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Changed all tests to use the new method.

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This commit is contained in:
Jarl Gullberg 2017-06-07 15:22:52 +02:00
parent 01bcbf181b
commit c6335b7aac
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GPG key ID: 750FF6F6BDA72D23
6 changed files with 243 additions and 243 deletions
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14
tests/OpenTK.Tests/Assertions.fs
View file

@ -12,11 +12,11 @@ module private AssertHelpers =
let private BitAccuracy = 16
[<Literal>]
let private EquivalenceTolerance = 0.0001f
let private EquivalenceTolerance = 0.00005f
let approxEq a b = MathHelper.ApproximatelyEquivalent(a, b, EquivalenceTolerance)
//let approxEq a b = MathHelper.ApproximatelyEqual(a,b,BitAccuracy)
//let approxEq a b = MathHelper.ApproximatelyEqualEpsilon(a,b,0.0001f)
let approxEqDelta a b = MathHelper.ApproximatelyEqual(a,b,BitAccuracy)
let approxEqSingleEpsilon a b = MathHelper.ApproximatelyEqualEpsilon(a, b, 0.00001f)
let approxEqDoubleEpsilon a b = MathHelper.ApproximatelyEqualEpsilon(a, b, 0.00001)
@ -32,17 +32,17 @@ module private AssertHelpers =
[<Sealed>]
type internal Assert =
static member ApproximatelyEqual(a : Vector2,b : Vector2) =
static member ApproximatelyEquivalent(a : Vector2,b : Vector2) =
if not <| approxEq a.X b.X && approxEq a.Y b.Y then raise <| new Xunit.Sdk.EqualException(a,b)
static member ApproximatelyEqual(a : Vector3,b : Vector3) =
static member ApproximatelyEquivalent(a : Vector3,b : Vector3) =
if not <| approxEq a.X b.X && approxEq a.Y b.Y && approxEq a.Z b.Z then raise <| new Xunit.Sdk.EqualException(a,b)
static member ApproximatelyEqual(a : Vector4,b : Vector4) =
static member ApproximatelyEquivalent(a : Vector4,b : Vector4) =
if not <| approxEq a.X b.X && approxEq a.Y b.Y && approxEq a.Z b.Z && approxEq a.W b.W then
raise <| new Xunit.Sdk.EqualException(a,b)
static member ApproximatelyEqual(a : float32,b : float32) =
static member ApproximatelyEquivalent(a : float32,b : float32) =
if not <| approxEq a b then raise <| new Xunit.Sdk.EqualException(a,b)

134
tests/OpenTK.Tests/MathHelperTests.fs
View file

@ -7,7 +7,7 @@ open System
open OpenTK
module MathHelper =
[<Properties(Arbitrary = [| typeof<OpenTKGen> |], MaxTest = 10000)>]
[<Properties(Arbitrary = [| typeof<OpenTKGen> |])>]
module ``ApproximatelyEqual (delta)`` =
/// This test ensures that approximately equal can never get it 'wrong' about the values.
[<Property>]
@ -55,74 +55,74 @@ module MathHelper =
Assert.Equal(a,b)
Assert.True(MathHelper.ApproximatelyEqual(a,b,0))
[<Properties(Arbitrary = [| typeof<OpenTKGen> |], MaxTest = 10000)>]
[<Properties(Arbitrary = [| typeof<OpenTKGen> |])>]
module ``ApproximatelyEqual (single-precision epsilon)`` =
//
[<Fact>]
let ``ApproximatelyEqual (single precision) is correct for large positive values``() =
Assert.ApproximatelyEqualEpsilon(1000000.0f, 1000001.0f);
Assert.ApproximatelyEqualEpsilon(1000001.0f, 1000000.0f);
Assert.ApproximatelyEquivalentEpsilon(1000000.0f, 1000001.0f);
Assert.ApproximatelyEquivalentEpsilon(1000001.0f, 1000000.0f);
Assert.NotApproximatelyEqualEpsilon(10000.0f, 10001.0f);
Assert.NotApproximatelyEqualEpsilon(10001.0f, 10000.0f);
[<Fact>]
let ``ApproximatelyEqual (single precision) is correct for large negative values``() =
Assert.ApproximatelyEqualEpsilon(-1000000.0f, -1000001.0f);
Assert.ApproximatelyEqualEpsilon(-1000001.0f, -1000000.0f);
Assert.ApproximatelyEquivalentEpsilon(-1000000.0f, -1000001.0f);
Assert.ApproximatelyEquivalentEpsilon(-1000001.0f, -1000000.0f);
Assert.NotApproximatelyEqualEpsilon(-10000.0f, -10001.0f);
Assert.NotApproximatelyEqualEpsilon(-10001.0f, -10000.0f);
[<Fact>]
let ``ApproximatelyEqual (single precision) is correct for positive values around 1``() =
Assert.ApproximatelyEqualEpsilon(1.0000001f, 1.0000002f);
Assert.ApproximatelyEqualEpsilon(1.0000002f, 1.0000001f);
Assert.ApproximatelyEquivalentEpsilon(1.0000001f, 1.0000002f);
Assert.ApproximatelyEquivalentEpsilon(1.0000002f, 1.0000001f);
Assert.NotApproximatelyEqualEpsilon(1.0002f, 1.0001f);
Assert.NotApproximatelyEqualEpsilon(1.0001f, 1.0002f);
[<Fact>]
let ``ApproximatelyEqual (single precision) is correct for negative values around -1``() =
Assert.ApproximatelyEqualEpsilon(-1.000001f, -1.000002f);
Assert.ApproximatelyEqualEpsilon(-1.000002f, -1.000001f);
Assert.ApproximatelyEquivalentEpsilon(-1.000001f, -1.000002f);
Assert.ApproximatelyEquivalentEpsilon(-1.000002f, -1.000001f);
Assert.NotApproximatelyEqualEpsilon(-1.0001f, -1.0002f);
Assert.NotApproximatelyEqualEpsilon(-1.0002f, -1.0001f);
[<Fact>]
let ``ApproximatelyEqual (single precision) is correct for values between 1 and 0``() =
Assert.ApproximatelyEqualEpsilon(0.000000001000001f, 0.000000001000002f);
Assert.ApproximatelyEqualEpsilon(0.000000001000002f, 0.000000001000001f);
Assert.ApproximatelyEquivalentEpsilon(0.000000001000001f, 0.000000001000002f);
Assert.ApproximatelyEquivalentEpsilon(0.000000001000002f, 0.000000001000001f);
Assert.NotApproximatelyEqualEpsilon(0.000000000001002f, 0.000000000001001f);
Assert.NotApproximatelyEqualEpsilon(0.000000000001001f, 0.000000000001002f);
[<Fact>]
let ``ApproximatelyEqual (single precision) is correct for values between -1 and 0``() =
Assert.ApproximatelyEqualEpsilon(-0.000000001000001f, -0.000000001000002f);
Assert.ApproximatelyEqualEpsilon(-0.000000001000002f, -0.000000001000001f);
Assert.ApproximatelyEquivalentEpsilon(-0.000000001000001f, -0.000000001000002f);
Assert.ApproximatelyEquivalentEpsilon(-0.000000001000002f, -0.000000001000001f);
Assert.NotApproximatelyEqualEpsilon(-0.000000000001002f, -0.000000000001001f);
Assert.NotApproximatelyEqualEpsilon(-0.000000000001001f, -0.000000000001002f);
[<Fact>]
let ``ApproximatelyEqual (single precision) is correct for comparisons involving 0``() =
Assert.ApproximatelyEqualEpsilon(0.0f, 0.0f);
Assert.ApproximatelyEqualEpsilon(0.0f, -0.0f);
Assert.ApproximatelyEqualEpsilon(-0.0f, -0.0f);
Assert.ApproximatelyEquivalentEpsilon(0.0f, 0.0f);
Assert.ApproximatelyEquivalentEpsilon(0.0f, -0.0f);
Assert.ApproximatelyEquivalentEpsilon(-0.0f, -0.0f);
Assert.NotApproximatelyEqualEpsilon(0.00000001f, 0.0f);
Assert.NotApproximatelyEqualEpsilon(0.0f, 0.00000001f);
Assert.NotApproximatelyEqualEpsilon(-0.00000001f, 0.0f);
Assert.NotApproximatelyEqualEpsilon(0.0f, -0.00000001f);
Assert.ApproximatelyEqualEpsilon(0.0f, 1e-40f, 0.01f);
Assert.ApproximatelyEqualEpsilon(1e-40f, 0.0f, 0.01f);
Assert.ApproximatelyEquivalentEpsilon(0.0f, 1e-40f, 0.01f);
Assert.ApproximatelyEquivalentEpsilon(1e-40f, 0.0f, 0.01f);
Assert.NotApproximatelyEqualEpsilon(1e-40f, 0.0f, 0.000001f);
Assert.NotApproximatelyEqualEpsilon(0.0f, 1e-40f, 0.000001f);
Assert.ApproximatelyEqualEpsilon(0.0f, -1e-40f, 0.1f);
Assert.ApproximatelyEqualEpsilon(-1e-40f, 0.0f, 0.1f);
Assert.ApproximatelyEquivalentEpsilon(0.0f, -1e-40f, 0.1f);
Assert.ApproximatelyEquivalentEpsilon(-1e-40f, 0.0f, 0.1f);
Assert.NotApproximatelyEqualEpsilon(-1e-40f, 0.0f, 0.00000001f);
Assert.NotApproximatelyEqualEpsilon(0.0f, -1e-40f, 0.00000001f);
[<Fact>]
let ``ApproximatelyEqual (single precision) is correct for extreme values with overflow potential``() =
Assert.ApproximatelyEqualEpsilon(System.Single.MaxValue, System.Single.MaxValue);
Assert.ApproximatelyEquivalentEpsilon(System.Single.MaxValue, System.Single.MaxValue);
Assert.NotApproximatelyEqualEpsilon(System.Single.MaxValue, -System.Single.MaxValue);
Assert.NotApproximatelyEqualEpsilon(-System.Single.MaxValue, System.Single.MaxValue);
