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// Package denco provides fast URL router.
package denco
import (
"fmt"
"sort"
"strings"
)
const (
// ParamCharacter is a special character for path parameter.
ParamCharacter = ':'
// WildcardCharacter is a special character for wildcard path parameter.
WildcardCharacter = '*'
// TerminationCharacter is a special character for end of path.
TerminationCharacter = '#'
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// SeparatorCharacter separates path segments.
SeparatorCharacter = '/'
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// MaxSize is max size of records and internal slice.
MaxSize = ( 1 << 22 ) - 1
)
// Router represents a URL router.
type Router struct {
// SizeHint expects the maximum number of path parameters in records to Build.
// SizeHint will be used to determine the capacity of the memory to allocate.
// By default, SizeHint will be determined from given records to Build.
SizeHint int
static map [ string ] interface { }
param * doubleArray
}
// New returns a new Router.
func New ( ) * Router {
return & Router {
SizeHint : - 1 ,
static : make ( map [ string ] interface { } ) ,
param : newDoubleArray ( ) ,
}
}
// Lookup returns data and path parameters that associated with path.
// params is a slice of the Param that arranged in the order in which parameters appeared.
// e.g. when built routing path is "/path/to/:id/:name" and given path is "/path/to/1/alice". params order is [{"id": "1"}, {"name": "alice"}], not [{"name": "alice"}, {"id": "1"}].
func ( rt * Router ) Lookup ( path string ) ( data interface { } , params Params , found bool ) {
if data , found := rt . static [ path ] ; found {
return data , nil , true
}
if len ( rt . param . node ) == 1 {
return nil , nil , false
}
nd , params , found := rt . param . lookup ( path , make ( [ ] Param , 0 , rt . SizeHint ) , 1 )
if ! found {
return nil , nil , false
}
for i := 0 ; i < len ( params ) ; i ++ {
params [ i ] . Name = nd . paramNames [ i ]
}
return nd . data , params , true
}
// Build builds URL router from records.
func ( rt * Router ) Build ( records [ ] Record ) error {
statics , params := makeRecords ( records )
if len ( params ) > MaxSize {
return fmt . Errorf ( "denco: too many records" )
}
if rt . SizeHint < 0 {
rt . SizeHint = 0
for _ , p := range params {
size := 0
for _ , k := range p . Key {
if k == ParamCharacter || k == WildcardCharacter {
size ++
}
}
if size > rt . SizeHint {
rt . SizeHint = size
}
}
}
for _ , r := range statics {
rt . static [ r . Key ] = r . Value
}
if err := rt . param . build ( params , 1 , 0 , make ( map [ int ] struct { } ) ) ; err != nil {
return err
}
return nil
}
// Param represents name and value of path parameter.
type Param struct {
Name string
Value string
}
// Params represents the name and value of path parameters.
type Params [ ] Param
// Get gets the first value associated with the given name.
// If there are no values associated with the key, Get returns "".
func ( ps Params ) Get ( name string ) string {
for _ , p := range ps {
if p . Name == name {
return p . Value
}
}
return ""
}
type doubleArray struct {
bc [ ] baseCheck
node [ ] * node
}
func newDoubleArray ( ) * doubleArray {
return & doubleArray {
bc : [ ] baseCheck { 0 } ,
node : [ ] * node { nil } , // A start index is adjusting to 1 because 0 will be used as a mark of non-existent node.
}
}
// baseCheck contains BASE, CHECK and Extra flags.
// From the top, 22bits of BASE, 2bits of Extra flags and 8bits of CHECK.
