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go/doc/talks/io2010/eval1.go

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// Copyright 2010 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 main
import (
"bufio"
"fmt"
"os"
"strconv"
"strings"
)
// Generic expression parser/evaluator
type Value interface {
String() string
BinaryOp(op string, y Value) Value
}
type Parser struct {
precTab map[string]int
newVal func(string) Value
src string
pos int
tok string
}
const alphanum = "_abcdefghijklmnopqrstuvwxyzABCDEFGHIJKLMNOPQRSTUVWXYZ0123456789"
func (p *Parser) stop(c uint8) bool {
switch {
case p.pos >= len(p.src):
return true
case c == '"':
if p.src[p.pos] == '"' {
p.pos++
return true
}
return false
case strings.IndexRune(alphanum, int(c)) >= 0:
return strings.IndexRune(alphanum, int(p.src[p.pos])) < 0
}
return true
}
func (p *Parser) next() {
// skip blanks
for ; p.pos < len(p.src) && p.src[p.pos] <= ' '; p.pos++ {
}
if p.pos >= len(p.src) {
p.tok = ""
return
}
start := p.pos
c := p.src[p.pos]
for p.pos < len(p.src) {
p.pos++
if p.stop(c) {
break
}
}
p.tok = p.src[start:p.pos]
}
func (p *Parser) binaryExpr(prec1 int) Value {
x := p.newVal(p.tok)
p.next()
for prec := p.precTab[p.tok]; prec >= prec1; prec-- {
for p.precTab[p.tok] == prec {
op := p.tok
p.next()
y := p.binaryExpr(prec + 1)
x = x.BinaryOp(op, y)
}
}
return x
}
func Eval(precTab map[string]int, newVal func(string) Value, src string) Value {
var p Parser
p.precTab = precTab
p.newVal = newVal
p.src = src
p.next()
return p.binaryExpr(1)
}
// Command-line expression evaluator
func main() {
r := bufio.NewReader(os.Stdin)
for {
fmt.Printf("> ")
line, err := r.ReadString('\n')
if err != nil {
break
}
fmt.Printf("%s\n", Eval(precTab, trace(newVal), line))
}
}
// Custom grammar and values
var precTab = map[string]int{
"&&": 1,
"||": 2,
"==": 3,
"!=": 3,
"<": 3,
"<=": 3,
">": 3,
">=": 3,
"+": 4,
"-": 4,
"*": 5,
"/": 5,
"%": 5,
}
func newVal(lit string) Value {
x, err := strconv.Atoi(lit)
if err == nil {
return Int(x)
}
b, err := strconv.Atob(lit)
if err == nil {
return Bool(b)
}
return Error(fmt.Sprintf("illegal literal '%s'", lit))
}
type Error string
func (e Error) String() string { return string(e) }
func (e Error) BinaryOp(op string, y Value) Value { return e }
type Int int
func (x Int) String() string { return strconv.Itoa(int(x)) }
func (x Int) BinaryOp(op string, y Value) Value {
switch y := y.(type) {
case Error:
return y
case Int:
switch op {
case "+":
return x + y
case "-":
return x - y
case "*":
return x * y
case "/":
return x / y
case "%":
return x % y
case "==":
return Bool(x == y)
case "!=":
return Bool(x != y)
case "<":
return Bool(x < y)
case "<=":
return Bool(x <= y)
case ">":
return Bool(x > y)
case ">=":
return Bool(x >= y)
}
}
return Error(fmt.Sprintf("illegal operation: '%v %s %v'", x, op, y))
}
type Bool bool
func (x Bool) String() string { return strconv.Btoa(bool(x)) }
func (x Bool) BinaryOp(op string, y Value) Value {
switch y := y.(type) {
case Error:
return y
case Bool:
switch op {
case "&&":
return Bool(x && y)
case "||":
return Bool(x || y)
case "==":
return Bool(x == y)
case "!=":
return Bool(x != y)
}
}
return Error(fmt.Sprintf("illegal operation: '%v %s %v'", x, op, y))
}
func trace(newVal func(string) Value) func(string) Value {
return func(s string) Value {
v := newVal(s)
fmt.Printf("\tnewVal(%q) = %s\n", s, fmtv(v))
return &traceValue{v}
}
}
type traceValue struct {
Value
}
func (x *traceValue) BinaryOp(op string, y Value) Value {
z := x.Value.BinaryOp(op, y.(*traceValue).Value)
fmt.Printf("\t%s.BinaryOp(%q, %s) = %s\n", fmtv(x.Value), op, fmtv(y.(*traceValue).Value), fmtv(z))
return &traceValue{z}
}
func (x *traceValue) String() string {
s := x.Value.String()
fmt.Printf("\t%s.String() = %#v\n", fmtv(x.Value), s)
return s
}
func fmtv(v Value) string {
t := fmt.Sprintf("%T", v)
if i := strings.LastIndex(t, "."); i >= 0 { // strip package
t = t[i+1:]
}
return fmt.Sprintf("%s(%#v)", t, v)
}