diff options
Diffstat (limited to 'tests')
56 files changed, 2971 insertions, 29 deletions
diff --git a/tests/coq/array/Array_Funs.v b/tests/coq/array/Array_Funs.v new file mode 100644 index 00000000..6d791873 --- /dev/null +++ b/tests/coq/array/Array_Funs.v @@ -0,0 +1,467 @@ +(** THIS FILE WAS AUTOMATICALLY GENERATED BY AENEAS *) +(** [array]: function definitions *) +Require Import Primitives. +Import Primitives. +Require Import Coq.ZArith.ZArith. +Require Import List. +Import ListNotations. +Local Open Scope Primitives_scope. +Require Export Array_Types. +Import Array_Types. +Module Array_Funs. + +(** [array::array_to_shared_slice_]: forward function *) +Definition array_to_shared_slice__fwd + (T : Type) (s : array T 32%usize) : result (slice T) := + array_to_slice_shared T 32%usize s +. + +(** [array::array_to_mut_slice_]: forward function *) +Definition array_to_mut_slice__fwd + (T : Type) (s : array T 32%usize) : result (slice T) := + array_to_slice_mut_fwd T 32%usize s +. + +(** [array::array_to_mut_slice_]: backward function 0 *) +Definition array_to_mut_slice__back + (T : Type) (s : array T 32%usize) (ret : slice T) : + result (array T 32%usize) + := + array_to_slice_mut_back T 32%usize s ret +. + +(** [array::array_len]: forward function *) +Definition array_len_fwd (T : Type) (s : array T 32%usize) : result usize := + s0 <- array_to_slice_shared T 32%usize s; let i := slice_len T s0 in Return i +. + +(** [array::shared_array_len]: forward function *) +Definition shared_array_len_fwd + (T : Type) (s : array T 32%usize) : result usize := + s0 <- array_to_slice_shared T 32%usize s; let i := slice_len T s0 in Return i +. + +(** [array::shared_slice_len]: forward function *) +Definition shared_slice_len_fwd (T : Type) (s : slice T) : result usize := + let i := slice_len T s in Return i +. + +(** [array::index_array_shared]: forward function *) +Definition index_array_shared_fwd + (T : Type) (s : array T 32%usize) (i : usize) : result T := + array_index_shared T 32%usize s i +. + +(** [array::index_array_u32]: forward function *) +Definition index_array_u32_fwd + (s : array u32 32%usize) (i : usize) : result u32 := + array_index_shared u32 32%usize s i +. + +(** [array::index_array_generic]: forward function *) +Definition index_array_generic_fwd + (N : usize) (s : array u32 N) (i : usize) : result u32 := + array_index_shared u32 N s i +. + +(** [array::index_array_generic_call]: forward function *) +Definition index_array_generic_call_fwd + (N : usize) (s : array u32 N) (i : usize) : result u32 := + index_array_generic_fwd N s i +. + +(** [array::index_array_copy]: forward function *) +Definition index_array_copy_fwd (x : array u32 32%usize) : result u32 := + array_index_shared u32 32%usize x 0%usize +. + +(** [array::index_mut_array]: forward function *) +Definition index_mut_array_fwd + (T : Type) (s : array T 32%usize) (i : usize) : result T := + array_index_mut_fwd T 32%usize s i +. + +(** [array::index_mut_array]: backward function 0 *) +Definition index_mut_array_back + (T : Type) (s : array T 32%usize) (i : usize) (ret : T) : + result (array T 32%usize) + := + array_index_mut_back T 32%usize s i ret +. + +(** [array::index_slice]: forward function *) +Definition index_slice_fwd (T : Type) (s : slice T) (i : usize) : result T := + slice_index_shared T s i +. + +(** [array::index_mut_slice]: forward function *) +Definition index_mut_slice_fwd + (T : Type) (s : slice T) (i : usize) : result T := + slice_index_mut_fwd T s i +. + +(** [array::index_mut_slice]: backward function 0 *) +Definition index_mut_slice_back + (T : Type) (s : slice T) (i : usize) (ret : T) : result (slice T) := + slice_index_mut_back T s i ret +. + +(** [array::slice_subslice_shared_]: forward function *) +Definition slice_subslice_shared__fwd + (x : slice u32) (y : usize) (z : usize) : result (slice u32) := + slice_subslice_shared u32 x (mk_range y z) +. + +(** [array::slice_subslice_mut_]: forward function *) +Definition slice_subslice_mut__fwd + (x : slice u32) (y : usize) (z : usize) : result (slice u32) := + slice_subslice_mut_fwd u32 x (mk_range y z) +. + +(** [array::slice_subslice_mut_]: backward function 0 *) +Definition slice_subslice_mut__back + (x : slice u32) (y : usize) (z : usize) (ret : slice u32) : + result (slice u32) + := + slice_subslice_mut_back u32 x (mk_range y z) ret +. + +(** [array::array_to_slice_shared_]: forward function *) +Definition array_to_slice_shared__fwd + (x : array u32 32%usize) : result (slice u32) := + array_to_slice_shared u32 32%usize x +. + +(** [array::array_to_slice_mut_]: forward function *) +Definition array_to_slice_mut__fwd + (x : array u32 32%usize) : result (slice u32) := + array_to_slice_mut_fwd u32 32%usize x +. + +(** [array::array_to_slice_mut_]: backward function 0 *) +Definition array_to_slice_mut__back + (x : array u32 32%usize) (ret : slice u32) : result (array u32 32%usize) := + array_to_slice_mut_back u32 32%usize x ret +. + +(** [array::array_subslice_shared_]: forward function *) +Definition array_subslice_shared__fwd + (x : array u32 32%usize) (y : usize) (z : usize) : result (slice u32) := + array_subslice_shared u32 32%usize x (mk_range y z) +. + +(** [array::array_subslice_mut_]: forward function *) +Definition array_subslice_mut__fwd + (x : array u32 32%usize) (y : usize) (z : usize) : result (slice u32) := + array_subslice_mut_fwd u32 32%usize x (mk_range y z) +. + +(** [array::array_subslice_mut_]: backward function 0 *) +Definition array_subslice_mut__back + (x : array u32 32%usize) (y : usize) (z : usize) (ret : slice u32) : + result (array u32 32%usize) + := + array_subslice_mut_back u32 32%usize x (mk_range y z) ret +. + +(** [array::index_slice_0]: forward function *) +Definition index_slice_0_fwd (T : Type) (s : slice T) : result T := + slice_index_shared T s 0%usize +. + +(** [array::index_array_0]: forward function *) +Definition index_array_0_fwd (T : Type) (s : array T 32%usize) : result T := + array_index_shared T 32%usize s 0%usize +. + +(** [array::index_index_array]: forward function *) +Definition index_index_array_fwd + (s : array (array u32 32%usize) 32%usize) (i : usize) (j : usize) : + result u32 + := + a <- array_index_shared (array u32 32%usize) 32%usize s i; + array_index_shared u32 32%usize a j +. + +(** [array::update_update_array]: forward function *) +Definition update_update_array_fwd + (s : array (array u32 32%usize) 32%usize) (i : usize) (j : usize) : + result unit + := + a <- array_index_mut_fwd (array u32 32%usize) 32%usize s i; + a0 <- array_index_mut_back u32 32%usize a j 0%u32; + _ <- array_index_mut_back (array u32 32%usize) 32%usize s i a0; + Return tt +. + +(** [array::array_local_deep_copy]: forward function *) +Definition array_local_deep_copy_fwd (x : array u32 32%usize) : result unit := + Return tt +. + +(** [array::take_array]: forward function *) +Definition take_array_fwd (a : array u32 2%usize) : result unit := + Return tt. + +(** [array::take_array_borrow]: forward function *) +Definition take_array_borrow_fwd (a : array u32 2%usize) : result unit := + Return tt +. + +(** [array::take_slice]: forward function *) +Definition take_slice_fwd (s : slice u32) : result unit := + Return tt. + +(** [array::take_mut_slice]: merged forward/backward function + (there is a single backward function, and the forward function returns ()) *) +Definition take_mut_slice_fwd_back (s : slice u32) : result (slice u32) := + Return s +. + +(** [array::take_all]: forward function *) +Definition take_all_fwd : result unit := + _ <- take_array_fwd (mk_array u32 2%usize [ 0%u32; 0%u32 ]); + _ <- take_array_borrow_fwd (mk_array u32 2%usize [ 0%u32; 0%u32 ]); + s <- + array_to_slice_shared u32 2%usize (mk_array u32 2%usize [ 0%u32; 0%u32 ]); + _ <- take_slice_fwd s; + s0 <- + array_to_slice_mut_fwd u32 2%usize (mk_array u32 2%usize [ 0%u32; 0%u32 ]); + s1 <- take_mut_slice_fwd_back s0; + _ <- + array_to_slice_mut_back u32 2%usize (mk_array u32 2%usize [ 0%u32; 0%u32 ]) + s1; + Return tt +. + +(** [array::index_array]: forward function *) +Definition index_array_fwd (x : array u32 2%usize) : result u32 := + array_index_shared u32 2%usize x 0%usize +. + +(** [array::index_array_borrow]: forward function *) +Definition index_array_borrow_fwd (x : array u32 2%usize) : result u32 := + array_index_shared u32 2%usize x 0%usize +. + +(** [array::index_slice_u32_0]: forward function *) +Definition index_slice_u32_0_fwd (x : slice u32) : result u32 := + slice_index_shared u32 x 0%usize +. + +(** [array::index_mut_slice_u32_0]: forward function *) +Definition index_mut_slice_u32_0_fwd (x : slice u32) : result u32 := + slice_index_shared u32 x 0%usize +. + +(** [array::index_mut_slice_u32_0]: backward function 0 *) +Definition index_mut_slice_u32_0_back (x : slice u32) : result (slice u32) := + _ <- slice_index_shared u32 x 0%usize; Return x +. + +(** [array::index_all]: forward function *) +Definition index_all_fwd : result u32 := + i <- index_array_fwd (mk_array u32 2%usize [ 0%u32; 0%u32 ]); + i0 <- index_array_fwd (mk_array u32 2%usize [ 0%u32; 0%u32 ]); + i1 <- u32_add i i0; + i2 <- index_array_borrow_fwd (mk_array u32 2%usize [ 0%u32; 0%u32 ]); + i3 <- u32_add i1 i2; + s <- + array_to_slice_shared u32 2%usize (mk_array u32 2%usize [ 0%u32; 0%u32 ]); + i4 <- index_slice_u32_0_fwd s; + i5 <- u32_add i3 i4; + s0 <- + array_to_slice_mut_fwd u32 2%usize (mk_array u32 2%usize [ 0%u32; 0%u32 ]); + i6 <- index_mut_slice_u32_0_fwd s0; + i7 <- u32_add i5 i6; + s1 <- index_mut_slice_u32_0_back s0; + _ <- + array_to_slice_mut_back u32 2%usize (mk_array u32 2%usize [ 0%u32; 0%u32 ]) + s1; + Return i7 +. + +(** [array::update_array]: forward function *) +Definition update_array_fwd (x : array u32 2%usize) : result unit := + _ <- array_index_mut_back u32 2%usize x 0%usize 1%u32; Return tt +. + +(** [array::update_array_mut_borrow]: merged forward/backward function + (there is a single backward function, and the forward function returns ()) *) +Definition update_array_mut_borrow_fwd_back + (x : array u32 2%usize) : result (array u32 2%usize) := + array_index_mut_back u32 2%usize x 0%usize 1%u32 +. + +(** [array::update_mut_slice]: merged forward/backward function + (there is a single backward function, and the forward function returns ()) *) +Definition update_mut_slice_fwd_back (x : slice u32) : result (slice u32) := + slice_index_mut_back u32 x 0%usize 1%u32 +. + +(** [array::update_all]: forward function *) +Definition update_all_fwd : result unit := + _ <- update_array_fwd (mk_array u32 2%usize [ 0%u32; 0%u32 ]); + x <- + update_array_mut_borrow_fwd_back (mk_array u32 2%usize [ 0%u32; 0%u32 ]); + s <- array_to_slice_mut_fwd u32 2%usize x; + s0 <- update_mut_slice_fwd_back s; + _ <- array_to_slice_mut_back u32 2%usize x s0; + Return tt +. + +(** [array::range_all]: forward function *) +Definition range_all_fwd : result unit := + s <- + array_subslice_mut_fwd u32 4%usize + (mk_array u32 4%usize [ 0%u32; 0%u32; 0%u32; 0%u32 ]) (mk_range 1%usize + 3%usize); + s0 <- update_mut_slice_fwd_back s; + _ <- + array_subslice_mut_back u32 4%usize + (mk_array u32 4%usize [ 0%u32; 0%u32; 0%u32; 0%u32 ]) (mk_range 1%usize + 3%usize) s0; + Return tt +. + +(** [array::deref_array_borrow]: forward function *) +Definition deref_array_borrow_fwd (x : array u32 2%usize) : result u32 := + array_index_shared u32 2%usize x 0%usize +. + +(** [array::deref_array_mut_borrow]: forward function *) +Definition deref_array_mut_borrow_fwd (x : array u32 2%usize) : result u32 := + array_index_shared u32 2%usize x 0%usize +. + +(** [array::deref_array_mut_borrow]: backward function 0 *) +Definition deref_array_mut_borrow_back + (x : array u32 2%usize) : result (array u32 2%usize) := + _ <- array_index_shared u32 2%usize x 0%usize; Return x +. + +(** [array::take_array_t]: forward function *) +Definition take_array_t_fwd (a : array T_t 2%usize) : result unit := + Return tt. + +(** [array::non_copyable_array]: forward function *) +Definition non_copyable_array_fwd : result unit := + _ <- take_array_t_fwd (mk_array T_t 2%usize [ TA; TB ]); Return tt +. + +(** [array::sum]: loop 0: forward function *) +Fixpoint sum_loop_fwd + (n : nat) (s : slice u32) (sum : u32) (i : usize) : result u32 := + match n with + | O => Fail_ OutOfFuel + | S n0 => + let i0 := slice_len u32 s in + if i s< i0 + then ( + i1 <- slice_index_shared u32 s i; + sum0 <- u32_add sum i1; + i2 <- usize_add i 1%usize; + sum_loop_fwd n0 s sum0 i2) + else Return sum + end +. + +(** [array::sum]: forward function *) +Definition sum_fwd (n : nat) (s : slice u32) : result u32 := + sum_loop_fwd n s 0%u32 0%usize +. + +(** [array::sum2]: loop 0: forward function *) +Fixpoint sum2_loop_fwd + (n : nat) (s : slice u32) (s2 : slice u32) (sum : u32) (i : usize) : + result u32 + := + match n with + | O => Fail_ OutOfFuel + | S n0 => + let i0 := slice_len u32 s in + if i s< i0 + then ( + i1 <- slice_index_shared u32 s i; + i2 <- slice_index_shared u32 s2 i; + i3 <- u32_add i1 i2; + sum0 <- u32_add sum i3; + i4 <- usize_add i 1%usize; + sum2_loop_fwd n0 s s2 sum0 i4) + else Return sum + end +. + +(** [array::sum2]: forward function *) +Definition sum2_fwd (n : nat) (s : slice u32) (s2 : slice u32) : result u32 := + let i := slice_len u32 s in + let i0 := slice_len u32 s2 in + if negb (i s= i0) then Fail_ Failure else sum2_loop_fwd n s s2 0%u32 0%usize +. + +(** [array::f0]: forward function *) +Definition f0_fwd : result unit := + s <- + array_to_slice_mut_fwd u32 2%usize (mk_array u32 2%usize [ 1%u32; 2%u32 ]); + s0 <- slice_index_mut_back u32 s 0%usize 1%u32; + _ <- + array_to_slice_mut_back u32 2%usize (mk_array u32 2%usize [ 1%u32; 2%u32 ]) + s0; + Return tt +. + +(** [array::f1]: forward function *) +Definition f1_fwd : result unit := + _ <- + array_index_mut_back u32 2%usize (mk_array u32 2%usize [ 1%u32; 2%u32 ]) + 0%usize 1%u32; + Return tt +. + +(** [array::f2]: forward function *) +Definition f2_fwd (i : u32) : result unit := + Return tt. + +(** [array::f4]: forward function *) +Definition f4_fwd + (x : array u32 32%usize) (y : usize) (z : usize) : result (slice u32) := + array_subslice_shared u32 32%usize x (mk_range y z) +. + +(** [array::f3]: forward function *) +Definition f3_fwd (n : nat) : result u32 := + i <- + array_index_shared u32 2%usize (mk_array u32 2%usize [ 1%u32; 2%u32 ]) + 0%usize; + _ <- f2_fwd i; + s <- + array_to_slice_shared u32 2%usize (mk_array u32 2%usize [ 1%u32; 2%u32 ]); + s0 <- + f4_fwd + (mk_array u32 32%usize [ + 0%u32; 0%u32; 0%u32; 0%u32; 0%u32; 0%u32; 0%u32; 0%u32; 0%u32; 0%u32; + 0%u32; 0%u32; 0%u32; 0%u32; 0%u32; 0%u32; 0%u32; 0%u32; 0%u32; 0%u32; + 0%u32; 0%u32; 0%u32; 0%u32; 0%u32; 0%u32; 0%u32; 0%u32; 0%u32; 0%u32; + 0%u32; 0%u32 + ]) 16%usize 18%usize; + sum2_fwd n s s0 +. + +(** [array::ite]: forward function *) +Definition ite_fwd : result unit := + s <- + array_to_slice_mut_fwd u32 2%usize (mk_array u32 2%usize [ 0%u32; 0%u32 ]); + s0 <- + array_to_slice_mut_fwd u32 2%usize (mk_array u32 2%usize [ 0%u32; 0%u32 ]); + s1 <- index_mut_slice_u32_0_back s0; + _ <- + array_to_slice_mut_back u32 2%usize (mk_array u32 2%usize [ 0%u32; 0%u32 ]) + s1; + s2 <- index_mut_slice_u32_0_back s; + _ <- + array_to_slice_mut_back u32 2%usize (mk_array u32 2%usize [ 0%u32; 0%u32 ]) + s2; + Return tt +. + +End Array_Funs . diff --git a/tests/coq/array/Array_Types.v b/tests/coq/array/Array_Types.v new file mode 100644 index 