usr/gri/pretty/printer.go - go - Git at Google

 // 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.

 package Printer

 import Strings "strings"
 import Scanner "scanner"
 import AST "ast"
 import Flag "flag"
 import Fmt "fmt"

 var tabwith = Flag.Int("tabwidth", 4, nil, "tab width");


 // ----------------------------------------------------------------------------
 // Support

 func assert(p bool) {
 	if !p {
 		panic("assert failed");
 	}
 }


 func PrintBlanks(n int) {
 	// TODO make this faster
 	for ; n > 0; n-- {
 		print(" ");
 	}
 }


 // ----------------------------------------------------------------------------
 // Implemententation of flexible tab stops.
 // (http://nickgravgaard.com/elastictabstops/index.html)

 type Buffer struct {
 	segment string;  // current line segment
 	lines AST.List;  // a list of lines; and each line is a list of strings
 }


 func (b *Buffer) Line(i int) *AST.List {
 	return b.lines.at(i).(*AST.List);
 }


 func (b *Buffer) Tab() {
 	b.lines.at(b.lines.len() - 1).(*AST.List).Add(b.segment);
 	b.segment = "";
 }


 func (b *Buffer) Newline() {
 	b.Tab();  // add last segment to current line
 	b.lines.Add(AST.NewList());
 }


 func (b *Buffer) Print(s string) {
 	b.segment += s;
 }


 func (b *Buffer) Init() {
 	b.lines.Init();
 	b.lines.Add(AST.NewList());
 }


 func (b *Buffer) PrintLines(line0, line1 int, widths *AST.List) {
 	for i := line0; i < line1; i++ {
 		nsep := 0;
 		line := b.Line(i);
 		for j := 0; j < line.len(); j++ {
 			s := line.at(j).(string);
 			PrintBlanks(nsep);
 			print(s);
 			if j < widths.len() {
 				nsep = widths.at(j).(int) - len(s);
 				assert(nsep >= 0);
 				if nsep < int(tabwith.IVal()) {
 					nsep = int(tabwith.IVal());
 				}
 			} else {
 				nsep = 0;
 			}
 		}
 		println();
 	}
 }


 func (b *Buffer) Format(line0, line1 int, widths *AST.List) {
 	i0, i1 := line0, line0;
 	column := widths.len();
 	width := -1;
 	for i := line0; i < line1; i++ {
 		line := b.Line(i);
 		if column < line.len() - 1 {
 			if width < 0 {
 				// column start
 				i1 = i;
 				b.PrintLines(i0, i1, widths);
 			}
 			w := len(line.at(column).(string));
 			if w > width {
 				width = w;
 			}
 		} else {
 			if width >= 0 {
 				// column end
 				i0 = i;
 				widths.Add(width);
 				b.Format(i1, i0, widths);
 				widths.Pop();
 				width = -1;
 			}
 		}
 	}
 	b.PrintLines(i0, line1, widths);
 }


 func (b *Buffer) Dump() {
 	for i := 0; i < b.lines.len(); i++ {
 		line := b.Line(i);
 		print("(", i, ") ");
 		for j := 0; j < line.len(); j++ {
 			print("[", line.at(j).(string), "]");
 		}
 		print("\n");
 	}
 	print("\n");
 }


 func (b *Buffer) Flush() {
 	b.Tab();  // add last segment to current line
 	b.Format(0, b.lines.len(), AST.NewList());
 	b.lines.Clear();
 	b.lines.Add(AST.NewList());
 }


 // ----------------------------------------------------------------------------
 // Printer

 export type Printer struct {
 	buf Buffer;

 	// formatting control
 	level int;  // true scope level
 	indent int;  // indentation level
 	semi bool;  // pending ";"
 	newl int;  // pending "\n"'s

 	// comments
 	clist *AST.List;
 	cindex int;
 	cpos int;
 }


 func CountNewlinesAndTabs(s string) (int, int, string) {
 	nls, tabs := 0, 0;
 	for i := 0; i < len(s); i++ {
 		switch ch := s[i]; ch {
 		case '\n': nls++;
 		case '\t': tabs++;
 		case ' ':
 		default:
 			// non-whitespace char
 			assert(ch == '/');
 			return nls, tabs, s[i : len(s)];
 		}
 	}
 	return nls, tabs, "";
 }


 func (P *Printer) String(pos int, s string) {
 	if P.semi && P.level > 0 {  // no semicolons at level 0
 		P.buf.Print(";");
 	}

