| // Copyright 2009 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. |
| |
| // This file implements printing of AST nodes; specifically |
| // expressions, statements, declarations, and files. It uses |
| // the print functionality implemented in printer.go. |
| |
| package printer |
| |
| import ( |
| "bytes" |
| "go/ast" |
| "go/token" |
| ) |
| |
| |
| // Other formatting issues: |
| // - better comment formatting for /*-style comments at the end of a line (e.g. a declaration) |
| // when the comment spans multiple lines; if such a comment is just two lines, formatting is |
| // not idempotent |
| // - formatting of expression lists |
| // - should use blank instead of tab to separate one-line function bodies from |
| // the function header unless there is a group of consecutive one-liners |
| |
| |
| // ---------------------------------------------------------------------------- |
| // Common AST nodes. |
| |
| // Print as many newlines as necessary (but at least min newlines) to get to |
| // the current line. ws is printed before the first line break. If newSection |
| // is set, the first line break is printed as formfeed. Returns true if any |
| // line break was printed; returns false otherwise. |
| // |
| // TODO(gri): linebreak may add too many lines if the next statement at "line" |
| // is preceded by comments because the computation of n assumes |
| // the current position before the comment and the target position |
| // after the comment. Thus, after interspersing such comments, the |
| // space taken up by them is not considered to reduce the number of |
| // linebreaks. At the moment there is no easy way to know about |
| // future (not yet interspersed) comments in this function. |
| // |
| func (p *printer) linebreak(line, min int, ws whiteSpace, newSection bool) (printedBreak bool) { |
| n := p.nlines(line-p.pos.Line, min) |
| if n > 0 { |
| p.print(ws) |
| if newSection { |
| p.print(formfeed) |
| n-- |
| } |
| for ; n > 0; n-- { |
| p.print(newline) |
| } |
| printedBreak = true |
| } |
| return |
| } |
| |
| |
| // setComment sets g as the next comment if g != nil and if node comments |
| // are enabled - this mode is used when printing source code fragments such |
| // as exports only. It assumes that there are no other pending comments to |
| // intersperse. |
| func (p *printer) setComment(g *ast.CommentGroup) { |
| if g == nil || !p.useNodeComments { |
| return |
| } |
| if p.comments == nil { |
| // initialize p.comments lazily |
| p.comments = make([]*ast.CommentGroup, 1) |
| } else if p.cindex < len(p.comments) { |
| // for some reason there are pending comments; this |
| // should never happen - handle gracefully and flush |
| // all comments up to g, ignore anything after that |
| p.flush(p.fset.Position(g.List[0].Pos()), token.ILLEGAL) |
| } |
| p.comments[0] = g |
| p.cindex = 0 |
| } |
| |
| |
| type exprListMode uint |
| |
| const ( |
| blankStart exprListMode = 1 << iota // print a blank before a non-empty list |
| blankEnd // print a blank after a non-empty list |
| commaSep // elements are separated by commas |
| commaTerm // list is optionally terminated by a comma |
| noIndent // no extra indentation in multi-line lists |
| periodSep // elements are separated by periods |
| ) |
| |
| |
| // Sets multiLine to true if the identifier list spans multiple lines. |
| // If indent is set, a multi-line identifier list is indented after the |
| // first linebreak encountered. |
| func (p *printer) identList(list []*ast.Ident, indent bool, multiLine *bool) { |
| // convert into an expression list so we can re-use exprList formatting |
| xlist := make([]ast.Expr, len(list)) |
| for i, x := range list { |
| xlist[i] = x |
| } |
| mode := commaSep |
| if !indent { |
| mode |= noIndent |
| } |
| p.exprList(token.NoPos, xlist, 1, mode, multiLine, token.NoPos) |
| } |
| |
| |
| // Print a list of expressions. If the list spans multiple |
| // source lines, the original line breaks are respected between |
| // expressions. Sets multiLine to true if the list spans multiple |
| // lines. |
| // |
| // TODO(gri) Consider rewriting this to be independent of []ast.Expr |
| // so that we can use the algorithm for any kind of list |
| // (e.g., pass list via a channel over which to range). |
| func (p *printer) exprList(prev0 token.Pos, list []ast.Expr, depth int, mode exprListMode, multiLine *bool, next0 token.Pos) { |
| if len(list) == 0 { |
| return |
| } |
| |
| if mode&blankStart != 0 { |
| p.print(blank) |
| } |
| |
| prev := p.fset.Position(prev0) |
| next := p.fset.Position(next0) |
| line := p.fset.Position(list[0].Pos()).Line |
| endLine := p.fset.Position(list[len(list)-1].End()).Line |
| |
| if prev.IsValid() && prev.Line == line && line == endLine { |
| // all list entries on a single line |
| for i, x := range list { |
| if i > 0 { |
| if mode&commaSep != 0 { |
| p.print(token.COMMA) |
| } |
| p.print(blank) |
| } |
| p.expr0(x, depth, multiLine) |
| } |
| if mode&blankEnd != 0 { |
| p.print(blank) |
| } |
| return |
| } |
| |
| // list entries span multiple lines; |
| // use source code positions to guide line breaks |
| |
| // don't add extra indentation if noIndent is set; |
| // i.e., pretend that the first line is already indented |
| ws := ignore |
| if mode&noIndent == 0 { |
| ws = indent |
| } |
| |
| // the first linebreak is always a formfeed since this section must not |
| // depend on any previous formatting |
