package interp import ( "bytes" "context" "crypto/md5" "embed" "encoding/base64" "encoding/hex" "errors" "fmt" "io" "io/fs" "math/big" "path" "strconv" "strings" "time" "github.com/wader/fq/internal/ansi" "github.com/wader/fq/internal/bitioex" "github.com/wader/fq/internal/colorjson" "github.com/wader/fq/internal/ctxstack" "github.com/wader/fq/internal/gojqex" "github.com/wader/fq/internal/ioex" "github.com/wader/fq/internal/mapstruct" "github.com/wader/fq/internal/mathex" "github.com/wader/fq/internal/pos" "github.com/wader/fq/pkg/bitio" "github.com/wader/fq/pkg/decode" "github.com/wader/fq/pkg/scalar" "github.com/wader/gojq" ) //go:embed interp.jq //go:embed internal.jq //go:embed options.jq //go:embed binary.jq //go:embed decode.jq //go:embed registry_include.jq //go:embed format_decode.jq //go:embed format_func.jq //go:embed grep.jq //go:embed args.jq //go:embed eval.jq //go:embed query.jq //go:embed repl.jq //go:embed help.jq //go:embed funcs.jq //go:embed ansi.jq //go:embed init.jq var builtinFS embed.FS var initSource = `include "@builtin/init";` func init() { RegisterIter1("_readline", (*Interp)._readline) RegisterIter2("_eval", (*Interp)._eval) RegisterIter2("_stdio_read", (*Interp)._stdioRead) RegisterIter1("_stdio_write", (*Interp)._stdioWrite) RegisterFunc1("_stdio_info", (*Interp)._stdioInfo) RegisterFunc0("_extkeys", (*Interp)._extKeys) RegisterFunc0("_exttype", (*Interp)._extType) RegisterFunc0("_global_state", func(i *Interp, c any) any { return *i.state }) RegisterFunc1("_global_state", func(i *Interp, _ any, v any) any { *i.state = v; return v }) RegisterFunc0("history", (*Interp).history) RegisterIter1("_display", (*Interp)._display) RegisterFunc0("_can_display", (*Interp)._canDisplay) RegisterIter1("_hexdump", (*Interp)._hexdump) RegisterIter1("_print_color_json", (*Interp)._printColorJSON) RegisterFunc0("_is_completing", (*Interp)._isCompleting) } type Scalarable interface { ScalarActual() any ScalarValue() any ScalarSym() any ScalarDescription() string ScalarIsGap() bool ScalarDisplayFormat() scalar.DisplayFormat } type valueError struct { v any } func (v valueError) Error() string { return fmt.Sprintf("error: %v", v.v) } func (v valueError) Value() any { return v.v } type compileError struct { err error what string filename string pos pos.Pos } func (ce compileError) Value() any { return map[string]any{ "error": ce.err.Error(), "what": ce.what, "filename": ce.filename, "line": ce.pos.Line, "column": ce.pos.Column, } } func (ce compileError) Error() string { filename := ce.filename if filename == "" { filename = "expr" } return fmt.Sprintf("%s:%d:%d: %s: %s", filename, ce.pos.Line, ce.pos.Column, ce.what, ce.err.Error()) } var ErrEOF = io.EOF var ErrInterrupt = errors.New("Interrupt") // gojq errors can implement this to signal exit code type Exiter interface { ExitCode() int } // gojq halt_error uses this type IsEmptyErrorer interface { IsEmptyError() bool } type Terminal interface { Size() (int, int) IsTerminal() bool } type Input interface { fs.File Terminal } type Output interface { io.Writer Terminal } type Platform struct { OS string Arch string } type CompleteFn func(line string, pos int) (newLine []string, shared int) type ReadlineOpts struct { Prompt string CompleteFn CompleteFn } type OS interface { Platform() Platform Stdin() Input Stdout() Output Stderr() Output InterruptChan() chan struct{} Args() []string Environ() []string ConfigDir() (string, error) // FS.File returned by FS().Open() can optionally implement io.Seeker FS() fs.FS Readline(opts