 	/*
 	for pos > P.cpos {
 		// we have a comment
 		comment := P.clist.at(P.cindex).(*AST.Comment);
 		nls, tabs, text := CountNewlinesAndTabs(comment.text);

 		if nls == 0 && len(text) > 1 && text[1] == '/' {
 			P.buf.Tab();
 			P.buf.Print(text);
 			if P.newl <= 0 {
 				//P.newl = 1;  // line comments must have a newline
 			}
 		} else {
 			P.buf.Print(text);
 		}
 		P.cindex++;
 		if P.cindex < P.clist.len() {
 			P.cpos = P.clist.at(P.cindex).(*AST.Comment).pos;
 		} else {
 			P.cpos = 1000000000;  // infinite
 		}
 	}
 	*/

 	if P.newl > 0 {
 		P.buf.Newline();
 		if P.newl > 1 {
 			for i := P.newl; i > 1; i-- {
 				//P.buf.Flush();
 				P.buf.Newline();
 			}
 		}
 		for i := P.indent; i > 0; i-- {
 			P.buf.Tab();
 		}
 	}

 	P.buf.Print(s);

 	P.semi, P.newl = false, 0;
 }


 func (P *Printer) Blank() {
 	P.String(0, " ");
 }


 func (P *Printer) Token(pos int, tok int) {
 	P.String(pos, Scanner.TokenString(tok));
 }


 func (P *Printer) OpenScope(paren string) {
 	//P.semi, P.newl = false, 0;
 	P.String(0, paren);
 	P.level++;
 	P.indent++;
 	P.newl = 1;
 }


 func (P *Printer) CloseScope(paren string) {
 	P.indent--;
 	P.semi = false;
 	P.String(0, paren);
 	P.level--;
 	P.semi, P.newl = false, 1;
 }

 func (P *Printer) Error(pos int, tok int, msg string) {
 	P.String(0, "<");
 	P.Token(pos, tok);
 	P.String(0, " " + msg + ">");
 }


 // ----------------------------------------------------------------------------
 // Types

 func (P *Printer) Type(t *AST.Type)
 func (P *Printer) Expr(x *AST.Expr)

 func (P *Printer) Parameters(pos int, list *AST.List) {
 	P.String(pos, "(");
 	var prev int;
 	for i, n := 0, list.len(); i < n; i++ {
 		x := list.at(i).(*AST.Expr);
 		if i > 0 {
 			if prev == x.tok || prev == Scanner.TYPE {
 				P.String(0, ", ");
 			} else {
 				P.Blank();
 			}
 		}
 		P.Expr(x);
 		prev = x.tok;
 	}
 	P.String(0, ")");
 }


 func (P *Printer) Fields(list *AST.List) {
 	P.OpenScope("{");
 	var prev int;
 	for i, n := 0, list.len(); i < n; i++ {
 		x := list.at(i).(*AST.Expr);
 		if i > 0 {
 			if prev == Scanner.TYPE && x.tok != Scanner.STRING || prev == Scanner.STRING {
 				P.semi, P.newl = true, 1;
 			} else if prev == x.tok {
 				P.String(0, ", ");
 			} else {
 				P.Blank();
 			}
 		}
 		P.Expr(x);
 		prev = x.tok;
 	}
 	P.newl = 1;
 	P.CloseScope("}");
 }


 func (P *Printer) Type(t *AST.Type) {
 	switch t.tok {
 	case Scanner.IDENT:
 		P.Expr(t.expr);

 	case Scanner.LBRACK:
 		P.String(t.pos, "[");
 		if t.expr != nil {
 			P.Expr(t.expr);
 		}
 		P.String(0, "]");
 		P.Type(t.elt);

 	case Scanner.STRUCT, Scanner.INTERFACE:
 		P.Token(t.pos, t.tok);
 		if t.list != nil {
 			P.Blank();
 			P.Fields(t.list);
 		}

 	case Scanner.MAP:
 		P.String(t.pos, "map [");
 		P.Type(t.key);
 		P.String(0, "]");
 		P.Type(t.elt);

 	case Scanner.CHAN:
 		var m string;
 		switch t.mode {
 		case AST.FULL: m = "chan ";
 		case AST.RECV: m = "<-chan ";
 		case AST.SEND: m = "chan <- ";
 		}
 		P.String(t.pos, m);
 		P.Type(t.elt);