Assert.NotApproximatelyEqualEpsilon(System.Single.MaxValue, System.Single.MaxValue / 2.0f);
@ -131,8 +131,8 @@ module MathHelper =
[<Fact>]
let ``ApproximatelyEqual (single precision) is correct for values involving infinities``() =
Assert.ApproximatelyEqualEpsilon(System.Single.PositiveInfinity, System.Single.PositiveInfinity);
Assert.ApproximatelyEqualEpsilon(System.Single.NegativeInfinity, System.Single.NegativeInfinity);
Assert.ApproximatelyEquivalentEpsilon(System.Single.PositiveInfinity, System.Single.PositiveInfinity);
Assert.ApproximatelyEquivalentEpsilon(System.Single.NegativeInfinity, System.Single.NegativeInfinity);
Assert.NotApproximatelyEqualEpsilon(System.Single.NegativeInfinity, System.Single.PositiveInfinity);
Assert.NotApproximatelyEqualEpsilon(System.Single.PositiveInfinity, System.Single.MaxValue);
Assert.NotApproximatelyEqualEpsilon(System.Single.NegativeInfinity, -System.Single.MaxValue);
@ -163,92 +163,92 @@ module MathHelper =
Assert.NotApproximatelyEqualEpsilon(-1.0f, 1.000000001f);
Assert.NotApproximatelyEqualEpsilon(-1.000000001f, 1.0f);
Assert.NotApproximatelyEqualEpsilon(1.0f, -1.000000001f);
Assert.ApproximatelyEqualEpsilon(10.0f * System.Single.Epsilon, 10.0f * -System.Single.Epsilon);
Assert.ApproximatelyEquivalentEpsilon(10.0f * System.Single.Epsilon, 10.0f * -System.Single.Epsilon);
Assert.NotApproximatelyEqualEpsilon(10000.0f * System.Single.Epsilon, 10000.0f * -System.Single.Epsilon);
[<Fact>]
let ``ApproximatelyEqual (single precision) is correct for values very close to 0``() =
Assert.ApproximatelyEqualEpsilon(System.Single.Epsilon, System.Single.Epsilon);
Assert.ApproximatelyEqualEpsilon(System.Single.Epsilon, -System.Single.Epsilon);
Assert.ApproximatelyEqualEpsilon(-System.Single.Epsilon, System.Single.Epsilon);
Assert.ApproximatelyEqualEpsilon(System.Single.Epsilon, 0.0f);
Assert.ApproximatelyEqualEpsilon(0.0f, System.Single.Epsilon);
Assert.ApproximatelyEqualEpsilon(-System.Single.Epsilon, 0.0f);
Assert.ApproximatelyEqualEpsilon(0.0f, -System.Single.Epsilon);
Assert.ApproximatelyEquivalentEpsilon(System.Single.Epsilon, System.Single.Epsilon);
Assert.ApproximatelyEquivalentEpsilon(System.Single.Epsilon, -System.Single.Epsilon);
Assert.ApproximatelyEquivalentEpsilon(-System.Single.Epsilon, System.Single.Epsilon);
Assert.ApproximatelyEquivalentEpsilon(System.Single.Epsilon, 0.0f);
Assert.ApproximatelyEquivalentEpsilon(0.0f, System.Single.Epsilon);
Assert.ApproximatelyEquivalentEpsilon(-System.Single.Epsilon, 0.0f);
Assert.ApproximatelyEquivalentEpsilon(0.0f, -System.Single.Epsilon);
Assert.NotApproximatelyEqualEpsilon(0.000000001f, -System.Single.Epsilon);
Assert.NotApproximatelyEqualEpsilon(0.000000001f, System.Single.Epsilon);
Assert.NotApproximatelyEqualEpsilon(System.Single.Epsilon, 0.000000001f);
Assert.NotApproximatelyEqualEpsilon(-System.Single.Epsilon, 0.000000001f);
[<Properties(Arbitrary = [| typeof<OpenTKGen> |], MaxTest = 10000)>]
[<Properties(Arbitrary = [| typeof<OpenTKGen> |])>]
module ``ApproximatelyEqual (double-precision epsilon)`` =
//
[<Fact>]
let ``ApproximatelyEqual (double precision) is correct for large positive values``() =
Assert.ApproximatelyEqualEpsilon(1000000.0, 1000001.0);
Assert.ApproximatelyEqualEpsilon(1000001.0, 1000000.0);
Assert.ApproximatelyEquivalentEpsilon(1000000.0, 1000001.0);
Assert.ApproximatelyEquivalentEpsilon(1000001.0, 1000000.0);
Assert.NotApproximatelyEqualEpsilon(10000.0, 10001.0);
Assert.NotApproximatelyEqualEpsilon(10001.0, 10000.0);
[<Fact>]
let ``ApproximatelyEqual (double precision) is correct for large negative values``() =
Assert.ApproximatelyEqualEpsilon(-1000000.0, -1000001.0);
Assert.ApproximatelyEqualEpsilon(-1000001.0, -1000000.0);
Assert.ApproximatelyEquivalentEpsilon(-1000000.0, -1000001.0);
Assert.ApproximatelyEquivalentEpsilon(-1000001.0, -1000000.0);
Assert.NotApproximatelyEqualEpsilon(-10000.0, -10001.0);
Assert.NotApproximatelyEqualEpsilon(-10001.0, -10000.0);
[<Fact>]
let ``ApproximatelyEqual (double precision) is correct for positive values around 1``() =
Assert.ApproximatelyEqualEpsilon(1.0000001, 1.0000002);
Assert.ApproximatelyEqualEpsilon(1.0000002, 1.0000001);
Assert.ApproximatelyEquivalentEpsilon(1.0000001, 1.0000002);
Assert.ApproximatelyEquivalentEpsilon(1.0000002, 1.0000001);
Assert.NotApproximatelyEqualEpsilon(1.0002, 1.0001);
Assert.NotApproximatelyEqualEpsilon(1.0001, 1.0002);
[<Fact>]
let ``ApproximatelyEqual (double precision) is correct for negative values around -1``() =
Assert.ApproximatelyEqualEpsilon(-1.000001, -1.000002);
Assert.ApproximatelyEqualEpsilon(-1.000002, -1.000001);
Assert.ApproximatelyEquivalentEpsilon(-1.000001, -1.000002);
Assert.ApproximatelyEquivalentEpsilon(-1.000002, -1.000001);
Assert.NotApproximatelyEqualEpsilon(-1.0001, -1.0002);
Assert.NotApproximatelyEqualEpsilon(-1.0002, -1.0001);
[<Fact>]
let ``ApproximatelyEqual (double precision) is correct for values between 1 and 0``() =
Assert.ApproximatelyEqualEpsilon(0.000000001000001, 0.000000001000002);
Assert.ApproximatelyEqualEpsilon(0.000000001000002, 0.000000001000001);
Assert.ApproximatelyEquivalentEpsilon(0.000000001000001, 0.000000001000002);
Assert.ApproximatelyEquivalentEpsilon(0.000000001000002, 0.000000001000001);
Assert.NotApproximatelyEqualEpsilon(0.000000000001002, 0.000000000001001);
Assert.NotApproximatelyEqualEpsilon(0.000000000001001, 0.000000000001002);
[<Fact>]
let ``ApproximatelyEqual (double precision) is correct for values between -1 and 0``() =
Assert.ApproximatelyEqualEpsilon(-0.000000001000001, -0.000000001000002);
Assert.ApproximatelyEqualEpsilon(-0.000000001000002, -0.000000001000001);
Assert.ApproximatelyEquivalentEpsilon(-0.000000001000001, -0.000000001000002);
Assert.ApproximatelyEquivalentEpsilon(-0.000000001000002, -0.000000001000001);
Assert.NotApproximatelyEqualEpsilon(-0.000000000001002, -0.000000000001001);
Assert.NotApproximatelyEqualEpsilon(-0.000000000001001, -0.000000000001002);
[<Fact>]
let ``ApproximatelyEqual (double precision) is correct for comparisons involving 0``() =
Assert.ApproximatelyEqualEpsilon(0.0, 0.0);
Assert.ApproximatelyEqualEpsilon(0.0, -0.0);
Assert.ApproximatelyEqualEpsilon(-0.0, -0.0);
Assert.ApproximatelyEquivalentEpsilon(0.0, 0.0);
Assert.ApproximatelyEquivalentEpsilon(0.0, -0.0);
Assert.ApproximatelyEquivalentEpsilon(-0.0, -0.0);
Assert.NotApproximatelyEqualEpsilon(0.00000001, 0.0);
Assert.NotApproximatelyEqualEpsilon(0.0, 0.00000001);
Assert.NotApproximatelyEqualEpsilon(-0.00000001, 0.0);
Assert.NotApproximatelyEqualEpsilon(0.0, -0.00000001);
Assert.ApproximatelyEqualEpsilon(0.0, 1e-310, 0.01);
Assert.ApproximatelyEqualEpsilon(1e-310, 0.0, 0.01);
Assert.ApproximatelyEquivalentEpsilon(0.0, 1e-310, 0.01);
Assert.ApproximatelyEquivalentEpsilon(1e-310, 0.0, 0.01);
Assert.NotApproximatelyEqualEpsilon(1e-310, 0.0, 0.000001);
Assert.NotApproximatelyEqualEpsilon(0.0, 1e-310, 0.000001);
Assert.ApproximatelyEqualEpsilon(0.0, -1e-310, 0.1);
Assert.ApproximatelyEqualEpsilon(-1e-310, 0.0, 0.1);
Assert.ApproximatelyEquivalentEpsilon(0.0, -1e-310, 0.1);
Assert.ApproximatelyEquivalentEpsilon(-1e-310, 0.0, 0.1);
Assert.NotApproximatelyEqualEpsilon(-1e-310, 0.0, 0.00000001);
Assert.NotApproximatelyEqualEpsilon(0.0, -1e-310, 0.00000001);
[<Fact>]
let ``ApproximatelyEqual (double precision) is correct for extreme values with overflow potential``() =
Assert.ApproximatelyEqualEpsilon(System.Double.MaxValue, System.Double.MaxValue);
Assert.ApproximatelyEquivalentEpsilon(System.Double.MaxValue, System.Double.MaxValue);
Assert.NotApproximatelyEqualEpsilon(System.Double.MaxValue, -System.Double.MaxValue);
