mirror of
https://github.com/go-sylixos/elvish.git
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59459793e3
Cons was a misnomer for the operation of adding an element at the end of a vector. Follow Clojure's naming here and call this operation Conj.
337 lines
8.7 KiB
Go
337 lines
8.7 KiB
Go
package eval
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import (
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"bytes"
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"fmt"
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"strconv"
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"syscall"
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"unsafe"
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"src.elv.sh/pkg/diag"
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"src.elv.sh/pkg/eval/vals"
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"src.elv.sh/pkg/parse"
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"src.elv.sh/pkg/persistent/hash"
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)
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// Exception represents exceptions. It is both a Value accessible to Elvish
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// code, and can be returned by methods like like (*Evaler).Eval.
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type Exception interface {
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error
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diag.Shower
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Reason() error
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StackTrace() *StackTrace
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// This is not strictly necessary, but it makes sure that there is only one
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// implementation of Exception, so that the compiler may de-virtualize this
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// interface.
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isException()
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}
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// NewException creates a new Exception.
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func NewException(reason error, stackTrace *StackTrace) Exception {
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return &exception{reason, stackTrace}
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}
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// Implementation of the Exception interface.
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type exception struct {
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reason error
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stackTrace *StackTrace
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}
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// StackTrace represents a stack trace as a linked list of diag.Context. The
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// head is the innermost stack.
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//
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// Since pipelines can call multiple functions in parallel, all the StackTrace
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// nodes form a DAG.
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type StackTrace struct {
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Head *diag.Context
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Next *StackTrace
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}
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// Reason returns the Reason field if err is an Exception. Otherwise it returns
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// err itself.
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func Reason(err error) error {
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if exc, ok := err.(*exception); ok {
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return exc.reason
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}
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return err
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}
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// OK is a pointer to a special value of Exception that represents the absence
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// of exception.
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var OK = &exception{}
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func (exc *exception) isException() {}
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func (exc *exception) Reason() error { return exc.reason }
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func (exc *exception) StackTrace() *StackTrace { return exc.stackTrace }
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// Error returns the message of the cause of the exception.
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func (exc *exception) Error() string { return exc.reason.Error() }
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// Show shows the exception.
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func (exc *exception) Show(indent string) string {
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buf := new(bytes.Buffer)
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var causeDescription string
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if shower, ok := exc.reason.(diag.Shower); ok {
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causeDescription = shower.Show(indent)
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} else if exc.reason == nil {
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causeDescription = "ok"
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} else {
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causeDescription = "\033[31;1m" + exc.reason.Error() + "\033[m"
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}
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fmt.Fprintf(buf, "Exception: %s", causeDescription)
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if exc.stackTrace != nil {
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buf.WriteString("\n")
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if exc.stackTrace.Next == nil {
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buf.WriteString(exc.stackTrace.Head.ShowCompact(indent))
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} else {
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buf.WriteString(indent + "Traceback:")
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for tb := exc.stackTrace; tb != nil; tb = tb.Next {
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buf.WriteString("\n" + indent + " ")
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buf.WriteString(tb.Head.Show(indent + " "))
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}
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}
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}
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if pipeExcs, ok := exc.reason.(PipelineError); ok {
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buf.WriteString("\n" + indent + "Caused by:")
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for _, e := range pipeExcs.Errors {
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if e == OK {
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continue
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}
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buf.WriteString("\n" + indent + " " + e.Show(indent+" "))
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}
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}
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return buf.String()
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}
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// Kind returns "exception".
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func (exc *exception) Kind() string {
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return "exception"
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}
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// Repr returns a representation of the exception. It is lossy in that it does
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// not preserve the stacktrace.
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func (exc *exception) Repr(indent int) string {
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if exc.reason == nil {
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return "$ok"
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}
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return "[&reason=" + vals.Repr(exc.reason, indent+1) + "]"
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}
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// Equal compares by address.
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func (exc *exception) Equal(rhs interface{}) bool {
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return exc == rhs
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}
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// Hash returns the hash of the address.
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func (exc *exception) Hash() uint32 {
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return hash.Pointer(unsafe.Pointer(exc))
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}
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// Bool returns whether this exception has a nil cause; that is, it is $ok.
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func (exc *exception) Bool() bool {
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return exc.reason == nil
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}
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func (exc *exception) Fields() vals.StructMap { return excFields{exc} }
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type excFields struct{ e *exception }
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func (excFields) IsStructMap() {}
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func (f excFields) Reason() error { return f.e.reason }
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// PipelineError represents the errors of pipelines, in which multiple commands
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// may error.
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type PipelineError struct {
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Errors []Exception
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}
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// Error returns a plain text representation of the pipeline error.
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func (pe PipelineError) Error() string {
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b := new(bytes.Buffer)
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b.WriteString("(")
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for i, e := range pe.Errors {
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if i > 0 {
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b.WriteString(" | ")
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}
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if e == nil || e.Reason() == nil {
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b.WriteString("<nil>")
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} else {
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b.WriteString(e.Error())
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}
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}
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b.WriteString(")")
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return b.String()
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}
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// MakePipelineError builds an error from the execution results of multiple
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// commands in a pipeline.
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//
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// If all elements are either nil or OK, it returns nil. If there is exactly
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// non-nil non-OK Exception, it returns it. Otherwise, it return a PipelineError
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// built from the slice, with nil items turned into OK's for easier access from
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// Elvish code.
