| // Copyright (c) 2019, the Dart project authors. Please see the AUTHORS file |
| // for details. All rights reserved. Use of this source code is governed by a |
| // BSD-style license that can be found in the LICENSE file. |
| |
| import 'dart:math' as math; |
| |
| import 'package:front_end/src/api_unstable/vm.dart' |
| show |
| messageFfiPackedAnnotationAlignment, |
| messageNonPositiveArrayDimensions, |
| templateFfiEmptyStruct, |
| templateFfiFieldAnnotation, |
| templateFfiFieldNull, |
| templateFfiFieldCyclic, |
| templateFfiFieldNoAnnotation, |
| templateFfiTypeMismatch, |
| templateFfiFieldInitializer, |
| templateFfiPackedAnnotation, |
| templateFfiPackedNestingNonPacked, |
| templateFfiSizeAnnotation, |
| templateFfiSizeAnnotationDimensions, |
| templateFfiStructGeneric; |
| |
| import 'package:kernel/ast.dart'; |
| import 'package:kernel/class_hierarchy.dart' show ClassHierarchy; |
| import 'package:kernel/core_types.dart'; |
| import 'package:kernel/library_index.dart' show LibraryIndex; |
| import 'package:kernel/reference_from_index.dart'; |
| import 'package:kernel/target/changed_structure_notifier.dart'; |
| import 'package:kernel/target/targets.dart' show DiagnosticReporter; |
| import 'package:kernel/type_environment.dart' show SubtypeCheckMode; |
| import 'package:kernel/util/graph.dart'; |
| |
| import 'ffi.dart'; |
| |
| /// Checks and elaborates the dart:ffi compounds and their fields. |
| /// |
| /// Input: |
| /// class Coord extends Struct { |
| /// @Double() |
| /// double x; |
| /// |
| /// @Double() |
| /// double y; |
| /// |
| /// Pointer<Coord> next; |
| /// } |
| /// |
| /// Output: |
| /// class Coord extends Struct { |
| /// Coord.#fromTypedDataBase(Pointer<Coord> coord) : super._(coord); |
| /// |
| /// set x(double v) => ...; |
| /// double get x => ...; |
| /// |
| /// set y(double v) => ...; |
| /// double get y => ...; |
| /// |
| /// set next(Pointer<Coord> v) => ...; |
| /// Pointer<Coord> get next => ...; |
| /// |
| /// static int get #sizeOf => (const [24, 20, 24])[_abi()]; |
| /// } |
| void transformLibraries( |
| Component component, |
| CoreTypes coreTypes, |
| ClassHierarchy hierarchy, |
| List<Library> libraries, |
| DiagnosticReporter diagnosticReporter, |
| ReferenceFromIndex? referenceFromIndex, |
| ChangedStructureNotifier? changedStructureNotifier) { |
| final LibraryIndex index = LibraryIndex(component, |
| const ["dart:core", "dart:ffi", "dart:_internal", "dart:typed_data"]); |
| if (!index.containsLibrary("dart:ffi")) { |
| // TODO: This check doesn't make sense: "dart:ffi" is always loaded/created |
| // for the VM target. |
| // If dart:ffi is not loaded, do not do the transformation. |
| return; |
| } |
| if (index.tryGetClass('dart:ffi', 'NativeFunction') == null) { |
| // If dart:ffi is not loaded (for real): do not do the transformation. |
| return; |
| } |
| final transformer = new _FfiDefinitionTransformer(index, coreTypes, hierarchy, |
| diagnosticReporter, referenceFromIndex, changedStructureNotifier); |
| libraries.forEach(transformer.visitLibrary); |
| transformer.manualVisitInTopologicalOrder(); |
| } |
| |
| class CompoundDependencyGraph<T> implements Graph<T> { |
| final Map<T, Iterable<T>> map; |
| CompoundDependencyGraph(this.map); |
| |
| Iterable<T> get vertices => map.keys; |
| Iterable<T> neighborsOf(T vertex) => map[vertex]!; |
| } |
| |
| /// Checks and elaborates the dart:ffi compounds and their fields. |
| class _FfiDefinitionTransformer extends FfiTransformer { |
| final LibraryIndex index; |
| |
| // Data structures for topological navigation. |
| Map<Class, IndexedClass> indexedCompoundClasses = {}; |
| Set<Class> transformCompounds = {}; |
| Set<Class> transformCompoundsInvalid = {}; |
| Map<Class, NativeTypeCfe> compoundCache = {}; |
| |
| ChangedStructureNotifier? changedStructureNotifier; |
| |
| _FfiDefinitionTransformer( |
| this.index, |
| CoreTypes coreTypes, |
| ClassHierarchy hierarchy, |
| DiagnosticReporter diagnosticReporter, |
| ReferenceFromIndex? referenceFromIndex, |
| this.changedStructureNotifier) |
| : super(index, coreTypes, hierarchy, diagnosticReporter, |
| referenceFromIndex) {} |
| |
| /// Finds all compound class dependencies. |
| /// |
| /// Works both for transformed and non-transformed compound classes. |
| Set<Class> _compoundClassDependencies(Class node) { |
| final fieldTypes = _compoundAnnotatedFields(node); |
| if (fieldTypes != null) { |
| // Transformed classes. |
| return _compoundAnnotatedDependencies(fieldTypes); |
| } |
| |
| // Non-tranformed classes. |
| final dependencies = <Class>{}; |
| final membersWithAnnotations = |
| _compoundFieldMembers(node, includeSetters: false); |
| for (final Member f in membersWithAnnotations) { |
| final type = _compoundMemberType(f); |
| if (isCompoundSubtype(type)) { |
| final clazz = (type as InterfaceType).classNode; |
| dependencies.add(clazz); |
| } else if (isArrayType(type)) { |
| final sizeAnnotations = _getArraySizeAnnotations(f); |
| if (sizeAnnotations.length == 1) { |
| final singleElementType = arraySingleElementType(type); |
| if (isCompoundSubtype(singleElementType)) { |
| final clazz = (singleElementType as InterfaceType).classNode; |
| dependencies.add(clazz); |
| } |
| } |
| } |
| } |
| return dependencies; |
| } |
| |
| /// Creates a dependency graph containing all compounds being compiled |
| /// in this compilation, and their transitive dependencies. |
| CompoundDependencyGraph<Class> _compoundDependencyGraph() { |
| Map<Class, Set<Class>> compoundClassDependencies = {}; |
| final toProcess = [...transformCompounds, ...transformCompoundsInvalid]; |
| |
| while (toProcess.isNotEmpty) { |
| final clazz = toProcess.removeLast(); |
| if (!compoundClassDependencies.containsKey(clazz)) { |
| final dependencies = _compoundClassDependencies(clazz); |
| compoundClassDependencies[clazz] = dependencies; |
| toProcess.addAll(dependencies); |
| } |
| } |
| |
| return CompoundDependencyGraph(compoundClassDependencies); |
| } |
| |
| void manualVisitInTopologicalOrder() { |
