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-rw-r--r--Test/dafny2/Answer4
-rw-r--r--Test/dafny2/Calculations.dfy212
-rw-r--r--Test/dafny2/runtest.bat2
3 files changed, 217 insertions, 1 deletions
diff --git a/Test/dafny2/Answer b/Test/dafny2/Answer
index 447f4365..2feaf6f7 100644
--- a/Test/dafny2/Answer
+++ b/Test/dafny2/Answer
@@ -54,3 +54,7 @@ Dafny program verifier finished with 3 verified, 0 errors
-------------------- MonotonicHeapstate.dfy --------------------
Dafny program verifier finished with 36 verified, 0 errors
+
+-------------------- Calculations.dfy --------------------
+
+Dafny program verifier finished with 26 verified, 0 errors
diff --git a/Test/dafny2/Calculations.dfy b/Test/dafny2/Calculations.dfy
new file mode 100644
index 00000000..8e3a4426
--- /dev/null
+++ b/Test/dafny2/Calculations.dfy
@@ -0,0 +1,212 @@
+/* Lists */
+// Here are some standard definitions of List and functions on Lists
+
+datatype List<T> = Nil | Cons(T, List);
+
+function length(l: List): nat
+{
+ match l
+ case Nil => 0
+ case Cons(x, xs) => 1 + length(xs)
+}
+
+function concat(l: List, ys: List): List
+{
+ match l
+ case Nil => ys
+ case Cons(x, xs) => Cons(x, concat(xs, ys))
+}
+
+function reverse(l: List): List
+{
+ match l
+ case Nil => Nil
+ case Cons(x, xs) => concat(reverse(xs), Cons(x, Nil))
+}
+
+function revacc(l: List, acc: List): List
+{
+ match l
+ case Nil => acc
+ case Cons(x, xs) => revacc(xs, Cons(x, acc))
+}
+
+function qreverse(l: List): List
+{
+ revacc(l, Nil)
+}
+
+// Here are two lemmas about the List functions.
+
+ghost method Lemma_ConcatNil()
+ ensures forall xs :: concat(xs, Nil) == xs;
+{
+}
+
+ghost method Lemma_RevCatCommute()
+ ensures forall xs, ys, zs :: revacc(xs, concat(ys, zs)) == concat(revacc(xs, ys), zs);
+{
+}
+
+// Here is a theorem that says "qreverse" and "reverse" calculate the same result. The proof
+// is given in a calculational style. The proof is not minimal--some lines can be omitted
+// and Dafny will still fill in the details.
+
+ghost method Theorem_QReverseIsCorrect_Calc(l: List)
+ ensures qreverse(l) == reverse(l);
+{
+ calc {
+ qreverse(l);
+ // def. qreverse
+ revacc(l, Nil);
+ { Lemma_Revacc_calc(l, Nil); }
+ concat(reverse(l), Nil);
+ { Lemma_ConcatNil(); }
+ reverse(l);
+ }
+}
+
+ghost method Lemma_Revacc_calc(xs: List, ys: List)
+ ensures revacc(xs, ys) == concat(reverse(xs), ys);
+{
+ match (xs) {
+ case Nil =>
+ case Cons(x, xrest) =>
+ calc {
+ concat(reverse(xs), ys);
+ // def. reverse
+ concat(concat(reverse(xrest), Cons(x, Nil)), ys);
+ // induction hypothesis: Lemma_Revacc_calc(xrest, Cons(x, Nil))
+ concat(revacc(xrest, Cons(x, Nil)), ys);
+ { Lemma_RevCatCommute(); } // forall xs,ys,zs :: revacc(xs, concat(ys, zs)) == concat(revacc(xs, ys), zs)
+ revacc(xrest, concat(Cons(x, Nil), ys));
+ {
+ assert forall g, gs :: concat(Cons(g, Nil), gs) == Cons(g, gs);
+ assert concat(Cons(x, Nil), ys) == Cons(x, ys);
+ }
+ revacc(xrest, Cons(x, ys));
+ // def. revacc
+ revacc(xs, ys);
+ }
+ }
+}
+
+// Here is a version of the same proof, as it was constructed before Dafny's "calc" construct.
