samples/ffi/sample_ffi_functions.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';

 import 'dylib_utils.dart';

 typedef NativeUnaryOp = Int32 Function(Int32);
 typedef NativeBinaryOp = Int32 Function(Int32, Int32);
 typedef UnaryOp = int Function(int);
 typedef BinaryOp = int Function(int, int);
 typedef GenericBinaryOp<T> = int Function(int, T);
 typedef NativeQuadOpSigned = Int64 Function(Int8, Int16, Int32, Int64);
 typedef NativeQuadOpUnsigned = Uint64 Function(Uint8, Uint16, Uint32, Uint64);
 typedef NativeFunc4 = IntPtr Function(IntPtr);
 typedef NativeDoubleUnaryOp = Double Function(Double);
 typedef NativeFloatUnaryOp = Float Function(Float);
 typedef NativeDecenaryOp = IntPtr Function(IntPtr, IntPtr, IntPtr, IntPtr,
     IntPtr, IntPtr, IntPtr, IntPtr, IntPtr, IntPtr);
 typedef NativeDecenaryOp2 = Int16 Function(
     Int8, Int16, Int8, Int16, Int8, Int16, Int8, Int16, Int8, Int16);
 typedef NativeDoubleDecenaryOp = Double Function(Double, Double, Double, Double,
     Double, Double, Double, Double, Double, Double);
 typedef NativeVigesimalOp = Double Function(
     IntPtr,
     Float,
     IntPtr,
     Double,
     IntPtr,
     Float,
     IntPtr,
     Double,
     IntPtr,
     Float,
     IntPtr,
     Double,
     IntPtr,
     Float,
     IntPtr,
     Double,
     IntPtr,
     Float,
     IntPtr,
     Double);
 typedef Int64PointerUnOp = Pointer<Int64> Function(Pointer<Int64>);
 typedef QuadOp = int Function(int, int, int, int);
 typedef DoubleUnaryOp = double Function(double);
 typedef DecenaryOp = int Function(
     int, int, int, int, int, int, int, int, int, int);
 typedef DoubleDecenaryOp = double Function(double, double, double, double,
     double, double, double, double, double, double);
 typedef VigesimalOp = double Function(
     int,
     double,
     int,
     double,
     int,
     double,
     int,
     double,
     int,
     double,
     int,
     double,
     int,
     double,
     int,
     double,
     int,
     double,
     int,
     double);

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

   DynamicLibrary ffiTestFunctions =
       dlopenPlatformSpecific("ffi_test_functions");

   {
     // A int32 bin op.
     BinaryOp sumPlus42 =
         ffiTestFunctions.lookupFunction<NativeBinaryOp, BinaryOp>("SumPlus42");

     var result = sumPlus42(3, 17);
     print(result);
     print(result.runtimeType);
   }

   {
     // As a leaf call.
     BinaryOp sumPlus42Leaf = ffiTestFunctions
         .lookupFunction<NativeBinaryOp, BinaryOp>("SumPlus42", isLeaf: true);

     final result = sumPlus42Leaf(3, 17);
     print(result);
     print(result.runtimeType);
   }

   {
     // Various size arguments.
     QuadOp intComputation = ffiTestFunctions
         .lookupFunction<NativeQuadOpSigned, QuadOp>("IntComputation");
     var result = intComputation(125, 250, 500, 1000);
     print(result);
     print(result.runtimeType);

     var mint = 0x7FFFFFFFFFFFFFFF; // 2 ^ 63 - 1
     result = intComputation(1, 1, 1, mint);
     print(result);
     print(result.runtimeType);
   }

   {
     // Unsigned int parameters.
     QuadOp uintComputation = ffiTestFunctions
         .lookupFunction<NativeQuadOpUnsigned, QuadOp>("UintComputation");
     var result = uintComputation(0xFF, 0xFFFF, 0xFFFFFFFF, -1);
     result = uintComputation(1, 1, 0, -1);
     print(result);
     print(result.runtimeType);
     print(-0xFF + 0xFFFF - 0xFFFFFFFF);
   }