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func MakePipelineError(excs []Exception) error {
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newexcs := make([]Exception, len(excs))
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notOK, lastNotOK := 0, 0
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for i, e := range excs {
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if e == nil {
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newexcs[i] = OK
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} else {
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newexcs[i] = e
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if e.Reason() != nil {
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notOK++
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lastNotOK = i
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}
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}
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}
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switch notOK {
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case 0:
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return nil
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case 1:
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return newexcs[lastNotOK]
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default:
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return PipelineError{newexcs}
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}
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}
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func (pe PipelineError) Fields() vals.StructMap { return peFields{pe} }
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type peFields struct{ pe PipelineError }
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func (peFields) IsStructMap() {}
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func (f peFields) Type() string { return "pipeline" }
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func (f peFields) Exceptions() vals.List {
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li := vals.EmptyList
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for _, exc := range f.pe.Errors {
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li = li.Conj(exc)
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}
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return li
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}
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// Flow is a special type of error used for control flows.
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type Flow uint
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// Control flows.
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const (
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Return Flow = iota
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Break
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Continue
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)
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var flowNames = [...]string{
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"return", "break", "continue",
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}
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func (f Flow) Error() string {
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if f >= Flow(len(flowNames)) {
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return fmt.Sprintf("!(BAD FLOW: %d)", f)
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}
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return flowNames[f]
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}
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// Show shows the flow "error".
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func (f Flow) Show(string) string {
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return "\033[33;1m" + f.Error() + "\033[m"
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}
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func (f Flow) Fields() vals.StructMap { return flowFields{f} }
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type flowFields struct{ f Flow }
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func (flowFields) IsStructMap() {}
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func (f flowFields) Type() string { return "flow" }
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func (f flowFields) Name() string { return f.f.Error() }
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// ExternalCmdExit contains the exit status of external commands.
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type ExternalCmdExit struct {
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syscall.WaitStatus
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CmdName string
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Pid int
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}
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// NewExternalCmdExit constructs an error for representing a non-zero exit from
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// an external command.
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func NewExternalCmdExit(name string, ws syscall.WaitStatus, pid int) error {
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if ws.Exited() && ws.ExitStatus() == 0 {
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return nil
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}
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return ExternalCmdExit{ws, name, pid}
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}
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func (exit ExternalCmdExit) Error() string {
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ws := exit.WaitStatus
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quotedName := parse.Quote(exit.CmdName)
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switch {
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case ws.Exited():
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return quotedName + " exited with " + strconv.Itoa(ws.ExitStatus())
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case ws.Signaled():
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causeDescription := quotedName + " killed by signal " + ws.Signal().String()
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if ws.CoreDump() {
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causeDescription += " (core dumped)"
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}
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return causeDescription
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case ws.Stopped():
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causeDescription := quotedName + " stopped by signal " + fmt.Sprintf("%s (pid=%d)", ws.StopSignal(), exit.Pid)
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trap := ws.TrapCause()
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if trap != -1 {
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causeDescription += fmt.Sprintf(" (trapped %v)", trap)
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}
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return causeDescription
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default:
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return fmt.Sprint(quotedName, " has unknown WaitStatus ", ws)
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}
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}
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func (exit ExternalCmdExit) Fields() vals.StructMap {
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ws := exit.WaitStatus
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f := exitFieldsCommon{exit}
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switch {
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case ws.Exited():
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return exitFieldsExited{f}
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case ws.Signaled():
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return exitFieldsSignaled{f}
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case ws.Stopped():
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return exitFieldsStopped{f}
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default:
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return exitFieldsUnknown{f}
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}
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}
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type exitFieldsCommon struct{ e ExternalCmdExit }
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func (exitFieldsCommon) IsStructMap() {}
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func (f exitFieldsCommon) CmdName() string { return f.e.CmdName }
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func (f exitFieldsCommon) Pid() string { return strconv.Itoa(f.e.Pid) }
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type exitFieldsExited struct{ exitFieldsCommon }
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func (exitFieldsExited) Type() string { return "external-cmd/exited" }
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func (f exitFieldsExited) ExitStatus() string { return strconv.Itoa(f.e.ExitStatus()) }
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type exitFieldsSignaled struct{ exitFieldsCommon }
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func (f exitFieldsSignaled) Type() string { return "external-cmd/signaled" }
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func (f exitFieldsSignaled) SignalName() string { return f.e.Signal().String() }
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func (f exitFieldsSignaled) SignalNumber() string { return strconv.Itoa(int(f.e.Signal())) }
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func (f exitFieldsSignaled) CoreDumped() bool { return f.e.CoreDump() }
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type exitFieldsStopped struct{ exitFieldsCommon }
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func (f exitFieldsStopped) Type() string { return "external-cmd/stopped" }
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func (f exitFieldsStopped) SignalName() string { return f.e.StopSignal().String() }
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func (f exitFieldsStopped) SignalNumber() string { return strconv.Itoa(int(f.e.StopSignal())) }
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func (f exitFieldsStopped) TrapCause() int { return f.e.TrapCause() }
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type exitFieldsUnknown struct{ exitFieldsCommon }
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func (exitFieldsUnknown) Type() string { return "external-cmd/unknown" }
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