elvish/pkg/eval/frame.go

206 lines
4.9 KiB
Go

package eval
import (
"bufio"
"fmt"
"io"
"os"
"sync"
"github.com/elves/elvish/pkg/diag"
"github.com/elves/elvish/pkg/parse"
"github.com/elves/elvish/pkg/prog"
)
// Frame contains information of the current running function, aknin to a call
// frame in native CPU execution. A Frame is only modified during and very
// shortly after creation; new Frame's are "forked" when needed.
type Frame struct {
*Evaler
srcMeta parse.Source
local, up Ns
intCh <-chan struct{}
ports []*Port
traceback *stackTrace
background bool
}
// NewTopFrame creates a top-level Frame.
//
// TODO(xiaq): This should be a method on the Evaler.
func NewTopFrame(ev *Evaler, src parse.Source, ports []*Port) *Frame {
return &Frame{
ev, src,
ev.Global, make(Ns),
nil, ports,
nil, false,
}
}
// SetLocal changes the local scope of the Frame.
func (fm *Frame) SetLocal(ns Ns) {
fm.local = ns
}
// Close releases resources allocated for this frame. It always returns a nil
// error. It may be called only once.
func (fm *Frame) Close() error {
for _, port := range fm.ports {
port.Close()
}
return nil
}
// InputChan returns a channel from which input can be read.
func (fm *Frame) InputChan() chan interface{} {
return fm.ports[0].Chan
}
// InputFile returns a file from which input can be read.
func (fm *Frame) InputFile() *os.File {
return fm.ports[0].File
}
// OutputChan returns a channel onto which output can be written.
func (fm *Frame) OutputChan() chan<- interface{} {
return fm.ports[1].Chan
}
// OutputFile returns a file onto which output can be written.
func (fm *Frame) OutputFile() *os.File {
return fm.ports[1].File
}
// IterateInputs calls the passed function for each input element.
func (fm *Frame) IterateInputs(f func(interface{})) {
var w sync.WaitGroup
inputs := make(chan interface{})
w.Add(2)
go func() {
linesToChan(fm.ports[0].File, inputs)
w.Done()
}()
go func() {
for v := range fm.ports[0].Chan {
inputs <- v
}
w.Done()
}()
go func() {
w.Wait()
close(inputs)
}()
for v := range inputs {
f(v)
}
}
func linesToChan(r io.Reader, ch chan<- interface{}) {
filein := bufio.NewReader(r)
for {
line, err := filein.ReadString('\n')
if line != "" {
ch <- ChopLineEnding(line)
}
if err != nil {
if err != io.EOF {
logger.Println("error on reading:", err)
}
break
}
}
}
// ChopLineEnding removes any line ending ("\r\n" or "\n") from the end of s.
func ChopLineEnding(s string) string {
if len(s) >= 2 && s[len(s)-2:] == "\r\n" {
return s[:len(s)-2]
} else if len(s) >= 1 && s[len(s)-1] == '\n' {
return s[:len(s)-1]
}
return s
}
// fork returns a modified copy of ec. The ports are forked, and the name is
// changed to the given value. Other fields are copied shallowly.
func (fm *Frame) fork(name string) *Frame {
newPorts := make([]*Port, len(fm.ports))
for i, p := range fm.ports {
if p != nil {
newPorts[i] = p.Fork()
}
}
return &Frame{
fm.Evaler, fm.srcMeta,
fm.local, fm.up,
fm.intCh, newPorts,
fm.traceback, fm.background,
}
}
// Eval evaluates an Op. It is like eval except that it sets fm.srcMeta
// temporarily to op.src during the evaluation.
func (fm *Frame) Eval(op Op) error {
oldSrc := fm.srcMeta
fm.srcMeta = op.Src
defer func() {
fm.srcMeta = oldSrc
}()
return op.Inner.exec(fm)
}
// CaptureOutput captures the output of a given callback that operates on a Frame.
func (fm *Frame) CaptureOutput(f func(*Frame) error) ([]interface{}, error) {
return captureOutput(fm, f)
}
// PipeOutput calls a callback with output piped to the given output handlers.
func (fm *Frame) PipeOutput(f func(*Frame) error, valuesCb func(<-chan interface{}), bytesCb func(*os.File)) error {
return pipeOutput(fm, f, valuesCb, bytesCb)
}
func (fm *Frame) addTraceback(r diag.Ranger) *stackTrace {
return &stackTrace{
head: diag.NewContext(fm.srcMeta.Name, fm.srcMeta.Code, r.Range()),
next: fm.traceback,
}
}
// Returns an Exception with specified range and cause.
func (fm *Frame) errorp(r diag.Ranger, e error) error {
switch e := e.(type) {
case nil:
return nil
case *Exception:
return e
default:
return &Exception{e, &stackTrace{
head: diag.NewContext(fm.srcMeta.Name, fm.srcMeta.Code, r.Range()),
next: fm.traceback,
}}
}
}
// Returns an Exception with specified range and error text.
func (fm *Frame) errorpf(r diag.Ranger, format string, args ...interface{}) error {
return fm.errorp(r, fmt.Errorf(format, args...))
}
// Deprecate shows a deprecation message. The message is not shown if the same
// deprecation message has been shown for the same location before.
func (fm *Frame) Deprecate(msg string) {
dep := deprecation{fm.traceback.head.Name, fm.traceback.head.Ranging, msg}
if prog.ShowDeprecations && fm.deprecations.register(dep) {
err := diag.Error{
Type: "deprecation", Message: dep.message, Context: *fm.traceback.head}
fm.ports[2].File.WriteString(err.Show("") + "\n")
}
}