ReadlineOpts) (string, error) History() ([]string, error) } type FixedFileInfo struct { FName string FSize int64 FMode fs.FileMode FModTime time.Time FIsDir bool FSys any } func (ffi FixedFileInfo) Name() string { return ffi.FName } func (ffi FixedFileInfo) Size() int64 { return ffi.FSize } func (ffi FixedFileInfo) Mode() fs.FileMode { return ffi.FMode } func (ffi FixedFileInfo) ModTime() time.Time { return ffi.FModTime } func (ffi FixedFileInfo) IsDir() bool { return ffi.FIsDir } func (ffi FixedFileInfo) Sys() any { return ffi.FSys } type FileReader struct { R io.Reader FileInfo FixedFileInfo } func (rf FileReader) Stat() (fs.FileInfo, error) { return rf.FileInfo, nil } func (rf FileReader) Read(p []byte) (int, error) { return rf.R.Read(p) } func (FileReader) Close() error { return nil } type Value interface { gojq.JQValue ExtType() string ExtKeys() []string } type Display interface { Display(w io.Writer, opts *Options) error } type JQValueEx interface { gojq.JQValue JQValueToGoJQEx(optsFn func() (*Options, error)) any } func valuePath(v *decode.Value) []any { var parts []any for v.Parent != nil { switch vv := v.Parent.V.(type) { case *decode.Compound: if vv.IsArray { parts = append([]any{v.Index}, parts...) } else { parts = append([]any{v.Name}, parts...) } } v = v.Parent } return parts } func valuePathExprDecorated(v *decode.Value, d Decorator) string { parts := []string{"."} for i, p := range valuePath(v) { switch p := p.(type) { case string: if i > 0 { parts = append(parts, ".") } parts = append(parts, d.ObjectKey.Wrap(p)) case int: indexStr := strconv.Itoa(p) parts = append(parts, fmt.Sprintf("%s%s%s", d.Index.F("["), d.Number.F(indexStr), d.Index.F("]"))) } } return strings.Join(parts, "") } type iterFn func() (any, bool) func (i iterFn) Next() (any, bool) { return i() } type loadModule struct { init func() ([]*gojq.Query, error) load func(name string) (*gojq.Query, error) } func (l loadModule) LoadInitModules() ([]*gojq.Query, error) { return l.init() } func (l loadModule) LoadModule(name string) (*gojq.Query, error) { return l.load(name) } func toString(v any) (string, error) { switch v := v.(type) { case string: return v, nil case gojq.JQValue: return toString(v.JQValueToGoJQ()) default: b, err := toBytes(v) if err != nil { return "", fmt.Errorf("value can't be a string") } return string(b), nil } } func toBigInt(v any) (*big.Int, error) { switch v := v.(type) { case int: return new(big.Int).SetInt64(int64(v)), nil case float64: return new(big.Int).SetInt64(int64(v)), nil case *big.Int: return v, nil default: return nil, fmt.Errorf("value is not a number") } } func toBytes(v any) ([]byte, error) { switch v := v.(type) { default: br, err := ToBitReader(v) if err != nil { return nil, fmt.Errorf("value is not bytes") } buf := &bytes.Buffer{} if _, err := bitioex.CopyBits(buf, br); err != nil { return nil, err } return buf.Bytes(), nil } } func queryErrorPosition(expr string, v error) pos.Pos { var offset int if tokIf, ok := v.(interface{ Token() (string, int) }); ok { //nolint:errorlint _, offset = tokIf.Token() } if offset >= 0 { return pos.NewFromOffset(expr, offset) } return pos.Pos{} } type Variable struct { Name string Value any } type RunMode int const ( ScriptMode RunMode = iota REPLMode CompletionMode ) type EvalInstance struct { Ctx context.Context Output io.Writer IsCompleting bool includeSeen map[string]struct{} } type Interp struct { Registry *Registry OS OS initQuery *gojq.Query includeCache map[string]*gojq.Query interruptStack *ctxstack.Stack // global