pkg/analyzer/test/src/summary/flat_buffers_test.dart - sdk.git - Git at Google

 // Copyright (c) 2016, 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:typed_data';

 import 'package:analyzer/src/summary/flat_buffers.dart';
 import 'package:test/test.dart';
 import 'package:test_reflective_loader/test_reflective_loader.dart';

 main() {
   defineReflectiveSuite(() {
     defineReflectiveTests(BuilderTest);
   });
 }

 @reflectiveTest
 class BuilderTest {
   void test_error_addInt32_withoutStartTable() {
     Builder builder = new Builder();
     expect(() {
       builder.addInt32(0, 0);
     }, throwsStateError);
   }

   void test_error_addOffset_withoutStartTable() {
     Builder builder = new Builder();
     expect(() {
       builder.addOffset(0, new Offset(0));
     }, throwsStateError);
   }

   void test_error_endTable_withoutStartTable() {
     Builder builder = new Builder();
     expect(() {
       builder.endTable();
     }, throwsStateError);
   }

   void test_error_startTable_duringTable() {
     Builder builder = new Builder();
     builder.startTable();
     expect(() {
       builder.startTable();
     }, throwsStateError);
   }

   void test_error_writeString_duringTable() {
     Builder builder = new Builder();
     builder.startTable();
     expect(() {
       builder.writeString('12345');
     }, throwsStateError);
   }

   void test_file_identifier() {
     Uint8List byteList;
     {
       Builder builder = new Builder(initialSize: 0);
       builder.startTable();
       Offset offset = builder.endTable();
       byteList = builder.finish(offset, 'Az~ÿ');
     }
     // Convert byteList to a ByteData so that we can read data from it.
     ByteData byteData = byteList.buffer.asByteData(byteList.offsetInBytes);
     // First 4 bytes are an offset to the table data.
     int tableDataLoc = byteData.getUint32(0, Endian.little);
     // Next 4 bytes are the file identifier.
     expect(byteData.getUint8(4), 65); // 'a'
     expect(byteData.getUint8(5), 122); // 'z'
     expect(byteData.getUint8(6), 126); // '~'
     expect(byteData.getUint8(7), 255); // 'ÿ'
     // First 4 bytes of the table data are a backwards offset to the vtable.
     int vTableLoc =
         tableDataLoc - byteData.getInt32(tableDataLoc, Endian.little);
     // First 2 bytes of the vtable are the size of the vtable in bytes, which
     // should be 4.
     expect(byteData.getUint16(vTableLoc, Endian.little), 4);
     // Next 2 bytes are the size of the object in bytes (including the vtable
     // pointer), which should be 4.
     expect(byteData.getUint16(vTableLoc + 2, Endian.little), 4);
   }

   void test_low() {
     Builder builder = new Builder(initialSize: 0);
     builder.lowReset();
     expect((builder..lowWriteUint8(1)).lowFinish(), [1]);
     expect((builder..lowWriteUint32(2)).lowFinish(), [2, 0, 0, 0, 0, 0, 0, 1]);
     expect((builder..lowWriteUint8(3)).lowFinish(),
         [0, 0, 0, 3, 2, 0, 0, 0, 0, 0, 0, 1]);
     expect((builder..lowWriteUint8(4)).lowFinish(),
         [0, 0, 4, 3, 2, 0, 0, 0, 0, 0, 0, 1]);
     expect((builder..lowWriteUint8(5)).lowFinish(),
         [0, 5, 4, 3, 2, 0, 0, 0, 0, 0, 0, 1]);
     expect((builder..lowWriteUint32(6)).lowFinish(),
         [6, 0, 0, 0, 0, 5, 4, 3, 2, 0, 0, 0, 0, 0, 0, 1]);
   }

   void test_table_default() {
     List<int> byteList;
     {
       Builder builder = new Builder(initialSize: 0);
       builder.startTable();
       builder.addInt32(0, 10, 10);
       builder.addInt32(1, 20, 10);
       Offset offset = builder.endTable();
       byteList = builder.finish(offset);
     }
     // read and verify
     BufferContext buffer = new BufferContext.fromBytes(byteList);
     int objectOffset = buffer.derefObject(0);
     // was not written, so uses the new default value
     expect(const Int32Reader().vTableGet(buffer, objectOffset, 0, 15), 15);
     // has the written value
     expect(const Int32Reader().vTableGet(buffer, objectOffset, 1, 15), 20);
   }

