mirror of
https://github.com/go-sylixos/elvish.git
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657b73122f
Also replace (*Frame).OutputChan with (*Frame).ValueOutput, which returns a small interface for writing to the value output that is also aware when the reader is gone.
246 lines
6.9 KiB
Go
246 lines
6.9 KiB
Go
package eval
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import (
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"errors"
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"fmt"
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"reflect"
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"unsafe"
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"src.elv.sh/pkg/eval/errs"
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"src.elv.sh/pkg/eval/vals"
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"src.elv.sh/pkg/persistent/hash"
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)
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var (
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// ErrNoOptAccepted is thrown when a Go function that does not accept any
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// options gets passed options.
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ErrNoOptAccepted = errors.New("function does not accept any options")
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)
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type goFn struct {
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name string
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impl interface{}
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// Type information of impl.
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// If true, pass the frame as a *Frame argument.
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frame bool
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// If true, pass options as a RawOptions argument.
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rawOptions bool
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// If not nil, type of the parameter that gets options via RawOptions.Scan.
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options reflect.Type
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// If not nil, pass the inputs as an Input-typed last argument.
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inputs bool
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// Type of "normal" (non-frame, non-options, non-variadic) arguments.
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normalArgs []reflect.Type
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// If not nil, type of variadic arguments.
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variadicArg reflect.Type
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}
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// An interface to be implemented by pointers to structs that should hold
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// scanned options.
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type optionsPtr interface {
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SetDefaultOptions()
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}
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// Inputs is the type that the last parameter of a Go-native function can take.
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// When that is the case, it is a callback to get inputs. See the doc of GoFn
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// for details.
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type Inputs func(func(interface{}))
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var (
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frameType = reflect.TypeOf((*Frame)(nil))
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rawOptionsType = reflect.TypeOf(RawOptions(nil))
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optionsPtrType = reflect.TypeOf((*optionsPtr)(nil)).Elem()
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inputsType = reflect.TypeOf(Inputs(nil))
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)
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// NewGoFn wraps a Go function into an Elvish function using reflection.
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//
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// Parameters are passed following these rules:
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//
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// 1. If the first parameter of function has type *Frame, it gets the current
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// call frame.
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//
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// 2. After the potential *Frame argument, the first parameter has type
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// RawOptions, it gets a map of option names to their values.
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//
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// Alternatively, this parameter may be a (non-pointer) struct whose pointer
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// type implements a SetDefaultOptions method that takes no arguments and has no
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// return value. In this case, a new instance of the struct is constructed, the
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// SetDefaultOptions method is called, and any option passed to the Elvish
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// function is used to populate the fields of the struct. Field names are mapped
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// to option names using strutil.CamelToDashed, unless they have a field tag
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// "name", in which case the tag is preferred.
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//
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// If the function does not declare that it accepts options via either method
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// described above, it accepts no options.
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//
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// 3. If the last parameter is non-variadic and has type Inputs, it represents
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// an optional parameter that contains the input to this function. If the
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// argument is not supplied, the input channel of the Frame will be used to
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// supply the inputs.
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//
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// 4. Other parameters are converted using vals.ScanToGo.
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//
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// Return values go to the channel part of the stdout port, after being
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// converted using vals.FromGo. If the last return value has type error and is
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// not nil, it is turned into an exception and no outputting happens. If the
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// last return value is a nil error, it is ignored.
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func NewGoFn(name string, impl interface{}) Callable {
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implType := reflect.TypeOf(impl)
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b := &goFn{name: name, impl: impl}
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i := 0
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if i < implType.NumIn() && implType.In(i) == frameType {
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b.frame = true
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i++
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}
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if i < implType.NumIn() && implType.In(i) == rawOptionsType {
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b.rawOptions = true
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i++
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}
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if i < implType.NumIn() && reflect.PtrTo(implType.In(i)).Implements(optionsPtrType) {
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if b.rawOptions {
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panic("Function declares both RawOptions and Options parameters")
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}
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b.options = implType.In(i)
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i++
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}
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for ; i < implType.NumIn(); i++ {
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paramType := implType.In(i)
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if i == implType.NumIn()-1 {
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if implType.IsVariadic() {
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b.variadicArg = paramType.Elem()
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break
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} else if paramType == inputsType {
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b.inputs = true
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break
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}
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}
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b.normalArgs = append(b.normalArgs, paramType)
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}
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return b
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}
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// Kind returns "fn".
