Golang proto.ScopeInfo类代码示例

// ReturningResolvedTypeOf marks the scope as returning the *resolved* type of the given scope.
func (sib *scopeInfoBuilder) ReturningResolvedTypeOf(scope *proto.ScopeInfo) *scopeInfoBuilder {
	resolvedValue := scope.GetResolvedType()
	settlesScope := true

	sib.info.ReturnedType = &resolvedValue
	sib.info.IsSettlingScope = &settlesScope
	return sib
}

// scopeStructuralNewCloneExpression scopes a structural new expression for constructing a new instance
// of a structural type by cloning and modifying an existing one.
func (sb *scopeBuilder) scopeStructuralNewCloneExpression(node compilergraph.GraphNode, childScope *proto.ScopeInfo, context scopeContext) proto.ScopeInfo {
	resolvedTypeRef := childScope.ResolvedTypeRef(sb.sg.tdg)
	if !resolvedTypeRef.IsRefToStruct() {
		sb.decorateWithError(node, "Cannot clone and modify non-structural type %s", resolvedTypeRef)
		return newScope().Invalid().GetScope()
	}

	_, isValid := sb.scopeStructuralNewEntries(node, context)
	return newScope().
		IsValid(isValid).
		Resolving(resolvedTypeRef).
		WithLabel(proto.ScopeLabel_STRUCTURAL_UPDATE_EXPR).
		GetScope()
}

// getNamedScopeForScope returns namedScopeInfo for the given name, if it references a node by name.
func (sb *scopeBuilder) getNamedScopeForScope(scope *proto.ScopeInfo) (namedScopeInfo, bool) {
	if scope.GetNamedReference() == nil {
		return namedScopeInfo{}, false
	}

	namedReference := scope.GetNamedReference()
	nodeId := compilergraph.GraphNodeId(namedReference.GetReferencedNode())

	if namedReference.GetIsSRGNode() {
		referencedNode := sb.sg.srg.GetNamedScope(nodeId)
		return namedScopeInfo{referencedNode, nil, sb}, true
	} else {
		referencedNode := sb.sg.tdg.GetTypeOrMember(nodeId)
		return namedScopeInfo{srg.SRGNamedScope{}, referencedNode, sb}, true
	}
}

// GetReferencedName returns the ReferencedName struct for the given scope, if it refers to a named scope.
func (sg *ScopeGraph) GetReferencedName(scope proto.ScopeInfo) (ReferencedName, bool) {
	if scope.GetNamedReference() == nil {
		return ReferencedName{}, false
	}

	namedReference := scope.GetNamedReference()
	nodeId := compilergraph.GraphNodeId(namedReference.GetReferencedNode())

	if namedReference.GetIsSRGNode() {
		referencedNode := sg.srg.GetNamedScope(nodeId)
		return ReferencedName{referencedNode, nil, sg}, true
	} else {
		referencedNode := sg.tdg.GetTypeOrMember(nodeId)
		return ReferencedName{srg.SRGNamedScope{}, referencedNode, sg}, true
	}
}

// scopeStructuralNewTypeExpression scopes a structural new expression for constructing a new instance
// of a structural or class type.
func (sb *scopeBuilder) scopeStructuralNewTypeExpression(node compilergraph.GraphNode, childScope *proto.ScopeInfo, context scopeContext) proto.ScopeInfo {
	// Retrieve the static type.
	staticTypeRef := childScope.StaticTypeRef(sb.sg.tdg)

	// Ensure that the static type is a struct OR it is a class with an accessible 'new'.
	staticType := staticTypeRef.ReferredType()
	switch staticType.TypeKind() {
	case typegraph.ClassType:
		// Classes can only be constructed structurally if they are in the same module as this call.
		// Otherwise, an exported constructor must be used.
		module := compilercommon.InputSource(node.Get(parser.NodePredicateSource))
		_, rerr := staticTypeRef.ResolveAccessibleMember("new", module, typegraph.MemberResolutionStatic)
		if rerr != nil {
			sb.decorateWithError(node, "Cannot structurally construct type %v, as it is imported from another module", staticTypeRef)
			return newScope().Invalid().Resolving(staticTypeRef).GetScope()
		}

	case typegraph.StructType:
		// Structs can be constructed by anyone, assuming that their members are all exported.
		// That check occurs below.
		break

	default:
		sb.decorateWithError(node, "Cannot structurally construct type %v", staticTypeRef)
		return newScope().Invalid().Resolving(staticTypeRef).GetScope()
	}

	encountered, isValid := sb.scopeStructuralNewEntries(node, context)
	if !isValid {
		return newScope().Invalid().Resolving(staticTypeRef).GetScope()
	}

	// Ensure that all required entries are present.
	for _, field := range staticType.RequiredFields() {
		if _, ok := encountered[field.Name()]; !ok {
			isValid = false
			sb.decorateWithError(node, "Non-nullable %v '%v' is required to construct type %v", field.Title(), field.Name(), staticTypeRef)
		}
	}

	return newScope().IsValid(isValid).Resolving(staticTypeRef).GetScope()
}

// scopeDeclaredValue scopes a declared value (variable statement, variable member, type field).
func (sb *scopeBuilder) scopeDeclaredValue(node compilergraph.GraphNode, title string, option requiresInitializerOption, exprPredicate compilergraph.Predicate, context scopeContext) proto.ScopeInfo {
	var exprScope *proto.ScopeInfo = nil

	exprNode, hasExpression := node.TryGetNode(exprPredicate)
	if hasExpression {
		// Scope the expression.
		exprScope = sb.getScope(exprNode, context)
		if !exprScope.GetIsValid() {
			return newScope().Invalid().GetScope()
		}
	}

	// Load the declared type, if any.
	declaredType, hasDeclaredType := sb.getDeclaredVariableType(node)
	if !hasDeclaredType {
		if exprScope == nil {
			panic("Somehow ended up with no declared type and no expr scope")
		}

		return newScope().Valid().AssignableResolvedTypeOf(exprScope).GetScope()
	}

	// Compare against the type of the expression.
	if hasExpression {
		exprType := exprScope.ResolvedTypeRef(sb.sg.tdg)
		if serr := exprType.CheckSubTypeOf(declaredType); serr != nil {
			sb.decorateWithError(node, "%s '%s' has declared type '%v': %v", title, node.Get(parser.NodeVariableStatementName), declaredType, serr)
			return newScope().Invalid().GetScope()
		}
	} else if option == requiresInitializer {
		// Make sure if the type is non-nullable that there is an expression.
		if !declaredType.IsNullable() {
			sb.decorateWithError(node, "%s '%s' must have explicit initializer as its type '%v' is non-nullable", title, node.Get(parser.NodeVariableStatementName), declaredType)
			return newScope().Invalid().Assignable(declaredType).GetScope()
		}
	}

	return newScope().Valid().Assignable(declaredType).GetScope()
}

// AssignableResolvedTypeOf marks the scope as being assignable of the *resolved* type of the given scope.
func (sib *scopeInfoBuilder) AssignableResolvedTypeOf(scope *proto.ScopeInfo) *scopeInfoBuilder {
	resolvedValue := scope.GetResolvedType()
	sib.info.AssignableType = &resolvedValue
	return sib
}

// ResolvingTypeOf marks the scope as resolving the type of the given scope.
func (sib *scopeInfoBuilder) ResolvingTypeOf(scope *proto.ScopeInfo) *scopeInfoBuilder {
	resolvedValue := scope.GetResolvedType()
	sib.info.ResolvedType = &resolvedValue
	return sib
}