func main() {
runtime.GOMAXPROCS(runtime.NumCPU())
flag.Parse()
dirStr := filepath.Dir(flag.Arg(0))
pths, err := dir.AllPaths(dirStr, *exclude, *include)
total := 0
if err != nil {
panic(err)
}
limit := 5000
if len(pths) < limit {
files := OpenParallel(pths)
sort.Sort(ByLengthReverse{files})
// decide length of output
length := len(files)
if *lmt != 0 && *lmt <= length {
length = *lmt
}
for i := 0; i < length; i++ {
total += files[i].LineCount
fmt.Printf("%7d\t%s\n", files[i].LineCount, files[i].FilePath)
}
fmt.Printf("\n%7d\ttotal\n\n", total)
} else {
fmt.Printf("\nDidn't bother, you tried to meaure %d files, limit set to %d\n\n", len(pths), limit)
}
}
func main() {
flag.Parse()
// start at current dir or path from args
dirStr := filepath.Dir(flag.Arg(0))
fps, err := dir.AllPaths(dirStr, *exclude, *include)
if err != nil {
panic(err)
}
filePaths := fullInfo(fps, *ignoreCommentsEmptyLines)
// order by args
if *byBytes {
if *asc {
sort.Sort(ByByteLen{filePaths})
} else {
sort.Sort(ByByteLenReverse{filePaths})
}
} else {
if *asc {
sort.Sort(ByLines{filePaths})
} else {
sort.Sort(ByLinesReverse{filePaths})
}
}
// decide length of output
length := len(filePaths)
if *lmt != 0 && *lmt <= length {
length = *lmt
}
// print output
out(filePaths, length)
}
func getPaths(dirStr string) []string {
paths, err := dir.AllPaths(dirStr, *exclude, *include)
if err != nil {
panic(err)
}
return paths
}
func main() {
runtime.GOMAXPROCS(runtime.NumCPU())
flag.Parse()
dirStr := filepath.Dir(flag.Arg(0))
filePaths, err := dir.AllPaths(dirStr, *exclude, *include)
if err != nil {
panic(err)
}
limit := 5000
length := len(filePaths)
if length < limit {
tMap := make(count.TokensMap)
count.TokensInFiles(filePaths, *tokenRegExp, tMap)
tSlice := tMap.ToSlice()
if *asc == true {
sort.Sort(count.TokenSliceByCountAsc{tSlice})
} else {
sort.Sort(count.TokenSliceByCountDesc{tSlice})
}
length = len(tSlice)
if *lmt != 0 && *lmt <= length {
length = *lmt
}
for i := 0; i < length; i++ {
fmt.Printf("%7d\t%s\n", tSlice[i].Count, tSlice[i].Token)
}
} else {
fmt.Printf("\nDidn't bother, you tried to meaure %d files, limit set to %d\n\n", length, limit)
}
}
func main() {
flag.Parse()
dirStr := filepath.Dir(flag.Arg(0))
paths, err := dir.AllPaths(dirStr, "^$", *re)
if err != nil {
panic(err)
}
for i := 0; i < len(paths); i++ {
fmt.Println(paths[i])
}
}
func main() {
// parse cmd flags
flag.Parse()
// get the directory from which to start searching
dirStr := filepath.Dir(flag.Arg(0))
// traverse all child directories and collect a slice of file paths
filePaths, err := dir.AllPaths(dirStr, *exclude, *include)
if err != nil {
panic(err)
}
// create the regexp to isolate the key
compiledTokenRE, err := regexp.Compile(tokenRE)
// create a difinitive map of tokens
allTokens := make(AllTokens)
// create a map for files
files := make(map[string]File)
// loop all files paths
length := len(filePaths)
for i := 0; i < length; i++ {
// collect published tokens from file
pubMap := make(count.TokensMap)
count.TokensInFile(filePaths[i], pubRE, pubMap)
// collect subscribed tokens from file
subMap := make(count.TokensMap)
count.TokensInFile(filePaths[i], subRE, subMap)
// collect state.set tokens from file
stateSetMap := make(count.TokensMap)
count.TokensInFile(filePaths[i], stateSetRE, stateSetMap)
// collect state.get tokens from file
stateGetMap := make(count.TokensMap)
count.TokensInFile(filePaths[i], stateGetRE, stateGetMap)
// collect all state and pubSub interactions for this file
files[filePaths[i]] = File{
loopTokens(pubMap, compiledTokenRE, allTokens, 0),
loopTokens(subMap, compiledTokenRE, allTokens, 0),
loopTokens(stateSetMap, compiledTokenRE, allTokens, 1),
loopTokens(stateGetMap, compiledTokenRE, allTokens, 1),
}
}
// now we have a map of all files and their publshed and subscribed keys
printInDotFormat(
allTokens,
filterEmptyFiles(files),
)
}