test/native_test/native_test.dart - ffigen - Git at Google

 // Copyright (c) 2020, 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:io';
 import 'dart:math';

 import 'package:ffigen/ffigen.dart';
 import 'package:path/path.dart' as path;
 import 'package:test/test.dart';
 import 'package:yaml/yaml.dart';
 import '../test_utils.dart';
 import 'native_test_bindings.dart';

 void main() {
   late NativeLibrary bindings;
   group('native_test', () {
     setUpAll(() {
       logWarnings();
       var dylibName = 'test/native_test/native_test.so';
       if (Platform.isMacOS) {
         dylibName = 'test/native_test/native_test.dylib';
       } else if (Platform.isWindows) {
         dylibName = r'test\native_test\native_test.dll';
       }
       bindings =
           NativeLibrary(DynamicLibrary.open(File(dylibName).absolute.path));
     });

     test('generate_bindings', () {
       final config = Config.fromYaml(loadYaml(
           File(path.join('test', 'native_test', 'config.yaml'))
               .readAsStringSync()) as YamlMap);
       final library = parse(config);
       final file = File(
         path.join('test', 'debug_generated', 'native_test_bindings.dart'),
       );
       library.generateFile(file);

       try {
         final actual = file.readAsStringSync();
         final expected = File(path.join(config.output)).readAsStringSync();
         expect(actual, expected);
         if (file.existsSync()) {
           file.delete();
         }
       } catch (e) {
         print('Failed test: Debug generated file: ${file.absolute.path}');
         rethrow;
       }
     });
     test('bool', () {
       expect(bindings.Function1Bool(true), false);
       expect(bindings.Function1Bool(false), true);
     });
     test('uint8_t', () {
       expect(bindings.Function1Uint8(pow(2, 8).toInt()), 42);
     });
     test('uint16_t', () {
       expect(bindings.Function1Uint16(pow(2, 16).toInt()), 42);
     });
     test('uint32_t', () {
       expect(bindings.Function1Uint32(pow(2, 32).toInt()), 42);
     });
     test('uint64_t', () {
       expect(bindings.Function1Uint64(pow(2, 64).toInt()), 42);
     });
     test('int8_t', () {
       expect(
           bindings.Function1Int8(pow(2, 7).toInt()), -pow(2, 7).toInt() + 42);
     });
     test('int16_t', () {
       expect(bindings.Function1Int16(pow(2, 15).toInt()),
           -pow(2, 15).toInt() + 42);
     });
     test('int32_t', () {
       expect(bindings.Function1Int32(pow(2, 31).toInt()),
           -pow(2, 31).toInt() + 42);
     });
     test('int64_t', () {
       expect(bindings.Function1Int64(pow(2, 63).toInt()),
           -pow(2, 63).toInt() + 42);
     });
     test('intptr_t', () {
       expect(bindings.Function1IntPtr(0), 42);
     });
     test('float', () {
       expect(bindings.Function1Float(0), 42.0);
     });
     test('double', () {
       expect(bindings.Function1Double(0), 42.0);
     });
     test('Array Test: Order of access', () {
       final struct1 = bindings.getStruct1();
       var expectedValue = 1;
       final dimensions = [3, 1, 2];
       for (var i = 0; i < dimensions[0]; i++) {
         for (var j = 0; j < dimensions[1]; j++) {
           for (var k = 0; k < dimensions[2]; k++) {
             expect(struct1.ref.data[i][j][k], expectedValue);
             expectedValue++;
           }
         }
       }
     });
     test('Array Workaround: Range Errors', () {
       final struct1 = bindings.getStruct1();
       // Index (get) above range.
       expect(
           () => struct1.ref.data[4][0][0], throwsA(TypeMatcher<RangeError>()));
       expect(
           () => struct1.ref.data[0][2][0], throwsA(TypeMatcher<RangeError>()));
       expect(
           () => struct1.ref.data[0][0][3], throwsA(TypeMatcher<RangeError>()));
       // Index (get) below range.
       expect(
           () => struct1.ref.data[-1][0][0], throwsA(TypeMatcher<RangeError>()));
       expect(
           () => struct1.ref.data[-1][0][0], throwsA(TypeMatcher<RangeError>()));
       expect(
           () => struct1.ref.data[0][0][-1], throwsA(TypeMatcher<RangeError>()));

       // Index (set) above range.
       expect(() => struct1.ref.data[4][0][0] = 0,
           throwsA(TypeMatcher<RangeError>()));
       expect(() => struct1.ref.data[0][2][0] = 0,
           throwsA(TypeMatcher<RangeError>()));
       expect(() => struct1.ref.data[0][0][3] = 0,
           throwsA(TypeMatcher<RangeError>()));
       // Index (get) below range.
       expect(() => struct1.ref.data[-1][0][0] = 0,
           throwsA(TypeMatcher<RangeError>()));
       expect(() => struct1.ref.data[-1][0][0] = 0,
           throwsA(TypeMatcher<RangeError>()));
       expect(() => struct1.ref.data[0][0][-1] = 0,
           throwsA(TypeMatcher<RangeError>()));
     });
     test('Struct By Value', () {
       final r = Random();
       final a = r.nextInt(100), b = r.nextInt(100), c = r.nextInt(100);
       final s = bindings.Function1StructReturnByValue(a, b, c);
       expect(bindings.Function1StructPassByValue(s), a + b + c);
     });
   });
 }
	// Copyright (c) 2020, 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:io';
	import 'dart:math';

