performed on a Const.
	type UnaryOp uint

	// BinaryOp represents a binary operation to be performed on two Consts.
	type BinaryOp uint

	const (
	InvalidUnaryOp UnaryOp = iota
	LogicNot // ! logical not
	Pos // + positive (nop)
	Neg // - negate
	BitNot // ^ bitwise not
	)

	const (
	InvalidBinaryOp BinaryOp = iota
	LogicAnd // && logical and
	LogicOr // \|\| logical or
	EQ // == equal
	NE // != not equal
	LT // < less than
	LE // <= less than or equal
	GT // > greater than
	GE // >= greater than or equal
	Add // + add
	Sub // - subtract
	Mul // * multiply
	Div // / divide
	Mod // % modulo
	BitAnd // & bitwise and
	BitOr // \| bitwise or
	BitXor // ^ bitwise xor
	LeftShift // << left shift
	RightShift // >> right shift
	)

	var unaryOpTable = [...]struct {
	symbol, desc string
	}{
	InvalidUnaryOp: {"invalid", "invalid"},
	LogicNot: {"!", "logic_not"},
	Pos: {"+", "pos"},
	Neg: {"-", "neg"},
	BitNot: {"^", "bit_not"},
	}

	var binaryOpTable = [...]struct {
	symbol, desc string
	}{
	InvalidBinaryOp: {"invalid", "invalid"},
	LogicAnd: {"&&", "logic_and"},
	LogicOr: {"\|\|", "logic_or"},
	EQ: {"==", "eq"},
	NE: {"!=", "ne"},
	LT: {"<", "lt"},
	LE: {"<=", "le"},
	GT: {">", "gt"},
	GE: {">=", "ge"},
	Add: {"+", "add"},
	Sub: {"-", "sub"},
	Mul: {"*", "mul"},
	Div: {"/", "div"},
	Mod: {"%", "mod"},
	BitAnd: {"&", "bit_and"},
	BitOr: {"\|", "bit_or"},
	BitXor: {"^", "bit_xor"},
	LeftShift: {"<<", "left_shift"},
	RightShift: {">>", "right_shift"},
	}

	func (op UnaryOp) String() string { return unaryOpTable[op].desc }
	func (op BinaryOp) String() string { return binaryOpTable[op].desc }

	// ToUnaryOp converts s into a UnaryOp, or returns InvalidUnaryOp if it couldn't
	// be converted.
	func ToUnaryOp(s string) UnaryOp {
	for op, item := range unaryOpTable {
	if s == item.symbol \|\| s == item.desc {
	return UnaryOp(op)
	}
	}
	return InvalidUnaryOp
	}

	// ToBinaryOp converts s into a BinaryOp, or returns InvalidBinaryOp if it
	// couldn't be converted.
	func ToBinaryOp(s string) BinaryOp {
	for op, item := range binaryOpTable {
	if s == item.symbol \|\| s == item.desc {
	return BinaryOp(op)
	}
	}
	return InvalidBinaryOp
	}