func ExampleScanner_Scan() { // src is the input that we want to tokenize. src := []byte("cos(x) + 1i*sin(x) // Euler") // Initialize the scanner. var s scanner.Scanner fset := token.NewFileSet() // positions are relative to fset file := fset.AddFile("", fset.Base(), len(src)) // register input "file" s.Init(file, src, nil /* no error handler */, scanner.ScanComments) // Repeated calls to Scan yield the token sequence found in the input. for { pos, tok, lit := s.Scan() if tok == token.EOF { break } fmt.Printf("%s\t%s\t%q\n", fset.Position(pos), tok, lit) } // output: // 1:1 IDENT "cos" // 1:4 ( "" // 1:5 IDENT "x" // 1:6 ) "" // 1:8 + "" // 1:10 IMAG "1i" // 1:12 * "" // 1:13 IDENT "sin" // 1:16 ( "" // 1:17 IDENT "x" // 1:18 ) "" // 1:20 ; "\n" // 1:20 COMMENT "// Euler" }
// expectedErrors collects the regular expressions of ERROR comments found // in files and returns them as a map of error positions to error messages. // func expectedErrors(t *testing.T, filename string, src []byte) map[token.Pos]string { errors := make(map[token.Pos]string) var s scanner.Scanner // file was parsed already - do not add it again to the file // set otherwise the position information returned here will // not match the position information collected by the parser s.Init(getFile(filename), src, nil, scanner.ScanComments) var prev token.Pos // position of last non-comment, non-semicolon token var here token.Pos // position immediately after the token at position prev for { pos, tok, lit := s.Scan() switch tok { case token.EOF: return errors case token.COMMENT: s := errRx.FindStringSubmatch(lit) if len(s) == 3 { pos := prev if s[1] == "HERE" { pos = here } errors[pos] = string(s[2]) } default: prev = pos var l int // token length if tok.IsLiteral() { l = len(lit) } else { l = len(tok.String()) } here = prev + token.Pos(l) } } }