	import 'package:ffigen/ffigen.dart';
	import 'package:path/path.dart' as path;
	import 'package:test/test.dart';
	import 'package:yaml/yaml.dart';
	import '../test_utils.dart';
	import 'native_test_bindings.dart';

	void main() {
	late NativeLibrary bindings;
	group('native_test', () {
	setUpAll(() {
	logWarnings();
	var dylibName = 'test/native_test/native_test.so';
	if (Platform.isMacOS) {
	dylibName = 'test/native_test/native_test.dylib';
	} else if (Platform.isWindows) {
	dylibName = r'test\native_test\native_test.dll';
	}
	bindings =
	NativeLibrary(DynamicLibrary.open(File(dylibName).absolute.path));
	});

	test('generate_bindings', () {
	final config = Config.fromYaml(loadYaml(
	File(path.join('test', 'native_test', 'config.yaml'))
	.readAsStringSync()) as YamlMap);
	final library = parse(config);
	final file = File(
	path.join('test', 'debug_generated', 'native_test_bindings.dart'),
	);
	library.generateFile(file);

	try {
	final actual = file.readAsStringSync();
	final expected = File(path.join(config.output)).readAsStringSync();
	expect(actual, expected);
	if (file.existsSync()) {
	file.delete();
	}
	} catch (e) {
	print('Failed test: Debug generated file: ${file.absolute.path}');
	rethrow;
	}
	});
	test('bool', () {
	expect(bindings.Function1Bool(true), false);
	expect(bindings.Function1Bool(false), true);
	});
	test('uint8_t', () {
	expect(bindings.Function1Uint8(pow(2, 8).toInt()), 42);
	});
	test('uint16_t', () {
	expect(bindings.Function1Uint16(pow(2, 16).toInt()), 42);
	});
	test('uint32_t', () {
	expect(bindings.Function1Uint32(pow(2, 32).toInt()), 42);
	});
	test('uint64_t', () {
	expect(bindings.Function1Uint64(pow(2, 64).toInt()), 42);
	});
	test('int8_t', () {
	expect(
	bindings.Function1Int8(pow(2, 7).toInt()), -pow(2, 7).toInt() + 42);
	});
	test('int16_t', () {
	expect(bindings.Function1Int16(pow(2, 15).toInt()),
	-pow(2, 15).toInt() + 42);
	});
	test('int32_t', () {
	expect(bindings.Function1Int32(pow(2, 31).toInt()),
	-pow(2, 31).toInt() + 42);
	});
	test('int64_t', () {
	expect(bindings.Function1Int64(pow(2, 63).toInt()),
	-pow(2, 63).toInt() + 42);
	});
	test('intptr_t', () {
	expect(bindings.Function1IntPtr(0), 42);
	});
	test('float', () {
	expect(bindings.Function1Float(0), 42.0);
	});
	test('double', () {
	expect(bindings.Function1Double(0), 42.0);
	});
	test('Array Test: Order of access', () {
	final struct1 = bindings.getStruct1();
	var expectedValue = 1;
	final dimensions = [3, 1, 2];
	for (var i = 0; i < dimensions[0]; i++) {
	for (var j = 0; j < dimensions[1]; j++) {
	for (var k = 0; k < dimensions[2]; k++) {
	expect(struct1.ref.data[i][j][k], expectedValue);
	expectedValue++;
	}
	}
	}
	});
	test('Array Workaround: Range Errors', () {
	final struct1 = bindings.getStruct1();
	// Index (get) above range.
	expect(
	() => struct1.ref.data[4][0][0], throwsA(TypeMatcher<RangeError>()));
	expect(
	() => struct1.ref.data[0][2][0], throwsA(TypeMatcher<RangeError>()));
	expect(
	() => struct1.ref.data[0][0][3], throwsA(TypeMatcher<RangeError>()));
	// Index (get) below range.
	expect(
	() => struct1.ref.data[-1][0][0], throwsA(TypeMatcher<RangeError>()));
	expect(
	() => struct1.ref.data[-1][0][0], throwsA(TypeMatcher<RangeError>()));
	expect(
	() => struct1.ref.data[0][0][-1], throwsA(TypeMatcher<RangeError>()));

	// Index (set) above range.
	expect(() => struct1.ref.data[4][0][0] = 0,
	throwsA(TypeMatcher<RangeError>()));
	expect(() => struct1.ref.data[0][2][0] = 0,
	throwsA(TypeMatcher<RangeError>()));
	expect(() => struct1.ref.data[0][0][3] = 0,
	throwsA(TypeMatcher<RangeError>()));
	// Index (get) below range.
	expect(() => struct1.ref.data[-1][0][0] = 0,
	throwsA(TypeMatcher<RangeError>()));
	expect(() => struct1.ref.data[-1][0][0] = 0,
	throwsA(TypeMatcher<RangeError>()));
	expect(() => struct1.ref.data[0][0][-1] = 0,
	throwsA(TypeMatcher<RangeError>()));
	});
	test('Struct By Value', () {
	final r = Random();
	final a = r.nextInt(100), b = r.nextInt(100), c = r.nextInt(100);
	final s = bindings.Function1StructReturnByValue(a, b, c);
	expect(bindings.Function1StructPassByValue(s), a + b + c);
	});
	});
	}