//
// BASE (22bit) | Extra flags (2bit) | CHECK (8bit)
// |----------------------|--|--------|
// 32 10 8 0
type baseCheck uint32
func ( bc baseCheck ) Base ( ) int {
return int ( bc >> 10 )
}
func ( bc * baseCheck ) SetBase ( base int ) {
* bc |= baseCheck ( base ) << 10
}
func ( bc baseCheck ) Check ( ) byte {
return byte ( bc )
}
func ( bc * baseCheck ) SetCheck ( check byte ) {
* bc |= baseCheck ( check )
}
func ( bc baseCheck ) IsEmpty ( ) bool {
return bc & 0xfffffcff == 0
}
func ( bc baseCheck ) IsSingleParam ( ) bool {
return bc & paramTypeSingle == paramTypeSingle
}
func ( bc baseCheck ) IsWildcardParam ( ) bool {
return bc & paramTypeWildcard == paramTypeWildcard
}
func ( bc baseCheck ) IsAnyParam ( ) bool {
return bc & paramTypeAny != 0
}
func ( bc * baseCheck ) SetSingleParam ( ) {
* bc |= ( 1 << 8 )
}
func ( bc * baseCheck ) SetWildcardParam ( ) {
* bc |= ( 1 << 9 )
}
const (
paramTypeSingle = 0x0100
paramTypeWildcard = 0x0200
paramTypeAny = 0x0300
)
func ( da * doubleArray ) lookup ( path string , params [ ] Param , idx int ) ( * node , [ ] Param , bool ) {
indices := make ( [ ] uint64 , 0 , 1 )
for i := 0 ; i < len ( path ) ; i ++ {
if da . bc [ idx ] . IsAnyParam ( ) {
indices = append ( indices , ( uint64 ( i ) << 32 ) | ( uint64 ( idx ) & 0xffffffff ) )
}
c := path [ i ]
if idx = nextIndex ( da . bc [ idx ] . Base ( ) , c ) ; idx >= len ( da . bc ) || da . bc [ idx ] . Check ( ) != c {
goto BACKTRACKING
}
}
if next := nextIndex ( da . bc [ idx ] . Base ( ) , TerminationCharacter ) ; next < len ( da . bc ) && da . bc [ next ] . Check ( ) == TerminationCharacter {
return da . node [ da . bc [ next ] . Base ( ) ] , params , true
}
BACKTRACKING :
for j := len ( indices ) - 1 ; j >= 0 ; j -- {
i , idx := int ( indices [ j ] >> 32 ) , int ( indices [ j ] & 0xffffffff )
if da . bc [ idx ] . IsSingleParam ( ) {
idx := nextIndex ( da . bc [ idx ] . Base ( ) , ParamCharacter )
if idx >= len ( da . bc ) {
break
}
next := NextSeparator ( path , i )
params := append ( params , Param { Value : path [ i : next ] } )
if nd , params , found := da . lookup ( path [ next : ] , params , idx ) ; found {
return nd , params , true
}
}
if da . bc [ idx ] . IsWildcardParam ( ) {
idx := nextIndex ( da . bc [ idx ] . Base ( ) , WildcardCharacter )
params := append ( params , Param { Value : path [ i : ] } )
return da . node [ da . bc [ idx ] . Base ( ) ] , params , true
}
}
return nil , nil , false
}
// build builds double-array from records.
func ( da * doubleArray ) build ( srcs [ ] * record , idx , depth int , usedBase map [ int ] struct { } ) error {
sort . Stable ( recordSlice ( srcs ) )
base , siblings , leaf , err := da . arrange ( srcs , idx , depth , usedBase )
if err != nil {
return err
}
if leaf != nil {
nd , err := makeNode ( leaf )
if err != nil {
return err
}
da . bc [ idx ] . SetBase ( len ( da . node ) )
da . node = append ( da . node , nd )
}
for _ , sib := range siblings {
da . setCheck ( nextIndex ( base , sib . c ) , sib . c )
}
for _ , sib := range siblings {
records := srcs [ sib . start : sib . end ]
switch sib . c {
case ParamCharacter :
for _ , r := range records {
next := NextSeparator ( r . Key , depth + 1 )
name := r . Key [ depth + 1 : next ]
r . paramNames = append ( r . paramNames , name )
r . Key = r . Key [ next : ]
}
da . bc [ idx ] . SetSingleParam ( )
if err := da . build ( records , nextIndex ( base , sib . c ) , 0 , usedBase ) ; err != nil {
return err
}
case WildcardCharacter :
r := records [ 0 ]
name := r . Key [ depth + 1 : len ( r . Key ) - 1 ]
r . paramNames = append ( r . paramNames , name )
r . Key = ""
da . bc [ idx ] . SetWildcardParam ( )
if err := da . build ( records , nextIndex ( base , sib . c ) , 0 , usedBase ) ; err != nil {
return err
}
default :
if err := da . build ( records , nextIndex ( base , sib . c ) , depth + 1 , usedBase ) ; err != nil {
return err
}
}
}
return nil
}
// setBase sets BASE.
func ( da * doubleArray ) setBase ( i , base int ) {
da . bc [ i ] . SetBase ( base )
}
// setCheck sets CHECK.
func ( da * doubleArray ) setCheck ( i int , check byte ) {
da . bc [ i ] . SetCheck ( check )
}
// findEmptyIndex returns an index of unused BASE/CHECK node.
func ( da * doubleArray ) findEmptyIndex ( start int ) int {
i := start
for ; i < len ( da . bc ) ; i ++ {
if da . bc [ i ] . IsEmpty ( ) {
break
}
}
return i
}
// findBase returns good BASE.