   void test_table_format() {
     Uint8List byteList;
     {
       Builder builder = new Builder(initialSize: 0);
       builder.startTable();
       builder.addInt32(0, 10);
       builder.addInt32(1, 20);
       builder.addInt32(2, 30);
       byteList = builder.finish(builder.endTable());
     }
     // Convert byteList to a ByteData so that we can read data from it.
     ByteData byteData = byteList.buffer.asByteData(byteList.offsetInBytes);
     // First 4 bytes are an offset to the table data.
     int tableDataLoc = byteData.getUint32(0, Endian.little);
     // First 4 bytes of the table data are a backwards offset to the vtable.
     int vTableLoc =
         tableDataLoc - byteData.getInt32(tableDataLoc, Endian.little);
     // First 2 bytes of the vtable are the size of the vtable in bytes, which
     // should be 10.
     expect(byteData.getUint16(vTableLoc, Endian.little), 10);
     // Next 2 bytes are the size of the object in bytes (including the vtable
     // pointer), which should be 16.
     expect(byteData.getUint16(vTableLoc + 2, Endian.little), 16);
     // Remaining 6 bytes are the offsets within the object where the ints are
     // located.
     for (int i = 0; i < 3; i++) {
       int offset = byteData.getUint16(vTableLoc + 4 + 2 * i, Endian.little);
       expect(
           byteData.getInt32(tableDataLoc + offset, Endian.little), 10 + 10 * i);
     }
   }

   void test_table_string() {
     String latinString = 'test';
     String unicodeString = 'Проба пера';
     List<int> byteList;
     {
       Builder builder = new Builder(initialSize: 0);
       Offset<String> latinStringOffset = builder.writeString(latinString);
       Offset<String> unicodeStringOffset = builder.writeString(unicodeString);
       builder.startTable();
       builder.addOffset(0, latinStringOffset);
       builder.addOffset(1, unicodeStringOffset);
       Offset offset = builder.endTable();
       byteList = builder.finish(offset);
     }
     // read and verify
     BufferContext buf = new BufferContext.fromBytes(byteList);
     int objectOffset = buf.derefObject(0);
     expect(const StringReader().vTableGet(buf, objectOffset, 0), latinString);
     expect(const StringReader().vTableGet(buf, objectOffset, 1), unicodeString);
   }

   void test_table_types() {
     List<int> byteList;
     {
       Builder builder = new Builder(initialSize: 0);
       Offset<String> stringOffset = builder.writeString('12345');
       builder.startTable();
       builder.addBool(0, true);
       builder.addInt8(1, 10);
       builder.addInt32(2, 20);
       builder.addOffset(3, stringOffset);
       builder.addInt32(4, 40);
       builder.addUint32(5, 0x9ABCDEF0);
       builder.addUint8(6, 0x9A);
       builder.addFloat64(7, -12.34);
       Offset offset = builder.endTable();
       byteList = builder.finish(offset);
     }
     // read and verify
     BufferContext buf = new BufferContext.fromBytes(byteList);
     int objectOffset = buf.derefObject(0);
     expect(const BoolReader().vTableGet(buf, objectOffset, 0), true);
     expect(const Int8Reader().vTableGet(buf, objectOffset, 1), 10);
     expect(const Int32Reader().vTableGet(buf, objectOffset, 2), 20);
     expect(const StringReader().vTableGet(buf, objectOffset, 3), '12345');
     expect(const Int32Reader().vTableGet(buf, objectOffset, 4), 40);
     expect(const Uint32Reader().vTableGet(buf, objectOffset, 5), 0x9ABCDEF0);
     expect(const Uint8Reader().vTableGet(buf, objectOffset, 6), 0x9A);
     expect(const Float64Reader().vTableGet(buf, objectOffset, 7), -12.34);
   }