| prevBreak := -1 // index of last expression that was followed by a linebreak |
| if prev.IsValid() && prev.Line < line && p.linebreak(line, 0, ws, true) { |
| ws = ignore |
| *multiLine = true |
| prevBreak = 0 |
| } |
| |
| // initialize expression/key size: a zero value indicates expr/key doesn't fit on a single line |
| size := 0 |
| |
| // print all list elements |
| for i, x := range list { |
| prevLine := line |
| line = p.fset.Position(x.Pos()).Line |
| |
| // determine if the next linebreak, if any, needs to use formfeed: |
| // in general, use the entire node size to make the decision; for |
| // key:value expressions, use the key size |
| // TODO(gri) for a better result, should probably incorporate both |
| // the key and the node size into the decision process |
| useFF := true |
| |
| // determine element size: all bets are off if we don't have |
| // position information for the previous and next token (likely |
| // generated code - simply ignore the size in this case by setting |
| // it to 0) |
| prevSize := size |
| const infinity = 1e6 // larger than any source line |
| size = p.nodeSize(x, infinity) |
| pair, isPair := x.(*ast.KeyValueExpr) |
| if size <= infinity && prev.IsValid() && next.IsValid() { |
| // x fits on a single line |
| if isPair { |
| size = p.nodeSize(pair.Key, infinity) // size <= infinity |
| } |
| } else { |
| // size too large or we don't have good layout information |
| size = 0 |
| } |
| |
| // if the previous line and the current line had single- |
| // line-expressions and the key sizes are small or the |
| // the ratio between the key sizes does not exceed a |
| // threshold, align columns and do not use formfeed |
| if prevSize > 0 && size > 0 { |
| const smallSize = 20 |
| if prevSize <= smallSize && size <= smallSize { |
| useFF = false |
| } else { |
| const r = 4 // threshold |
| ratio := float64(size) / float64(prevSize) |
| useFF = ratio <= 1/r || r <= ratio |
| } |
| } |
| |
| if i > 0 { |
| switch { |
| case mode&commaSep != 0: |
| p.print(token.COMMA) |
| case mode&periodSep != 0: |
| p.print(token.PERIOD) |
| } |
| needsBlank := mode&periodSep == 0 // period-separated list elements don't need a blank |
| if prevLine < line && prevLine > 0 && line > 0 { |
| // lines are broken using newlines so comments remain aligned |
| // unless forceFF is set or there are multiple expressions on |
| // the same line in which case formfeed is used |
| if p.linebreak(line, 0, ws, useFF || prevBreak+1 < i) { |
| ws = ignore |
| *multiLine = true |
| prevBreak = i |
| needsBlank = false // we got a line break instead |
| } |
| } |
| if needsBlank { |
| p.print(blank) |
| } |
| } |
| |
| if isPair && size > 0 && len(list) > 1 { |
| // we have a key:value expression that fits onto one line and |
| // is in a list with more then one entry: use a column for the |
| // key such that consecutive entries can align if possible |
| p.expr(pair.Key, multiLine) |
| p.print(pair.Colon, token.COLON, vtab) |
| p.expr(pair.Value, multiLine) |
| } else { |
| p.expr0(x, depth, multiLine) |
| } |
| } |
| |
| if mode&commaTerm != 0 && next.IsValid() && p.pos.Line < next.Line { |
| // print a terminating comma if the next token is on a new line |
| p.print(token.COMMA) |
| if ws == ignore && mode&noIndent == 0 { |
| // unindent if we indented |
| p.print(unindent) |
| } |
| p.print(formfeed) // terminating comma needs a line break to look good |
| return |
| } |
| |
| if mode&blankEnd != 0 { |
| p.print(blank) |
| } |
| |
| if ws == ignore && mode&noIndent == 0 { |
| // unindent if we indented |
| p.print(unindent) |
| } |
| } |
| |
| |
| // Sets multiLine to true if the the parameter list spans multiple lines. |
| func (p *printer) parameters(fields *ast.FieldList, multiLine *bool) { |
| p.print(fields.Opening, token.LPAREN) |
| if len(fields.List) > 0 { |
| var prevLine, line int |
| for i, par := range fields.List { |
| if i > 0 { |
| p.print(token.COMMA) |
| if len(par.Names) > 0 { |
| line = p.fset.Position(par.Names[0].Pos()).Line |
| } else { |
| line = p.fset.Position(par.Type.Pos()).Line |
| } |
| if 0 < prevLine && prevLine < line && p.linebreak(line, 0, ignore, true) { |
| *multiLine = true |
| } else { |
| p.print(blank) |
| } |
| } |
| if len(par.Names) > 0 { |
| p.identList(par.Names, false, multiLine) |
| p.print(blank) |
| } |
| p.expr(par.Type, multiLine) |
| prevLine = p.fset.Position(par.Type.Pos()).Line |
| } |
| } |
| p.print(fields.Closing, token.RPAREN) |
| } |
| |
| |
| // Sets multiLine to true if the signature spans multiple lines. |
| func (p *printer) signature(params, result *ast.FieldList, multiLine *bool) { |
| p.parameters(params, multiLine) |
| n := result.NumFields() |
| if n > 0 { |
| p.print(blank) |
| if n == 1 && result.List[0].Names == nil { |
| // single anonymous result; no ()'s |
| p.expr(result.List[0].Type, multiLine) |
| return |
| } |
| p.parameters(result, multiLine) |
| } |
| } |
| |
| |
| func identListSize(list []*ast.Ident, maxSize int) (size int) { |
| for i, x := range list { |
| if i > 0 { |
| size += 2 // ", " |
| } |
| size += len(x.Name) |
| if size >= maxSize { |
| break |
| } |
| } |
| return |
| } |
| |
| |
| func (p *printer) isOneLineFieldList(list []*ast.Field) bool { |
| if len(list) != 1 { |
| return false // allow only one field |
| } |
| f := list[0] |
| if f.Tag != nil || f.Comment != nil { |
| return false // don't allow tags or comments |
| } |
| // only name(s) and type |
