mirror of
https://github.com/go-sylixos/elvish.git
synced 2024-12-05 03:17:50 +08:00
134 lines
3.6 KiB
Go
134 lines
3.6 KiB
Go
package vars
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import (
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"src.elv.sh/pkg/eval/vals"
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)
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type elem struct {
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variable Var
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assocers []any
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indices []any
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setValue any
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}
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func (ev *elem) Set(v0 any) error {
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var err error
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v := v0
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// Evaluate the actual new value from inside out. See comments in
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// MakeElement for how element assignment works.
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for i := len(ev.assocers) - 1; i >= 0; i-- {
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v, err = vals.Assoc(ev.assocers[i], ev.indices[i], v)
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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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err = ev.variable.Set(v)
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// TODO(xiaq): Remember the set value for use in Get.
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ev.setValue = v0
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return err
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}
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func (ev *elem) Get() any {
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// TODO(xiaq): This is only called from fixNilVariables. We don't want to
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// waste time accessing the variable, so we simply return the value that was
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// set.
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return ev.setValue
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}
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// MakeElement returns a variable, that when set, simulates the mutation of an
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// element.
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func MakeElement(v Var, indices []any) (Var, error) {
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// Assignment of indexed variables actually assigns the variable, with
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// the right hand being a nested series of Assocs. As the simplest
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// example, `a[0] = x` is equivalent to `a = (assoc $a 0 x)`. A more
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// complex example is that `a[0][1][2] = x` is equivalent to
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// `a = (assoc $a 0 (assoc $a[0] 1 (assoc $a[0][1] 2 x)))`.
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// Note that in each assoc form, the first two arguments can be
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// determined now, while the last argument is only known when the
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// right-hand-side is known. So here we evaluate the first two arguments
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// of each assoc form and put them in two slices, assocers and indices.
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// In the previous example, the two slices will contain:
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//
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// assocers: $a $a[0] $a[0][1]
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// indices: 0 1 2
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//
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// When the right-hand side of the assignment becomes available, the new
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// value for $a is evaluated by doing Assoc from inside out.
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assocers := make([]any, len(indices))
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varValue := v.Get()
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assocers[0] = varValue
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for i, index := range indices[:len(indices)-1] {
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lastAssocer := assocers[i]
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v, err := vals.Index(lastAssocer, index)
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if err != nil {
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return nil, err
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}
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assocers[i+1] = v
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}
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return &elem{v, assocers, indices, nil}, nil
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}
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// DelElement deletes an element. It uses a similar process to MakeElement,
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// except that the last level of container needs to be Dissoc-able instead of
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// Assoc-able.
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func DelElement(variable Var, indices []any) error {
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var err error
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// In "del a[0][1][2]",
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//
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// indices: 0 1 2
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// assocers: $a $a[0]
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// dissocer: $a[0][1]
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assocers := make([]any, len(indices)-1)
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container := variable.Get()
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for i, index := range indices[:len(indices)-1] {
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assocers[i] = container
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var err error
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container, err = vals.Index(container, index)
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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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v := vals.Dissoc(container, indices[len(indices)-1])
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if v == nil {
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return elemErr{len(indices), "value does not support element removal"}
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}
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for i := len(assocers) - 1; i >= 0; i-- {
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v, err = vals.Assoc(assocers[i], indices[i], v)
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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 variable.Set(v)
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}
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type elemErr struct {
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level int
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msg string
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}
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func (err elemErr) Error() string {
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return err.msg
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}
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// HeadOfElement gets the underlying head variable of an element variable, or
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// nil if the argument is not an element variable.
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func HeadOfElement(v Var) Var {
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if ev, ok := v.(*elem); ok {
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return ev.variable
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}
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return nil
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}
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// ElementErrorLevel returns the level of an error returned by MakeElement or
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// DelElement. Level 0 represents that the error is about the variable itself.
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// Returns -1 if the argument was not returned from MakeElement or DelElement.
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func ElementErrorLevel(err error) int {
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if err, ok := err.(elemErr); ok {
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return err.level
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}
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return -1
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}
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