| final dependencyGraph = _compoundDependencyGraph(); |
| final connectedComponents = computeStrongComponents(dependencyGraph); |
| |
| connectedComponents.forEach((List<Class> component) { |
| bool report = false; |
| if (component.length > 1) { |
| // Indirect cycle. |
| report = true; |
| } |
| if (component.length == 1) { |
| if (dependencyGraph.map[component.single]!.contains(component.single)) { |
| // Direct cycle. |
| report = true; |
| } |
| } |
| if (report) { |
| component.forEach((Class e) { |
| diagnosticReporter.report( |
| templateFfiFieldCyclic.withArguments(e.superclass!.name, e.name, |
| component.map((e) => e.name).toList()), |
| e.fileOffset, |
| e.name.length, |
| e.fileUri); |
| compoundCache[e] = InvalidNativeTypeCfe("Cyclic members."); |
| if (transformCompoundsInvalid.contains(e) || |
| transformCompounds.contains(e)) { |
| final indexedClass = indexedCompoundClasses[e]; |
| _addSizeOfField(e, indexedClass); |
| } |
| }); |
| } else { |
| // Only visit the ones without cycles. |
| final clazz = component.single; |
| final mustBeTransformed = (transformCompoundsInvalid.contains(clazz) || |
| transformCompounds.contains(clazz)); |
| if (!mustBeTransformed) { |
| compoundCache[clazz] = _compoundAnnotatedNativeTypeCfe(clazz); |
| } else { |
| final compoundData = _findFields(clazz); |
| final compoundType = compoundData.compoundType; |
| compoundCache[clazz] = compoundType; |
| final indexedClass = indexedCompoundClasses[clazz]; |
| if (transformCompounds.contains(clazz) && |
| compoundType is! InvalidNativeTypeCfe) { |
| // Only replace fields if valid. |
| _replaceFields(clazz, indexedClass, compoundData); |
| _addSizeOfField(clazz, indexedClass, compoundType.size); |
| } else { |
| // Do add a sizeOf field even if invalid. |
| _addSizeOfField(clazz, indexedClass); |
| } |
| changedStructureNotifier?.registerClassMemberChange(clazz); |
| } |
| } |
| }); |
| } |
| |
| @override |
| visitExtension(Extension node) { |
| // The extension and it's members are only metadata. |
| return node; |
| } |
| |
| bool _isUserCompound(Class node) { |
| if (!hierarchy.isSubclassOf(node, compoundClass) || |
| node == compoundClass || |
| node == structClass || |
| node == unionClass) { |
| return false; |
| } |
| return true; |
| } |
| |
| @override |
| visitClass(Class node) { |
| if (!_isUserCompound(node)) { |
| return node; |
| } |
| |
| final packing = _checkCompoundClass(node); |
| |
| final IndexedClass? indexedClass = |
| currentLibraryIndex?.lookupIndexedClass(node.name); |
| _checkConstructors(node, indexedClass); |
| if (indexedClass != null) { |
| indexedCompoundClasses[node] = indexedClass; |
| } |
| |
| final fieldsValid = _checkFieldAnnotations(node, packing); |
| if (fieldsValid) { |
| // Only do the transformation if the compound is valid. |
| transformCompounds.add(node); |
| } else { |
| transformCompoundsInvalid.add(node); |
| } |
| |
| return node; |
| } |
| |
| /// Returns packing if any. |
| int? _checkCompoundClass(Class node) { |
| if (node.typeParameters.length > 0) { |
| diagnosticReporter.report( |
| templateFfiStructGeneric.withArguments( |
| node.superclass!.name, node.name), |
| node.fileOffset, |
| 1, |
| node.location!.file); |
| } |
| |
| if (node.superclass != structClass && node.superclass != unionClass) { |
| // Not a struct or union, but extends a struct or union. |
| // The error will be emitted by _FfiUseSiteTransformer. |
| return null; |
| } |
| |
| if (node.superclass == structClass) { |
| final packingAnnotations = _getPackedAnnotations(node); |
| if (packingAnnotations.length > 1) { |
| diagnosticReporter.report( |
| templateFfiPackedAnnotation.withArguments(node.name), |
| node.fileOffset, |
| node.name.length, |
| node.location!.file); |
| } |
| if (packingAnnotations.isNotEmpty) { |
| final packing = packingAnnotations.first; |
| if (!(packing == 1 || |
| packing == 2 || |
| packing == 4 || |
| packing == 8 || |
| packing == 16)) { |
| diagnosticReporter.report(messageFfiPackedAnnotationAlignment, |
| node.fileOffset, node.name.length, node.location!.file); |
| } |
| return packing; |
| } |
| } |
| return null; |
| } |
| |
| /// Returns members of [node] that possibly correspond to compound fields. |
| /// |
| /// Note that getters and setters that originate from an external field have |
| /// the same `fileOffset`, we always returns getters first. |
| /// |
| /// This works only for non-transformed compounds. |
| List<Member> _compoundFieldMembers(Class node, {bool includeSetters = true}) { |
| assert(_compoundAnnotatedFields(node) == null); |
| final getterSetters = node.procedures.where((p) { |
| if (!p.isExternal) { |
| // Getters and setters corresponding to native fields are external. |
| return false; |
| } |
| if (p.isSetter && includeSetters) { |
| return true; |
| } |
| return p.isGetter; |
| }); |
| final compoundMembers = [...node.fields, ...getterSetters]..sort((m1, m2) { |
| if (m1.fileOffset == m2.fileOffset) { |
| // Getter and setter have same offset, getter comes first. |
| if (m1 is Procedure) { |
| return m1.isGetter ? -1 : 1; |
| } |
| // Generated fields with fileOffset identical to class, fallthrough. |
| } |
| return m1.fileOffset - m2.fileOffset; |
| }); |
| return compoundMembers; |
| } |
| |
| DartType _compoundMemberType(Member member) { |
| if (member is Field) { |
| return member.type; |
| } |
| final p = member as Procedure; |
| if (p.isGetter) { |
| return p.function.returnType; |
| } |
| return p.function.positionalParameters.single.type; |
| } |
| |
| bool _checkFieldAnnotations(Class node, int? packing) { |
| bool success = true; |
| final membersWithAnnotations = |
| _compoundFieldMembers(node, includeSetters: false); |
| for (final Member f in membersWithAnnotations) { |
| if (f is Field) { |
| if (f.initializer is! NullLiteral) { |
| diagnosticReporter.report( |
| templateFfiFieldInitializer.withArguments(f.name.text), |
| f.fileOffset, |
| f.name.text.length, |
| f.fileUri); |
| // This class is invalid, but continue reporting other errors on it. |
