tests/ffi/external_typed_data_test.dart - sdk.git - Git at Google

 // 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:ffi';
 import 'dart:math';
 import 'dart:typed_data';

 import 'package:expect/expect.dart';
 import "package:ffi/ffi.dart";

 main() {
   testInt8Load();
   testInt8Store();
   testUint8Load();
   testUint8Store();
   testInt16Load();
   testInt16Store();
   testUint16Load();
   testUint16Store();
   testInt32Load();
   testInt32Store();
   testUint32Load();
   testUint32Store();
   testInt64Load();
   testInt64Store();
   testUint64Load();
   testUint64Store();
   testFloatLoad();
   testFloatStore();
   testDoubleLoad();
   testDoubleStore();
   testArrayLoad();
   testArrayStore();
   testNegativeArray();
   testAlignment();
 }

 // For signed int tests, we store 0xf* and load -1 to check sign-extension.
 // For unsigned int tests, we store 0xf* and load the same to check truncation.

 void testInt8Load() {
   // Load
   Pointer<Int8> ptr = calloc();
   ptr.value = 0xff;
   Int8List list = ptr.asTypedList(1);
   Expect.equals(list[0], -1);
   Expect.equals(list.length, 1);
   calloc.free(ptr);
 }

 void testInt8Store() {
   // Store
   Pointer<Int8> ptr = calloc();
   Int8List list = ptr.asTypedList(1);
   list[0] = 0xff;
   Expect.equals(list.length, 1);
   Expect.equals(ptr.value, -1);
   calloc.free(ptr);
 }

 void testUint8Load() {
   // Load
   Pointer<Uint8> ptr = calloc();
   ptr.value = 0xff;
   Uint8List list = ptr.asTypedList(1);
   Expect.equals(list[0], 0xff);
   Expect.equals(list.length, 1);
   calloc.free(ptr);
 }

 void testUint8Store() {
   // Store
   Pointer<Uint8> ptr = calloc();
   Uint8List list = ptr.asTypedList(1);
   list[0] = 0xff;
   Expect.equals(list.length, 1);
   Expect.equals(ptr.value, 0xff);
   calloc.free(ptr);
 }

 void testInt16Load() {
   // Load
   Pointer<Int16> ptr = calloc();
   ptr.value = 0xffff;
   Int16List list = ptr.asTypedList(1);
   Expect.equals(list[0], -1);
   Expect.equals(list.length, 1);
   calloc.free(ptr);
 }

 void testInt16Store() {
   // Store
   Pointer<Int16> ptr = calloc();
   Int16List list = ptr.asTypedList(1);
   list[0] = 0xffff;
   Expect.equals(list.length, 1);
   Expect.equals(ptr.value, -1);
   calloc.free(ptr);
 }

 void testUint16Load() {
   // Load
   Pointer<Uint16> ptr = calloc();
   ptr.value = 0xffff;
   Uint16List list = ptr.asTypedList(1);
   Expect.equals(list[0], 0xffff);
   Expect.equals(list.length, 1);
   calloc.free(ptr);
 }

 void testUint16Store() {
   // Store
   Pointer<Uint16> ptr = calloc();
   Uint16List list = ptr.asTypedList(1);
   list[0] = 0xffff;
   Expect.equals(list.length, 1);
   Expect.equals(ptr.value, 0xffff);
   calloc.free(ptr);
 }

 void testInt32Load() {
   // Load
   Pointer<Int32> ptr = calloc();
   ptr.value = 0xffffffff;
   Int32List list = ptr.asTypedList(1);
   Expect.equals(list[0], -1);
   Expect.equals(list.length, 1);
   calloc.free(ptr);
 }

 void testInt32Store() {
   // Store
   Pointer<Int32> ptr = calloc();
   Int32List list = ptr.asTypedList(1);
   list[0] = 0xffffffff;
   Expect.equals(list.length, 1);
   Expect.equals(ptr.value, -1);
   calloc.free(ptr);
 }

 void testUint32Load() {
   // Load
   Pointer<Uint32> ptr = calloc();
   ptr.value = 0xffffffff;
   Uint32List list = ptr.asTypedList(1);
   Expect.equals(list[0], 0xffffffff);
   Expect.equals(list.length, 1);
   calloc.free(ptr);
 }

 void testUint32Store() {
   // Store
   Pointer<Uint32> ptr = calloc();
   Uint32List list = ptr.asTypedList(1);
   list[0] = 0xffffffff;
   Expect.equals(list.length, 1);
   Expect.equals(ptr.value, 0xffffffff);
   calloc.free(ptr);
 }

