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|
package main
import (
"strings"
"fmt"
"main/subex"
)
type parser struct {
tokenStream chan Token
rewinds []Token
}
func (p *parser) next() Token {
var token Token
if len(p.rewinds) == 0 {
token = <- p.tokenStream
} else {
token = p.rewinds[len(p.rewinds)-1]
p.rewinds = p.rewinds[:len(p.rewinds)-1]
}
if token.typ == TokenErr {
fmt.Println(token)
panic("Lexing error")
}
return token
}
func (p *parser) rewind(token Token) {
p.rewinds = append(p.rewinds, token)
}
func (p *parser) peek() Token {
token := p.next()
p.rewind(token)
return token
}
func (p *parser) parseSubex() subex.SubexState {
delim := p.next()
if delim.typ != TokenSubstituteDelimiter {
panic("Missing substitute delimiter")
}
subexProgramToken := p.next()
if subexProgramToken.typ != TokenSubex {
panic("Missing subex from substitution")
}
var subexProgram string
if delim.val == "=" || delim.val == "~" || delim.val == "\"" || delim.val == "`" {
subexProgram = delim.val + subexProgramToken.val + delim.val
} else {
subexProgram = subexProgramToken.val
}
reader := subex.NewStringRuneReader(subexProgram)
subexAST := subex.Parse(reader)
subex := subex.CompileTransducer(subexAST)
delim = p.next()
if delim.typ != TokenSubstituteDelimiter {
panic("Missing end substitute delimiter")
}
return subex
}
func (p *parser) parseBasicCommand(commandChar rune) Command {
switch commandChar {
case 'p':
return PrintValueCommand{}
case 'd':
return DeleteAllCommand{}
case 'n':
return NextCommand{}
case 'N':
return AppendNextCommand{}
case 's', 'S':
subex := p.parseSubex()
var next Command
token := p.peek()
switch token.typ {
case TokenEOF, TokenRBrace:
next = NoopCommand{}
default:
next = p.parseCommand()
}
if (commandChar == 's') {
return SubstituteValueCommand {
subex: subex,
next: next,
}
} else {
return SubstitutePathCommand {
subex: subex,
next: next,
}
}
case 'o':
return NoopCommand{}
case 'x':
return SwapXRegCommand{}
case 'X':
return AppendXRegCommand{}
case 'k':
return SwapPathCommand{}
case 'K':
return AppendPathCommand{}
default:
panic("Invalid command")
}
}
func (p *parser) parseCommand() Command {
token := p.next()
switch token.typ {
case TokenLBrace:
commands := p.parseCommands()
if p.next().typ != TokenRBrace {
panic("Missing matching }")
}
return SequenceCommand {commands}
case TokenCommand:
commandChar, _, err := strings.NewReader(token.val).ReadRune()
if err != nil {
panic("Error reading a command character!?")
}
return p.parseBasicCommand(commandChar)
default:
panic("Invalid token, expected command")
}
}
func (p *parser) parseCommands() []Command {
var commands []Command
for {
nextToken := p.peek()
if nextToken.typ == TokenEOF || nextToken.typ == TokenRBrace {
return commands
}
commands = append(commands, p.parseCommand())
endToken := p.peek()
if endToken.typ == TokenEOF || endToken.typ == TokenRBrace {
return commands
}
}
}
func Parse(tokens chan Token) []Command {
p := parser {
tokenStream: tokens,
}
return p.parseCommands()
}
|