   {
     // Architecture size argument.
     Pointer<NativeFunction<NativeFunc4>> p = ffiTestFunctions.lookup("Times3");
     UnaryOp f6 = p.asFunction();
     var result = f6(1337);
     print(result);
     print(result.runtimeType);
   }

   {
     // Function with double.
     DoubleUnaryOp times1_337Double = ffiTestFunctions
         .lookupFunction<NativeDoubleUnaryOp, DoubleUnaryOp>("Times1_337Double");
     var result = times1_337Double(2.0);
     print(result);
     print(result.runtimeType);
   }

   {
     // Function with float.
     DoubleUnaryOp times1_337Float = ffiTestFunctions
         .lookupFunction<NativeFloatUnaryOp, DoubleUnaryOp>("Times1_337Float");
     var result = times1_337Float(1000.0);
     print(result);
     print(result.runtimeType);
   }

   {
     // Function with many arguments: arguments get passed in registers and stack.
     DecenaryOp sumManyInts = ffiTestFunctions
         .lookupFunction<NativeDecenaryOp, DecenaryOp>("SumManyInts");
     var result = sumManyInts(1, 2, 3, 4, 5, 6, 7, 8, 9, 10);
     print(result);
     print(result.runtimeType);
   }

   {
     // Function with many arguments: arguments get passed in registers and stack.
     DecenaryOp sumManyInts = ffiTestFunctions
         .lookupFunction<NativeDecenaryOp2, DecenaryOp>("SumManySmallInts");
     var result = sumManyInts(1, 2, 3, 4, 5, 6, 7, 8, 9, 10);
     print(result);
     print(result.runtimeType);
   }

   {
     // Function with many double arguments.
     DoubleDecenaryOp sumManyDoubles = ffiTestFunctions.lookupFunction<
         NativeDoubleDecenaryOp, DoubleDecenaryOp>("SumManyDoubles");
     var result =
         sumManyDoubles(1.0, 2.0, 3.0, 4.0, 5.0, 6.0, 7.0, 8.0, 9.0, 10.0);
     print(result);
     print(result.runtimeType);
   }

   {
     // Function with many arguments, ints and doubles mixed.
     VigesimalOp sumManyNumbers = ffiTestFunctions
         .lookupFunction<NativeVigesimalOp, VigesimalOp>("SumManyNumbers");
     var result = sumManyNumbers(1, 2.0, 3, 4.0, 5, 6.0, 7, 8.0, 9, 10.0, 11,
         12.0, 13, 14.0, 15, 16.0, 17, 18.0, 19, 20.0);
     print(result);
     print(result.runtimeType);
   }

   {
     // pass an array / pointer as argument
     Int64PointerUnOp assign1337Index1 = ffiTestFunctions
         .lookupFunction<Int64PointerUnOp, Int64PointerUnOp>("Assign1337Index1");
     Pointer<Int64> p2 = calloc(2);
     p2.value = 42;
     p2[1] = 1000;
     print(p2.elementAt(1).address.toRadixString(16));
     print(p2[1]);
     Pointer<Int64> result = assign1337Index1(p2);
     print(p2[1]);
     print(assign1337Index1);
     print(assign1337Index1.runtimeType);
     print(result);
     print(result.runtimeType);
     print(result.address.toRadixString(16));
     print(result.value);
   }

   {
     // Passing in nullptr for a pointer argument results in a nullptr in c.
     Int64PointerUnOp nullableInt64ElemAt1 =
         ffiTestFunctions.lookupFunction<Int64PointerUnOp, Int64PointerUnOp>(
             "NullableInt64ElemAt1");

     Pointer<Int64> result = nullableInt64ElemAt1(nullptr);
     print(result);
     print(result.runtimeType);

     Pointer<Int64> p2 = calloc(2);
     result = nullableInt64ElemAt1(p2);
     print(result);
     print(result.runtimeType);
     calloc.free(p2);
   }