 void testInt64Load() {
   // Load
   Pointer<Int64> ptr = calloc();
   ptr.value = 0xffffffffffffffff;
   Int64List list = ptr.asTypedList(1);
   Expect.equals(list[0], -1);
   Expect.equals(list.length, 1);
   calloc.free(ptr);
 }

 void testInt64Store() {
   // Store
   Pointer<Int64> ptr = calloc();
   Int64List list = ptr.asTypedList(1);
   list[0] = 0xffffffffffffffff;
   Expect.equals(list.length, 1);
   Expect.equals(ptr.value, -1);
   calloc.free(ptr);
 }

 void testUint64Load() {
   // Load
   Pointer<Uint64> ptr = calloc();
   ptr.value = 0xffffffffffffffff;
   Uint64List list = ptr.asTypedList(1);
   Expect.equals(list[0], 0xffffffffffffffff);
   Expect.equals(list.length, 1);
   calloc.free(ptr);
 }

 void testUint64Store() {
   // Store
   Pointer<Uint64> ptr = calloc();
   Uint64List list = ptr.asTypedList(1);
   list[0] = 0xffffffffffffffff;
   Expect.equals(list.length, 1);
   Expect.equals(ptr.value, 0xffffffffffffffff);
   calloc.free(ptr);
 }

 double maxFloat = (2 - pow(2, -23)) * pow(2, 127) as double;
 double maxDouble = (2 - pow(2, -52)) * pow(2, pow(2, 10) - 1) as double;

 void testFloatLoad() {
   // Load
   Pointer<Float> ptr = calloc();
   ptr.value = maxFloat;
   Float32List list = ptr.asTypedList(1);
   Expect.equals(list[0], maxFloat);
   Expect.equals(list.length, 1);
   calloc.free(ptr);
 }

 void testFloatStore() {
   // Store
   Pointer<Float> ptr = calloc();
   Float32List list = ptr.asTypedList(1);
   list[0] = maxFloat;
   Expect.equals(list.length, 1);
   Expect.equals(ptr.value, maxFloat);
   calloc.free(ptr);
 }

 void testDoubleLoad() {
   // Load
   Pointer<Double> ptr = calloc();
   ptr.value = maxDouble;
   Float64List list = ptr.asTypedList(1);
   Expect.equals(list[0], maxDouble);
   Expect.equals(list.length, 1);
   calloc.free(ptr);
 }

 void testDoubleStore() {
   // Store
   Pointer<Double> ptr = calloc();
   Float64List list = ptr.asTypedList(1);
   list[0] = maxDouble;
   Expect.equals(list.length, 1);
   Expect.equals(ptr.value, maxDouble);
   calloc.free(ptr);
 }

 void testArrayLoad() {
   const int count = 0x100;
   Pointer<Int32> ptr = calloc(count);
   for (int i = 0; i < count; ++i) {
     ptr[i] = i;
   }
   Int32List array = ptr.asTypedList(count);
   for (int i = 0; i < count; ++i) {
     Expect.equals(array[i], i);
   }
   calloc.free(ptr);
 }

 void testArrayStore() {
   const int count = 0x100;
   Pointer<Int32> ptr = calloc(count);
   Int32List array = ptr.asTypedList(count);
   for (int i = 0; i < count; ++i) {
     array[i] = i;
   }
   for (int i = 0; i < count; ++i) {
     Expect.equals(ptr[i], i);
   }
   calloc.free(ptr);
 }

 void testNegativeArray() {
   Pointer<Int32> ptr = nullptr;
   Expect.throws<ArgumentError>(() => ptr.asTypedList(-1));
 }

 // Tests that the address we're creating an ExternalTypedData from is aligned to
 // the element size.
 void testAlignment() {
   Expect.throws<ArgumentError>(
       () => Pointer<Int16>.fromAddress(1).asTypedList(1));
   Expect.throws<ArgumentError>(
       () => Pointer<Int32>.fromAddress(2).asTypedList(1));
   Expect.throws<ArgumentError>(
       () => Pointer<Int64>.fromAddress(4).asTypedList(1));
   Expect.throws<ArgumentError>(
       () => Pointer<Uint16>.fromAddress(1).asTypedList(1));
   Expect.throws<ArgumentError>(
       () => Pointer<Uint32>.fromAddress(2).asTypedList(1));
   Expect.throws<ArgumentError>(
       () => Pointer<Uint64>.fromAddress(4).asTypedList(1));
   Expect.throws<ArgumentError>(
       () => Pointer<Float>.fromAddress(2).asTypedList(1));
   Expect.throws<ArgumentError>(
       () => Pointer<Double>.fromAddress(4).asTypedList(1));
 }
	// 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:ffi';
	import 'dart:math';
	import 'dart:typed_data';