| const maxSize = 30 // adjust as appropriate, this is an approximate value |
| namesSize := identListSize(f.Names, maxSize) |
| if namesSize > 0 { |
| namesSize = 1 // blank between names and types |
| } |
| typeSize := p.nodeSize(f.Type, maxSize) |
| return namesSize+typeSize <= maxSize |
| } |
| |
| |
| func (p *printer) setLineComment(text string) { |
| p.setComment(&ast.CommentGroup{[]*ast.Comment{&ast.Comment{token.NoPos, text}}}) |
| } |
| |
| |
| func (p *printer) fieldList(fields *ast.FieldList, isStruct, isIncomplete bool) { |
| p.nesting++ |
| defer func() { |
| p.nesting-- |
| }() |
| |
| lbrace := fields.Opening |
| list := fields.List |
| rbrace := fields.Closing |
| srcIsOneLine := lbrace.IsValid() && rbrace.IsValid() && p.fset.Position(lbrace).Line == p.fset.Position(rbrace).Line |
| |
| if !isIncomplete && !p.commentBefore(p.fset.Position(rbrace)) && srcIsOneLine { |
| // possibly a one-line struct/interface |
| if len(list) == 0 { |
| // no blank between keyword and {} in this case |
| p.print(lbrace, token.LBRACE, rbrace, token.RBRACE) |
| return |
| } else if isStruct && p.isOneLineFieldList(list) { // for now ignore interfaces |
| // small enough - print on one line |
| // (don't use identList and ignore source line breaks) |
| p.print(lbrace, token.LBRACE, blank) |
| f := list[0] |
| for i, x := range f.Names { |
| if i > 0 { |
| p.print(token.COMMA, blank) |
| } |
| p.expr(x, ignoreMultiLine) |
| } |
| if len(f.Names) > 0 { |
| p.print(blank) |
| } |
| p.expr(f.Type, ignoreMultiLine) |
| p.print(blank, rbrace, token.RBRACE) |
| return |
| } |
| } |
| |
| // at least one entry or incomplete |
| p.print(blank, lbrace, token.LBRACE, indent, formfeed) |
| if isStruct { |
| |
| sep := vtab |
| if len(list) == 1 { |
| sep = blank |
| } |
| var ml bool |
| for i, f := range list { |
| if i > 0 { |
| p.linebreak(p.fset.Position(f.Pos()).Line, 1, ignore, ml) |
| } |
| ml = false |
| extraTabs := 0 |
| p.setComment(f.Doc) |
| if len(f.Names) > 0 { |
| // named fields |
| p.identList(f.Names, false, &ml) |
| p.print(sep) |
| p.expr(f.Type, &ml) |
| extraTabs = 1 |
| } else { |
| // anonymous field |
| p.expr(f.Type, &ml) |
| extraTabs = 2 |
| } |
| if f.Tag != nil { |
| if len(f.Names) > 0 && sep == vtab { |
| p.print(sep) |
| } |
| p.print(sep) |
| p.expr(f.Tag, &ml) |
| extraTabs = 0 |
| } |
| if f.Comment != nil { |
| for ; extraTabs > 0; extraTabs-- { |
| p.print(sep) |
| } |
| p.setComment(f.Comment) |
| } |
| } |
| if isIncomplete { |
| if len(list) > 0 { |
| p.print(formfeed) |
| } |
| p.flush(p.fset.Position(rbrace), token.RBRACE) // make sure we don't lose the last line comment |
| p.setLineComment("// contains filtered or unexported fields") |
| } |
| |
| } else { // interface |
| |
| var ml bool |
| for i, f := range list { |
| if i > 0 { |
| p.linebreak(p.fset.Position(f.Pos()).Line, 1, ignore, ml) |
| } |
| ml = false |
| p.setComment(f.Doc) |
| if ftyp, isFtyp := f.Type.(*ast.FuncType); isFtyp { |
| // method |
| p.expr(f.Names[0], &ml) |
| p.signature(ftyp.Params, ftyp.Results, &ml) |
| } else { |
| // embedded interface |
| p.expr(f.Type, &ml) |
| } |
| p.setComment(f.Comment) |
| } |
| if isIncomplete { |
| if len(list) > 0 { |
| p.print(formfeed) |
| } |
| p.flush(p.fset.Position(rbrace), token.RBRACE) // make sure we don't lose the last line comment |
| p.setLineComment("// contains filtered or unexported methods") |
| } |
| |
| } |
| p.print(unindent, formfeed, rbrace, token.RBRACE) |
| } |
| |
| |
| // ---------------------------------------------------------------------------- |
| // Expressions |
| |
| func walkBinary(e *ast.BinaryExpr) (has4, has5 bool, maxProblem int) { |
| switch e.Op.Precedence() { |
| case 4: |
| has4 = true |
| case 5: |
| has5 = true |
| } |
| |
| switch l := e.X.(type) { |
| case *ast.BinaryExpr: |
| if l.Op.Precedence() < e.Op.Precedence() { |
| // parens will be inserted. |
| // pretend this is an *ast.ParenExpr and do nothing. |
| break |
| } |
| h4, h5, mp := walkBinary(l) |
| has4 = has4 || h4 |
| has5 = has5 || h5 |
| if maxProblem < mp { |
| maxProblem = mp |
| } |
| } |
| |
| switch r := e.Y.(type) { |
| case *ast.BinaryExpr: |
| if r.Op.Precedence() <= e.Op.Precedence() { |
| // parens will be inserted. |
| // pretend this is an *ast.ParenExpr and do nothing. |
| break |
| } |
| h4, h5, mp := walkBinary(r) |
| has4 = has4 || h4 |
| has5 = has5 || h5 |
| if maxProblem < mp { |
| maxProblem = mp |
| } |
| |
| case *ast.StarExpr: |
| if e.Op == token.QUO { // `*/` |
| maxProblem = 5 |
| } |
| |
| case *ast.UnaryExpr: |
| switch e.Op.String() + r.Op.String() { |
| case "/*", "&&", "&^": |
| maxProblem = 5 |
| case "++", "--": |
| if maxProblem < 4 { |
| maxProblem = 4 |
| } |
| } |
| } |
| return |
| } |
| |
| |
| func cutoff(e *ast.BinaryExpr, depth int) int { |
| has4, has5, maxProblem := walkBinary(e) |
| if maxProblem > 0 { |
| return maxProblem + 1 |
| } |
| if has4 && has5 { |
| if depth == 1 { |
| return 5 |
| } |
| return 4 |
| } |
| if depth == 1 { |
| return 6 |
| } |
| return 4 |
| } |
| |
| |
| func diffPrec(expr ast.Expr, prec int) int { |
| x, ok := expr.(*ast.BinaryExpr) |
| if !ok || prec != x.Op.Precedence() { |
| return 1 |
| } |
| return 0 |
| } |
| |
| |
| func reduceDepth(depth int) int { |
| depth-- |
| if depth < 1 { |
| depth = 1 |
| } |
| return depth |
| } |
| |
| |
| // Format the binary expression: decide the cutoff and then format. |