func ( da * doubleArray ) findBase ( siblings [ ] sibling , start int , usedBase map [ int ] struct { } ) ( base int ) {
for idx , firstChar := start + 1 , siblings [ 0 ] . c ; ; idx = da . findEmptyIndex ( idx + 1 ) {
base = nextIndex ( idx , firstChar )
if _ , used := usedBase [ base ] ; used {
continue
}
i := 0
for ; i < len ( siblings ) ; i ++ {
next := nextIndex ( base , siblings [ i ] . c )
if len ( da . bc ) <= next {
da . bc = append ( da . bc , make ( [ ] baseCheck , next - len ( da . bc ) + 1 ) ... )
}
if ! da . bc [ next ] . IsEmpty ( ) {
break
}
}
if i == len ( siblings ) {
break
}
}
usedBase [ base ] = struct { } { }
return base
}
func ( da * doubleArray ) arrange ( records [ ] * record , idx , depth int , usedBase map [ int ] struct { } ) ( base int , siblings [ ] sibling , leaf * record , err error ) {
siblings , leaf , err = makeSiblings ( records , depth )
if err != nil {
return - 1 , nil , nil , err
}
if len ( siblings ) < 1 {
return - 1 , nil , leaf , nil
}
base = da . findBase ( siblings , idx , usedBase )
if base > MaxSize {
return - 1 , nil , nil , fmt . Errorf ( "denco: too many elements of internal slice" )
}
da . setBase ( idx , base )
return base , siblings , leaf , err
}
// node represents a node of Double-Array.
type node struct {
data interface { }
// Names of path parameters.
paramNames [ ] string
}
// makeNode returns a new node from record.
func makeNode ( r * record ) ( * node , error ) {
dups := make ( map [ string ] bool )
for _ , name := range r . paramNames {
if dups [ name ] {
return nil , fmt . Errorf ( "denco: path parameter `%v' is duplicated in the key `%v'" , name , r . Key )
}
dups [ name ] = true
}
return & node { data : r . Value , paramNames : r . paramNames } , nil
}
// sibling represents an intermediate data of build for Double-Array.
type sibling struct {
// An index of start of duplicated characters.
start int
// An index of end of duplicated characters.
end int
// A character of sibling.
c byte
}
// nextIndex returns a next index of array of BASE/CHECK.
func nextIndex ( base int , c byte ) int {
return base ^ int ( c )
}
// makeSiblings returns slice of sibling.
func makeSiblings ( records [ ] * record , depth int ) ( sib [ ] sibling , leaf * record , err error ) {
var (
pc byte
n int
)
for i , r := range records {
if len ( r . Key ) <= depth {
leaf = r
continue
}
c := r . Key [ depth ]
switch {
case pc < c :
sib = append ( sib , sibling { start : i , c : c } )
case pc == c :
continue
default :
return nil , nil , fmt . Errorf ( "denco: BUG: routing table hasn't been sorted" )
}
if n > 0 {
sib [ n - 1 ] . end = i
}
pc = c
n ++
}
if n == 0 {
return nil , leaf , nil
}
sib [ n - 1 ] . end = len ( records )
return sib , leaf , nil
}
// Record represents a record data for router construction.
type Record struct {
// Key for router construction.
Key string
// Result value for Key.
Value interface { }
}
// NewRecord returns a new Record.
func NewRecord ( key string , value interface { } ) Record {
return Record {
Key : key ,
Value : value ,
}
}
// record represents a record that use to build the Double-Array.
type record struct {
Record
paramNames [ ] string
}
// makeRecords returns the records that use to build Double-Arrays.
func makeRecords ( srcs [ ] Record ) ( statics , params [ ] * record ) {
termChar := string ( TerminationCharacter )
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paramPrefix := string ( SeparatorCharacter ) + string ( ParamCharacter )
wildcardPrefix := string ( SeparatorCharacter ) + string ( WildcardCharacter )
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for _ , r := range srcs {
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if strings . Contains ( r . Key , paramPrefix ) || strings . Contains ( r . Key , wildcardPrefix ) {
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r . Key += termChar
params = append ( params , & record { Record : r } )
} else {
statics = append ( statics , & record { Record : r } )
}
}
return statics , params
}
// recordSlice represents a slice of Record for sort and implements the sort.Interface.
type recordSlice [ ] * record
// Len implements the sort.Interface.Len.
func ( rs recordSlice ) Len ( ) int {
return len ( rs )
}
// Less implements the sort.Interface.Less.
func ( rs recordSlice ) Less ( i , j int ) bool {
return rs [ i ] . Key < rs [ j ] . Key
}
// Swap implements the sort.Interface.Swap.
func ( rs recordSlice ) Swap ( i , j int ) {
rs [ i ] , rs [ j ] = rs [ j ] , rs [ i ]
}