	import 'package:expect/expect.dart';
	import "package:ffi/ffi.dart";

	main() {
	testInt8Load();
	testInt8Store();
	testUint8Load();
	testUint8Store();
	testInt16Load();
	testInt16Store();
	testUint16Load();
	testUint16Store();
	testInt32Load();
	testInt32Store();
	testUint32Load();
	testUint32Store();
	testInt64Load();
	testInt64Store();
	testUint64Load();
	testUint64Store();
	testFloatLoad();
	testFloatStore();
	testDoubleLoad();
	testDoubleStore();
	testArrayLoad();
	testArrayStore();
	testNegativeArray();
	testAlignment();
	}

	// For signed int tests, we store 0xf* and load -1 to check sign-extension.
	// For unsigned int tests, we store 0xf* and load the same to check truncation.

	void testInt8Load() {
	// Load
	Pointer<Int8> ptr = calloc();
	ptr.value = 0xff;
	Int8List list = ptr.asTypedList(1);
	Expect.equals(list[0], -1);
	Expect.equals(list.length, 1);
	calloc.free(ptr);
	}

	void testInt8Store() {
	// Store
	Pointer<Int8> ptr = calloc();
	Int8List list = ptr.asTypedList(1);
	list[0] = 0xff;
	Expect.equals(list.length, 1);
	Expect.equals(ptr.value, -1);
	calloc.free(ptr);
	}

	void testUint8Load() {
	// Load
	Pointer<Uint8> ptr = calloc();
	ptr.value = 0xff;
	Uint8List list = ptr.asTypedList(1);
	Expect.equals(list[0], 0xff);
	Expect.equals(list.length, 1);
	calloc.free(ptr);
	}

	void testUint8Store() {
	// Store
	Pointer<Uint8> ptr = calloc();
	Uint8List list = ptr.asTypedList(1);
	list[0] = 0xff;
	Expect.equals(list.length, 1);
	Expect.equals(ptr.value, 0xff);
	calloc.free(ptr);
	}

	void testInt16Load() {
	// Load
	Pointer<Int16> ptr = calloc();
	ptr.value = 0xffff;
	Int16List list = ptr.asTypedList(1);
	Expect.equals(list[0], -1);
	Expect.equals(list.length, 1);
	calloc.free(ptr);
	}

	void testInt16Store() {
	// Store
	Pointer<Int16> ptr = calloc();
	Int16List list = ptr.asTypedList(1);
	list[0] = 0xffff;
	Expect.equals(list.length, 1);
	Expect.equals(ptr.value, -1);
	calloc.free(ptr);
	}

	void testUint16Load() {
	// Load
	Pointer<Uint16> ptr = calloc();
	ptr.value = 0xffff;
	Uint16List list = ptr.asTypedList(1);
	Expect.equals(list[0], 0xffff);
	Expect.equals(list.length, 1);
	calloc.free(ptr);
	}

	void testUint16Store() {
	// Store
	Pointer<Uint16> ptr = calloc();
	Uint16List list = ptr.asTypedList(1);
	list[0] = 0xffff;
	Expect.equals(list.length, 1);
	Expect.equals(ptr.value, 0xffff);
	calloc.free(ptr);
	}

	void testInt32Load() {
	// Load
	Pointer<Int32> ptr = calloc();
	ptr.value = 0xffffffff;
	Int32List list = ptr.asTypedList(1);
	Expect.equals(list[0], -1);
	Expect.equals(list.length, 1);
	calloc.free(ptr);
	}

	void testInt32Store() {
	// Store
	Pointer<Int32> ptr = calloc();
	Int32List list = ptr.asTypedList(1);
	list[0] = 0xffffffff;
	Expect.equals(list.length, 1);
	Expect.equals(ptr.value, -1);
	calloc.free(ptr);
	}

	void testUint32Load() {
	// Load
	Pointer<Uint32> ptr = calloc();
	ptr.value = 0xffffffff;
	Uint32List list = ptr.asTypedList(1);
	Expect.equals(list[0], 0xffffffff);
	Expect.equals(list.length, 1);
	calloc.free(ptr);
	}

	void testUint32Store() {
	// Store
	Pointer<Uint32> ptr = calloc();
	Uint32List list = ptr.asTypedList(1);
	list[0] = 0xffffffff;
	Expect.equals(list.length, 1);
	Expect.equals(ptr.value, 0xffffffff);
	calloc.free(ptr);
	}