 	case Scanner.MUL:
 		P.String(t.pos, "*");
 		P.Type(t.elt);

 	case Scanner.LPAREN:
 		P.Parameters(t.pos, t.list);
 		if t.elt != nil {
 			P.Blank();
 			P.Parameters(0, t.elt.list);
 		}

 	case Scanner.ELLIPSIS:
 		P.String(t.pos, "...");

 	default:
 		P.Error(t.pos, t.tok, "type");
 	}
 }


 // ----------------------------------------------------------------------------
 // Expressions

 func (P *Printer) Block(list *AST.List, indent bool);

 func (P *Printer) Expr1(x *AST.Expr, prec1 int) {
 	if x == nil {
 		return;  // empty expression list
 	}

 	switch x.tok {
 	case Scanner.TYPE:
 		// type expr
 		P.Type(x.t);

 	case Scanner.IDENT, Scanner.INT, Scanner.STRING, Scanner.FLOAT:
 		// literal
 		P.String(x.pos, x.s);

 	case Scanner.FUNC:
 		// function literal
 		P.String(x.pos, "func");
 		P.Type(x.t);
 		P.Block(x.block, true);
 		P.newl = 0;

 	case Scanner.COMMA:
 		// list
 		// (don't use binary expression printing because of different spacing)
 		P.Expr(x.x);
 		P.String(x.pos, ", ");
 		P.Expr(x.y);

 	case Scanner.PERIOD:
 		// selector or type guard
 		P.Expr1(x.x, Scanner.HighestPrec);
 		P.String(x.pos, ".");
 		if x.y != nil {
 			P.Expr1(x.y, Scanner.HighestPrec);
 		} else {
 			P.String(0, "(");
 			P.Type(x.t);
 			P.String(0, ")");
 		}

 	case Scanner.LBRACK:
 		// index
 		P.Expr1(x.x, Scanner.HighestPrec);
 		P.String(x.pos, "[");
 		P.Expr1(x.y, 0);
 		P.String(0, "]");

 	case Scanner.LPAREN:
 		// call
 		P.Expr1(x.x, Scanner.HighestPrec);
 		P.String(x.pos, "(");
 		P.Expr(x.y);
 		P.String(0, ")");

 	case Scanner.LBRACE:
 		// composite
 		P.Type(x.t);
 		P.String(x.pos, "{");
 		P.Expr(x.y);
 		P.String(0, "}");

 	default:
 		// unary and binary expressions including ":" for pairs
 		prec := Scanner.UnaryPrec;
 		if x.x != nil {
 			prec = Scanner.Precedence(x.tok);
 		}
 		if prec < prec1 {
 			P.String(0, "(");
 		}
 		if x.x == nil {
 			// unary expression
 			P.Token(x.pos, x.tok);
 		} else {
 			// binary expression
 			P.Expr1(x.x, prec);
 			P.Blank();
 			P.Token(x.pos, x.tok);
 			P.Blank();
 		}
 		P.Expr1(x.y, prec);
 		if prec < prec1 {
 			P.String(0, ")");
 		}
 	}
 }


 func (P *Printer) Expr(x *AST.Expr) {
 	P.Expr1(x, Scanner.LowestPrec);
 }


 // ----------------------------------------------------------------------------
 // Statements

 func (P *Printer) Stat(s *AST.Stat)

 func (P *Printer) StatementList(list *AST.List) {
 	for i, n := 0, list.len(); i < n; i++ {
 		P.Stat(list.at(i).(*AST.Stat));
 		P.newl = 1;
 	}
 }


 func (P *Printer) Block(list *AST.List, indent bool) {
 	P.OpenScope("{");
 	if !indent {
 		P.indent--;
 	}
 	P.StatementList(list);
 	if !indent {
 		P.indent++;
 	}
 	P.CloseScope("}");
 }


 func (P *Printer) ControlClause(s *AST.Stat) {
 	has_post := s.tok == Scanner.FOR && s.post != nil;  // post also used by "if"
 	if s.init == nil && !has_post {
 		// no semicolons required
 		if s.expr != nil {
 			P.Blank();
 			P.Expr(s.expr);
 		}
 	} else {
 		// all semicolons required
 		P.Blank();
 		if s.init != nil {
 			P.Stat(s.init);
 		}
 		P.semi = true;
 		P.Blank();
 		if s.expr != nil {
 			P.Expr(s.expr);
 		}
 		if s.tok == Scanner.FOR {
 			P.semi = true;
 			if has_post {
 				P.Blank();
 				P.Stat(s.post);
 				P.semi = false
 			}
 		}
 	}
 	P.Blank();
 }