   void test_writeList_of_Uint32() {
     List<int> values = <int>[10, 100, 12345, 0x9abcdef0];
     // write
     List<int> byteList;
     {
       Builder builder = new Builder(initialSize: 0);
       Offset offset = builder.writeListUint32(values);
       byteList = builder.finish(offset);
     }
     // read and verify
     BufferContext buf = new BufferContext.fromBytes(byteList);
     List<int> items = const Uint32ListReader().read(buf, 0);
     expect(items, hasLength(4));
     expect(items, orderedEquals(values));
   }

   void test_writeList_ofBool() {
     void verifyListBooleans(int len, List<int> trueBits) {
       // write
       List<int> byteList;
       {
         Builder builder = new Builder(initialSize: 0);
         List<bool> values = new List<bool>.filled(len, false);
         for (int bit in trueBits) {
           values[bit] = true;
         }
         Offset offset = builder.writeListBool(values);
         byteList = builder.finish(offset);
       }
       // read and verify
       BufferContext buf = new BufferContext.fromBytes(byteList);
       List<bool> items = const BoolListReader().read(buf, 0);
       expect(items, hasLength(len));
       for (int i = 0; i < items.length; i++) {
         expect(items[i], trueBits.contains(i), reason: 'bit $i of $len');
       }
     }

     verifyListBooleans(0, <int>[]);
     verifyListBooleans(1, <int>[]);
     verifyListBooleans(1, <int>[0]);
     verifyListBooleans(31, <int>[0, 1]);
     verifyListBooleans(31, <int>[1, 2, 24, 25, 30]);
     verifyListBooleans(31, <int>[0, 30]);
     verifyListBooleans(32, <int>[1, 2, 24, 25, 31]);
     verifyListBooleans(33, <int>[1, 2, 24, 25, 32]);
     verifyListBooleans(33, <int>[1, 2, 24, 25, 31, 32]);
     verifyListBooleans(63, <int>[]);
     verifyListBooleans(63, <int>[0, 1, 2, 61, 62]);
     verifyListBooleans(63, new List<int>.generate(63, (i) => i));
     verifyListBooleans(64, <int>[]);
     verifyListBooleans(64, <int>[0, 1, 2, 61, 62, 63]);
     verifyListBooleans(64, <int>[1, 2, 62]);
     verifyListBooleans(64, <int>[0, 1, 2, 63]);
     verifyListBooleans(64, new List<int>.generate(64, (i) => i));
     verifyListBooleans(100, <int>[0, 3, 30, 60, 90, 99]);
   }

   void test_writeList_ofFloat64() {
     List<double> values = <double>[-1.234567, 3.4E+9, -5.6E-13, 7.8, 12.13];
     // write
     List<int> byteList;
     {
       Builder builder = new Builder(initialSize: 0);
       Offset offset = builder.writeListFloat64(values);
       byteList = builder.finish(offset);
     }
     // read and verify
     BufferContext buf = new BufferContext.fromBytes(byteList);
     List<double> items = const Float64ListReader().read(buf, 0);
     expect(items, hasLength(5));
     expect(items, orderedEquals(values));
   }

   void test_writeList_ofInt32() {
     List<int> byteList;
     {
       Builder builder = new Builder(initialSize: 0);
       Offset offset = builder.writeListInt32(<int>[1, 2, 3, 4, 5]);
       byteList = builder.finish(offset);
     }
     // read and verify
     BufferContext buf = new BufferContext.fromBytes(byteList);
     List<int> items = const ListReader<int>(const Int32Reader()).read(buf, 0);
     expect(items, hasLength(5));
     expect(items, orderedEquals(<int>[1, 2, 3, 4, 5]));
   }

