source: src/ERTL/liveness.ma @ 1275

Last change on this file since 1275 was 1275, checked in by sacerdot, 9 years ago

RTL ported to joint syntax, but:

  1. bug discovered: opaccs should have taken four registers
  2. push/pop should not be present in RTL :-(

ERTLToLTL and RTLtoERTL not working ATM

File size: 10.9 KB
Line 
1include "ASM/Util.ma".
2include "ERTL/ERTL.ma".
3include "utilities/adt/set_adt.ma".
4
5definition statement_successors ≝
6  λglobals: list ident.
7  λs: ertl_statement globals.
8  match s with
9  [ joint_st_sequential seq l ⇒
10    match seq with
11    [ joint_instr_cond acc_a_reg lbl_true ⇒
12        set_insert … lbl_true (set_singleton … l)
13    | _ ⇒ set_singleton … l ]
14  | joint_st_goto l ⇒ set_singleton … l
15  | joint_st_return ⇒ set_empty ?
16  ].
17
18definition register_lattice ≝ (set register) × (set Register).
19definition lattice_property ≝ register_lattice.
20definition lattice_bottom: register_lattice ≝ 〈set_empty register, set_empty Register〉.
21definition lattice_psingleton: register → register_lattice ≝
22  λr.
23    〈set_singleton … r, set_empty …〉.
24definition lattice_hsingleton: Register → register_lattice ≝
25  λr.
26    〈set_empty …, set_singleton … r〉.
27
28definition lattice_join: register_lattice → register_lattice → register_lattice ≝
29  λleft.
30  λright.
31  let 〈lp, lh〉 ≝ left in
32  let 〈rp, rh〉 ≝ right in
33    〈set_union … lp rp, set_union … lh rh〉.
34
35definition lattice_diff: register_lattice → register_lattice → register_lattice ≝
36  λleft.
37  λright.
38  let 〈lp, lh〉 ≝ left in
39  let 〈rp, rh〉 ≝ right in
40    〈set_diff … lp rp, set_diff … lh rh〉.
41
42definition lattice_equal: register_lattice → register_lattice → bool ≝
43  λleft.
44  λright.
45  let 〈lp, lh〉 ≝ left in
46  let 〈rp, rh〉 ≝ right in
47    andb (set_equal … (eq_identifier …) lp rp) (set_equal … eq_Register lh rh).
48
49definition lattice_is_maximal: register_lattice → bool ≝ λl. false.
50
51record lattice_property_sig: Type[1] ≝
52{
53  lp_type      : Type[0];
54  lp_property  : Type[0];
55  lp_bottom    : lp_type;
56  lp_psingleton: register → lp_type;
57  lp_hsingleton: Register → lp_type;
58  lp_join      : lp_type → lp_type → lp_type;
59  lp_diff      : lp_type → lp_type → lp_type;
60  lp_equal     : lp_type → lp_type → bool;
61  lp_is_maximal: lp_type → bool
62}.
63
64definition property ≝
65  mk_lattice_property_sig
66    ((set register) × (set Register))
67    lattice_property
68    lattice_bottom
69    lattice_psingleton
70    lattice_hsingleton
71    lattice_join
72    lattice_diff
73    lattice_equal
74    lattice_is_maximal.
75
76definition defined ≝
77  λglobals: list ident.
78  λs: ertl_statement globals.
79  match s with
80  [ joint_st_sequential seq l ⇒
81    match seq with
82    [ joint_instr_op2 op2 r1 r2 _ ⇒
83      match op2 with
84      [ Add ⇒ lattice_join (lattice_hsingleton RegisterCarry) (lattice_psingleton r1)
85      | Addc ⇒ lattice_join (lattice_hsingleton RegisterCarry) (lattice_psingleton r1)
86      | Sub ⇒ lattice_join (lattice_hsingleton RegisterCarry)  (lattice_psingleton r1)
87      | _ ⇒ lattice_psingleton r1
88      ]
89    | joint_instr_clear_carry ⇒ lattice_hsingleton RegisterCarry
