samples/ffi/sample_ffi_data.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 'package:ffi/ffi.dart';

 main() {
   print('start main');

   {
     // Basic operation: allocate, get, set, and free.
     Pointer<Int64> p = calloc();
     p.value = 42;
     int pValue = p.value;
     print('${p.runtimeType} value: ${pValue}');
     calloc.free(p);
   }

   {
     // Undefined behavior before set.
     Pointer<Int64> p = calloc();
     int pValue = p.value;
     print('If not set, returns garbage: ${pValue}');
     calloc.free(p);
   }

   {
     // Pointers can be created from an address.
     Pointer<Int64> pHelper = calloc();
     pHelper.value = 1337;

     int address = pHelper.address;
     print('Address: ${address}');

     Pointer<Int64> p = Pointer.fromAddress(address);
     print('${p.runtimeType} value: ${p.value}');

     calloc.free(pHelper);
   }

   {
     // Address is zeroed out after free.
     Pointer<Int64> p = calloc();
     calloc.free(p);
     print('After free, address is zero: ${p.address}');
   }

   {
     // Allocating too much throws an exception.
     try {
       int maxMint = 9223372036854775807; // 2^63 - 1
       calloc<Int64>(maxMint);
     } on Error {
       print('Expected exception on allocating too much');
     }
     try {
       int maxInt1_8 = 1152921504606846975; // 2^60 -1
       calloc<Int64>(maxInt1_8);
     } on Error {
       print('Expected exception on allocating too much');
     }
   }

   {
     // Pointers can be cast into another type,
     // resulting in the corresponding bits read.
     Pointer<Int64> p1 = calloc();
     p1.value = 9223372036854775807; // 2^63 - 1

     Pointer<Int32> p2 = p1.cast();
     print('${p2.runtimeType} value: ${p2.value}'); // -1

     Pointer<Int32> p3 = p2.elementAt(1);
     print('${p3.runtimeType} value: ${p3.value}'); // 2^31 - 1

     calloc.free(p1);
   }

   {
     // Data can be tightly packed in memory.
     Pointer<Int8> p = calloc(8);
     for (var i in [0, 1, 2, 3, 4, 5, 6, 7]) {
       p.elementAt(i).value = i * 3;
     }
     for (var i in [0, 1, 2, 3, 4, 5, 6, 7]) {
       print('p.elementAt($i) value: ${p.elementAt(i).value}');
     }
     calloc.free(p);
   }

   {
     // Values that don't fit are truncated.
     Pointer<Int32> p11 = calloc();

     p11.value = 9223372036854775807;

     print(p11);

     calloc.free(p11);
   }

   {
     // Doubles.
     Pointer<Double> p = calloc();
     p.value = 3.14159265359;
     print('${p.runtimeType} value: ${p.value}');
     p.value = 3.14;
     print('${p.runtimeType} value: ${p.value}');
     calloc.free(p);
   }

   {
     // Floats.
     Pointer<Float> p = calloc();
     p.value = 3.14159265359;
     print('${p.runtimeType} value: ${p.value}');
     p.value = 3.14;
     print('${p.runtimeType} value: ${p.value}');
     calloc.free(p);
   }

   {
     // IntPtr varies in size based on whether the platform is 32 or 64 bit.
     // Addresses of pointers fit in this size.
     Pointer<IntPtr> p = calloc();
     int p14addr = p.address;
     p.value = p14addr;
     int pValue = p.value;
     print('${p.runtimeType} value: ${pValue}');
     calloc.free(p);
   }

   {
     // Void pointers are unsized.
     // The size of the element it is pointing to is undefined,
     // they cannot be allocated, read, or written.

     Pointer<IntPtr> p1 = calloc();
     Pointer<Void> p2 = p1.cast();
     print('${p2.runtimeType} address: ${p2.address}');

     calloc.free(p1);
   }

   {
     // Pointer to a pointer to something.
     Pointer<Int16> pHelper = calloc();
     pHelper.value = 17;

     Pointer<Pointer<Int16>> p = calloc();

     // Storing into a pointer pointer automatically unboxes.
     p.value = pHelper;

     // Reading from a pointer pointer automatically boxes.
     Pointer<Int16> pHelper2 = p.value;
     print('${pHelper2.runtimeType} value: ${pHelper2.value}');

     int pValue = p.value.value;
     print('${p.runtimeType} value\'s value: ${pValue}');

     calloc.free(p);
     calloc.free(pHelper);
   }

   {
     // The pointer to pointer types must match up.
     Pointer<Int8> pHelper = calloc();
     pHelper.value = 123;