   void test_writeList_ofObjects() {
     List<int> byteList;
     {
       Builder builder = new Builder(initialSize: 0);
       // write the object #1
       Offset object1;
       {
         builder.startTable();
         builder.addInt32(0, 10);
         builder.addInt32(1, 20);
         object1 = builder.endTable();
       }
       // write the object #1
       Offset object2;
       {
         builder.startTable();
         builder.addInt32(0, 100);
         builder.addInt32(1, 200);
         object2 = builder.endTable();
       }
       // write the list
       Offset offset = builder.writeList([object1, object2]);
       byteList = builder.finish(offset);
     }
     // read and verify
     BufferContext buf = new BufferContext.fromBytes(byteList);
     List<TestPointImpl> items =
         const ListReader<TestPointImpl>(const TestPointReader()).read(buf, 0);
     expect(items, hasLength(2));
     expect(items[0].x, 10);
     expect(items[0].y, 20);
     expect(items[1].x, 100);
     expect(items[1].y, 200);
   }

   void test_writeList_ofStrings_asRoot() {
     List<int> byteList;
     {
       Builder builder = new Builder(initialSize: 0);
       Offset<String> str1 = builder.writeString('12345');
       Offset<String> str2 = builder.writeString('ABC');
       Offset offset = builder.writeList([str1, str2]);
       byteList = builder.finish(offset);
     }
     // read and verify
     BufferContext buf = new BufferContext.fromBytes(byteList);
     List<String> items =
         const ListReader<String>(const StringReader()).read(buf, 0);
     expect(items, hasLength(2));
     expect(items, contains('12345'));
     expect(items, contains('ABC'));
   }

   void test_writeList_ofStrings_inObject() {
     List<int> byteList;
     {
       Builder builder = new Builder(initialSize: 0);
       Offset listOffset = builder.writeList(
           [builder.writeString('12345'), builder.writeString('ABC')]);
       builder.startTable();
       builder.addOffset(0, listOffset);
       Offset offset = builder.endTable();
       byteList = builder.finish(offset);
     }
     // read and verify
     BufferContext buf = new BufferContext.fromBytes(byteList);
     StringListWrapperImpl reader = new StringListWrapperReader().read(buf, 0);
     List<String> items = reader.items;
     expect(items, hasLength(2));
     expect(items, contains('12345'));
     expect(items, contains('ABC'));
   }

   void test_writeList_ofUint32() {
     List<int> byteList;
     {
       Builder builder = new Builder(initialSize: 0);
       Offset offset = builder.writeListUint32(<int>[1, 2, 0x9ABCDEF0]);
       byteList = builder.finish(offset);
     }
     // read and verify
     BufferContext buf = new BufferContext.fromBytes(byteList);
     List<int> items = const Uint32ListReader().read(buf, 0);
     expect(items, hasLength(3));
     expect(items, orderedEquals(<int>[1, 2, 0x9ABCDEF0]));
   }

   void test_writeList_ofUint8() {
     List<int> byteList;
     {
       Builder builder = new Builder(initialSize: 0);
       Offset offset = builder.writeListUint8(<int>[1, 2, 3, 4, 0x9A]);
       byteList = builder.finish(offset);
     }
     // read and verify
     BufferContext buf = new BufferContext.fromBytes(byteList);
     List<int> items = const Uint8ListReader().read(buf, 0);
     expect(items, hasLength(5));
     expect(items, orderedEquals(<int>[1, 2, 3, 4, 0x9A]));
   }
 }

 class StringListWrapperImpl {
   final BufferContext bp;
   final int offset;

   StringListWrapperImpl(this.bp, this.offset);

   List<String> get items =>
       const ListReader<String>(const StringReader()).vTableGet(bp, offset, 0);
 }

 class StringListWrapperReader extends TableReader<StringListWrapperImpl> {
   const StringListWrapperReader();

   @override
   StringListWrapperImpl createObject(BufferContext object, int offset) {
     return new StringListWrapperImpl(object, offset);
   }
 }

 class TestPointImpl {
   final BufferContext bp;
   final int offset;

   TestPointImpl(this.bp, this.offset);

   int get x => const Int32Reader().vTableGet(bp, offset, 0, 0);

   int get y => const Int32Reader().vTableGet(bp, offset, 1, 0);
 }

 class TestPointReader extends TableReader<TestPointImpl> {
   const TestPointReader();