00000000..7be6dc9b --- /dev/null +++ b/tests/coq/array/Array_Types.v @@ -0,0 +1,14 @@ +(** THIS FILE WAS AUTOMATICALLY GENERATED BY AENEAS *) +(** [array]: type definitions *) +Require Import Primitives. +Import Primitives. +Require Import Coq.ZArith.ZArith. +Require Import List. +Import ListNotations. +Local Open Scope Primitives_scope. +Module Array_Types. + +(** [array::T] *) +Inductive T_t := | TA : T_t | TB : T_t. + +End Array_Types . diff --git a/tests/coq/array/Makefile b/tests/coq/array/Makefile new file mode 100644 index 00000000..1a5aee4a --- /dev/null +++ b/tests/coq/array/Makefile @@ -0,0 +1,23 @@ +# This file was automatically generated - modify ../Makefile.template instead +# Makefile originally taken from coq-club + +%: Makefile.coq phony + +make -f Makefile.coq $@ + +all: Makefile.coq + +make -f Makefile.coq all + +clean: Makefile.coq + +make -f Makefile.coq clean + rm -f Makefile.coq + +Makefile.coq: _CoqProject Makefile + coq_makefile -f _CoqProject | sed 's/$$(COQCHK) $$(COQCHKFLAGS) $$(COQLIBS)/$$(COQCHK) $$(COQCHKFLAGS) $$(subst -Q,-R,$$(COQLIBS))/' > Makefile.coq + +_CoqProject: ; + +Makefile: ; + +phony: ; + +.PHONY: all clean phony diff --git a/tests/coq/array/Primitives.v b/tests/coq/array/Primitives.v new file mode 100644 index 00000000..71a2d9c3 --- /dev/null +++ b/tests/coq/array/Primitives.v @@ -0,0 +1,523 @@ +Require Import Lia. +Require Coq.Strings.Ascii. +Require Coq.Strings.String. +Require Import Coq.Program.Equality. +Require Import Coq.ZArith.ZArith. +Require Import Coq.ZArith.Znat. +Require Import List. +Import ListNotations. + +Module Primitives. + + (* TODO: use more *) +Declare Scope Primitives_scope. + +(*** Result *) + +Inductive error := + | Failure + | OutOfFuel. + +Inductive result A := + | Return : A -> result A + | Fail_ : error -> result A. + +Arguments Return {_} a. +Arguments Fail_ {_}. + +Definition bind {A B} (m: result A) (f: A -> result B) : result B := + match m with + | Fail_ e => Fail_ e + | Return x => f x + end. + +Definition return_ {A: Type} (x: A) : result A := Return x. +Definition fail_ {A: Type} (e: error) : result A := Fail_ e. + +Notation "x <- c1 ; c2" := (bind c1 (fun x => c2)) + (at level 61, c1 at next level, right associativity). + +(** Monadic assert *) +Definition massert (b: bool) : result unit := + if b then Return tt else Fail_ Failure. + +(** Normalize and unwrap a successful result (used for globals) *) +Definition eval_result_refl {A} {x} (a: result A) (p: a = Return x) : A := + match a as r return (r = Return x -> A) with + | Return a' => fun _ => a' + | Fail_ e => fun p' => + False_rect _ (eq_ind (Fail_ e) + (fun e : result A => + match e with + | Return _ => False + | Fail_ e => True + end) + I (Return x) p') + end p. + +Notation "x %global" := (eval_result_refl x eq_refl) (at level 40). +Notation "x %return" := (eval_result_refl x eq_refl) (at level 40). + +(* Sanity check *) +Check (if true then Return (1 + 2) else Fail_ Failure)%global = 3. + +(*** Misc *) + + +Definition string := Coq.Strings.String.string. +Definition char := Coq.Strings.Ascii.ascii. +Definition char_of_byte := Coq.Strings.Ascii.ascii_of_byte. + +Definition mem_replace_fwd (a : Type) (x : a) (y : a) : a := x . +Definition mem_replace_back (a : Type) (x : a) (y : a) : a := y . + +(*** Scalars *) + +Definition i8_min : Z := -128%Z. +Definition i8_max : Z := 127%Z. +Definition i16_min : Z := -32768%Z. +Definition i16_max : Z := 32767%Z. +Definition i32_min : Z := -2147483648%Z. +Definition i32_max : Z := 2147483647%Z. +Definition i64_min : Z := -9223372036854775808%Z. +Definition i64_max : Z := 9223372036854775807%Z. +Definition i128_min : Z := -170141183460469231731687303715884105728%Z. +Definition i128_max : Z := 170141183460469231731687303715884105727%Z. +Definition u8_min : Z := 0%Z. +Definition u8_max : Z := 255%Z. +Definition u16_min : Z := 0%Z. +Definition u16_max : Z := 65535%Z. +Definition u32_min : Z := 0%Z. +Definition u32_max : Z := 4294967295%Z. +Definition u64_min : Z := 0%Z. +Definition u64_max : Z := 18446744073709551615%Z. +Definition u128_min : Z := 0%Z. +Definition u128_max : Z := 340282366920938463463374607431768211455%Z. + +(** The bounds of [isize] and [usize] vary with the architecture. *) +Axiom isize_min : Z. +Axiom isize_max : Z. +Definition usize_min : Z := 0%Z. +Axiom usize_max : Z. + +Open Scope Z_scope. + +(** We provide those lemmas to reason about the bounds of [isize] and [usize] *) +Axiom isize_min_bound : isize_min <= i32_min. +Axiom isize_max_bound : i32_max <= isize_max. +Axiom usize_max_bound : u32_max <= usize_max. + +Inductive scalar_ty := + | Isize + | I8 + | I16 + | I32 + | I64 + | I128 + | Usize + | U8 + | U16 + | U32 + | U64 + | U128 +. + +Definition scalar_min (ty: scalar_ty) : Z := + match ty with + | Isize => isize_min + | I8 => i8_min + | I16 => i16_min + | I32 => i32_min + | I64 => i64_min + | I128 => i128_min + | Usize => usize_min + | U8 => u8_min + | U16 => u16_min + | U32 => u32_min + | U64 => u64_min + | U128 => u128_min +end. + +Definition scalar_max (ty: scalar_ty) : Z := + match ty with + | Isize => isize_max + | I8 => i8_max + | I16 => i16_max + | I32 => i32_max + | I64 => i64_max + | I128 => i128_max + | Usize => usize_max + | U8 => u8_max + | U16 => u16_max + | U32 => u32_max + | U64 => u64_max + | U128 => u128_max +end. + +(** We use the following conservative bounds to make sure we can compute bound + checks in most situations *) +Definition scalar_min_cons (ty: scalar_ty) : Z := + match ty with + | Isize => i32_min + | Usize => u32_min + | _ => scalar_min ty +end. + +Definition scalar_max_cons (ty: scalar_ty) : Z := + match ty with + | Isize => i32_max + | Usize => u32_max + | _ => scalar_max ty +end. + +Lemma scalar_min_cons_valid : forall ty, scalar_min ty <= scalar_min_cons ty . +Proof. + destruct ty; unfold scalar_min_cons, scalar_min; try lia. + - pose isize_min_bound; lia. + - apply Z.le_refl. +Qed. + +Lemma scalar_max_cons_valid : forall ty, scalar_max ty >= scalar_max_cons ty . +Proof. + destruct ty; unfold scalar_max_cons, scalar_max; try lia. + - pose isize_max_bound; lia. + - pose usize_max_bound. lia. +Qed. + +Definition scalar (ty: scalar_ty) : Type := + { x: Z | scalar_min ty <= x <= scalar_max ty }. + +Definition to_Z {ty} (x: scalar ty) : Z := proj1_sig x. + +(** Bounds checks: we start by using the conservative bounds, to make sure we + can compute in most situations, then we use the real bounds (for [isize] + and [usize]). *) +Definition scalar_ge_min (ty: scalar_ty) (x: Z) : bool := + Z.leb (scalar_min_cons ty) x || Z.leb (scalar_min ty) x. + +Definition scalar_le_max (ty: scalar_ty) (x: Z) : bool := + Z.leb x (scalar_max_cons ty) || Z.leb x (scalar_max ty). + +Lemma scalar_ge_min_valid (ty: scalar_ty) (x: Z) : + scalar_ge_min ty x = true -> scalar_min ty <= x . +Proof. + unfold scalar_ge_min. + pose (scalar_min_cons_valid ty). + lia. +Qed. + +Lemma scalar_le_max_valid (ty: scalar_ty) (x: Z) : + scalar_le_max ty x = true -> x <= scalar_max ty . +Proof. + unfold scalar_le_max. + pose (scalar_max_cons_valid ty). + lia. +Qed. + +Definition scalar_in_bounds (ty: scalar_ty) (x: Z) : bool := + scalar_ge_min ty x && scalar_le_max ty x . + +Lemma scalar_in_bounds_valid (ty: scalar_ty) (x: Z) : + scalar_in_bounds ty x = true -> scalar_min ty <= x <= scalar_max ty . +Proof. + unfold scalar_in_bounds. + intros H. + destruct (scalar_ge_min ty x) eqn:Hmin. + - destruct (scalar_le_max ty x) eqn:Hmax. + + pose (scalar_ge_min_valid ty x Hmin). + pose (scalar_le_max_valid ty x Hmax). + lia. + + inversion H. + - inversion H. +Qed. + +Import Sumbool. + +Definition mk_scalar (ty: scalar_ty) (x: Z) : result (scalar ty) := + match sumbool_of_bool (scalar_in_bounds ty x) with + | left H => Return (exist _ x (scalar_in_bounds_valid _ _ H)) + | right _ => Fail_ Failure + end. + +Definition scalar_add {ty} (x y: scalar ty) : result (scalar ty) := mk_scalar ty (to_Z x + to_Z y). + +Definition scalar_sub {ty} (x y: scalar ty) : result (scalar ty) := mk_scalar ty (to_Z x - to_Z y). + +Definition scalar_mul {ty} (x y: scalar ty) : result (scalar ty) := mk_scalar ty (to_Z x * to_Z y). + +Definition scalar_div {ty} (x y: scalar ty) : result (scalar ty) := + if to_Z y =? 0 then Fail_ Failure else + mk_scalar ty (to_Z x / to_Z y). + +Definition scalar_rem {ty} (x y: scalar ty) : result (scalar ty) := mk_scalar ty (Z.rem (to_Z x) (to_Z y)). + +Definition scalar_neg {ty} (x: scalar ty) : result (scalar ty) := mk_scalar ty (-(to_Z x)). + +(** Cast an integer from a [src_ty] to a [tgt_ty] *) +(* TODO: check the semantics of casts in Rust *) +Definition scalar_cast (src_ty tgt_ty : scalar_ty) (x : scalar src_ty) : result (scalar tgt_ty) := + mk_scalar tgt_ty (to_Z x). + +(** Comparisons *) +Definition scalar_leb {ty : scalar_ty} (x : scalar ty) (y : scalar ty) : bool := + Z.leb (to_Z x) (to_Z y) . + +Definition scalar_ltb {ty : scalar_ty} (x : scalar ty) (y : scalar ty) : bool := + Z.ltb (to_Z x) (to_Z y) . + +Definition scalar_geb {ty : scalar_ty} (x : scalar ty) (y : scalar ty) : bool := + Z.geb (to_Z x) (to_Z y) . + +Definition scalar_gtb {ty : scalar_ty} (x : scalar ty) (y : scalar ty) : bool := + Z.gtb (to_Z x) (to_Z y) . + +Definition scalar_eqb {ty : scalar_ty} (x : scalar ty) (y : scalar ty) : bool := + Z.eqb (to_Z x) (to_Z y) . + +Definition scalar_neqb {ty : scalar_ty} (x : scalar ty) (y : scalar ty) : bool := + negb (Z.eqb (to_Z x) (to_Z y)) . + + +(** The scalar types *) +Definition isize := scalar Isize. +Definition i8 := scalar I8. +Definition i16 := scalar I16. +Definition i32 := scalar I32. +Definition i64 := scalar I64. +Definition i128 := scalar I128. +Definition usize := scalar Usize. +Definition u8 := scalar U8. +Definition u16 := scalar U16. +Definition u32 := scalar U32. +Definition u64 := scalar U64. +Definition u128 := scalar U128. + +(** Negaion *) +Definition isize_neg := @scalar_neg Isize. +Definition i8_neg := @scalar_neg I8. +Definition i16_neg := @scalar_neg I16. +Definition i32_neg := @scalar_neg I32. +Definition i64_neg := @scalar_neg I64. +Definition i128_neg := @scalar_neg I128. + +(** Division *) +Definition isize_div := @scalar_div Isize. +Definition i8_div := @scalar_div I8. +Definition i16_div := @scalar_div I16. +Definition i32_div := @scalar_div I32. +Definition i64_div := @scalar_div I64. +Definition i128_div := @scalar_div I128. +Definition usize_div := @scalar_div Usize. +Definition u8_div := @scalar_div U8. +Definition u16_div := @scalar_div U16. +Definition u32_div := @scalar_div U32. +Definition u64_div := @scalar_div U64. +Definition u128_div := @scalar_div U128. + +(** Remainder *) +Definition isize_rem := @scalar_rem Isize. +Definition i8_rem := @scalar_rem I8. +Definition i16_rem := @scalar_rem I16. +Definition i32_rem := @scalar_rem I32. +Definition i64_rem := @scalar_rem I64. +Definition i128_rem := @scalar_rem I128. +Definition usize_rem := @scalar_rem Usize. +Definition u8_rem := @scalar_rem U8. +Definition u16_rem := @scalar_rem U16. +Definition u32_rem := @scalar_rem U32. +Definition u64_rem := @scalar_rem U64. +Definition u128_rem := @scalar_rem U128. + +(** Addition *) +Definition isize_add := @scalar_add Isize. +Definition i8_add := @scalar_add I8. +Definition i16_add := @scalar_add I16. +Definition i32_add := @scalar_add I32. +Definition i64_add := @scalar_add I64. +Definition i128_add := @scalar_add I128. +Definition usize_add := @scalar_add Usize. +Definition u8_add := @scalar_add U8. +Definition u16_add := @scalar_add U16. +Definition u32_add := @scalar_add U32. +Definition u64_add := @scalar_add U64. +Definition u128_add := @scalar_add U128. + +(** Substraction *) +Definition isize_sub := @scalar_sub Isize. +Definition i8_sub := @scalar_sub I8. +Definition i16_sub := @scalar_sub I16. +Definition i32_sub := @scalar_sub I32. +Definition i64_sub := @scalar_sub I64. +Definition i128_sub := @scalar_sub I128. +Definition usize_sub := @scalar_sub Usize. +Definition u8_sub := @scalar_sub U8. +Definition u16_sub := @scalar_sub U16. +Definition u32_sub := @scalar_sub U32. +Definition u64_sub := @scalar_sub U64. +Definition u128_sub := @scalar_sub U128. + +(** Multiplication *) +Definition isize_mul := @scalar_mul Isize. +Definition i8_mul := @scalar_mul I8. +Definition i16_mul := @scalar_mul I16. +Definition i32_mul := @scalar_mul I32. +Definition i64_mul := @scalar_mul I64. +Definition i128_mul := @scalar_mul I128. +Definition usize_mul := @scalar_mul Usize. +Definition u8_mul := @scalar_mul U8. +Definition u16_mul := @scalar_mul U16. +Definition u32_mul := @scalar_mul U32. +Definition u64_mul := @scalar_mul U64. +Definition u128_mul := @scalar_mul U128. + +(** Small utility *) +Definition usize_to_nat (x: usize) : nat := Z.to_nat (to_Z x). + +(** Notations *) +Notation "x %isize" := ((mk_scalar Isize x)%return) (at level 9). +Notation "x %i8" := ((mk_scalar I8 x)%return) (at level 9). +Notation "x %i16" := ((mk_scalar I16 x)%return) (at level 9). +Notation "x %i32" := ((mk_scalar I32 x)%return) (at level 9). +Notation "x %i64" := ((mk_scalar I64 x)%return) (at level 9). +Notation "x %i128" := ((mk_scalar I128 x)%return) (at level 9). +Notation "x %usize" := ((mk_scalar Usize x)%return) (at level 9). +Notation "x %u8" := ((mk_scalar U8 x)%return) (at level 9). +Notation "x %u16" := ((mk_scalar U16 x)%return) (at level 9). +Notation "x %u32" := ((mk_scalar U32 x)%return) (at level 9). +Notation "x %u64" := ((mk_scalar U64 x)%return) (at level 9). +Notation "x %u128" := ((mk_scalar U128 x)%return) (at level 9). + +Notation "x s= y" := (scalar_eqb x y) (at level 80) : Primitives_scope. +Notation "x s<> y" := (scalar_neqb x y) (at level 80) : Primitives_scope. +Notation "x s<= y" := (scalar_leb x y) (at level 80) : Primitives_scope. +Notation "x s< y" := (scalar_ltb x y) (at level 80) : Primitives_scope. +Notation "x s>= y" := (scalar_geb x y) (at level 80) : Primitives_scope. +Notation "x s> y" := (scalar_gtb x y) (at level 80) : Primitives_scope. + +(*** Range *) +Record range (T : Type) := mk_range { + start: T; + end_: T; +}. +Arguments mk_range {_}. + +(*** Arrays *) +Definition array T (n : usize) := { l: list T | Z.of_nat (length l) = to_Z n}. + +Lemma le_0_usize_max : 0 <= usize_max. +Proof. + pose (H := usize_max_bound). + unfold u32_max in H. + lia. +Qed. + +Lemma eqb_imp_eq (x y : Z) : Z.eqb x y = true -> x = y. +Proof. + lia. +Qed. + +(* TODO: finish the definitions *) +Axiom mk_array : forall (T : Type) (n : usize) (l : list T), array T n. + +Axiom array_index_shared : forall (T : Type) (n : usize) (x : array T n) (i : usize), result T. +Axiom array_index_mut_fwd : forall (T : Type) (n : usize) (x : array T n) (i : usize), result T. +Axiom array_index_mut_back : forall (T : Type) (n : usize) (x : array T n) (i : usize) (nx : T), result (array T n). + +(*** Slice *) +Definition slice T := { l: list T | Z.of_nat (length l) <= usize_max}. + +Axiom slice_len : forall (T : Type) (s : slice T), usize. +Axiom slice_index_shared : forall (T : Type) (x : slice T) (i : usize), result T. +Axiom slice_index_mut_fwd : forall (T : Type) (x : slice T) (i : usize), result T. +Axiom slice_index_mut_back : forall (T : Type) (x : slice T) (i : usize) (nx : T), result (slice T). + +(*** Subslices *) + +Axiom array_to_slice_shared : forall (T : Type) (n : usize) (x : array T n), result (slice T). +Axiom array_to_slice_mut_fwd : forall (T : Type) (n : usize) (x : array T n), result (slice