platform_build_blueprint/parser/printer.go
Colin Cross cb7b9ad6ca Go back to the old Blueprints file format
Switch back to:
moduleType {
    name: value,
    arch: {
        x86: {
            name: value,
        },
    },
}

This provides better consistency between properties defined at the
top level of a module and properties defined inside a map.

The parser will continue to support the other format for now, but the
printer will only produce the original format.
2015-03-04 14:00:06 -08:00

347 lines
8.1 KiB
Go

// Copyright 2014 Google Inc. All rights reserved.
//
// Licensed under the Apache License, Version 2.0 (the "License");
// you may not use this file except in compliance with the License.
// You may obtain a copy of the License at
//
// http://www.apache.org/licenses/LICENSE-2.0
//
// Unless required by applicable law or agreed to in writing, software
// distributed under the License is distributed on an "AS IS" BASIS,
// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
// See the License for the specific language governing permissions and
// limitations under the License.
package parser
import (
"fmt"
"strconv"
"strings"
"text/scanner"
)
var noPos = scanner.Position{}
type whitespace int
const (
wsDontCare whitespace = iota
wsBoth
wsAfter
wsBefore
wsCanBreak // allow extra line breaks or comments
wsBothCanBreak // wsBoth plus allow extra line breaks or comments
wsForceBreak
wsForceDoubleBreak
)
type tokenState struct {
ws whitespace
token string
pos scanner.Position
indent int
}
type printer struct {
defs []Definition
comments []Comment
curComment int
prev tokenState
output []byte
indentList []int
wsBuf []byte
skippedComments []Comment
}
func newPrinter(file *File) *printer {
return &printer{
defs: file.Defs,
comments: file.Comments,
indentList: []int{0},
prev: tokenState{
ws: wsCanBreak,
},
}
}
func Print(file *File) ([]byte, error) {
p := newPrinter(file)
for _, def := range p.defs {
p.printDef(def)
}
p.prev.ws = wsDontCare
p.flush()
return p.output, nil
}
func (p *printer) Print() ([]byte, error) {
for _, def := range p.defs {
p.printDef(def)
}
p.flush()
return p.output, nil
}
func (p *printer) printDef(def Definition) {
if assignment, ok := def.(*Assignment); ok {
p.printAssignment(assignment)
} else if module, ok := def.(*Module); ok {
p.printModule(module)
} else {
panic("Unknown definition")
}
}
func (p *printer) printAssignment(assignment *Assignment) {
p.printToken(assignment.Name.Name, assignment.Name.Pos, wsDontCare)
p.printToken(assignment.Assigner, assignment.Pos, wsBoth)
p.printValue(assignment.OrigValue)
p.prev.ws = wsForceBreak
}
func (p *printer) printModule(module *Module) {
p.printToken(module.Type.Name, module.Type.Pos, wsDontCare)
p.printMap(module.Properties, module.LbracePos, module.RbracePos)
p.prev.ws = wsForceDoubleBreak
}
func (p *printer) printValue(value Value) {
if value.Variable != "" {
p.printToken(value.Variable, value.Pos, wsDontCare)
} else if value.Expression != nil {
p.printExpression(*value.Expression)
} else {
switch value.Type {
case Bool:
var s string
if value.BoolValue {
s = "true"
} else {
s = "false"
}
p.printToken(s, value.Pos, wsDontCare)
case String:
p.printToken(strconv.Quote(value.StringValue), value.Pos, wsDontCare)
case List:
p.printList(value.ListValue, value.Pos, value.EndPos)
case Map:
p.printMap(value.MapValue, value.Pos, value.EndPos)
default:
panic(fmt.Errorf("bad property type: %d", value.Type))
}
}
}
func (p *printer) printList(list []Value, pos, endPos scanner.Position) {
p.printToken("[", pos, wsBefore)
if len(list) > 1 || pos.Line != endPos.Line {
p.prev.ws = wsForceBreak
p.indent(p.curIndent() + 4)
for _, value := range list {
p.printValue(value)
p.printToken(",", noPos, wsForceBreak)
}
p.unindent()
} else {
for _, value := range list {
p.printValue(value)
}
}
p.printToken("]", endPos, wsDontCare)
}
func (p *printer) printMap(list []*Property, pos, endPos scanner.Position) {
p.printToken("{", pos, wsBefore)
if len(list) > 0 || pos.Line != endPos.Line {
p.prev.ws = wsForceBreak
p.indent(p.curIndent() + 4)
for _, prop := range list {
p.printProperty(prop)
p.printToken(",", noPos, wsForceBreak)
}
p.unindent()
}
