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|
package docopt
import (
"fmt"
"reflect"
"strings"
)
type patternType uint
const (
// leaf
patternArgument patternType = 1 << iota
patternCommand
patternOption
// branch
patternRequired
patternOptionAL
patternOptionSSHORTCUT // Marker/placeholder for [options] shortcut.
patternOneOrMore
patternEither
patternLeaf = patternArgument +
patternCommand +
patternOption
patternBranch = patternRequired +
patternOptionAL +
patternOptionSSHORTCUT +
patternOneOrMore +
patternEither
patternAll = patternLeaf + patternBranch
patternDefault = 0
)
func (pt patternType) String() string {
switch pt {
case patternArgument:
return "argument"
case patternCommand:
return "command"
case patternOption:
return "option"
case patternRequired:
return "required"
case patternOptionAL:
return "optional"
case patternOptionSSHORTCUT:
return "optionsshortcut"
case patternOneOrMore:
return "oneormore"
case patternEither:
return "either"
case patternLeaf:
return "leaf"
case patternBranch:
return "branch"
case patternAll:
return "all"
case patternDefault:
return "default"
}
return ""
}
type pattern struct {
t patternType
children patternList
name string
value interface{}
short string
long string
argcount int
}
type patternList []*pattern
func newBranchPattern(t patternType, pl ...*pattern) *pattern {
var p pattern
p.t = t
p.children = make(patternList, len(pl))
copy(p.children, pl)
return &p
}
func newRequired(pl ...*pattern) *pattern {
return newBranchPattern(patternRequired, pl...)
}
func newEither(pl ...*pattern) *pattern {
return newBranchPattern(patternEither, pl...)
}
func newOneOrMore(pl ...*pattern) *pattern {
return newBranchPattern(patternOneOrMore, pl...)
}
func newOptional(pl ...*pattern) *pattern {
return newBranchPattern(patternOptionAL, pl...)
}
func newOptionsShortcut() *pattern {
var p pattern
p.t = patternOptionSSHORTCUT
return &p
}
func newLeafPattern(t patternType, name string, value interface{}) *pattern {
// default: value=nil
var p pattern
p.t = t
p.name = name
p.value = value
return &p
}
func newArgument(name string, value interface{}) *pattern {
// default: value=nil
return newLeafPattern(patternArgument, name, value)
}
func newCommand(name string, value interface{}) *pattern {
// default: value=false
var p pattern
p.t = patternCommand
p.name = name
p.value = value
return &p
}
func newOption(short, long string, argcount int, value interface{}) *pattern {
// default: "", "", 0, false
var p pattern
p.t = patternOption
p.short = short
p.long = long
if long != "" {
p.name = long
} else {
p.name = short
}
p.argcount = argcount
if value == false && argcount > 0 {
p.value = nil
} else {
p.value = value
}
return &p
}
func (p *pattern) flat(types patternType) (patternList, error) {
if p.t&patternLeaf != 0 {
if types == patternDefault {
types = patternAll
}
if p.t&types != 0 {
return patternList{p}, nil
}
return patternList{}, nil
}
if p.t&patternBranch != 0 {
if p.t&types != 0 {
return patternList{p}, nil
}
result := patternList{}
for _, child := range p.children {
childFlat, err := child.flat(types)
if err != nil {
return nil, err
}
result = append(result, childFlat...)
}
return result, nil
}
return nil, newError("unknown pattern type: %d, %d", p.t, types)
}
func (p *pattern) fix() error {
err := p.fixIdentities(nil)
if err != nil {
return err
}
p.fixRepeatingArguments()
return nil
}
func (p *pattern) fixIdentities(uniq patternList) error {
// Make pattern-tree tips point to same object if they are equal.
if p.t&patternBranch == 0 {
return nil
}
if uniq == nil {
pFlat, err := p.flat(patternDefault)
if err != nil {
return err
}
uniq = pFlat.unique()
}
for i, child := range p.children {
if child.t&patternBranch == 0 {
ind, err := uniq.index(child)
if err != nil {
return err
}
p.children[i] = uniq[ind]
} else {
err := child.fixIdentities(uniq)
if err != nil {
return err
}
}
}
return nil
}
func (p *pattern) fixRepeatingArguments() {
// Fix elements that should accumulate/increment values.