T). +Axiom array_to_slice_mut_back : forall (T : Type) (n : usize) (x : array T n) (s : slice T), result (array T n). + +Axiom array_subslice_shared: forall (T : Type) (n : usize) (x : array T n) (r : range usize), result (slice T). +Axiom array_subslice_mut_fwd: forall (T : Type) (n : usize) (x : array T n) (r : range usize), result (slice T). +Axiom array_subslice_mut_back: forall (T : Type) (n : usize) (x : array T n) (r : range usize) (ns : slice T), result (array T n). +Axiom slice_subslice_shared: forall (T : Type) (x : slice T) (r : range usize), result (slice T). +Axiom slice_subslice_mut_fwd: forall (T : Type) (x : slice T) (r : range usize), result (slice T). +Axiom slice_subslice_mut_back: forall (T : Type) (x : slice T) (r : range usize) (ns : slice T), result (slice T). + +(*** Vectors *) + +Definition vec T := { l: list T | Z.of_nat (length l) <= usize_max }. + +Definition vec_to_list {T: Type} (v: vec T) : list T := proj1_sig v. + +Definition vec_length {T: Type} (v: vec T) : Z := Z.of_nat (length (vec_to_list v)). + +Definition vec_new (T: Type) : vec T := (exist _ [] le_0_usize_max). + +Lemma vec_len_in_usize {T} (v: vec T) : usize_min <= vec_length v <= usize_max. +Proof. + unfold vec_length, usize_min. + split. + - lia. + - apply (proj2_sig v). +Qed. + +Definition vec_len (T: Type) (v: vec T) : usize := + exist _ (vec_length v) (vec_len_in_usize v). + +Fixpoint list_update {A} (l: list A) (n: nat) (a: A) + : list A := + match l with + | [] => [] + | x :: t => match n with + | 0%nat => a :: t + | S m => x :: (list_update t m a) +end end. + +Definition vec_bind {A B} (v: vec A) (f: list A -> result (list B)) : result (vec B) := + l <- f (vec_to_list v) ; + match sumbool_of_bool (scalar_le_max Usize (Z.of_nat (length l))) with + | left H => Return (exist _ l (scalar_le_max_valid _ _ H)) + | right _ => Fail_ Failure + end. + +(* The **forward** function shouldn't be used *) +Definition vec_push_fwd (T: Type) (v: vec T) (x: T) : unit := tt. + +Definition vec_push_back (T: Type) (v: vec T) (x: T) : result (vec T) := + vec_bind v (fun l => Return (l ++ [x])). + +(* The **forward** function shouldn't be used *) +Definition vec_insert_fwd (T: Type) (v: vec T) (i: usize) (x: T) : result unit := + if to_Z i <? vec_length v then Return tt else Fail_ Failure. + +Definition vec_insert_back (T: Type) (v: vec T) (i: usize) (x: T) : result (vec T) := + vec_bind v (fun l => + if to_Z i <? Z.of_nat (length l) + then Return (list_update l (usize_to_nat i) x) + else Fail_ Failure). + +(* The **backward** function shouldn't be used *) +Definition vec_index_fwd (T: Type) (v: vec T) (i: usize) : result T := + match nth_error (vec_to_list v) (usize_to_nat i) with + | Some n => Return n + | None => Fail_ Failure + end. + +Definition vec_index_back (T: Type) (v: vec T) (i: usize) (x: T) : result unit := + if to_Z i <? vec_length v then Return tt else Fail_ Failure. + +(* The **backward** function shouldn't be used *) +Definition vec_index_mut_fwd (T: Type) (v: vec T) (i: usize) : result T := + match nth_error (vec_to_list v) (usize_to_nat i) with + | Some n => Return n + | None => Fail_ Failure + end. + +Definition vec_index_mut_back (T: Type) (v: vec T) (i: usize) (x: T) : result (vec T) := + vec_bind v (fun l => + if to_Z i <? Z.of_nat (length l) + then Return (list_update l (usize_to_nat i) x) + else Fail_ Failure). + +End Primitives. diff --git a/tests/coq/array/_CoqProject b/tests/coq/array/_CoqProject new file mode 100644 index 00000000..f33cefe6 --- /dev/null +++ b/tests/coq/array/_CoqProject @@ -0,0 +1,8 @@ +# This file was automatically generated - see ../Makefile +-R . Lib +-arg -w +-arg all + +Array_Funs.v +Primitives.v +Array_Types.v diff --git a/tests/coq/betree/BetreeMain_Funs.v b/tests/coq/betree/BetreeMain_Funs.v index 86a9d5f2..85aecfc8 100644 --- a/tests/coq/betree/BetreeMain_Funs.v +++ b/tests/coq/betree/BetreeMain_Funs.v @@ -3,6 +3,8 @@ Require Import Primitives. Import Primitives. Require Import Coq.ZArith.ZArith. +Require Import List. +Import ListNotations. Local Open Scope Primitives_scope. Require Export BetreeMain_Types. Import BetreeMain_Types. @@ -1190,4 +1192,7 @@ Definition betree_be_tree_lookup_back Definition main_fwd : result unit := Return tt. +(** Unit test for [betree_main::main] *) +Check (main_fwd )%return. + End BetreeMain_Funs . diff --git a/tests/coq/betree/BetreeMain_Opaque.v b/tests/coq/betree/BetreeMain_Opaque.v index bd49500b..ecd81b9d 100644 --- a/tests/coq/betree/BetreeMain_Opaque.v +++ b/tests/coq/betree/BetreeMain_Opaque.v @@ -3,6 +3,8 @@ Require Import Primitives. Import Primitives. Require Import Coq.ZArith.ZArith. +Require Import List. +Import ListNotations. Local Open Scope Primitives_scope. Require Export BetreeMain_Types. Import BetreeMain_Types. diff --git a/tests/coq/betree/BetreeMain_Types.v b/tests/coq/betree/BetreeMain_Types.v index 25f280dd..c8af54cd 100644 --- a/tests/coq/betree/BetreeMain_Types.v +++ b/tests/coq/betree/BetreeMain_Types.v @@ -3,6 +3,8 @@ Require Import Primitives. Import Primitives. Require Import Coq.ZArith.ZArith. +Require Import List. +Import ListNotations. Local Open Scope Primitives_scope. Module BetreeMain_Types. diff --git a/tests/coq/betree/Primitives.v b/tests/coq/betree/Primitives.v index ae961ac2..71a2d9c3 100644 --- a/tests/coq/betree/Primitives.v +++ b/tests/coq/betree/Primitives.v @@ -394,13 +394,15 @@ Notation "x s< y" := (scalar_ltb x y) (at level 80) : Primitives_scope. Notation "x s>= y" := (scalar_geb x y) (at level 80) : Primitives_scope. Notation "x s> y" := (scalar_gtb x y) (at level 80) : Primitives_scope. -(*** Vectors *) - -Definition vec T := { l: list T | Z.of_nat (length l) <= usize_max }. +(*** Range *) +Record range (T : Type) := mk_range { + start: T; + end_: T; +}. +Arguments mk_range {_}. -Definition vec_to_list {T: Type} (v: vec T) : list T := proj1_sig v. - -Definition vec_length {T: Type} (v: vec T) : Z := Z.of_nat (length (vec_to_list v)). +(*** Arrays *) +Definition array T (n : usize) := { l: list T | Z.of_nat (length l) = to_Z n}. Lemma le_0_usize_max : 0 <= usize_max. Proof. @@ -409,6 +411,47 @@ Proof. lia. Qed. +Lemma eqb_imp_eq (x y : Z) : Z.eqb x y = true -> x = y. +Proof. + lia. +Qed. + +(* TODO: finish the definitions *) +Axiom mk_array : forall (T : Type) (n : usize) (l : list T), array T n. + +Axiom array_index_shared : forall (T : Type) (n : usize) (x : array T n) (i : usize), result T. +Axiom array_index_mut_fwd : forall (T : Type) (n : usize) (x : array T n) (i : usize), result T. +Axiom array_index_mut_back : forall (T : Type) (n : usize) (x : array T n) (i : usize) (nx : T), result (array T n). + +(*** Slice *) +Definition slice T := { l: list T | Z.of_nat (length l) <= usize_max}. + +Axiom slice_len : forall (T : Type) (s : slice T), usize. +Axiom slice_index_shared : forall (T : Type) (x : slice T) (i : usize), result T. +Axiom slice_index_mut_fwd : forall (T : Type) (x : slice T) (i : usize), result T. +Axiom slice_index_mut_back : forall (T : Type) (x : slice T) (i : usize) (nx : T), result (slice T). + +(*** Subslices *) + +Axiom array_to_slice_shared : forall (T : Type) (n : usize) (x : array T n), result (slice T). +Axiom array_to_slice_mut_fwd : forall (T : Type) (n : usize) (x : array T n), result (slice T). +Axiom array_to_slice_mut_back : forall (T : Type) (n : usize) (x : array T n) (s : slice T), result (array T n). + +Axiom array_subslice_shared: forall (T : Type) (n : usize) (x : array T n) (r : range usize), result (slice T). +Axiom array_subslice_mut_fwd: forall (T : Type) (n : usize) (x : array T n) (r : range usize), result (slice T). +Axiom array_subslice_mut_back: forall (T : Type) (n : usize) (x : array T n) (r : range usize) (ns : slice T), result (array T n). +Axiom slice_subslice_shared: forall (T : Type) (x : slice T) (r : range usize), result (slice T). +Axiom slice_subslice_mut_fwd: forall (T : Type) (x : slice T) (r : range usize), result (slice T). +Axiom slice_subslice_mut_back: forall (T : Type) (x : slice T) (r : range usize) (ns : slice T), result (slice T). + +(*** Vectors *) + +Definition vec T := { l: list T | Z.of_nat (length l) <= usize_max }. + +Definition vec_to_list {T: Type} (v: vec T) : list T := proj1_sig v. + +Definition vec_length {T: Type} (v: vec T) : Z := Z.of_nat (length (vec_to_list v)). + Definition vec_new (T: Type) : vec T := (exist _ [] le_0_usize_max). Lemma vec_len_in_usize {T} (v: vec T) : usize_min <= vec_length v <= usize_max. diff --git a/tests/coq/hashmap/Hashmap_Funs.v b/tests/coq/hashmap/Hashmap_Funs.v index c8630eb6..c412abcd 100644 --- a/tests/coq/hashmap/Hashmap_Funs.v +++ b/tests/coq/hashmap/Hashmap_Funs.v @@ -3,6 +3,8 @@ Require Import Primitives. Import Primitives. Require Import Coq.ZArith.ZArith. +Require Import List. +Import ListNotations. Local Open Scope Primitives_scope. Require Export Hashmap_Types. Import Hashmap_Types. diff --git a/tests/coq/hashmap/Hashmap_Types.v b/tests/coq/hashmap/Hashmap_Types.v index ce6e7dab..dbde6be9 100644 --- a/tests/coq/hashmap/Hashmap_Types.v +++ b/tests/coq/hashmap/Hashmap_Types.v @@ -3,6 +3,8 @@ Require Import Primitives. Import Primitives. Require Import Coq.ZArith.ZArith. +Require Import List. +Import ListNotations. Local Open Scope Primitives_scope. Module Hashmap_Types. diff --git a/tests/coq/hashmap/Primitives.v b/tests/coq/hashmap/Primitives.v index ae961ac2..71a2d9c3 100644 --- a/tests/coq/hashmap/Primitives.v +++ b/tests/coq/hashmap/Primitives.v @@ -394,13 +394,15 @@ Notation "x s< y" := (scalar_ltb x y) (at level 80) : Primitives_scope. Notation "x s>= y" := (scalar_geb x y) (at level 80) : Primitives_scope. Notation "x s> y" := (scalar_gtb x y) (at level 80) : Primitives_scope. -(*** Vectors *) - -Definition vec T := { l: list T | Z.of_nat (length l) <= usize_max }. +(*** Range *) +Record range (T : Type) := mk_range { + start: T; + end_: T; +}. +Arguments mk_range {_}. -Definition vec_to_list {T: Type} (v: vec T) : list T := proj1_sig v. - -Definition vec_length {T: Type} (v: vec T) : Z := Z.of_nat (length (vec_to_list v)). +(*** Arrays *) +Definition array T (n : usize) := { l: list T | Z.of_nat (length l) = to_Z n}. Lemma le_0_usize_max : 0 <= usize_max. Proof. @@ -409,6 +411,47 @@ Proof. lia. Qed. +Lemma eqb_imp_eq (x y : Z) : Z.eqb x y = true -> x = y. +Proof. + lia. +Qed. + +(* TODO: finish the definitions *) +Axiom mk_array : forall (T : Type) (n : usize) (l : list T), array T n. + +Axiom array_index_shared : forall (T : Type) (n : usize) (x : array T n) (i : usize), result T. +Axiom array_index_mut_fwd : forall (T : Type) (n : usize) (x : array T n) (i : usize), result T. +Axiom array_index_mut_back : forall (T : Type) (n : usize) (x : array T n) (i : usize) (nx : T), result (array T n). + +(*** Slice *) +Definition slice T := { l: list T | Z.of_nat (length l) <= usize_max}. + +Axiom slice_len : forall (T : Type) (s : slice T), usize. +Axiom slice_index_shared : forall (T : Type) (x : slice T) (i : usize), result T. +Axiom slice_index_mut_fwd : forall (T : Type) (x : slice T) (i : usize), result T. +Axiom slice_index_mut_back : forall (T : Type) (x : slice T) (i : usize) (nx : T), result (slice T). + +(*** Subslices *) + +Axiom array_to_slice_shared : forall (T : Type) (n : usize) (x : array T n), result (slice T). +Axiom array_to_slice_mut_fwd : forall (T : Type) (n : usize) (x : array T n), result (slice T). +Axiom array_to_slice_mut_back : forall (T : Type) (n : usize) (x : array T n) (s : slice T), result (array T n). + +Axiom array_subslice_shared: forall (T : Type) (n : usize) (x : array T n) (r : range usize), result (slice T). +Axiom array_subslice_mut_fwd: forall (T : Type) (n : usize) (x : array T n) (r : range usize), result (slice T). +Axiom array_subslice_mut_back: forall (T : Type) (n : usize) (x : array T n) (r : range usize) (ns : slice T), result (array T n). +Axiom slice_subslice_shared: forall (T : Type) (x : slice T) (r : range usize), result (slice T). +Axiom slice_subslice_mut_fwd: forall (T : Type) (x : slice T) (r : range usize), result (slice T). +Axiom slice_subslice_mut_back: forall (T : Type) (x : slice T) (r : range usize) (ns : slice T), result (slice T). + +(*** Vectors *) + +Definition vec T := { l: list T | Z.of_nat (length l) <= usize_max }. + +Definition vec_to_list {T: Type} (v: vec T) : list T := proj1_sig v. + +Definition vec_length {T: Type} (v: vec T) : Z := Z.of_nat (length (vec_to_list v)). + Definition vec_new (T: Type) : vec T := (exist _ [] le_0_usize_max). Lemma vec_len_in_usize {T} (v: vec T) : usize_min <= vec_length v <= usize_max. diff --git a/tests/coq/hashmap_on_disk/HashmapMain_Funs.v b/tests/coq/hashmap_on_disk/HashmapMain_Funs.v index 1b7304cc..e6095fe1 100644 --- a/tests/coq/hashmap_on_disk/HashmapMain_Funs.v +++ b/tests/coq/hashmap_on_disk/HashmapMain_Funs.v @@ -3,6 +3,8 @@ Require Import Primitives. Import Primitives. Require Import Coq.ZArith.ZArith. +Require Import List. +Import ListNotations. Local Open Scope Primitives_scope. Require Export HashmapMain_Types. Import HashmapMain_Types. diff --git a/tests/coq/hashmap_on_disk/HashmapMain_Opaque.v b/tests/coq/hashmap_on_disk/HashmapMain_Opaque.v index 1ad9c697..2d17cc29 100644 --- a/tests/coq/hashmap_on_disk/HashmapMain_Opaque.v +++ b/tests/coq/hashmap_on_disk/HashmapMain_Opaque.v @@ -3,6 +3,8 @@ Require Import Primitives. Import Primitives. Require Import Coq.ZArith.ZArith. +Require Import List. +Import ListNotations. Local Open Scope Primitives_scope. Require Export HashmapMain_Types. Import HashmapMain_Types. diff --git a/tests/coq/hashmap_on_disk/HashmapMain_Types.v b/tests/coq/hashmap_on_disk/HashmapMain_Types.v index b92cbf3a..36aaaf25 100644 --- a/tests/coq/hashmap_on_disk/HashmapMain_Types.v +++ b/tests/coq/hashmap_on_disk/HashmapMain_Types.v @@ -3,6 +3,8 @@ Require Import Primitives. Import Primitives. Require Import Coq.ZArith.ZArith. +Require Import List. +Import ListNotations. Local Open Scope Primitives_scope. Module HashmapMain_Types. diff --git a/tests/coq/hashmap_on_disk/Primitives.v b/tests/coq/hashmap_on_disk/Primitives.v index ae961ac2..71a2d9c3 100644 --- a/tests/coq/hashmap_on_disk/Primitives.v +++ b/tests/coq/hashmap_on_disk/Primitives.v @@ -394,13 +394,15 @@ Notation "x s< y" := (scalar_ltb x y) (at level 80) : Primitives_scope. Notation "x s>= y" := (scalar_geb x y) (at level 80) : Primitives_scope. Notation "x s> y" := (scalar_gtb x y) (at level 80) : Primitives_scope. -(*** Vectors *) - -Definition vec T := { l: list T | Z.of_nat (length l) <= usize_max }. +(*** Range *) +Record range (T : Type) := mk_range { + start: T; + end_: T; +}. +Arguments mk_range {_}. -Definition vec_to_list {T: Type} (v: vec T) : list T := proj1_sig v. - -Definition vec_length {T: Type} (v: vec T) : Z := Z.of_nat (length (vec_to_list v)). +(*** Arrays *) +Definition array T (n : usize) := { l: list T | Z.of_nat (length l) = to_Z n}. Lemma le_0_usize_max : 0 <= usize_max. Proof. @@ -409,6 +411,47 @@ Proof. lia. Qed. +Lemma eqb_imp_eq (x y : Z) : Z.eqb x y = true -> x = y. +Proof. + lia. +Qed. + +(* TODO: finish the definitions *) +Axiom mk_array : forall (T : Type) (n : usize) (l : list T), array T n. + +Axiom array_index_shared : forall (T : Type) (n : usize) (x : array T n) (i : usize), result T. +Axiom array_index_mut_fwd : forall (T : Type) (n : usize) (x : array T n) (i : usize), result T. +Axiom array_index_mut_back : forall (T : Type) (n : usize) (x : array