Assert.NotApproximatelyEqualEpsilon(-System.Double.MaxValue, System.Double.MaxValue);
Assert.NotApproximatelyEqualEpsilon(System.Double.MaxValue, System.Double.MaxValue / 2.0);
@ -257,8 +257,8 @@ module MathHelper =
[<Fact>]
let ``ApproximatelyEqual (double precision) is correct for values involving infinities``() =
Assert.ApproximatelyEqualEpsilon(System.Double.PositiveInfinity, System.Double.PositiveInfinity);
Assert.ApproximatelyEqualEpsilon(System.Double.NegativeInfinity, System.Double.NegativeInfinity);
Assert.ApproximatelyEquivalentEpsilon(System.Double.PositiveInfinity, System.Double.PositiveInfinity);
Assert.ApproximatelyEquivalentEpsilon(System.Double.NegativeInfinity, System.Double.NegativeInfinity);
Assert.NotApproximatelyEqualEpsilon(System.Double.NegativeInfinity, System.Double.PositiveInfinity);
Assert.NotApproximatelyEqualEpsilon(System.Double.PositiveInfinity, System.Double.MaxValue);
Assert.NotApproximatelyEqualEpsilon(System.Double.NegativeInfinity, -System.Double.MaxValue);
@ -289,25 +289,25 @@ module MathHelper =
Assert.NotApproximatelyEqualEpsilon(-1.0, 1.000000001);
Assert.NotApproximatelyEqualEpsilon(-1.000000001, 1.0);
Assert.NotApproximatelyEqualEpsilon(1.0, -1.000000001);
Assert.ApproximatelyEqualEpsilon(10.0 * System.Double.Epsilon, 10.0 * -System.Double.Epsilon);
Assert.ApproximatelyEquivalentEpsilon(10.0 * System.Double.Epsilon, 10.0 * -System.Double.Epsilon);
Assert.NotApproximatelyEqualEpsilon(100000000000.0 * System.Double.Epsilon, 100000000000.0 * -System.Double.Epsilon);
[<Fact>]
let ``ApproximatelyEqual (double precision) is correct for values very close to 0``() =
Assert.ApproximatelyEqualEpsilon(System.Double.Epsilon, System.Double.Epsilon);
Assert.ApproximatelyEqualEpsilon(System.Double.Epsilon, -System.Double.Epsilon);
Assert.ApproximatelyEqualEpsilon(-System.Double.Epsilon, System.Double.Epsilon);
Assert.ApproximatelyEqualEpsilon(System.Double.Epsilon, 0.0);
Assert.ApproximatelyEqualEpsilon(0.0, System.Double.Epsilon);
Assert.ApproximatelyEqualEpsilon(-System.Double.Epsilon, 0.0);
Assert.ApproximatelyEqualEpsilon(0.0, -System.Double.Epsilon);
Assert.ApproximatelyEquivalentEpsilon(System.Double.Epsilon, System.Double.Epsilon);
Assert.ApproximatelyEquivalentEpsilon(System.Double.Epsilon, -System.Double.Epsilon);
Assert.ApproximatelyEquivalentEpsilon(-System.Double.Epsilon, System.Double.Epsilon);
Assert.ApproximatelyEquivalentEpsilon(System.Double.Epsilon, 0.0);
Assert.ApproximatelyEquivalentEpsilon(0.0, System.Double.Epsilon);
Assert.ApproximatelyEquivalentEpsilon(-System.Double.Epsilon, 0.0);
Assert.ApproximatelyEquivalentEpsilon(0.0, -System.Double.Epsilon);
Assert.NotApproximatelyEqualEpsilon(0.000000001, -System.Double.Epsilon);
Assert.NotApproximatelyEqualEpsilon(0.000000001, System.Double.Epsilon);
Assert.NotApproximatelyEqualEpsilon(System.Double.Epsilon, 0.000000001);
Assert.NotApproximatelyEqualEpsilon(-System.Double.Epsilon, 0.000000001);
[<Properties(Arbitrary = [| typeof<OpenTKGen> |], MaxTest = 10000)>]
[<Properties(Arbitrary = [| typeof<OpenTKGen> |])>]
module ``ApproximatelyEquivalent (tolerance diff)`` =
[<Fact>]
let ``ApproximatelyEquivalent correctly approximates equivalence where the difference falls below the tolerance``() =
@ -317,11 +317,11 @@ module MathHelper =
Assert.True(MathHelper.ApproximatelyEquivalent(a, b, 0.0001f))
[<Fact>]
let ``ApproximatelyEquivalent correctly approximates inequivalence where the difference is the tolerance``() =
let ``ApproximatelyEquivalent correctly approximates equivalence where the difference is the tolerance``() =
let a = 0.0001f
let b = 0.0002f
Assert.NotEqual(a,b)
Assert.False(MathHelper.ApproximatelyEquivalent(a, b, 0.0001f))
Assert.True(MathHelper.ApproximatelyEquivalent(a, b, 0.0001f))
[<Fact>]
let ``ApproximatelyEquivalent correctly approximates inequivalence where the difference exceeds the tolerance``() =
@ -332,7 +332,7 @@ module MathHelper =
[<Fact>]
let ``ApproximatelyEquivalent reports very different values as non-equal even with a high tolerance``() =
let a = 2.0f
let a = 3.0f
let b = 1.0f
Assert.NotEqual(a,b)
Assert.False(MathHelper.ApproximatelyEquivalent(a, b, 1.0f))

14
tests/OpenTK.Tests/Matrix4Tests.fs
View file

@ -7,7 +7,7 @@ open System
open OpenTK
module Matrix4 =
[<Properties(Arbitrary = [| typeof<OpenTKGen> |], MaxTest = 10000)>]
[<Properties(Arbitrary = [| typeof<OpenTKGen> |])>]
module Constructors =
//
[<Property>]
@ -88,7 +88,7 @@ module Matrix4 =
Assert.Equal(o, A.M43)
Assert.Equal(p, A.M44)
[<Properties(Arbitrary = [| typeof<OpenTKGen> |], MaxTest = 10000)>]
[<Properties(Arbitrary = [| typeof<OpenTKGen> |])>]
module Equality =
//
[<Property>]
@ -103,7 +103,7 @@ module Matrix4 =
let ``A matrix is not equal to an object which is not a matrix`` (a : Matrix4, b : Vector3) =
Assert.False(a.Equals(b))
[<Properties(Arbitrary = [| typeof<OpenTKGen> |], MaxTest = 10000)>]
[<Properties(Arbitrary = [| typeof<OpenTKGen> |])>]
module Multiplication =
//
[<Property>]
@ -202,7 +202,7 @@ module Matrix4 =
Assert.Equal(R4, AScaled.Row3)
[<Properties(Arbitrary = [| typeof<OpenTKGen> |], MaxTest = 10000)>]
[<Properties(Arbitrary = [| typeof<OpenTKGen> |])>]
module Addition =
//
[<Property>]
@ -232,7 +232,7 @@ module Matrix4 =
Assert.Equal(o + o, sum.M43)
Assert.Equal(p + p, sum.M44)
[<Properties(Arbitrary = [| typeof<OpenTKGen> |], MaxTest = 10000)>]
[<Properties(Arbitrary = [| typeof<OpenTKGen> |])>]
module Subtraction =
//
[<Property>]
@ -262,7 +262,7 @@ module Matrix4 =
Assert.Equal(o - o, sub.M43)
Assert.Equal(p - p, sub.M44)
[<Properties(Arbitrary = [| typeof<OpenTKGen> |], MaxTest = 10000)>]
[<Properties(Arbitrary = [| typeof<OpenTKGen> |])>]
module Indexing =
//
[<Property>]
@ -363,7 +363,7 @@ module Matrix4 =
(fun() -> a.[1, 6] |> ignore) |> Assert.ThrowsIndexExn
(fun() -> a.[7, 12] |> ignore) |> Assert.ThrowsIndexExn
[<Properties(Arbitrary = [| typeof<OpenTKGen> |], MaxTest = 10000)>]
[<Properties(Arbitrary = [| typeof<OpenTKGen> |])>]
module ``Row and column properties`` =
//
[<Property>]

96
tests/OpenTK.Tests/Vector2Tests.fs
View file

@ -8,7 +8,7 @@ open System.Runtime.InteropServices
open OpenTK
module Vector2 =
[<Properties(Arbitrary = [| typeof<OpenTKGen> |], MaxTest = 10000)>]
[<Properties(Arbitrary = [| typeof<OpenTKGen> |])>]
module Constructors =
//
[<Property>]
@ -23,7 +23,7 @@ module Vector2 =
Assert.Equal(x,v.X)
Assert.Equal(y,v.Y)
[<Properties(Arbitrary = [| typeof<OpenTKGen> |], MaxTest = 10000)>]
[<Properties(Arbitrary = [| typeof<OpenTKGen> |])>]
module Clamping =
//
[<Property>]
@ -46,7 +46,7 @@ module Vector2 =
Assert.Equal(expX, res.X)
Assert.Equal(expY, res.Y)
[<Properties(Arbitrary = [| typeof<OpenTKGen> |], MaxTest = 10000)>]
[<Properties(Arbitrary = [| typeof<OpenTKGen> |])>]
module Length =
//
[<Property>]
@ -75,7 +75,7 @@ module Vector2 =
Assert.Equal(lsq, v.LengthSquared)
[<Properties(Arbitrary = [| typeof<OpenTKGen> |], MaxTest = 10000)>]
[<Properties(Arbitrary = [| typeof<OpenTKGen> |])>]
module ``Unit vectors and perpendicularity`` =
//
[<Property>]
@ -92,7 +92,7 @@ module Vector2 =
Assert.Equal(perp, v.PerpendicularLeft)
[<Properties(Arbitrary = [| typeof<OpenTKGen> |], MaxTest = 10000)>]
[<Properties(Arbitrary = [| typeof<OpenTKGen> |])>]
module Indexing =
//
[<Property>]
@ -126,7 +126,7 @@ module Vector2 =
(fun() -> v.[2] |> ignore) |> Assert.ThrowsIndexExn
[<Properties(Arbitrary = [| typeof<OpenTKGen> |], MaxTest = 10000)>]
[<Properties(Arbitrary = [| typeof<OpenTKGen> |])>]
module ``Simple Properties`` =
//
[<Property>]
