// Copyright 2018 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. // Module file parser. // This is a simplified copy of Google's buildifier parser. package confyg import ( "bytes" "fmt" "os" "strings" "unicode" "unicode/utf8" ) // A Position describes the position between two bytes of input. type Position struct { Line int // line in input (starting at 1) LineRune int // rune in line (starting at 1) Byte int // byte in input (starting at 0) } // add returns the position at the end of s, assuming it starts at p. func (p Position) add(s string) Position { p.Byte += len(s) if n := strings.Count(s, "\n"); n > 0 { p.Line += n s = s[strings.LastIndex(s, "\n")+1:] p.LineRune = 1 } p.LineRune += utf8.RuneCountInString(s) return p } // An Expr represents an input element. type Expr interface { // Span returns the start and end position of the expression, // excluding leading or trailing comments. Span() (start, end Position) // Comment returns the comments attached to the expression. // This method would normally be named 'Comments' but that // would interfere with embedding a type of the same name. Comment() *Comments } // A Comment represents a single // comment. type Comment struct { Start Position Token string // without trailing newline Suffix bool // an end of line (not whole line) comment } // Comments collects the comments associated with an expression. type Comments struct { Before []Comment // whole-line comments before this expression Suffix []Comment // end-of-line comments after this expression // For top-level expressions only, After lists whole-line // comments following the expression. After []Comment } // Comment returns the receiver. This isn't useful by itself, but // a Comments struct is embedded into all the expression // implementation types, and this gives each of those a Comment // method to satisfy the Expr interface. func (c *Comments) Comment() *Comments { return c } // A FileSyntax represents an entire go.mod file. type FileSyntax struct { Name string // file path Comments Stmt []Expr } func (x *FileSyntax) Span() (start, end Position) { if len(x.Stmt) == 0 { return } start, _ = x.Stmt[0].Span() _, end = x.Stmt[len(x.Stmt)-1].Span() return start, end } // A CommentBlock represents a top-level block of comments separate // from any rule. type CommentBlock struct { Comments Start Position } func (x *CommentBlock) Span() (start, end Position) { return x.Start, x.Start } // A Line is a single line of tokens. type Line struct { Comments Start Position Token []string End Position } func (x *Line) Span() (start, end Position) { return x.Start, x.End } // A LineBlock is a factored block of lines, like // // require ( // "x" // "y" // ) // type LineBlock struct { Comments Start Position LParen LParen Token []string Line []*Line RParen RParen } func (x *LineBlock) Span() (start, end Position) { return x.Start, x.RParen.Pos.add(")") } // An LParen represents the beginning of a parenthesized line block. // It is a place to store suffix comments. type LParen struct { Comments Pos Position } func (x *LParen) Span() (start, end Position) { return x.Pos, x.Pos.add(")") } // An RParen represents the end of a parenthesized line block. // It is a place to store whole-line (before) comments. type RParen struct { Comments Pos Position } func (x *RParen) Span() (start, end Position) { return x.Pos, x.Pos.add(")") } // An input represents a single input file being parsed. type input struct { // Lexing state. filename string // name of input file, for errors complete []byte // entire input remaining []byte // remaining input token []byte // token being scanned lastToken string // most recently returned token, for error messages pos Position // current input position comments []Comment // accumulated comments endRule int // position of end of current rule // Parser state. file *FileSyntax // returned top-level syntax tree parseError error // error encountered during parsing // Comment assignment state. pre []Expr // all expressions, in preorder traversal post []Expr // all expressions, in postorder traversal } func newInput(filename string, data []byte) *input { return &input{ filename: filename, complete: data, remaining: data, pos: Position{Line: 1, LineRune: 1, Byte: 0}, } } // parse parses the input file. func parse(file string, data []byte) (f *FileSyntax, err error) { in := newInput(file, data) // The parser panics for both routine errors like syntax errors // and for programmer bugs like array index errors. // Turn both into error returns. Catching bug panics is // especially important when processing many files. defer func() { if e := recover(); e != nil { if e == in.parseError { err = in.parseError } else { err = fmt.Errorf("%s:%d:%d: internal error: %v", in.filename, in.pos.Line, in.pos.LineRune, e) } } }() // Invoke the parser. in.parseFile() if in.parseError != nil { return nil, in.parseError } in.file.Name = in.filename // Assign comments to nearby syntax. in.assignComments() return in.file, nil } // Error is called to report an error. // The reason s is often "syntax error". // Error does not return: it panics. func (in *input) Error(s string) { if s == "syntax error" && in.lastToken != "" { s += " near " + in.lastToken } in.parseError = fmt.Errorf("%s:%d:%d: %v", in.filename, in.pos.Line, in.pos.LineRune, s) panic(in.parseError) } // eof reports whether the input has reached end of file. func (in *input) eof() bool { return len(in.remaining) == 0 } // peekRune returns the next rune in the input without consuming it. func (in *input) peekRune() int { if len(in.remaining) == 0 { return 0 } r, _ := utf8.DecodeRune(in.remaining) return int(r) } // readRune consumes and returns the next rune in the input. func (in *input) readRune() int { if len(in.remaining) == 0 { in.Error("internal lexer error: readRune at EOF") } r, size := utf8.DecodeRune(in.remaining) in.remaining = in.remaining[size:] if r == '\n' { in.pos.Line++ in.pos.LineRune = 1 } else { in.pos.LineRune++ } in.pos.Byte += size return int(r) } type symType struct { pos Position endPos Position text string } // startToken marks the beginning of the next input token. // It must be followed by a call to endToken, once the token has // been consumed using readRune. func (in *input) startToken(sym *symType) { in.token = in.remaining sym.text = "" sym.pos = in.pos } // endToken marks the end of an input token. // It records the actual token string in sym.text if the caller // has not done that already. func (in *input) endToken(sym *symType) { if sym.text == "" { tok := string(in.token[:len(in.token)-len(in.remaining)]) sym.text = tok in.lastToken = sym.text } sym.endPos = in.pos } // lex is called from the parser to obtain the next input token. // It returns the token value (either a rune like '+' or a symbolic token _FOR) // and sets val to the data associated with the token. // For all our input tokens, the associated data is // val.Pos (the position where the token begins) // and val.Token (the input string corresponding to the token). func (in *input) lex(sym *symType) int { // Skip past spaces, stopping at non-space or EOF. countNL := 0 // number of newlines we've skipped past for !in.eof() { // Skip over spaces. Count newlines so we can give the parser // information about where top-level blank lines are, // for top-level comment assignment. c := in.peekRune() if c == ' ' || c == '\t' || c == '\r' { in.readRune() continue } // Comment runs to end of line. if c == '/' { in.startToken(sym) // Is this comment the only thing on its line? // Find the last \n before this // and see if it's all // spaces from there to here. i := bytes.LastIndex(in.complete[:in.pos.Byte], []byte("\n")) suffix := len(bytes.TrimSpace(in.complete[i+1:in.pos.Byte])) > 0 in.readRune() c = in.peekRune() if c == '*' { in.Error(fmt.Sprintf("mod files must use // comments (not /* */ comments)")) } if c != '/' { in.Error(fmt.Sprintf("unexpected input character %#q", c)) } // Consume comment. for len(in.remaining) > 0 && in.readRune() != '\n' { } in.endToken(sym) sym.text = strings.TrimRight(sym.text, "\n") in.lastToken = "comment" // If we are at top level (not in a statement), hand the comment to // the parser as a _COMMENT token. The grammar is written // to handle top-level comments itself. if !suffix { // Not in a statement. Tell parser about top-level comment. return _COMMENT } // Otherwise, save comment for later attachment to syntax tree. if countNL > 1 { in.comments = append(in.comments, Comment{sym.pos, "", false}) } in.comments = append(in.comments, Comment{sym.pos, sym.text, suffix}) countNL = 1 return _EOL } // Found non-space non-comment. break } // Found the beginning of the next token. in.startToken(sym) defer in.endToken(sym) // End of file. if in.eof() { in.lastToken = "EOF" return _EOF } // Punctuation tokens. switch c := in.peekRune(); c { case '\n': in.readRune() return c case '(': in.readRune() return c case ')': in.readRune() return c case '"', '`': // quoted string quote := c in.readRune() for { if in.eof() { in.pos = sym.pos in.Error("unexpected EOF in string") } if in.peekRune() == '\n' { in.Error("unexpected newline in string") } c := in.readRune() if c == quote { break } if c == '\\' && quote != '`' { if in.eof() { in.pos = sym.pos in.Error("unexpected EOF in string") } in.readRune() } } in.endToken(sym) return _STRING } // Checked all punctuation. Must be identifier token. if c := in.peekRune(); !isIdent(c) { in.Error(fmt.Sprintf("unexpected input character %#q", c)) } // Scan over identifier. for isIdent(in.peekRune()) { in.readRune() } return _IDENT } // isIdent reports whether c is an identifier rune. // We treat nearly all runes as identifier runes. func isIdent(c int) bool { return c != 0 && !unicode.IsSpace(rune(c)) && c != '/' && c != '(' && c != ')' && c != '"' && c != '`' } // Comment assignment. // We build two lists of all subexpressions, preorder and postorder. // The preorder list is ordered by start location, with outer expressions first. // The postorder list is ordered by end location, with outer expressions last. // We use the preorder list to assign each whole-line comment to the syntax // immediately following it, and we use the postorder list to assign each // end-of-line comment to the syntax immediately preceding it. // order walks the expression adding it and its subexpressions to the // preorder and postorder lists. func (in *input) order(x Expr) { if x != nil { in.pre = append(in.pre, x) } switch x := x.(type) { default: panic(fmt.Errorf("order: unexpected type %T", x)) case nil: // nothing case *LParen, *RParen: // nothing case *CommentBlock: // nothing case *Line: // nothing case *FileSyntax: for _, stmt := range x.Stmt { in.order(stmt) } case *LineBlock: in.order(&x.LParen) for _, l := range x.Line { in.order(l) } in.order(&x.RParen) } if x != nil { in.post = append(in.post, x) } } // assignComments attaches comments to nearby syntax. func (in *input) assignComments() { const debug = false // Generate preorder and postorder lists. in.order(in.file) // Split into whole-line comments and suffix comments. var line, suffix []Comment for _, com := range in.comments { if com.Suffix { suffix = append(suffix, com) } else { line = append(line, com) } } if debug { for _, c := range line { fmt.Fprintf(os.Stderr, "LINE %q :%d:%d #%d\n", c.Token, c.Start.Line, c.Start.LineRune, c.Start.Byte) } } // Assign line comments to syntax immediately following. for _, x := range in.pre { start, _ := x.Span() if debug { fmt.Printf("pre %T :%d:%d #%d\n", x, start.Line, start.LineRune, start.Byte) } xcom := x.Comment() for len(line) > 0 && start.Byte >= line[0].Start.Byte { if debug { fmt.Fprintf(os.Stderr, "ASSIGN LINE %q #%d\n", line[0].Token, line[0].Start.Byte) } xcom.Before = append(xcom.Before, line[0]) line = line[1:] } } // Remaining line comments