| success = false; |
| } |
| } |
| final nativeTypeAnnos = _getNativeTypeAnnotations(f).toList(); |
| final type = _compoundMemberType(f); |
| if (type is NullType) { |
| diagnosticReporter.report( |
| templateFfiFieldNull.withArguments(f.name.text), |
| f.fileOffset, |
| f.name.text.length, |
| f.fileUri); |
| // This class is invalid, but continue reporting other errors on it. |
| success = false; |
| } else if (isPointerType(type) || |
| isCompoundSubtype(type) || |
| isArrayType(type)) { |
| if (nativeTypeAnnos.length != 0) { |
| diagnosticReporter.report( |
| templateFfiFieldNoAnnotation.withArguments(f.name.text), |
| f.fileOffset, |
| f.name.text.length, |
| f.fileUri); |
| // This class is invalid, but continue reporting other errors on it. |
| success = false; |
| } |
| if (isCompoundSubtype(type)) { |
| final clazz = (type as InterfaceType).classNode; |
| _checkPacking(node, packing, clazz, f); |
| } else if (isArrayType(type)) { |
| final sizeAnnotations = _getArraySizeAnnotations(f); |
| if (sizeAnnotations.length == 1) { |
| final singleElementType = arraySingleElementType(type); |
| if (isCompoundSubtype(singleElementType)) { |
| final clazz = (singleElementType as InterfaceType).classNode; |
| _checkPacking(node, packing, clazz, f); |
| } |
| final dimensions = sizeAnnotations.single; |
| if (arrayDimensions(type) != dimensions.length) { |
| diagnosticReporter.report( |
| templateFfiSizeAnnotationDimensions |
| .withArguments(f.name.text), |
| f.fileOffset, |
| f.name.text.length, |
| f.fileUri); |
| } |
| for (var dimension in dimensions) { |
| if (dimension < 0) { |
| diagnosticReporter.report(messageNonPositiveArrayDimensions, |
| f.fileOffset, f.name.text.length, f.fileUri); |
| success = false; |
| } |
| } |
| } else { |
| diagnosticReporter.report( |
| templateFfiSizeAnnotation.withArguments(f.name.text), |
| f.fileOffset, |
| f.name.text.length, |
| f.fileUri); |
| success = false; |
| } |
| } |
| } else if (nativeTypeAnnos.length != 1) { |
| diagnosticReporter.report( |
| templateFfiFieldAnnotation.withArguments(f.name.text), |
| f.fileOffset, |
| f.name.text.length, |
| f.fileUri); |
| // This class is invalid, but continue reporting other errors on it. |
| success = false; |
| } else { |
| final DartType nativeType = InterfaceType( |
| nativeTypesClasses[_getFieldType(nativeTypeAnnos.first)!.index], |
| Nullability.legacy); |
| final DartType? shouldBeDartType = convertNativeTypeToDartType( |
| nativeType, |
| allowCompounds: true, |
| allowHandle: false); |
| if (shouldBeDartType == null || |
| !env.isSubtypeOf(type, shouldBeDartType, |
| SubtypeCheckMode.ignoringNullabilities)) { |
| diagnosticReporter.report( |
| templateFfiTypeMismatch.withArguments(type, shouldBeDartType!, |
| nativeType, node.enclosingLibrary.isNonNullableByDefault), |
| f.fileOffset, |
| 1, |
| f.location!.file); |
| // This class is invalid, but continue reporting other errors on it. |
| success = false; |
| } |
| } |
| } |
| return success; |
| } |
| |
| void _checkPacking(Class outerClass, int? outerClassPacking, Class fieldClass, |
| Member errorNode) { |
| if (outerClassPacking == null) { |
| // Outer struct has no packing, nesting anything is fine. |
| return; |
| } |
| |
| final fieldPackingAnnotations = _getPackedAnnotations(fieldClass); |
| bool error = false; |
| if (fieldPackingAnnotations.isEmpty) { |
| // Outer struct has packing but inner one doesn't. |
| error = true; |
| } else { |
| final fieldPacking = fieldPackingAnnotations.first; |
| if (fieldPacking > outerClassPacking) { |
| // Outer struct has stricter packing than the inner. |
| error = true; |
| } |
| } |
| if (error) { |
| diagnosticReporter.report( |
| templateFfiPackedNestingNonPacked.withArguments( |
| fieldClass.name, outerClass.name), |
| errorNode.fileOffset, |
| errorNode.name.text.length, |
| errorNode.fileUri); |
| } |
| } |
| |
| void _checkConstructors(Class node, IndexedClass? indexedClass) { |
| final toRemove = <Initializer>[]; |
| |
| // Constructors cannot have initializers because initializers refer to |
| // fields, and the fields were replaced with getter/setter pairs. |
| for (final Constructor c in node.constructors) { |
| for (final Initializer i in c.initializers) { |
| if (i is FieldInitializer) { |
| toRemove.add(i); |
| diagnosticReporter.report( |
| templateFfiFieldInitializer.withArguments(i.field.name.text), |
| i.fileOffset, |
| 1, |
| i.location!.file); |
| } |
| } |
| } |
| // Remove initializers referring to fields to prevent cascading errors. |
| for (final Initializer i in toRemove) { |
| final c = i.parent as Constructor; |
| c.initializers.remove(i); |
| } |
| |
| /// Add a constructor which 'load' can use. |
| /// |
| /// ```dart |
| /// #fromTypedDataBase(Object #typedDataBase) : |
| /// super._fromTypedDataBase(#typedDataBase); |
| /// ``` |
| final VariableDeclaration typedDataBase = new VariableDeclaration( |
| "#typedDataBase", |
| type: coreTypes.objectNonNullableRawType); |
| final name = Name("#fromTypedDataBase"); |
| final referenceFrom = indexedClass?.lookupConstructor(name); |
| final Constructor ctor = Constructor( |
| FunctionNode(EmptyStatement(), |
| positionalParameters: [typedDataBase], |
| returnType: InterfaceType(node, Nullability.nonNullable)), |
| name: name, |
| initializers: [ |
| SuperInitializer( |
| node.superclass == structClass |
| ? structFromTypedDataBase |
| : unionFromTypedDataBase, |
| Arguments([VariableGet(typedDataBase)])) |
| ], |
| fileUri: node.fileUri, |
| reference: referenceFrom?.reference) |
| ..fileOffset = node.fileOffset |
| ..isNonNullableByDefault = node.enclosingLibrary.isNonNullableByDefault; |
| |
| // Struct objects are manufactured in the VM by being passed by value |
| // in return position in FFI calls, and by value in arguments in FFI |
| // callbacks. |
| node.addConstructor(ctor); |
| } |
| |
| // Works only for non-transformed classes. |
| CompoundData _findFields(Class node) { |
| final types = <NativeTypeCfe>[]; |
| final fields = <int, Field>{}; |
| final getters = <int, Procedure>{}; |