@ -139,26 +139,26 @@ module Vector2 =
//
Assert.True(a.Length >= 0.0f)
[<Properties(Arbitrary = [| typeof<OpenTKGen> |], MaxTest = 10000)>]
[<Properties(Arbitrary = [| typeof<OpenTKGen> |])>]
module Addition =
//
[<Property>]
let ``Vector addition is the same as component addition`` (a : Vector2,b : Vector2) =
let c = a + b
Assert.ApproximatelyEqual(a.X + b.X,c.X)
Assert.ApproximatelyEqual(a.Y + b.Y,c.Y)
Assert.ApproximatelyEquivalent(a.X + b.X,c.X)
Assert.ApproximatelyEquivalent(a.Y + b.Y,c.Y)
[<Property>]
let ``Vector addition is commutative`` (a : Vector2,b : Vector2) =
let c = a + b
let c2 = b + a
Assert.ApproximatelyEqual(c,c2)
Assert.ApproximatelyEquivalent(c,c2)
[<Property>]
let ``Vector addition is associative`` (a : Vector2,b : Vector2,c : Vector2) =
let r1 = (a + b) + c
let r2 = a + (b + c)
Assert.ApproximatelyEqual(r1,r2)
Assert.ApproximatelyEquivalent(r1,r2)
[<Property>]
let ``Static Vector2 addition method is the same as component addition`` (a : Vector2, b : Vector2) =
@ -166,7 +166,7 @@ module Vector2 =
let v1 = Vector2(a.X + b.X, a.Y + b.Y)
let sum = Vector2.Add(a, b)
Assert.ApproximatelyEqual(v1, sum)
Assert.ApproximatelyEquivalent(v1, sum)
[<Property>]
let ``Static Vector2 addition method by reference is the same as component addition`` (a : Vector2, b : Vector2) =
@ -174,9 +174,9 @@ module Vector2 =
let v1 = Vector2(a.X + b.X, a.Y + b.Y)
let sum = Vector2.Add(ref a, ref b)
Assert.ApproximatelyEqual(v1, sum)
Assert.ApproximatelyEquivalent(v1, sum)
[<Properties(Arbitrary = [| typeof<OpenTKGen> |], MaxTest = 10000)>]
[<Properties(Arbitrary = [| typeof<OpenTKGen> |])>]
module Multiplication =
//
[<Property>]
@ -210,7 +210,7 @@ module Vector2 =
let v1 = Vector2(a.X * b.X, a.Y * b.Y)
let sum = Vector2.Multiply(a, b)
Assert.ApproximatelyEqual(v1, sum)
Assert.ApproximatelyEquivalent(v1, sum)
[<Property>]
let ``Static Vector2 multiplication method by reference is the same as component multiplication`` (a : Vector2, b : Vector2) =
@ -218,7 +218,7 @@ module Vector2 =
let v1 = Vector2(a.X * b.X, a.Y * b.Y)
let sum = Vector2.Multiply(ref a, ref b)
Assert.ApproximatelyEqual(v1, sum)
Assert.ApproximatelyEquivalent(v1, sum)
[<Property>]
let ``Static method Vector2-scalar multiplication is the same as component-scalar multiplication`` (a : Vector2, f : float32) =
@ -227,7 +227,7 @@ module Vector2 =
Assert.Equal(a.X * f,r.X)
Assert.Equal(a.Y * f,r.Y)
[<Properties(Arbitrary = [| typeof<OpenTKGen> |], MaxTest = 10000)>]
[<Properties(Arbitrary = [| typeof<OpenTKGen> |])>]
module Subtraction =
//
[<Property>]
@ -242,7 +242,7 @@ module Vector2 =
let v1 = Vector2(a.X - b.X, a.Y - b.Y)
let sum = Vector2.Subtract(a, b)
Assert.ApproximatelyEqual(v1, sum)
Assert.ApproximatelyEquivalent(v1, sum)
[<Property>]
let ``Static Vector2 subtraction method by reference is the same as component addition`` (a : Vector2, b : Vector2) =
@ -250,9 +250,9 @@ module Vector2 =
let v1 = Vector2(a.X - b.X, a.Y - b.Y)
let sum = Vector2.Subtract(ref a, ref b)
Assert.ApproximatelyEqual(v1, sum)
Assert.ApproximatelyEquivalent(v1, sum)
[<Properties(Arbitrary = [| typeof<OpenTKGen> |], MaxTest = 10000)>]
[<Properties(Arbitrary = [| typeof<OpenTKGen> |])>]
module Division =
//
[<Property>]
@ -260,8 +260,8 @@ module Vector2 =
if not (approxEq f 0.0f) then
let r = a / f
Assert.ApproximatelyEqual(a.X / f,r.X)
Assert.ApproximatelyEqual(a.Y / f,r.Y)
Assert.ApproximatelyEquivalent(a.X / f,r.X)
Assert.ApproximatelyEquivalent(a.Y / f,r.Y)
[<Property>]
let ``Static Vector2-Vector2 division method is the same as component division`` (a : Vector2, b : Vector2) =
@ -269,7 +269,7 @@ module Vector2 =
let v1 = Vector2(a.X / b.X, a.Y / b.Y)
let sum = Vector2.Divide(a, b)
Assert.ApproximatelyEqual(v1, sum)
Assert.ApproximatelyEquivalent(v1, sum)
[<Property>]
let ``Static Vector2-Vector2 divison method by reference `` (a : Vector2, b : Vector2) =
@ -277,7 +277,7 @@ module Vector2 =
let v1 = Vector2(a.X / b.X, a.Y / b.Y)
let sum = Vector2.Divide(ref a, ref b)
Assert.ApproximatelyEqual(v1, sum)
Assert.ApproximatelyEquivalent(v1, sum)
[<Property>]
let ``Static Vector2-scalar division method is the same as component division`` (a : Vector2, b : float32) =
@ -285,7 +285,7 @@ module Vector2 =
let v1 = Vector2(a.X / b, a.Y / b)
let sum = Vector2.Divide(a, b)
Assert.ApproximatelyEqual(v1, sum)
Assert.ApproximatelyEquivalent(v1, sum)
[<Property>]
let ``Static Vector2-scalar divison method by reference is the same as component division`` (a : Vector2, b : float32) =
@ -293,9 +293,9 @@ module Vector2 =
let v1 = Vector2(a.X / b, a.Y / b)
let sum = Vector2.Divide(ref a, b)
Assert.ApproximatelyEqual(v1, sum)
Assert.ApproximatelyEquivalent(v1, sum)
[<Properties(Arbitrary = [| typeof<OpenTKGen> |], MaxTest = 10000)>]
[<Properties(Arbitrary = [| typeof<OpenTKGen> |])>]
module Negation =
//
[<Property>]
@ -305,7 +305,7 @@ module Vector2 =
Assert.Equal(-x, vNeg.X)
Assert.Equal(-y, vNeg.Y)
[<Properties(Arbitrary = [| typeof<OpenTKGen> |], MaxTest = 10000)>]
[<Properties(Arbitrary = [| typeof<OpenTKGen> |])>]
module Equality =
//
[<Property>]
@ -336,7 +336,7 @@ module Vector2 =
Assert.True(equality)
Assert.False(inequalityByOtherType)
[<Properties(Arbitrary = [| typeof<OpenTKGen> |], MaxTest = 10000)>]
[<Properties(Arbitrary = [| typeof<OpenTKGen> |])>]
module Swizzling =
//
[<Property>]
@ -347,7 +347,7 @@ module Vector2 =
let v1yx = v1.Yx;
Assert.Equal(v2, v1yx);
[<Properties(Arbitrary = [| typeof<OpenTKGen> |], MaxTest = 10000)>]
[<Properties(Arbitrary = [| typeof<OpenTKGen> |])>]
module Interpolation =
//
[<Property>]
@ -374,7 +374,7 @@ module Vector2 =
let vRes = Vector2.BaryCentric(ref a, ref b, ref c, u, v)
Assert.Equal(r, vRes)
[<Properties(Arbitrary = [| typeof<OpenTKGen> |], MaxTest = 10000)>]
[<Properties(Arbitrary = [| typeof<OpenTKGen> |])>]
module ``Vector products`` =
//
[<Property>]
@ -395,7 +395,7 @@ module Vector2 =
let vRes = Vector2.PerpDot(ref a, ref b)
Assert.Equal(perpDot, vRes)
[<Properties(Arbitrary = [| typeof<OpenTKGen> |], MaxTest = 10000)>]
[<Properties(Arbitrary = [| typeof<OpenTKGen> |])>]
module Normalization =
//
[<Property>]
@ -407,8 +407,8 @@ module Vector2 =
if not (approxEq l 0.0f) then
let norm = v.Normalized()
Assert.ApproximatelyEqual(v.X / l, norm.X)
Assert.ApproximatelyEqual(v.Y / l, norm.Y)
Assert.ApproximatelyEquivalent(v.X / l, norm.X)
Assert.ApproximatelyEquivalent(v.Y / l, norm.Y)
[<Property>]
let ``Normalization of instance transforms the instance into a unit length vector with the correct components`` (a, b) =
@ -419,8 +419,8 @@ module Vector2 =
let norm = Vector2(a, b)
norm.Normalize()
Assert.ApproximatelyEqual(v.X / l, norm.X)
Assert.ApproximatelyEqual(v.Y / l, norm.Y)
Assert.ApproximatelyEquivalent(v.X / l, norm.X)
Assert.ApproximatelyEquivalent(v.Y / l, norm.Y)
[<Property>]
let ``Fast approximate normalization of instance transforms the instance into a unit length vector with the correct components`` (a, b) =
@ -430,8 +430,8 @@ module Vector2 =
let scale = MathHelper.InverseSqrtFast(a * a + b * b)
Assert.ApproximatelyEqual(v.X * scale, norm.X)
Assert.ApproximatelyEqual(v.Y * scale, norm.Y)
Assert.ApproximatelyEquivalent(v.X * scale, norm.X)
Assert.ApproximatelyEquivalent(v.Y * scale, norm.Y)
[<Property>]
let ``Normalization by reference is the same as division by magnitude`` (a : Vector2) =
@ -440,7 +440,7 @@ module Vector2 =
let norm = a / a.Length
let vRes = Vector2.Normalize(ref a)
Assert.ApproximatelyEqual(norm, vRes)
Assert.ApproximatelyEquivalent(norm, vRes)
[<Property>]
let ``Normalization is the same as division by magnitude`` (a : Vector2) =
