package eval import ( "errors" "src.elv.sh/pkg/diag" "src.elv.sh/pkg/eval/errs" "src.elv.sh/pkg/eval/vals" "src.elv.sh/pkg/eval/vars" "src.elv.sh/pkg/parse" ) // Parsed group of lvalues. type lvaluesGroup struct { lvalues []lvalue // Index of the rest variable within lvalues. If there is no rest variable, // the index is -1. rest int } // Parsed lvalue. type lvalue struct { diag.Ranging ref *varRef indexOps []valuesOp ends []int } type lvalueFlag uint const ( setLValue lvalueFlag = 1 << iota newLValue ) func (cp *compiler) parseCompoundLValues(ns []*parse.Compound, f lvalueFlag) lvaluesGroup { g := lvaluesGroup{nil, -1} for _, n := range ns { if len(n.Indexings) != 1 { cp.errorpf(n, "lvalue may not be composite expressions") break } more := cp.parseIndexingLValue(n.Indexings[0], f) if more.rest == -1 { g.lvalues = append(g.lvalues, more.lvalues...) } else if g.rest != -1 { cp.errorpf(n, "at most one rest variable is allowed") } else { g.rest = len(g.lvalues) + more.rest g.lvalues = append(g.lvalues, more.lvalues...) } } return g } var dummyLValuesGroup = lvaluesGroup{[]lvalue{{}}, -1} func (cp *compiler) parseIndexingLValue(n *parse.Indexing, f lvalueFlag) lvaluesGroup { if n.Head.Type == parse.Braced { // Braced list of lvalues may not have indices. if len(n.Indices) > 0 { cp.errorpf(n, "braced list may not have indices when used as lvalue") return dummyLValuesGroup } return cp.parseCompoundLValues(n.Head.Braced, f) } // A basic lvalue. if !parse.ValidLHSVariable(n.Head, true) { cp.errorpf(n.Head, "lvalue must be valid literal variable names") return dummyLValuesGroup } varUse := n.Head.Value sigil, qname := SplitSigil(varUse) if qname == "" { cp.errorpf(n, "variable name must not be empty") return dummyLValuesGroup } var ref *varRef if f&setLValue != 0 { ref = resolveVarRef(cp, qname, n) if ref != nil && len(ref.subNames) == 0 && ref.info.readOnly { cp.errorpf(n, "variable $%s is read-only", parse.Quote(qname)) return dummyLValuesGroup } } if ref == nil { if f&newLValue == 0 { cp.autofixUnresolvedVar(qname) cp.errorpf(n, "cannot find variable $%s", parse.Quote(qname)) return dummyLValuesGroup } if len(n.Indices) > 0 { cp.errorpf(n, "new variable $%s must not have indices", parse.Quote(qname)) return dummyLValuesGroup } segs := SplitQNameSegs(qname) if len(segs) == 1 { // Unqualified name - implicit local name := segs[0] ref = &varRef{localScope, staticVarInfo{name, false, false}, cp.thisScope().add(name), nil} } else { cp.errorpf(n, "cannot create variable $%s; "+ "new variables can only be created in the current scope", parse.Quote(qname)) return dummyLValuesGroup } } ends := make([]int, len(n.Indices)+1) ends[0] = n.Head.Range().To for i, idx := range n.Indices { ends[i+1] = idx.Range().To } lv := lvalue{n.Range(), ref, cp.arrayOps(n.Indices), ends} restIndex := -1 if sigil == "@" { restIndex = 0 } // TODO: Support % (and other sigils?) if https://b.elv.sh/584 is implemented for map explosion. return lvaluesGroup{[]lvalue{lv}, restIndex} } type assignOp struct { diag.Ranging lhs lvaluesGroup rhs valuesOp temp bool } func (op *assignOp) exec(fm *Frame) Exception { variables := make([]vars.Var, len(op.lhs.lvalues)) for i, lvalue := range op.lhs.lvalues { variable, err := derefLValue(fm, lvalue) if err != nil { return fm.errorp(op.lhs.lvalues[i], err) } variables[i] = variable } values, exc := op.rhs.exec(fm) if exc != nil { return exc } rest, temp := op.lhs.rest, op.temp if rest == -1 { if len(variables) != len(values) { return fm.errorp(op, errs.ArityMismatch{What: "assignment right-hand-side", ValidLow: len(variables), ValidHigh: len(variables), Actual: len(values)}) } for i, variable := range variables { exc := set(fm, op.lhs.lvalues[i], temp, variable, values[i]) if exc != nil { return exc } } } else { if len(values) < len(variables)-1 { return fm.errorp(op, errs.ArityMismatch{What: "assignment right-hand-side", ValidLow: len(variables) - 1, ValidHigh: -1, Actual: len(values)}) } for i := 0; i < rest; i++ { exc := set(fm, op.lhs.lvalues[i], temp, variables[i], values[i]) if exc != nil { return exc } } restOff := len(values) - len(variables) exc := set(fm, op.lhs.lvalues[rest], temp, variables[rest], vals.MakeList(values[rest:rest+restOff+1]...)) if exc != nil { return exc } for i := rest + 1; i < len(variables); i++ { exc := set(fm, op.lhs.lvalues[i], temp, variables[i], values[i+restOff]) if exc != nil { return exc } } } return nil } func set(fm *Frame, r diag.Ranger, temp bool, variable vars.Var, value any) Exception { if temp { saved := variable.Get() needUnset := false unsettable, ok := variable.(vars.UnsettableVar) if ok { needUnset = !unsettable.IsSet() } err := variable.Set(value) if err != nil { return fm.errorp(r, err) } fm.addDefer(func(fm *Frame) Exception { if needUnset { if err := unsettable.Unset(); err != nil { return fm.errorpf(r, "unset variable: %w", err) } return nil } err := variable.Set(saved) if err != nil { return fm.errorpf(r, "restore variable: %w", err) } return nil }) return nil } err := variable.Set(value) if err != nil { return fm.errorp(r, err) } return nil } // NoSuchVariable returns an error representing that a variable can't be found. func NoSuchVariable(name string) error { return noSuchVariableError{name} } type noSuchVariableError struct{ name string } func (er noSuchVariableError) Error() string { return "no variable $" + er.name } func derefLValue(fm *Frame, lv lvalue) (vars.Var, error) { variable := deref(fm, lv.ref) if variable == nil { return nil, NoSuchVariable(fm.srcMeta.Code[lv.From:lv.To]) } if len(lv.indexOps) == 0 { return variable, nil } indices := make([]any, len(lv.indexOps)) for i, op := range lv.indexOps { values, exc := op.exec(fm) if exc != nil { return nil, exc } // TODO: Implement multi-indexing. if len(values) != 1 { return nil, errors.New("multi indexing not implemented") } indices[i] = values[0] } elemVar, err := vars.MakeElement(variable, indices) if err != nil { level := vars.ElementErrorLevel(err) if level < 0 { return nil, fm.errorp(lv, err) } return nil, fm.errorp(diag.Ranging{From: lv.From, To: lv.ends[level]}, err) } return elemVar, nil }