 func (P *Printer) Declaration(d *AST.Decl, parenthesized bool);

 func (P *Printer) Stat(s *AST.Stat) {
 	switch s.tok {
 	case Scanner.EXPRSTAT:
 		// expression statement
 		P.Expr(s.expr);
 		P.semi = true;

 	case Scanner.COLON:
 		// label declaration
 		P.indent--;
 		P.Expr(s.expr);
 		P.Token(s.pos, s.tok);
 		P.indent++;
 		P.semi = false;

 	case Scanner.CONST, Scanner.TYPE, Scanner.VAR:
 		// declaration
 		P.Declaration(s.decl, false);

 	case Scanner.INC, Scanner.DEC:
 		P.Expr(s.expr);
 		P.Token(s.pos, s.tok);
 		P.semi = true;

 	case Scanner.LBRACE:
 		// block
 		P.Block(s.block, true);

 	case Scanner.IF:
 		P.String(s.pos, "if");
 		P.ControlClause(s);
 		P.Block(s.block, true);
 		if s.post != nil {
 			P.newl = 0;
 			P.String(0, " else ");
 			P.Stat(s.post);
 		}

 	case Scanner.FOR:
 		P.String(s.pos, "for");
 		P.ControlClause(s);
 		P.Block(s.block, true);

 	case Scanner.SWITCH, Scanner.SELECT:
 		P.Token(s.pos, s.tok);
 		P.ControlClause(s);
 		P.Block(s.block, false);

 	case Scanner.CASE, Scanner.DEFAULT:
 		P.Token(s.pos, s.tok);
 		if s.expr != nil {
 			P.Blank();
 			P.Expr(s.expr);
 		}
 		P.String(0, ":");
 		P.indent++;
 		P.newl = 1;
 		P.StatementList(s.block);
 		P.indent--;
 		P.newl = 1;

 	case Scanner.GO, Scanner.RETURN, Scanner.FALLTHROUGH, Scanner.BREAK, Scanner.CONTINUE, Scanner.GOTO:
 		P.Token(s.pos, s.tok);
 		if s.expr != nil {
 			P.Blank();
 			P.Expr(s.expr);
 		}
 		P.semi = true;

 	default:
 		P.Error(s.pos, s.tok, "stat");
 	}
 }


 // ----------------------------------------------------------------------------
 // Declarations


 func (P *Printer) Declaration(d *AST.Decl, parenthesized bool) {
 	if !parenthesized {
 		if d.exported {
 			P.String(0, "export ");
 		}
 		P.Token(d.pos, d.tok);
 		P.Blank();
 	}

 	if d.tok != Scanner.FUNC && d.list != nil {
 		P.OpenScope("(");
 		for i := 0; i < d.list.len(); i++ {
 			P.Declaration(d.list.at(i).(*AST.Decl), true);
 			P.semi, P.newl = true, 1;
 		}
 		P.CloseScope(")");

 	} else {
 		if d.tok == Scanner.FUNC && d.typ.key != nil {
 			P.Parameters(0, d.typ.key.list);
 			P.Blank();
 		}

 		P.Expr(d.ident);

 		if d.typ != nil {
 			P.Blank();
 			P.Type(d.typ);
 		}

 		if d.val != nil {
 			if d.tok == Scanner.IMPORT {
 				P.Blank();
 			} else {
 				P.String(0, " = ");
 			}
 			P.Expr(d.val);
 		}

 		if d.list != nil {
 			if d.tok != Scanner.FUNC {
 				panic("must be a func declaration");
 			}
 			P.Blank();
 			P.Block(d.list, true);
 		}

 		if d.tok != Scanner.TYPE {
 			P.semi = true;
 		}
 	}

 	P.newl = 1;

 	// extra newline after a function declaration
 	if d.tok == Scanner.FUNC {
 		P.newl++;
 	}

 	// extra newline at the top level
 	if P.level == 0 {
 		P.newl++;
 	}
 }


 // ----------------------------------------------------------------------------
 // Program

 func (P *Printer) Program(p *AST.Program) {
 	// TODO should initialize all fields?
 	P.buf.Init();