@ -448,7 +448,7 @@ module Vector2 =
if not (approxEq a.Length 0.0f) then
let norm = a / a.Length
Assert.ApproximatelyEqual(norm, Vector2.Normalize(a));
Assert.ApproximatelyEquivalent(norm, Vector2.Normalize(a));
[<Property>]
let ``Fast approximate normalization by reference is the same as multiplication by the fast inverse square`` (a : Vector2) =
@ -457,7 +457,7 @@ module Vector2 =
let norm = a * scale
let vRes = Vector2.NormalizeFast(ref a)
Assert.ApproximatelyEqual(norm, vRes)
Assert.ApproximatelyEquivalent(norm, vRes)
[<Property>]
let ``Fast approximate normalization is the same as multiplication by the fast inverse square`` (a : Vector2) =
@ -465,9 +465,9 @@ module Vector2 =
let norm = a * scale
Assert.ApproximatelyEqual(norm, Vector2.NormalizeFast(a));
Assert.ApproximatelyEquivalent(norm, Vector2.NormalizeFast(a));
[<Properties(Arbitrary = [| typeof<OpenTKGen> |], MaxTest = 10000)>]
[<Properties(Arbitrary = [| typeof<OpenTKGen> |])>]
module ``Magnitude min and max`` =
//
[<Property>]
@ -534,7 +534,7 @@ module Vector2 =
let v2LongerThanv1 = l2 > l1
Assert.True(v2LongerThanv1)
[<Properties(Arbitrary = [| typeof<OpenTKGen> |], MaxTest = 10000)>]
[<Properties(Arbitrary = [| typeof<OpenTKGen> |])>]
module ``Component min and max`` =
//
[<Property>]
@ -569,7 +569,7 @@ module Vector2 =
Assert.True(isComponentLargest vMax.X v1.X v2.X)
Assert.True(isComponentLargest vMax.Y v1.Y v2.Y)
[<Properties(Arbitrary = [| typeof<OpenTKGen> |], MaxTest = 10000)>]
[<Properties(Arbitrary = [| typeof<OpenTKGen> |])>]
module Transformation =
//
[<Property>]
@ -580,7 +580,7 @@ module Vector2 =
let transformedQuat = q * vectorQuat * inverse
let transformedVector = Vector2(transformedQuat.X, transformedQuat.Y)
Assert.ApproximatelyEqual(transformedVector, Vector2.Transform(v, q))
Assert.ApproximatelyEquivalent(transformedVector, Vector2.Transform(v, q))
[<Property>]
let ``Transformation by quaternion by reference is the same as multiplication by quaternion and its conjugate`` (v : Vector2, q : Quaternion) =
@ -590,9 +590,9 @@ module Vector2 =
let transformedQuat = q * vectorQuat * inverse
let transformedVector = Vector2(transformedQuat.X, transformedQuat.Y)
Assert.ApproximatelyEqual(transformedVector, Vector2.Transform(ref v, ref q))
Assert.ApproximatelyEquivalent(transformedVector, Vector2.Transform(ref v, ref q))
[<Properties(Arbitrary = [| typeof<OpenTKGen> |], MaxTest = 10000)>]
[<Properties(Arbitrary = [| typeof<OpenTKGen> |])>]
module Serialization =
//
[<Property>]

112
tests/OpenTK.Tests/Vector3Tests.fs
View file

@ -8,7 +8,7 @@ open System.Runtime.InteropServices
open OpenTK
module Vector3 =
[<Properties(Arbitrary = [| typeof<OpenTKGen> |], MaxTest = 10000)>]
[<Properties(Arbitrary = [| typeof<OpenTKGen> |])>]
module Constructors =
//
[<Property>]
@ -65,7 +65,7 @@ module Vector3 =
Assert.Equal(b, v2.Y)
Assert.Equal(c, v2.Z)
[<Properties(Arbitrary = [| typeof<OpenTKGen> |], MaxTest = 10000)>]
[<Properties(Arbitrary = [| typeof<OpenTKGen> |])>]
module Indexing =
//
[<Property>]
@ -100,7 +100,7 @@ module Vector3 =
(fun() -> v.[4] |> ignore) |> Assert.ThrowsIndexExn
[<Properties(Arbitrary = [| typeof<OpenTKGen> |], MaxTest = 10000)>]
[<Properties(Arbitrary = [| typeof<OpenTKGen> |])>]
module Length =
//
[<Property>]
@ -124,7 +124,7 @@ module Vector3 =
Assert.Equal(lsq, v.LengthSquared)
[<Properties(Arbitrary = [| typeof<OpenTKGen> |], MaxTest = 10000)>]
[<Properties(Arbitrary = [| typeof<OpenTKGen> |])>]
module Normalization =
//
[<Property>]
@ -136,9 +136,9 @@ module Vector3 =
if not (approxEq l 0.0f) then
let norm = v.Normalized()
Assert.ApproximatelyEqual(v.X / l, norm.X)
Assert.ApproximatelyEqual(v.Y / l, norm.Y)
Assert.ApproximatelyEqual(v.Z / l, norm.Z)
Assert.ApproximatelyEquivalent(v.X / l, norm.X)
Assert.ApproximatelyEquivalent(v.Y / l, norm.Y)
Assert.ApproximatelyEquivalent(v.Z / l, norm.Z)
[<Property>]
let ``Normalization of instance transforms the instance into a unit length vector with the correct components`` (a, b, c) =
@ -149,9 +149,9 @@ module Vector3 =
let norm = Vector3(a, b, c)
norm.Normalize()
Assert.ApproximatelyEqual(v.X / l, norm.X)
Assert.ApproximatelyEqual(v.Y / l, norm.Y)
Assert.ApproximatelyEqual(v.Z / l, norm.Z)
Assert.ApproximatelyEquivalent(v.X / l, norm.X)
Assert.ApproximatelyEquivalent(v.Y / l, norm.Y)
Assert.ApproximatelyEquivalent(v.Z / l, norm.Z)
[<Property>]
let ``Fast approximate normalization of instance transforms the instance into a unit length vector with the correct components`` (a, b, c) =
@ -161,9 +161,9 @@ module Vector3 =
let scale = MathHelper.InverseSqrtFast(a * a + b * b + c * c)
Assert.ApproximatelyEqual(v.X * scale, norm.X)
Assert.ApproximatelyEqual(v.Y * scale, norm.Y)
Assert.ApproximatelyEqual(v.Z * scale, norm.Z)
Assert.ApproximatelyEquivalent(v.X * scale, norm.X)
Assert.ApproximatelyEquivalent(v.Y * scale, norm.Y)
Assert.ApproximatelyEquivalent(v.Z * scale, norm.Z)
[<Property>]
let ``Normalization by reference is the same as division by magnitude`` (a : Vector3) =
@ -172,7 +172,7 @@ module Vector3 =
let norm = a / a.Length
let vRes = Vector3.Normalize(ref a)
Assert.ApproximatelyEqual(norm, vRes)
Assert.ApproximatelyEquivalent(norm, vRes)
[<Property>]
let ``Normalization is the same as division by magnitude`` (a : Vector3) =
@ -180,7 +180,7 @@ module Vector3 =
if not (approxEq a.Length 0.0f) then
let norm = a / a.Length
Assert.ApproximatelyEqual(norm, Vector3.Normalize(a));
Assert.ApproximatelyEquivalent(norm, Vector3.Normalize(a));
[<Property>]
let ``Fast approximate normalization by reference is the same as multiplication by the fast inverse square`` (a : Vector3) =
@ -189,7 +189,7 @@ module Vector3 =
let norm = a * scale
let vRes = Vector3.NormalizeFast(ref a)
Assert.ApproximatelyEqual(norm, vRes)
Assert.ApproximatelyEquivalent(norm, vRes)
[<Property>]
let ``Fast approximate normalization is the same as multiplication by fast inverse square`` (a : Vector3) =
@ -197,32 +197,32 @@ module Vector3 =
let norm = a * scale
Assert.ApproximatelyEqual(norm, Vector3.NormalizeFast(a));
Assert.ApproximatelyEquivalent(norm, Vector3.NormalizeFast(a));
[<Properties(Arbitrary = [| typeof<OpenTKGen> |], MaxTest = 10000)>]
[<Properties(Arbitrary = [| typeof<OpenTKGen> |])>]
module Addition =
//
[<Property>]
let ``Vector3 addition is the same as component addition`` (a : Vector3, b : Vector3) =
let c = a + b
Assert.ApproximatelyEqual(a.X + b.X,c.X)
Assert.ApproximatelyEqual(a.Y + b.Y,c.Y)
Assert.ApproximatelyEqual(a.Z + b.Z,c.Z)
Assert.ApproximatelyEquivalent(a.X + b.X,c.X)
Assert.ApproximatelyEquivalent(a.Y + b.Y,c.Y)
Assert.ApproximatelyEquivalent(a.Z + b.Z,c.Z)
[<Property>]
let ``Vector3 addition is commutative`` (a : Vector3, b : Vector3) =
let c = a + b
let c2 = b + a
Assert.ApproximatelyEqual(c, c2)
Assert.ApproximatelyEquivalent(c, c2)
[<Property>]
let ``Vector3 addition is associative`` (a : Vector3, b : Vector3, c : Vector3) =
let r1 = (a + b) + c
let r2 = a + (b + c)
Assert.ApproximatelyEqual(r1, r2)
Assert.ApproximatelyEquivalent(r1, r2)
[<Property>]
let ``Static Vector3 addition method is the same as component addition`` (a : Vector3, b : Vector3) =
@ -230,7 +230,7 @@ module Vector3 =
let v1 = Vector3(a.X + b.X, a.Y + b.Y, a.Z + b.Z)
let sum = Vector3.Add(a, b)
Assert.ApproximatelyEqual(v1, sum)
Assert.ApproximatelyEquivalent(v1, sum)
[<Property>]
let ``Static Vector3 addition method by reference is the same as component addition`` (a : Vector3, b : Vector3) =
@ -238,9 +238,9 @@ module Vector3 =
let v1 = Vector3(a.X + b.X, a.Y + b.Y, a.Z + b.Z)
