func die(err error, exit bool) (shouldExit bool) {
if err != nil {
ansi.Fprintf(os.Stderr, ansi.RedBold, "Error: %s\n", err.Error())
if exit {
os.Exit(1)
}
return true
}
return false
}
func main() {
p := argparse.New("A minimal Go compiler for K750")
p.Argument("Dir", 1, argparse.Store, "dir", "The package directory to compile. It should contain a 'main' package.")
args := &Args{}
err := p.Parse(args)
if err != nil {
if cmdLineErr, ok := err.(argparse.CommandLineError); ok {
ansi.Fprintln(os.Stderr, ansi.RedBold, string(cmdLineErr))
p.Usage()
os.Exit(2)
} else {
ansi.Fprintf(os.Stderr, ansi.RedBold, "Error: %s\n", err.Error())
os.Exit(1)
}
}
fset := token.NewFileSet()
pkgs, err := parser.ParseDir(fset, args.Dir, nil, parser.DeclarationErrors)
if err != nil {
ansi.Fprintf(os.Stderr, ansi.RedBold, "Error: %s\n", err.Error())
os.Exit(1)
}
pkg, ok := pkgs["main"]
if !ok {
ansi.Fprintf(os.Stderr, ansi.RedBold, "Error: main package was not found.")
os.Exit(1)
}
file := ast.MergePackageFiles(pkg, ast.FilterFuncDuplicates|ast.FilterImportDuplicates)
emitHeader()
defer emitFooter()
ast.Walk(NewFileVisitor(), file)
}
func main() {
flag.Parse()
if flag.NArg() < 1 {
ansi.Fprintf(os.Stderr, ansi.RedBold, "usage: %s [options] <server address>\n", os.Args[0])
os.Exit(2)
}
addr := flag.Arg(0)
username := *usernameP
password := *passwordP
debug := *debugP
var debugWriter io.Writer
var client *mcclient.Client
var err error
if debug {
debugWriter = DebugWriter{}
}
if password == "" {
if username == "" {
username = "******"
}
ansi.Printf(ansi.Green, "Authenticating offline as %s...\n", username)
client = mcclient.LoginOffline(username, debugWriter)
} else {
ansi.Printf(ansi.Green, "Authenticating as %s...\n", username)
client, err = mcclient.Login(username, password, debugWriter)
die(err)
}
client.StoreWorld = true
client.HandleMessage = func(msg string) {
matches := WhisperRegexp.FindStringSubmatch(msg)
if matches != nil {
ansi.Printf(ansi.YellowBold, "Message from %s: %s\n", matches[1], matches[2])
client.Chat(fmt.Sprintf("/tell %s %s", matches[1], matches[2]))
}
//fmt.Printf("# %s\n", mcclient.ANSIEscapes(msg))
//fmt.Printf("# %s\n", msg)
}
go func() {
/*
for err := range client.ErrChan {
ansi.Printf(ansi.RedBold, "Error: %s\n", err.Error())
}
*/
die(<-client.ErrChan)
}()
ansi.Printf(ansi.Green, "Connecting to %s...\n", addr)
die(client.Join(addr))
ansi.Printf(ansi.Green, "Connected!\n")
go bot(client)
kickMessage := client.Run()
ansi.Printf(ansi.Green, "Disconnected: %s\n", kickMessage)
}
func die(err error) {
if err != nil {
ansi.Fprintf(os.Stderr, ansi.RedBold, "Error: %s\n", err.Error())
os.Exit(1)
}
}
func main() {
p := argparse.New("A SPARQL query & update client")
p.Argument("Endpoint", 1, argparse.Store, "endpoint_uri", "The SPARQL endpoint URI. It is used for all query operations, and update operations when -u is not specified.")
p.Option('u', "update-endpoint", "UpdateEndpoint", 1, argparse.Store, "URI", "An alternative endpoint URI that is only used for SPARQL update operations. Default: use the query endpoint URI.")
p.Option('f', "fuseki", "UseFuseki", 0, argparse.StoreConst(true), "", "Interpret endpoint_uri as the URI of a Fuseki dataset, and then use its query and update services as the corresponding endpoints for the session.")
p.Option('d', "debug", "Debug", 0, argparse.StoreConst(true), "", "Show debug info.")