90    | joint_instr_set_carry ⇒ lattice_hsingleton RegisterCarry
91    | joint_instr_opaccs opaccs dr1 dr2 sr1 sr2 ⇒
92       lattice_join (lattice_psingleton dr1) (lattice_psingleton dr2)
93    | joint_instr_op1 op1 r1 r2 ⇒ lattice_join (lattice_psingleton r1) (lattice_psingleton r2)
94    | joint_instr_pop r ⇒ lattice_psingleton r
95    | joint_instr_int r _ ⇒ lattice_psingleton r
96    | joint_instr_address _ _ r1 r2 ⇒ lattice_join (lattice_psingleton r1) (lattice_psingleton r2)
97    | joint_instr_load r _ _ ⇒ lattice_psingleton r
98    (* Potentially destroys all caller-save hardware registers. *)
99    | joint_instr_call_id id _ _ ⇒ 〈set_empty …, set_from_list … RegisterCallerSaved〉
100    | joint_instr_comment c ⇒ lattice_bottom
101    | joint_instr_cond r lbl_true ⇒ lattice_bottom
102    | joint_instr_store acc_a dpl dph ⇒ lattice_bottom
103    | joint_instr_cost_label clabel ⇒ lattice_bottom
104    | joint_instr_push r ⇒ lattice_bottom
105    | joint_instr_move pair_reg ⇒
106      (* first register relevant only *)
107      let r1 ≝ \fst pair_reg in
108      match r1 with
109      [ pseudo p ⇒ lattice_psingleton p
110      | hardware h ⇒ lattice_hsingleton h
111      ]
112    | joint_instr_extension ext ⇒
113      match ext with
114      [ ertl_st_ext_new_frame ⇒ lattice_join (lattice_hsingleton RegisterSPL) (lattice_hsingleton RegisterSPH)
115      | ertl_st_ext_del_frame ⇒ lattice_join (lattice_hsingleton RegisterSPL) (lattice_hsingleton RegisterSPH)
116      | ertl_st_ext_frame_size r ⇒ lattice_psingleton r]]
117  | joint_st_return ⇒ lattice_bottom
118  | joint_st_goto l ⇒ lattice_bottom
119  ].
120
121definition ret_regs ≝ set_from_list … RegisterRets.
122
123definition used ≝
124  λglobals: list ident.
125  λs: ertl_statement globals.
126  match s with
127  [ joint_st_sequential seq l ⇒
128    match seq with
129    [ joint_instr_op2 op2 acc_a r1 r2 ⇒
130      match op2 with
131      [ Addc ⇒
132        lattice_join (lattice_join (lattice_psingleton r1) (lattice_psingleton r2)) (lattice_hsingleton RegisterCarry)
133      | _ ⇒ lattice_join (lattice_psingleton r1) (lattice_psingleton r2)
134      ]
135    | joint_instr_clear_carry ⇒ lattice_bottom
136    | joint_instr_set_carry ⇒ lattice_bottom
137    (* acc_a and acc_b *)
138    | joint_instr_opaccs opaccs dr1 dr2 sr1 sr2 ⇒
139       lattice_join (lattice_psingleton sr1) (lattice_psingleton sr2)
140    | joint_instr_op1 op1 r1 r2 ⇒ lattice_psingleton r2
141    | joint_instr_pop r ⇒ lattice_bottom
142    | joint_instr_int r _ ⇒ lattice_bottom
143    | joint_instr_address _ _ r1 r2 ⇒ lattice_bottom
144    | joint_instr_load acc_a dpl dph ⇒ lattice_join (lattice_psingleton dpl) (lattice_psingleton dph)
145    (* Reads the hardware registers that are used to pass parameters. *)
146    | joint_instr_call_id _ nparams _ ⇒ 〈set_empty …, set_from_list … (prefix ? nparams RegisterParams)〉
147    | joint_instr_comment c ⇒ lattice_bottom
148    | joint_instr_cond r lbl_true ⇒ lattice_psingleton r
149    | joint_instr_store acc_a dpl dph ⇒
150      lattice_join (lattice_join (lattice_psingleton acc_a) (lattice_psingleton dpl)) (lattice_psingleton dph)