let sum = Vector3.Add(ref a, ref b)
Assert.ApproximatelyEqual(v1, sum)
Assert.ApproximatelyEquivalent(v1, sum)
[<Properties(Arbitrary = [| typeof<OpenTKGen> |], MaxTest = 10000)>]
[<Properties(Arbitrary = [| typeof<OpenTKGen> |])>]
module Subtraction =
//
[<Property>]
@ -257,7 +257,7 @@ module Vector3 =
let v1 = Vector3(a.X - b.X, a.Y - b.Y, a.Z - b.Z)
let sum = Vector3.Subtract(a, b)
Assert.ApproximatelyEqual(v1, sum)
Assert.ApproximatelyEquivalent(v1, sum)
[<Property>]
let ``Static Vector3 subtraction method by reference is the same as component addition`` (a : Vector3, b : Vector3) =
@ -265,9 +265,9 @@ module Vector3 =
let v1 = Vector3(a.X - b.X, a.Y - b.Y, a.Z - b.Z)
let sum = Vector3.Subtract(ref a, ref b)
Assert.ApproximatelyEqual(v1, sum)
Assert.ApproximatelyEquivalent(v1, sum)
[<Properties(Arbitrary = [| typeof<OpenTKGen> |], MaxTest = 10000)>]
[<Properties(Arbitrary = [| typeof<OpenTKGen> |])>]
module Multiplication =
//
[<Property>]
@ -338,7 +338,7 @@ module Vector3 =
let v1 = Vector3(a.X * b.X, a.Y * b.Y, a.Z * b.Z)
let sum = Vector3.Multiply(a, b)
Assert.ApproximatelyEqual(v1, sum)
Assert.ApproximatelyEquivalent(v1, sum)
[<Property>]
let ``Static Vector3 multiplication method by reference is the same as component multiplication`` (a : Vector3, b : Vector3) =
@ -346,9 +346,9 @@ module Vector3 =
let v1 = Vector3(a.X * b.X, a.Y * b.Y, a.Z * b.Z)
let sum = Vector3.Multiply(ref a, ref b)
Assert.ApproximatelyEqual(v1, sum)
Assert.ApproximatelyEquivalent(v1, sum)
[<Properties(Arbitrary = [| typeof<OpenTKGen> |], MaxTest = 10000)>]
[<Properties(Arbitrary = [| typeof<OpenTKGen> |])>]
module Division =
//
[<Property>]
@ -356,9 +356,9 @@ module Vector3 =
if not (approxEq f 0.0f) then // we don't support diving by zero.
let r = a / f
Assert.ApproximatelyEqual(a.X / f,r.X)
Assert.ApproximatelyEqual(a.Y / f,r.Y)
Assert.ApproximatelyEqual(a.Z / f,r.Z)
Assert.ApproximatelyEquivalent(a.X / f,r.X)
Assert.ApproximatelyEquivalent(a.Y / f,r.Y)
Assert.ApproximatelyEquivalent(a.Z / f,r.Z)
[<Property>]
let ``Static Vector3-Vector3 division method is the same as component division`` (a : Vector3, b : Vector3) =
@ -366,7 +366,7 @@ module Vector3 =
let v1 = Vector3(a.X / b.X, a.Y / b.Y, a.Z / b.Z)
let sum = Vector3.Divide(a, b)
Assert.ApproximatelyEqual(v1, sum)
Assert.ApproximatelyEquivalent(v1, sum)
[<Property>]
let ``Static Vector3-Vector3 divison method by reference is the same as component division`` (a : Vector3, b : Vector3) =
@ -374,7 +374,7 @@ module Vector3 =
let v1 = Vector3(a.X / b.X, a.Y / b.Y, a.Z / b.Z)
let sum = Vector3.Divide(ref a, ref b)
Assert.ApproximatelyEqual(v1, sum)
Assert.ApproximatelyEquivalent(v1, sum)
[<Property>]
let ``Static Vector3-scalar division method is the same as component division`` (a : Vector3, b : float32) =
@ -382,7 +382,7 @@ module Vector3 =
let v1 = Vector3(a.X / b, a.Y / b, a.Z / b)
let sum = Vector3.Divide(a, b)
Assert.ApproximatelyEqual(v1, sum)
Assert.ApproximatelyEquivalent(v1, sum)
[<Property>]
let ``Static Vector3-scalar divison method by reference is the same as component division`` (a : Vector3, b : float32) =
@ -390,9 +390,9 @@ module Vector3 =
let v1 = Vector3(a.X / b, a.Y / b, a.Z / b)
let sum = Vector3.Divide(ref a, b)
Assert.ApproximatelyEqual(v1, sum)
Assert.ApproximatelyEquivalent(v1, sum)
[<Properties(Arbitrary = [| typeof<OpenTKGen> |], MaxTest = 10000)>]
[<Properties(Arbitrary = [| typeof<OpenTKGen> |])>]
module Negation =
//
[<Property>]
@ -403,7 +403,7 @@ module Vector3 =
Assert.Equal(-y, vNeg.Y)
Assert.Equal(-z, vNeg.Z)
[<Properties(Arbitrary = [| typeof<OpenTKGen> |], MaxTest = 10000)>]
[<Properties(Arbitrary = [| typeof<OpenTKGen> |])>]
module Equality =
//
[<Property>]
@ -434,7 +434,7 @@ module Vector3 =
Assert.True(equality)
Assert.False(inequalityByOtherType)
[<Properties(Arbitrary = [| typeof<OpenTKGen> |], MaxTest = 10000)>]
[<Properties(Arbitrary = [| typeof<OpenTKGen> |])>]
module Swizzling =
//
[<Property>]
@ -479,7 +479,7 @@ module Vector3 =
Assert.Equal(zx, v.Zx);
Assert.Equal(zy, v.Zy);
[<Properties(Arbitrary = [| typeof<OpenTKGen> |], MaxTest = 10000)>]
[<Properties(Arbitrary = [| typeof<OpenTKGen> |])>]
module Interpolation =
//
[<Property>]
@ -507,7 +507,7 @@ module Vector3 =
let vRes = Vector3.BaryCentric(ref a, ref b, ref c, u, v)
Assert.Equal(r, vRes)
[<Properties(Arbitrary = [| typeof<OpenTKGen> |], MaxTest = 10000)>]
[<Properties(Arbitrary = [| typeof<OpenTKGen> |])>]
module ``Vector products`` =
//
[<Property>]
@ -531,7 +531,7 @@ module Vector3 =
let vRes = Vector3.Cross(ref a, ref b)
Assert.Equal(cross, vRes)
[<Properties(Arbitrary = [| typeof<OpenTKGen> |], MaxTest = 10000)>]
[<Properties(Arbitrary = [| typeof<OpenTKGen> |])>]
module ``Magnitude min and max`` =
//
[<Property>]
@ -598,7 +598,7 @@ module Vector3 =
let v2LongerThanv1 = l2 > l1
Assert.True(v2LongerThanv1)
[<Properties(Arbitrary = [| typeof<OpenTKGen> |], MaxTest = 10000)>]
[<Properties(Arbitrary = [| typeof<OpenTKGen> |])>]
module ``Component min and max`` =
//
[<Property>]
@ -637,7 +637,7 @@ module Vector3 =
Assert.True(isComponentLargest vMax.Y v1.Y v2.Y)
Assert.True(isComponentLargest vMax.Z v1.Z v2.Z)
[<Properties(Arbitrary = [| typeof<OpenTKGen> |], MaxTest = 10000)>]
[<Properties(Arbitrary = [| typeof<OpenTKGen> |])>]
module Clamping =
//
[<Property>]
@ -664,7 +664,7 @@ module Vector3 =
Assert.Equal(expY, res.Y)
Assert.Equal(expZ, res.Z)
[<Properties(Arbitrary = [| typeof<OpenTKGen> |], MaxTest = 10000)>]
[<Properties(Arbitrary = [| typeof<OpenTKGen> |])>]
module ``Unit vectors``=
//
[<Property>]
@ -697,7 +697,7 @@ module Vector3 =
Assert.Equal(Vector3.One, unitOne)
[<Properties(Arbitrary = [| typeof<OpenTKGen> |], MaxTest = 10000)>]
[<Properties(Arbitrary = [| typeof<OpenTKGen> |])>]
module Serialization =
//
[<Property>]
@ -707,7 +707,7 @@ module Vector3 =
Assert.Equal(expectedSize, Vector3.SizeInBytes)
Assert.Equal(expectedSize, Marshal.SizeOf(Vector3()))
[<Properties(Arbitrary = [| typeof<OpenTKGen> |], MaxTest = 10000)>]
[<Properties(Arbitrary = [| typeof<OpenTKGen> |])>]
module Transformation =
//
[<Property>]
@ -718,7 +718,7 @@ module Vector3 =
let transformedQuat = q * vectorQuat * inverse
let transformedVector = transformedQuat.Xyz
Assert.ApproximatelyEqual(transformedVector, Vector3.Transform(v, q))
Assert.ApproximatelyEquivalent(transformedVector, Vector3.Transform(v, q))
[<Property>]
let ``Transformation by quaternion by reference is the same as multiplication by quaternion and its conjugate`` (v : Vector3, q : Quaternion) =
@ -728,7 +728,7 @@ module Vector3 =
let transformedQuat = q * vectorQuat * inverse
let transformedVector = transformedQuat.Xyz
Assert.ApproximatelyEqual(transformedVector, Vector3.Transform(ref v, ref q))
Assert.ApproximatelyEquivalent(transformedVector, Vector3.Transform(ref v, ref q))
[<Property>]
let ``Transformation by quaternion by multiplication using right-handed notation is the same as multiplication by quaternion and its conjugate`` (v : Vector3, q : Quaternion) =
@ -738,7 +738,7 @@ module Vector3 =
let transformedQuat = q * vectorQuat * inverse
let transformedVector = transformedQuat.Xyz
Assert.ApproximatelyEqual(transformedVector, q * v)
Assert.ApproximatelyEquivalent(transformedVector, q * v)
[<Property>]
let ``Transformation by identity quaternion does not alter vector`` (v : Vector3) =
@ -749,6 +749,6 @@ module Vector3 =
let transformedQuat = q * vectorQuat * inverse
let transformedVector = transformedQuat.Xyz
Assert.ApproximatelyEqual(v, transformedVector)
Assert.ApproximatelyEqual(v, Vector3.Transform(v, q))