| final setters = <int, Procedure>{}; |
| int i = 0; |
| for (final Member m in _compoundFieldMembers(node)) { |
| final dartType = _compoundMemberType(m); |
| |
| // Nullable. |
| NativeTypeCfe? type; |
| if (isArrayType(dartType)) { |
| final sizeAnnotations = _getArraySizeAnnotations(m).toList(); |
| if (sizeAnnotations.length == 1) { |
| final arrayDimensions = sizeAnnotations.single; |
| if (this.arrayDimensions(dartType) == arrayDimensions.length) { |
| type = NativeTypeCfe(this, dartType, |
| compoundCache: compoundCache, arrayDimensions: arrayDimensions); |
| } else { |
| type = InvalidNativeTypeCfe("Invalid array dimensions."); |
| } |
| } |
| } else if (isPointerType(dartType) || isCompoundSubtype(dartType)) { |
| type = NativeTypeCfe(this, dartType, compoundCache: compoundCache); |
| } else { |
| // The C type is in the annotation, not the field type itself. |
| final nativeTypeAnnos = _getNativeTypeAnnotations(m).toList(); |
| if (nativeTypeAnnos.length == 1) { |
| final clazz = nativeTypeAnnos.first; |
| final nativeType = _getFieldType(clazz)!; |
| type = PrimitiveNativeTypeCfe(nativeType, clazz); |
| } |
| } |
| |
| if ((m is Field || (m is Procedure && m.isGetter)) && type != null) { |
| types.add(type); |
| if (m is Field) { |
| fields[i] = m; |
| } |
| if (m is Procedure) { |
| getters[i] = m; |
| } |
| i++; |
| } |
| if (m is Procedure && m.isSetter) { |
| final index = i - 1; // The corresponding getter's index. |
| final getter = getters[index]; |
| if (getter != null && getter.name == m.name) { |
| setters[i - 1] = m; |
| } |
| } |
| } |
| |
| final packingAnnotations = _getPackedAnnotations(node); |
| final packing = |
| (!packingAnnotations.isEmpty) ? packingAnnotations.first : null; |
| |
| final compoundType = () { |
| if (types.whereType<InvalidNativeTypeCfe>().isNotEmpty) { |
| return InvalidNativeTypeCfe("Nested member invalid."); |
| } |
| if (node.superclass == structClass) { |
| return StructNativeTypeCfe(node, types, packing: packing); |
| } |
| return UnionNativeTypeCfe(node, types); |
| }(); |
| |
| List<CompoundField> fieldsFound = []; |
| for (int j = 0; j < i; j++) { |
| fieldsFound |
| .add(CompoundField(types[j], fields[j], getters[j], setters[j])); |
| } |
| return CompoundData(fieldsFound, packing, compoundType); |
| } |
| |
| /// Computes the field offsets (for all ABIs) in the compound and replaces |
| /// the fields with getters and setters using these offsets. |
| /// |
| /// Returns the total size of the compound (for all ABIs). |
| void _replaceFields( |
| Class node, IndexedClass? indexedClass, CompoundData compoundData) { |
| final compoundType = compoundData.compoundType as CompoundNativeTypeCfe; |
| final compoundLayout = compoundType.layout; |
| |
| _annoteCompoundWithFields(node, compoundType.members, compoundData.packing); |
| if (compoundType.members.isEmpty) { |
| diagnosticReporter.report( |
| templateFfiEmptyStruct.withArguments( |
| node.superclass!.name, node.name), |
| node.fileOffset, |
| node.name.length, |
| node.location!.file); |
| } |
| |
| final unalignedAccess = compoundData.packing != null; |
| |
| int i = 0; |
| for (final compoundField in compoundData.compoundFields) { |
| NativeTypeCfe type = compoundField.type; |
| Field? field = compoundField.field; |
| Procedure? getter = compoundField.getter; |
| Procedure? setter = compoundField.setter; |
| |
| final fieldOffsets = compoundLayout |
| .map((Abi abi, CompoundLayout v) => MapEntry(abi, v.offsets[i])); |
| |
| if (field != null) { |
| _generateMethodsForField( |
| node, field, type, fieldOffsets, unalignedAccess, indexedClass); |
| } |
| |
| if (getter != null) { |
| getter.function.body = type.generateGetterStatement( |
| getter.function.returnType, |
| getter.fileOffset, |
| fieldOffsets, |
| unalignedAccess, |
| this); |
| getter.isExternal = false; |
| } |
| |
| if (setter != null) { |
| setter.function.body = type.generateSetterStatement( |
| setter.function.positionalParameters.single.type, |
| setter.fileOffset, |
| fieldOffsets, |
| unalignedAccess, |
| setter.function.positionalParameters.single, |
| this); |
| setter.isExternal = false; |
| } |
| |
| i++; |
| } |
| } |
| |
| static const vmFfiStructFields = "vm:ffi:struct-fields"; |
| |
| // return value is nullable. |
| InstanceConstant? _compoundAnnotatedFields(Class node) { |
| for (final annotation in node.annotations) { |
| if (annotation is ConstantExpression) { |
| final constant = annotation.constant; |
| if (constant is InstanceConstant && |
| constant.classNode == pragmaClass && |
| constant.fieldValues[pragmaName.getterReference] == |
| StringConstant(vmFfiStructFields)) { |
| return constant.fieldValues[pragmaOptions.getterReference] |
| as InstanceConstant?; |
| } |
| } |
| } |
| return null; |
| } |
| |
| Set<Class> _compoundAnnotatedDependencies(InstanceConstant layoutConstant) { |
| final fieldTypes = layoutConstant |
| .fieldValues[ffiStructLayoutTypesField.getterReference] as ListConstant; |
| final result = <Class>{}; |
| for (final fieldType in fieldTypes.entries) { |
| if (fieldType is TypeLiteralConstant) { |
| final type = fieldType.type; |
| if (isCompoundSubtype(type)) { |
| final clazz = (type as InterfaceType).classNode; |
| result.add(clazz); |
| } |
| } |
| } |
| return result; |
| } |
| |
| /// Must only be called if all the depencies are already in the cache. |
| CompoundNativeTypeCfe _compoundAnnotatedNativeTypeCfe(Class compoundClass) { |
| final layoutConstant = _compoundAnnotatedFields(compoundClass)!; |
| final fieldTypes = layoutConstant |
| .fieldValues[ffiStructLayoutTypesField.getterReference] as ListConstant; |
| final members = <NativeTypeCfe>[]; |
| for (final fieldType in fieldTypes.entries) { |
| if (fieldType is TypeLiteralConstant) { |
| final dartType = fieldType.type; |
| members |
| .add(NativeTypeCfe(this, dartType, compoundCache: compoundCache)); |
| } else if (fieldType is InstanceConstant) { |
| final singleElementConstant = fieldType |
| .fieldValues[ffiInlineArrayElementTypeField.getterReference] |