var either []patternList
for _, child := range p.transform().children {
either = append(either, child.children)
}
for _, cas := range either {
casMultiple := patternList{}
for _, e := range cas {
if cas.count(e) > 1 {
casMultiple = append(casMultiple, e)
}
}
for _, e := range casMultiple {
if e.t == patternArgument || e.t == patternOption && e.argcount > 0 {
switch e.value.(type) {
case string:
e.value = strings.Fields(e.value.(string))
case []string:
default:
e.value = []string{}
}
}
if e.t == patternCommand || e.t == patternOption && e.argcount == 0 {
e.value = 0
}
}
}
}
func (p *pattern) match(left *patternList, collected *patternList) (bool, *patternList, *patternList) {
if collected == nil {
collected = &patternList{}
}
if p.t&patternRequired != 0 {
l := left
c := collected
for _, p := range p.children {
var matched bool
matched, l, c = p.match(l, c)
if !matched {
return false, left, collected
}
}
return true, l, c
} else if p.t&patternOptionAL != 0 || p.t&patternOptionSSHORTCUT != 0 {
for _, p := range p.children {
_, left, collected = p.match(left, collected)
}
return true, left, collected
} else if p.t&patternOneOrMore != 0 {
if len(p.children) != 1 {
panic("OneOrMore.match(): assert len(p.children) == 1")
}
l := left
c := collected
var lAlt *patternList
matched := true
times := 0
for matched {
// could it be that something didn't match but changed l or c?
matched, l, c = p.children[0].match(l, c)
if matched {
times++
}
if lAlt == l {
break
}
lAlt = l
}
if times >= 1 {
return true, l, c
}
return false, left, collected
} else if p.t&patternEither != 0 {
type outcomeStruct struct {
matched bool
left *patternList
collected *patternList
length int
}
outcomes := []outcomeStruct{}
for _, p := range p.children {
matched, l, c := p.match(left, collected)
outcome := outcomeStruct{matched, l, c, len(*l)}
if matched {
outcomes = append(outcomes, outcome)
}
}
if len(outcomes) > 0 {
minLen := outcomes[0].length
minIndex := 0
for i, v := range outcomes {
if v.length < minLen {
minIndex = i
}
}
return outcomes[minIndex].matched, outcomes[minIndex].left, outcomes[minIndex].collected
}
return false, left, collected
} else if p.t&patternLeaf != 0 {
pos, match := p.singleMatch(left)
var increment interface{}
if match == nil {
return false, left, collected
}
leftAlt := make(patternList, len((*left)[:pos]), len((*left)[:pos])+len((*left)[pos+1:]))
copy(leftAlt, (*left)[:pos])
leftAlt = append(leftAlt, (*left)[pos+1:]...)
sameName := patternList{}
for _, a := range *collected {
if a.name == p.name {
sameName = append(sameName, a)
}
}
switch p.value.(type) {
case int, []string:
switch p.value.(type) {
case int:
increment = 1
case []string:
switch match.value.(type) {
case string:
increment = []string{match.value.(string)}
default:
increment = match.value
}
}
if len(sameName) == 0 {
match.value = increment
collectedMatch := make(patternList, len(*collected), len(*collected)+1)
copy(collectedMatch, *collected)
collectedMatch = append(collectedMatch, match)
return true, &leftAlt, &collectedMatch
}
switch sameName[0].value.(type) {
case int:
sameName[0].value = sameName[0].value.(int) + increment.(int)
case []string:
sameName[0].value = append(sameName[0].value.([]string), increment.([]string)...)
