mirror of
https://github.com/cwinfo/matterbridge.git
synced 2024-11-23 04:41:36 +00:00
492 lines
13 KiB
Go
492 lines
13 KiB
Go
package echo
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import (
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"net/http"
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)
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type (
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// Router is the registry of all registered routes for an `Echo` instance for
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// request matching and URL path parameter parsing.
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Router struct {
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tree *node
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routes map[string]*Route
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echo *Echo
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}
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node struct {
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kind kind
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label byte
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prefix string
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parent *node
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staticChildren children
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ppath string
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pnames []string
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methodHandler *methodHandler
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paramChild *node
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anyChild *node
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}
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kind uint8
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children []*node
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methodHandler struct {
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connect HandlerFunc
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delete HandlerFunc
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get HandlerFunc
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head HandlerFunc
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options HandlerFunc
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patch HandlerFunc
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post HandlerFunc
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propfind HandlerFunc
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put HandlerFunc
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trace HandlerFunc
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report HandlerFunc
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}
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)
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const (
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staticKind kind = iota
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paramKind
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anyKind
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paramLabel = byte(':')
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anyLabel = byte('*')
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)
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// NewRouter returns a new Router instance.
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func NewRouter(e *Echo) *Router {
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return &Router{
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tree: &node{
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methodHandler: new(methodHandler),
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},
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routes: map[string]*Route{},
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echo: e,
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}
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}
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// Add registers a new route for method and path with matching handler.
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func (r *Router) Add(method, path string, h HandlerFunc) {
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// Validate path
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if path == "" {
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path = "/"
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}
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if path[0] != '/' {
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path = "/" + path
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}
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pnames := []string{} // Param names
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ppath := path // Pristine path
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for i, lcpIndex := 0, len(path); i < lcpIndex; i++ {
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if path[i] == ':' {
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j := i + 1
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r.insert(method, path[:i], nil, staticKind, "", nil)
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for ; i < lcpIndex && path[i] != '/'; i++ {
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}
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pnames = append(pnames, path[j:i])
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path = path[:j] + path[i:]
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i, lcpIndex = j, len(path)
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if i == lcpIndex {
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r.insert(method, path[:i], h, paramKind, ppath, pnames)
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} else {
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r.insert(method, path[:i], nil, paramKind, "", nil)
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}
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} else if path[i] == '*' {
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r.insert(method, path[:i], nil, staticKind, "", nil)
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pnames = append(pnames, "*")
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r.insert(method, path[:i+1], h, anyKind, ppath, pnames)
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}
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}
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r.insert(method, path, h, staticKind, ppath, pnames)
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}
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func (r *Router) insert(method, path string, h HandlerFunc, t kind, ppath string, pnames []string) {
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// Adjust max param
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paramLen := len(pnames)
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if *r.echo.maxParam < paramLen {
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*r.echo.maxParam = paramLen
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}
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currentNode := r.tree // Current node as root
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if currentNode == nil {
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panic("echo: invalid method")
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}
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search := path
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for {
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searchLen := len(search)
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prefixLen := len(currentNode.prefix)
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lcpLen := 0
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// LCP - Longest Common Prefix (https://en.wikipedia.org/wiki/LCP_array)
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max := prefixLen
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if searchLen < max {
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max = searchLen
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}
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for ; lcpLen < max && search[lcpLen] == currentNode.prefix[lcpLen]; lcpLen++ {
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}
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if lcpLen == 0 {
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// At root node
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currentNode.label = search[0]
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currentNode.prefix = search
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if h != nil {
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currentNode.kind = t
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currentNode.addHandler(method, h)
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currentNode.ppath = ppath
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currentNode.pnames = pnames
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}
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} else if lcpLen < prefixLen {
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// Split node
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n := newNode(
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currentNode.kind,
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currentNode.prefix[lcpLen:],
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currentNode,
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currentNode.staticChildren,
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currentNode.methodHandler,
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currentNode.ppath,
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currentNode.pnames,
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currentNode.paramChild,
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currentNode.anyChild,
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)
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// Update parent path for all children to new node
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for _, child := range currentNode.staticChildren {
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child.parent = n
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}
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if currentNode.paramChild != nil {
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currentNode.paramChild.parent = n
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}
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if currentNode.anyChild != nil {
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currentNode.anyChild.parent = n
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}
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// Reset parent node
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currentNode.kind = staticKind
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currentNode.label = currentNode.prefix[0]
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currentNode.prefix = currentNode.prefix[:lcpLen]
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currentNode.staticChildren = nil
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currentNode.methodHandler = new(methodHandler)
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currentNode.ppath = ""
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currentNode.pnames = nil
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currentNode.paramChild = nil
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currentNode.anyChild = nil
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// Only Static children could reach here
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currentNode.addStaticChild(n)
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if lcpLen == searchLen {
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// At parent node