| as TypeLiteralConstant; |
| final singleElementType = NativeTypeCfe( |
| this, singleElementConstant.type, |
| compoundCache: compoundCache); |
| final arrayLengthConstant = |
| fieldType.fieldValues[ffiInlineArrayLengthField.getterReference] |
| as IntConstant; |
| final arrayLength = arrayLengthConstant.value; |
| members.add(ArrayNativeTypeCfe(singleElementType, arrayLength)); |
| } |
| } |
| if (compoundClass.superclass == structClass) { |
| final packingConstant = layoutConstant |
| .fieldValues[ffiStructLayoutPackingField.getterReference]; |
| if (packingConstant is IntConstant) { |
| return StructNativeTypeCfe(compoundClass, members, |
| packing: packingConstant.value); |
| } |
| return StructNativeTypeCfe(compoundClass, members); |
| } |
| return UnionNativeTypeCfe(compoundClass, members); |
| } |
| |
| // packing is `int?`. |
| void _annoteCompoundWithFields( |
| Class node, List<NativeTypeCfe> types, int? packing) { |
| List<Constant> constants = |
| types.map((t) => t.generateConstant(this)).toList(); |
| |
| node.addAnnotation(ConstantExpression( |
| InstanceConstant(pragmaClass.reference, [], { |
| pragmaName.getterReference: StringConstant(vmFfiStructFields), |
| pragmaOptions.getterReference: |
| InstanceConstant(ffiStructLayoutClass.reference, [], { |
| ffiStructLayoutTypesField.getterReference: ListConstant( |
| InterfaceType(typeClass, Nullability.nonNullable), constants), |
| ffiStructLayoutPackingField.getterReference: |
| packing == null ? NullConstant() : IntConstant(packing) |
| }) |
| }), |
| InterfaceType(pragmaClass, Nullability.nonNullable, []))); |
| } |
| |
| void _generateMethodsForField(Class node, Field field, NativeTypeCfe type, |
| Map<Abi, int> offsets, bool unalignedAccess, IndexedClass? indexedClass) { |
| // TODO(johnniwinther): Avoid passing [indexedClass]. When compiling |
| // incrementally, [field] should already carry the references from |
| // [indexedClass]. |
| final getterStatement = type.generateGetterStatement( |
| field.type, field.fileOffset, offsets, unalignedAccess, this); |
| Reference getterReference = |
| indexedClass?.lookupGetterReference(field.name) ?? |
| field.getterReference; |
| assert(getterReference == field.getterReference, |
| "Unexpected getter reference for ${field}, found $getterReference."); |
| final Procedure getter = Procedure(field.name, ProcedureKind.Getter, |
| FunctionNode(getterStatement, returnType: field.type), |
| fileUri: field.fileUri, reference: getterReference) |
| ..fileOffset = field.fileOffset |
| ..isNonNullableByDefault = field.isNonNullableByDefault |
| ..annotations = field.annotations; |
| node.addProcedure(getter); |
| |
| if (!field.isFinal) { |
| Reference? setterReference = |
| indexedClass?.lookupSetterReference(field.name) ?? |
| field.setterReference; |
| assert(setterReference == field.setterReference, |
| "Unexpected setter reference for ${field}, found $setterReference."); |
| final VariableDeclaration argument = |
| VariableDeclaration('#v', type: field.type) |
| ..fileOffset = field.fileOffset; |
| final setterStatement = type.generateSetterStatement(field.type, |
| field.fileOffset, offsets, unalignedAccess, argument, this); |
| final setter = Procedure( |
| field.name, |
| ProcedureKind.Setter, |
| FunctionNode(setterStatement, |
| returnType: VoidType(), positionalParameters: [argument]), |
| fileUri: field.fileUri, |
| reference: setterReference) |
| ..fileOffset = field.fileOffset |
| ..isNonNullableByDefault = field.isNonNullableByDefault; |
| node.addProcedure(setter); |
| } |
| |
| node.fields.remove(field); |
| } |
| |
| /// Sample output: |
| /// int get #sizeOf => (const [24,24,16])[_abi()]; |
| /// |
| /// If sizes are not supplied still emits a field so that the use site |
| /// transformer can still rewrite to it. |
| void _addSizeOfField(Class compound, IndexedClass? indexedClass, |
| [Map<Abi, int>? sizes = null]) { |
| if (sizes == null) { |
| sizes = Map.fromEntries(Abi.values.map((abi) => MapEntry(abi, 0))); |
| } |
| final name = Name("#sizeOf"); |
| final getterReference = indexedClass?.lookupGetterReference(name); |
| |
| final Procedure getter = Procedure( |
| name, |
| ProcedureKind.Getter, |
| FunctionNode(ReturnStatement(runtimeBranchOnLayout(sizes)), |
| returnType: InterfaceType(intClass, Nullability.legacy)), |
| fileUri: compound.fileUri, |
| reference: getterReference, |
| isStatic: true) |
| ..fileOffset = compound.fileOffset |
| ..isNonNullableByDefault = true |
| ..addAnnotation(ConstantExpression( |
| InstanceConstant(pragmaClass.reference, /*type_arguments=*/ [], { |
| pragmaName.getterReference: StringConstant("vm:prefer-inline"), |
| pragmaOptions.getterReference: NullConstant(), |
| }))); |
| |
| compound.addProcedure(getter); |
| } |
| |
| NativeType? _getFieldType(Class c) { |
| final fieldType = getType(c); |
| |
| if (fieldType == NativeType.kVoid) { |
| // Fields cannot have Void types. |
| return null; |
| } |
| return fieldType; |
| } |
| |
| Iterable<Class> _getNativeTypeAnnotations(Member node) { |
| return node.annotations |
| .whereType<ConstantExpression>() |
| .map((expr) => expr.constant) |
| .whereType<InstanceConstant>() |
| .map((constant) => constant.classNode) |
| .where((klass) => _getFieldType(klass) != null); |
| } |
| |
| Iterable<List<int>> _getArraySizeAnnotations(Member node) { |
| return node.annotations |
| .whereType<ConstantExpression>() |
| .map((e) => e.constant) |
| .whereType<InstanceConstant>() |
| .where((e) => e.classNode == arraySizeClass) |
| .map(_arraySize); |
| } |
| |
| List<int> _arraySize(InstanceConstant constant) { |
| final dimensions = |
| constant.fieldValues[arraySizeDimensionsField.getterReference]; |
| if (dimensions != null) { |
| if (dimensions is ListConstant) { |
| final result = dimensions.entries |
| .whereType<IntConstant>() |
| .map((e) => e.value) |
| .toList(); |
| return result; |
| } |
| } |
| final dimensionFields = [ |
| arraySizeDimension1Field, |
| arraySizeDimension2Field, |
| arraySizeDimension3Field, |
| arraySizeDimension4Field, |
