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gitea/vendor/github.com/go-enry/go-enry/v2/utils.go

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package enry
import (
"bytes"
"path/filepath"
"regexp"
"sort"
"strings"
"github.com/go-enry/go-enry/v2/data"
"github.com/go-enry/go-enry/v2/regex"
)
const binSniffLen = 8000
var configurationLanguages = map[string]struct{}{
"XML": {},
"JSON": {},
"TOML": {},
"YAML": {},
"INI": {},
"SQL": {},
}
// IsConfiguration tells if filename is in one of the configuration languages.
func IsConfiguration(path string) bool {
language, _ := GetLanguageByExtension(path)
_, is := configurationLanguages[language]
return is
}
// IsImage tells if a given file is an image (PNG, JPEG or GIF format).
func IsImage(path string) bool {
extension := filepath.Ext(path)
if extension == ".png" || extension == ".jpg" || extension == ".jpeg" || extension == ".gif" {
return true
}
return false
}
// GetMIMEType returns a MIME type of a given file based on its languages.
func GetMIMEType(path string, language string) string {
if mime, ok := data.LanguagesMime[language]; ok {
return mime
}
if IsImage(path) {
return "image/" + filepath.Ext(path)[1:]
}
return "text/plain"
}
// IsDocumentation returns whether or not path is a documentation path.
func IsDocumentation(path string) bool {
return matchRegexSlice(data.DocumentationMatchers, path)
}
// IsDotFile returns whether or not path has dot as a prefix.
func IsDotFile(path string) bool {
base := filepath.Base(filepath.Clean(path))
return strings.HasPrefix(base, ".") && base != "."
}
var isVendorRegExp *regexp.Regexp
// IsVendor returns whether or not path is a vendor path.
func IsVendor(path string) bool {
return isVendorRegExp.MatchString(path)
}
// IsTest returns whether or not path is a test path.
func IsTest(path string) bool {
return matchRegexSlice(data.TestMatchers, path)
}
// IsBinary detects if data is a binary value based on:
// http://git.kernel.org/cgit/git/git.git/tree/xdiff-interface.c?id=HEAD#n198
func IsBinary(data []byte) bool {
if len(data) > binSniffLen {
data = data[:binSniffLen]
}
if bytes.IndexByte(data, byte(0)) == -1 {
return false
}
return true
}
// GetColor returns a HTML color code of a given language.
func GetColor(language string) string {
if color, ok := data.LanguagesColor[language]; ok {
return color
}
if color, ok := data.LanguagesColor[GetLanguageGroup(language)]; ok {
return color
}
return "#cccccc"
}
func matchRegexSlice(exprs []regex.EnryRegexp, str string) bool {
for _, expr := range exprs {
if expr.MatchString(str) {
return true
}
}
return false
}
// IsGenerated returns whether the file with the given path and content is a
// generated file.
func IsGenerated(path string, content []byte) bool {
ext := strings.ToLower(filepath.Ext(path))
if _, ok := data.GeneratedCodeExtensions[ext]; ok {
return true
}
for _, m := range data.GeneratedCodeNameMatchers {
if m(path) {
return true
}
}
path = strings.ToLower(path)
for _, m := range data.GeneratedCodeMatchers {
if m(path, ext, content) {
return true
}
}
return false
}
func init() {
// We now collate the individual regexps that make up the VendorMatchers to
// produce a single large regexp which is around twice as fast to test than
// simply iterating through all the regexps or naïvely collating the
// regexps.
//
// ---
//
// data.VendorMatchers here is a slice containing individual regexps that
// match a vendor file therefore if we want to test if a filename is a
// Vendor we need to test whether that filename matches one or more of
// those regexps.
//
// Now we could test each matcher in turn using a shortcircuiting test i.e.
//
// func IsVendor(filename string) bool {
// for _, matcher := range data.VendorMatchers {
// if matcher.Match(filename) {
// return true
// }
// }
// return false
// }
//
// Or concatentate all these regexps using groups i.e.
//
// `(regexp1)|(regexp2)|(regexp3)|...`
//
// However both of these are relatively slow and they don't take advantage
// of the inherent structure within our regexps...
//
// If we look at our regexps there are essentially three types of regexp:
//
// 1. Those that start with `^`
// 2. Those that start with `(^|/)`
// 3. Others
//
// If we collate our regexps into these groups that will significantly
// reduce the likelihood of backtracking within the regexp trie matcher.
//
// A further improvement is to use non-capturing groups as otherwise the
// regexp parser, whilst matching, will have to allocate slices for
// matching positions. (A future improvement here could be in the use of
// enforcing non-capturing groups within the sub-regexps too.)
//
// Finally if we sort the segments we can help the matcher build a more
// efficient matcher and trie.
// alias the VendorMatchers to simplify things
matchers := data.VendorMatchers
// Create three temporary string slices for our three groups above - prefixes removed
caretStrings := make([]string, 0, 10)
caretSegmentStrings := make([]string, 0, 10)
matcherStrings := make([]string, 0, len(matchers))
// Walk the matchers and check their string representation for each group prefix, remove it and add to the respective group slices
for _, matcher := range matchers {
str := matcher.String()
if str[0] == '^' {
caretStrings = append(caretStrings, str[1:])
} else if str[0:5] == "(^|/)" {
caretSegmentStrings = append(caretSegmentStrings, str[5:])
} else {
matcherStrings = append(matcherStrings, str)
}
}
// Sort the strings within each group - a potential further improvement could be in simplifying within these groups
sort.Strings(caretSegmentStrings)
sort.Strings(caretStrings)
sort.Strings(matcherStrings)
// Now build the collated regexp
sb := &strings.Builder{}
// Start with group 1 - those that started with `^`
sb.WriteString("(?:^(?:")
sb.WriteString(caretStrings[0])
for _, matcher := range caretStrings[1:] {
sb.WriteString(")|(?:")
sb.WriteString(matcher)
}
sb.WriteString("))")
sb.WriteString("|")
// Now add group 2 - those that started with `(^|/)`
sb.WriteString("(?:(?:^|/)(?:")
sb.WriteString(caretSegmentStrings[0])
for _, matcher := range caretSegmentStrings[1:] {
sb.WriteString(")|(?:")
sb.WriteString(matcher)
}
sb.WriteString("))")
sb.WriteString("|")
// Finally add the rest
sb.WriteString("(?:")
sb.WriteString(matcherStrings[0])
for _, matcher := range matcherStrings[1:] {
sb.WriteString(")|(?:")
sb.WriteString(matcher)
}
sb.WriteString(")")
// Compile the whole thing as the isVendorRegExp
isVendorRegExp = regexp.MustCompile(sb.String())
}