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currentNode.kind = t
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currentNode.addHandler(method, h)
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currentNode.ppath = ppath
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currentNode.pnames = pnames
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} else {
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// Create child node
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n = newNode(t, search[lcpLen:], currentNode, nil, new(methodHandler), ppath, pnames, nil, nil)
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n.addHandler(method, h)
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// Only Static children could reach here
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currentNode.addStaticChild(n)
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}
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} else if lcpLen < searchLen {
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search = search[lcpLen:]
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c := currentNode.findChildWithLabel(search[0])
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if c != nil {
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// Go deeper
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currentNode = c
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continue
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}
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// Create child node
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n := newNode(t, search, currentNode, nil, new(methodHandler), ppath, pnames, nil, nil)
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n.addHandler(method, h)
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switch t {
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case staticKind:
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currentNode.addStaticChild(n)
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case paramKind:
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currentNode.paramChild = n
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case anyKind:
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currentNode.anyChild = n
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}
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} else {
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// Node already exists
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if h != nil {
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currentNode.addHandler(method, h)
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currentNode.ppath = ppath
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if len(currentNode.pnames) == 0 { // Issue #729
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currentNode.pnames = pnames
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}
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}
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}
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return
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}
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}
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func newNode(t kind, pre string, p *node, sc children, mh *methodHandler, ppath string, pnames []string, paramChildren, anyChildren *node) *node {
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return &node{
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kind: t,
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label: pre[0],
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prefix: pre,
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parent: p,
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staticChildren: sc,
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ppath: ppath,
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pnames: pnames,
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methodHandler: mh,
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paramChild: paramChildren,
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anyChild: anyChildren,
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}
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}
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func (n *node) addStaticChild(c *node) {
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n.staticChildren = append(n.staticChildren, c)
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}
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func (n *node) findStaticChild(l byte) *node {
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for _, c := range n.staticChildren {
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if c.label == l {
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return c
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}
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}
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return nil
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}
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func (n *node) findChildWithLabel(l byte) *node {
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for _, c := range n.staticChildren {
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if c.label == l {
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return c
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}
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}
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if l == paramLabel {
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return n.paramChild
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}
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if l == anyLabel {
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return n.anyChild
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}
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return nil
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}
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func (n *node) addHandler(method string, h HandlerFunc) {
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switch method {
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case http.MethodConnect:
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n.methodHandler.connect = h
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case http.MethodDelete:
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n.methodHandler.delete = h
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case http.MethodGet:
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n.methodHandler.get = h
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case http.MethodHead:
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n.methodHandler.head = h
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case http.MethodOptions:
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n.methodHandler.options = h
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case http.MethodPatch:
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n.methodHandler.patch = h
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case http.MethodPost:
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n.methodHandler.post = h
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case PROPFIND:
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n.methodHandler.propfind = h
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case http.MethodPut:
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n.methodHandler.put = h
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case http.MethodTrace:
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n.methodHandler.trace = h
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case REPORT:
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n.methodHandler.report = h
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}
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}
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func (n *node) findHandler(method string) HandlerFunc {
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switch method {
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case http.MethodConnect:
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return n.methodHandler.connect
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case http.MethodDelete:
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return n.methodHandler.delete
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case http.MethodGet:
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return n.methodHandler.get
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case http.MethodHead:
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return n.methodHandler.head
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case http.MethodOptions:
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return n.methodHandler.options
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case http.MethodPatch:
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return n.methodHandler.patch
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case http.MethodPost:
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return n.methodHandler.post
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case PROPFIND:
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return n.methodHandler.propfind
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case http.MethodPut:
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return n.methodHandler.put
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case http.MethodTrace:
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return n.methodHandler.trace
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case REPORT:
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return n.methodHandler.report
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default:
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return nil
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}
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}
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func (n *node) checkMethodNotAllowed() HandlerFunc {
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for _, m := range methods {
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if h := n.findHandler(m); h != nil {
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return MethodNotAllowedHandler
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}
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}
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return NotFoundHandler
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}
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// Find lookup a handler registered for method and path. It also parses URL for path
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// parameters and load them into context.
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//
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// For performance:
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//
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// - Get context from `Echo#AcquireContext()`
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// - Reset it `Context#Reset()`
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// - Return it `Echo#ReleaseContext()`.
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func (r *Router) Find(method, path string, c Context) {
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ctx := c.(*context)
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ctx.path = path
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currentNode := r.tree // Current node as root
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var (
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// search stores the remaining path to check for match. By each iteration we move from start of path to end of the path
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// and search value gets shorter and shorter.
