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60172b2f9f
treerack/sequence.go
Arpad Ryszka 60172b2f9f fix bug with building empty items of sequences
2017-11-04 22:08:15 +01:00

328 lines
6.2 KiB
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package treerack
type sequenceDefinition struct {
name string
id int
commit CommitType
items []SequenceItem
itemDefs []definition
ranges [][]int
generalizations []int
sbuilder *sequenceBuilder
sparser *sequenceParser
allChars bool
validated bool
initialized bool
}
type sequenceParser struct {
name string
id int
commit CommitType
items []parser
ranges [][]int
generalizations []int
allChars bool
}
type sequenceBuilder struct {
name string
id int
commit CommitType
items []builder
ranges [][]int
allChars bool
}
func newSequence(name string, ct CommitType, items []SequenceItem) *sequenceDefinition {
return &sequenceDefinition{
name: name,
commit: ct,
items: items,
}
}
func (d *sequenceDefinition) nodeName() string { return d.name }
func (d *sequenceDefinition) setNodeName(n string) { d.name = n }
func (d *sequenceDefinition) nodeID() int { return d.id }
func (d *sequenceDefinition) setID(id int) { d.id = id }
func (d *sequenceDefinition) commitType() CommitType { return d.commit }
func (d *sequenceDefinition) setCommitType(ct CommitType) { d.commit = ct }
func (d *sequenceDefinition) validate(r *registry) error {
if d.validated {
return nil
}
d.validated = true
for i := range d.items {
ii, ok := r.definition(d.items[i].Name)
if !ok {
return parserNotFound(d.items[i].Name)
}
if err := ii.validate(r); err != nil {
return err
}
}
return nil
}
func (d *sequenceDefinition) createBuilder() {
if d.sbuilder != nil {
return
}
d.sbuilder = &sequenceBuilder{
name: d.name,
id: d.id,
commit: d.commit,
ranges: d.ranges,
}
}
func (d *sequenceDefinition) initRanges() {
for _, item := range d.items {
if item.Min == 0 && item.Max == 0 {
item.Min, item.Max = 1, 1
} else if item.Max == 0 {
item.Max = -1
}
d.ranges = append(d.ranges, []int{item.Min, item.Max})
}
}
func (d *sequenceDefinition) initItems(r *registry) {
allChars := true
for _, item := range d.items {
def := r.definitions[item.Name]
d.itemDefs = append(d.itemDefs, def)
def.init(r)
d.sbuilder.items = append(d.sbuilder.items, def.builder())
if allChars {
if _, isChar := def.(*charParser); !isChar {
allChars = false
}
}
}
d.sbuilder.allChars = allChars
d.allChars = allChars
}
func (d *sequenceDefinition) init(r *registry) {
if d.initialized {
return
}
d.initialized = true
d.initRanges()
d.createBuilder()
d.initItems(r)
}
func (d *sequenceDefinition) addGeneralization(g int) {
if intsContain(d.generalizations, g) {
return
}
d.generalizations = append(d.generalizations, g)
}
func (d *sequenceDefinition) createParser() {
d.sparser = &sequenceParser{
name: d.name,
id: d.id,
commit: d.commit,
generalizations: d.generalizations,
allChars: d.allChars,
ranges: d.ranges,
}
}
func (d *sequenceDefinition) createItemParsers() {
for _, item := range d.itemDefs {
pi := item.parser()
d.sparser.items = append(d.sparser.items, pi)
}
}
func (d *sequenceDefinition) parser() parser {
if d.sparser != nil {
return d.sparser
}
d.createParser()
d.createItemParsers()
return d.sparser
}
func (d *sequenceDefinition) builder() builder { return d.sbuilder }
func (p *sequenceParser) nodeName() string { return p.name }
func (p *sequenceParser) nodeID() int { return p.id }
func (p *sequenceParser) parse(c *context) {
if !p.allChars {
if c.pending(c.offset, p.id) {
c.fail(c.offset)
return
}
c.markPending(c.offset, p.id)
}
itemIndex := 0
var currentCount int
from := c.offset
to := c.offset
var parsed bool
for itemIndex < len(p.items) {
// TODO:
// - is it ok to parse before max range check? what if max=0
// - validate, normalize and document max=0
// TODO: test this f(g())
p.items[itemIndex].parse(c)
if !c.matchLast {
if currentCount < p.ranges[itemIndex][0] {
c.fail(from)
if !p.allChars {
c.unmarkPending(from, p.id)
}
return
}
itemIndex++
currentCount = 0
continue
}
parsed = c.offset > to
if parsed {
currentCount++
}
to = c.offset
// TODO: max cannot be 0
if !parsed || p.ranges[itemIndex][1] >= 0 && currentCount == p.ranges[itemIndex][1] {
itemIndex++
currentCount = 0
}
}
for _, g := range p.generalizations {
if c.pending(from, g) {
c.results.setMatch(from, g, to)
}
}
c.results.setMatch(from, p.id, to)
c.success(to)
if !p.allChars {
c.unmarkPending(from, p.id)
}
}
func (b *sequenceBuilder) nodeName() string { return b.name }
func (b *sequenceBuilder) nodeID() int { return b.id }
func (b *sequenceBuilder) build(c *context) ([]*Node, bool) {
to, ok := c.results.longestMatch(c.offset, b.id)
if !ok {
return nil, false
}
if c.buildPending(c.offset, b.id, to) {
return nil, false
}
c.markBuildPending(c.offset, b.id, to)
if to-c.offset > 0 {
c.results.dropMatchTo(c.offset, b.id, to)
}
from := c.offset
if b.allChars {
c.offset = to
c.unmarkBuildPending(from, b.id, to)
if b.commit&Alias != 0 {
return nil, true
}
return []*Node{{
Name: b.name,
From: from,
To: to,
tokens: c.tokens,
}}, true
}
var (
itemIndex int
currentCount int
nodes []*Node
)
for itemIndex < len(b.items) {
itemFrom := c.offset
n, ok := b.items[itemIndex].build(c)
if !ok {
if currentCount < b.ranges[itemIndex][0] {
panic(b.name + ": damaged parse result")
}
itemIndex++
currentCount = 0
continue
}
parsed := c.offset > itemFrom
if parsed {
nodes = append(nodes, n...)
currentCount++
}
if !parsed {
if currentCount < b.ranges[itemIndex][0] {
for i := 0; i < b.ranges[itemIndex][0]-currentCount; i++ {
nodes = append(nodes, n...)
}
}
itemIndex++
currentCount = 0
continue
}
if b.ranges[itemIndex][1] >= 0 && currentCount == b.ranges[itemIndex][1] {
itemIndex++
currentCount = 0
}
}
c.unmarkBuildPending(from, b.id, to)
if b.commit&Alias != 0 {
return nodes, true
}
return []*Node{{
Name: b.name,
From: from,
To: to,
Nodes: nodes,
tokens: c.tokens,
}}, true
}
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