 	P.clist = p.comments;
 	P.cindex = 0;
 	if p.comments.len() > 0 {
 		P.cpos = p.comments.at(0).(*AST.Comment).pos;
 	} else {
 		P.cpos = 1000000000;  // infinite
 	}

 	// Print package
 	P.String(p.pos, "package ");
 	P.Expr(p.ident);
 	P.newl = 2;
 	for i := 0; i < p.decls.len(); i++ {
 		P.Declaration(p.decls.at(i), false);
 	}
 	P.newl = 1;

 	P.buf.Flush();  // TODO should not access P.buf directly here
 }
	// 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.

	package Printer

	import Strings "strings"
	import Scanner "scanner"
	import AST "ast"
	import Flag "flag"
	import Fmt "fmt"

	var tabwith = Flag.Int("tabwidth", 4, nil, "tab width");


	// ----------------------------------------------------------------------------
	// Support

	func assert(p bool) {
	if !p {
	panic("assert failed");
	}
	}


	func PrintBlanks(n int) {
	// TODO make this faster
	for ; n > 0; n-- {
	print(" ");
	}
	}


	// ----------------------------------------------------------------------------
	// Implemententation of flexible tab stops.
	// (http://nickgravgaard.com/elastictabstops/index.html)

	type Buffer struct {
	segment string; // current line segment
	lines AST.List; // a list of lines; and each line is a list of strings
	}


	func (b Buffer) Line(i int) AST.List {
	return b.lines.at(i).(*AST.List);
	}


	func (b *Buffer) Tab() {
	b.lines.at(b.lines.len() - 1).(*AST.List).Add(b.segment);
	b.segment = "";
	}


	func (b *Buffer) Newline() {
	b.Tab(); // add last segment to current line
	b.lines.Add(AST.NewList());
	}


	func (b *Buffer) Print(s string) {
	b.segment += s;
	}


	func (b *Buffer) Init() {
	b.lines.Init();
	b.lines.Add(AST.NewList());
	}


	func (b Buffer) PrintLines(line0, line1 int, widths AST.List) {
	for i := line0; i < line1; i++ {
	nsep := 0;
	line := b.Line(i);
	for j := 0; j < line.len(); j++ {
	s := line.at(j).(string);
	PrintBlanks(nsep);
	print(s);
	if j < widths.len() {
	nsep = widths.at(j).(int) - len(s);
	assert(nsep >= 0);
	if nsep < int(tabwith.IVal()) {
	nsep = int(tabwith.IVal());
	}
	} else {
	nsep = 0;
	}
	}
	println();
	}
	}


	func (b Buffer) Format(line0, line1 int, widths AST.List) {
	i0, i1 := line0, line0;
	column := widths.len();
	width := -1;
	for i := line0; i < line1; i++ {
	line := b.Line(i);
	if column < line.len() - 1 {
	if width < 0 {
	// column start
	i1 = i;
	b.PrintLines(i0, i1, widths);
	}
	w := len(line.at(column).(string));
	if w > width {
	width = w;
	}
	} else {
	if width >= 0 {
	// column end
	i0 = i;
	widths.Add(width);
	b.Format(i1, i0, widths);
	widths.Pop();
	width = -1;
	}
	}
	}
	b.PrintLines(i0, line1, widths);
	}


	func (b *Buffer) Dump() {
	for i := 0; i < b.lines.len(); i++ {
	line := b.Line(i);
	print("(", i, ") ");
	for j := 0; j < line.len(); j++ {
	print("[", line.at(j).(string), "]");
	}
	print("\n");
	}
	print("\n");
	}


	func (b *Buffer) Flush() {
	b.Tab(); // add last segment to current line
	b.Format(0, b.lines.len(), AST.NewList());
	b.lines.Clear();
	b.lines.Add(AST.NewList());
	}


	// ----------------------------------------------------------------------------
	// Printer

	export type Printer struct {
	buf Buffer;

	// formatting control
	level int; // true scope level
	indent int; // indentation level
	semi bool; // pending ";"
	newl int; // pending "\n"'s

