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(*
* Vericert: Verified high-level synthesis.
* Copyright (C) 2020-2021 Yann Herklotz <yann@yannherklotz.com>
*
* This program is free software: you can redistribute it and/or modify
* it under the terms of the GNU General Public License as published by
* the Free Software Foundation, either version 3 of the License, or
* (at your option) any later version.
*
* This program is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU General Public License for more details.
*
* You should have received a copy of the GNU General Public License
* along with this program. If not, see <https://www.gnu.org/licenses/>.
*)
Require Import compcert.backend.Registers.
Require Import compcert.common.AST.
Require Import compcert.common.Events.
Require Import compcert.common.Globalenvs.
Require Import compcert.common.Memory.
Require Import compcert.common.Smallstep.
Require Import compcert.common.Values.
Require Import compcert.lib.Coqlib.
Require Import compcert.lib.Integers.
Require Import compcert.lib.Maps.
Require Import compcert.verilog.Op.
Require Import vericert.hls.RTLBlockInstr.
Definition bb := list (list instr).
Definition bblock := @bblock bb.
Definition code := @code bb.
Definition function := @function bb.
Definition fundef := @fundef bb.
Definition program := @program bb.
Definition funsig := @funsig bb.
Definition stackframe := @stackframe bb.
Definition state := @state bb.
Definition genv := @genv bb.
Section RELSEM.
Context (ge: genv).
Inductive step_instr_block (sp : val)
: instr_state -> bb -> instr_state -> Prop :=
| exec_instr_block_cons:
forall state i state' state'' instrs,
step_instr_list ge sp state i state' ->
step_instr_block sp state' instrs state'' ->
step_instr_block sp state (i :: instrs) state''
| exec_instr_block_nil:
forall state,
step_instr_block sp state nil state.
Inductive step: state -> trace -> state -> Prop :=
| exec_bblock:
forall s f sp pc rs rs' m m' t s' bb,
f.(fn_code)!pc = Some bb ->
step_instr_block sp (InstrState rs m) bb.(bb_body) (InstrState rs' m') ->
step_cf_instr ge (State s f sp pc rs' m') bb.(bb_exit) t s' ->
step (State s f sp pc rs m) t s'
| exec_function_internal:
forall s f args m m' stk,
Mem.alloc m 0 f.(fn_stacksize) = (m', stk) ->
step (Callstate s (Internal f) args m)
E0 (State s
f
(Vptr stk Ptrofs.zero)
f.(fn_entrypoint)
(init_regs args f.(fn_params))
m')
| exec_function_external:
forall s ef args res t m m',
external_call ef ge args m t res m' ->
step (Callstate s (External ef) args m)
t (Returnstate s res m')
| exec_return:
forall res f sp pc rs s vres m,
step (Returnstate (Stackframe res f sp pc rs :: s) vres m)
E0 (State s f sp pc (rs#res <- vres) m).
End RELSEM.
Inductive initial_state (p: program): state -> Prop :=
| initial_state_intro: forall b f m0,
let ge := Genv.globalenv p in
Genv.init_mem p = Some m0 ->
Genv.find_symbol ge p.(prog_main) = Some b ->
Genv.find_funct_ptr ge b = Some f ->
funsig f = signature_main ->
initial_state p (Callstate nil f nil m0).
Inductive final_state: state -> int -> Prop :=
| final_state_intro: forall r m,
final_state (Returnstate nil (Vint r) m) r.
Definition semantics (p: program) :=
Semantics step (initial_state p) final_state (Genv.globalenv p).
Definition max_reg_bblock (m : positive) (pc : node) (bb : bblock) :=
let max_body := fold_left (fun x l => fold_left max_reg_instr l x) bb.(bb_body) m in
max_reg_cfi max_body bb.(bb_exit).
Definition max_reg_function (f: function) :=
Pos.max
(PTree.fold max_reg_bblock f.(fn_code) 1%positive)
(fold_left Pos.max f.(fn_params) 1%positive).
Definition max_pc_function (f: function) : positive :=
PTree.fold (fun m pc i => (Pos.max m
(pc + match Zlength i.(bb_body)
with Z.pos p => p | _ => 1 end))%positive)
f.(fn_code) 1%positive.
|