args := &Args{}
err := p.Parse(args)
if err != nil {
if cmdLineErr, ok := err.(argparse.CommandLineError); ok {
ansi.Fprintln(os.Stderr, ansi.RedBold, string(cmdLineErr))
p.Help()
os.Exit(2)
} else {
die(err, true)
}
}
var queryService, updateService sparql.SparqlService
if args.UseFuseki {
dataset := fuseki.NewDataset(args.Endpoint)
queryService = dataset.QueryService()
updateService = dataset.UpdateService()
} else {
queryService = sparql.NewSparqlService(args.Endpoint)
if args.UpdateEndpoint != "" {
updateService = sparql.NewSparqlService(args.UpdateEndpoint)
} else {
updateService = queryService
}
}
queryService.Debug = args.Debug
updateService.Debug = args.Debug
stdinReader := bufio.NewReader(os.Stdin)
prefixes := make(map[string]string) // Prefix -> Base URI
format := argo.Formats["rdfxml"]
mainloop:
for {
fmt.Print("> ")
line, err := stdinReader.ReadString('\n')
if err == io.EOF {
return
}
if die(err, false) {
continue mainloop
}
line = trimPrefixes(line[:len(line)-1], prefixes)
line = strings.Trim(line, " \r\n\t")
if line == "" {
continue mainloop
}
verb := line
spacePos := strings.IndexRune(line, ' ')
if spacePos >= 0 {
verb = line[:spacePos]
}
switch strings.ToUpper(verb) {
case "SELECT":
rp, err := queryService.Select(line)
if die(err, false) {
continue mainloop
}
vars := rp.Vars()
var table Table
table.SetHeader(vars...)
for result := range rp.ResultChan() {
fields := make([]string, len(vars))
for i, v := range vars {
fields[i] = result[v].String()
}
table.AddRow(fields...)
}
ansi.AttrOn(ansi.Yellow)
table.Print()
ansi.AttrOff(ansi.Yellow)
case "ASK":
result, err := queryService.Ask(line)
if die(err, false) {
continue mainloop
}
ansi.Printf(ansi.Magenta, "Result: %t\n", result)
case "CONSTRUCT", "DESCRIBE":
graph, err := queryService.Graph(line)
if die(err, false) {
continue mainloop
}
updateRev(graph.Prefixes, prefixes)
ansi.AttrOn(ansi.Cyan)
graph.Serialize(format.Serializer, os.Stdout)
ansi.AttrOff(ansi.Cyan)
case "INSERT", "DELETE", "LOAD", "CLEAR", "CREATE", "DROP", "COPY", "MOVE", "ADD":
err := updateService.Update(line)
if die(err, false) {
continue mainloop
}
ansi.Println(ansi.GreenBold, "OK")
case "FORMAT":
formatName := strings.ToLower(line[spacePos+1:])
newFormat, ok := argo.Formats[formatName]
if !ok {
ansi.Fprintf(os.Stderr, ansi.RedBold, "Invalid format: %s\n", formatName)
}
format = newFormat
default:
ansi.Fprintf(os.Stderr, ansi.RedBold, "Invalid command: %s\n", verb)
}
}
}
func msg(style ansi.Attribute, format string, args ...interface{}) {
ansi.Fprintf(os.Stderr, style, format, args...)
}
func main() {
argo.LoadLookupCache(LookupCacheFile)
defer argo.SaveLookupCache(LookupCacheFile)
startTime := time.Now()
args := &Args{
OutFile: "-",
}
p := argparse.New("A tool for manipulating RDF files.")
p.Option('o', "output", "OutFile", 1, argparse.Store, "FILENAME", "The file to write output to. Default: standard output.")
p.Option('u', "url", "URLs", 1, argparse.Append, "URL", "A URL to download from and add to the graph. Can be used multiple times. Default: no URLs will be downloaded.")
p.Option('I', "input-format", "InputFormat", 1, argparse.Choice(argparse.Store, Parsers...), "FORMAT", "The format to parse all input sources as. Default: determine by the file extension, or fall back to rdfxml if unavailable.")
p.Option('i', "stdin-format", "StdinFormat", 1, argparse.Choice(argparse.Store, Parsers...), "FORMAT", "The format to parse stdin as. The formats for all other sources (files and URLs) are still determined by their file extensions. Default: rdfxml.")
p.Option('O', "output-format", "OutputFormat", 1, argparse.Choice(argparse.Store, Serializers...), "FORMAT", "The format to write output to. Default: determine by the file extension, or fall back to rdfxml if unavailable.")
p.Option('F', "formats", "ShowFormats", 0, argparse.StoreConst(true), "", "Display a list of formats.")
p.Option('r', "rewrite", "Rewrites", 2, argparse.Append, "FIND REPLACE", "Replaces all URIs and blank nodes that match the standard regular expression FIND with the URI REPLACE. Within REPLACE, patterns such as $1, $2 etc. expanding to the text of the first and second submatch respectively. This option can be used multiple times. Input and output strings that have the prefix '_:' are interpreted as blank nodes; otherwise they are URIs.")