	// comments
	clist *AST.List;
	cindex int;
	cpos int;
	}


	func CountNewlinesAndTabs(s string) (int, int, string) {
	nls, tabs := 0, 0;
	for i := 0; i < len(s); i++ {
	switch ch := s[i]; ch {
	case '\n': nls++;
	case '\t': tabs++;
	case ' ':
	default:
	// non-whitespace char
	assert(ch == '/');
	return nls, tabs, s[i : len(s)];
	}
	}
	return nls, tabs, "";
	}


	func (P *Printer) String(pos int, s string) {
	if P.semi && P.level > 0 { // no semicolons at level 0
	P.buf.Print(";");
	}

	/*
	for pos > P.cpos {
	// we have a comment
	comment := P.clist.at(P.cindex).(*AST.Comment);
	nls, tabs, text := CountNewlinesAndTabs(comment.text);

	if nls == 0 && len(text) > 1 && text[1] == '/' {
	P.buf.Tab();
	P.buf.Print(text);
	if P.newl <= 0 {
	//P.newl = 1; // line comments must have a newline
	}
	} else {
	P.buf.Print(text);
	}
	P.cindex++;
	if P.cindex < P.clist.len() {
	P.cpos = P.clist.at(P.cindex).(*AST.Comment).pos;
	} else {
	P.cpos = 1000000000; // infinite
	}
	}
	*/

	if P.newl > 0 {
	P.buf.Newline();
	if P.newl > 1 {
	for i := P.newl; i > 1; i-- {
	//P.buf.Flush();
	P.buf.Newline();
	}
	}
	for i := P.indent; i > 0; i-- {
	P.buf.Tab();
	}
	}

	P.buf.Print(s);

	P.semi, P.newl = false, 0;
	}


	func (P *Printer) Blank() {
	P.String(0, " ");
	}


	func (P *Printer) Token(pos int, tok int) {
	P.String(pos, Scanner.TokenString(tok));
	}


	func (P *Printer) OpenScope(paren string) {
	//P.semi, P.newl = false, 0;
	P.String(0, paren);
	P.level++;
	P.indent++;
	P.newl = 1;
	}


	func (P *Printer) CloseScope(paren string) {
	P.indent--;
	P.semi = false;
	P.String(0, paren);
	P.level--;
	P.semi, P.newl = false, 1;
	}

	func (P *Printer) Error(pos int, tok int, msg string) {
	P.String(0, "<");
	P.Token(pos, tok);
	P.String(0, " " + msg + ">");
	}


	// ----------------------------------------------------------------------------
	// Types

	func (P Printer) Type(t AST.Type)
	func (P Printer) Expr(x AST.Expr)

	func (P Printer) Parameters(pos int, list AST.List) {
	P.String(pos, "(");
	var prev int;
	for i, n := 0, list.len(); i < n; i++ {
	x := list.at(i).(*AST.Expr);
	if i > 0 {
	if prev == x.tok \|\| prev == Scanner.TYPE {
	P.String(0, ", ");
	} else {
	P.Blank();
	}
	}
	P.Expr(x);
	prev = x.tok;
	}
	P.String(0, ")");
	}


	func (P Printer) Fields(list AST.List) {
	P.OpenScope("{");
	var prev int;
	for i, n := 0, list.len(); i < n; i++ {
	x := list.at(i).(*AST.Expr);
	if i > 0 {
	if prev == Scanner.TYPE && x.tok != Scanner.STRING \|\| prev == Scanner.STRING {
	P.semi, P.newl = true, 1;
	} else if prev == x.tok {
	P.String(0, ", ");
	} else {
	P.Blank();
	}
	}
	P.Expr(x);
	prev = x.tok;
	}
	P.newl = 1;
	P.CloseScope("}");
	}


	func (P Printer) Type(t AST.Type) {
	switch t.tok {
	case Scanner.IDENT:
	P.Expr(t.expr);

	case Scanner.LBRACK:
	P.String(t.pos, "[");
	if t.expr != nil {
	P.Expr(t.expr);
	}
	P.String(0, "]");
	P.Type(t.elt);

	case Scanner.STRUCT, Scanner.INTERFACE:
	P.Token(t.pos, t.tok);
	if t.list != nil {
	P.Blank();
	P.Fields(t.list);
	}

	case Scanner.MAP:
	P.String(t.pos, "map [");
	P.Type(t.key);
	P.String(0, "]");
	P.Type(t.elt);

	case Scanner.CHAN:
	var m string;
	switch t.mode {
	case AST.FULL: m = "chan ";
	case AST.RECV: m = "<-chan ";
	case AST.SEND: m = "chan <- ";
	}
	P.String(t.pos, m);
	P.Type(t.elt);