state, is ref as Interp is cloned per eval state *any // new for each eval, other values are copied by value EvalInstance EvalInstance } func New(os OS, registry *Registry) (*Interp, error) { var err error i := &Interp{ OS: os, Registry: registry, } i.includeCache = map[string]*gojq.Query{} i.initQuery, err = gojq.Parse(initSource) if err != nil { return nil, fmt.Errorf("init:%s: %w", queryErrorPosition(initSource, err), err) } // TODO: refactor ctxstack have a CancelTop and return c context to Stop? i.interruptStack = ctxstack.New(func(stopCh chan struct{}) { select { case <-stopCh: return case <-os.InterruptChan(): return } }) i.state = new(any) return i, nil } func (i *Interp) Stop() { // TODO: cancel all run instances? i.interruptStack.Stop() } func (i *Interp) Main(ctx context.Context, output Output, versionStr string) error { var args []any for _, a := range i.OS.Args() { args = append(args, a) } platform := i.OS.Platform() input := map[string]any{ "args": args, "version": versionStr, "os": platform.OS, "arch": platform.Arch, } iter, err := i.EvalFunc(ctx, input, "_main", nil, EvalOpts{output: output}) if err != nil { fmt.Fprintln(i.OS.Stderr(), err) return err } for { v, ok := iter.Next() if !ok { break } switch v := v.(type) { case error: if emptyErr, ok := v.(IsEmptyErrorer); ok && emptyErr.IsEmptyError() { //nolint:errorlint // no output } else if errors.Is(v, context.Canceled) { // ignore context cancel here for now, which means user somehow interrupted the interpreter // TODO: handle this inside interp.jq instead but then we probably have to do nested // eval and or also use different contexts for the interpreter and reading/decoding } else { fmt.Fprintln(i.OS.Stderr(), v) } return v case [2]any: fmt.Fprintln(i.OS.Stderr(), v[:]...) default: // TODO: can this happen? fmt.Fprintln(i.OS.Stderr(), v) } } return nil } type completionResult struct { Names []string Prefix string } type readlineOpts struct { Prompt string Complete string Timeout float64 } func (i *Interp) _readline(c any, opts readlineOpts) gojq.Iter { if i.EvalInstance.IsCompleting { return gojq.NewIter() } expr, err := i.OS.Readline(ReadlineOpts{ Prompt: opts.Prompt, CompleteFn: func(line string, pos int) (newLine []string, shared int) { completeCtx := i.EvalInstance.Ctx if opts.Timeout > 0 { var completeCtxCancelFn context.CancelFunc completeCtx, completeCtxCancelFn = context.WithTimeout(i.EvalInstance.Ctx, time.Duration(opts.Timeout*float64(time.Second))) defer completeCtxCancelFn() } names, shared, err := func() (newLine []string, shared int, err error) { // c | opts.Complete(line; pos) vs, err := i.EvalFuncValues( completeCtx, c, opts.Complete, []any{line, pos}, EvalOpts{ output: ioex.DiscardCtxWriter{Ctx: completeCtx}, isCompleting: true, }, ) if err != nil { return nil, pos, err } if len(vs) < 1 { return nil, pos, fmt.Errorf("no values") } v := vs[0] if vErr, ok := v.(error); ok { return nil, pos, vErr } // {abc: 123, abd: 123} | complete(".ab"; 3) will return {prefix: "ab", names: ["abc", "abd"]} r, ok := gojqex.CastFn[completionResult](v, mapstruct.ToStruct) if !ok { return nil, pos, fmt.Errorf("completion result not a map") } sharedLen := len(r.Prefix) return r.Names, sharedLen, nil }() // TODO: how to report err? _ = err return names, shared }, }) if errors.Is(err, ErrInterrupt) { return gojq.NewIter(valueError{"interrupt"}) } else if errors.Is(err, ErrEOF) { return gojq.NewIter(valueError{"eof"}) } else if err != nil { return gojq.NewIter(err) } return gojq.NewIter(expr) } type evalOpts struct { Filename string } func (i *Interp) _eval(c any, expr string, opts evalOpts) gojq.Iter { var err error iter, err := i.Eval(i.EvalInstance.Ctx, c, expr, EvalOpts{ filename: opts.Filename, output: i.EvalInstance.Output, }) if err != nil { return gojq.NewIter(err) } return iter } func (i *Interp) _extKeys(c any) any { if v, ok := c.