Module Machregs

Require Import String.
Require Import Coqlib.
Require Import Decidableplus.
Require Import Maps.
Require Import AST.
Require Import Integers.
Require Import Op.

Machine registers

The following type defines the machine registers that can be referenced as locations. These include:
• Integer registers that can be allocated to RTL pseudo-registers (Rxx).
• Floating-point registers that can be allocated to RTL pseudo-registers (Fxx).
The type mreg does not include reserved machine registers such as the zero register (x0), the link register (x1), the stack pointer (x2), the global pointer (x3), and the thread pointer (x4). Finally, register x31 is reserved for use as a temporary by the assembly-code generator Asmgen.

Inductive mreg: Type :=
| R0 | R1 | R2 | R3 | R4 | R5 | R6 | R7 | R8 | R9
| R10 | R11 | R15 | R17 | R18 | R19
| R20 | R21 | R22 | R23 | R24 | R25 | R26 | R27 | R28 | R29
| R30 | R31 | R33 | R34 | R35 | R36 | R37 | R38 | R39
| R40 | R41 | R42 | R43 | R44 | R45 | R46 | R47 | R48 | R49
| R50 | R51 | R52 | R53 | R54 | R55 | R56 | R57 | R58 | R59
| R60 | R61 | R62 | R63.

Lemma mreg_eq: forall (r1 r2: mreg), {r1 = r2} + {r1 <> r2}.
Proof.
decide equality. Defined.
Global Opaque mreg_eq.

Definition all_mregs :=
R0 :: R1 :: R2 :: R3 :: R4 :: R5 :: R6 :: R7 :: R8 :: R9
:: R10 :: R11 :: R15 :: R17 :: R18 :: R19
:: R20 :: R21 :: R22 :: R23 :: R24 :: R25 :: R26 :: R27 :: R28 :: R29
:: R30 :: R31 :: R33 :: R34 :: R35 :: R36 :: R37 :: R38 :: R39
:: R40 :: R41 :: R42 :: R43 :: R44 :: R45 :: R46 :: R47 :: R48 :: R49
:: R50 :: R51 :: R52 :: R53 :: R54 :: R55 :: R56 :: R57 :: R58 :: R59
:: R60 :: R61 :: R62 :: R63 :: nil.

Lemma all_mregs_complete:
forall (r: mreg), In r all_mregs.
Proof.
assert (forall r, proj_sumbool (In_dec mreg_eq r all_mregs) = true) by (destruct r; reflexivity).
intros. specialize (H r). InvBooleans. auto.
Qed.

Instance Decidable_eq_mreg : forall (x y: mreg), Decidable (eq x y) := Decidable_eq mreg_eq.

Instance Finite_mreg : Finite mreg := {
Finite_elements := all_mregs;
Finite_elements_spec := all_mregs_complete
}.

Definition mreg_type (r: mreg): typ := Tany64.

Open Scope positive_scope.

Module IndexedMreg <: INDEXED_TYPE.
Definition t := mreg.
Definition eq := mreg_eq.
Definition index (r: mreg): positive :=
match r with
| R0 => 1 | R1 => 2 | R2 => 3 | R3 => 4 | R4 => 5
| R5 => 6 | R6 => 7 | R7 => 8 | R8 => 9 | R9 => 10
| R10 => 11 | R11 => 12
| R15 => 16 | R17 => 18 | R18 => 19 | R19 => 20
| R20 => 21 | R21 => 22 | R22 => 23 | R23 => 24 | R24 => 25
| R25 => 26 | R26 => 27 | R27 => 28 | R28 => 29 | R29 => 30
| R30 => 31 | R31 => 32 | R33 => 34 | R34 => 35
| R35 => 36 | R36 => 37 | R37 => 38 | R38 => 39 | R39 => 40
| R40 => 41 | R41 => 42 | R42 => 43 | R43 => 44 | R44 => 45
| R45 => 46 | R46 => 47 | R47 => 48 | R48 => 49 | R49 => 50
| R50 => 51 | R51 => 52 | R52 => 53 | R53 => 54 | R54 => 55
| R55 => 56 | R56 => 57 | R57 => 58 | R58 => 59 | R59 => 60
| R60 => 61 | R61 => 62 | R62 => 63 | R63 => 64
end.

Lemma index_inj:
forall r1 r2, index r1 = index r2 -> r1 = r2.
Proof.
decide_goal.
Qed.
End IndexedMreg.

Definition is_stack_reg (r: mreg) : bool := false.

Names of registers

Local Open Scope string_scope.