+
+ghost method Theorem_QReverseIsCorrect(l: List)
+ ensures qreverse(l) == reverse(l);
+{
+ assert qreverse(l)
+ == // def. qreverse
+ revacc(l, Nil);
+ Lemma_Revacc(l, Nil);
+ assert revacc(l, Nil)
+ == concat(reverse(l), Nil);
+ Lemma_ConcatNil();
+}
+
+ghost method Lemma_Revacc(xs: List, ys: List)
+ ensures revacc(xs, ys) == concat(reverse(xs), ys);
+{
+ match (xs) {
+ case Nil =>
+ case Cons(x, xrest) =>
+ assert revacc(xs, ys)
+ == // def. revacc
+ revacc(xrest, Cons(x, ys));
+
+ assert concat(reverse(xs), ys)
+ == // def. reverse
+ concat(concat(reverse(xrest), Cons(x, Nil)), ys)
+ == // induction hypothesis: Lemma3a(xrest, Cons(x, Nil))
+ concat(revacc(xrest, Cons(x, Nil)), ys);
+ Lemma_RevCatCommute(); // forall xs,ys,zs :: revacc(xs, concat(ys, zs)) == concat(revacc(xs, ys), zs)
+ assert concat(revacc(xrest, Cons(x, Nil)), ys)
+ == revacc(xrest, concat(Cons(x, Nil), ys));
+
+ assert forall g, gs :: concat(Cons(g, Nil), gs) == Cons(g, gs);
+
+ assert revacc(xrest, concat(Cons(x, Nil), ys))
+ == // the assert lemma just above
+ revacc(xrest, Cons(x, ys));
+ }
+}
+
+/* Fibonacci */
+// To further demonstrate what the "calc" construct can do, here are some proofs about the Fibonacci function.
+
+function Fib(n: nat): nat
+{
+ if n < 2 then n else Fib(n - 2) + Fib(n - 1)
+}
+
+ghost method Lemma_Fib()
+ ensures Fib(5) < 6;
+{
+ calc {
+ Fib(5);
+ Fib(4) + Fib(3);
+ calc {
+ Fib(2);
+ Fib(0) + Fib(1);
+ 0 + 1;
+ 1;
+ }
+ < 6;
+ }
+}
+
+/* List length */
+// Here are some proofs that show the use of nested calculations.
+
+ghost method Lemma_Concat_Length(xs: List, ys: List)
+ ensures length(concat(xs, ys)) == length(xs) + length(ys);
+{}
+
+ghost method Lemma_Reverse_Length(xs: List)
+ ensures length(xs) == length(reverse(xs));
+{
+ match (xs) {
+ case Nil =>
+ case Cons(x, xrest) =>
+ calc {
+ length(reverse(xs));
+ // def. reverse
+ length(concat(reverse(xrest), Cons(x, Nil)));
+ { Lemma_Concat_Length(reverse(xrest), Cons(x, Nil)); }
+ length(reverse(xrest)) + length(Cons(x, Nil));
+ // induction hypothesis
+ length(xrest) + length(Cons(x, Nil));
+ calc {
+ length(Cons(x, Nil));
+ // def. length
+ 1 + length(Nil);
+ // def. length
+ 1 + 0;
+ 1;
+ }
+ length(xrest) + 1;
+ // def. length
+ length(xs);
+ }
+ }
+}
+
+ghost method Window(xs: List, ys: List)
+ ensures length(xs) == length(ys) ==> length(reverse(xs)) == length(reverse(ys));
+{
+ calc {
+ length(xs) == length(ys) ==> length(reverse(xs)) == length(reverse(ys));
+ { if (length(xs) == length(ys)) {
+ calc {
+ length(reverse(xs));
+ { Lemma_Reverse_Length(xs); }
+ length(xs);
+ length(ys);
+ { Lemma_Reverse_Length(ys); }
+ length(reverse(ys));
+ } } }
+ length(xs) == length(ys) ==> length(reverse(xs)) == length(reverse(xs));
+ true;
+ }
+}
diff --git a/Test/dafny2/runtest.bat b/Test/dafny2/runtest.bat
index 909f67f5..72959830 100644
--- a/Test/dafny2/runtest.bat
+++ b/Test/dafny2/runtest.bat
@@ -16,7 +16,7 @@ for %%f in (
StoreAndRetrieve.dfy
Intervals.dfy TreeFill.dfy TuringFactorial.dfy
MajorityVote.dfy SegmentSum.dfy
- MonotonicHeapstate.dfy
+ MonotonicHeapstate.dfy Calculations.dfy
) do (
echo.
echo -------------------- %%f --------------------