| arraySizeDimension5Field |
| ]; |
| final result = dimensionFields |
| .map((f) => constant.fieldValues[f.getterReference]) |
| .whereType<IntConstant>() |
| .map((c) => c.value) |
| .toList(); |
| return result; |
| } |
| |
| Iterable<int> _getPackedAnnotations(Class node) { |
| return node.annotations |
| .whereType<ConstantExpression>() |
| .map((expr) => expr.constant) |
| .whereType<InstanceConstant>() |
| .where((e) => e.classNode == packedClass) |
| .map((e) => e.fieldValues.values.single) |
| .whereType<IntConstant>() |
| .map((e) => e.value); |
| } |
| } |
| |
| class CompoundData { |
| final List<CompoundField> compoundFields; |
| final int? packing; |
| final NativeTypeCfe compoundType; |
| |
| CompoundData(this.compoundFields, this.packing, this.compoundType); |
| } |
| |
| class CompoundField { |
| final NativeTypeCfe type; |
| final Field? field; |
| final Procedure? getter; |
| final Procedure? setter; |
| |
| CompoundField(this.type, this.field, this.getter, this.setter); |
| } |
| |
| /// The layout of a `Struct` or `Union` in one [Abi]. |
| class CompoundLayout { |
| /// Size of the entire struct or union. |
| final int size; |
| |
| /// Alignment of struct or union when nested in a struct. |
| final int alignment; |
| |
| /// Offset in bytes for each field, indexed by field number. |
| /// |
| /// Always 0 for unions. |
| final List<int> offsets; |
| |
| CompoundLayout(this.size, this.alignment, this.offsets); |
| } |
| |
| /// AST node wrapper for native types. |
| /// |
| /// This algebraic data structure does not stand on its own but refers |
| /// intimately to AST nodes such as [Class]. |
| abstract class NativeTypeCfe { |
| factory NativeTypeCfe(FfiTransformer transformer, DartType dartType, |
| {List<int>? arrayDimensions, |
| Map<Class, NativeTypeCfe> compoundCache = const {}}) { |
| if (transformer.isPrimitiveType(dartType)) { |
| final clazz = (dartType as InterfaceType).classNode; |
| final nativeType = transformer.getType(clazz)!; |
| return PrimitiveNativeTypeCfe(nativeType, clazz); |
| } |
| if (transformer.isPointerType(dartType)) { |
| return PointerNativeTypeCfe(); |
| } |
| if (transformer.isCompoundSubtype(dartType)) { |
| final clazz = (dartType as InterfaceType).classNode; |
| if (compoundCache.containsKey(clazz)) { |
| return compoundCache[clazz]!; |
| } else { |
| throw "Class '$clazz' not found in compoundCache."; |
| } |
| } |
| if (transformer.isArrayType(dartType)) { |
| if (arrayDimensions == null) { |
| throw "Must have array dimensions for ArrayType."; |
| } |
| if (arrayDimensions.length == 0) { |
| throw "Must have a size for this array dimension."; |
| } |
| final elementType = transformer.arraySingleElementType(dartType); |
| final elementCfeType = |
| NativeTypeCfe(transformer, elementType, compoundCache: compoundCache); |
| if (elementCfeType is InvalidNativeTypeCfe) { |
| return elementCfeType; |
| } |
| return ArrayNativeTypeCfe.multi(elementCfeType, arrayDimensions); |
| } |
| throw "Invalid type $dartType"; |
| } |
| |
| /// The size in bytes per [Abi]. |
| Map<Abi, int> get size; |
| |
| /// The alignment inside structs in bytes per [Abi]. |
| /// |
| /// This is not the alignment on stack, this is only calculated in the VM. |
| Map<Abi, int> get alignment; |
| |
| /// Generates a Constant representing the type which is consumed by the VM. |
| /// |
| /// Takes [transformer] to be able to lookup classes and methods. |
| /// |
| /// See runtime/vm/compiler/ffi/native_type.cc:NativeType::FromAbstractType. |
| Constant generateConstant(FfiTransformer transformer); |
| |
| /// Generates the return statement for a compound field getter with this type. |
| /// |
| /// Takes [transformer] to be able to lookup classes and methods. |
| ReturnStatement generateGetterStatement(DartType dartType, int fileOffset, |
| Map<Abi, int> offsets, bool unalignedAccess, FfiTransformer transformer); |
| |
| /// Generates the return statement for a compound field setter with this type. |
| /// |
| /// Takes [transformer] to be able to lookup classes and methods. |
| ReturnStatement generateSetterStatement( |
| DartType dartType, |
| int fileOffset, |
| Map<Abi, int> offsets, |
| bool unalignedAccess, |
| VariableDeclaration argument, |
| FfiTransformer transformer); |
| } |
| |
| class InvalidNativeTypeCfe implements NativeTypeCfe { |
| final String reason; |
| |
| InvalidNativeTypeCfe(this.reason); |
| |
| @override |
| Map<Abi, int> get alignment => throw reason; |
| |
| @override |
| Constant generateConstant(FfiTransformer transformer) => throw reason; |
| |
| @override |
| ReturnStatement generateGetterStatement( |
| DartType dartType, |
| int fileOffset, |
| Map<Abi, int> offsets, |
| bool unalignedAccess, |
| FfiTransformer transformer) => |
| throw reason; |
| |
| @override |
| ReturnStatement generateSetterStatement( |
| DartType dartType, |
| int fileOffset, |
| Map<Abi, int> offsets, |
| bool unalignedAccess, |
| VariableDeclaration argument, |
| FfiTransformer transformer) => |
| throw reason; |
| |
| @override |
| Map<Abi, int> get size => throw reason; |
| } |
| |
| class PrimitiveNativeTypeCfe implements NativeTypeCfe { |
| final NativeType nativeType; |
| |
| final Class clazz; |
| |
| PrimitiveNativeTypeCfe(this.nativeType, this.clazz); |
| |
| @override |
| Map<Abi, int> get size { |
| final int size = nativeTypeSizes[nativeType.index]; |
| if (size == WORD_SIZE) { |
| return wordSize; |
| } |
| return Map.fromEntries(Abi.values.map((abi) => MapEntry(abi, size))); |
| } |
| |
| @override |
| Map<Abi, int> get alignment => Map.fromEntries(Abi.values.map((abi) => |
| MapEntry(abi, nonSizeAlignment[abi]![nativeType] ?? size[abi]!))); |
| |
| @override |
| Constant generateConstant(FfiTransformer transformer) => |
| TypeLiteralConstant(InterfaceType(clazz, Nullability.nonNullable)); |
| |
| bool get isFloat => |
| nativeType == NativeType.kFloat || nativeType == NativeType.kDouble; |
| |
| bool isUnaligned(Map<Abi, int> offsets) { |
| final alignments = alignment; |
| for (final abi in offsets.keys) { |