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search = path
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searchIndex = 0
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paramIndex int // Param counter
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paramValues = ctx.pvalues // Use the internal slice so the interface can keep the illusion of a dynamic slice
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)
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// Backtracking is needed when a dead end (leaf node) is reached in the router tree.
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// To backtrack the current node will be changed to the parent node and the next kind for the
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// router logic will be returned based on fromKind or kind of the dead end node (static > param > any).
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// For example if there is no static node match we should check parent next sibling by kind (param).
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// Backtracking itself does not check if there is a next sibling, this is done by the router logic.
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backtrackToNextNodeKind := func(fromKind kind) (nextNodeKind kind, valid bool) {
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previous := currentNode
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currentNode = previous.parent
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valid = currentNode != nil
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// Next node type by priority
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// NOTE: With the current implementation we never backtrack from an `any` route, so `previous.kind` is
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// always `static` or `any`
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// If this is changed then for any route next kind would be `static` and this statement should be changed
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nextNodeKind = previous.kind + 1
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if fromKind == staticKind {
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// when backtracking is done from static kind block we did not change search so nothing to restore
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return
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}
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// restore search to value it was before we move to current node we are backtracking from.
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if previous.kind == staticKind {
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searchIndex -= len(previous.prefix)
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} else {
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paramIndex--
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// for param/any node.prefix value is always `:` so we can not deduce searchIndex from that and must use pValue
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// for that index as it would also contain part of path we cut off before moving into node we are backtracking from
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searchIndex -= len(paramValues[paramIndex])
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}
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search = path[searchIndex:]
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return
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}
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// Router tree is implemented by longest common prefix array (LCP array) https://en.wikipedia.org/wiki/LCP_array
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// Tree search is implemented as for loop where one loop iteration is divided into 3 separate blocks
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// Each of these blocks checks specific kind of node (static/param/any). Order of blocks reflex their priority in routing.
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// Search order/priority is: static > param > any.
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//
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// Note: backtracking in tree is implemented by replacing/switching currentNode to previous node
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// and hoping to (goto statement) next block by priority to check if it is the match.
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for {
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prefixLen := 0 // Prefix length
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lcpLen := 0 // LCP (longest common prefix) length
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if currentNode.kind == staticKind {
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searchLen := len(search)
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prefixLen = len(currentNode.prefix)
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// LCP - Longest Common Prefix (https://en.wikipedia.org/wiki/LCP_array)
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max := prefixLen
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if searchLen < max {
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max = searchLen
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}
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for ; lcpLen < max && search[lcpLen] == currentNode.prefix[lcpLen]; lcpLen++ {
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}
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}
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if lcpLen != prefixLen {
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// No matching prefix, let's backtrack to the first possible alternative node of the decision path
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nk, ok := backtrackToNextNodeKind(staticKind)
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if !ok {
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return // No other possibilities on the decision path
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} else if nk == paramKind {
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goto Param
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// NOTE: this case (backtracking from static node to previous any node) can not happen by current any matching logic. Any node is end of search currently
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//} else if nk == anyKind {
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// goto Any
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} else {
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// Not found (this should never be possible for static node we are looking currently)
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return
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}
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}
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// The full prefix has matched, remove the prefix from the remaining search
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search = search[lcpLen:]
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searchIndex = searchIndex + lcpLen
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// Finish routing if no remaining search and we are on an leaf node
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if search == "" && currentNode.ppath != "" {
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break
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}
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// Static node
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if search != "" {
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if child := currentNode.findStaticChild(search[0]); child != nil {
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currentNode = child
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continue
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}
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}
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Param:
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// Param node
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if child := currentNode.paramChild; search != "" && child != nil {
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currentNode = child
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// FIXME: when param node does not have any children then param node should act similarly to any node - consider all remaining search as match
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i, l := 0, len(search)
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for ; i < l && search[i] != '/'; i++ {
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}
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paramValues[paramIndex] = search[:i]
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paramIndex++
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search = search[i:]
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searchIndex = searchIndex + i
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continue
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}
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Any:
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// Any node
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if child := currentNode.anyChild; child != nil {
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// If any node is found, use remaining path for paramValues
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currentNode = child
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paramValues[len(currentNode.pnames)-1] = search
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break
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}
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// Let's backtrack to the first possible alternative node of the decision path
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nk, ok := backtrackToNextNodeKind(anyKind)
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if !ok {
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return // No other possibilities on the decision path
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} else if nk == paramKind {
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goto Param
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} else if nk == anyKind {
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goto Any
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} else {
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// Not found
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return
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}
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}
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ctx.handler = currentNode.findHandler(method)
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ctx.path = currentNode.ppath
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ctx.pnames = currentNode.pnames
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if ctx.handler == nil {
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ctx.handler = currentNode.checkMethodNotAllowed()
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}
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return
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}
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