| // Let's call depth == 1 Normal mode, and depth > 1 Compact mode. |
| // (Algorithm suggestion by Russ Cox.) |
| // |
| // The precedences are: |
| // 5 * / % << >> & &^ |
| // 4 + - | ^ |
| // 3 == != < <= > >= |
| // 2 && |
| // 1 || |
| // |
| // The only decision is whether there will be spaces around levels 4 and 5. |
| // There are never spaces at level 6 (unary), and always spaces at levels 3 and below. |
| // |
| // To choose the cutoff, look at the whole expression but excluding primary |
| // expressions (function calls, parenthesized exprs), and apply these rules: |
| // |
| // 1) If there is a binary operator with a right side unary operand |
| // that would clash without a space, the cutoff must be (in order): |
| // |
| // /* 6 |
| // && 6 |
| // &^ 6 |
| // ++ 5 |
| // -- 5 |
| // |
| // (Comparison operators always have spaces around them.) |
| // |
| // 2) If there is a mix of level 5 and level 4 operators, then the cutoff |
| // is 5 (use spaces to distinguish precedence) in Normal mode |
| // and 4 (never use spaces) in Compact mode. |
| // |
| // 3) If there are no level 4 operators or no level 5 operators, then the |
| // cutoff is 6 (always use spaces) in Normal mode |
| // and 4 (never use spaces) in Compact mode. |
| // |
| // Sets multiLine to true if the binary expression spans multiple lines. |
| func (p *printer) binaryExpr(x *ast.BinaryExpr, prec1, cutoff, depth int, multiLine *bool) { |
| prec := x.Op.Precedence() |
| if prec < prec1 { |
| // parenthesis needed |
| // Note: The parser inserts an ast.ParenExpr node; thus this case |
| // can only occur if the AST is created in a different way. |
| p.print(token.LPAREN) |
| p.expr0(x, reduceDepth(depth), multiLine) // parentheses undo one level of depth |
| p.print(token.RPAREN) |
| return |
| } |
| |
| printBlank := prec < cutoff |
| |
| ws := indent |
| p.expr1(x.X, prec, depth+diffPrec(x.X, prec), multiLine) |
| if printBlank { |
| p.print(blank) |
| } |
| xline := p.pos.Line // before the operator (it may be on the next line!) |
| yline := p.fset.Position(x.Y.Pos()).Line |
| p.print(x.OpPos, x.Op) |
| if xline != yline && xline > 0 && yline > 0 { |
| // at least one line break, but respect an extra empty line |
| // in the source |
| if p.linebreak(yline, 1, ws, true) { |
| ws = ignore |
| *multiLine = true |
| printBlank = false // no blank after line break |
| } |
| } |
| if printBlank { |
| p.print(blank) |
| } |
| p.expr1(x.Y, prec+1, depth+1, multiLine) |
| if ws == ignore { |
| p.print(unindent) |
| } |
| } |
| |
| |
| func isBinary(expr ast.Expr) bool { |
| _, ok := expr.(*ast.BinaryExpr) |
| return ok |
| } |
| |
| |
| // If the expression contains one or more selector expressions, splits it into |
| // two expressions at the rightmost period. Writes entire expr to suffix when |
| // selector isn't found. Rewrites AST nodes for calls, index expressions and |
| // type assertions, all of which may be found in selector chains, to make them |
| // parts of the chain. |
| func splitSelector(expr ast.Expr) (body, suffix ast.Expr) { |
| switch x := expr.(type) { |
| case *ast.SelectorExpr: |
| body, suffix = x.X, x.Sel |
| return |
| case *ast.CallExpr: |
| body, suffix = splitSelector(x.Fun) |
| if body != nil { |
| suffix = &ast.CallExpr{suffix, x.Lparen, x.Args, x.Ellipsis, x.Rparen} |
| return |
| } |
| case *ast.IndexExpr: |
| body, suffix = splitSelector(x.X) |
| if body != nil { |
| suffix = &ast.IndexExpr{suffix, x.Lbrack, x.Index, x.Rbrack} |
| return |
| } |
| case *ast.SliceExpr: |
| body, suffix = splitSelector(x.X) |
| if body != nil { |
| suffix = &ast.SliceExpr{suffix, x.Lbrack, x.Low, x.High, x.Rbrack} |
| return |
| } |
| case *ast.TypeAssertExpr: |
| body, suffix = splitSelector(x.X) |
| if body != nil { |
| suffix = &ast.TypeAssertExpr{suffix, x.Type} |
| return |
| } |
| } |
| suffix = expr |
| return |
| } |
| |
| |
| // Convert an expression into an expression list split at the periods of |
| // selector expressions. |
| func selectorExprList(expr ast.Expr) (list []ast.Expr) { |
| // split expression |
| for expr != nil { |
| var suffix ast.Expr |
| expr, suffix = splitSelector(expr) |
| list = append(list, suffix) |
| } |
| |
| // reverse list |
| for i, j := 0, len(list)-1; i < j; i, j = i+1, j-1 { |
| list[i], list[j] = list[j], list[i] |
| } |
| |
| return |
| } |
| |
| |
| // Sets multiLine to true if the expression spans multiple lines. |
| func (p *printer) expr1(expr ast.Expr, prec1, depth int, multiLine *bool) { |
| p.print(expr.Pos()) |
| |
| switch x := expr.(type) { |
| case *ast.BadExpr: |
| p.print("BadExpr") |
| |
| case *ast.Ident: |
| p.print(x) |
| |
| case *ast.BinaryExpr: |
| if depth < 1 { |
| p.internalError("depth < 1:", depth) |
| depth = 1 |
| } |
| p.binaryExpr(x, prec1, cutoff(x, depth), depth, multiLine) |
| |
| case *ast.KeyValueExpr: |
| p.expr(x.Key, multiLine) |
| p.print(x.Colon, token.COLON, blank) |
| p.expr(x.Value, multiLine) |
| |
| case *ast.StarExpr: |
| const prec = token.UnaryPrec |
| if prec < prec1 { |
| // parenthesis needed |
| p.print(token.LPAREN) |
| p.print(token.MUL) |
| p.expr(x.X, multiLine) |
| p.print(token.RPAREN) |
| } else { |
| // no parenthesis needed |
| p.print(token.MUL) |
| p.expr(x.X, multiLine) |
| } |
| |
| case *ast.UnaryExpr: |
| const prec = token.UnaryPrec |
| if prec < prec1 { |
| // parenthesis needed |
| p.print(token.LPAREN) |
| p.expr(x, multiLine) |
| p.print(token.RPAREN) |
| } else { |
| // no parenthesis needed |