| final offset = offsets[abi]!; |
| final alignment = alignments[abi]!; |
| if (offset % alignment != 0) { |
| return true; |
| } |
| } |
| return false; |
| } |
| |
| /// Sample output for `int get x =>`: |
| /// |
| /// ``` |
| /// _loadInt8(_typedDataBase, offset); |
| /// ``` |
| @override |
| ReturnStatement generateGetterStatement( |
| DartType dartType, |
| int fileOffset, |
| Map<Abi, int> offsets, |
| bool unalignedAccess, |
| FfiTransformer transformer) => |
| ReturnStatement(StaticInvocation( |
| (unalignedAccess && isFloat |
| ? transformer.loadUnalignedMethods |
| : transformer.loadMethods)[nativeType]!, |
| Arguments([ |
| transformer.getCompoundTypedDataBaseField( |
| ThisExpression(), fileOffset), |
| transformer.runtimeBranchOnLayout(offsets) |
| ])) |
| ..fileOffset = fileOffset); |
| |
| /// Sample output for `set x(int #v) =>`: |
| /// |
| /// ``` |
| /// _storeInt8(_typedDataBase, offset, #v); |
| /// ``` |
| @override |
| ReturnStatement generateSetterStatement( |
| DartType dartType, |
| int fileOffset, |
| Map<Abi, int> offsets, |
| bool unalignedAccess, |
| VariableDeclaration argument, |
| FfiTransformer transformer) => |
| ReturnStatement(StaticInvocation( |
| (unalignedAccess && isFloat |
| ? transformer.storeUnalignedMethods |
| : transformer.storeMethods)[nativeType]!, |
| Arguments([ |
| transformer.getCompoundTypedDataBaseField( |
| ThisExpression(), fileOffset), |
| transformer.runtimeBranchOnLayout(offsets), |
| VariableGet(argument) |
| ])) |
| ..fileOffset = fileOffset); |
| } |
| |
| class PointerNativeTypeCfe implements NativeTypeCfe { |
| @override |
| Map<Abi, int> get size => wordSize; |
| |
| @override |
| Map<Abi, int> get alignment => wordSize; |
| |
| @override |
| Constant generateConstant(FfiTransformer transformer) => TypeLiteralConstant( |
| InterfaceType(transformer.pointerClass, Nullability.nonNullable, [ |
| InterfaceType( |
| transformer.pointerClass.superclass!, Nullability.nonNullable) |
| ])); |
| |
| /// Sample output for `Pointer<Int8> get x =>`: |
| /// |
| /// ``` |
| /// _fromAddress<Int8>(_loadIntPtr(_typedDataBase, offset)); |
| /// ``` |
| @override |
| ReturnStatement generateGetterStatement( |
| DartType dartType, |
| int fileOffset, |
| Map<Abi, int> offsets, |
| bool unalignedAccess, |
| FfiTransformer transformer) => |
| ReturnStatement(StaticInvocation( |
| transformer.fromAddressInternal, |
| Arguments([ |
| StaticInvocation( |
| transformer.loadMethods[NativeType.kIntptr]!, |
| Arguments([ |
| transformer.getCompoundTypedDataBaseField( |
| ThisExpression(), fileOffset), |
| transformer.runtimeBranchOnLayout(offsets) |
| ])) |
| ..fileOffset = fileOffset |
| ], types: [ |
| (dartType as InterfaceType).typeArguments.single |
| ])) |
| ..fileOffset = fileOffset); |
| |
| /// Sample output for `set x(Pointer<Int8> #v) =>`: |
| /// |
| /// ``` |
| /// _storeIntPtr(_typedDataBase, offset, (#v as Pointer<Int8>).address); |
| /// ``` |
| @override |
| ReturnStatement generateSetterStatement( |
| DartType dartType, |
| int fileOffset, |
| Map<Abi, int> offsets, |
| bool unalignedAccess, |
| VariableDeclaration argument, |
| FfiTransformer transformer) => |
| ReturnStatement(StaticInvocation( |
| transformer.storeMethods[NativeType.kIntptr]!, |
| Arguments([ |
| transformer.getCompoundTypedDataBaseField( |
| ThisExpression(), fileOffset), |
| transformer.runtimeBranchOnLayout(offsets), |
| InstanceGet(InstanceAccessKind.Instance, VariableGet(argument), |
| transformer.addressGetter.name, |
| interfaceTarget: transformer.addressGetter, |
| resultType: transformer.addressGetter.getterType) |
| ..fileOffset = fileOffset |
| ])) |
| ..fileOffset = fileOffset); |
| } |
| |
| abstract class CompoundNativeTypeCfe implements NativeTypeCfe { |
| final Class clazz; |
| |
| final List<NativeTypeCfe> members; |
| |
| final Map<Abi, CompoundLayout> layout; |
| |
| CompoundNativeTypeCfe._(this.clazz, this.members, this.layout); |
| |
| @override |
| Map<Abi, int> get size => |
| layout.map((abi, layout) => MapEntry(abi, layout.size)); |
| |
| @override |
| Map<Abi, int> get alignment => |
| layout.map((abi, layout) => MapEntry(abi, layout.alignment)); |
| |
| @override |
| Constant generateConstant(FfiTransformer transformer) => |
| TypeLiteralConstant(InterfaceType(clazz, Nullability.nonNullable)); |
| |
| /// Sample output for `MyStruct get x =>`: |
| /// |
| /// ``` |
| /// MyStruct.#fromTypedDataBase( |
| /// typedDataBaseOffset(_typedDataBase, offset, size, dartType) |
| /// ); |
| /// ``` |
| @override |
| ReturnStatement generateGetterStatement(DartType dartType, int fileOffset, |
| Map<Abi, int> offsets, bool unalignedAccess, FfiTransformer transformer) { |
| final constructor = clazz.constructors |
| .firstWhere((c) => c.name == Name("#fromTypedDataBase")); |
| |
| return ReturnStatement(ConstructorInvocation( |
| constructor, |
| Arguments([ |
| transformer.typedDataBaseOffset( |
| transformer.getCompoundTypedDataBaseField( |
| ThisExpression(), fileOffset), |
| transformer.runtimeBranchOnLayout(offsets), |
| transformer.runtimeBranchOnLayout(size), |
| dartType, |
| fileOffset) |
| ])) |
| ..fileOffset = fileOffset); |
| } |
| |
| /// Sample output for `set x(MyStruct #v) =>`: |
| /// |
| /// ``` |
| /// _memCopy(_typedDataBase, offset, #v._typedDataBase, 0, size); |
| /// ``` |
| @override |
| ReturnStatement generateSetterStatement( |
| DartType dartType, |
| int fileOffset, |
| Map<Abi, int> offsets, |
| bool unalignedAccess, |
| VariableDeclaration argument, |
| FfiTransformer transformer) => |
| ReturnStatement(StaticInvocation( |
| transformer.memCopy, |
| Arguments([ |
| transformer.getCompoundTypedDataBaseField( |
| ThisExpression(), fileOffset), |
| transformer.runtimeBranchOnLayout(offsets), |
| transformer.getCompoundTypedDataBaseField( |
| VariableGet(argument), fileOffset), |
| ConstantExpression(IntConstant(0)), |
| transformer.runtimeBranchOnLayout(size), |
| ])) |
| ..fileOffset = fileOffset); |
| } |
| |
| class StructNativeTypeCfe extends CompoundNativeTypeCfe { |