   @override
   TestPointImpl createObject(BufferContext object, int offset) {
     return new TestPointImpl(object, offset);
   }
 }
	// Copyright (c) 2016, 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:typed_data';

	import 'package:analyzer/src/summary/flat_buffers.dart';
	import 'package:test/test.dart';
	import 'package:test_reflective_loader/test_reflective_loader.dart';

	main() {
	defineReflectiveSuite(() {
	defineReflectiveTests(BuilderTest);
	});
	}

	@reflectiveTest
	class BuilderTest {
	void test_error_addInt32_withoutStartTable() {
	Builder builder = new Builder();
	expect(() {
	builder.addInt32(0, 0);
	}, throwsStateError);
	}

	void test_error_addOffset_withoutStartTable() {
	Builder builder = new Builder();
	expect(() {
	builder.addOffset(0, new Offset(0));
	}, throwsStateError);
	}

	void test_error_endTable_withoutStartTable() {
	Builder builder = new Builder();
	expect(() {
	builder.endTable();
	}, throwsStateError);
	}

	void test_error_startTable_duringTable() {
	Builder builder = new Builder();
	builder.startTable();
	expect(() {
	builder.startTable();
	}, throwsStateError);
	}

	void test_error_writeString_duringTable() {
	Builder builder = new Builder();
	builder.startTable();
	expect(() {
	builder.writeString('12345');
	}, throwsStateError);
	}

	void test_file_identifier() {
	Uint8List byteList;
	{
	Builder builder = new Builder(initialSize: 0);
	builder.startTable();
	Offset offset = builder.endTable();
	byteList = builder.finish(offset, 'Az~ÿ');
	}
	// Convert byteList to a ByteData so that we can read data from it.
	ByteData byteData = byteList.buffer.asByteData(byteList.offsetInBytes);
	// First 4 bytes are an offset to the table data.
	int tableDataLoc = byteData.getUint32(0, Endian.little);
	// Next 4 bytes are the file identifier.
	expect(byteData.getUint8(4), 65); // 'a'
	expect(byteData.getUint8(5), 122); // 'z'
	expect(byteData.getUint8(6), 126); // '~'
	expect(byteData.getUint8(7), 255); // 'ÿ'
	// First 4 bytes of the table data are a backwards offset to the vtable.
	int vTableLoc =
	tableDataLoc - byteData.getInt32(tableDataLoc, Endian.little);
	// First 2 bytes of the vtable are the size of the vtable in bytes, which
	// should be 4.
	expect(byteData.getUint16(vTableLoc, Endian.little), 4);
	// Next 2 bytes are the size of the object in bytes (including the vtable
	// pointer), which should be 4.
	expect(byteData.getUint16(vTableLoc + 2, Endian.little), 4);
	}

	void test_low() {
	Builder builder = new Builder(initialSize: 0);
	builder.lowReset();
	expect((builder..lowWriteUint8(1)).lowFinish(), [1]);
	expect((builder..lowWriteUint32(2)).lowFinish(), [2, 0, 0, 0, 0, 0, 0, 1]);
	expect((builder..lowWriteUint8(3)).lowFinish(),
	[0, 0, 0, 3, 2, 0, 0, 0, 0, 0, 0, 1]);
	expect((builder..lowWriteUint8(4)).lowFinish(),
	[0, 0, 4, 3, 2, 0, 0, 0, 0, 0, 0, 1]);
	expect((builder..lowWriteUint8(5)).lowFinish(),
	[0, 5, 4, 3, 2, 0, 0, 0, 0, 0, 0, 1]);
	expect((builder..lowWriteUint32(6)).lowFinish(),
	[6, 0, 0, 0, 0, 5, 4, 3, 2, 0, 0, 0, 0, 0, 0, 1]);
	}

	void test_table_default() {
	List<int> byteList;
	{
	Builder builder = new Builder(initialSize: 0);
	builder.startTable();
	builder.addInt32(0, 10, 10);
	builder.addInt32(1, 20, 10);
	Offset offset = builder.endTable();
	byteList = builder.finish(offset);
	}
	// read and verify
	BufferContext buffer = new BufferContext.fromBytes(byteList);
	int objectOffset = buffer.derefObject(0);
	// was not written, so uses the new default value
	expect(const Int32Reader().vTableGet(buffer, objectOffset, 0, 15), 15);
	// has the written value
	expect(const Int32Reader().vTableGet(buffer, objectOffset, 1, 15), 20);
	}

