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// RUN: %target-run-simple-swift
// REQUIRES: executable_test
// Test is unexpectedly passing on no_assert config on Linux
// REQUIRES: rdar89860761
// FIXME: Disabled due to test failure with `-O` (https://github.com/apple/swift/issues/55690).
// XFAIL: swift_test_mode_optimize
// XFAIL: swift_test_mode_optimize_size
// XFAIL: swift_test_mode_optimize_unchecked
import StdlibUnittest
import DifferentiationUnittest
// Test end-to-end differentiation of `@differentiable` protocol requirements.
var ProtocolRequirementAutodiffTests = TestSuite("ProtocolRequirementDifferentiation")
// MARK: - Method requirements.
protocol DiffReq: Differentiable {
@differentiable(reverse, wrt: (self, x))
func f(_ x: Tracked<Float>) -> Tracked<Float>
}
extension DiffReq where TangentVector: AdditiveArithmetic {
@inline(never) // Prevent specialization, to test all witness code.
func gradF(at x: Tracked<Float>) -> (Self.TangentVector, Tracked<Float>) {
return (valueWithPullback(at: self, x) { s, x in s.f(x) }).1(1)
}
}
struct Quadratic: DiffReq, AdditiveArithmetic {
typealias TangentVector = Quadratic
@differentiable(reverse)
let a: Tracked<Float>
@differentiable(reverse)
let b: Tracked<Float>
@differentiable(reverse)
let c: Tracked<Float>
init(_ a: Tracked<Float>, _ b: Tracked<Float>, _ c: Tracked<Float>) {
self.a = a
self.b = b
self.c = c
}
@differentiable(reverse, wrt: (self, x))
func f(_ x: Tracked<Float>) -> Tracked<Float> {
return a * x * x + b * x + c
}
}
ProtocolRequirementAutodiffTests.testWithLeakChecking("func") {
expectEqual((Quadratic(0, 0, 1), 12), Quadratic(11, 12, 13).gradF(at: 0))
expectEqual((Quadratic(1, 1, 1), 2 * 11 + 12),
Quadratic(11, 12, 13).gradF(at: 1))
expectEqual((Quadratic(4, 2, 1), 2 * 11 * 2 + 12),
Quadratic(11, 12, 13).gradF(at: 2))
}
// MARK: - Constructor, accessor, and subscript requirements.
protocol FunctionsOfX: Differentiable {
@differentiable(reverse)
init(x: Tracked<Float>)
@differentiable(reverse)
var x: Tracked<Float> { get }
@differentiable(reverse)
var y: Tracked<Float> { get }
@differentiable(reverse)
var z: Tracked<Float> { get }
@differentiable(reverse)
subscript() -> Tracked<Float> { get }
}
struct TestFunctionsOfX: FunctionsOfX {
@differentiable(reverse)
init(x: Tracked<Float>) {
self.x = x
self.y = x * x
}
/// x = x
var x: Tracked<Float>
/// y = x * x
var y: Tracked<Float>
/// z = x * x + x
var z: Tracked<Float> {
return y + x
}
@differentiable(reverse)
subscript() -> Tracked<Float> {
return z
}
}
@inline(never) // Prevent specialization, to test all witness code.
func derivatives<F: FunctionsOfX>(at x: Tracked<Float>, of: F.Type)
-> (Tracked<Float>, Tracked<Float>, Tracked<Float>, Tracked<Float>)
{
let dxdx = gradient(at: x) { x in F(x: x).x }
let dydx = gradient(at: x) { x in F(x: x).y }
let dzdx = gradient(at: x) { x in F(x: x).z }
let dsubscriptdx = gradient(at: x) { x in F(x: x)[] }
return (dxdx, dydx, dzdx, dsubscriptdx)
}
ProtocolRequirementAutodiffTests.testWithLeakChecking("constructor, accessor, subscript") {
expectEqual(
(1.0, 4.0, 5.0, 5.0),
derivatives(at: 2.0, of: TestFunctionsOfX.self))
}
// MARK: - Test witness method SIL type computation.
protocol P: Differentiable {
@differentiable(reverse, wrt: (x, y))
func foo(_ x: Tracked<Float>, _ y: Double) -> Tracked<Float>
}
struct S: P {
@differentiable(reverse, wrt: (x, y))
func foo(_ x: Tracked<Float>, _ y: Double) -> Tracked<Float> {
return x
}
}
// MARK: - Overriding protocol method adding `@differentiable` attribute.
public protocol Distribution {
associatedtype Value
func logProbability(of value: Value) -> Tracked<Float>
}
public protocol DifferentiableDistribution: Differentiable, Distribution {
@differentiable(reverse, wrt: self)
func logProbability(of value: Value) -> Tracked<Float>
}
struct Foo: DifferentiableDistribution {
@differentiable(reverse, wrt: self)
func logProbability(of value: Tracked<Float>) -> Tracked<Float> {
.zero
}
}
@differentiable(reverse)
func blah<T: DifferentiableDistribution>(_ x: T) -> Tracked<Float>
where T.Value: AdditiveArithmetic {
x.logProbability(of: .zero)
}
// Adding a more general `@differentiable` attribute.
public protocol DoubleDifferentiableDistribution: DifferentiableDistribution
where Value: Differentiable {
@differentiable(reverse, wrt: self)
@differentiable(reverse, wrt: (self, value))
func logProbability(of value: Value) -> Tracked<Float>
}
@differentiable(reverse)
func blah2<T: DoubleDifferentiableDistribution>(_ x: T, _ value: T.Value) -> Tracked<Float>
where T.Value: AdditiveArithmetic {
x.logProbability(of: value)
}
// Satisfying the requirement with more wrt parameter indices than are necessary.
protocol DifferentiableFoo {
associatedtype T: Differentiable
@differentiable(reverse, wrt: x)
func foo(_ x: T) -> Tracked<Float>
}
protocol MoreDifferentiableFoo: Differentiable, DifferentiableFoo {
@differentiable(reverse, wrt: (self, x))
func foo(_ x: T) -> Tracked<Float>
}
struct MoreDifferentiableFooStruct: MoreDifferentiableFoo {
@differentiable(reverse, wrt: (self, x))
func foo(_ x: Tracked<Float>) -> Tracked<Float> {
x
}
}
// Satisfying the requirement with a less-constrained derivative than is necessary.
protocol ExtraDerivativeConstraint {}
protocol HasExtraConstrainedDerivative {
@differentiable(reverse)
func requirement<T: Differentiable & ExtraDerivativeConstraint>(_ x: T) -> T
}
struct SatisfiesDerivativeWithLessConstraint: HasExtraConstrainedDerivative {
@differentiable(reverse)
func requirement<T: Differentiable>(_ x: T) -> T { x }
}
runAllTests()
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