| // Nullable int. |
| final int? packing; |
| |
| factory StructNativeTypeCfe(Class clazz, List<NativeTypeCfe> members, |
| {int? packing}) { |
| final layout = Map.fromEntries(Abi.values |
| .map((abi) => MapEntry(abi, _calculateLayout(members, packing, abi)))); |
| return StructNativeTypeCfe._(clazz, members, packing, layout); |
| } |
| |
| StructNativeTypeCfe._(Class clazz, List<NativeTypeCfe> members, this.packing, |
| Map<Abi, CompoundLayout> layout) |
| : super._(clazz, members, layout); |
| |
| // Keep consistent with runtime/vm/compiler/ffi/native_type.cc |
| // NativeStructType::FromNativeTypes. |
| static CompoundLayout _calculateLayout( |
| List<NativeTypeCfe> types, int? packing, Abi abi) { |
| int offset = 0; |
| final offsets = <int>[]; |
| int structAlignment = 1; |
| for (int i = 0; i < types.length; i++) { |
| final int size = types[i].size[abi]!; |
| int alignment = types[i].alignment[abi]!; |
| if (packing != null && packing < alignment) { |
| alignment = packing; |
| } |
| if (alignment > 0) { |
| offset = _alignOffset(offset, alignment); |
| } |
| offsets.add(offset); |
| offset += size; |
| structAlignment = math.max(structAlignment, alignment); |
| } |
| final int size = _alignOffset(offset, structAlignment); |
| return CompoundLayout(size, structAlignment, offsets); |
| } |
| } |
| |
| class UnionNativeTypeCfe extends CompoundNativeTypeCfe { |
| factory UnionNativeTypeCfe(Class clazz, List<NativeTypeCfe> members) { |
| final layout = Map.fromEntries( |
| Abi.values.map((abi) => MapEntry(abi, _calculateLayout(members, abi)))); |
| return UnionNativeTypeCfe._(clazz, members, layout); |
| } |
| |
| UnionNativeTypeCfe._( |
| Class clazz, List<NativeTypeCfe> members, Map<Abi, CompoundLayout> layout) |
| : super._(clazz, members, layout); |
| |
| // Keep consistent with runtime/vm/compiler/ffi/native_type.cc |
| // NativeUnionType::FromNativeTypes. |
| static CompoundLayout _calculateLayout(List<NativeTypeCfe> types, Abi abi) { |
| int unionSize = 1; |
| int unionAlignment = 1; |
| for (int i = 0; i < types.length; i++) { |
| final int size = types[i].size[abi]!; |
| int alignment = types[i].alignment[abi]!; |
| unionSize = math.max(unionSize, size); |
| unionAlignment = math.max(unionAlignment, alignment); |
| } |
| final int size = _alignOffset(unionSize, unionAlignment); |
| return CompoundLayout(size, unionAlignment, List.filled(types.length, 0)); |
| } |
| } |
| |
| class ArrayNativeTypeCfe implements NativeTypeCfe { |
| final NativeTypeCfe elementType; |
| final int length; |
| |
| ArrayNativeTypeCfe(this.elementType, this.length); |
| |
| factory ArrayNativeTypeCfe.multi( |
| NativeTypeCfe elementType, List<int> dimensions) { |
| if (dimensions.length == 1) { |
| return ArrayNativeTypeCfe(elementType, dimensions.single); |
| } |
| return ArrayNativeTypeCfe( |
| ArrayNativeTypeCfe.multi(elementType, dimensions.sublist(1)), |
| dimensions.first); |
| } |
| |
| List<int> get dimensions { |
| final elementType = this.elementType; |
| if (elementType is ArrayNativeTypeCfe) { |
| return [length, ...elementType.dimensions]; |
| } |
| return [length]; |
| } |
| |
| List<int> get nestedDimensions => dimensions.sublist(1); |
| |
| int get dimensionsFlattened => |
| dimensions.fold(1, (accumulator, element) => accumulator * element); |
| |
| NativeTypeCfe get singleElementType { |
| final elementType = this.elementType; |
| if (elementType is ArrayNativeTypeCfe) { |
| return elementType.singleElementType; |
| } |
| return elementType; |
| } |
| |
| @override |
| Map<Abi, int> get size => |
| elementType.size.map((abi, size) => MapEntry(abi, size * length)); |
| |
| @override |
| Map<Abi, int> get alignment => elementType.alignment; |
| |
| // Note that we flatten multi dimensional arrays. |
| @override |
| Constant generateConstant(FfiTransformer transformer) => |
| InstanceConstant(transformer.ffiInlineArrayClass.reference, [], { |
| transformer.ffiInlineArrayElementTypeField.getterReference: |
| singleElementType.generateConstant(transformer), |
| transformer.ffiInlineArrayLengthField.getterReference: |
| IntConstant(dimensionsFlattened) |
| }); |
| |
| /// Sample output for `Array<Int8> get x =>`: |
| /// |
| /// ``` |
| /// Array<Int8>._( |
| /// typedDataBaseOffset(_typedDataBase, offset, size, typeArgument) |
| /// ); |
| /// ``` |
| @override |
| ReturnStatement generateGetterStatement(DartType dartType, int fileOffset, |
| Map<Abi, int> offsets, bool unalignedAccess, FfiTransformer transformer) { |
| InterfaceType typeArgument = |
| (dartType as InterfaceType).typeArguments.single as InterfaceType; |
| return ReturnStatement(ConstructorInvocation( |
| transformer.arrayConstructor, |
| Arguments([ |
| transformer.typedDataBaseOffset( |
| transformer.getCompoundTypedDataBaseField( |
| ThisExpression(), fileOffset), |
| transformer.runtimeBranchOnLayout(offsets), |
| transformer.runtimeBranchOnLayout(size), |
| typeArgument, |
| fileOffset), |
| ConstantExpression(IntConstant(length)), |
| transformer.intListConstantExpression(nestedDimensions) |
| ], types: [ |
| typeArgument |
| ])) |
| ..fileOffset = fileOffset); |
| } |
| |
| /// Sample output for `set x(Array #v) =>`: |
| /// |
| /// ``` |
| /// _memCopy(_typedDataBase, offset, #v._typedDataBase, 0, size); |
| /// ``` |
| @override |
| ReturnStatement generateSetterStatement( |
| DartType dartType, |
| int fileOffset, |
| Map<Abi, int> offsets, |
| bool unalignedAccess, |
| VariableDeclaration argument, |
| FfiTransformer transformer) => |
| ReturnStatement(StaticInvocation( |
| transformer.memCopy, |
| Arguments([ |
| transformer.getCompoundTypedDataBaseField( |
| ThisExpression(), fileOffset), |
| transformer.runtimeBranchOnLayout(offsets), |
| transformer.getArrayTypedDataBaseField( |
| VariableGet(argument), fileOffset), |
| ConstantExpression(IntConstant(0)), |
| transformer.runtimeBranchOnLayout(size), |
| ])) |
| ..fileOffset = fileOffset); |
| } |
| |
| int _alignOffset(int offset, int alignment) => |
| ((offset + alignment - 1) ~/ alignment) * alignment; |