| p.print(x.Op) |
| if x.Op == token.RANGE { |
| // TODO(gri) Remove this code if it cannot be reached. |
| p.print(blank) |
| } |
| p.expr1(x.X, prec, depth, multiLine) |
| } |
| |
| case *ast.BasicLit: |
| p.print(x) |
| |
| case *ast.FuncLit: |
| p.expr(x.Type, multiLine) |
| p.funcBody(x.Body, p.distance(x.Type.Pos(), p.pos), true, multiLine) |
| |
| case *ast.ParenExpr: |
| if _, hasParens := x.X.(*ast.ParenExpr); hasParens { |
| // don't print parentheses around an already parenthesized expression |
| // TODO(gri) consider making this more general and incorporate precedence levels |
| p.expr0(x.X, reduceDepth(depth), multiLine) // parentheses undo one level of depth |
| } else { |
| p.print(token.LPAREN) |
| p.expr0(x.X, reduceDepth(depth), multiLine) // parentheses undo one level of depth |
| p.print(x.Rparen, token.RPAREN) |
| } |
| |
| case *ast.SelectorExpr: |
| parts := selectorExprList(expr) |
| p.exprList(token.NoPos, parts, depth, periodSep, multiLine, token.NoPos) |
| |
| case *ast.TypeAssertExpr: |
| p.expr1(x.X, token.HighestPrec, depth, multiLine) |
| p.print(token.PERIOD, token.LPAREN) |
| if x.Type != nil { |
| p.expr(x.Type, multiLine) |
| } else { |
| p.print(token.TYPE) |
| } |
| p.print(token.RPAREN) |
| |
| case *ast.IndexExpr: |
| // TODO(gri): should treat[] like parentheses and undo one level of depth |
| p.expr1(x.X, token.HighestPrec, 1, multiLine) |
| p.print(x.Lbrack, token.LBRACK) |
| p.expr0(x.Index, depth+1, multiLine) |
| p.print(x.Rbrack, token.RBRACK) |
| |
| case *ast.SliceExpr: |
| // TODO(gri): should treat[] like parentheses and undo one level of depth |
| p.expr1(x.X, token.HighestPrec, 1, multiLine) |
| p.print(x.Lbrack, token.LBRACK) |
| if x.Low != nil { |
| p.expr0(x.Low, depth+1, multiLine) |
| } |
| // blanks around ":" if both sides exist and either side is a binary expression |
| if depth <= 1 && x.Low != nil && x.High != nil && (isBinary(x.Low) || isBinary(x.High)) { |
| p.print(blank, token.COLON, blank) |
| } else { |
| p.print(token.COLON) |
| } |
| if x.High != nil { |
| p.expr0(x.High, depth+1, multiLine) |
| } |
| p.print(x.Rbrack, token.RBRACK) |
| |
| case *ast.CallExpr: |
| if len(x.Args) > 1 { |
| depth++ |
| } |
| p.expr1(x.Fun, token.HighestPrec, depth, multiLine) |
| p.print(x.Lparen, token.LPAREN) |
| p.exprList(x.Lparen, x.Args, depth, commaSep|commaTerm, multiLine, x.Rparen) |
| if x.Ellipsis.IsValid() { |
| p.print(x.Ellipsis, token.ELLIPSIS) |
| } |
| p.print(x.Rparen, token.RPAREN) |
| |
| case *ast.CompositeLit: |
| // composite literal elements that are composite literals themselves may have the type omitted |
| if x.Type != nil { |
| p.expr1(x.Type, token.HighestPrec, depth, multiLine) |
| } |
| p.print(x.Lbrace, token.LBRACE) |
| p.exprList(x.Lbrace, x.Elts, 1, commaSep|commaTerm, multiLine, x.Rbrace) |
| // do not insert extra line breaks because of comments before |
| // the closing '}' as it might break the code if there is no |
| // trailing ',' |
| p.print(noExtraLinebreak, x.Rbrace, token.RBRACE, noExtraLinebreak) |
| |
| case *ast.Ellipsis: |
| p.print(token.ELLIPSIS) |
| if x.Elt != nil { |
| p.expr(x.Elt, multiLine) |
| } |
| |
| case *ast.ArrayType: |
| p.print(token.LBRACK) |
| if x.Len != nil { |
| p.expr(x.Len, multiLine) |
| } |
| p.print(token.RBRACK) |
| p.expr(x.Elt, multiLine) |
| |
| case *ast.StructType: |
| p.print(token.STRUCT) |
| p.fieldList(x.Fields, true, x.Incomplete) |
| |
| case *ast.FuncType: |
| p.print(token.FUNC) |
| p.signature(x.Params, x.Results, multiLine) |
| |
| case *ast.InterfaceType: |
| p.print(token.INTERFACE) |
| p.fieldList(x.Methods, false, x.Incomplete) |
| |
| case *ast.MapType: |
| p.print(token.MAP, token.LBRACK) |
| p.expr(x.Key, multiLine) |
| p.print(token.RBRACK) |
| p.expr(x.Value, multiLine) |
| |
| case *ast.ChanType: |
| switch x.Dir { |
| case ast.SEND | ast.RECV: |
| p.print(token.CHAN) |
| case ast.RECV: |
| p.print(token.ARROW, token.CHAN) |
| case ast.SEND: |
| p.print(token.CHAN, token.ARROW) |
| } |
| p.print(blank) |
| p.expr(x.Value, multiLine) |
| |
| default: |
| panic("unreachable") |
| } |
| |
| return |
| } |
| |
| |
| func (p *printer) expr0(x ast.Expr, depth int, multiLine *bool) { |
| p.expr1(x, token.LowestPrec, depth, multiLine) |
| } |
| |
| |
| // Sets multiLine to true if the expression spans multiple lines. |
| func (p *printer) expr(x ast.Expr, multiLine *bool) { |
| const depth = 1 |
| p.expr1(x, token.LowestPrec, depth, multiLine) |
| } |
| |
| |
| // ---------------------------------------------------------------------------- |
| // Statements |
| |
| // Print the statement list indented, but without a newline after the last statement. |
| // Extra line breaks between statements in the source are respected but at most one |
| // empty line is printed between statements. |
| func (p *printer) stmtList(list []ast.Stmt, _indent int, nextIsRBrace bool) { |
| // TODO(gri): fix _indent code |
| if _indent > 0 { |
| p.print(indent) |
| } |
| var multiLine bool |
| for i, s := range list { |
| // _indent == 0 only for lists of switch/select case clauses; |
| // in those cases each clause is a new section |
| p.linebreak(p.fset.Position(s.Pos()).Line, 1, ignore, i == 0 || _indent == 0 || multiLine) |
| multiLine = false |
| p.stmt(s, nextIsRBrace && i == len(list)-1, &multiLine) |
| } |
| if _indent > 0 { |
| p.print(unindent) |
| } |
| } |
| |
| |
| // block prints an *ast.BlockStmt; it always spans at least two lines. |
