elvish/pkg/eval/compiler.go

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package eval
import (
"fmt"
"io"
"strings"
"src.elv.sh/pkg/diag"
"src.elv.sh/pkg/eval/vars"
"src.elv.sh/pkg/parse"
"src.elv.sh/pkg/prog"
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)
// compiler maintains the set of states needed when compiling a single source
// file.
type compiler struct {
// Builtin namespace.
builtin *staticNs
// Lexical namespaces.
scopes []*staticNs
// Sources of captured variables.
captures []*staticUpNs
// Pragmas tied to scopes.
pragmas []*scopePragma
// Names of internal modules.
modules []string
// Destination of warning messages. This is currently only used for
// deprecation messages.
warn io.Writer
// Deprecation registry.
deprecations deprecationRegistry
// Information about the source.
srcMeta parse.Source
// Compilation errors.
errors []*CompilationError
// Suggested code to fix potential issues found during compilation.
autofixes []string
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}
type scopePragma struct {
unknownCommandIsExternal bool
}
func compile(b, g *staticNs, modules []string, tree parse.Tree, w io.Writer) (nsOp, []string, error) {
g = g.clone()
cp := &compiler{
b, []*staticNs{g}, []*staticUpNs{new(staticUpNs)},
[]*scopePragma{{unknownCommandIsExternal: true}},
modules,
w, newDeprecationRegistry(), tree.Source, nil, nil}
chunkOp := cp.chunkOp(tree.Root)
return nsOp{chunkOp, g}, cp.autofixes, diag.PackErrors(cp.errors)
}
type nsOp struct {
inner effectOp
template *staticNs
}
// Prepares the local namespace, and returns the namespace and a function for
// executing the inner effectOp. Mutates fm.local.
func (op nsOp) prepare(fm *Frame) (*Ns, func() Exception) {
if len(op.template.infos) > len(fm.local.infos) {
n := len(op.template.infos)
newLocal := &Ns{make([]vars.Var, n), op.template.infos}
copy(newLocal.slots, fm.local.slots)
for i := len(fm.local.infos); i < n; i++ {
// TODO: Take readOnly into account too
newLocal.slots[i] = MakeVarFromName(newLocal.infos[i].name)
}
fm.local = newLocal
} else {
// If no new variable has been created, there might still be some
// existing variables deleted.
fm.local = &Ns{fm.local.slots, op.template.infos}
}
return fm.local, func() Exception { return op.inner.exec(fm) }
}
type CompilationError = diag.Error[CompilationErrorTag]
// CompilationErrorTag parameterizes [diag.Error] to define [CompilationError].
type CompilationErrorTag struct{}
func (CompilationErrorTag) ErrorTag() string { return "compilation error" }
func (cp *compiler) errorpf(r diag.Ranger, format string, args ...any) {
cp.errors = append(cp.errors, &CompilationError{
Message: fmt.Sprintf(format, args...),
Context: *diag.NewContext(cp.srcMeta.Name, cp.srcMeta.Code, r)})
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}
// UnpackCompilationErrors returns the constituent compilation errors if the
// given error contains one or more compilation errors. Otherwise it returns
// nil.
func UnpackCompilationErrors(e error) []*CompilationError {
if errs := diag.UnpackErrors[CompilationErrorTag](e); len(errs) > 0 {
return errs
}
return nil
}
func (cp *compiler) thisScope() *staticNs {
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return cp.scopes[len(cp.scopes)-1]
}
func (cp *compiler) currentPragma() *scopePragma {
return cp.pragmas[len(cp.pragmas)-1]
}
func (cp *compiler) pushScope() (*staticNs, *staticUpNs) {
sc := new(staticNs)
up := new(staticUpNs)
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cp.scopes = append(cp.scopes, sc)
cp.captures = append(cp.captures, up)
currentPragmaCopy := *cp.currentPragma()
cp.pragmas = append(cp.pragmas, &currentPragmaCopy)
return sc, up
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}
func (cp *compiler) popScope() {
cp.scopes[len(cp.scopes)-1] = nil
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cp.scopes = cp.scopes[:len(cp.scopes)-1]
cp.captures[len(cp.captures)-1] = nil
cp.captures = cp.captures[:len(cp.captures)-1]
cp.pragmas[len(cp.pragmas)-1] = nil
cp.pragmas = cp.pragmas[:len(cp.pragmas)-1]
}
func (cp *compiler) checkDeprecatedBuiltin(name string, r diag.Ranger) {
msg := ""
minLevel := 20
switch name {
case "eawk~":
msg = `the "eawk" command is deprecated; use "re:awk" instead`
default:
return
}
cp.deprecate(r, msg, minLevel)
}
type deprecationTag struct{}
func (deprecationTag) ErrorTag() string { return "deprecation" }
func (cp *compiler) deprecate(r diag.Ranger, msg string, minLevel int) {
if cp.warn == nil || r == nil {
return
}
dep := deprecation{cp.srcMeta.Name, r.Range(), msg}
if prog.DeprecationLevel >= minLevel && cp.deprecations.register(dep) {
err := diag.Error[deprecationTag]{
Message: msg,
Context: *diag.NewContext(cp.srcMeta.Name, cp.srcMeta.Code, r.Range())}
fmt.Fprintln(cp.warn, err.Show(""))
}
}
// Given a variable that doesn't resolve, add any applicable autofixes.
func (cp *compiler) autofixUnresolvedVar(qname string) {
if len(cp.modules) == 0 {
return
}
first, _ := SplitQName(qname)
mod := strings.TrimSuffix(first, ":")
if mod != first && sliceContains(cp.modules, mod) {
cp.autofixes = append(cp.autofixes, "use "+mod)
}
}