     Pointer<Pointer<Int16>> p = calloc();

     // Trying to store `pHelper` into `p.val` would result in a type mismatch.

     calloc.free(pHelper);
     calloc.free(p);
   }

   {
     // `nullptr` points to address 0 in c++.
     Pointer<Pointer<Int8>> pointerToPointer = calloc();
     Pointer<Int8> value = nullptr;
     pointerToPointer.value = value;
     value = pointerToPointer.value;
     print("Loading a pointer to the 0 address is null: ${value}");
     calloc.free(pointerToPointer);
   }

   {
     // The toplevel function sizeOf returns element size in bytes.
     print('sizeOf<Double>(): ${sizeOf<Double>()}');
     print('sizeOf<Int16>(): ${sizeOf<Int16>()}');
     print('sizeOf<IntPtr>(): ${sizeOf<IntPtr>()}');
   }

   {
     // With IntPtr pointers, one could manually setup aribtrary data
     // structres in C memory.
     //
     // However, it is advised to use Pointer<Pointer<...>> for that.

     void createChain(Pointer<IntPtr> head, int length, int value) {
       if (length == 0) {
         head.value = value;
         return;
       }
       Pointer<IntPtr> next = calloc<IntPtr>();
       head.value = next.address;
       createChain(next, length - 1, value);
     }

     int getChainValue(Pointer<IntPtr> head, int length) {
       if (length == 0) {
         return head.value;
       }
       Pointer<IntPtr> next = Pointer.fromAddress(head.value);
       return getChainValue(next, length - 1);
     }

     void freeChain(Pointer<IntPtr> head, int length) {
       Pointer<IntPtr> next = Pointer.fromAddress(head.value);
       calloc.free(head);
       if (length == 0) {
         return;
       }
       freeChain(next, length - 1);
     }

     int length = 10;
     Pointer<IntPtr> head = calloc();
     createChain(head, length, 512);
     int tailValue = getChainValue(head, length);
     print('tailValue: ${tailValue}');
     freeChain(head, length);
   }

   print("end main");
 }
	// 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 'package:ffi/ffi.dart';

	main() {
	print('start main');

	{
	// Basic operation: allocate, get, set, and free.
	Pointer<Int64> p = calloc();
	p.value = 42;
	int pValue = p.value;
	print('${p.runtimeType} value: ${pValue}');
	calloc.free(p);
	}

	{
	// Undefined behavior before set.
	Pointer<Int64> p = calloc();
	int pValue = p.value;
	print('If not set, returns garbage: ${pValue}');
	calloc.free(p);
	}

	{
	// Pointers can be created from an address.
	Pointer<Int64> pHelper = calloc();
	pHelper.value = 1337;

	int address = pHelper.address;
	print('Address: ${address}');

	Pointer<Int64> p = Pointer.fromAddress(address);
	print('${p.runtimeType} value: ${p.value}');

	calloc.free(pHelper);
	}

	{
	// Address is zeroed out after free.
	Pointer<Int64> p = calloc();
	calloc.free(p);
	print('After free, address is zero: ${p.address}');
	}

	{
	// Allocating too much throws an exception.
	try {
	int maxMint = 9223372036854775807; // 2^63 - 1
	calloc<Int64>(maxMint);
	} on Error {
	print('Expected exception on allocating too much');
	}
	try {
	int maxInt1_8 = 1152921504606846975; // 2^60 -1
	calloc<Int64>(maxInt1_8);
	} on Error {
	print('Expected exception on allocating too much');
	}
	}

	{
	// Pointers can be cast into another type,
	// resulting in the corresponding bits read.
	Pointer<Int64> p1 = calloc();
	p1.value = 9223372036854775807; // 2^63 - 1

	Pointer<Int32> p2 = p1.cast();
	print('${p2.runtimeType} value: ${p2.value}'); // -1

	Pointer<Int32> p3 = p2.elementAt(1);
	print('${p3.runtimeType} value: ${p3.value}'); // 2^31 - 1

	calloc.free(p1);
	}

	{
	// Data can be tightly packed in memory.
	Pointer<Int8> p = calloc(8);
	for (var i in [0, 1, 2, 3, 4, 5, 6, 7]) {
	p.elementAt(i).value = i * 3;
	}
	for (var i in [0, 1, 2, 3, 4, 5, 6, 7]) {
	print('p.elementAt($i) value: ${p.elementAt(i).value}');
	}
	calloc.free(p);
	}