(Value); ok { var vs []any for _, s := range v.ExtKeys() { vs = append(vs, s) } return vs } return nil } func (i *Interp) _extType(c any) any { if v, ok := c.(Value); ok { return v.ExtType() } return gojq.TypeOf(c) } func (i *Interp) _stdioFdName(s string) (any, error) { switch s { case "stdin": return i.OS.Stdin(), nil case "stdout": return i.OS.Stdout(), nil case "stderr": return i.OS.Stderr(), nil default: return nil, fmt.Errorf("unknown fd %s", s) } } func (i *Interp) _stdioRead(c any, fdName string, l int) gojq.Iter { fd, err := i._stdioFdName(fdName) if err != nil { return gojq.NewIter(err) } r, ok := fd.(io.Reader) if !ok { return gojq.NewIter(fmt.Errorf("%s is not a writeable", fdName)) } if i.EvalInstance.IsCompleting { return gojq.NewIter("") } buf := make([]byte, l) n, err := io.ReadFull(r, buf) s := string(buf[0:n]) vs := []any{s} switch { case errors.Is(err, io.EOF), errors.Is(err, io.ErrUnexpectedEOF): vs = append(vs, valueError{"eof"}) default: vs = append(vs, err) } return gojq.NewIter(vs...) } func (i *Interp) _stdioWrite(c any, fdName string) gojq.Iter { fd, err := i._stdioFdName(fdName) if err != nil { return gojq.NewIter(err) } w, ok := fd.(io.Writer) if !ok { return gojq.NewIter(fmt.Errorf("%s is not a writeable", fdName)) } if i.EvalInstance.IsCompleting { return gojq.NewIter() } if _, err := fmt.Fprint(w, c); err != nil { return gojq.NewIter(err) } return gojq.NewIter() } func (i *Interp) _stdioInfo(c any, fdName string) any { fd, err := i._stdioFdName(fdName) if err != nil { return err } t, ok := fd.(Terminal) if !ok { return fmt.Errorf("%s is not a terminal", fdName) } w, h := t.Size() return map[string]any{ "is_terminal": t.IsTerminal(), "width": w, "height": h, } } func (i *Interp) history(c any) any { hs, err := i.OS.History() if err != nil { return err } var vs []any for _, s := range hs { vs = append(vs, s) } return vs } func (i *Interp) _display(c any, v any) gojq.Iter { opts, err := OptionsFromValue(v) if err != nil { return gojq.NewIter(err) } switch v := c.(type) { case Display: if err := v.Display(i.EvalInstance.Output, opts); err != nil { return gojq.NewIter(err) } return gojq.NewIter() default: return gojq.NewIter(fmt.Errorf("%+#v: not displayable", c)) } } func (i *Interp) _canDisplay(c any) any { _, ok := c.(Display) return ok } func (i *Interp) _hexdump(c any, v any) gojq.Iter { opts, err := OptionsFromValue(v) if err != nil { return gojq.NewIter(err) } bv, err := toBinary(c) if err != nil { return gojq.NewIter(err) } if err := hexdump(i.EvalInstance.Output, bv, opts); err != nil { return gojq.NewIter(err) } return gojq.NewIter() } func (i *Interp) _printColorJSON(c any, v any) gojq.Iter { opts, err := OptionsFromValue(v) if err != nil { return gojq.NewIter(err) } indent := 2 if opts.Compact { indent = 0 } cj := colorjson.NewEncoder(colorjson.Options{ Color: opts.Color, Tab: false, Indent: indent, // uses a function to cache OptionsFromValue ValueFn: func(v any) (any, error) { return toValue(func() (*Options, error) { return opts, nil }, v) }, Colors: colorjson.Colors{ Reset: []byte(ansi.Reset.SetString), Null: []byte(opts.Decorator.Null.SetString), False: []byte(opts.Decorator.False.SetString), True: []byte(opts.Decorator.True.SetString), Number: []byte(opts.Decorator.Number.SetString), String: []byte(opts.Decorator.String.SetString), ObjectKey: []byte(opts.Decorator.ObjectKey.SetString), Array: []byte(opts.Decorator.Array.SetString), Object: []byte(opts.Decorator.Object.SetString), }, }) if err := cj.Marshal(c, i.EvalInstance.Output); err != nil { return gojq.NewIter(err) } return gojq.NewIter() } func (i *Interp) _isCompleting(c any) any { return i.EvalInstance.IsCompleting } type pathResolver struct { prefix string open func(filename string) (io.ReadCloser, string, error) } func (i *Interp) lookupPathResolver(filename string) (pathResolver, error) { configDir, err := i.OS.ConfigDir() if err != nil { return pathResolver{}, err } resolvePaths := []pathResolver{ { "@builtin/", func(filename string) (io.ReadCloser, string, error) { f, err := builtinFS.Open(filename) return f, "@builtin/" + filename, err }, }, { "@config/", func(filename string) (io.ReadCloser, string, error) { p := path.Join(configDir, filename) f, err := i.OS.FS().Open(p) return f, p, err }, }, { "", func(filename string) (io.ReadCloser, string, error) { if path.IsAbs(filename) { f, err := i.OS.FS().Open(filename) return f, filename, err } // TODO: jq $ORIGIN for _, includePath := range append([]string{"./"}, i.includePaths()...) { p := path.Join(includePath, filename) if f, err := i.OS.FS().Open(path.Join(includePath, filename)); err == nil { return f, p, nil } } return nil, "", &fs.PathError{Op: "open", Path: filename, Err: fs.ErrNotExist} }, }, } for _, p := range resolvePaths { if strings.HasPrefix(filename, p.prefix) { return p, nil } } return pathResolver{}, fmt.Errorf("could not resolve path: %s", filename) } type EvalOpts struct { filename string output io.Writer isCompleting bool } func (i *Interp) Eval(ctx context.Context, c any, expr string, opts EvalOpts) (gojq.Iter, error) { gq, err := gojq.Parse(expr) if err != nil { p := queryErrorPosition(expr, err) return nil, compileError{ err: err, what: "parse", filename: opts.filename, pos: p, } } // make copy of interp and give it its own eval context ci := *i ni := &ci ni.EvalInstance = EvalInstance{ includeSeen: map[string]struct{}{}, } var variableNames []string var variableValues []any for k, v := range i.slurps() { variableNames = append(variableNames, "$"+k) variableValues = append(variableValues, v) } var funcCompilerOpts []gojq.CompilerOption for _, fn := range i.Registry.EnvFuncFns { f := fn(ni) if f.IterFn != nil { funcCompilerOpts = append(funcCompilerOpts, gojq.WithIterFunction(f.Name, f.MinArity, f.MaxArity, f.IterFn)) } else { funcCompilerOpts = append(funcCompilerOpts, gojq.WithFunction(f.Name, f.MinArity, f.MaxArity, f.FuncFn)) } } compilerOpts := append([]gojq.CompilerOption{}, funcCompilerOpts...) compilerOpts = append(compilerOpts, gojq.WithEnvironLoader(ni.OS.Environ)) compilerOpts = append(compilerOpts, gojq.WithVariables(variableNames)) compilerOpts = append(compilerOpts, gojq.WithModuleLoader(loadModule{ init: func() ([]*gojq.Query, error) { return []*gojq.Query{i.initQuery}, nil }, load: func(name string) (*gojq.Query, error) { if err := ctx.Err(); err != nil { return nil, err } var filename string // support include "nonexisting?" to ignore include error var isTry bool if strings.HasSuffix(name, "?") { isTry = true filename = name[0 : len(name)-1] } else { filename = name } filename = filename + ".jq" pr, err := i.lookupPathResolver(filename) if err != nil { return nil, err } // skip if this eval instance has already included the file if _, ok := ni.EvalInstance.includeSeen[filename]; ok { return &gojq.Query{Term: &gojq.Term{Type: gojq.TermTypeIdentity}}, nil } ni.EvalInstance.includeSeen[filename] = struct{}{} // return cached version if file has already been parsed if q, ok := ni.includeCache[filename]; ok { return q, nil } filenamePart := strings.TrimPrefix(filename, pr.prefix) f, absPath, err := pr.open(filenamePart) if err != nil { if !isTry { return nil, err } f = io.NopCloser(&bytes.Buffer{}) } defer f.Close() b, err := io.ReadAll(f) if err != nil { return nil, err } s := string(b) q, err := gojq.Parse(s) if err != nil { p := queryErrorPosition(s, err) return nil, compileError{ err: err, what: "parse", filename: absPath, pos: p, } } // not identity body means it returns something, threat as dynamic include if q.Term == nil || q.Term.Type != gojq.TermTypeIdentity { gc, err := gojq.Compile(q, funcCompilerOpts...) if err != nil { return nil, err } iter := gc.RunWithContext(context.Background(), nil) var vs []any for { v, ok := iter.Next() if !ok { break } if err, ok := v.(error); ok { return nil, err } vs = append(vs, v) } if len(vs) != 1 { return nil, fmt.Errorf("dynamic include: must output one string, got: %#v", vs) } s, sOk := vs[0].(string) if !sOk { return nil, fmt.Errorf("dynamic include: must be string, got %#v", s) } q, err = gojq.Parse(s) if err != nil { p := queryErrorPosition(s, err) return nil, compileError{ err: err, what: "dynamic include parse", filename: filenamePart, pos: p, } } } // TODO: some better way of handling relative includes that // works with @builtin etc basePath := path.Dir(name) for _, qi := range q.Imports { rewritePath := func(base, includePath string) string { if strings.HasPrefix(includePath, "@") || path.IsAbs(includePath) { return includePath } return path.Join(base, includePath) } if qi.IncludePath != "" { qi.IncludePath = rewritePath(basePath, qi.IncludePath) } if qi.ImportPath != "" { qi.ImportPath = rewritePath(basePath, qi.ImportPath) } } i.includeCache[filename] = q return q, nil }, })) gc, err := gojq.Compile(gq, compilerOpts...) if err != nil { p := queryErrorPosition(expr, err) return nil, compileError{ err: err, what: "compile", filename: opts.filename, pos: p, } } output := opts.output if opts.output == nil { output = io.Discard } runCtx, runCtxCancelFn := i.interruptStack.Push(ctx) ni.EvalInstance.Ctx = runCtx ni.EvalInstance.Output = ioex.CtxWriter{Writer: output, Ctx: runCtx} // inherit or maybe set ni.EvalInstance.IsCompleting = i.EvalInstance.IsCompleting || opts.isCompleting iter := gc.RunWithContext(runCtx, c, variableValues...) iterWrapper := iterFn(func() (any, bool) { v, ok := iter.Next() // gojq ctx cancel will not return ok=false, just cancelled error if !ok { runCtxCancelFn() } else if _, ok := v.(error); ok { runCtxCancelFn() } return v, ok }) return iterWrapper, nil } func (i *Interp) EvalFunc(ctx context.Context, c any, name string, args []any, opts EvalOpts) (gojq.Iter, error) { var argsExpr []string for i := range args { argsExpr = append(argsExpr, fmt.Sprintf("$_args[%d]", i)) } argExpr := "" if len(argsExpr) > 0 { argExpr = "(" + strings.Join(argsExpr, ";") + ")" } trampolineInput := map[string]any{ "input": c, "args": args, } // _args to mark variable as internal and hide it from completion // {input: ..., args: [...]