   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';

	import 'dylib_utils.dart';

	typedef NativeUnaryOp = Int32 Function(Int32);
	typedef NativeBinaryOp = Int32 Function(Int32, Int32);
	typedef UnaryOp = int Function(int);
	typedef BinaryOp = int Function(int, int);
	typedef GenericBinaryOp<T> = int Function(int, T);
	typedef NativeQuadOpSigned = Int64 Function(Int8, Int16, Int32, Int64);
	typedef NativeQuadOpUnsigned = Uint64 Function(Uint8, Uint16, Uint32, Uint64);
	typedef NativeFunc4 = IntPtr Function(IntPtr);
	typedef NativeDoubleUnaryOp = Double Function(Double);
	typedef NativeFloatUnaryOp = Float Function(Float);
	typedef NativeDecenaryOp = IntPtr Function(IntPtr, IntPtr, IntPtr, IntPtr,
	IntPtr, IntPtr, IntPtr, IntPtr, IntPtr, IntPtr);
	typedef NativeDecenaryOp2 = Int16 Function(
	Int8, Int16, Int8, Int16, Int8, Int16, Int8, Int16, Int8, Int16);
	typedef NativeDoubleDecenaryOp = Double Function(Double, Double, Double, Double,
	Double, Double, Double, Double, Double, Double);
	typedef NativeVigesimalOp = Double Function(
	IntPtr,
	Float,
	IntPtr,
	Double,
	IntPtr,
	Float,
	IntPtr,
	Double,
	IntPtr,
	Float,
	IntPtr,
	Double,
	IntPtr,
	Float,
	IntPtr,
	Double,
	IntPtr,
	Float,
	IntPtr,
	Double);
	typedef Int64PointerUnOp = Pointer<Int64> Function(Pointer<Int64>);
	typedef QuadOp = int Function(int, int, int, int);
	typedef DoubleUnaryOp = double Function(double);
	typedef DecenaryOp = int Function(
	int, int, int, int, int, int, int, int, int, int);
	typedef DoubleDecenaryOp = double Function(double, double, double, double,
	double, double, double, double, double, double);
	typedef VigesimalOp = double Function(
	int,
	double,
	int,
	double,
	int,
	double,
	int,
	double,
	int,
	double,
	int,
	double,
	int,
	double,
	int,
	double,
	int,
	double,
	int,
	double);

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

	DynamicLibrary ffiTestFunctions =
	dlopenPlatformSpecific("ffi_test_functions");

	{
	// A int32 bin op.
	BinaryOp sumPlus42 =
	ffiTestFunctions.lookupFunction<NativeBinaryOp, BinaryOp>("SumPlus42");

	var result = sumPlus42(3, 17);
	print(result);
	print(result.runtimeType);
	}

	{
	// As a leaf call.
	BinaryOp sumPlus42Leaf = ffiTestFunctions
	.lookupFunction<NativeBinaryOp, BinaryOp>("SumPlus42", isLeaf: true);

	final result = sumPlus42Leaf(3, 17);
	print(result);
	print(result.runtimeType);
	}

	{
	// Various size arguments.
	QuadOp intComputation = ffiTestFunctions
	.lookupFunction<NativeQuadOpSigned, QuadOp>("IntComputation");
	var result = intComputation(125, 250, 500, 1000);
	print(result);
	print(result.runtimeType);

	var mint = 0x7FFFFFFFFFFFFFFF; // 2 ^ 63 - 1
	result = intComputation(1, 1, 1, mint);
	print(result);
	print(result.runtimeType);
	}

	{
	// Unsigned int parameters.
	QuadOp uintComputation = ffiTestFunctions
	.lookupFunction<NativeQuadOpUnsigned, QuadOp>("UintComputation");
	var result = uintComputation(0xFF, 0xFFFF, 0xFFFFFFFF, -1);
	result = uintComputation(1, 1, 0, -1);
	print(result);
	print(result.runtimeType);
	print(-0xFF + 0xFFFF - 0xFFFFFFFF);
	}

