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ws/internal/uri/parser/private.go

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package parser
import (
"strings"
"fmt"
)
// buildScheme builds a 'basic' scheme
// from a pattern string
func buildScheme(ss []string) (Scheme, error) {
/* (1) Build scheme */
sch := make(Scheme, 0, maxMatch)
for _, s := range ss {
/* (2) ignore empty */
if len(s) == 0 { continue }
m := new(matcher)
switch s {
/* (3) Card: 0, N */
case "**":
m.req = false
m.mul = true
sch = append(sch, m)
/* (4) Card: 1, N */
case "..":
m.req = true
m.mul = true
sch = append(sch, m)
/* (5) Card: 0, 1 */
case "*":
m.req = false
m.mul = false
sch = append(sch, m)
/* (6) Card: 1 */
case ".":
m.req = true
m.mul = false
sch = append(sch, m)
/* (7) Card: 1, literal string */
default:
m.req = true
m.mul = false
m.pat = fmt.Sprintf("/%s", s)
sch = append(sch, m)
}
}
return sch, nil
}
// optimise optimised the scheme for further parsing
func (s Scheme) optimise() (Scheme, error) {
/* (1) Nothing to do if only 1 element */
if len(s) <= 1 {
return s, nil
}
/* (2) Init reshifted scheme */
rshift := make(Scheme, 0, maxMatch)
rshift = append(rshift, s[0])
/* (2) Iterate over matchers */
for p, i, l := 0, 1, len(s) ; i < l ; i++ {
pre, cur := s[p], s[i]
/* Merge: 2 following literals */
if len(pre.pat) > 0 && len(cur.pat) > 0 {
// merge strings into previous
pre.pat = fmt.Sprintf("%s%s", pre.pat, cur.pat)
// delete current
s[i] = nil
}
// increment previous (only if current is not nul)
if s[i] != nil {
rshift = append(rshift, s[i])
p = i
}
}
return rshift, nil
}
// matchString checks the STRING matchers from an URI
// it returns a boolean : false when not matching, true eitherway
// it returns a cleared uri, without STRING data
func (s Scheme) matchString(uri string) (string, bool) {
/* (1) Initialise variables */
clr := uri // contains cleared input string
minOff := 0 // minimum offset
/* (2) Iterate over strings */
for _, m := range s {
ls := len(m.pat)
// {1} If not STRING matcher -> ignore //
if ls == 0 { continue }
// {2} Get offset in URI (else -1) //
off := strings.Index(clr, m.pat)
if off < 0 { return "", false }
// {3} Fail on invalid offset range //
if off < minOff { return "", false }
// {4} Check for trailing '/' //
hasSlash := 0
if off+ls < len(clr) && clr[off+ls] == '/' {
hasSlash = 1
}
// {5} Remove the current string (+trailing slash) from the URI //
beg, end := clr[:off], clr[off+ls+hasSlash:]
clr = fmt.Sprintf("%s\a/%s", beg, end) // separate matches by '\a' character
// {6} Update offset range //
minOff = len(beg) + 2 - 1 // +2 slash separators
// -1 because strings begin with 1 slash already
}
/* (3) If exists, remove trailing '/' */
if clr[len(clr)-1] == '/' {
clr = clr[:len(clr)-1]
}
/* (4) If exists, remove trailing '\a' */
if clr[len(clr)-1] == '\a' {
clr = clr[:len(clr)-1]
}
return clr, true
}
// matchWildcards check the WILCARDS (non-string) matchers from
// a cleared URI. it returns if the string matches
// + it sets the matchers buffers for later extraction
func (s Scheme) matchWildcards(clear string) bool {
/* (1) Extract wildcards (ref) */
wildcards := make(Scheme, 0, maxMatch)
for _, m := range s {
if len(m.pat) == 0 {
m.buf = nil // flush buffers
wildcards = append(wildcards, m)
}
}
/* (2) If no wildcards -> match */
if len(wildcards) == 0 {
return true
}
/* (3) Break uri by '\a' characters */
matches := strings.Split(clear, "\a")[1:]
/* (4) Iterate over matches */
for n, match := range matches {
// {1} If no more matcher //
if n >= len(wildcards) {
return false
}
// {2} Split by '/' //
data := strings.Split(match, "/")[1:] // from index 1 because it begins with '/'
// {3} If required and missing //
if wildcards[n].req && len(data) < 1 {
return false
}
// {4} If not multi but got multi //
if !wildcards[n].mul && len(data) > 1 {
return false
}
// {5} Store data into matcher //
wildcards[n].buf = data
}
/* (5) Match */
return true
}
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