| func (p *printer) block(s *ast.BlockStmt, indent int) { |
| p.print(s.Pos(), token.LBRACE) |
| p.stmtList(s.List, indent, true) |
| p.linebreak(p.fset.Position(s.Rbrace).Line, 1, ignore, true) |
| p.print(s.Rbrace, token.RBRACE) |
| } |
| |
| |
| func isTypeName(x ast.Expr) bool { |
| switch t := x.(type) { |
| case *ast.Ident: |
| return true |
| case *ast.SelectorExpr: |
| return isTypeName(t.X) |
| } |
| return false |
| } |
| |
| |
| func stripParens(x ast.Expr) ast.Expr { |
| if px, strip := x.(*ast.ParenExpr); strip { |
| // parentheses must not be stripped if there are any |
| // unparenthesized composite literals starting with |
| // a type name |
| ast.Inspect(px.X, func(node ast.Node) bool { |
| switch x := node.(type) { |
| case *ast.ParenExpr: |
| // parentheses protect enclosed composite literals |
| return false |
| case *ast.CompositeLit: |
| if isTypeName(x.Type) { |
| strip = false // do not strip parentheses |
| } |
| return false |
| } |
| // in all other cases, keep inspecting |
| return true |
| }) |
| if strip { |
| return stripParens(px.X) |
| } |
| } |
| return x |
| } |
| |
| |
| func (p *printer) controlClause(isForStmt bool, init ast.Stmt, expr ast.Expr, post ast.Stmt) { |
| p.print(blank) |
| needsBlank := false |
| if init == nil && post == nil { |
| // no semicolons required |
| if expr != nil { |
| p.expr(stripParens(expr), ignoreMultiLine) |
| needsBlank = true |
| } |
| } else { |
| // all semicolons required |
| // (they are not separators, print them explicitly) |
| if init != nil { |
| p.stmt(init, false, ignoreMultiLine) |
| } |
| p.print(token.SEMICOLON, blank) |
| if expr != nil { |
| p.expr(stripParens(expr), ignoreMultiLine) |
| needsBlank = true |
| } |
| if isForStmt { |
| p.print(token.SEMICOLON, blank) |
| needsBlank = false |
| if post != nil { |
| p.stmt(post, false, ignoreMultiLine) |
| needsBlank = true |
| } |
| } |
| } |
| if needsBlank { |
| p.print(blank) |
| } |
| } |
| |
| |
| // Sets multiLine to true if the statements spans multiple lines. |
| func (p *printer) stmt(stmt ast.Stmt, nextIsRBrace bool, multiLine *bool) { |
| p.print(stmt.Pos()) |
| |
| switch s := stmt.(type) { |
| case *ast.BadStmt: |
| p.print("BadStmt") |
| |
| case *ast.DeclStmt: |
| p.decl(s.Decl, multiLine) |
| |
| case *ast.EmptyStmt: |
| // nothing to do |
| |
| case *ast.LabeledStmt: |
| // a "correcting" unindent immediately following a line break |
| // is applied before the line break if there is no comment |
| // between (see writeWhitespace) |
| p.print(unindent) |
| p.expr(s.Label, multiLine) |
| p.print(s.Colon, token.COLON, indent) |
| if e, isEmpty := s.Stmt.(*ast.EmptyStmt); isEmpty { |
| if !nextIsRBrace { |
| p.print(newline, e.Pos(), token.SEMICOLON) |
| break |
| } |
| } else { |
| p.linebreak(p.fset.Position(s.Stmt.Pos()).Line, 1, ignore, true) |
| } |
| p.stmt(s.Stmt, nextIsRBrace, multiLine) |
| |
| case *ast.ExprStmt: |
| const depth = 1 |
| p.expr0(s.X, depth, multiLine) |
| |
| case *ast.SendStmt: |
| const depth = 1 |
| p.expr0(s.Chan, depth, multiLine) |
| p.print(blank, s.Arrow, token.ARROW, blank) |
| p.expr0(s.Value, depth, multiLine) |
| |
| case *ast.IncDecStmt: |
| const depth = 1 |
| p.expr0(s.X, depth+1, multiLine) |
| p.print(s.TokPos, s.Tok) |
| |
| case *ast.AssignStmt: |
| var depth = 1 |
| if len(s.Lhs) > 1 && len(s.Rhs) > 1 { |
| depth++ |
| } |
| p.exprList(s.Pos(), s.Lhs, depth, commaSep, multiLine, s.TokPos) |
| p.print(blank, s.TokPos, s.Tok) |
| p.exprList(s.TokPos, s.Rhs, depth, blankStart|commaSep, multiLine, token.NoPos) |
| |
| case *ast.GoStmt: |
| p.print(token.GO, blank) |
| p.expr(s.Call, multiLine) |
| |
| case *ast.DeferStmt: |
| p.print(token.DEFER, blank) |
| p.expr(s.Call, multiLine) |
| |
| case *ast.ReturnStmt: |
| p.print(token.RETURN) |
| if s.Results != nil { |
| p.exprList(s.Pos(), s.Results, 1, blankStart|commaSep, multiLine, token.NoPos) |
| } |
| |
| case *ast.BranchStmt: |
| p.print(s.Tok) |
| if s.Label != nil { |
| p.print(blank) |
| p.expr(s.Label, multiLine) |
| } |
| |
| case *ast.BlockStmt: |
| p.block(s, 1) |
| *multiLine = true |
| |
| case *ast.IfStmt: |
| p.print(token.IF) |
| p.controlClause(false, s.Init, s.Cond, nil) |
| p.block(s.Body, 1) |
| *multiLine = true |
| if s.Else != nil { |
| p.print(blank, token.ELSE, blank) |
| switch s.Else.(type) { |
| case *ast.BlockStmt, *ast.IfStmt: |
| p.stmt(s.Else, nextIsRBrace, ignoreMultiLine) |
| default: |
| p.print(token.LBRACE, indent, formfeed) |
| p.stmt(s.Else, true, ignoreMultiLine) |
| p.print(unindent, formfeed, token.RBRACE) |
| } |
| } |
| |
| case *ast.CaseClause: |
| if s.List != nil { |
| p.print(token.CASE) |
| p.exprList(s.Pos(), s.List, 1, blankStart|commaSep, multiLine, s.Colon) |
| } else { |
| p.print(token.DEFAULT) |
| } |
| p.print(s.Colon, token.COLON) |
| p.stmtList(s.Body, 1, nextIsRBrace) |
| |
| case *ast.SwitchStmt: |
| p.print(token.SWITCH) |
| p.controlClause(false, s.Init, s.Tag, nil) |
| p.block(s.Body, 0) |
| *multiLine = true |
| |
| case *ast.TypeSwitchStmt: |
| p.print(token.SWITCH) |
| if s.Init != nil { |
| p.print(blank) |
| p.stmt(s.Init, false, ignoreMultiLine) |
| p.print(token.SEMICOLON) |
| } |
| p.print(blank) |
| p.stmt(s.Assign, false, ignoreMultiLine) |
| p.print(blank) |
| p.block(s.Body, 0) |
| *multiLine = true |
| |
| case *ast.CommClause: |
| if s.Comm != nil { |
| p.print(token.CASE, blank) |
| p.stmt(s.Comm, false, ignoreMultiLine) |