	case Scanner.MUL:
	P.String(t.pos, "*");
	P.Type(t.elt);

	case Scanner.LPAREN:
	P.Parameters(t.pos, t.list);
	if t.elt != nil {
	P.Blank();
	P.Parameters(0, t.elt.list);
	}

	case Scanner.ELLIPSIS:
	P.String(t.pos, "...");

	default:
	P.Error(t.pos, t.tok, "type");
	}
	}


	// ----------------------------------------------------------------------------
	// Expressions

	func (P Printer) Block(list AST.List, indent bool);

	func (P Printer) Expr1(x AST.Expr, prec1 int) {
	if x == nil {
	return; // empty expression list
	}

	switch x.tok {
	case Scanner.TYPE:
	// type expr
	P.Type(x.t);

	case Scanner.IDENT, Scanner.INT, Scanner.STRING, Scanner.FLOAT:
	// literal
	P.String(x.pos, x.s);

	case Scanner.FUNC:
	// function literal
	P.String(x.pos, "func");
	P.Type(x.t);
	P.Block(x.block, true);
	P.newl = 0;

	case Scanner.COMMA:
	// list
	// (don't use binary expression printing because of different spacing)
	P.Expr(x.x);
	P.String(x.pos, ", ");
	P.Expr(x.y);

	case Scanner.PERIOD:
	// selector or type guard
	P.Expr1(x.x, Scanner.HighestPrec);
	P.String(x.pos, ".");
	if x.y != nil {
	P.Expr1(x.y, Scanner.HighestPrec);
	} else {
	P.String(0, "(");
	P.Type(x.t);
	P.String(0, ")");
	}

	case Scanner.LBRACK:
	// index
	P.Expr1(x.x, Scanner.HighestPrec);
	P.String(x.pos, "[");
	P.Expr1(x.y, 0);
	P.String(0, "]");

	case Scanner.LPAREN:
	// call
	P.Expr1(x.x, Scanner.HighestPrec);
	P.String(x.pos, "(");
	P.Expr(x.y);
	P.String(0, ")");

	case Scanner.LBRACE:
	// composite
	P.Type(x.t);
	P.String(x.pos, "{");
	P.Expr(x.y);
	P.String(0, "}");

	default:
	// unary and binary expressions including ":" for pairs
	prec := Scanner.UnaryPrec;
	if x.x != nil {
	prec = Scanner.Precedence(x.tok);
	}
	if prec < prec1 {
	P.String(0, "(");
	}
	if x.x == nil {
	// unary expression
	P.Token(x.pos, x.tok);
	} else {
	// binary expression
	P.Expr1(x.x, prec);
	P.Blank();
	P.Token(x.pos, x.tok);
	P.Blank();
	}
	P.Expr1(x.y, prec);
	if prec < prec1 {
	P.String(0, ")");
	}
	}
	}


	func (P Printer) Expr(x AST.Expr) {
	P.Expr1(x, Scanner.LowestPrec);
	}


	// ----------------------------------------------------------------------------
	// Statements

	func (P Printer) Stat(s AST.Stat)

	func (P Printer) StatementList(list AST.List) {
	for i, n := 0, list.len(); i < n; i++ {
	P.Stat(list.at(i).(*AST.Stat));
	P.newl = 1;
	}
	}


	func (P Printer) Block(list AST.List, indent bool) {
	P.OpenScope("{");
	if !indent {
	P.indent--;
	}
	P.StatementList(list);
	if !indent {
	P.indent++;
	}
	P.CloseScope("}");
	}


	func (P Printer) ControlClause(s AST.Stat) {
	has_post := s.tok == Scanner.FOR && s.post != nil; // post also used by "if"
	if s.init == nil && !has_post {
	// no semicolons required
	if s.expr != nil {
	P.Blank();
	P.Expr(s.expr);
	}
	} else {
	// all semicolons required
	P.Blank();
	if s.init != nil {
	P.Stat(s.init);
	}
	P.semi = true;
	P.Blank();
	if s.expr != nil {
	P.Expr(s.expr);
	}
	if s.tok == Scanner.FOR {
	P.semi = true;
	if has_post {
	P.Blank();
	P.Stat(s.post);
	P.semi = false
	}
	}
	}
	P.Blank();
	}


