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task/vendor/mvdan.cc/sh/interp/test_classic.go
2018-01-03 15:12:40 -02:00

197 lines
3.6 KiB
Go

// Copyright (c) 2017, Daniel Martí <mvdan@mvdan.cc>
// See LICENSE for licensing information
package interp
import (
"fmt"
"mvdan.cc/sh/syntax"
)
const illegalTok = 0
type testParser struct {
eof bool
val string
rem []string
err func(err error)
}
func (p *testParser) errf(format string, a ...interface{}) {
p.err(fmt.Errorf(format, a...))
}
func (p *testParser) next() {
if p.eof || len(p.rem) == 0 {
p.eof = true
p.val = ""
return
}
p.val = p.rem[0]
p.rem = p.rem[1:]
}
func (p *testParser) followWord(fval string) *syntax.Word {
if p.eof {
p.errf("%s must be followed by a word", fval)
}
w := &syntax.Word{Parts: []syntax.WordPart{
&syntax.Lit{Value: p.val},
}}
p.next()
return w
}
func (p *testParser) classicTest(fval string, pastAndOr bool) syntax.TestExpr {
var left syntax.TestExpr
if pastAndOr {
left = p.testExprBase(fval)
} else {
left = p.classicTest(fval, true)
}
if left == nil || p.eof {
return left
}
opStr := p.val
op := testBinaryOp(p.val)
if op == illegalTok {
p.errf("not a valid test operator: %s", p.val)
}
b := &syntax.BinaryTest{
Op: op,
X: left,
}
p.next()
switch b.Op {
case syntax.AndTest, syntax.OrTest:
if b.Y = p.classicTest(opStr, false); b.Y == nil {
p.errf("%s must be followed by an expression", opStr)
}
default:
b.Y = p.followWord(opStr)
}
return b
}
func (p *testParser) testExprBase(fval string) syntax.TestExpr {
if p.eof {
return nil
}
op := testUnaryOp(p.val)
switch op {
case syntax.TsNot:
u := &syntax.UnaryTest{Op: op}
p.next()
u.X = p.classicTest(op.String(), false)
return u
case illegalTok:
return p.followWord(fval)
default:
u := &syntax.UnaryTest{Op: op}
p.next()
if p.eof {
// make [ -e ] fall back to [ -n -e ], i.e. use
// the operator as an argument
return &syntax.Word{Parts: []syntax.WordPart{
&syntax.Lit{Value: op.String()},
}}
}
u.X = p.followWord(op.String())
return u
}
}
// testUnaryOp is an exact copy of syntax's.
func testUnaryOp(val string) syntax.UnTestOperator {
switch val {
case "!":
return syntax.TsNot
case "-e", "-a":
return syntax.TsExists
case "-f":
return syntax.TsRegFile
case "-d":
return syntax.TsDirect
case "-c":
return syntax.TsCharSp
case "-b":
return syntax.TsBlckSp
case "-p":
return syntax.TsNmPipe
case "-S":
return syntax.TsSocket
case "-L", "-h":
return syntax.TsSmbLink
case "-k":
return syntax.TsSticky
case "-g":
return syntax.TsGIDSet
case "-u":
return syntax.TsUIDSet
case "-G":
return syntax.TsGrpOwn
case "-O":
return syntax.TsUsrOwn
case "-N":
return syntax.TsModif
case "-r":
return syntax.TsRead
case "-w":
return syntax.TsWrite
case "-x":
return syntax.TsExec
case "-s":
return syntax.TsNoEmpty
case "-t":
return syntax.TsFdTerm
case "-z":
return syntax.TsEmpStr
case "-n":
return syntax.TsNempStr
case "-o":
return syntax.TsOptSet
case "-v":
return syntax.TsVarSet
case "-R":
return syntax.TsRefVar
default:
return illegalTok
}
}
// testBinaryOp is like syntax's, but with -a and -o, and without =~.
func testBinaryOp(val string) syntax.BinTestOperator {
switch val {
case "-a":
return syntax.AndTest
case "-o":
return syntax.OrTest
case "==", "=":
return syntax.TsMatch
case "!=":
return syntax.TsNoMatch
case "-nt":
return syntax.TsNewer
case "-ot":
return syntax.TsOlder
case "-ef":
return syntax.TsDevIno
case "-eq":
return syntax.TsEql
case "-ne":
return syntax.TsNeq
case "-le":
return syntax.TsLeq
case "-ge":
return syntax.TsGeq
case "-lt":
return syntax.TsLss
case "-gt":
return syntax.TsGtr
default:
return illegalTok
}
}