}
return true, &leftAlt, collected
}
collectedMatch := make(patternList, len(*collected), len(*collected)+1)
copy(collectedMatch, *collected)
collectedMatch = append(collectedMatch, match)
return true, &leftAlt, &collectedMatch
}
panic("unmatched type")
}
func (p *pattern) singleMatch(left *patternList) (int, *pattern) {
if p.t&patternArgument != 0 {
for n, pat := range *left {
if pat.t&patternArgument != 0 {
return n, newArgument(p.name, pat.value)
}
}
return -1, nil
} else if p.t&patternCommand != 0 {
for n, pat := range *left {
if pat.t&patternArgument != 0 {
if pat.value == p.name {
return n, newCommand(p.name, true)
}
break
}
}
return -1, nil
} else if p.t&patternOption != 0 {
for n, pat := range *left {
if p.name == pat.name {
return n, pat
}
}
return -1, nil
}
panic("unmatched type")
}
func (p *pattern) String() string {
if p.t&patternOption != 0 {
return fmt.Sprintf("%s(%s, %s, %d, %+v)", p.t, p.short, p.long, p.argcount, p.value)
} else if p.t&patternLeaf != 0 {
return fmt.Sprintf("%s(%s, %+v)", p.t, p.name, p.value)
} else if p.t&patternBranch != 0 {
result := ""
for i, child := range p.children {
if i > 0 {
result += ", "
}
result += child.String()
}
return fmt.Sprintf("%s(%s)", p.t, result)
}
panic("unmatched type")
}
func (p *pattern) transform() *pattern {
/*
Expand pattern into an (almost) equivalent one, but with single Either.
Example: ((-a | -b) (-c | -d)) => (-a -c | -a -d | -b -c | -b -d)
Quirks: [-a] => (-a), (-a...) => (-a -a)
*/
result := []patternList{}
groups := []patternList{patternList{p}}
parents := patternRequired +
patternOptionAL +
patternOptionSSHORTCUT +
patternEither +
patternOneOrMore
for len(groups) > 0 {
children := groups[0]
groups = groups[1:]
var child *pattern
for _, c := range children {
if c.t&parents != 0 {
child = c
break
}
}
if child != nil {
children.remove(child)
if child.t&patternEither != 0 {
for _, c := range child.children {
r := patternList{}
r = append(r, c)
r = append(r, children...)
groups = append(groups, r)
}
} else if child.t&patternOneOrMore != 0 {
r := patternList{}
r = append(r, child.children.double()...)
r = append(r, children...)
groups = append(groups, r)
} else {
r := patternList{}
r = append(r, child.children...)
r = append(r, children...)
groups = append(groups, r)
}
} else {
result = append(result, children)
}
}
either := patternList{}
for _, e := range result {
either = append(either, newRequired(e...))
}
return newEither(either...)
}
func (p *pattern) eq(other *pattern) bool {
return reflect.DeepEqual(p, other)
}
func (pl patternList) unique() patternList {
table := make(map[string]bool)
result := patternList{}
for _, v := range pl {
if !table[v.String()] {
table[v.String()] = true
result = append(result, v)
}
}
return result
}
func (pl patternList) index(p *pattern) (int, error) {
for i, c := range pl {
if c.eq(p) {
return i, nil
}
}
return -1, newError("%s not in list", p)
}
func (pl patternList) count(p *pattern) int {
count := 0
for _, c := range pl {
if c.eq(p) {
count++
}
}
return count
}
func (pl patternList) diff(l patternList) patternList {
lAlt := make(patternList, len(l))
copy(lAlt, l)
result := make(patternList, 0, len(pl))
for _, v := range pl {
if v != nil {
match := false
for i, w := range lAlt {
if w.eq(v) {
match = true
lAlt[i] = nil
break
}
}
if match == false {
result = append(result, v)
}
}
}
return result
}
func (pl patternList) double() patternList {
l := len(pl)
result := make(patternList, l*2)
copy(result, pl)
copy(result[l:2*l], pl)
return result
}
func (pl *patternList) remove(p *pattern) {
(*pl) = pl.diff(patternList{p})
}
func (pl patternList) dictionary() map[string]interface{} {
dict := make(map[string]interface{})
for _, a := range pl {
dict[a.name] = a.value
}
return dict
}
|
