package circuitcompiler import ( "errors" "io" "regexp" "strings" ) // Parser data structure holds the Scanner and the Parsing functions type Parser struct { s *Scanner buf struct { tok Token // last read token lit string // last read literal n int // buffer size (max=1) } } // NewParser creates a new parser from a io.Reader func NewParser(r io.Reader) *Parser { return &Parser{s: NewScanner(r)} } func (p *Parser) scan() (tok Token, lit string) { // if there is a token in the buffer return it if p.buf.n != 0 { p.buf.n = 0 return p.buf.tok, p.buf.lit } tok, lit = p.s.scan() p.buf.tok, p.buf.lit = tok, lit return } func (p *Parser) unscan() { p.buf.n = 1 } func (p *Parser) scanIgnoreWhitespace() (tok Token, lit string) { tok, lit = p.scan() if tok == WS { tok, lit = p.scan() } return } // parseLine parses the current line func (p *Parser) parseLine() (*Constraint, error) { /* in this version, line will be for example s3 = s1 * s4 this is: val eq val op val */ c := &Constraint{} tok, lit := p.scanIgnoreWhitespace() switch lit { case "def": c.Op = FUNC // format: `func name(in):` //todo this is all a bit hacky and unsafe line, err := p.s.r.ReadString(':') line = strings.Replace(line, " ", "", -1) line = strings.Replace(line, ":", "", -1) //set function name //c.Literal = strings.Split(line, "(")[0] c.Out = line if err != nil { return c, err } // read string inside ( ) rgx := regexp.MustCompile(`\((.*?)\)`) insideParenthesis := rgx.FindStringSubmatch(line) varsString := strings.Replace(insideParenthesis[1], " ", "", -1) c.Inputs = strings.Split(varsString, ",") return c, nil case "var": //var a = 234 //c.Literal += lit _, lit = p.scanIgnoreWhitespace() c.Out = lit //c.Literal += lit _, lit = p.scanIgnoreWhitespace() // skip = //c.Literal += lit // v1 _, lit = p.scanIgnoreWhitespace() c.V1 = lit //c.Literal += lit break case "#": return nil, errors.New("comment parseline") default: c.Out = lit //c.Literal += lit _, lit = p.scanIgnoreWhitespace() // skip = //c.Literal += lit // v1 tok, lit = p.scanIgnoreWhitespace() c.V1 = lit //c.Literal += lit // operator tok, lit = p.scanIgnoreWhitespace() c.Op = tok //c.Literal += lit // v2 _, lit = p.scanIgnoreWhitespace() c.V2 = lit //c.Literal += lit } if tok == EOF { return nil, errors.New("eof in parseline") } return c, nil } func existInArray(arr []string, elem string) bool { for _, v := range arr { if v == elem { return true } } return false } func addToArrayIfNotExist(arr []string, elem string) []string { for _, v := range arr { if v == elem { return arr } } arr = append(arr, elem) return arr } // Parse parses the lines and returns the compiled Circuit func (p *Parser) Parse() (programm *Program, err error) { programm = NewProgram() var circuit *Circuit for { constraint, err := p.parseLine() if err != nil { break } if constraint.Op == FUNC { circuit = programm.addFunction(constraint) } else { circuit.addConstraint(constraint) } } //TODO //circuit.NVars = len(circuit.Signals) //circuit.NSignals = len(circuit.Signals) return programm, nil } func copyArray(in []string) []string { // tmp var out []string for _, e := range in { out = append(out, e) } return out }