T n) (i : usize) (nx : T), result (array T n). + +(*** Slice *) +Definition slice T := { l: list T | Z.of_nat (length l) <= usize_max}. + +Axiom slice_len : forall (T : Type) (s : slice T), usize. +Axiom slice_index_shared : forall (T : Type) (x : slice T) (i : usize), result T. +Axiom slice_index_mut_fwd : forall (T : Type) (x : slice T) (i : usize), result T. +Axiom slice_index_mut_back : forall (T : Type) (x : slice T) (i : usize) (nx : T), result (slice T). + +(*** Subslices *) + +Axiom array_to_slice_shared : forall (T : Type) (n : usize) (x : array T n), result (slice T). +Axiom array_to_slice_mut_fwd : forall (T : Type) (n : usize) (x : array T n), result (slice T). +Axiom array_to_slice_mut_back : forall (T : Type) (n : usize) (x : array T n) (s : slice T), result (array T n). + +Axiom array_subslice_shared: forall (T : Type) (n : usize) (x : array T n) (r : range usize), result (slice T). +Axiom array_subslice_mut_fwd: forall (T : Type) (n : usize) (x : array T n) (r : range usize), result (slice T). +Axiom array_subslice_mut_back: forall (T : Type) (n : usize) (x : array T n) (r : range usize) (ns : slice T), result (array T n). +Axiom slice_subslice_shared: forall (T : Type) (x : slice T) (r : range usize), result (slice T). +Axiom slice_subslice_mut_fwd: forall (T : Type) (x : slice T) (r : range usize), result (slice T). +Axiom slice_subslice_mut_back: forall (T : Type) (x : slice T) (r : range usize) (ns : slice T), result (slice T). + +(*** Vectors *) + +Definition vec T := { l: list T | Z.of_nat (length l) <= usize_max }. + +Definition vec_to_list {T: Type} (v: vec T) : list T := proj1_sig v. + +Definition vec_length {T: Type} (v: vec T) : Z := Z.of_nat (length (vec_to_list v)). + Definition vec_new (T: Type) : vec T := (exist _ [] le_0_usize_max). Lemma vec_len_in_usize {T} (v: vec T) : usize_min <= vec_length v <= usize_max. diff --git a/tests/coq/misc/Constants.v b/tests/coq/misc/Constants.v index 14c05c61..710ae1d9 100644 --- a/tests/coq/misc/Constants.v +++ b/tests/coq/misc/Constants.v @@ -3,6 +3,8 @@ Require Import Primitives. Import Primitives. Require Import Coq.ZArith.ZArith. +Require Import List. +Import ListNotations. Local Open Scope Primitives_scope. Module Constants. diff --git a/tests/coq/misc/External_Funs.v b/tests/coq/misc/External_Funs.v index f18bbd1f..28370b2b 100644 --- a/tests/coq/misc/External_Funs.v +++ b/tests/coq/misc/External_Funs.v @@ -3,6 +3,8 @@ Require Import Primitives. Import Primitives. Require Import Coq.ZArith.ZArith. +Require Import List. +Import ListNotations. Local Open Scope Primitives_scope. Require Export External_Types. Import External_Types. diff --git a/tests/coq/misc/External_Opaque.v b/tests/coq/misc/External_Opaque.v index 1224f426..d2ee42d4 100644 --- a/tests/coq/misc/External_Opaque.v +++ b/tests/coq/misc/External_Opaque.v @@ -3,6 +3,8 @@ Require Import Primitives. Import Primitives. Require Import Coq.ZArith.ZArith. +Require Import List. +Import ListNotations. Local Open Scope Primitives_scope. Require Export External_Types. Import External_Types. diff --git a/tests/coq/misc/External_Types.v b/tests/coq/misc/External_Types.v index cec5b88e..1883fa6c 100644 --- a/tests/coq/misc/External_Types.v +++ b/tests/coq/misc/External_Types.v @@ -3,6 +3,8 @@ Require Import Primitives. Import Primitives. Require Import Coq.ZArith.ZArith. +Require Import List. +Import ListNotations. Local Open Scope Primitives_scope. Module External_Types. diff --git a/tests/coq/misc/Loops.v b/tests/coq/misc/Loops.v index f17eb986..82e57576 100644 --- a/tests/coq/misc/Loops.v +++ b/tests/coq/misc/Loops.v @@ -3,6 +3,8 @@ Require Import Primitives. Import Primitives. Require Import Coq.ZArith.ZArith. +Require Import List. +Import ListNotations. Local Open Scope Primitives_scope. Module Loops. diff --git a/tests/coq/misc/NoNestedBorrows.v b/tests/coq/misc/NoNestedBorrows.v index 470a2cde..f93254e1 100644 --- a/tests/coq/misc/NoNestedBorrows.v +++ b/tests/coq/misc/NoNestedBorrows.v @@ -3,6 +3,8 @@ Require Import Primitives. Import Primitives. Require Import Coq.ZArith.ZArith. +Require Import List. +Import ListNotations. Local Open Scope Primitives_scope. Module NoNestedBorrows. diff --git a/tests/coq/misc/Paper.v b/tests/coq/misc/Paper.v index 0f854f31..175a523d 100644 --- a/tests/coq/misc/Paper.v +++ b/tests/coq/misc/Paper.v @@ -3,6 +3,8 @@ Require Import Primitives. Import Primitives. Require Import Coq.ZArith.ZArith. +Require Import List. +Import ListNotations. Local Open Scope Primitives_scope. Module Paper. diff --git a/tests/coq/misc/PoloniusList.v b/tests/coq/misc/PoloniusList.v index e94b6dcb..54021bdf 100644 --- a/tests/coq/misc/PoloniusList.v +++ b/tests/coq/misc/PoloniusList.v @@ -3,6 +3,8 @@ Require Import Primitives. Import Primitives. Require Import Coq.ZArith.ZArith. +Require Import List. +Import ListNotations. Local Open Scope Primitives_scope. Module PoloniusList. diff --git a/tests/coq/misc/Primitives.v b/tests/coq/misc/Primitives.v index ae961ac2..71a2d9c3 100644 --- a/tests/coq/misc/Primitives.v +++ b/tests/coq/misc/Primitives.v @@ -394,13 +394,15 @@ Notation "x s< y" := (scalar_ltb x y) (at level 80) : Primitives_scope. Notation "x s>= y" := (scalar_geb x y) (at level 80) : Primitives_scope. Notation "x s> y" := (scalar_gtb x y) (at level 80) : Primitives_scope. -(*** Vectors *) - -Definition vec T := { l: list T | Z.of_nat (length l) <= usize_max }. +(*** Range *) +Record range (T : Type) := mk_range { + start: T; + end_: T; +}. +Arguments mk_range {_}. -Definition vec_to_list {T: Type} (v: vec T) : list T := proj1_sig v. - -Definition vec_length {T: Type} (v: vec T) : Z := Z.of_nat (length (vec_to_list v)). +(*** Arrays *) +Definition array T (n : usize) := { l: list T | Z.of_nat (length l) = to_Z n}. Lemma le_0_usize_max : 0 <= usize_max. Proof. @@ -409,6 +411,47 @@ Proof. lia. Qed. +Lemma eqb_imp_eq (x y : Z) : Z.eqb x y = true -> x = y. +Proof. + lia. +Qed. + +(* TODO: finish the definitions *) +Axiom mk_array : forall (T : Type) (n : usize) (l : list T), array T n. + +Axiom array_index_shared : forall (T : Type) (n : usize) (x : array T n) (i : usize), result T. +Axiom array_index_mut_fwd : forall (T : Type) (n : usize) (x : array T n) (i : usize), result T. +Axiom array_index_mut_back : forall (T : Type) (n : usize) (x : array T n) (i : usize) (nx : T), result (array T n). + +(*** Slice *) +Definition slice T := { l: list T | Z.of_nat (length l) <= usize_max}. + +Axiom slice_len : forall (T : Type) (s : slice T), usize. +Axiom slice_index_shared : forall (T : Type) (x : slice T) (i : usize), result T. +Axiom slice_index_mut_fwd : forall (T : Type) (x : slice T) (i : usize), result T. +Axiom slice_index_mut_back : forall (T : Type) (x : slice T) (i : usize) (nx : T), result (slice T). + +(*** Subslices *) + +Axiom array_to_slice_shared : forall (T : Type) (n : usize) (x : array T n), result (slice T). +Axiom array_to_slice_mut_fwd : forall (T : Type) (n : usize) (x : array T n), result (slice T). +Axiom array_to_slice_mut_back : forall (T : Type) (n : usize) (x : array T n) (s : slice T), result (array T n). + +Axiom array_subslice_shared: forall (T : Type) (n : usize) (x : array T n) (r : range usize), result (slice T). +Axiom array_subslice_mut_fwd: forall (T : Type) (n : usize) (x : array T n) (r : range usize), result (slice T). +Axiom array_subslice_mut_back: forall (T : Type) (n : usize) (x : array T n) (r : range usize) (ns : slice T), result (array T n). +Axiom slice_subslice_shared: forall (T : Type) (x : slice T) (r : range usize), result (slice T). +Axiom slice_subslice_mut_fwd: forall (T : Type) (x : slice T) (r : range usize), result (slice T). +Axiom slice_subslice_mut_back: forall (T : Type) (x : slice T) (r : range usize) (ns : slice T), result (slice T). + +(*** Vectors *) + +Definition vec T := { l: list T | Z.of_nat (length l) <= usize_max }. + +Definition vec_to_list {T: Type} (v: vec T) : list T := proj1_sig v. + +Definition vec_length {T: Type} (v: vec T) : Z := Z.of_nat (length (vec_to_list v)). + Definition vec_new (T: Type) : vec T := (exist _ [] le_0_usize_max). Lemma vec_len_in_usize {T} (v: vec T) : usize_min <= vec_length v <= usize_max. diff --git a/tests/fstar/.gitignore b/tests/fstar/.gitignore new file mode 100644 index 00000000..28a11147 --- /dev/null +++ b/tests/fstar/.gitignore @@ -0,0 +1 @@ +*/obj
\ No newline at end of file diff --git a/tests/fstar/array/Array.Clauses.Template.fst b/tests/fstar/array/Array.Clauses.Template.fst new file mode 100644 index 00000000..8a15e230 --- /dev/null +++ b/tests/fstar/array/Array.Clauses.Template.fst @@ -0,0 +1,18 @@ +(** THIS FILE WAS AUTOMATICALLY GENERATED BY AENEAS *) +(** [array]: templates for the decreases clauses *) +module Array.Clauses.Template +open Primitives +open Array.Types + +#set-options "--z3rlimit 50 --fuel 1 --ifuel 1" + +(** [array::sum]: decreases clause *) +unfold +let sum_loop_decreases (s : slice u32) (sum : u32) (i : usize) : nat = admit () + +(** [array::sum2]: decreases clause *) +unfold +let sum2_loop_decreases (s : slice u32) (s2 : slice u32) (sum : u32) + (i : usize) : nat = + admit () + diff --git a/tests/fstar/array/Array.Clauses.fst b/tests/fstar/array/Array.Clauses.fst new file mode 100644 index 00000000..68cbf216 --- /dev/null +++ b/tests/fstar/array/Array.Clauses.fst @@ -0,0 +1,19 @@ +(** [array]: decreases clauses *) +module Array.Clauses +open Primitives +open Array.Types +open FStar.List.Tot + +#set-options "--z3rlimit 50 --fuel 1 --ifuel 1" + +(** [array::sum]: decreases clause *) +unfold +let sum_loop_decreases (s : slice u32) (sum : u32) (i : usize) : nat = + if i < length s then length s - i else 0 + +(** [array::sum2]: decreases clause *) +unfold +let sum2_loop_decreases (s : slice u32) (s2 : slice u32) (sum : u32) + (i : usize) : nat = + if i < length s then length s - i else 0 + diff --git a/tests/fstar/array/Array.Funs.fst b/tests/fstar/array/Array.Funs.fst new file mode 100644 index 00000000..7c1d0b09 --- /dev/null +++ b/tests/fstar/array/Array.Funs.fst @@ -0,0 +1,355 @@ +(** THIS FILE WAS AUTOMATICALLY GENERATED BY AENEAS *) +(** [array]: function definitions *) +module Array.Funs +open Primitives +include Array.Types +include Array.Clauses + +#set-options "--z3rlimit 50 --fuel 1 --ifuel 1" + +(** [array::array_to_shared_slice_]: forward function *) +let array_to_shared_slice__fwd + (t : Type0) (s : array t 32) : result (slice t) = + array_to_slice_shared t 32 s + +(** [array::array_to_mut_slice_]: forward function *) +let array_to_mut_slice__fwd (t : Type0) (s : array t 32) : result (slice t) = + array_to_slice_mut_fwd t 32 s + +(** [array::array_to_mut_slice_]: backward function 0 *) +let array_to_mut_slice__back + (t : Type0) (s : array t 32) (ret : slice t) : result (array t 32) = + array_to_slice_mut_back t 32 s ret + +(** [array::array_len]: forward function *) +let array_len_fwd (t : Type0) (s : array t 32) : result usize = + let* s0 = array_to_slice_shared t 32 s in let i = slice_len t s0 in Return i + +(** [array::shared_array_len]: forward function *) +let shared_array_len_fwd (t : Type0) (s : array t 32) : result usize = + let* s0 = array_to_slice_shared t 32 s in let i = slice_len t s0 in Return i + +(** [array::shared_slice_len]: forward function *) +let shared_slice_len_fwd (t : Type0) (s : slice t) : result usize = + let i = slice_len t s in Return i + +(** [array::index_array_shared]: forward function *) +let index_array_shared_fwd + (t : Type0) (s : array t 32) (i : usize) : result t = + array_index_shared t 32 s i + +(** [array::index_array_u32]: forward function *) +let index_array_u32_fwd (s : array u32 32) (i : usize) : result u32 = + array_index_shared u32 32 s i + +(** [array::index_array_generic]: forward function *) +let index_array_generic_fwd + (n : usize) (s : array u32 n) (i : usize) : result u32 = + array_index_shared u32 n s i + +(** [array::index_array_generic_call]: forward function *) +let index_array_generic_call_fwd + (n : usize) (s : array u32 n) (i : usize) : result u32 = + index_array_generic_fwd n s i + +(** [array::index_array_copy]: forward function *) +let index_array_copy_fwd (x : array u32 32) : result u32 = + array_index_shared u32 32 x 0 + +(** [array::index_mut_array]: forward function *) +let index_mut_array_fwd (t : Type0) (s : array t 32) (i : usize) : result t = + array_index_mut_fwd t 32 s i + +(** [array::index_mut_array]: backward function 0 *) +let index_mut_array_back + (t : Type0) (s : array t 32) (i : usize) (ret : t) : result (array t 32) = + array_index_mut_back t 32 s i ret + +(** [array::index_slice]: forward function *) +let index_slice_fwd (t : Type0) (s : slice t) (i : usize) : result t = + slice_index_shared t s i + +(** [array::index_mut_slice]: forward function *) +let index_mut_slice_fwd (t : Type0) (s : slice t) (i : usize) : result t = + slice_index_mut_fwd t s i + +(** [array::index_mut_slice]: backward function 0 *) +let index_mut_slice_back + (t : Type0) (s : slice t) (i : usize) (ret : t) : result (slice t) = + slice_index_mut_back t s i ret + +(** [array::slice_subslice_shared_]: forward function *) +let slice_subslice_shared__fwd + (x : slice u32) (y : usize) (z : usize) : result (slice u32) = + slice_subslice_shared u32 x (Mkrange y z) + +(** [array::slice_subslice_mut_]: forward function *) +let slice_subslice_mut__fwd + (x : slice u32) (y : usize) (z : usize) : result (slice u32) = + slice_subslice_mut_fwd u32 x (Mkrange y z) + +(** [array::slice_subslice_mut_]: backward function 0 *) +let slice_subslice_mut__back + (x : slice u32) (y : usize) (z : usize) (ret : slice u32) : + result (slice u32) + = + slice_subslice_mut_back u32 x (Mkrange y z) ret + +(** [array::array_to_slice_shared_]: forward function *) +let array_to_slice_shared__fwd (x : array u32 32) : result (slice u32) = + array_to_slice_shared u32 32 x + +(** [array::array_to_slice_mut_]: forward function *) +let array_to_slice_mut__fwd (x : array u32 32) : result (slice u32) = + array_to_slice_mut_fwd u32 32 x + +(** [array::array_to_slice_mut_]: backward function 0 *) +let array_to_slice_mut__back + (x : array u32 32) (ret : slice u32) : result (array u32 32) = + array_to_slice_mut_back u32 32 x ret + +(** [array::array_subslice_shared_]: forward function *) +let array_subslice_shared__fwd + (x : array u32 32) (y : usize) (z : usize) : result (slice u32) = + array_subslice_shared u32 32 x (Mkrange y z) + +(** [array::array_subslice_mut_]: forward function *) +let array_subslice_mut__fwd + (x : array u32 32) (y : usize) (z : usize) : result (slice u32) = + array_subslice_mut_fwd u32 32 x (Mkrange y z) + +(** [array::array_subslice_mut_]: backward function 0 *) +let array_subslice_mut__back + (x : array u32 32) (y : usize) (z : usize) (ret : slice u32) : + result (array u32 32) + = + array_subslice_mut_back u32 32 x (Mkrange y z) ret + +(** [array::index_slice_0]: forward function *) +let index_slice_0_fwd (t : Type0) (s : slice t) : result t = + slice_index_shared t s 0 + +(** [array::index_array_0]: forward function *) +let index_array_0_fwd (t : Type0) (s : array t 32) : result t = + array_index_shared t 32 s 0 + +(** [array::index_index_array]: forward function *) +let index_index_array_fwd + (s : array (array u32 32) 32) (i : usize) (j : usize) : result u32 = + let* a = array_index_shared (array u32 32) 32 s i in + array_index_shared u32 32 a j + +(** [array::update_update_array]: forward function *) +let update_update_array_fwd + (s : array (array u32 32) 32) (i : usize) (j : usize) : result unit = + let* a = array_index_mut_fwd (array u32 32) 32 s i in + let* a0 = array_index_mut_back u32 32 a j 0 in + let* _ = array_index_mut_back (array u32 32) 32 s i a0 in + Return () + +(** [array::array_local_deep_copy]: forward function *) +let array_local_deep_copy_fwd (x : array u32 32) : result unit = + Return () + +(** [array::take_array]: forward function *) +let take_array_fwd (a : array u32 2) : result unit = + Return () + +(** [array::take_array_borrow]: forward function *) +let take_array_borrow_fwd (a : array u32 2) : result unit = + Return () + +(** [array::take_slice]: forward function *) +let take_slice_fwd (s : slice u32) : result unit = + Return () + +(** [array::take_mut_slice]: merged forward/backward function + (there is a single backward function, and the forward function returns ()) *) +let take_mut_slice_fwd_back (s : slice u32) : result (slice u32) = + Return s + +(** [array::take_all]: forward function *) +let take_all_fwd : result unit = + let* _ = take_array_fwd (mk_array u32 2 [ 0; 0 ]) in + let* _ = take_array_borrow_fwd (mk_array u32 2 [ 0; 0 ]) in + let* s = array_to_slice_shared u32 2 (mk_array u32 2 [ 0; 0 ]) in + let* _ = take_slice_fwd s in + let* s0 = array_to_slice_mut_fwd u32 2 (mk_array u32 2 [ 0; 0 ]) in + let* s1 = take_mut_slice_fwd_back s0 in + let* _ = array_to_slice_mut_back u32 2 (mk_array u32 2 [ 0; 0 ]) s1 in + Return () + +(** [array::index_array]: forward function *) +let index_array_fwd (x : array u32 2) : result u32 = + array_index_shared u32 2 x 0 + +(** [array::index_array_borrow]: forward function *) +let index_array_borrow_fwd (x : array u32 2) : result u32 = + array_index_shared u32 2 x 0 + +(** [array::index_slice_u32_0]: forward function *) +let index_slice_u32_0_fwd (x : slice u32) : result u32 = + slice_index_shared u32 x 0 + +(** [array::index_mut_slice_u32_0]: forward function *) +let index_mut_slice_u32_0_fwd (x : slice u32) : result u32 = + slice_index_shared u32 x 0 + +(** [array::index_mut_slice_u32_0]: backward function 0 *) +let index_mut_slice_u32_0_back (x : slice u32) : result (slice u32) = + let* _ = slice_index_shared u32 x 0 in Return x + +(** [array::index_all]: forward function *) +let index_all_fwd : result u32 = + let* i = index_array_fwd (mk_array u32 2 [ 0; 0 ]) in + let* i0 = index_array_fwd (mk_array u32 2 [ 0; 0 ]) in + let* i1 = u32_add i i0 in + let* i2 = index_array_borrow_fwd (mk_array u32 2 [ 0; 0 ]) in + let* i3 = u32_add i1 i2 in + let* s = array_to_slice_shared u32 2 (mk_array u32 2 [ 0; 0 ]) in + let* i4 = index_slice_u32_0_fwd s in + let* i5 = u32_add i3 i4 in + let* s0 = array_to_slice_mut_fwd u32 2 (mk_array u32 2 [ 0; 0 ]) in + let* i6 = index_mut_slice_u32_0_fwd s0 in + let* i7 = u32_add i5 i6 in + let* s1 = index_mut_slice_u32_0_back s0 in + let* _ = array_to_slice_mut_back u32 2 (mk_array u32 2 [ 0; 0 ]) s1 in + Return i7 + +(** [array::update_array]: forward function *) +let update_array_fwd (x : array u32 2) : result unit = + let* _ = array_index_mut_back u32 2 x 0 1 in Return () + +(** [array::update_array_mut_borrow]: merged forward/backward function + (there is a single backward function, and the forward function returns ()) *) +let update_array_mut_borrow_fwd_back (x : array u32 2) : result (array u32 2) = + array_index_mut_back u32 2 x 0 1 + +(** [array::update_mut_slice]: merged forward/backward function + (there is a single backward function, and the forward function returns ()) *) +let update_mut_slice_fwd_back (x : slice u32) : result (slice u32) = + slice_index_mut_back u32 x 0 1 + +(** [array::update_all]: forward function *) +let update_all_fwd : result unit = + let* _ = update_array_fwd (mk_array u32 2 [ 0; 0 ]) in + let* x = update_array_mut_borrow_fwd_back (mk_array u32 2 [ 0; 0 ]) in + let* s = array_to_slice_mut_fwd u32 2 x in + let* s0 = update_mut_slice_fwd_back s in + let* _ = array_to_slice_mut_back u32 2 x s0 in + Return () + +(** [array::range_all]: forward function *) +let range_all_fwd : result unit = + let* s = + array_subslice_mut_fwd u32 4 (mk_array u32 4 [ 0; 0; 0; 0 ]) (Mkrange 1 3) + in + let* s0 = update_mut_slice_fwd_back s in + let* _ = + array_subslice_mut_back u32 4 (mk_array u32 4 [ 0; 0; 0; 0 ]) (Mkrange 1 3) + s0 in + Return () + +(** [array::deref_array_borrow]: forward function *) +let deref_array_borrow_fwd (x : array u32 2) : result u32 = + array_index_shared u32 2 x 0 + +(** [array::deref_array_mut_borrow]: forward function *) +let deref_array_mut_borrow_fwd (x : array u32 2) : result u32 = + array_index_shared u32 2 x 0 + +(** [array::deref_array_mut_borrow]: backward function 0 *) +let deref_array_mut_borrow_back (x : array u32 2) : result (array u32 2) = + let* _ = array_index_shared u32 2 x 0 in Return x + +(** [array::take_array_t]: forward function *) +let take_array_t_fwd (a : array t_t 2) : result unit = + Return () + +(** [array::non_copyable_array]: forward function *) +let non_copyable_array_fwd : result unit = + let* _ = take_array_t_fwd (mk_array t_t 2 [ TA; TB ]) in Return () + +(** [array::sum]: loop 0: forward function *) +let rec sum_loop_fwd + (s : slice u32) (sum : u32) (i : usize) : + Tot (result u32) (decreases (sum_loop_decreases s sum i)) + = + let i0 = slice_len u32 s in + if i < i0 + then + let* i1 = slice_index_shared u32 s i in + let* sum0 = u32_add sum i1 in + let* i2 = usize_add i 1 in + sum_loop_fwd s sum0 i2 + else Return sum + +(** [array::sum]: forward function *) +let sum_fwd (s : slice u32) : result u32 = + sum_loop_fwd s 0 0 + +(** [array::sum2]: loop 0: forward function *) +let rec sum2_loop_fwd + (s : slice u32) (s2 : slice u32) (sum : u32) (i : usize) : + Tot (result u32) (decreases (sum2_loop_decreases s s2 sum i)) + = + let i0 = slice_len u32 s in + if i < i0 + then + let* i1 = slice_index_shared u32 s i in + let* i2 = slice_index_shared u32 s2 i in + let* i3 = u32_add i1 i2 in + let* sum0 = u32_add sum i3 in + let* i4 = usize_add i 1 in + sum2_loop_fwd s s2 sum0 i4 + else Return sum + +(** [array::sum2]: forward function *) +let sum2_fwd (s : slice u32) (s2 : slice u32) : result u32 = + let i = slice_len u32 s in + let i0 = slice_len u32 s2 in + if not (i = i0) then Fail Failure else sum2_loop_fwd s s2 0 0 + +(** [array::f0]: forward function *) +let f0_fwd : result unit = + let* s = array_to_slice_mut_fwd u32 2 (mk_array u32 2 [ 1; 2 ]) in + let* s0 = slice_index_mut_back u32 s 0 1 in + let* _ = array_to_slice_mut_back u32 2 (mk_array u32 2 [ 1; 2 ]) s0 in + Return () + +(** [array::f1]: forward function *) +let f1_fwd : result unit = + let* _ = array_index_mut_back u32 2 (mk_array u32 2 [ 1; 2 ]) 0 1 in + Return () + +(** [array::f2]: forward function *) +let f2_fwd (i : u32) : result unit = + Return () + +(** [array::f4]: forward function *) +let f4_fwd (x : array u32 32) (y : usize) (z : usize) : result (slice u32) = + array_subslice_shared u32 32 x (Mkrange y z) + +(** [array::f3]: forward function *) +let f3_fwd : result u32 = + let* i = array_index_shared u32 2 (mk_array u32 2 [ 1; 2 ]) 0 in + let* _ = f2_fwd i in + let* s = array_to_slice_shared u32 2 (mk_array u32 2 [ 1; 2 ]) in + let* s0 = + f4_fwd + (mk_array u32 32 [ + 0; 0; 0; 0; 0; 0; 0; 0; 0; 0; 0; 0; 0; 0; 0; 0; 0; 0; 0; 0; 0; 0; 0; 0; + 0; 0; 0; 0; 0; 0; 0; 0 + ]) 16 18 in + sum2_fwd s s0 + +(** [array::ite]: forward function *) +let ite_fwd : result unit = + let* s = array_to_slice_mut_fwd u32 2 (mk_array u32 2 [ 0; 0 ]) in + let* s0 = array_to_slice_mut_fwd u32 2 (mk_array u32 2 [ 0; 0 ]) in + let* s1 = index_mut_slice_u32_0_back s0 in + let* _ = array_to_slice_mut_back u32 2 (mk_array u32 2 [ 0; 0 ]) s1 in + let* s2 = index_mut_slice_u32_0_back s in + let* _ = array_to_slice_mut_back u32 2 (mk_array u32 2 [ 0; 0 ]) s2 in + Return () + diff --git a/tests/fstar/array/Array.Types.fst b/tests/fstar/array/Array.Types.fst new file mode 100644 index 00000000..5e8e81d8 --- /dev/null +++ b/tests/fstar/array/Array.Types.fst @@ -0,0 +1,10 @@ +(** THIS FILE WAS AUTOMATICALLY GENERATED BY AENEAS *) +(** [array]: type definitions *) +module Array.Types +open Primitives + +#set-options "--z3rlimit 50 --fuel 1 --ifuel 1" + +(** [array::T] *) +type t_t = | TA : t_t | TB : t_t + diff --git a/tests/fstar/array/Makefile b/tests/fstar/array/Makefile new file mode 100644 index 00000000..fa7d1f36 --- /dev/null +++ b/tests/fstar/array/Makefile @@ -0,0 +1,49 @@ +# This file was automatically generated - modify ../Makefile.template instead +INCLUDE_DIRS = . + +FSTAR_INCLUDES = $(addprefix --include ,$(INCLUDE_DIRS)) + +FSTAR_HINTS ?= --use_hints --use_hint_hashes --record_hints + +FSTAR_OPTIONS = $(FSTAR_HINTS) \ + --cache_checked_modules $(FSTAR_INCLUDES) --cmi \ + --warn_error '+241@247+285-274' \ + +FSTAR_EXE ?= fstar.exe +FSTAR_NO_FLAGS = $(FSTAR_EXE) --already_cached 'Prims FStar LowStar Steel' --odir obj --cache_dir obj + +FSTAR = $(FSTAR_NO_FLAGS) $(FSTAR_OPTIONS) + +# The F* roots are used to compute the dependency graph, and generate the .depend file +FSTAR_ROOTS ?= $(wildcard *.fst *.fsti) + +# Build all the files +all: $(addprefix obj/,$(addsuffix .checked,$(FSTAR_ROOTS))) + +# This is the right way to ensure the .depend file always gets re-built. +ifeq (,$(filter %-in,$(MAKECMDGOALS))) +ifndef NODEPEND +ifndef MAKE_RESTARTS +.depend: .FORCE + $(FSTAR_NO_FLAGS) --dep full $(notdir $(FSTAR_ROOTS)) > $@ + +.PHONY: .FORCE +.FORCE: +endif +endif + +include .depend +endif + +# For the interactive mode +%.fst-in %.fsti-in: + @echo $(FSTAR_OPTIONS) + +# Generete the .checked files in batch mode +%.checked: + $(FSTAR) $(FSTAR_OPTIONS) $< && \ + touch -c $@ + +.PHONY: clean +clean: + rm -f obj/* diff --git a/tests/fstar/array/Primitives.fst b/tests/fstar/array/Primitives.fst new file mode 100644 index 00000000..9db82069 --- /dev/null +++ b/tests/fstar/array/Primitives.fst @@ -0,0 +1,375 @@ +/// This file lists primitive and assumed functions and types +module Primitives +open FStar.Mul +open FStar.List.Tot + +#set-options "--z3rlimit 15 --fuel 0 --ifuel 1" + +(*** Utilities *) +val list_update (#a : Type0) (ls : list a) (i : nat{i < length ls}) (x : a) : + ls':list a{ + length ls' = length ls /\ + index ls' i == x + } +#push-options "--fuel 1" +let rec list_update #a ls i x = + match ls with + | x' :: ls -> if i = 0 then x :: ls else x' :: list_update ls (i-1) x +#pop-options + +(*** Result *) +type error : Type0 = +| Failure +| OutOfFuel + +type result (a : Type0) : Type0 = +| Return : v:a -> result a +| Fail : e:error -> result a + +// Monadic return operator +unfold let return (#a : Type0) (x : a) : result a = Return x + +// Monadic bind operator. +// Allows to use the notation: +// ``` +// let* x = y in +// ... +// ``` +unfold let (let*) (#a #b : Type0) (m: result a) + (f: (x:a) -> Pure (result b) (requires (m == Return x)) (ensures fun _ -> True)) : + result b = + match m with + | Return x -> f x + | Fail e -> Fail e + +// Monadic assert(...) +let massert (b:bool) : result unit = if b then Return () else Fail Failure + +// Normalize and unwrap a successful result (used for globals). +let eval_global (#a : Type0) (x : result a{Return? (normalize_term x)}) : a = Return?.v x + +(*** Misc *) +type char = FStar.Char.char +type string = string + +let is_zero (n: nat) : bool = n = 0 +let decrease (n: nat{n > 0}) : nat = n - 1 + +let mem_replace_fwd (a : Type0) (x : a) (y : a) : a = x +let mem_replace_back (a : Type0) (x : a) (y : a) : a = y + +(*** Scalars *) +/// Rem.: most of the following code was partially generated + +let isize_min : int = -9223372036854775808 // TODO: should be opaque +let isize_max : int = 9223372036854775807 // TODO: should be opaque +let i8_min : int = -128 +let i8_max : int = 127 +let i16_min : int = -32768 +let i16_max : int = 32767 +let i32_min : int = -2147483648 +let i32_max : int = 2147483647 +let i64_min : int = -9223372036854775808 +let i64_max : int = 9223372036854775807 +let i128_min : int = -170141183460469231731687303715884105728 +let i128_max : int = 170141183460469231731687303715884105727 +let usize_min : int = 0 +let usize_max : int = 4294967295 // TODO: should be opaque +let u8_min : int = 0 +let u8_max : int = 255 +let u16_min : int = 0 +let u16_max : int = 65535 +let u32_min : int = 0 +let u32_max : int = 4294967295 +let u64_min : int = 0 +let u64_max : int = 18446744073709551615 +let u128_min : int = 0 +let u128_max : int = 340282366920938463463374607431768211455 + +type scalar_ty = +| Isize +| I8 +| I16 +| I32 +| I64 +| I128 +| Usize +| U8 +| U16 +| U32 +| U64 +| U128 + +let scalar_min (ty : scalar_ty) : int = + match ty with + | Isize -> isize_min + | I8 -> i8_min + | I16 -> i16_min + | I32 -> i32_min + | I64 -> i64_min + | I128 -> i128_min + | Usize -> usize_min + | U8 -> u8_min + | U16 -> u16_min + | U32 -> u32_min + | U64 -> u64_min + | U128 -> u128_min + +let scalar_max (ty : scalar_ty) : int = + match ty with + | Isize -> isize_max + | I8 -> i8_max + | I16 -> i16_max + | I32 -> i32_max + | I64 -> i64_max + | I128 -> i128_max + | Usize -> usize_max + | U8 -> u8_max + | U16 -> u16_max + | U32 -> u32_max + | U64 -> u64_max + | U128 -> u128_max + +type scalar (ty : scalar_ty) : eqtype = x:int{scalar_min ty <= x && x <= scalar_max ty} + +let mk_scalar (ty : scalar_ty) (x : int) : result (scalar ty) = + if scalar_min ty <= x && scalar_max ty >= x then Return x else Fail Failure + +let scalar_neg (#ty : scalar_ty) (x : scalar ty) : result (scalar ty) = mk_scalar ty (-x) + +let scalar_div (#ty : scalar_ty) (x : scalar ty) (y : scalar ty) : result (scalar ty) = + if y <> 0 then mk_scalar ty (x / y) else Fail Failure + +/// The remainder operation +let int_rem (x : int) (y : int{y <> 0}) : int = + if x >= 0 then (x % y) else -(x % y) + +(* Checking consistency with Rust *) +let _ = assert_norm(int_rem 1 2 = 1) +let _ = assert_norm(int_rem (-1) 2 = -1) +let _ = assert_norm(int_rem 1 (-2) = 1) +let _ = assert_norm(int_rem (-1) (-2) = -1) + +let scalar_rem (#ty : scalar_ty) (x : scalar ty) (y : scalar ty) : result (scalar ty) = + if y <> 0 then mk_scalar ty (int_rem x y) else Fail Failure + +let scalar_add (#ty : scalar_ty) (x : scalar ty) (y : scalar ty) : result (scalar ty) = + mk_scalar ty (x + y) + +let scalar_sub (#ty : scalar_ty) (x : scalar ty) (y : scalar ty) : result (scalar ty) = + mk_scalar ty (x - y) + +let scalar_mul (#ty : scalar_ty) (x : scalar ty) (y : scalar ty) : result (scalar ty) = + mk_scalar ty (x * y) + +(** Cast an integer from a [src_ty] to a [tgt_ty] *) +// TODO: check the semantics of casts in Rust +let scalar_cast (src_ty : scalar_ty) (tgt_ty : scalar_ty) (x : scalar src_ty) : result (scalar tgt_ty) = + mk_scalar tgt_ty x + +/// The scalar types +type isize : eqtype = scalar Isize +type i8 : eqtype = scalar I8 +type i16 : eqtype = scalar I16 +type i32 : eqtype = scalar I32 +type i64 : eqtype = scalar I64 +type i128 : eqtype = scalar I128 +type usize : eqtype = scalar Usize +type u8 : eqtype = scalar U8 +type u16 : eqtype = scalar U16 +type u32 : eqtype = scalar U32 +type u64 : eqtype = scalar U64 +type u128 : eqtype = scalar U128 + +/// Negation +let isize_neg = scalar_neg #Isize +let i8_neg = scalar_neg #I8 +let i16_neg = scalar_neg #I16 +let i32_neg = scalar_neg #I32 +let i64_neg = scalar_neg #I64 +let i128_neg = scalar_neg #I128 + +/// Division +let isize_div = scalar_div #Isize +let i8_div = scalar_div #I8 +let i16_div = scalar_div #I16 +let i32_div = scalar_div #I32 +let i64_div = scalar_div #I64 +let i128_div = scalar_div #I128 +let usize_div = scalar_div #Usize +let u8_div = scalar_div #U8 +let u16_div = scalar_div #U16 +let u32_div = scalar_div #U32 +let u64_div = scalar_div #U64 +let u128_div = scalar_div #U128 + +/// Remainder +let isize_rem = scalar_rem #Isize +let i8_rem = scalar_rem #I8 +let i16_rem = scalar_rem #I16 +let i32_rem = scalar_rem #I32 +let i64_rem = scalar_rem #I64 +let i128_rem = scalar_rem #I128 +let usize_rem = scalar_rem #Usize +let u8_rem = scalar_rem #U8 +let u16_rem = scalar_rem #U16 +let u32_rem = scalar_rem #U32 +let u64_rem = scalar_rem #U64 +let u128_rem = scalar_rem #U128 + +/// Addition +let isize_add = scalar_add #Isize +let i8_add = scalar_add #I8 +let i16_add = scalar_add #I16 +let i32_add = scalar_add #I32 +let i64_add = scalar_add #I64 +let i128_add = scalar_add #I128 +let usize_add = scalar_add #Usize +let u8_add = scalar_add #U8 +let u16_add = scalar_add #U16 +let u32_add = scalar_add #U32 +let u64_add = scalar_add #U64 +let u128_add = scalar_add #U128 + +/// Substraction +let isize_sub = scalar_sub #Isize +let i8_sub = scalar_sub #I8 +let i16_sub = scalar_sub #I16 +let i32_sub = scalar_sub #I32 +let i64_sub = scalar_sub #I64 +let i128_sub = scalar_sub #I128 +let usize_sub = scalar_sub #Usize +let u8_sub = scalar_sub #U8 +let u16_sub = scalar_sub #U16 +let u32_sub = scalar_sub #U32 +let u64_sub = scalar_sub #U64 +let u128_sub = scalar_sub #U128 + +/// Multiplication +let isize_mul = scalar_mul #Isize +let i8_mul = scalar_mul #I8 +let i16_mul = scalar_mul #I16 +let i32_mul = scalar_mul #I32 +let i64_mul = scalar_mul #I64 +let i128_mul = scalar_mul #I128 +let usize_mul = scalar_mul #Usize +let u8_mul = scalar_mul #U8 +let u16_mul = scalar_mul #U16 +let u32_mul = scalar_mul #U32 +let u64_mul = scalar_mul #U64 +let u128_mul = scalar_mul #U128 + +(*** Range *) +type range (a : Type0) = { + start : a; + end_ : a; +} + +(*** Array *) +type array (a : Type0) (n : usize) = s:list a{length s = n} + +// We tried putting the normalize_term condition as a refinement on the list +// but it didn't work. It works with the requires clause. +let mk_array (a : Type0) (n : usize) + (l : list a) : + Pure (array a n) + (requires (normalize_term(FStar.List.Tot.length l) = n)) + (ensures (fun _ -> True)) = + normalize_term_spec (FStar.List.Tot.length l); + l + +let array_index_shared (a : Type0) (n : usize) (x : array a n) (i : usize) : result a = + if i < length x then Return (index x i) + else Fail Failure + +let array_index_mut_fwd (a : Type0) (n : usize) (x : array a n) (i : usize) : result a = + if i < length x then Return (index x i) + else Fail Failure + +let array_index_mut_back (a : Type0) (n : usize) (x : array a n) (i : usize) (nx : a) : result (array a n) = + if i < length x then Return (list_update x i nx) + else Fail Failure + +(*** Slice *) +type slice (a : Type0) = s:list a{length s <= usize_max} + +let slice_len (a : Type0) (s : slice a) : usize = length s + +let slice_index_shared (a : Type0) (x : slice a) (i : usize) : result a = + if i < length x then Return (index x i) + else Fail Failure + +let slice_index_mut_fwd (a : Type0) (x : slice a) (i : usize) : result a = + if i < length x then Return (index x i) + else Fail Failure + +let slice_index_mut_back (a : Type0) (x : slice a) (i : usize) (nx : a) : result (slice a) = + if i < length x then Return (list_update x i nx) + else Fail Failure + +(*** Subslices *) + +let array_to_slice_shared (a : Type0) (n : usize) (x : array a n) : result (slice a) = Return x +let array_to_slice_mut_fwd (a : Type0) (n : usize) (x : array a n) : result (slice a) = Return x +let array_to_slice_mut_back (a : Type0) (n : usize) (x : array a n) (s : slice a) : result (array a n) = + if length s = n then Return s + else Fail Failure + +// TODO: finish the definitions below (there lacks [List.drop] and [List.take] in the standard library *) +let array_subslice_shared (a : Type0) (n : usize) (x : array a n) (r : range usize) : result (slice a) = + admit() + +let array_subslice_mut_fwd (a : Type0) (n : usize) (x : array a n) (r : range usize) : result (slice a) = + admit() + +let array_subslice_mut_back (a : Type0) (n : usize) (x : array a n) (r : range usize) (ns : slice a) : result (array a n) = + admit() + +let slice_subslice_shared (a : Type0) (x : slice a) (r : range usize) : result (slice a) = + admit() + +let slice_subslice_mut_fwd (a : Type0) (x : slice a) (r : range usize) : result (slice a) = + admit() + +let slice_subslice_mut_back (a : Type0) (x : slice a) (r : range usize) (ns : slice a) : result (slice a) = + admit() + +(*** Vector *) +type vec (a : Type0) = v:list a{length v <= usize_max} + +let vec_new (a : Type0) : vec a = assert_norm(length #a [] == 0); [] +let vec_len (a : Type0) (v : vec a) : usize = length v + +// The **forward** function shouldn't be used +let vec_push_fwd (a : Type0) (v : vec a) (x : a) : unit = () +let vec_push_back (a : Type0) (v : vec a) (x : a) : + Pure (result (vec a)) + (requires True) + (ensures (fun res -> + match res with + | Fail e -> e == Failure + | Return v' -> length v' = length v + 1)) = + if length v < usize_max then begin + (**) assert_norm(length [x] == 1); + (**) append_length v [x]; + (**) assert(length (append v [x]) = length v + 1); + Return (append v [x]) + end + else Fail Failure + +// The **forward** function shouldn't be used +let vec_insert_fwd (a : Type0) (v : vec a) (i : usize) (x : a) : result unit = + if i < length v then Return () else Fail Failure +let vec_insert_back (a : Type0) (v : vec a) (i : usize) (x : a) : result (vec a) = + if i < length v then Return (list_update v i x) else Fail Failure + +// The **backward** function shouldn't be used +let vec_index_fwd (a : Type0) (v : vec a) (i : usize) : result a = + if i < length v then Return (index v i) else Fail Failure +let vec_index_back (a : Type0) (v : vec a) (i : usize) (x : a) : result unit = + if i < length v then Return () else Fail Failure + +let vec_index_mut_fwd (a : Type0) (v : vec a) (i : usize) : result a = + if i < length v then Return (index v i) else Fail Failure +let vec_index_mut_back (a : Type0) (v : vec a) (i : usize) (nx : a) : result (vec a) = + if i < length v then Return (list_update v i nx) else Fail Failure diff --git a/tests/fstar/betree/Primitives.fst b/tests/fstar/betree/Primitives.fst index 98a696b6..9db82069 100644 --- a/tests/fstar/betree/Primitives.fst +++ b/tests/fstar/betree/Primitives.fst @@ -259,6 +259,81 @@ let u32_mul = scalar_mul #U32 let u64_mul = scalar_mul #U64 let u128_mul = scalar_mul #U128 +(*** Range *) +type range (a : Type0) = { + start : a; + end_ : a; +} + +(*** Array *) +type array (a : Type0) (n : usize) = s:list a{length s = n} + +// We tried putting the normalize_term condition as a refinement on the list +// but it didn't work. It works with the requires clause. +let mk_array (a : Type0) (n : usize) + (l : list a) : + Pure (array a n) + (requires (normalize_term(FStar.List.Tot.length l) = n)) + (ensures (fun _ -> True)) = + normalize_term_spec (FStar.List.Tot.length l); + l + +let array_index_shared (a : Type0) (n : usize) (x : array a n) (i : usize) : result a = + if i < length x then Return (index x i) + else Fail Failure + +let array_index_mut_fwd (a : Type0) (n : usize) (x : array a n) (i : usize) : result a = + if i < length x then Return (index x i) + else Fail Failure + +let array_index_mut_back (a : Type0) (n : usize) (x : array a n) (i : usize) (nx : a) : result (array a n) = + if i < length x then Return (list_update x i nx) + else Fail Failure + +(*** Slice *) +type slice (a : Type0) = s:list a{length s <= usize_max} + +let slice_len (a : Type0) (s : slice a) : usize = length s + +let slice_index_shared (a : Type0) (x : slice a) (i : usize) : result a = + if i < length x then Return (index x i) + else Fail Failure + +let slice_index_mut_fwd (a : Type0) (x : slice a) (i : usize) : result a = + if i < length x then Return (index x i) + else Fail Failure + +let slice_index_mut_back (a : Type0) (x : slice a) (i : usize) (nx : a) : result (slice a) = + if i < length x then Return (list_update x i nx) + else Fail Failure + +(*** Subslices *) + +let array_to_slice_shared (a : Type0) (n : usize) (x : array a n) : result (slice a) = Return x +let array_to_slice_mut_fwd (a : Type0) (n : usize) (x : array a n) : result (slice a) = Return x +let array_to_slice_mut_back (a : Type0) (n : usize) (x : array a n) (s : slice a) : result (array a n) = + if length s = n then Return s + else Fail Failure + +// TODO: finish the definitions below (there lacks [List.drop] and [List.take] in the standard library *) +let array_subslice_shared (a : Type0) (n : usize) (x : array a n) (r : range usize) : result (slice a) = + admit() + +let array_subslice_mut_fwd (a : Type0) (n : usize) (x : array a n) (r : range usize) : result (slice a) = + admit() + +let array_subslice_mut_back (a : Type0) (n : usize) (x : array a n) (r : range usize) (ns : slice a) : result (array a n) = + admit() + +let slice_subslice_shared (a : Type0) (x : slice a) (r : range usize) : result (slice a) = + admit() + +let slice_subslice_mut_fwd (a : Type0) (x : slice a) (r : range usize) : result (slice a) = + admit() + +let slice_subslice_mut_back (a : Type0) (x : slice a) (r : range usize) (ns : slice a) : result (slice a) = + admit() + (*** Vector *) type vec (a : Type0) = v:list a{length v <= usize_max} diff --git a/tests/fstar/betree_back_stateful/Primitives.fst b/tests/fstar/betree_back_stateful/Primitives.fst index 98a696b6..9db82069 100644 --- a/tests/fstar/betree_back_stateful/Primitives.fst +++ b/tests/fstar/betree_back_stateful/Primitives.fst @@ -259,6 +259,81 @@ let u32_mul = scalar_mul #U32 let u64_mul = scalar_mul #U64 let u128_mul = scalar_mul #U128 +(*** Range *) +type range (a : Type0) = { + start : a; + end_ : a; +} + +(*** Array *) +type array (a : Type0) (n : usize) = s:list a{length s = n} + +// We tried putting the normalize_term condition as a refinement on the list +// but it didn't work. It works with the requires clause. +let mk_array (a : Type0) (n : usize) + (l : list a) : + Pure (array a n) + (requires (normalize_term(FStar.List.Tot.length l) = n)) + (ensures (fun _ -> True)) = + normalize_term_spec (FStar.List.Tot.length l); + l + +let array_index_shared (a : Type0) (n : usize) (x : array a n) (i : usize) : result a = + if i < length x then Return (index x i) + else Fail Failure + +let array_index_mut_fwd (a : Type0) (n : usize) (x : array a n) (i : usize) : result a = + if i < length x then Return (index x i) + else Fail Failure + +let array_index_mut_back (a : Type0) (n : usize) (x : array a n) (i : usize) (nx : a) : result (array a n) = + if i < length x then Return (list_update x i nx) + else Fail Failure + +(*** Slice *) +type slice (a : Type0) = s:list a{length s <= usize_max} + +let slice_len (a : Type0) (s : slice a) : usize = length s + +let slice_index_shared (a : Type0) (x : slice a) (i : usize) : result a = + if i < length x then Return (index x i) + else Fail Failure + +let slice_index_mut_fwd (a : Type0) (x : slice a) (i : usize) : result a = + if i < length x then Return (index x i) + else Fail Failure + +let slice_index_mut_back (a : Type0) (x : slice a) (i : usize) (nx : a) : result (slice a) = + if i < length x then Return (list_update x i nx) + else Fail Failure + +(*** Subslices *) + +let array_to_slice_shared (a : Type0) (n : usize) (x : array a n) : result (slice a) = Return x +let array_to_slice_mut_fwd (a : Type0) (n : usize) (x : array a n) : result (slice a) = Return x +let array_to_slice_mut_back (a : Type0) (n : usize) (x : array a n) (s : slice a) : result (array a n) = + if length s = n then Return s + else Fail Failure + +// TODO: finish the definitions below (there lacks [List.drop] and [List.take] in the standard library *) +let array_subslice_shared (a : Type0) (n : usize) (x : array a n) (r : range usize) : result (slice a) = + admit() + +let array_subslice_mut_fwd (a : Type0) (n : usize) (x : array a n) (r : range usize) : result (slice a) = + admit() + +let array_subslice_mut_back (a : Type0) (n : usize) (x : array a n) (r : range usize) (ns : slice a) : result (array a n) = + admit() + +let slice_subslice_shared (a : Type0) (x : slice a) (r : range usize) : result (slice a) = + admit() + +let slice_subslice_mut_fwd (a : Type0) (x : slice a) (r : range usize) : result (slice a) = + admit() + +let slice_subslice_mut_back (a : Type0) (x : slice a) (r : range usize) (ns : slice a) : result (slice a) = + admit() + (*** Vector *) type vec (a : Type0) = v:list a{length v <= usize_max} diff --git a/tests/fstar/hashmap/Primitives.fst b/tests/fstar/hashmap/Primitives.fst index 98a696b6..9db82069 100644 --- a/tests/fstar/hashmap/Primitives.fst +++ b/tests/fstar/hashmap/Primitives.fst @@ -259,6 +259,81 @@ let u32_mul = scalar_mul #U32 let u64_mul = scalar_mul #U64 let u128_mul = scalar_mul #U128 +(*** Range *) +type range (a : Type0) = { + start : a; + end_ : a; +} + +(*** Array *) +type array (a : Type0) (n : usize) = s:list a{length s = n} + +// We tried putting the normalize_term condition as a refinement on the list +// but it didn't work. It works with the requires clause. +let mk_array (a : Type0) (n : usize) + (l : list a) : + Pure (array a n) + (requires (normalize_term(FStar.List.Tot.length l) = n)) + (ensures (fun _ -> True)) = + normalize_term_spec (FStar.List.Tot.length l); + l + +let array_index_shared (a : Type0) (n : usize) (x : array a n) (i : usize) : result a = + if i < length x then Return (index x i) + else Fail Failure + +let array_index_mut_fwd (a : Type0) (n : usize) (x : array a n) (i : usize) : result a = + if i < length x then Return (index x i) + else Fail Failure + +let array_index_mut_back (a : Type0) (n : usize) (x : array a n) (i : usize) (nx : a) : result (array a n) = + if i < length x then Return (list_update x i nx) + else Fail Failure + +(*** Slice *) +type slice (a : Type0) = s:list a{length s <= usize_max} + +let slice_len (a : Type0) (s : slice a) : usize = length s + +let slice_index_shared (a : Type0) (x : slice a) (i : usize) : result a = + if i < length x then Return (index x i) + else Fail Failure + +let slice_index_mut_fwd (a : Type0) (x : slice a) (i : usize) : result a = + if i < length x then Return (index x i) + else Fail Failure + +let slice_index_mut_back (a : Type0) (x : slice a) (i : usize) (nx : a) : result (slice a) = + if i < length x then Return (list_update x i nx) + else Fail Failure + +(*** Subslices *) + +let array_to_slice_shared (a : Type0) (n : usize) (x : array a n) : result (slice a) = Return x +let array_to_slice_mut_fwd (a : Type0) (n : usize) (x : array a n) : result (slice a) = Return x +let array_to_slice_mut_back (a : Type0) (n : usize) (x : array a n) (s : slice a) : result (array a n) = + if length s = n then Return s + else Fail Failure + +// TODO: finish the definitions below (there lacks [List.drop] and [List.take] in the standard library *) +let array_subslice_shared (a : Type0) (n : usize) (x : array a n) (r : range usize) : result (slice a) = + admit() + +let array_subslice_mut_fwd (a : Type0) (n : usize) (x : array a n) (r : range usize) : result (slice a) = + admit() + +let array_subslice_mut_back (a : Type0) (n : usize) (x : array a n) (r : range usize) (ns : slice a) : result (array a n) = + admit() + +let