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Archi.v
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Archi.v
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(* *********************************************************************)
(* *)
(* The Compcert verified compiler *)
(* *)
(* Xavier Leroy, INRIA Paris-Rocquencourt *)
(* Jacques-Henri Jourdan, INRIA Paris-Rocquencourt *)
(* *)
(* Copyright Institut National de Recherche en Informatique et en *)
(* Automatique. All rights reserved. This file is distributed *)
(* under the terms of the GNU Lesser General Public License as *)
(* published by the Free Software Foundation, either version 2.1 of *)
(* the License, or (at your option) any later version. *)
(* This file is also distributed under the terms of the *)
(* INRIA Non-Commercial License Agreement. *)
(* *)
(* *********************************************************************)
(** Architecture-dependent parameters for ARM *)
From Flocq Require Import Binary Bits.
Require Import ZArith List.
Definition ptr64 := false.
Parameter big_endian: bool.
Definition align_int64 := 8%Z.
Definition align_float64 := 8%Z.
Definition splitlong := true.
Lemma splitlong_ptr32: splitlong = true -> ptr64 = false.
Proof.
unfold splitlong, ptr64; congruence.
Qed.
Definition default_nan_64 := (false, iter_nat 51 _ xO xH).
Definition default_nan_32 := (false, iter_nat 22 _ xO xH).
(** Choose the first signaling NaN, if any;
otherwise choose the first NaN;
otherwise use default. *)
Definition choose_nan (is_signaling: positive -> bool)
(default: bool * positive)
(l0: list (bool * positive)) : bool * positive :=
let fix choose_snan (l1: list (bool * positive)) :=
match l1 with
| nil =>
match l0 with nil => default | n :: _ => n end
| ((s, p) as n) :: l1 =>
if is_signaling p then n else choose_snan l1
end
in choose_snan l0.
Lemma choose_nan_idem: forall is_signaling default n,
choose_nan is_signaling default (n :: n :: nil) =
choose_nan is_signaling default (n :: nil).
Proof.
intros. destruct n as [s p]; unfold choose_nan; simpl.
destruct (is_signaling p); auto.
Qed.
Definition choose_nan_64 :=
choose_nan (fun p => negb (Pos.testbit p 51)) default_nan_64.
Definition choose_nan_32 :=
choose_nan (fun p => negb (Pos.testbit p 22)) default_nan_32.
Lemma choose_nan_64_idem: forall n,
choose_nan_64 (n :: n :: nil) = choose_nan_64 (n :: nil).
Proof. intros; apply choose_nan_idem. Qed.
Lemma choose_nan_32_idem: forall n,
choose_nan_32 (n :: n :: nil) = choose_nan_32 (n :: nil).
Proof. intros; apply choose_nan_idem. Qed.
Definition fma_order {A: Type} (x y z: A) := (z, x, y).
Definition fma_invalid_mul_is_nan := true.
Definition float_of_single_preserves_sNaN := false.
Definition float_conversion_default_nan := false.
Global Opaque ptr64 big_endian splitlong
default_nan_64 choose_nan_64
default_nan_32 choose_nan_32
fma_order fma_invalid_mul_is_nan
float_of_single_preserves_sNaN
float_conversion_default_nan.
(** Which ABI to use: either the standard ARM EABI with floats passed
in integer registers, or the "hardfloat" variant of the EABI
that uses FP registers instead. *)
Inductive abi_kind := Softfloat | Hardfloat.
Parameter abi: abi_kind.
(** Whether instructions added with Thumb2 are supported. True for ARMv6T2
and above. *)
Parameter thumb2_support: bool.
(** Whether the hardware supports sdiv and udiv *)
Parameter hardware_idiv : unit -> bool.