p.Option(0, "rewrite-subject", "SubjectRewrites", 2, argparse.Append, "FIND REPLACE", "Like -r/--rewrite, but only applies to subject terms.")
p.Option(0, "rewrite-predicate", "PredicateRewrites", 2, argparse.Append, "FIND REPLACE", "Like -r/--rewrite, but only applies to predicate terms.")
p.Option(0, "rewrite-object", "ObjectRewrites", 2, argparse.Append, "FIND REPLACE", "Like -r/--rewrite, but only applies to object terms.")
p.Argument("Files", argparse.ZeroOrMore, argparse.Store, "filename", "Files to parse and add to the graph.")
err := p.Parse(args)
if err != nil {
ansi.Fprintf(os.Stderr, ansi.RedBold, "Error when parsing arguments: %s\n", err.Error())
os.Exit(1)
}
if args.ShowFormats {
fmt.Printf("Input formats:\n")
for _, id := range Parsers {
fmt.Printf(" %s - %s\n", id, argo.Formats[id].Name)
}
fmt.Printf("\nOutput formats:\n")
for _, id := range Serializers {
fmt.Printf(" %s - %s\n", id, argo.Formats[id].Name)
}
return
}
// =============================================================================================
var rewrites, subjectRewrites, predicateRewrites, objectRewrites []Rewrite
if args.Rewrites != nil {
rewrites = make([]Rewrite, len(args.Rewrites)/2)
for i := 0; i < len(args.Rewrites); i += 2 {
rewrites[i/2].Regexp = regexp.MustCompile(args.Rewrites[i])
rewrites[i/2].Template = args.Rewrites[i+1]
}
}
if args.SubjectRewrites != nil {
subjectRewrites = make([]Rewrite, len(args.SubjectRewrites)/2)
for i := 0; i < len(args.SubjectRewrites); i += 2 {
subjectRewrites[i/2].Regexp = regexp.MustCompile(args.SubjectRewrites[i])
subjectRewrites[i/2].Template = args.SubjectRewrites[i+1]
}
}
if args.PredicateRewrites != nil {
predicateRewrites = make([]Rewrite, len(args.PredicateRewrites)/2)
for i := 0; i < len(args.PredicateRewrites); i += 2 {
predicateRewrites[i/2].Regexp = regexp.MustCompile(args.PredicateRewrites[i])
predicateRewrites[i/2].Template = args.PredicateRewrites[i+1]
}
}
if args.ObjectRewrites != nil {
objectRewrites = make([]Rewrite, len(args.ObjectRewrites)/2)
for i := 0; i < len(args.ObjectRewrites); i += 2 {
objectRewrites[i/2].Regexp = regexp.MustCompile(args.ObjectRewrites[i])
objectRewrites[i/2].Template = args.ObjectRewrites[i+1]
}
}
parseChan := make(chan *argo.Triple)
serializeChan := make(chan *argo.Triple)
parseErrChan := make(chan error)
serializeErrChan := make(chan error)
prefixMap := make(map[string]string)
var output io.Writer
format := argo.Formats["rdfxml"]
if args.OutFile == "-" {
output = os.Stdout
} else {
output, err = os.Create(args.OutFile)
if err != nil {
msg(ansi.RedBold, "Error when opening '%s' for writing: %s\n", args.OutFile, err.Error())
os.Exit(1)
}
format = argo.FormatFromFilename(args.OutFile)
}
if args.OutputFormat != "" {
format = argo.Formats[args.OutputFormat]
}
msg(ansi.White, "Serializing as %s...\n", format.Name)
go read(parseChan, parseErrChan, prefixMap, args)
go format.Serializer(output, serializeChan, serializeErrChan, prefixMap)
go func() {
for triple := range parseChan {
rewrite(&triple.Subject, rewrites, subjectRewrites)
rewrite(&triple.Predicate, rewrites, predicateRewrites)
rewrite(&triple.Object, rewrites, objectRewrites)
serializeChan <- triple
TriplesProcessed++
}
close(serializeChan)
}()
for err = range parseErrChan {
msg(ansi.RedBold, "Error: %s\n", err.Error())
}
for err = range serializeErrChan {
msg(ansi.RedBold, "Error: %s\n", err.Error())
}
ms := float64(time.Since(startTime).Nanoseconds()) / 1000000.0
msg(ansi.White, "\n%d triples processed in %.3f seconds (%.3f ms)\n", TriplesProcessed, ms/1000.0, ms)
msg(ansi.White, "%d terms rewritten\n", Rewritten)
}