	void testInt64Load() {
	// Load
	Pointer<Int64> ptr = calloc();
	ptr.value = 0xffffffffffffffff;
	Int64List list = ptr.asTypedList(1);
	Expect.equals(list[0], -1);
	Expect.equals(list.length, 1);
	calloc.free(ptr);
	}

	void testInt64Store() {
	// Store
	Pointer<Int64> ptr = calloc();
	Int64List list = ptr.asTypedList(1);
	list[0] = 0xffffffffffffffff;
	Expect.equals(list.length, 1);
	Expect.equals(ptr.value, -1);
	calloc.free(ptr);
	}

	void testUint64Load() {
	// Load
	Pointer<Uint64> ptr = calloc();
	ptr.value = 0xffffffffffffffff;
	Uint64List list = ptr.asTypedList(1);
	Expect.equals(list[0], 0xffffffffffffffff);
	Expect.equals(list.length, 1);
	calloc.free(ptr);
	}

	void testUint64Store() {
	// Store
	Pointer<Uint64> ptr = calloc();
	Uint64List list = ptr.asTypedList(1);
	list[0] = 0xffffffffffffffff;
	Expect.equals(list.length, 1);
	Expect.equals(ptr.value, 0xffffffffffffffff);
	calloc.free(ptr);
	}

	double maxFloat = (2 - pow(2, -23)) * pow(2, 127) as double;
	double maxDouble = (2 - pow(2, -52)) * pow(2, pow(2, 10) - 1) as double;

	void testFloatLoad() {
	// Load
	Pointer<Float> ptr = calloc();
	ptr.value = maxFloat;
	Float32List list = ptr.asTypedList(1);
	Expect.equals(list[0], maxFloat);
	Expect.equals(list.length, 1);
	calloc.free(ptr);
	}

	void testFloatStore() {
	// Store
	Pointer<Float> ptr = calloc();
	Float32List list = ptr.asTypedList(1);
	list[0] = maxFloat;
	Expect.equals(list.length, 1);
	Expect.equals(ptr.value, maxFloat);
	calloc.free(ptr);
	}

	void testDoubleLoad() {
	// Load
	Pointer<Double> ptr = calloc();
	ptr.value = maxDouble;
	Float64List list = ptr.asTypedList(1);
	Expect.equals(list[0], maxDouble);
	Expect.equals(list.length, 1);
	calloc.free(ptr);
	}

	void testDoubleStore() {
	// Store
	Pointer<Double> ptr = calloc();
	Float64List list = ptr.asTypedList(1);
	list[0] = maxDouble;
	Expect.equals(list.length, 1);
	Expect.equals(ptr.value, maxDouble);
	calloc.free(ptr);
	}

	void testArrayLoad() {
	const int count = 0x100;
	Pointer<Int32> ptr = calloc(count);
	for (int i = 0; i < count; ++i) {
	ptr[i] = i;
	}
	Int32List array = ptr.asTypedList(count);
	for (int i = 0; i < count; ++i) {
	Expect.equals(array[i], i);
	}
	calloc.free(ptr);
	}

	void testArrayStore() {
	const int count = 0x100;
	Pointer<Int32> ptr = calloc(count);
	Int32List array = ptr.asTypedList(count);
	for (int i = 0; i < count; ++i) {
	array[i] = i;
	}
	for (int i = 0; i < count; ++i) {
	Expect.equals(ptr[i], i);
	}
	calloc.free(ptr);
	}

	void testNegativeArray() {
	Pointer<Int32> ptr = nullptr;
	Expect.throws<ArgumentError>(() => ptr.asTypedList(-1));
	}

	// Tests that the address we're creating an ExternalTypedData from is aligned to
	// the element size.
	void testAlignment() {
	Expect.throws<ArgumentError>(
	() => Pointer<Int16>.fromAddress(1).asTypedList(1));
	Expect.throws<ArgumentError>(
	() => Pointer<Int32>.fromAddress(2).asTypedList(1));
	Expect.throws<ArgumentError>(
	() => Pointer<Int64>.fromAddress(4).asTypedList(1));
	Expect.throws<ArgumentError>(
	() => Pointer<Uint16>.fromAddress(1).asTypedList(1));
	Expect.throws<ArgumentError>(
	() => Pointer<Uint32>.fromAddress(2).asTypedList(1));
	Expect.throws<ArgumentError>(
	() => Pointer<Uint64>.fromAddress(4).asTypedList(1));
	Expect.throws<ArgumentError>(
	() => Pointer<Float>.fromAddress(2).asTypedList(1));
	Expect.throws<ArgumentError>(
	() => Pointer<Double>.fromAddress(4).asTypedList(1));
	}