	void test_table_format() {
	Uint8List byteList;
	{
	Builder builder = new Builder(initialSize: 0);
	builder.startTable();
	builder.addInt32(0, 10);
	builder.addInt32(1, 20);
	builder.addInt32(2, 30);
	byteList = builder.finish(builder.endTable());
	}
	// Convert byteList to a ByteData so that we can read data from it.
	ByteData byteData = byteList.buffer.asByteData(byteList.offsetInBytes);
	// First 4 bytes are an offset to the table data.
	int tableDataLoc = byteData.getUint32(0, Endian.little);
	// First 4 bytes of the table data are a backwards offset to the vtable.
	int vTableLoc =
	tableDataLoc - byteData.getInt32(tableDataLoc, Endian.little);
	// First 2 bytes of the vtable are the size of the vtable in bytes, which
	// should be 10.
	expect(byteData.getUint16(vTableLoc, Endian.little), 10);
	// Next 2 bytes are the size of the object in bytes (including the vtable
	// pointer), which should be 16.
	expect(byteData.getUint16(vTableLoc + 2, Endian.little), 16);
	// Remaining 6 bytes are the offsets within the object where the ints are
	// located.
	for (int i = 0; i < 3; i++) {
	int offset = byteData.getUint16(vTableLoc + 4 + 2 * i, Endian.little);
	expect(
	byteData.getInt32(tableDataLoc + offset, Endian.little), 10 + 10 * i);
	}
	}

	void test_table_string() {
	String latinString = 'test';
	String unicodeString = 'Проба пера';
	List<int> byteList;
	{
	Builder builder = new Builder(initialSize: 0);
	Offset<String> latinStringOffset = builder.writeString(latinString);
	Offset<String> unicodeStringOffset = builder.writeString(unicodeString);
	builder.startTable();
	builder.addOffset(0, latinStringOffset);
	builder.addOffset(1, unicodeStringOffset);
	Offset offset = builder.endTable();
	byteList = builder.finish(offset);
	}
	// read and verify
	BufferContext buf = new BufferContext.fromBytes(byteList);
	int objectOffset = buf.derefObject(0);
	expect(const StringReader().vTableGet(buf, objectOffset, 0), latinString);
	expect(const StringReader().vTableGet(buf, objectOffset, 1), unicodeString);
	}

	void test_table_types() {
	List<int> byteList;
	{
	Builder builder = new Builder(initialSize: 0);
	Offset<String> stringOffset = builder.writeString('12345');
	builder.startTable();
	builder.addBool(0, true);
	builder.addInt8(1, 10);
	builder.addInt32(2, 20);
	builder.addOffset(3, stringOffset);
	builder.addInt32(4, 40);
	builder.addUint32(5, 0x9ABCDEF0);
	builder.addUint8(6, 0x9A);
	builder.addFloat64(7, -12.34);
	Offset offset = builder.endTable();
	byteList = builder.finish(offset);
	}
	// read and verify
	BufferContext buf = new BufferContext.fromBytes(byteList);
	int objectOffset = buf.derefObject(0);
	expect(const BoolReader().vTableGet(buf, objectOffset, 0), true);
	expect(const Int8Reader().vTableGet(buf, objectOffset, 1), 10);
	expect(const Int32Reader().vTableGet(buf, objectOffset, 2), 20);
	expect(const StringReader().vTableGet(buf, objectOffset, 3), '12345');
	expect(const Int32Reader().vTableGet(buf, objectOffset, 4), 40);
	expect(const Uint32Reader().vTableGet(buf, objectOffset, 5), 0x9ABCDEF0);
	expect(const Uint8Reader().vTableGet(buf, objectOffset, 6), 0x9A);
	expect(const Float64Reader().vTableGet(buf, objectOffset, 7), -12.34);
	}