Assert.ApproximatelyEqual(transformedVector, Vector3.Transform(v, q))
Assert.ApproximatelyEquivalent(v, transformedVector)
Assert.ApproximatelyEquivalent(v, Vector3.Transform(v, q))
Assert.ApproximatelyEquivalent(transformedVector, Vector3.Transform(v, q))

116
tests/OpenTK.Tests/Vector4Tests.fs
View file

@ -8,7 +8,7 @@ open System.Runtime.InteropServices
open OpenTK
module Vector4 =
[<Properties(Arbitrary = [| typeof<OpenTKGen> |], MaxTest = 10000)>]
[<Properties(Arbitrary = [| typeof<OpenTKGen> |])>]
module Constructors =
//
[<Property>]
@ -85,7 +85,7 @@ module Vector4 =
Assert.Equal(z, v2.Z)
Assert.Equal(w, v2.W)
[<Properties(Arbitrary = [| typeof<OpenTKGen> |], MaxTest = 10000)>]
[<Properties(Arbitrary = [| typeof<OpenTKGen> |])>]
module Indexing =
//
[<Property>]
@ -121,7 +121,7 @@ module Vector4 =
(fun() -> v.[4] |> ignore) |> Assert.ThrowsIndexExn
[<Properties(Arbitrary = [| typeof<OpenTKGen> |], MaxTest = 10000)>]
[<Properties(Arbitrary = [| typeof<OpenTKGen> |])>]
module Length =
//
[<Property>]
@ -145,7 +145,7 @@ module Vector4 =
Assert.Equal(lsq, v.LengthSquared)
[<Properties(Arbitrary = [| typeof<OpenTKGen> |], MaxTest = 10000)>]
[<Properties(Arbitrary = [| typeof<OpenTKGen> |])>]
module Normalization =
//
[<Property>]
@ -157,10 +157,10 @@ module Vector4 =
if not (approxEq l 0.0f) then
let norm = v.Normalized()
Assert.ApproximatelyEqual(v.X / l, norm.X)
Assert.ApproximatelyEqual(v.Y / l, norm.Y)
Assert.ApproximatelyEqual(v.Z / l, norm.Z)
Assert.ApproximatelyEqual(v.W / l, norm.W)
Assert.ApproximatelyEquivalent(v.X / l, norm.X)
Assert.ApproximatelyEquivalent(v.Y / l, norm.Y)
Assert.ApproximatelyEquivalent(v.Z / l, norm.Z)
Assert.ApproximatelyEquivalent(v.W / l, norm.W)
[<Property>]
let ``Normalization of instance transforms the instance into a unit length vector with the correct components`` (x, y, z, w) =
@ -172,10 +172,10 @@ module Vector4 =
let norm = Vector4(x, y, z, w)
norm.Normalize()
Assert.ApproximatelyEqual(v.X / l, norm.X)
Assert.ApproximatelyEqual(v.Y / l, norm.Y)
Assert.ApproximatelyEqual(v.Z / l, norm.Z)
Assert.ApproximatelyEqual(v.W / l, norm.W)
Assert.ApproximatelyEquivalent(v.X / l, norm.X)
Assert.ApproximatelyEquivalent(v.Y / l, norm.Y)
Assert.ApproximatelyEquivalent(v.Z / l, norm.Z)
Assert.ApproximatelyEquivalent(v.W / l, norm.W)
[<Property>]
let ``Fast approximate normalization of instance transforms the instance into a unit length vector with the correct components`` (x, y, z, w) =
@ -185,10 +185,10 @@ module Vector4 =
let scale = MathHelper.InverseSqrtFast(x * x + y * y + z * z + w * w)
Assert.ApproximatelyEqual(v.X * scale, norm.X)
Assert.ApproximatelyEqual(v.Y * scale, norm.Y)
Assert.ApproximatelyEqual(v.Z * scale, norm.Z)
Assert.ApproximatelyEqual(v.W * scale, norm.W)
Assert.ApproximatelyEquivalent(v.X * scale, norm.X)
Assert.ApproximatelyEquivalent(v.Y * scale, norm.Y)
Assert.ApproximatelyEquivalent(v.Z * scale, norm.Z)
Assert.ApproximatelyEquivalent(v.W * scale, norm.W)
[<Property>]
let ``Normalization by reference is the same as division by magnitude`` (a : Vector4) =
@ -197,7 +197,7 @@ module Vector4 =
let norm = a / a.Length
let vRes = Vector4.Normalize(ref a)
Assert.ApproximatelyEqual(norm, vRes)
Assert.ApproximatelyEquivalent(norm, vRes)
[<Property>]
let ``Normalization is the same as division by magnitude`` (a : Vector4) =
@ -205,7 +205,7 @@ module Vector4 =
if not (approxEq a.Length 0.0f) then
let norm = a / a.Length
Assert.ApproximatelyEqual(norm, Vector4.Normalize(a));
Assert.ApproximatelyEquivalent(norm, Vector4.Normalize(a));
[<Property>]
let ``Fast approximate normalization by reference is the same as multiplication by the fast inverse square`` (a : Vector4) =
@ -214,40 +214,40 @@ module Vector4 =
let norm = a * scale
let vRes = Vector4.NormalizeFast(ref a)
Assert.ApproximatelyEqual(norm, vRes)
Assert.ApproximatelyEquivalent(norm, vRes)
[<Property>]
let ``Fast approximate normalization is the same as multiplication by the fast inverse square`` (a : Vector4) =
let scale = MathHelper.InverseSqrtFast(a.X * a.X + a.Y * a.Y + a.Z * a.Z + a.W * a.W)
let norm = a * scale
Assert.ApproximatelyEqual(norm, Vector4.NormalizeFast(a));
Assert.ApproximatelyEquivalent(norm, Vector4.NormalizeFast(a));
[<Properties(Arbitrary = [| typeof<OpenTKGen> |], MaxTest = 10000)>]
[<Properties(Arbitrary = [| typeof<OpenTKGen> |])>]
module Addition =
//
[<Property>]
let ``Vector4 addition is the same as component addition`` (a : Vector4, b : Vector4) =
let c = a + b
Assert.ApproximatelyEqual(a.X + b.X,c.X)
Assert.ApproximatelyEqual(a.Y + b.Y,c.Y)
Assert.ApproximatelyEqual(a.Z + b.Z,c.Z)
Assert.ApproximatelyEqual(a.W + b.W,c.W)
Assert.ApproximatelyEquivalent(a.X + b.X,c.X)
Assert.ApproximatelyEquivalent(a.Y + b.Y,c.Y)
Assert.ApproximatelyEquivalent(a.Z + b.Z,c.Z)
Assert.ApproximatelyEquivalent(a.W + b.W,c.W)
[<Property>]
let ``Vector4 addition is commutative`` (a : Vector4, b : Vector4) =
let c = a + b
let c2 = b + a
Assert.ApproximatelyEqual(c, c2)
Assert.ApproximatelyEquivalent(c, c2)
[<Property>]
let ``Vector4 addition is associative`` (a : Vector4, b : Vector4, c : Vector4) =
let r1 = (a + b) + c
let r2 = a + (b + c)
Assert.ApproximatelyEqual(r1, r2)
Assert.ApproximatelyEquivalent(r1, r2)
[<Property>]
let ``Static Vector4 addition method is the same as component addition`` (a : Vector4, b : Vector4) =
@ -255,7 +255,7 @@ module Vector4 =
let v1 = Vector4(a.X + b.X, a.Y + b.Y, a.Z + b.Z, a.W + b.W)
let sum = Vector4.Add(a, b)
Assert.ApproximatelyEqual(v1, sum)
Assert.ApproximatelyEquivalent(v1, sum)
[<Property>]
let ``Static Vector4 addition method by reference is the same as component addition`` (a : Vector4, b : Vector4) =
@ -263,9 +263,9 @@ module Vector4 =
let v1 = Vector4(a.X + b.X, a.Y + b.Y, a.Z + b.Z, a.W + b.W)
let sum = Vector4.Add(ref a, ref b)
Assert.ApproximatelyEqual(v1, sum)
Assert.ApproximatelyEquivalent(v1, sum)
[<Properties(Arbitrary = [| typeof<OpenTKGen> |], MaxTest = 10000)>]
[<Properties(Arbitrary = [| typeof<OpenTKGen> |])>]
module Subtraction =
//
[<Property>]
@ -283,7 +283,7 @@ module Vector4 =
let v1 = Vector4(a.X - b.X, a.Y - b.Y, a.Z - b.Z, a.W - b.W)
let sum = Vector4.Subtract(a, b)
Assert.ApproximatelyEqual(v1, sum)
Assert.ApproximatelyEquivalent(v1, sum)
[<Property>]
let ``Static Vector4 subtraction method by reference is the same as component addition`` (a : Vector4, b : Vector4) =
@ -291,9 +291,9 @@ module Vector4 =
let v1 = Vector4(a.X - b.X, a.Y - b.Y, a.Z - b.Z, a.W - b.W)
let sum = Vector4.Subtract(ref a, ref b)
Assert.ApproximatelyEqual(v1, sum)
Assert.ApproximatelyEquivalent(v1, sum)
[<Properties(Arbitrary = [| typeof<OpenTKGen> |], MaxTest = 10000)>]
[<Properties(Arbitrary = [| typeof<OpenTKGen> |])>]
module Multiplication =
//
[<Property>]
@ -371,7 +371,7 @@ module Vector4 =
let v1 = Vector4(a.X * b.X, a.Y * b.Y, a.Z * b.Z, a.W * b.W)
let sum = Vector4.Multiply(a, b)
Assert.ApproximatelyEqual(v1, sum)
Assert.ApproximatelyEquivalent(v1, sum)
[<Property>]
let ``Static Vector4 multiplication method by reference is the same as component multiplication`` (a : Vector4, b : Vector4) =
@ -379,9 +379,9 @@ module Vector4 =
let v1 = Vector4(a.X * b.X, a.Y * b.Y, a.Z * b.Z, a.W * b.W)
let sum = Vector4.Multiply(ref a, ref b)
Assert.ApproximatelyEqual(v1, sum)
Assert.ApproximatelyEquivalent(v1, sum)
[<Properties(Arbitrary = [| typeof<OpenTKGen> |], MaxTest = 10000)>]
[<Properties(Arbitrary = [| typeof<OpenTKGen> |])>]
module Division =
//
[<Property>]
@ -389,10 +389,10 @@ module Vector4 =
if not (approxEq f 0.0f) then // we don't support diving by zero.
