Fix SpreadZ decomposition utility

src/Simulation/TargetDefinitions/Decompositions/Utils.qs

@@ -6,12 +6,12 @@ namespace Microsoft.Quantum.Intrinsic {
 
     internal operation SpreadZ (from : Qubit, to : Qubit[]) : Unit is Adj {
         if (Length(to) > 0) {
-            CNOT(to[0], from);
             if (Length(to) > 1) {
                 let half = Length(to) / 2;
                 SpreadZ(to[0], to[half + 1 .. Length(to) - 1]);
                 SpreadZ(from, to[1 .. half]);
             }
+            CNOT(to[0], from);
         }
     }
 

src/Simulation/TargetDefinitions/Tests/DecompositionTests.qs

@@ -106,6 +106,16 @@ namespace DecompositionTests {
         VerifyUnitaryAndFunctors2(SWAP, Reference.SWAP);
     }
 
+    @Test("SparseSimulator")
+    operation VerifyExp() : Unit {
+        // Use an angle that doesn't have any symmetries as a stand-in for broader validation.
+        let angle = PI() / 7.0;
+        VerifyUnitaryAndFunctors(q => Exp([PauliZ], angle, [q]), q => Reference.Exp([PauliZ], angle, [q]));
+        VerifyUnitaryAndFunctors2((q0, q1) => Exp([PauliZ, size = 2], angle, [q0, q1]), (q0, q1) => Reference.Exp([PauliZ, size = 2], angle, [q0, q1]));
+        VerifyUnitaryAndFunctors3((q0, q1, q2) => Exp([PauliZ, size = 3], angle, [q0, q1, q2]), (q0, q1, q2) => Reference.Exp([PauliZ, size = 3], angle, [q0, q1, q2]));
+        VerifyUnitaryAndFunctors4((q0, q1, q2, q3) => Exp([PauliZ, size = 4], angle, [q0, q1, q2, q3]), (q0, q1, q2, q3) => Reference.Exp([PauliZ, size = 4], angle, [q0, q1, q2, q3]));
+    }
+
     internal operation VerifyUnitaryAndFunctors(unitary : Qubit => Unit is Adj + Ctl, reference : Qubit => Unit is Adj + Ctl) : Unit {
         VerifyUnitary(unitary, reference, 8);
         VerifyUnitary(Adjoint unitary, Adjoint reference, 8);
@@ -127,6 +137,13 @@ namespace DecompositionTests {
         VerifyUnitary4((q0, q1, q2, q3) => Controlled Adjoint unitary([q0], (q1, q2, q3)), (q0, q1, q2, q3) => Controlled Adjoint reference([q0], (q1, q2, q3)), 7);
     }
 
+    internal operation VerifyUnitaryAndFunctors4(unitary : (Qubit, Qubit, Qubit, Qubit) => Unit is Adj + Ctl, reference : (Qubit, Qubit, Qubit, Qubit) => Unit is Adj + Ctl) : Unit {
+        VerifyUnitary4(unitary, reference, 8);
+        VerifyUnitary4(Adjoint unitary, Adjoint reference, 8);
+        VerifyUnitary5((q0, q1, q2, q3, q4) => Controlled unitary([q0], (q1, q2, q3, q4)), (q0, q1, q2, q3, q4) => Controlled reference([q0], (q1, q2, q3, q4)), 7);
+        VerifyUnitary5((q0, q1, q2, q3, q4) => Controlled Adjoint unitary([q0], (q1, q2, q3, q4)), (q0, q1, q2, q3, q4) => Controlled Adjoint reference([q0], (q1, q2, q3, q4)), 7);
+    }
+
     internal operation VerifyUnitary(unitary : Qubit => Unit is Adj + Ctl, reference : Qubit => Unit is Adj + Ctl, limit : Int) : Unit {
         // Verify equality up to 8 controls.
         Reference.AssertOperationsEqualReferenced(1, qs => unitary(qs[0]),
@@ -170,4 +187,15 @@ namespace DecompositionTests {
                 qs => Controlled reference(qs[4..(numControls + 3)], (qs[0], qs[1], qs[2], qs[3])));
         }
     }
+
+    internal operation VerifyUnitary5(unitary : (Qubit, Qubit, Qubit, Qubit, Qubit) => Unit is Adj + Ctl, reference : (Qubit, Qubit, Qubit, Qubit, Qubit) => Unit is Adj + Ctl, limit : Int) : Unit {
+        // Verify equality up to 8 controls.
+        Reference.AssertOperationsEqualReferenced(5, qs => unitary(qs[0], qs[1], qs[2], qs[3], qs[4]),
+            qs => reference(qs[0], qs[1], qs[2], qs[3], qs[4]));
+
+        for numControls in 0..limit {
+            Reference.AssertOperationsEqualReferenced(5 + numControls, qs => Controlled unitary(qs[5..(numControls + 4)], (qs[0], qs[1], qs[2], qs[3], qs[4])),
+                qs => Controlled reference(qs[5..(numControls + 4)], (qs[0], qs[1], qs[2], qs[3], qs[4])));
+        }
+    }
 }

src/Simulation/TargetDefinitions/Tests/Reference.qs

@@ -38,6 +38,10 @@ namespace Reference {
         body intrinsic;
     }
 
+    operation Exp (paulis : Pauli[], theta : Double, qubits : Qubit[]) : Unit is Adj + Ctl {
+        body intrinsic;
+    }
+
     operation Reset(qubit : Qubit) : Unit {
         body intrinsic;
     }

src/Simulation/TargetDefinitions/Tests/Tests.TargetDefinitions.csproj

@@ -36,6 +36,8 @@
     <QSharpCompile Include="..\Decompositions\CX.qs" />
     <QSharpCompile Include="..\Decompositions\CYFromCNOT.qs" />
     <QSharpCompile Include="..\Decompositions\CZFromSinglyControlled.qs" />
+    <QsharpCompile Include="..\Decompositions\ExpFromExpUtil.qs" />
+    <QsharpCompile Include="..\Decompositions\ExpUtil.qs" />
     <QsharpCompile Include="..\Decompositions\HFromSinglyControlled.qs" />
     <QSharpCompile Include="..\Decompositions\MResetZExplicit.qs" />
     <QsharpCompile Include="..\Decompositions\RFromSinglyControlledR1.qs" />