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func (*goFn) Kind() string {
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return "fn"
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}
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// Equal compares identity.
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func (b *goFn) Equal(rhs interface{}) bool {
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return b == rhs
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}
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// Hash hashes the address.
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func (b *goFn) Hash() uint32 {
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return hash.Pointer(unsafe.Pointer(b))
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}
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// Repr returns an opaque representation "<builtin $name>".
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func (b *goFn) Repr(int) string {
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return "<builtin " + b.name + ">"
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}
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// error(nil) is treated as nil by reflect.TypeOf, so we first get the type of
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// *error and use Elem to obtain type of error.
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var errorType = reflect.TypeOf((*error)(nil)).Elem()
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// Call calls the implementation using reflection.
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func (b *goFn) Call(f *Frame, args []interface{}, opts map[string]interface{}) error {
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if b.variadicArg != nil {
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if len(args) < len(b.normalArgs) {
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return errs.ArityMismatch{What: "arguments",
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ValidLow: len(b.normalArgs), ValidHigh: -1, Actual: len(args)}
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}
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} else if b.inputs {
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if len(args) != len(b.normalArgs) && len(args) != len(b.normalArgs)+1 {
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return errs.ArityMismatch{What: "arguments",
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ValidLow: len(b.normalArgs), ValidHigh: len(b.normalArgs) + 1, Actual: len(args)}
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}
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} else if len(args) != len(b.normalArgs) {
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return errs.ArityMismatch{What: "arguments",
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ValidLow: len(b.normalArgs), ValidHigh: len(b.normalArgs), Actual: len(args)}
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}
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if !b.rawOptions && b.options == nil && len(opts) > 0 {
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return ErrNoOptAccepted
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}
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var in []reflect.Value
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if b.frame {
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in = append(in, reflect.ValueOf(f))
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}
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if b.rawOptions {
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in = append(in, reflect.ValueOf(opts))
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}
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if b.options != nil {
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ptrValue := reflect.New(b.options)
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ptr := ptrValue.Interface()
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ptr.(optionsPtr).SetDefaultOptions()
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err := scanOptions(opts, ptr)
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if err != nil {
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return err
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}
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in = append(in, ptrValue.Elem())
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}
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for i, arg := range args {
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var typ reflect.Type
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if i < len(b.normalArgs) {
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typ = b.normalArgs[i]
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} else if b.variadicArg != nil {
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typ = b.variadicArg
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} else if b.inputs {
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break // Handled after the loop
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} else {
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panic("impossible")
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}
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ptr := reflect.New(typ)
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err := vals.ScanToGo(arg, ptr.Interface())
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if err != nil {
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return fmt.Errorf("wrong type of argument %d: %v", i, err)
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}
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in = append(in, ptr.Elem())
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}
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if b.inputs {
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var inputs Inputs
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if len(args) == len(b.normalArgs) {
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inputs = f.IterateInputs
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} else {
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// Wrap an iterable argument in Inputs.
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iterable := args[len(args)-1]
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if !vals.CanIterate(iterable) {
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return fmt.Errorf("%s cannot be iterated", vals.Kind(iterable))
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}
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inputs = func(f func(interface{})) {
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// CanIterate(iterable) is true
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_ = vals.Iterate(iterable, func(v interface{}) bool {
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f(v)
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return true
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})
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}
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}
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in = append(in, reflect.ValueOf(inputs))
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}
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rets := reflect.ValueOf(b.impl).Call(in)
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if len(rets) > 0 && rets[len(rets)-1].Type() == errorType {
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err := rets[len(rets)-1].Interface()
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if err != nil {
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return err.(error)
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}
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rets = rets[:len(rets)-1]
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}
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out := f.ValueOutput()
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for _, ret := range rets {
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err := out.Put(vals.FromGo(ret.Interface()))
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if err != nil {
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return err
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}
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}
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return nil
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}
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