	void test_writeList_of_Uint32() {
	List<int> values = <int>[10, 100, 12345, 0x9abcdef0];
	// write
	List<int> byteList;
	{
	Builder builder = new Builder(initialSize: 0);
	Offset offset = builder.writeListUint32(values);
	byteList = builder.finish(offset);
	}
	// read and verify
	BufferContext buf = new BufferContext.fromBytes(byteList);
	List<int> items = const Uint32ListReader().read(buf, 0);
	expect(items, hasLength(4));
	expect(items, orderedEquals(values));
	}

	void test_writeList_ofBool() {
	void verifyListBooleans(int len, List<int> trueBits) {
	// write
	List<int> byteList;
	{
	Builder builder = new Builder(initialSize: 0);
	List<bool> values = new List<bool>.filled(len, false);
	for (int bit in trueBits) {
	values[bit] = true;
	}
	Offset offset = builder.writeListBool(values);
	byteList = builder.finish(offset);
	}
	// read and verify
	BufferContext buf = new BufferContext.fromBytes(byteList);
	List<bool> items = const BoolListReader().read(buf, 0);
	expect(items, hasLength(len));
	for (int i = 0; i < items.length; i++) {
	expect(items[i], trueBits.contains(i), reason: 'bit $i of $len');
	}
	}

	verifyListBooleans(0, <int>[]);
	verifyListBooleans(1, <int>[]);
	verifyListBooleans(1, <int>[0]);
	verifyListBooleans(31, <int>[0, 1]);
	verifyListBooleans(31, <int>[1, 2, 24, 25, 30]);
	verifyListBooleans(31, <int>[0, 30]);
	verifyListBooleans(32, <int>[1, 2, 24, 25, 31]);
	verifyListBooleans(33, <int>[1, 2, 24, 25, 32]);
	verifyListBooleans(33, <int>[1, 2, 24, 25, 31, 32]);
	verifyListBooleans(63, <int>[]);
	verifyListBooleans(63, <int>[0, 1, 2, 61, 62]);
	verifyListBooleans(63, new List<int>.generate(63, (i) => i));
	verifyListBooleans(64, <int>[]);
	verifyListBooleans(64, <int>[0, 1, 2, 61, 62, 63]);
	verifyListBooleans(64, <int>[1, 2, 62]);
	verifyListBooleans(64, <int>[0, 1, 2, 63]);
	verifyListBooleans(64, new List<int>.generate(64, (i) => i));
	verifyListBooleans(100, <int>[0, 3, 30, 60, 90, 99]);
	}

	void test_writeList_ofFloat64() {
	List<double> values = <double>[-1.234567, 3.4E+9, -5.6E-13, 7.8, 12.13];
	// write
	List<int> byteList;
	{
	Builder builder = new Builder(initialSize: 0);
	Offset offset = builder.writeListFloat64(values);
	byteList = builder.finish(offset);
	}
	// read and verify
	BufferContext buf = new BufferContext.fromBytes(byteList);
	List<double> items = const Float64ListReader().read(buf, 0);
	expect(items, hasLength(5));
	expect(items, orderedEquals(values));
	}

	void test_writeList_ofInt32() {
	List<int> byteList;
	{
	Builder builder = new Builder(initialSize: 0);
	Offset offset = builder.writeListInt32(<int>[1, 2, 3, 4, 5]);
	byteList = builder.finish(offset);
	}
	// read and verify
	BufferContext buf = new BufferContext.fromBytes(byteList);
	List<int> items = const ListReader<int>(const Int32Reader()).read(buf, 0);
	expect(items, hasLength(5));
	expect(items, orderedEquals(<int>[1, 2, 3, 4, 5]));
	}