go at end of file. in.file.After = append(in.file.After, line...) if debug { for _, c := range suffix { fmt.Fprintf(os.Stderr, "SUFFIX %q :%d:%d #%d\n", c.Token, c.Start.Line, c.Start.LineRune, c.Start.Byte) } } // Assign suffix comments to syntax immediately before. for i := len(in.post) - 1; i >= 0; i-- { x := in.post[i] start, end := x.Span() if debug { fmt.Printf("post %T :%d:%d #%d :%d:%d #%d\n", x, start.Line, start.LineRune, start.Byte, end.Line, end.LineRune, end.Byte) } // Do not assign suffix comments to end of line block or whole file. // Instead assign them to the last element inside. switch x.(type) { case *FileSyntax: continue } // Do not assign suffix comments to something that starts // on an earlier line, so that in // // x ( y // z ) // comment // // we assign the comment to z and not to x ( ... ). if start.Line != end.Line { continue } xcom := x.Comment() for len(suffix) > 0 && end.Byte <= suffix[len(suffix)-1].Start.Byte { if debug { fmt.Fprintf(os.Stderr, "ASSIGN SUFFIX %q #%d\n", suffix[len(suffix)-1].Token, suffix[len(suffix)-1].Start.Byte) } xcom.Suffix = append(xcom.Suffix, suffix[len(suffix)-1]) suffix = suffix[:len(suffix)-1] } } // We assigned suffix comments in reverse. // If multiple suffix comments were appended to the same // expression node, they are now in reverse. Fix that. for _, x := range in.post { reverseComments(x.Comment().Suffix) } // Remaining suffix comments go at beginning of file. in.file.Before = append(in.file.Before, suffix...) } // reverseComments reverses the []Comment list. func reverseComments(list []Comment) { for i, j := 0, len(list)-1; i < j; i, j = i+1, j-1 { list[i], list[j] = list[j], list[i] } } func (in *input) parseFile() { in.file = new(FileSyntax) var sym symType var cb *CommentBlock for { tok := in.lex(&sym) switch tok { case '\n': if cb != nil { in.file.Stmt = append(in.file.Stmt, cb) cb = nil } case _COMMENT: if cb == nil { cb = &CommentBlock{Start: sym.pos} } com := cb.Comment() com.Before = append(com.Before, Comment{Start: sym.pos, Token: sym.text}) case _EOF: if cb != nil { in.file.Stmt = append(in.file.Stmt, cb) } return default: in.parseStmt(&sym) if cb != nil { in.file.Stmt[len(in.file.Stmt)-1].Comment().Before = cb.Before cb = nil } } } } func (in *input) parseStmt(sym *symType) { start := sym.pos end := sym.endPos token := []string{sym.text} for { tok := in.lex(sym) switch tok { case '\n', _EOF, _EOL: in.file.Stmt = append(in.file.Stmt, &Line{ Start: start, Token: token, End: end, }) return case '(': in.file.Stmt = append(in.file.Stmt, in.parseLineBlock(start, token, sym)) return default: token = append(token, sym.text) end = sym.endPos } } } func (in *input) parseLineBlock(start Position, token []string, sym *symType) *LineBlock { x := &LineBlock{ Start: start, Token: token, LParen: LParen{Pos: sym.pos}, } var comments []Comment for { tok := in.lex(sym) switch tok { case _EOL: // ignore case '\n': if len(comments) == 0 && len(x.Line) > 0 || len(comments) > 0 && comments[len(comments)-1].Token != "" { comments = append(comments, Comment{}) } case _COMMENT: comments = append(comments, Comment{Start: sym.pos, Token: sym.text}) case _EOF: in.Error(fmt.Sprintf("syntax error (unterminated block started at %s:%d:%d)", in.filename, x.Start.Line, x.Start.LineRune)) case ')': x.RParen.Before = comments x.RParen.Pos = sym.pos tok = in.lex(sym) if tok != '\n' && tok != _EOF && tok != _EOL { in.Error("syntax error (expected newline after closing paren)") } return x default: l := in.parseLine(sym) x.Line = append(x.Line, l) l.Comment().Before = comments comments = nil } } } func (in *input) parseLine(sym *symType) *Line { start := sym.pos end := sym.endPos token := []string{sym.text} for { tok := in.lex(sym) switch tok { case '\n', _EOF, _EOL: return &Line{ Start: start, Token: token, End: end, } default: token = append(token, sym.text) end = sym.endPos } } } const ( _EOF = -(1 + iota) _EOL _IDENT _STRING _COMMENT )