	{
	// Architecture size argument.
	Pointer<NativeFunction<NativeFunc4>> p = ffiTestFunctions.lookup("Times3");
	UnaryOp f6 = p.asFunction();
	var result = f6(1337);
	print(result);
	print(result.runtimeType);
	}

	{
	// Function with double.
	DoubleUnaryOp times1_337Double = ffiTestFunctions
	.lookupFunction<NativeDoubleUnaryOp, DoubleUnaryOp>("Times1_337Double");
	var result = times1_337Double(2.0);
	print(result);
	print(result.runtimeType);
	}

	{
	// Function with float.
	DoubleUnaryOp times1_337Float = ffiTestFunctions
	.lookupFunction<NativeFloatUnaryOp, DoubleUnaryOp>("Times1_337Float");
	var result = times1_337Float(1000.0);
	print(result);
	print(result.runtimeType);
	}

	{
	// Function with many arguments: arguments get passed in registers and stack.
	DecenaryOp sumManyInts = ffiTestFunctions
	.lookupFunction<NativeDecenaryOp, DecenaryOp>("SumManyInts");
	var result = sumManyInts(1, 2, 3, 4, 5, 6, 7, 8, 9, 10);
	print(result);
	print(result.runtimeType);
	}

	{
	// Function with many arguments: arguments get passed in registers and stack.
	DecenaryOp sumManyInts = ffiTestFunctions
	.lookupFunction<NativeDecenaryOp2, DecenaryOp>("SumManySmallInts");
	var result = sumManyInts(1, 2, 3, 4, 5, 6, 7, 8, 9, 10);
	print(result);
	print(result.runtimeType);
	}

	{
	// Function with many double arguments.
	DoubleDecenaryOp sumManyDoubles = ffiTestFunctions.lookupFunction<
	NativeDoubleDecenaryOp, DoubleDecenaryOp>("SumManyDoubles");
	var result =
	sumManyDoubles(1.0, 2.0, 3.0, 4.0, 5.0, 6.0, 7.0, 8.0, 9.0, 10.0);
	print(result);
	print(result.runtimeType);
	}

	{
	// Function with many arguments, ints and doubles mixed.
	VigesimalOp sumManyNumbers = ffiTestFunctions
	.lookupFunction<NativeVigesimalOp, VigesimalOp>("SumManyNumbers");
	var result = sumManyNumbers(1, 2.0, 3, 4.0, 5, 6.0, 7, 8.0, 9, 10.0, 11,
	12.0, 13, 14.0, 15, 16.0, 17, 18.0, 19, 20.0);
	print(result);
	print(result.runtimeType);
	}

	{
	// pass an array / pointer as argument
	Int64PointerUnOp assign1337Index1 = ffiTestFunctions
	.lookupFunction<Int64PointerUnOp, Int64PointerUnOp>("Assign1337Index1");
	Pointer<Int64> p2 = calloc(2);
	p2.value = 42;
	p2[1] = 1000;
	print(p2.elementAt(1).address.toRadixString(16));
	print(p2[1]);
	Pointer<Int64> result = assign1337Index1(p2);
	print(p2[1]);
	print(assign1337Index1);
	print(assign1337Index1.runtimeType);
	print(result);
	print(result.runtimeType);
	print(result.address.toRadixString(16));
	print(result.value);
	}

	{
	// Passing in nullptr for a pointer argument results in a nullptr in c.
	Int64PointerUnOp nullableInt64ElemAt1 =
	ffiTestFunctions.lookupFunction<Int64PointerUnOp, Int64PointerUnOp>(
	"NullableInt64ElemAt1");

	Pointer<Int64> result = nullableInt64ElemAt1(nullptr);
	print(result);
	print(result.runtimeType);

	Pointer<Int64> p2 = calloc(2);
	result = nullableInt64ElemAt1(p2);
	print(result);
	print(result.runtimeType);
	calloc.free(p2);
	}

	print("end main");
	}