| } else { |
| p.print(token.DEFAULT) |
| } |
| p.print(s.Colon, token.COLON) |
| p.stmtList(s.Body, 1, nextIsRBrace) |
| |
| case *ast.SelectStmt: |
| p.print(token.SELECT, blank) |
| body := s.Body |
| if len(body.List) == 0 && !p.commentBefore(p.fset.Position(body.Rbrace)) { |
| // print empty select statement w/o comments on one line |
| p.print(body.Lbrace, token.LBRACE, body.Rbrace, token.RBRACE) |
| } else { |
| p.block(body, 0) |
| *multiLine = true |
| } |
| |
| case *ast.ForStmt: |
| p.print(token.FOR) |
| p.controlClause(true, s.Init, s.Cond, s.Post) |
| p.block(s.Body, 1) |
| *multiLine = true |
| |
| case *ast.RangeStmt: |
| p.print(token.FOR, blank) |
| p.expr(s.Key, multiLine) |
| if s.Value != nil { |
| p.print(token.COMMA, blank) |
| p.expr(s.Value, multiLine) |
| } |
| p.print(blank, s.TokPos, s.Tok, blank, token.RANGE, blank) |
| p.expr(stripParens(s.X), multiLine) |
| p.print(blank) |
| p.block(s.Body, 1) |
| *multiLine = true |
| |
| default: |
| panic("unreachable") |
| } |
| |
| return |
| } |
| |
| |
| // ---------------------------------------------------------------------------- |
| // Declarations |
| |
| // The keepTypeColumn function determines if the type column of a series of |
| // consecutive const or var declarations must be kept, or if initialization |
| // values (V) can be placed in the type column (T) instead. The i'th entry |
| // in the result slice is true if the type column in spec[i] must be kept. |
| // |
| // For example, the declaration: |
| // |
| // const ( |
| // foobar int = 42 // comment |
| // x = 7 // comment |
| // foo |
| // bar = 991 |
| // ) |
| // |
| // leads to the type/values matrix below. A run of value columns (V) can |
| // be moved into the type column if there is no type for any of the values |
| // in that column (we only move entire columns so that they align properly). |
| // |
| // matrix formatted result |
| // matrix |
| // T V -> T V -> true there is a T and so the type |
| // - V - V true column must be kept |
| // - - - - false |
| // - V V - false V is moved into T column |
| // |
| func keepTypeColumn(specs []ast.Spec) []bool { |
| m := make([]bool, len(specs)) |
| |
| populate := func(i, j int, keepType bool) { |
| if keepType { |
| for ; i < j; i++ { |
| m[i] = true |
| } |
| } |
| } |
| |
| i0 := -1 // if i0 >= 0 we are in a run and i0 is the start of the run |
| var keepType bool |
| for i, s := range specs { |
| t := s.(*ast.ValueSpec) |
| if t.Values != nil { |
| if i0 < 0 { |
| // start of a run of ValueSpecs with non-nil Values |
| i0 = i |
| keepType = false |
| } |
| } else { |
| if i0 >= 0 { |
| // end of a run |
| populate(i0, i, keepType) |
| i0 = -1 |
| } |
| } |
| if t.Type != nil { |
| keepType = true |
| } |
| } |
| if i0 >= 0 { |
| // end of a run |
| populate(i0, len(specs), keepType) |
| } |
| |
| return m |
| } |
| |
| |
| func (p *printer) valueSpec(s *ast.ValueSpec, keepType, doIndent bool, multiLine *bool) { |
| p.setComment(s.Doc) |
| p.identList(s.Names, doIndent, multiLine) // always present |
| extraTabs := 3 |
| if s.Type != nil || keepType { |
| p.print(vtab) |
| extraTabs-- |
| } |
| if s.Type != nil { |
| p.expr(s.Type, multiLine) |
| } |
| if s.Values != nil { |
| p.print(vtab, token.ASSIGN) |
| p.exprList(token.NoPos, s.Values, 1, blankStart|commaSep, multiLine, token.NoPos) |
| extraTabs-- |
| } |
| if s.Comment != nil { |
| for ; extraTabs > 0; extraTabs-- { |
| p.print(vtab) |
| } |
| p.setComment(s.Comment) |
| } |
| } |
| |
| |
| // The parameter n is the number of specs in the group. If doIndent is set, |
| // multi-line identifier lists in the spec are indented when the first |
| // linebreak is encountered. |
| // Sets multiLine to true if the spec spans multiple lines. |
| // |
| func (p *printer) spec(spec ast.Spec, n int, doIndent bool, multiLine *bool) { |
| switch s := spec.(type) { |
| case *ast.ImportSpec: |
| p.setComment(s.Doc) |
| if s.Name != nil { |
| p.expr(s.Name, multiLine) |
| p.print(blank) |
| } |
| p.expr(s.Path, multiLine) |
| p.setComment(s.Comment) |
| |
| case *ast.ValueSpec: |
| if n != 1 { |
| p.internalError("expected n = 1; got", n) |
| } |
| p.setComment(s.Doc) |
| p.identList(s.Names, doIndent, multiLine) // always present |
| if s.Type != nil { |
| p.print(blank) |
| p.expr(s.Type, multiLine) |
| } |
| if s.Values != nil { |
| p.print(blank, token.ASSIGN) |
| p.exprList(token.NoPos, s.Values, 1, blankStart|commaSep, multiLine, token.NoPos) |
| } |
| p.setComment(s.Comment) |
| |
| case *ast.TypeSpec: |
| p.setComment(s.Doc) |
| p.expr(s.Name, multiLine) |
| if n == 1 { |
| p.print(blank) |
| } else { |
| p.print(vtab) |
| } |
| p.expr(s.Type, multiLine) |
| p.setComment(s.Comment) |
| |
| default: |
| panic("unreachable") |
| } |
| } |
| |
| |
| // Sets multiLine to true if the declaration spans multiple lines. |
| func (p *printer) genDecl(d *ast.GenDecl, multiLine *bool) { |
| p.setComment(d.Doc) |
| p.print(d.Pos(), d.Tok, blank) |
| |
| if d.Lparen.IsValid() { |
| // group of parenthesized declarations |
| p.print(d.Lparen, token.LPAREN) |
| if n := len(d.Specs); n > 0 { |
| p.print(indent, formfeed) |
| if n > 1 && (d.Tok == token.CONST || d.Tok == token.VAR) { |
| // two or more grouped const/var declarations: |
| // determine if the type column must be kept |
| keepType := keepTypeColumn(d.Specs) |
| var ml bool |
| for i, s := range d.Specs { |
| if i > 0 { |
| p.linebreak(p.fset.Position(s.Pos()).Line, 1, ignore, ml) |