Definition register_names :=
("R0" , R0) :: ("R1" , R1) :: ("R2" , R2) :: ("R3" , R3) :: ("R4" , R4)
:: ("R5" , R5) :: ("R6" , R6) :: ("R7" , R7) :: ("R8" , R8) :: ("R9" , R9)
:: ("R10", R10) :: ("R11", R11)
:: ("R15", R15) :: ("R17", R17) :: ("R18", R18) :: ("R19", R19)
:: ("R20", R20) :: ("R21", R21) :: ("R22", R22) :: ("R23", R23) :: ("R24", R24)
:: ("R25", R25) :: ("R26", R26) :: ("R27", R27) :: ("R28", R28) :: ("R29", R29)
:: ("R30", R30) :: ("R31", R31) :: ("R33", R33) :: ("R34", R34)
:: ("R35", R35) :: ("R36", R36) :: ("R37", R37) :: ("R38", R38) :: ("R39", R39)
:: ("R40", R40) :: ("R41", R41) :: ("R42", R42) :: ("R43", R43) :: ("R44", R44)
:: ("R45", R45) :: ("R46", R46) :: ("R47", R47) :: ("R48", R48) :: ("R49", R49)
:: ("R50", R50) :: ("R51", R51) :: ("R52", R52) :: ("R53", R53) :: ("R54", R54)
:: ("R55", R55) :: ("R56", R56) :: ("R57", R57) :: ("R58", R58) :: ("R59", R59)
:: ("R60", R60) :: ("R61", R61) :: ("R62", R62) :: ("R63", R63) :: nil.

Definition register_by_name (s: string) : option mreg :=
let fix assoc (l: list (string * mreg)) : option mreg :=
match l with
| nil => None
| (s1, r1) :: l' => if string_dec s s1 then Some r1 else assoc l'
end
in assoc register_names.

Destroyed registers, preferred registers

Definition destroyed_by_op (op: operation): list mreg := nil.

Definition destroyed_by_cond (cond: condition): list mreg := nil.

Definition destroyed_by_jumptable: list mreg := R62 :: R63 :: nil.

Fixpoint destroyed_by_clobber (cl: list string): list mreg :=
match cl with
| nil => nil
| c1 :: cl =>
match register_by_name c1 with
| Some r => r :: destroyed_by_clobber cl
| None => destroyed_by_clobber cl
end
end.

Definition destroyed_by_builtin (ef: external_function): list mreg :=
match ef with
| EF_inline_asm txt sg clob => destroyed_by_clobber clob
| EF_memcpy sz al =>
if Z.leb sz 15
then R62 :: R63 :: R61 :: nil
else R62 :: R63 :: R61 :: R60 :: nil
| EF_profiling _ _ => R62 :: R63 ::nil
| _ => nil
end.

Definition destroyed_by_setstack (ty: typ): list mreg := nil.

Definition destroyed_at_function_entry: list mreg := R17 :: nil.

Definition temp_for_parent_frame: mreg := R17.

Definition destroyed_at_indirect_call: list mreg := nil.

Definition mregs_for_operation (op: operation): list (option mreg) * option mreg := (nil, None).

Definition mregs_for_builtin (ef: external_function): list (option mreg) * list(option mreg) := (nil, nil).

Global Opaque
destroyed_by_cond destroyed_by_jumptable destroyed_by_builtin
destroyed_by_setstack destroyed_at_function_entry temp_for_parent_frame
mregs_for_operation mregs_for_builtin.

Two-address operations. Return true if the first argument and the result must be in the same location *and* are unconstrained by mregs_for_operation. There are two: the pseudo Ocast32signed, because it expands to a no-op owing to the representation of 32-bit integers as their 64-bit sign extension; and Ocast32unsigned, because it builds on the same magic no-op.

Definition two_address_op (op: operation) : bool :=
match op with
| Ofmsubf | Ofmsubfs
| Omsub | Omsubl
| Osel _ _ | Oselimm _ _ | Osellimm _ _
| Oinsf _ _ | Oinsfl _ _ => true
| _ => false
end.

Constraints on constant propagation for builtins

Definition builtin_constraints (ef: external_function) :
list builtin_arg_constraint :=
match ef with
| EF_builtin id sg =>
if string_dec id "__builtin_kvx_get" then OK_const :: nil
else if string_dec id "__builtin_kvx_set"
then OK_const :: OK_default :: nil
else if string_dec id "__builtin_kvx_wfxl"
then OK_const :: OK_default :: nil
else if string_dec id "__builtin_kvx_wfxm"
then OK_const :: OK_default :: nil
else nil