let r = a / f
Assert.ApproximatelyEqual(a.X / f, r.X)
Assert.ApproximatelyEqual(a.Y / f, r.Y)
Assert.ApproximatelyEqual(a.Z / f, r.Z)
Assert.ApproximatelyEqual(a.W / f, r.W)
Assert.ApproximatelyEquivalent(a.X / f, r.X)
Assert.ApproximatelyEquivalent(a.Y / f, r.Y)
Assert.ApproximatelyEquivalent(a.Z / f, r.Z)
Assert.ApproximatelyEquivalent(a.W / f, r.W)
[<Property>]
let ``Static Vector4-Vector4 division method is the same as component division`` (a : Vector4, b : Vector4) =
@ -400,7 +400,7 @@ module Vector4 =
let v1 = Vector4(a.X / b.X, a.Y / b.Y, a.Z / b.Z, a.W / b.W)
let sum = Vector4.Divide(a, b)
Assert.ApproximatelyEqual(v1, sum)
Assert.ApproximatelyEquivalent(v1, sum)
[<Property>]
let ``Static Vector4-Vector4 divison method by reference is the same as component division`` (a : Vector4, b : Vector4) =
@ -408,7 +408,7 @@ module Vector4 =
let v1 = Vector4(a.X / b.X, a.Y / b.Y, a.Z / b.Z, a.W / b.W)
let sum = Vector4.Divide(ref a, ref b)
Assert.ApproximatelyEqual(v1, sum)
Assert.ApproximatelyEquivalent(v1, sum)
[<Property>]
let ``Static Vector4-scalar division method is the same as component division`` (a : Vector4, b : float32) =
@ -416,7 +416,7 @@ module Vector4 =
let v1 = Vector4(a.X / b, a.Y / b, a.Z / b, a.W / b)
let sum = Vector4.Divide(a, b)
Assert.ApproximatelyEqual(v1, sum)
Assert.ApproximatelyEquivalent(v1, sum)
[<Property>]
let ``Static Vector4-scalar divison method by reference is the same as component division`` (a : Vector4, b : float32) =
@ -424,9 +424,9 @@ module Vector4 =
let v1 = Vector4(a.X / b, a.Y / b, a.Z / b, a.W / b)
let sum = Vector4.Divide(ref a, b)
Assert.ApproximatelyEqual(v1, sum)
Assert.ApproximatelyEquivalent(v1, sum)
[<Properties(Arbitrary = [| typeof<OpenTKGen> |], MaxTest = 10000)>]
[<Properties(Arbitrary = [| typeof<OpenTKGen> |])>]
module Negation =
//
[<Property>]
@ -438,7 +438,7 @@ module Vector4 =
Assert.Equal(-z, vNeg.Z)
Assert.Equal(-w, vNeg.W)
[<Properties(Arbitrary = [| typeof<OpenTKGen> |], MaxTest = 10000)>]
[<Properties(Arbitrary = [| typeof<OpenTKGen> |])>]
module Equality =
//
[<Property>]
@ -478,7 +478,7 @@ module Vector4 =
Assert.False(inequalityByOtherType)
[<Properties(Arbitrary = [| typeof<OpenTKGen> |], MaxTest = 10000)>]
[<Properties(Arbitrary = [| typeof<OpenTKGen> |])>]
module Swizzling =
//
[<Property>]
@ -657,7 +657,7 @@ module Vector4 =
Assert.Equal(wy, v.Wy)
Assert.Equal(wz, v.Wz)
[<Properties(Arbitrary = [| typeof<OpenTKGen> |], MaxTest = 10000)>]
[<Properties(Arbitrary = [| typeof<OpenTKGen> |])>]
module Interpolation =
//
[<Property>]
@ -686,7 +686,7 @@ module Vector4 =
let vRes = Vector4.BaryCentric(ref a, ref b, ref c, u, v)
Assert.Equal(r, vRes)
[<Properties(Arbitrary = [| typeof<OpenTKGen> |], MaxTest = 10000)>]
[<Properties(Arbitrary = [| typeof<OpenTKGen> |])>]
module ``Vector products`` =
//
[<Property>]
@ -698,7 +698,7 @@ module Vector4 =
let vRes = Vector4.Dot(ref a, ref b)
Assert.Equal(dot, vRes)
[<Properties(Arbitrary = [| typeof<OpenTKGen> |], MaxTest = 10000)>]
[<Properties(Arbitrary = [| typeof<OpenTKGen> |])>]
module ``Magnitude min and max`` =
//
[<Property>]
@ -765,7 +765,7 @@ module Vector4 =
let v2LongerThanv1 = l2 > l1
Assert.True(v2LongerThanv1)
[<Properties(Arbitrary = [| typeof<OpenTKGen> |], MaxTest = 10000)>]
[<Properties(Arbitrary = [| typeof<OpenTKGen> |])>]
module ``Component min and max`` =
//
[<Property>]
@ -809,7 +809,7 @@ module Vector4 =
Assert.True(isComponentLargest vMax.W v1.W v2.W)
[<Properties(Arbitrary = [| typeof<OpenTKGen> |], MaxTest = 10000)>]
[<Properties(Arbitrary = [| typeof<OpenTKGen> |])>]
module Clamping =
//
[<Property>]
@ -840,7 +840,7 @@ module Vector4 =
Assert.Equal(expZ, res.Z)
Assert.Equal(expW, res.W)
[<Properties(Arbitrary = [| typeof<OpenTKGen> |], MaxTest = 10000)>]
[<Properties(Arbitrary = [| typeof<OpenTKGen> |])>]
module ``Unit vectors``=
//
[<Property>]
@ -879,7 +879,7 @@ module Vector4 =
Assert.Equal(Vector4.One, unitOne)
[<Properties(Arbitrary = [| typeof<OpenTKGen> |], MaxTest = 10000)>]
[<Properties(Arbitrary = [| typeof<OpenTKGen> |])>]
module Serialization =
//
[<Property>]
@ -889,7 +889,7 @@ module Vector4 =
Assert.Equal(expectedSize, Vector4.SizeInBytes)
Assert.Equal(expectedSize, Marshal.SizeOf(Vector4()))
[<Properties(Arbitrary = [| typeof<OpenTKGen> |], MaxTest = 10000)>]
[<Properties(Arbitrary = [| typeof<OpenTKGen> |])>]
module Transformation =
//
[<Property>]
@ -900,7 +900,7 @@ module Vector4 =
let transformedQuat = q * vectorQuat * inverse
let transformedVector = Vector4(transformedQuat.X, transformedQuat.Y, transformedQuat.Z, transformedQuat.W)
Assert.ApproximatelyEqual(transformedVector, Vector4.Transform(v, q))
Assert.ApproximatelyEquivalent(transformedVector, Vector4.Transform(v, q))
[<Property>]
let ``Transformation by quaternion with static method by reference is the same as multiplication by quaternion and its conjugate`` (v : Vector4, q : Quaternion) =
@ -910,7 +910,7 @@ module Vector4 =
let transformedQuat = q * vectorQuat * inverse
let transformedVector = Vector4(transformedQuat.X, transformedQuat.Y,transformedQuat.Z, transformedQuat.W)
Assert.ApproximatelyEqual(transformedVector, Vector4.Transform(ref v, ref q))
Assert.ApproximatelyEquivalent(transformedVector, Vector4.Transform(ref v, ref q))
[<Property>]
let ``Transformation by quaternion by multiplication using right-handed notation is the same as multiplication by quaternion and its conjugate`` (v : Vector4, q : Quaternion) =
@ -920,4 +920,4 @@ module Vector4 =
let transformedQuat = q * vectorQuat * inverse
let transformedVector = Vector4(transformedQuat.X, transformedQuat.Y, transformedQuat.Z, transformedQuat.W)
Assert.ApproximatelyEqual(transformedVector, q * v)
Assert.ApproximatelyEquivalent(transformedVector, q * v)