	func (P Printer) Declaration(d AST.Decl, parenthesized bool);

	func (P Printer) Stat(s AST.Stat) {
	switch s.tok {
	case Scanner.EXPRSTAT:
	// expression statement
	P.Expr(s.expr);
	P.semi = true;

	case Scanner.COLON:
	// label declaration
	P.indent--;
	P.Expr(s.expr);
	P.Token(s.pos, s.tok);
	P.indent++;
	P.semi = false;

	case Scanner.CONST, Scanner.TYPE, Scanner.VAR:
	// declaration
	P.Declaration(s.decl, false);

	case Scanner.INC, Scanner.DEC:
	P.Expr(s.expr);
	P.Token(s.pos, s.tok);
	P.semi = true;

	case Scanner.LBRACE:
	// block
	P.Block(s.block, true);

	case Scanner.IF:
	P.String(s.pos, "if");
	P.ControlClause(s);
	P.Block(s.block, true);
	if s.post != nil {
	P.newl = 0;
	P.String(0, " else ");
	P.Stat(s.post);
	}

	case Scanner.FOR:
	P.String(s.pos, "for");
	P.ControlClause(s);
	P.Block(s.block, true);

	case Scanner.SWITCH, Scanner.SELECT:
	P.Token(s.pos, s.tok);
	P.ControlClause(s);
	P.Block(s.block, false);

	case Scanner.CASE, Scanner.DEFAULT:
	P.Token(s.pos, s.tok);
	if s.expr != nil {
	P.Blank();
	P.Expr(s.expr);
	}
	P.String(0, ":");
	P.indent++;
	P.newl = 1;
	P.StatementList(s.block);
	P.indent--;
	P.newl = 1;

	case Scanner.GO, Scanner.RETURN, Scanner.FALLTHROUGH, Scanner.BREAK, Scanner.CONTINUE, Scanner.GOTO:
	P.Token(s.pos, s.tok);
	if s.expr != nil {
	P.Blank();
	P.Expr(s.expr);
	}
	P.semi = true;

	default:
	P.Error(s.pos, s.tok, "stat");
	}
	}


	// ----------------------------------------------------------------------------
	// Declarations


	func (P Printer) Declaration(d AST.Decl, parenthesized bool) {
	if !parenthesized {
	if d.exported {
	P.String(0, "export ");
	}
	P.Token(d.pos, d.tok);
	P.Blank();
	}

	if d.tok != Scanner.FUNC && d.list != nil {
	P.OpenScope("(");
	for i := 0; i < d.list.len(); i++ {
	P.Declaration(d.list.at(i).(*AST.Decl), true);
	P.semi, P.newl = true, 1;
	}
	P.CloseScope(")");

	} else {
	if d.tok == Scanner.FUNC && d.typ.key != nil {
	P.Parameters(0, d.typ.key.list);
	P.Blank();
	}

	P.Expr(d.ident);

	if d.typ != nil {
	P.Blank();
	P.Type(d.typ);
	}

	if d.val != nil {
	if d.tok == Scanner.IMPORT {
	P.Blank();
	} else {
	P.String(0, " = ");
	}
	P.Expr(d.val);
	}

	if d.list != nil {
	if d.tok != Scanner.FUNC {
	panic("must be a func declaration");
	}
	P.Blank();
	P.Block(d.list, true);
	}

	if d.tok != Scanner.TYPE {
	P.semi = true;
	}
	}

	P.newl = 1;

	// extra newline after a function declaration
	if d.tok == Scanner.FUNC {
	P.newl++;
	}

	// extra newline at the top level
	if P.level == 0 {
	P.newl++;
	}
	}


	// ----------------------------------------------------------------------------
	// Program

	func (P Printer) Program(p AST.Program) {
	// TODO should initialize all fields?
	P.buf.Init();

	P.clist = p.comments;
	P.cindex = 0;
	if p.comments.len() > 0 {
	P.cpos = p.comments.at(0).(*AST.Comment).pos;
	} else {
	P.cpos = 1000000000; // infinite
	}

	// Print package
	P.String(p.pos, "package ");
	P.Expr(p.ident);
	P.newl = 2;
	for i := 0; i < p.decls.len(); i++ {
	P.Declaration(p.decls.at(i), false);
	}
	P.newl = 1;

	P.buf.Flush(); // TODO should not access P.buf directly here
	}