	void test_writeList_ofObjects() {
	List<int> byteList;
	{
	Builder builder = new Builder(initialSize: 0);
	// write the object #1
	Offset object1;
	{
	builder.startTable();
	builder.addInt32(0, 10);
	builder.addInt32(1, 20);
	object1 = builder.endTable();
	}
	// write the object #1
	Offset object2;
	{
	builder.startTable();
	builder.addInt32(0, 100);
	builder.addInt32(1, 200);
	object2 = builder.endTable();
	}
	// write the list
	Offset offset = builder.writeList([object1, object2]);
	byteList = builder.finish(offset);
	}
	// read and verify
	BufferContext buf = new BufferContext.fromBytes(byteList);
	List<TestPointImpl> items =
	const ListReader<TestPointImpl>(const TestPointReader()).read(buf, 0);
	expect(items, hasLength(2));
	expect(items[0].x, 10);
	expect(items[0].y, 20);
	expect(items[1].x, 100);
	expect(items[1].y, 200);
	}

	void test_writeList_ofStrings_asRoot() {
	List<int> byteList;
	{
	Builder builder = new Builder(initialSize: 0);
	Offset<String> str1 = builder.writeString('12345');
	Offset<String> str2 = builder.writeString('ABC');
	Offset offset = builder.writeList([str1, str2]);
	byteList = builder.finish(offset);
	}
	// read and verify
	BufferContext buf = new BufferContext.fromBytes(byteList);
	List<String> items =
	const ListReader<String>(const StringReader()).read(buf, 0);
	expect(items, hasLength(2));
	expect(items, contains('12345'));
	expect(items, contains('ABC'));
	}

	void test_writeList_ofStrings_inObject() {
	List<int> byteList;
	{
	Builder builder = new Builder(initialSize: 0);
	Offset listOffset = builder.writeList(
	[builder.writeString('12345'), builder.writeString('ABC')]);
	builder.startTable();
	builder.addOffset(0, listOffset);
	Offset offset = builder.endTable();
	byteList = builder.finish(offset);
	}
	// read and verify
	BufferContext buf = new BufferContext.fromBytes(byteList);
	StringListWrapperImpl reader = new StringListWrapperReader().read(buf, 0);
	List<String> items = reader.items;
	expect(items, hasLength(2));
	expect(items, contains('12345'));
	expect(items, contains('ABC'));
	}

	void test_writeList_ofUint32() {
	List<int> byteList;
	{
	Builder builder = new Builder(initialSize: 0);
	Offset offset = builder.writeListUint32(<int>[1, 2, 0x9ABCDEF0]);
	byteList = builder.finish(offset);
	}
	// read and verify
	BufferContext buf = new BufferContext.fromBytes(byteList);
	List<int> items = const Uint32ListReader().read(buf, 0);
	expect(items, hasLength(3));
	expect(items, orderedEquals(<int>[1, 2, 0x9ABCDEF0]));
	}

	void test_writeList_ofUint8() {
	List<int> byteList;
	{
	Builder builder = new Builder(initialSize: 0);
	Offset offset = builder.writeListUint8(<int>[1, 2, 3, 4, 0x9A]);
	byteList = builder.finish(offset);
	}
	// read and verify
	BufferContext buf = new BufferContext.fromBytes(byteList);
	List<int> items = const Uint8ListReader().read(buf, 0);
	expect(items, hasLength(5));
	expect(items, orderedEquals(<int>[1, 2, 3, 4, 0x9A]));
	}
	}

	class StringListWrapperImpl {
	final BufferContext bp;
	final int offset;

	StringListWrapperImpl(this.bp, this.offset);

	List<String> get items =>
	const ListReader<String>(const StringReader()).vTableGet(bp, offset, 0);
	}

	class StringListWrapperReader extends TableReader<StringListWrapperImpl> {
	const StringListWrapperReader();

	@override
	StringListWrapperImpl createObject(BufferContext object, int offset) {
	return new StringListWrapperImpl(object, offset);
	}
	}

	class TestPointImpl {
	final BufferContext bp;
	final int offset;

	TestPointImpl(this.bp, this.offset);

	int get x => const Int32Reader().vTableGet(bp, offset, 0, 0);

	int get y => const Int32Reader().vTableGet(bp, offset, 1, 0);
	}

	class TestPointReader extends TableReader<TestPointImpl> {
	const TestPointReader();

	@override
	TestPointImpl createObject(BufferContext object, int offset) {
	return new TestPointImpl(object, offset);
	}
	}