	{
	// Values that don't fit are truncated.
	Pointer<Int32> p11 = calloc();

	p11.value = 9223372036854775807;

	print(p11);

	calloc.free(p11);
	}

	{
	// Doubles.
	Pointer<Double> p = calloc();
	p.value = 3.14159265359;
	print('${p.runtimeType} value: ${p.value}');
	p.value = 3.14;
	print('${p.runtimeType} value: ${p.value}');
	calloc.free(p);
	}

	{
	// Floats.
	Pointer<Float> p = calloc();
	p.value = 3.14159265359;
	print('${p.runtimeType} value: ${p.value}');
	p.value = 3.14;
	print('${p.runtimeType} value: ${p.value}');
	calloc.free(p);
	}

	{
	// IntPtr varies in size based on whether the platform is 32 or 64 bit.
	// Addresses of pointers fit in this size.
	Pointer<IntPtr> p = calloc();
	int p14addr = p.address;
	p.value = p14addr;
	int pValue = p.value;
	print('${p.runtimeType} value: ${pValue}');
	calloc.free(p);
	}

	{
	// Void pointers are unsized.
	// The size of the element it is pointing to is undefined,
	// they cannot be allocated, read, or written.

	Pointer<IntPtr> p1 = calloc();
	Pointer<Void> p2 = p1.cast();
	print('${p2.runtimeType} address: ${p2.address}');

	calloc.free(p1);
	}

	{
	// Pointer to a pointer to something.
	Pointer<Int16> pHelper = calloc();
	pHelper.value = 17;

	Pointer<Pointer<Int16>> p = calloc();

	// Storing into a pointer pointer automatically unboxes.
	p.value = pHelper;

	// Reading from a pointer pointer automatically boxes.
	Pointer<Int16> pHelper2 = p.value;
	print('${pHelper2.runtimeType} value: ${pHelper2.value}');

	int pValue = p.value.value;
	print('${p.runtimeType} value\'s value: ${pValue}');

	calloc.free(p);
	calloc.free(pHelper);
	}

	{
	// The pointer to pointer types must match up.
	Pointer<Int8> pHelper = calloc();
	pHelper.value = 123;

	Pointer<Pointer<Int16>> p = calloc();

	// Trying to store `pHelper` into `p.val` would result in a type mismatch.

	calloc.free(pHelper);
	calloc.free(p);
	}

	{
	// `nullptr` points to address 0 in c++.
	Pointer<Pointer<Int8>> pointerToPointer = calloc();
	Pointer<Int8> value = nullptr;
	pointerToPointer.value = value;
	value = pointerToPointer.value;
	print("Loading a pointer to the 0 address is null: ${value}");
	calloc.free(pointerToPointer);
	}

	{
	// The toplevel function sizeOf returns element size in bytes.
	print('sizeOf<Double>(): ${sizeOf<Double>()}');
	print('sizeOf<Int16>(): ${sizeOf<Int16>()}');
	print('sizeOf<IntPtr>(): ${sizeOf<IntPtr>()}');
	}

	{
	// With IntPtr pointers, one could manually setup aribtrary data
	// structres in C memory.
	//
	// However, it is advised to use Pointer<Pointer<...>> for that.

	void createChain(Pointer<IntPtr> head, int length, int value) {
	if (length == 0) {
	head.value = value;
	return;
	}
	Pointer<IntPtr> next = calloc<IntPtr>();
	head.value = next.address;
	createChain(next, length - 1, value);
	}

	int getChainValue(Pointer<IntPtr> head, int length) {
	if (length == 0) {
	return head.value;
	}
	Pointer<IntPtr> next = Pointer.fromAddress(head.value);
	return getChainValue(next, length - 1);
	}

	void freeChain(Pointer<IntPtr> head, int length) {
	Pointer<IntPtr> next = Pointer.fromAddress(head.value);
	calloc.free(head);
	if (length == 0) {
	return;
	}
	freeChain(next, length - 1);
	}

	int length = 10;
	Pointer<IntPtr> head = calloc();
	createChain(head, length, 512);
	int tailValue = getChainValue(head, length);
	print('tailValue: ${tailValue}');
	freeChain(head, length);
	}

	print("end main");
	}