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tree.go
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tree.go
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package web
import (
"regexp"
"strings"
)
type pathNode struct {
// Given the next segment s, if edges[s] exists, then we'll look there first.
edges map[string]*pathNode
// If set, failure to match on edges will match on wildcard
wildcard *pathNode
// If set, and we have nothing left to match, then we match on this node
leaves []*pathLeaf
// If true, this pathNode has a pathparam that matches the rest of the path
matchesFullPath bool
}
// pathLeaf represents a leaf path segment that corresponds to a single route.
// For the route /admin/forums/:forum_id:\d.*/suggestions/:suggestion_id:\d.*
// We'd have wildcards = ["forum_id", "suggestion_id"]
// and regexps = [/\d.*/, /\d.*/]
// For the route /admin/forums/:forum_id/suggestions/:suggestion_id:\d.*
// We'd have wildcards = ["forum_id", "suggestion_id"]
// and regexps = [nil, /\d.*/]
// For the route /admin/forums/:forum_id/suggestions/:suggestion_id
// We'd have wildcards = ["forum_id", "suggestion_id"]
// and regexps = nil
type pathLeaf struct {
// names of wildcards that lead to this leaf. eg, ["category_id"] for the wildcard ":category_id"
wildcards []string
// regexps corresponding to wildcards. If a segment has regexp contraint, its entry will be nil.
// If the route has no regexp contraints on any segments, then regexps will be nil.
regexps []*regexp.Regexp
// Pointer back to the route
route *route
// If true, this leaf has a pathparam that matches the rest of the path
matchesFullPath bool
}
func newPathNode() *pathNode {
return &pathNode{edges: make(map[string]*pathNode)}
}
func (pn *pathNode) add(path string, route *route) {
pn.addInternal(splitPath(path), route, nil, nil)
}
func (pn *pathNode) addInternal(segments []string, route *route, wildcards []string, regexps []*regexp.Regexp) {
if len(segments) == 0 {
allNilRegexps := true
for _, r := range regexps {
if r != nil {
allNilRegexps = false
break
}
}
if allNilRegexps {
regexps = nil
}
matchesFullPath := false
if len(wildcards) > 0 {
matchesFullPath = wildcards[len(wildcards)-1] == "*"
}
pn.leaves = append(pn.leaves, &pathLeaf{route: route, wildcards: wildcards, regexps: regexps, matchesFullPath: matchesFullPath})
} else { // len(segments) >= 1
seg := segments[0]
wc, wcName, wcRegexpStr := isWildcard(seg)
if wc {
if pn.wildcard == nil {
pn.wildcard = newPathNode()
}
if !pn.wildcard.matchesFullPath {
pn.wildcard.matchesFullPath = wcName == "*"
}
pn.wildcard.addInternal(segments[1:], route, append(wildcards, wcName), append(regexps, compileRegexp(wcRegexpStr)))
} else {
subPn, ok := pn.edges[seg]
if !ok {
subPn = newPathNode()
pn.edges[seg] = subPn
}
subPn.addInternal(segments[1:], route, wildcards, regexps)
}
}
}
func (pn *pathNode) Match(path string) (leaf *pathLeaf, wildcards map[string]string) {
// Bail on invalid paths.
if len(path) == 0 || path[0] != '/' {
return nil, nil
}
return pn.match(splitPath(path), nil)
}
// Segments is like ["admin", "users"] representing "/admin/users"
// wildcardValues are the actual values accumulated when we match on a wildcard.
func (pn *pathNode) match(segments []string, wildcardValues []string) (leaf *pathLeaf, wildcardMap map[string]string) {
// Handle leaf nodes:
if len(segments) == 0 {
for _, leaf := range pn.leaves {
if leaf.match(wildcardValues) {
return leaf, makeWildcardMap(leaf, wildcardValues)
}
}
return nil, nil
}
var seg string
seg, segments = segments[0], segments[1:]
subPn, ok := pn.edges[seg]
if ok {
leaf, wildcardMap = subPn.match(segments, wildcardValues)
}
if leaf == nil && pn.wildcard != nil {
leaf, wildcardMap = pn.wildcard.match(segments, append(wildcardValues, seg))
}
if leaf == nil && pn.matchesFullPath {
for _, leaf := range pn.leaves {
if leaf.matchesFullPath && leaf.match(wildcardValues) {
if len(wildcardValues) > 0 {
wcVals := []string{wildcardValues[len(wildcardValues)-1], seg}
for _, s := range segments {
wcVals = append(wcVals, s)
}
wildcardValues[len(wildcardValues)-1] = strings.Join(wcVals, "/")
}
return leaf, makeWildcardMap(leaf, wildcardValues)
}
}
return nil, nil
}
return leaf, wildcardMap
}
func (leaf *pathLeaf) match(wildcardValues []string) bool {
if leaf.regexps == nil {
return true
}
// Invariant:
if len(leaf.regexps) != len(wildcardValues) {
panic("bug: invariant violated")
}
for i, r := range leaf.regexps {
if r != nil {
if !r.MatchString(wildcardValues[i]) {
return false
}
}
}
return true
}
// key is a non-empty path segment like "admin" or ":category_id" or ":category_id:\d+"
// Returns true if it's a wildcard, and if it is, also returns it's name / regexp.
// Eg, (true, "category_id", "\d+")
func isWildcard(key string) (bool, string, string) {
if key[0] == ':' {
substrs := strings.SplitN(key[1:], ":", 2)
if len(substrs) == 1 {
return true, substrs[0], ""
}
return true, substrs[0], substrs[1]
}
return false, "", ""
}
// "/" -> []
// "/admin" -> ["admin"]
// "/admin/" -> ["admin"]
// "/admin/users" -> ["admin", "users"]
func splitPath(key string) []string {
elements := strings.Split(key, "/")
if elements[0] == "" {
elements = elements[1:]
}
if elements[len(elements)-1] == "" {
elements = elements[:len(elements)-1]
}
return elements
}
func makeWildcardMap(leaf *pathLeaf, wildcards []string) map[string]string {
if leaf == nil {
return nil
}
leafWildcards := leaf.wildcards
if len(wildcards) == 0 || (len(leafWildcards) != len(wildcards)) {
return nil
}
// At this point, we know that wildcards and leaf.wildcards match in length.
assoc := make(map[string]string)
for i, w := range wildcards {
assoc[leafWildcards[i]] = w
}
return assoc
}
func compileRegexp(regStr string) *regexp.Regexp {
if regStr == "" {
return nil
}
return regexp.MustCompile("^" + regStr + "$")
}