p.printToken("}", endPos, wsDontCare)
}
func (p *printer) printExpression(expression Expression) {
p.printValue(expression.Args[0])
p.printToken(string(expression.Operator), expression.Pos, wsBothCanBreak)
p.printValue(expression.Args[1])
}
func (p *printer) printProperty(property *Property) {
p.printToken(property.Name.Name, property.Name.Pos, wsDontCare)
p.printToken(":", property.Pos, wsAfter)
p.printValue(property.Value)
}
// Print a single token, including any necessary comments or whitespace between
// this token and the previously printed token
func (p *printer) printToken(s string, pos scanner.Position, ws whitespace) {
this := tokenState{
token: s,
pos: pos,
ws: ws,
indent: p.curIndent(),
}
if this.pos == noPos {
this.pos = p.prev.pos
}
// Print the previously stored token
allowLineBreak := false
lineBreak := 0
switch p.prev.ws {
case wsBothCanBreak, wsCanBreak, wsForceBreak, wsForceDoubleBreak:
allowLineBreak = true
}
p.output = append(p.output, p.prev.token...)
commentIndent := max(p.prev.indent, this.indent)
p.printComments(this.pos, allowLineBreak, commentIndent)
switch p.prev.ws {
case wsForceBreak:
lineBreak = 1
case wsForceDoubleBreak:
lineBreak = 2
}
if allowLineBreak && p.prev.pos.IsValid() &&
pos.Line-p.prev.pos.Line > lineBreak {
lineBreak = pos.Line - p.prev.pos.Line
}
if lineBreak > 0 {
p.printLineBreak(lineBreak, this.indent)
} else {
p.printWhitespace(this.ws)
}
p.prev = this
}
func (p *printer) printWhitespace(ws whitespace) {
if p.prev.ws == wsBoth || ws == wsBoth ||
p.prev.ws == wsBothCanBreak || ws == wsBothCanBreak ||
p.prev.ws == wsAfter || ws == wsBefore {
p.output = append(p.output, ' ')
}
}
// Pr int all comments that occur before position pos
func (p *printer) printComments(pos scanner.Position, allowLineBreak bool, indent int) {
if allowLineBreak {
for _, c := range p.skippedComments {
p.printComment(c, indent)
}
p.skippedComments = []Comment{}
}
for p.curComment < len(p.comments) && p.comments[p.curComment].Pos.Offset < pos.Offset {
if !allowLineBreak && p.comments[p.curComment].Comment[0:2] == "//" {
p.skippedComments = append(p.skippedComments, p.comments[p.curComment])
} else {
p.printComment(p.comments[p.curComment], indent)
}
p.curComment++
}
}
// Print a single comment, which may be a multi-line comment
func (p *printer) printComment(comment Comment, indent int) {
commentLines := strings.Split(comment.Comment, "\n")
pos := comment.Pos
for _, line := range commentLines {
if p.prev.pos.IsValid() && pos.Line > p.prev.pos.Line {
// Comment is on the next line
if p.prev.ws == wsForceDoubleBreak {
p.printLineBreak(2, indent)
p.prev.ws = wsForceBreak
} else {
p.printLineBreak(pos.Line-p.prev.pos.Line, indent)
}
} else if p.prev.pos.IsValid() {
// Comment is on the current line
p.printWhitespace(wsBoth)
}
p.output = append(p.output, strings.TrimSpace(line)...)
p.prev.pos = pos
pos.Line++
}
if comment.Comment[0:2] == "//" {
if p.prev.ws != wsForceDoubleBreak {
p.prev.ws = wsForceBreak
}
} else {
p.prev.ws = wsBothCanBreak
}
}
// Print one or two line breaks. n <= 0 is only valid if forceLineBreak is set,
// n > 2 is collapsed to a single blank line.
func (p *printer) printLineBreak(n, indent int) {
if n > 2 {
n = 2
}
for i := 0; i < n; i++ {
p.output = append(p.output, '\n')
}
p.pad(0, indent)
}
// Print any comments that occur after the last token, and a trailing newline
func (p *printer) flush() {
for _, c := range p.skippedComments {
p.printComment(c, p.curIndent())
}
p.printToken("", noPos, wsDontCare)
for p.curComment < len(p.comments) {
p.printComment(p.comments[p.curComment], p.curIndent())
p.curComment++
}
p.output = append(p.output, '\n')
}
// Print whitespace to pad from column l to column max
func (p *printer) pad(l, max int) {
l = max - l
if l > len(p.wsBuf) {
p.wsBuf = make([]byte, l)
for i := range p.wsBuf {
p.wsBuf[i] = ' '
}
}
p.output = append(p.output, p.wsBuf[0:l]...)
}
func (p *printer) indent(i int) {
p.indentList = append(p.indentList, i)
}
func (p *printer) unindent() {
p.indentList = p.indentList[0 : len(p.indentList)-1]
}
func (p *printer) curIndent() int {
return p.indentList[len(p.indentList)-1]
}
func max(a, b int) int {
if a > b {
return a
} else {
return b
}
}