} | .args as {args: $_args} | .input | name[($_args[0]; ...)] trampolineExpr := fmt.Sprintf(". as {args: $_args} | .input | %s%s", name, argExpr) iter, err := i.Eval(ctx, trampolineInput, trampolineExpr, opts) if err != nil { return nil, err } return iter, nil } func (i *Interp) EvalFuncValues(ctx context.Context, c any, name string, args []any, opts EvalOpts) ([]any, error) { iter, err := i.EvalFunc(ctx, c, name, args, opts) if err != nil { return nil, err } var vs []any for { v, ok := iter.Next() if !ok { break } vs = append(vs, v) } return vs, nil } type Options struct { Depth int ArrayTruncate int Verbose bool Width int DecodeProgress bool Color bool Colors map[string]string ByteColors []struct { Ranges [][2]int Value string } Unicode bool RawOutput bool REPL bool RawString bool JoinString string Compact bool BitsFormat string LineBytes int DisplayBytes int Addrbase int Sizebase int SkipGaps bool Decorator Decorator BitsFormatFn func(br bitio.ReaderAtSeeker) (any, error) } func OptionsFromValue(v any) (*Options, error) { var opts Options _ = mapstruct.ToStruct(v, &opts) opts.ArrayTruncate = mathex.Max(0, opts.ArrayTruncate) opts.Depth = mathex.Max(0, opts.Depth) opts.Addrbase = mathex.Clamp(2, 36, opts.Addrbase) opts.Sizebase = mathex.Clamp(2, 36, opts.Sizebase) opts.LineBytes = mathex.Max(0, opts.LineBytes) opts.DisplayBytes = mathex.Max(0, opts.DisplayBytes) opts.Decorator = decoratorFromOptions(opts) if fn, err := bitsFormatFnFromOptions(opts); err != nil { return nil, err } else { opts.BitsFormatFn = fn } return &opts, nil } func bitsFormatFnFromOptions(opts Options) (func(br bitio.ReaderAtSeeker) (any, error), error) { switch opts.BitsFormat { case "md5": return func(br bitio.ReaderAtSeeker) (any, error) { d := md5.New() if _, err := bitioex.CopyBits(d, br); err != nil { return "", err } return hex.EncodeToString(d.Sum(nil)), nil }, nil case "hex": return func(br bitio.ReaderAtSeeker) (any, error) { b := &bytes.Buffer{} e := hex.NewEncoder(b) if _, err := bitioex.CopyBits(e, br); err != nil { return "", err } return b.String(), nil }, nil case "base64": return func(br bitio.ReaderAtSeeker) (any, error) { b := &bytes.Buffer{} e := base64.NewEncoder(base64.StdEncoding, b) if _, err := bitioex.CopyBits(e, br); err != nil { return "", err } e.Close() return b.String(), nil }, nil case "truncate": // TODO: configure return func(br bitio.ReaderAtSeeker) (any, error) { b := &bytes.Buffer{} if _, err := bitioex.CopyBits(b, bitio.NewLimitReader(br, 1024*8)); err != nil { return "", err } return b.String(), nil }, nil case "string": return func(br bitio.ReaderAtSeeker) (any, error) { b := &bytes.Buffer{} if _, err := bitioex.CopyBits(b, br); err != nil { return "", err } return b.String(), nil }, nil case "snippet": return func(br bitio.ReaderAtSeeker) (any, error) { b := &bytes.Buffer{} e := base64.NewEncoder(base64.StdEncoding, b) if _, err := bitioex.CopyBits(e, bitio.NewLimitReader(br, 256*8)); err != nil { return "", err } e.Close() brLen, err := bitioex.Len(br) if err != nil { return nil, err } return fmt.Sprintf("<%s>%s", mathex.Bits(brLen).StringByteBits(opts.Sizebase), b.String()), nil }, nil default: return nil, fmt.Errorf("invalid bits format %q", opts.BitsFormat) } } func (i *Interp) lookupState(key string) any { if i.state == nil { return nil } m, ok := (*i.state).(map[string]any) if !ok { return nil } return m[key] } func (i *Interp) includePaths() []string { pathsAny, _ := i.lookupState("include_paths").([]any) var paths []string for _, pathAny := range pathsAny { path, ok := pathAny.(string) if !ok { panic("path not string") } paths = append(paths, path) } return paths } func (i *Interp) slurps() map[string]any { slurpsAny, _ := i.lookupState("slurps").(map[string]any) return slurpsAny }