| } |
| ml = false |
| p.valueSpec(s.(*ast.ValueSpec), keepType[i], false, &ml) |
| } |
| } else { |
| var ml bool |
| for i, s := range d.Specs { |
| if i > 0 { |
| p.linebreak(p.fset.Position(s.Pos()).Line, 1, ignore, ml) |
| } |
| ml = false |
| p.spec(s, n, false, &ml) |
| } |
| } |
| p.print(unindent, formfeed) |
| *multiLine = true |
| } |
| p.print(d.Rparen, token.RPAREN) |
| |
| } else { |
| // single declaration |
| p.spec(d.Specs[0], 1, true, multiLine) |
| } |
| } |
| |
| |
| // nodeSize determines the size of n in chars after formatting. |
| // The result is <= maxSize if the node fits on one line with at |
| // most maxSize chars and the formatted output doesn't contain |
| // any control chars. Otherwise, the result is > maxSize. |
| // |
| func (p *printer) nodeSize(n ast.Node, maxSize int) (size int) { |
| // nodeSize invokes the printer, which may invoke nodeSize |
| // recursively. For deep composite literal nests, this can |
| // lead to an exponential algorithm. Remember previous |
| // results to prune the recursion (was issue 1628). |
| if size, found := p.nodeSizes[n]; found { |
| return size |
| } |
| |
| size = maxSize + 1 // assume n doesn't fit |
| p.nodeSizes[n] = size |
| |
| // nodeSize computation must be independent of particular |
| // style so that we always get the same decision; print |
| // in RawFormat |
| cfg := Config{Mode: RawFormat} |
| var buf bytes.Buffer |
| if _, err := cfg.fprint(&buf, p.fset, n, p.nodeSizes); err != nil { |
| return |
| } |
| if buf.Len() <= maxSize { |
| for _, ch := range buf.Bytes() { |
| if ch < ' ' { |
| return |
| } |
| } |
| size = buf.Len() // n fits |
| p.nodeSizes[n] = size |
| } |
| return |
| } |
| |
| |
| func (p *printer) isOneLineFunc(b *ast.BlockStmt, headerSize int) bool { |
| pos1 := b.Pos() |
| pos2 := b.Rbrace |
| if pos1.IsValid() && pos2.IsValid() && p.fset.Position(pos1).Line != p.fset.Position(pos2).Line { |
| // opening and closing brace are on different lines - don't make it a one-liner |
| return false |
| } |
| if len(b.List) > 5 || p.commentBefore(p.fset.Position(pos2)) { |
| // too many statements or there is a comment inside - don't make it a one-liner |
| return false |
| } |
| // otherwise, estimate body size |
| const maxSize = 100 |
| bodySize := 0 |
| for i, s := range b.List { |
| if i > 0 { |
| bodySize += 2 // space for a semicolon and blank |
| } |
| bodySize += p.nodeSize(s, maxSize) |
| } |
| return headerSize+bodySize <= maxSize |
| } |
| |
| |
| // Sets multiLine to true if the function body spans multiple lines. |
| func (p *printer) funcBody(b *ast.BlockStmt, headerSize int, isLit bool, multiLine *bool) { |
| if b == nil { |
| return |
| } |
| |
| p.nesting++ |
| defer func() { |
| p.nesting-- |
| }() |
| |
| if p.isOneLineFunc(b, headerSize) { |
| sep := vtab |
| if isLit { |
| sep = blank |
| } |
| p.print(sep, b.Lbrace, token.LBRACE) |
| if len(b.List) > 0 { |
| p.print(blank) |
| for i, s := range b.List { |
| if i > 0 { |
| p.print(token.SEMICOLON, blank) |
| } |
| p.stmt(s, i == len(b.List)-1, ignoreMultiLine) |
| } |
| p.print(blank) |
| } |
| p.print(b.Rbrace, token.RBRACE) |
| return |
| } |
| |
| p.print(blank) |
| p.block(b, 1) |
| *multiLine = true |
| } |
| |
| |
| // distance returns the column difference between from and to if both |
| // are on the same line; if they are on different lines (or unknown) |
| // the result is infinity. |
| func (p *printer) distance(from0 token.Pos, to token.Position) int { |
| from := p.fset.Position(from0) |
| if from.IsValid() && to.IsValid() && from.Line == to.Line { |
| return to.Column - from.Column |
| } |
| return infinity |
| } |
| |
| |
| // Sets multiLine to true if the declaration spans multiple lines. |
| func (p *printer) funcDecl(d *ast.FuncDecl, multiLine *bool) { |
| p.setComment(d.Doc) |
| p.print(d.Pos(), token.FUNC, blank) |
| if d.Recv != nil { |
| p.parameters(d.Recv, multiLine) // method: print receiver |
| p.print(blank) |
| } |
| p.expr(d.Name, multiLine) |
| p.signature(d.Type.Params, d.Type.Results, multiLine) |
| p.funcBody(d.Body, p.distance(d.Pos(), p.pos), false, multiLine) |
| } |
| |
| |
| // Sets multiLine to true if the declaration spans multiple lines. |
| func (p *printer) decl(decl ast.Decl, multiLine *bool) { |
| switch d := decl.(type) { |
| case *ast.BadDecl: |
| p.print(d.Pos(), "BadDecl") |
| case *ast.GenDecl: |
| p.genDecl(d, multiLine) |
| case *ast.FuncDecl: |
| p.funcDecl(d, multiLine) |
| default: |
| panic("unreachable") |
| } |
| } |
| |
| |
| // ---------------------------------------------------------------------------- |
| // Files |
| |
| func declToken(decl ast.Decl) (tok token.Token) { |
| tok = token.ILLEGAL |
| switch d := decl.(type) { |
| case *ast.GenDecl: |
| tok = d.Tok |
| case *ast.FuncDecl: |
| tok = token.FUNC |
| } |
| return |
| } |
| |
| |
| func (p *printer) file(src *ast.File) { |
| p.setComment(src.Doc) |
| p.print(src.Pos(), token.PACKAGE, blank) |
| p.expr(src.Name, ignoreMultiLine) |
| |
| if len(src.Decls) > 0 { |
| tok := token.ILLEGAL |
| for _, d := range src.Decls { |
| prev := tok |
| tok = declToken(d) |
| // if the declaration token changed (e.g., from CONST to TYPE) |
| // print an empty line between top-level declarations |
| min := 1 |
| if prev != tok { |
| min = 2 |
| } |
| p.linebreak(p.fset.Position(d.Pos()).Line, min, ignore, false) |
| p.decl(d, ignoreMultiLine) |
| } |
| } |
| |
| p.print(newline) |
| } |