slice_subslice_shared (a : Type0) (x : slice a) (r : range usize) : result (slice a) = + admit() + +let slice_subslice_mut_fwd (a : Type0) (x : slice a) (r : range usize) : result (slice a) = + admit() + +let slice_subslice_mut_back (a : Type0) (x : slice a) (r : range usize) (ns : slice a) : result (slice a) = + admit() + (*** Vector *) type vec (a : Type0) = v:list a{length v <= usize_max} diff --git a/tests/fstar/hashmap_on_disk/Primitives.fst b/tests/fstar/hashmap_on_disk/Primitives.fst index 98a696b6..9db82069 100644 --- a/tests/fstar/hashmap_on_disk/Primitives.fst +++ b/tests/fstar/hashmap_on_disk/Primitives.fst @@ -259,6 +259,81 @@ let u32_mul = scalar_mul #U32 let u64_mul = scalar_mul #U64 let u128_mul = scalar_mul #U128 +(*** Range *) +type range (a : Type0) = { + start : a; + end_ : a; +} + +(*** Array *) +type array (a : Type0) (n : usize) = s:list a{length s = n} + +// We tried putting the normalize_term condition as a refinement on the list +// but it didn't work. It works with the requires clause. +let mk_array (a : Type0) (n : usize) + (l : list a) : + Pure (array a n) + (requires (normalize_term(FStar.List.Tot.length l) = n)) + (ensures (fun _ -> True)) = + normalize_term_spec (FStar.List.Tot.length l); + l + +let array_index_shared (a : Type0) (n : usize) (x : array a n) (i : usize) : result a = + if i < length x then Return (index x i) + else Fail Failure + +let array_index_mut_fwd (a : Type0) (n : usize) (x : array a n) (i : usize) : result a = + if i < length x then Return (index x i) + else Fail Failure + +let array_index_mut_back (a : Type0) (n : usize) (x : array a n) (i : usize) (nx : a) : result (array a n) = + if i < length x then Return (list_update x i nx) + else Fail Failure + +(*** Slice *) +type slice (a : Type0) = s:list a{length s <= usize_max} + +let slice_len (a : Type0) (s : slice a) : usize = length s + +let slice_index_shared (a : Type0) (x : slice a) (i : usize) : result a = + if i < length x then Return (index x i) + else Fail Failure + +let slice_index_mut_fwd (a : Type0) (x : slice a) (i : usize) : result a = + if i < length x then Return (index x i) + else Fail Failure + +let slice_index_mut_back (a : Type0) (x : slice a) (i : usize) (nx : a) : result (slice a) = + if i < length x then Return (list_update x i nx) + else Fail Failure + +(*** Subslices *) + +let array_to_slice_shared (a : Type0) (n : usize) (x : array a n) : result (slice a) = Return x +let array_to_slice_mut_fwd (a : Type0) (n : usize) (x : array a n) : result (slice a) = Return x +let array_to_slice_mut_back (a : Type0) (n : usize) (x : array a n) (s : slice a) : result (array a n) = + if length s = n then Return s + else Fail Failure + +// TODO: finish the definitions below (there lacks [List.drop] and [List.take] in the standard library *) +let array_subslice_shared (a : Type0) (n : usize) (x : array a n) (r : range usize) : result (slice a) = + admit() + +let array_subslice_mut_fwd (a : Type0) (n : usize) (x : array a n) (r : range usize) : result (slice a) = + admit() + +let array_subslice_mut_back (a : Type0) (n : usize) (x : array a n) (r : range usize) (ns : slice a) : result (array a n) = + admit() + +let slice_subslice_shared (a : Type0) (x : slice a) (r : range usize) : result (slice a) = + admit() + +let slice_subslice_mut_fwd (a : Type0) (x : slice a) (r : range usize) : result (slice a) = + admit() + +let slice_subslice_mut_back (a : Type0) (x : slice a) (r : range usize) (ns : slice a) : result (slice a) = + admit() + (*** Vector *) type vec (a : Type0) = v:list a{length v <= usize_max} diff --git a/tests/fstar/misc/Primitives.fst b/tests/fstar/misc/Primitives.fst index 98a696b6..9db82069 100644 --- a/tests/fstar/misc/Primitives.fst +++ b/tests/fstar/misc/Primitives.fst @@ -259,6 +259,81 @@ let u32_mul = scalar_mul #U32 let u64_mul = scalar_mul #U64 let u128_mul = scalar_mul #U128 +(*** Range *) +type range (a : Type0) = { + start : a; + end_ : a; +} + +(*** Array *) +type array (a : Type0) (n : usize) = s:list a{length s = n} + +// We tried putting the normalize_term condition as a refinement on the list +// but it didn't work. It works with the requires clause. +let mk_array (a : Type0) (n : usize) + (l : list a) : + Pure (array a n) + (requires (normalize_term(FStar.List.Tot.length l) = n)) + (ensures (fun _ -> True)) = + normalize_term_spec (FStar.List.Tot.length l); + l + +let array_index_shared (a : Type0) (n : usize) (x : array a n) (i : usize) : result a = + if i < length x then Return (index x i) + else Fail Failure + +let array_index_mut_fwd (a : Type0) (n : usize) (x : array a n) (i : usize) : result a = + if i < length x then Return (index x i) + else Fail Failure + +let array_index_mut_back (a : Type0) (n : usize) (x : array a n) (i : usize) (nx : a) : result (array a n) = + if i < length x then Return (list_update x i nx) + else Fail Failure + +(*** Slice *) +type slice (a : Type0) = s:list a{length s <= usize_max} + +let slice_len (a : Type0) (s : slice a) : usize = length s + +let slice_index_shared (a : Type0) (x : slice a) (i : usize) : result a = + if i < length x then Return (index x i) + else Fail Failure + +let slice_index_mut_fwd (a : Type0) (x : slice a) (i : usize) : result a = + if i < length x then Return (index x i) + else Fail Failure + +let slice_index_mut_back (a : Type0) (x : slice a) (i : usize) (nx : a) : result (slice a) = + if i < length x then Return (list_update x i nx) + else Fail Failure + +(*** Subslices *) + +let array_to_slice_shared (a : Type0) (n : usize) (x : array a n) : result (slice a) = Return x +let array_to_slice_mut_fwd (a : Type0) (n : usize) (x : array a n) : result (slice a) = Return x +let array_to_slice_mut_back (a : Type0) (n : usize) (x : array a n) (s : slice a) : result (array a n) = + if length s = n then Return s + else Fail Failure + +// TODO: finish the definitions below (there lacks [List.drop] and [List.take] in the standard library *) +let array_subslice_shared (a : Type0) (n : usize) (x : array a n) (r : range usize) : result (slice a) = + admit() + +let array_subslice_mut_fwd (a : Type0) (n : usize) (x : array a n) (r : range usize) : result (slice a) = + admit() + +let array_subslice_mut_back (a : Type0) (n : usize) (x : array a n) (r : range usize) (ns : slice a) : result (array a n) = + admit() + +let slice_subslice_shared (a : Type0) (x : slice a) (r : range usize) : result (slice a) = + admit() + +let slice_subslice_mut_fwd (a : Type0) (x : slice a) (r : range usize) : result (slice a) = + admit() + +let slice_subslice_mut_back (a : Type0) (x : slice a) (r : range usize) (ns : slice a) : result (slice a) = + admit() + (*** Vector *) type vec (a : Type0) = v:list a{length v <= usize_max} diff --git a/tests/lean/Array.lean b/tests/lean/Array.lean new file mode 100644 index 00000000..277b63d9 --- /dev/null +++ b/tests/lean/Array.lean @@ -0,0 +1 @@ +import Array.Funs diff --git a/tests/lean/Array/Funs.lean b/tests/lean/Array/Funs.lean new file mode 100644 index 00000000..ad737dca --- /dev/null +++ b/tests/lean/Array/Funs.lean @@ -0,0 +1,465 @@ +-- THIS FILE WAS AUTOMATICALLY GENERATED BY AENEAS +-- [array]: function definitions +import Base +import Array.Types +open Primitives + +namespace array + +/- [array::array_to_shared_slice_]: forward function -/ +def array_to_shared_slice_ + (T0 : Type) (s : Array T0 (Usize.ofInt 32)) : Result (Slice T0) := + Array.to_slice_shared T0 (Usize.ofInt 32) s + +/- [array::array_to_mut_slice_]: forward function -/ +def array_to_mut_slice_ + (T0 : Type) (s : Array T0 (Usize.ofInt 32)) : Result (Slice T0) := + Array.to_slice_mut T0 (Usize.ofInt 32) s + +/- [array::array_to_mut_slice_]: backward function 0 -/ +def array_to_mut_slice__back + (T0 : Type) (s : Array T0 (Usize.ofInt 32)) (ret0 : Slice T0) : + Result (Array T0 (Usize.ofInt 32)) + := + Array.to_slice_mut_back T0 (Usize.ofInt 32) s ret0 + +/- [array::array_len]: forward function -/ +def array_len (T0 : Type) (s : Array T0 (Usize.ofInt 32)) : Result Usize := + do + let s0 ← Array.to_slice_shared T0 (Usize.ofInt 32) s + let i := Slice.len T0 s0 + Result.ret i + +/- [array::shared_array_len]: forward function -/ +def shared_array_len + (T0 : Type) (s : Array T0 (Usize.ofInt 32)) : Result Usize := + do + let s0 ← Array.to_slice_shared T0 (Usize.ofInt 32) s + let i := Slice.len T0 s0 + Result.ret i + +/- [array::shared_slice_len]: forward function -/ +def shared_slice_len (T0 : Type) (s : Slice T0) : Result Usize := + let i := Slice.len T0 s + Result.ret i + +/- [array::index_array_shared]: forward function -/ +def index_array_shared + (T0 : Type) (s : Array T0 (Usize.ofInt 32)) (i : Usize) : Result T0 := + Array.index_shared T0 (Usize.ofInt 32) s i + +/- [array::index_array_u32]: forward function -/ +def index_array_u32 + (s : Array U32 (Usize.ofInt 32)) (i : Usize) : Result U32 := + Array.index_shared U32 (Usize.ofInt 32) s i + +/- [array::index_array_generic]: forward function -/ +def index_array_generic + (N : Usize) (s : Array U32 N) (i : Usize) : Result U32 := + Array.index_shared U32 N s i + +/- [array::index_array_generic_call]: forward function -/ +def index_array_generic_call + (N : Usize) (s : Array U32 N) (i : Usize) : Result U32 := + index_array_generic N s i + +/- [array::index_array_copy]: forward function -/ +def index_array_copy (x : Array U32 (Usize.ofInt 32)) : Result U32 := + Array.index_shared U32 (Usize.ofInt 32) x (Usize.ofInt 0) + +/- [array::index_mut_array]: forward function -/ +def index_mut_array + (T0 : Type) (s : Array T0 (Usize.ofInt 32)) (i : Usize) : Result T0 := + Array.index_mut T0 (Usize.ofInt 32) s i + +/- [array::index_mut_array]: backward function 0 -/ +def index_mut_array_back + (T0 : Type) (s : Array T0 (Usize.ofInt 32)) (i : Usize) (ret0 : T0) : + Result (Array T0 (Usize.ofInt 32)) + := + Array.index_mut_back T0 (Usize.ofInt 32) s i ret0 + +/- [array::index_slice]: forward function -/ +def index_slice (T0 : Type) (s : Slice T0) (i : Usize) : Result T0 := + Slice.index_shared T0 s i + +/- [array::index_mut_slice]: forward function -/ +def index_mut_slice (T0 : Type) (s : Slice T0) (i : Usize) : Result T0 := + Slice.index_mut T0 s i + +/- [array::index_mut_slice]: backward function 0 -/ +def index_mut_slice_back + (T0 : Type) (s : Slice T0) (i : Usize) (ret0 : T0) : Result (Slice T0) := + Slice.index_mut_back T0 s i ret0 + +/- [array::slice_subslice_shared_]: forward function -/ +def slice_subslice_shared_ + (x : Slice U32) (y : Usize) (z : Usize) : Result (Slice U32) := + Slice.subslice_shared U32 x (Range.mk y z) + +/- [array::slice_subslice_mut_]: forward function -/ +def slice_subslice_mut_ + (x : Slice U32) (y : Usize) (z : Usize) : Result (Slice U32) := + Slice.subslice_mut U32 x (Range.mk y z) + +/- [array::slice_subslice_mut_]: backward function 0 -/ +def slice_subslice_mut__back + (x : Slice U32) (y : Usize) (z : Usize) (ret0 : Slice U32) : + Result (Slice U32) + := + Slice.subslice_mut_back U32 x (Range.mk y z) ret0 + +/- [array::array_to_slice_shared_]: forward function -/ +def array_to_slice_shared_ + (x : Array U32 (Usize.ofInt 32)) : Result (Slice U32) := + Array.to_slice_shared U32 (Usize.ofInt 32) x + +/- [array::array_to_slice_mut_]: forward function -/ +def array_to_slice_mut_ + (x : Array U32 (Usize.ofInt 32)) : Result (Slice U32) := + Array.to_slice_mut U32 (Usize.ofInt 32) x + +/- [array::array_to_slice_mut_]: backward function 0 -/ +def array_to_slice_mut__back + (x : Array U32 (Usize.ofInt 32)) (ret0 : Slice U32) : + Result (Array U32 (Usize.ofInt 32)) + := + Array.to_slice_mut_back U32 (Usize.ofInt 32) x ret0 + +/- [array::array_subslice_shared_]: forward function -/ +def array_subslice_shared_ + (x : Array U32 (Usize.ofInt 32)) (y : Usize) (z : Usize) : + Result (Slice U32) + := + Array.subslice_shared U32 (Usize.ofInt 32) x (Range.mk y z) + +/- [array::array_subslice_mut_]: forward function -/ +def array_subslice_mut_ + (x : Array U32 (Usize.ofInt 32)) (y : Usize) (z : Usize) : + Result (Slice U32) + := + Array.subslice_mut U32 (Usize.ofInt 32) x (Range.mk y z) + +/- [array::array_subslice_mut_]: backward function 0 -/ +def array_subslice_mut__back + (x : Array U32 (Usize.ofInt 32)) (y : Usize) (z : Usize) (ret0 : Slice U32) : + Result (Array U32 (Usize.ofInt 32)) + := + Array.subslice_mut_back U32 (Usize.ofInt 32) x (Range.mk y z) ret0 + +/- [array::index_slice_0]: forward function -/ +def index_slice_0 (T0 : Type) (s : Slice T0) : Result T0 := + Slice.index_shared T0 s (Usize.ofInt 0) + +/- [array::index_array_0]: forward function -/ +def index_array_0 (T0 : Type) (s : Array T0 (Usize.ofInt 32)) : Result T0 := + Array.index_shared T0 (Usize.ofInt 32) s (Usize.ofInt 0) + +/- [array::index_index_array]: forward function -/ +def index_index_array + (s : Array (Array U32 (Usize.ofInt 32)) (Usize.ofInt 32)) (i : Usize) + (j : Usize) : + Result U32 + := + do + let a ← + Array.index_shared (Array U32 (Usize.ofInt 32)) (Usize.ofInt 32) s i + Array.index_shared U32 (Usize.ofInt 32) a j + +/- [array::update_update_array]: forward function -/ +def update_update_array + (s : Array (Array U32 (Usize.ofInt 32)) (Usize.ofInt 32)) (i : Usize) + (j : Usize) : + Result Unit + := + do + let a ← Array.index_mut (Array U32 (Usize.ofInt 32)) (Usize.ofInt 32) s i + let a0 ← Array.index_mut_back U32 (Usize.ofInt 32) a j (U32.ofInt 0) + let _ ← + Array.index_mut_back (Array U32 (Usize.ofInt 32)) (Usize.ofInt 32) s i a0 + Result.ret () + +/- [array::array_local_deep_copy]: forward function -/ +def array_local_deep_copy (x : Array U32 (Usize.ofInt 32)) : Result Unit := + Result.ret () + +/- [array::take_array]: forward function -/ +def take_array (a : Array U32 (Usize.ofInt 2)) : Result Unit := + Result.ret () + +/- [array::take_array_borrow]: forward function -/ +def take_array_borrow (a : Array U32 (Usize.ofInt 2)) : Result Unit := + Result.ret () + +/- [array::take_slice]: forward function -/ +def take_slice (s : Slice U32) : Result Unit := + Result.ret () + +/- [array::take_mut_slice]: merged forward/backward function + (there is a single backward function, and the forward function returns ()) -/ +def take_mut_slice (s : Slice U32) : Result (Slice U32) := + Result.ret s + +/- [array::take_all]: forward function -/ +def take_all : Result Unit := + do + let _ ← + take_array + (Array.make U32 (Usize.ofInt 2) [ (U32.ofInt 0), (U32.ofInt 0) ]) + let _ ← + take_array_borrow + (Array.make U32 (Usize.ofInt 2) [ (U32.ofInt 0), (U32.ofInt 0) ]) + let s ← + Array.to_slice_shared U32 (Usize.ofInt 2) + (Array.make U32 (Usize.ofInt 2) [ (U32.ofInt 0), (U32.ofInt 0) ]) + let _ ← take_slice s + let s0 ← + Array.to_slice_mut U32 (Usize.ofInt 2) + (Array.make U32 (Usize.ofInt 2) [ (U32.ofInt 0), (U32.ofInt 0) ]) + let s1 ← take_mut_slice s0 + let _ ← + Array.to_slice_mut_back U32 (Usize.ofInt 2) + (Array.make U32 (Usize.ofInt 2) [ (U32.ofInt 0), (U32.ofInt 0) ]) s1 + Result.ret () + +/- [array::index_array]: forward function -/ +def index_array (x : Array U32 (Usize.ofInt 2)) : Result U32 := + Array.index_shared U32 (Usize.ofInt 2) x (Usize.ofInt 0) + +/- [array::index_array_borrow]: forward function -/ +def index_array_borrow (x : Array U32 (Usize.ofInt 2)) : Result U32 := + Array.index_shared U32 (Usize.ofInt 2) x (Usize.ofInt 0) + +/- [array::index_slice_u32_0]: forward function -/ +def index_slice_u32_0 (x : Slice U32) : Result U32 := + Slice.index_shared U32 x (Usize.ofInt 0) + +/- [array::index_mut_slice_u32_0]: forward function -/ +def index_mut_slice_u32_0 (x : Slice U32) : Result U32 := + Slice.index_shared U32 x (Usize.ofInt 0) + +/- [array::index_mut_slice_u32_0]: backward function 0 -/ +def index_mut_slice_u32_0_back (x : Slice U32) : Result (Slice U32) := + do + let _ ← Slice.index_shared U32 x (Usize.ofInt 0) + Result.ret x + +/- [array::index_all]: forward function -/ +def index_all : Result U32 := + do + let i ← + index_array + (Array.make U32 (Usize.ofInt 2) [ (U32.ofInt 0), (U32.ofInt 0) ]) + let i0 ← + index_array + (Array.make U32 (Usize.ofInt 2) [ (U32.ofInt 0), (U32.ofInt 0) ]) + let i1 ← i + i0 + let i2 ← + index_array_borrow + (Array.make U32 (Usize.ofInt 2) [ (U32.ofInt 0), (U32.ofInt 0) ]) + let i3 ← i1 + i2 + let s ← + Array.to_slice_shared U32 (Usize.ofInt 2) + (Array.make U32 (Usize.ofInt 2) [ (U32.ofInt 0), (U32.ofInt 0) ]) + let i4 ← index_slice_u32_0 s + let i5 ← i3 + i4 + let s0 ← + Array.to_slice_mut U32 (Usize.ofInt 2) + (Array.make U32 (Usize.ofInt 2) [ (U32.ofInt 0), (U32.ofInt 0) ]) + let i6 ← index_mut_slice_u32_0 s0 + let i7 ← i5 + i6 + let s1 ← index_mut_slice_u32_0_back s0 + let _ ← + Array.to_slice_mut_back U32 (Usize.ofInt 2) + (Array.make U32 (Usize.ofInt 2) [ (U32.ofInt 0), (U32.ofInt 0) ]) s1 + Result.ret i7 + +/- [array::update_array]: forward function -/ +def update_array (x : Array U32 (Usize.ofInt 2)) : Result Unit := + do + let _ ← + Array.index_mut_back U32 (Usize.ofInt 2) x (Usize.ofInt 0) (U32.ofInt 1) + Result.ret () + +/- [array::update_array_mut_borrow]: merged forward/backward function + (there is a single backward function, and the forward function returns ()) -/ +def update_array_mut_borrow + (x : Array U32 (Usize.ofInt 2)) : Result (Array U32 (Usize.ofInt 2)) := + Array.index_mut_back U32 (Usize.ofInt 2) x (Usize.ofInt 0) (U32.ofInt 1) + +/- [array::update_mut_slice]: merged forward/backward function + (there is a single backward function, and the forward function returns ()) -/ +def update_mut_slice (x : Slice U32) : Result (Slice U32) := + Slice.index_mut_back U32 x (Usize.ofInt 0) (U32.ofInt 1) + +/- [array::update_all]: forward function -/ +def update_all : Result Unit := + do + let _ ← + update_array + (Array.make U32 (Usize.ofInt 2) [ (U32.ofInt 0), (U32.ofInt 0) ]) + let x ← + update_array_mut_borrow + (Array.make U32 (Usize.ofInt 2) [ (U32.ofInt 0), (U32.ofInt 0) ]) + let s ← Array.to_slice_mut U32 (Usize.ofInt 2) x + let s0 ← update_mut_slice s + let _ ← Array.to_slice_mut_back U32 (Usize.ofInt 2) x s0 + Result.ret () + +/- [array::range_all]: forward function -/ +def range_all : Result Unit := + do + let s ← + Array.subslice_mut U32 (Usize.ofInt 4) + (Array.make U32 (Usize.ofInt 4) [ + (U32.ofInt 0), (U32.ofInt 0), (U32.ofInt 0), (U32.ofInt 0) + ]) (Range.mk (Usize.ofInt 1) (Usize.ofInt 3)) + let s0 ← update_mut_slice s + let _ ← + Array.subslice_mut_back U32 (Usize.ofInt 4) + (Array.make U32 (Usize.ofInt 4) [ + (U32.ofInt 0), (U32.ofInt 0), (U32.ofInt 0), (U32.ofInt 0) + ]) (Range.mk (Usize.ofInt 1) (Usize.ofInt 3)) s0 + Result.ret () + +/- [array::deref_array_borrow]: forward function -/ +def deref_array_borrow (x : Array U32 (Usize.ofInt 2)) : Result U32 := + Array.index_shared U32 (Usize.ofInt 2) x (Usize.ofInt 0) + +/- [array::deref_array_mut_borrow]: forward function -/ +def deref_array_mut_borrow (x : Array U32 (Usize.ofInt 2)) : Result U32 := + Array.index_shared U32 (Usize.ofInt 2) x (Usize.ofInt 0) + +/- [array::deref_array_mut_borrow]: backward function 0 -/ +def deref_array_mut_borrow_back + (x : Array U32 (Usize.ofInt 2)) : Result (Array U32 (Usize.ofInt 2)) := + do + let _ ← Array.index_shared U32 (Usize.ofInt 2) x (Usize.ofInt 0) + Result.ret x + +/- [array::take_array_t]: forward function -/ +def take_array_t (a : Array T (Usize.ofInt 2)) : Result Unit := + Result.ret () + +/- [array::non_copyable_array]: forward function -/ +def non_copyable_array : Result Unit := + do + let _ ← take_array_t (Array.make T (Usize.ofInt 2) [ T.A, T.B ]) + Result.ret () + +/- [array::sum]: loop 0: forward function -/ +divergent def sum_loop (s : Slice U32) (sum0 : U32) (i : Usize) : Result U32 := + let i0 := Slice.len U32 s + if i < i0 + then + do + let i1 ← Slice.index_shared U32 s i + let sum1 ← sum0 + i1 + let i2 ← i + (Usize.ofInt 1) + sum_loop s sum1 i2 + else Result.ret sum0 + +/- [array::sum]: forward function -/ +def sum (s : Slice U32) : Result U32 := + sum_loop s (U32.ofInt 0) (Usize.ofInt 0) + +/- [array::sum2]: loop 0: forward function -/ +divergent def sum2_loop + (s : Slice U32) (s2 : Slice U32) (sum0 : U32) (i : Usize) : Result U32 := + let i0 := Slice.len U32 s + if i < i0 + then + do + let i1 ← Slice.index_shared U32 s i + let i2 ← Slice.index_shared U32 s2 i + let i3 ← i1 + i2 + let sum1 ← sum0 + i3 + let i4 ← i + (Usize.ofInt 1) + sum2_loop s s2 sum1 i4 + else Result.ret sum0 + +/- [array::sum2]: forward function -/ +def sum2 (s : Slice U32) (s2 : Slice U32) : Result U32 := + let i := Slice.len U32 s + let i0 := Slice.len U32 s2 + if not (i = i0) + then Result.fail Error.panic + else sum2_loop s s2 (U32.ofInt 0) (Usize.ofInt 0) + +/- [array::f0]: forward function -/ +def f0 : Result Unit := + do + let s ← + Array.to_slice_mut U32 (Usize.ofInt 2) + (Array.make U32 (Usize.ofInt 2) [ (U32.ofInt 1), (U32.ofInt 2) ]) + let s0 ← Slice.index_mut_back U32 s (Usize.ofInt 0) (U32.ofInt 1) + let _ ← + Array.to_slice_mut_back U32 (Usize.ofInt 2) + (Array.make U32 (Usize.ofInt 2) [ (U32.ofInt 1), (U32.ofInt 2) ]) s0 + Result.ret () + +/- [array::f1]: forward function -/ +def f1 : Result Unit := + do + let _ ← + Array.index_mut_back U32 (Usize.ofInt 2) + (Array.make U32 (Usize.ofInt 2) [ (U32.ofInt 1), (U32.ofInt 2) ]) + (Usize.ofInt 0) (U32.ofInt 1) + Result.ret () + +/- [array::f2]: forward function -/ +def f2 (i : U32) : Result Unit := + Result.ret () + +/- [array::f4]: forward function -/ +def f4 + (x : Array U32 (Usize.ofInt 32)) (y : Usize) (z : Usize) : + Result (Slice U32) + := + Array.subslice_shared U32 (Usize.ofInt 32) x (Range.mk y z) + +/- [array::f3]: forward function -/ +def f3 : Result U32 := + do + let i ← + Array.index_shared U32 (Usize.ofInt 2) + (Array.make U32 (Usize.ofInt 2) [ (U32.ofInt 1), (U32.ofInt 2) ]) + (Usize.ofInt 0) + let _ ← f2 i + let s ← + Array.to_slice_shared U32 (Usize.ofInt 2) + (Array.make U32 (Usize.ofInt 2) [ (U32.ofInt 1), (U32.ofInt 2) ]) + let s0 ← + f4 + (Array.make U32 (Usize.ofInt 32) [ + (U32.ofInt 0), (U32.ofInt 0), (U32.ofInt 0), (U32.ofInt 0), + (U32.ofInt 0), (U32.ofInt 0), (U32.ofInt 0), (U32.ofInt 0), + (U32.ofInt 0), (U32.ofInt 0), (U32.ofInt 0), (U32.ofInt 0), + (U32.ofInt 0), (U32.ofInt 0), (U32.ofInt 0), (U32.ofInt 0), + (U32.ofInt 0), (U32.ofInt 0), (U32.ofInt 0), (U32.ofInt 0), + (U32.ofInt 0), (U32.ofInt 0), (U32.ofInt 0), (U32.ofInt 0), + (U32.ofInt 0), (U32.ofInt 0), (U32.ofInt 0), (U32.ofInt 0), + (U32.ofInt 0), (U32.ofInt 0), (U32.ofInt 0), (U32.ofInt 0) + ]) (Usize.ofInt 16) (Usize.ofInt 18) + sum2 s s0 + +/- [array::ite]: forward function -/ +def ite : Result Unit := + do + let s ← + Array.to_slice_mut U32 (Usize.ofInt 2) + (Array.make U32 (Usize.ofInt 2) [ (U32.ofInt 0), (U32.ofInt 0) ]) + let s0 ← + Array.to_slice_mut U32 (Usize.ofInt 2) + (Array.make U32 (Usize.ofInt 2) [ (U32.ofInt 0), (U32.ofInt 0) ]) + let s1 ← index_mut_slice_u32_0_back s0 + let _ ← + Array.to_slice_mut_back U32 (Usize.ofInt 2) + (Array.make U32 (Usize.ofInt 2) [ (U32.ofInt 0), (U32.ofInt 0) ]) s1 + let s2 ← index_mut_slice_u32_0_back s + let _ ← + Array.to_slice_mut_back U32 (Usize.ofInt 2) + (Array.make U32 (Usize.ofInt 2) [ (U32.ofInt 0), (U32.ofInt 0) ]) s2 + Result.ret () + +end array diff --git a/tests/lean/Array/Types.lean b/tests/lean/Array/Types.lean new file mode 100644 index 00000000..72241276 --- /dev/null +++ b/tests/lean/Array/Types.lean @@ -0,0 +1,13 @@ +-- THIS FILE WAS AUTOMATICALLY GENERATED BY AENEAS +-- [array]: type definitions +import Base +open Primitives + +namespace array + +/- [array::T] -/ +inductive T := +| A : T +| B : T + +end array diff --git a/tests/lean/BetreeMain/Funs.lean b/tests/lean/BetreeMain/Funs.lean index 142adf08..a6c6f496 100644 --- a/tests/lean/BetreeMain/Funs.lean +++ b/tests/lean/BetreeMain/Funs.lean @@ -4,6 +4,7 @@ import Base import BetreeMain.Types import BetreeMain.FunsExternal open Primitives + namespace betree_main /- [betree_main::betree::load_internal_node]: forward function -/ diff --git a/tests/lean/BetreeMain/Types.lean b/tests/lean/BetreeMain/Types.lean index 783ade64..c02c148a 100644 --- a/tests/lean/BetreeMain/Types.lean +++ b/tests/lean/BetreeMain/Types.lean @@ -2,6 +2,7 @@ -- [betree_main]: type definitions import Base open Primitives + namespace betree_main /- [betree_main::betree::List] -/ diff --git a/tests/lean/Constants.lean b/tests/lean/Constants.lean index 4a5a7b8f..ec07d0fe 100644 --- a/tests/lean/Constants.lean +++ b/tests/lean/Constants.lean @@ -2,6 +2,7 @@ -- [constants] import Base open Primitives + namespace constants /- [constants::X0] -/ diff --git a/tests/lean/External/Funs.lean b/tests/lean/External/Funs.lean index 674aaebd..055d7860 100644 --- a/tests/lean/External/Funs.lean +++ b/tests/lean/External/Funs.lean @@ -4,6 +4,7 @@ import Base import External.Types import External.FunsExternal open Primitives + namespace external /- [external::swap]: forward function -/ diff --git a/tests/lean/External/Types.lean b/tests/lean/External/Types.lean index ba984e2a..71d70eed 100644 --- a/tests/lean/External/Types.lean +++ b/tests/lean/External/Types.lean @@ -2,6 +2,7 @@ -- [external]: type definitions import Base open Primitives + namespace external /- [core::num::nonzero::NonZeroU32] -/ diff --git a/tests/lean/Hashmap/Funs.lean b/tests/lean/Hashmap/Funs.lean index 870693b5..d6796932 100644 --- a/tests/lean/Hashmap/Funs.lean +++ b/tests/lean/Hashmap/Funs.lean @@ -3,6 +3,7 @@ import Base import Hashmap.Types open Primitives + namespace hashmap /- [hashmap::hash_key]: forward function -/ @@ -238,7 +239,7 @@ def HashMap.contains_key let hash ← hash_key key let i := Vec.len (List T) self.slots let hash_mod ← hash % i - let l ← Vec.index (List T) self.slots hash_mod + let l ← Vec.index_shared (List T) self.slots hash_mod HashMap.contains_key_in_list T key l /- [hashmap::HashMap::{0}::get_in_list]: loop 0: forward function -/ @@ -261,7 +262,7 @@ def HashMap.get (T : Type) (self : HashMap T) (key : Usize) : Result T := let hash ← hash_key key let i := Vec.len (List T) self.slots let hash_mod ← hash % i - let l ← Vec.index (List T) self.slots hash_mod + let l ← Vec.index_shared (List T) self.slots hash_mod HashMap.get_in_list T key l /- [hashmap::HashMap::{0}::get_mut_in_list]: loop 0: forward function -/ diff --git a/tests/lean/Hashmap/Properties.lean b/tests/lean/Hashmap/Properties.lean index 3652f608..ab95b854 100644 --- a/tests/lean/Hashmap/Properties.lean +++ b/tests/lean/Hashmap/Properties.lean @@ -284,6 +284,10 @@ def mk_opaque {α : Sort u} (x : α) : { y : α // y = x} := attribute [pp_dot] List.length -- use the dot notation when printing set_option pp.coercions false -- do not print coercions with ↑ (this doesn't parse) +-- The proof below is a bit expensive, so we need to increase the maximum number +-- of heart beats +set_option maxHeartbeats 400000 + theorem insert_no_resize_spec {α : Type} (hm : HashMap α) (key : Usize) (value : α) (hinv : hm.inv) (hnsat : hm.lookup key = none → hm.len_s < Usize.max) : ∃ nhm, hm.insert_no_resize α key value = ret nhm ∧ diff --git a/tests/lean/Hashmap/Types.lean b/tests/lean/Hashmap/Types.lean index 6606cf9e..6455798d 100644 --- a/tests/lean/Hashmap/Types.lean +++ b/tests/lean/Hashmap/Types.lean @@ -2,6 +2,7 @@ -- [hashmap]: type definitions import Base open Primitives + namespace hashmap /- [hashmap::List] -/ diff --git a/tests/lean/HashmapMain/Funs.lean b/tests/lean/HashmapMain/Funs.lean index 610bae46..74fe8a54 100644 --- a/tests/lean/HashmapMain/Funs.lean +++ b/tests/lean/HashmapMain/Funs.lean @@ -4,6 +4,7 @@ import Base import HashmapMain.Types import HashmapMain.FunsExternal open Primitives + namespace hashmap_main /- [hashmap_main::hashmap::hash_key]: forward function -/ @@ -260,7 +261,7 @@ def hashmap.HashMap.contains_key let hash ← hashmap.hash_key key let i := Vec.len (hashmap.List T) self.slots let hash_mod ← hash % i - let l ← Vec.index (hashmap.List T) self.slots hash_mod + let l ← Vec.index_shared (hashmap.List T) self.slots hash_mod hashmap.HashMap.contains_key_in_list T key l /- [hashmap_main::hashmap::HashMap::{0}::get_in_list]: loop 0: forward function -/ @@ -285,7 +286,7 @@ def hashmap.HashMap.get let hash ← hashmap.hash_key key let i := Vec.len (hashmap.List T) self.slots let hash_mod ← hash % i - let l ← Vec.index (hashmap.List T) self.slots hash_mod + let l ← Vec.index_shared (hashmap.List T) self.slots hash_mod hashmap.HashMap.get_in_list T key l /- [hashmap_main::hashmap::HashMap::{0}::get_mut_in_list]: loop 0: forward function -/ diff --git a/tests/lean/HashmapMain/Types.lean b/tests/lean/HashmapMain/Types.lean index 3b3d0d7c..2b5cbd6c 100644 --- a/tests/lean/HashmapMain/Types.lean +++ b/tests/lean/HashmapMain/Types.lean @@ -2,6 +2,7 @@ -- [hashmap_main]: type definitions import Base open Primitives + namespace hashmap_main /- [hashmap_main::hashmap::List] -/ diff --git a/tests/lean/Loops/Funs.lean b/tests/lean/Loops/Funs.lean index f7e6603d..5fbe200f 100644 --- a/tests/lean/Loops/Funs.lean +++ b/tests/lean/Loops/Funs.lean @@ -3,6 +3,7 @@ import Base import Loops.Types open Primitives + namespace loops /- [loops::sum]: loop 0: forward function -/ @@ -177,7 +178,7 @@ divergent def get_elem_shared_loop /- [loops::get_elem_shared]: forward function -/ def get_elem_shared (slots : Vec (List Usize)) (x : Usize) : Result Usize := do - let l ← Vec.index (List Usize) slots (Usize.ofInt 0) + let l ← Vec.index_shared (List Usize) slots (Usize.ofInt 0) get_elem_shared_loop x l /- [loops::id_mut]: forward function -/ diff --git a/tests/lean/Loops/Types.lean b/tests/lean/Loops/Types.lean index f8bc193b..018af901 100644 --- a/tests/lean/Loops/Types.lean +++ b/tests/lean/Loops/Types.lean @@ -2,6 +2,7 @@ -- [loops]: type definitions import Base open Primitives + namespace loops /- [loops::List] -/ diff --git a/tests/lean/NoNestedBorrows.lean b/tests/lean/NoNestedBorrows.lean index bc707fd9..1a180c60 100644 --- a/tests/lean/NoNestedBorrows.lean +++ b/tests/lean/NoNestedBorrows.lean @@ -2,6 +2,7 @@ -- [no_nested_borrows] import Base open Primitives + namespace no_nested_borrows /- [no_nested_borrows::Pair] -/ diff --git a/tests/lean/Paper.lean b/tests/lean/Paper.lean index cee7128a..c15c5e4b 100644 --- a/tests/lean/Paper.lean +++ b/tests/lean/Paper.lean @@ -2,6 +2,7 @@ -- [paper] import Base open Primitives + namespace paper /- [paper::ref_incr]: merged forward/backward function diff --git a/tests/lean/PoloniusList.lean b/tests/lean/PoloniusList.lean index 1453c275..07f206a8 100644 --- a/tests/lean/PoloniusList.lean +++ b/tests/lean/PoloniusList.lean @@ -2,6 +2,7 @@ -- [polonius_list] import Base open Primitives + namespace polonius_list /- [polonius_list::List] -/ diff --git a/tests/lean/lakefile.lean b/tests/lean/lakefile.lean index ae63b129..cc63c48f 100644 --- a/tests/lean/lakefile.lean +++ b/tests/lean/lakefile.lean @@ -17,3 +17,4 @@ package «tests» {} @[default_target] lean_lib noNestedBorrows @[default_target] lean_lib paper @[default_target] lean_lib poloniusList +@[default_target] lean_lib array |