deep-linking-sample/Apps/Wikipedia/WikipediaUnitTests/Code/WMFMathTests.m

#import <XCTest/XCTest.h>
@import WMF.WMFMath;

// Redefine assert macro for testing WMFStrictClamp
#undef assert
#define assert(...) (void)(didAssert = YES)

static BOOL didAssert = NO;

@interface WMFMathTests : XCTestCase

@end

@implementation WMFMathTests

- (void)setUp {
    [super setUp];
    didAssert = NO;
}

- (void)testRounding {
    XCTAssertEqual(0.5, WMFFlooredPercentage(0.5));
    XCTAssertEqual(0.0, WMFFlooredPercentage(0.0));
    XCTAssertEqual(0.59, WMFFlooredPercentage(0.59));
    XCTAssertEqual(0.59, WMFFlooredPercentage(0.599));
}

- (void)testStrictClampReturnsValueIfWithinBounds {
    XCTAssertEqual(WMFStrictClamp(0, 1, 2), 1);
}

- (void)testStrictClampReturnsMinWhenOutsideLowerBound {
    XCTAssertEqual(WMFStrictClamp(0, -1, 2), 0);
}

- (void)testStrictClampReturnsMaxWhenOutsideUpperBound {
    XCTAssertEqual(WMFStrictClamp(0, 3, 2), 2);
}

- (void)testStrictClampAssertsWhenGivenInvalidBounds {
    WMFStrictClamp(2, 1, 0);
    XCTAssertTrue(didAssert);
}

- (void)testClampReturnsSameResultWhenBoundsAreReversed {
    XCTAssertEqual(WMFClamp(2, 1, 0), WMFClamp(0, 1, 2));
}

- (void)testRadiansToClock {
    XCTAssertEqual(WMFRadiansToClock(0), 12);
    XCTAssertEqual(WMFRadiansToClock(M_PI / 6), 1);
    XCTAssertEqual(WMFRadiansToClock(M_PI / 2), 3);
    XCTAssertEqual(WMFRadiansToClock(M_PI), 6);
    XCTAssertEqual(WMFRadiansToClock(1.5 * M_PI), 9);
    XCTAssertEqual(WMFRadiansToClock(2 * M_PI), 12);
    XCTAssertEqual(WMFRadiansToClock(-M_PI / 2), 9);
    XCTAssertEqual(WMFRadiansToClock(-M_PI), 6);
    XCTAssertEqual(WMFRadiansToClock(4 * M_PI), 12);
    XCTAssertEqual(WMFRadiansToClock(-3.5 * M_PI), 3);
    XCTAssertEqual(WMFRadiansToClock(M_PI / 6 - 0.001), 1);
}

@end
[Setup] Basic project structure (#1) This PR contains all the work related to setting up this project as required to implement the [Assignment](https://repo.rock-n-code.com/rock-n-code/deep-linking-assignment/wiki/Assignment) on top, as intended. To summarise this work: - [x] created a new Xcode project; - [x] cloned the `Wikipedia` app and inserted it into the Xcode project; - [x] created the `Locations` app and also, its `Libraries` package; - [x] created the `Shared` package to share dependencies between the apps; - [x] added a `Makefile` file and implemented some environment and help commands. Co-authored-by: Javier Cicchelli <javier@rock-n-code.com> Reviewed-on: https://repo.rock-n-code.com/rock-n-code/deep-linking-assignment/pulls/1 2023-04-08 18:37:13 +00:00			`#import <XCTest/XCTest.h>`
			`@import WMF.WMFMath;`

			`// Redefine assert macro for testing WMFStrictClamp`
			`#undef assert`
			`#define assert(...) (void)(didAssert = YES)`

			`static BOOL didAssert = NO;`

			`@interface WMFMathTests : XCTestCase`

			`@end`

			`@implementation WMFMathTests`

			`- (void)setUp {`
			`[super setUp];`
			`didAssert = NO;`
			`}`

			`- (void)testRounding {`
			`XCTAssertEqual(0.5, WMFFlooredPercentage(0.5));`
			`XCTAssertEqual(0.0, WMFFlooredPercentage(0.0));`
			`XCTAssertEqual(0.59, WMFFlooredPercentage(0.59));`
			`XCTAssertEqual(0.59, WMFFlooredPercentage(0.599));`
			`}`

			`- (void)testStrictClampReturnsValueIfWithinBounds {`
			`XCTAssertEqual(WMFStrictClamp(0, 1, 2), 1);`
			`}`

			`- (void)testStrictClampReturnsMinWhenOutsideLowerBound {`
			`XCTAssertEqual(WMFStrictClamp(0, -1, 2), 0);`
			`}`

			`- (void)testStrictClampReturnsMaxWhenOutsideUpperBound {`
			`XCTAssertEqual(WMFStrictClamp(0, 3, 2), 2);`
			`}`

			`- (void)testStrictClampAssertsWhenGivenInvalidBounds {`
			`WMFStrictClamp(2, 1, 0);`
			`XCTAssertTrue(didAssert);`
			`}`

			`- (void)testClampReturnsSameResultWhenBoundsAreReversed {`
			`XCTAssertEqual(WMFClamp(2, 1, 0), WMFClamp(0, 1, 2));`
			`}`

			`- (void)testRadiansToClock {`
			`XCTAssertEqual(WMFRadiansToClock(0), 12);`
			`XCTAssertEqual(WMFRadiansToClock(M_PI / 6), 1);`
			`XCTAssertEqual(WMFRadiansToClock(M_PI / 2), 3);`
			`XCTAssertEqual(WMFRadiansToClock(M_PI), 6);`
			`XCTAssertEqual(WMFRadiansToClock(1.5 * M_PI), 9);`
			`XCTAssertEqual(WMFRadiansToClock(2 * M_PI), 12);`
			`XCTAssertEqual(WMFRadiansToClock(-M_PI / 2), 9);`
			`XCTAssertEqual(WMFRadiansToClock(-M_PI), 6);`
			`XCTAssertEqual(WMFRadiansToClock(4 * M_PI), 12);`
			`XCTAssertEqual(WMFRadiansToClock(-3.5 * M_PI), 3);`
			`XCTAssertEqual(WMFRadiansToClock(M_PI / 6 - 0.001), 1);`
			`}`

			`@end`