151    | joint_instr_cost_label clabel ⇒ lattice_bottom
152    | joint_instr_push r ⇒ lattice_psingleton r
153    | joint_instr_move pair_reg ⇒
154      (* only second reg in pair relevant *)
155      let r2 ≝ \snd pair_reg in
156      match r2 with
157      [ pseudo p ⇒ lattice_psingleton p
158      | hardware h ⇒ lattice_hsingleton h
159      ]
160  | joint_instr_extension ext ⇒
161    match ext with
162    [ ertl_st_ext_new_frame ⇒ lattice_join (lattice_hsingleton RegisterSPL) (lattice_hsingleton RegisterSPH)
163    | ertl_st_ext_del_frame ⇒ lattice_join (lattice_hsingleton RegisterSPL) (lattice_hsingleton RegisterSPH)
164    | ertl_st_ext_frame_size r ⇒ lattice_bottom]]
165  | joint_st_return ⇒ 〈set_empty …, set_union … (set_from_list … RegisterCalleeSaved) ret_regs〉
166  | joint_st_goto l ⇒ lattice_bottom
167  ].
168
169definition eliminable ≝
170  λglobals: list ident.
171  λl: register_lattice.
172  λs: ertl_statement globals.
173  let 〈pliveafter, hliveafter〉 ≝ l in
174  match s with
175  [ joint_st_sequential seq l ⇒
176    match seq with
177    [ joint_instr_op2 op2 r1 r2 r3 ⇒
178      if set_member … (eq_identifier …) r1 pliveafter ∨
179         set_member … eq_Register RegisterCarry hliveafter then
180        None ?
181      else
182        Some ? l
183    | joint_instr_clear_carry ⇒ None ?
184    | joint_instr_set_carry ⇒ None ?
185    | joint_instr_opaccs opaccs dr1 dr2 sr1 sr2 ⇒
186      if set_member … (eq_identifier …) dr1 pliveafter ∨
187         set_member … (eq_identifier …) dr2 pliveafter ∨
188         set_member … eq_Register RegisterCarry hliveafter then
189        None ?
190      else
191        Some ? l
192    | joint_instr_op1 op1 r1 r2 ⇒
193      if set_member … (eq_identifier …) r1 pliveafter ∨
194         set_member … eq_Register RegisterCarry hliveafter then
195        None ?
196      else
197        Some ? l
198    | joint_instr_pop r ⇒ None ?
199    | joint_instr_int r _ ⇒
200      if set_member … (eq_identifier …) r pliveafter ∨
201         set_member … eq_Register RegisterCarry hliveafter then
202        None ?
203      else
204        Some ? l
205    | joint_instr_address _ _ r1 r2 ⇒
206      if set_member … (eq_identifier …) r1 pliveafter ∨
207         set_member … (eq_identifier …) r2 pliveafter ∨
208         set_member … eq_Register RegisterCarry hliveafter then
209        None ?
210      else
211        Some ? l
212    | joint_instr_load acc_a dpl dph ⇒
213      if set_member ? (eq_identifier …) acc_a pliveafter ∨
214         set_member … eq_Register RegisterCarry hliveafter then
215        None ?
216      else
217        Some ? l
218    | joint_instr_call_id _ nparams _ ⇒ None ?
219    | joint_instr_comment c ⇒ None ?
220    | joint_instr_cond r lbl_true ⇒ None ?
221    | joint_instr_store acc_a dpl dph ⇒ None ?
222    | joint_instr_cost_label clabel ⇒ None ?
223    | joint_instr_push r ⇒ None ?
224    | joint_instr_move pair_reg ⇒
225      let r1 ≝ \fst pair_reg in
226      let r2 ≝ \snd pair_reg in
227      match r1 with
228      [ pseudo p1 ⇒
229        if set_member … (eq_identifier …) p1 pliveafter ∨
230           set_member … eq_Register RegisterCarry hliveafter then
231          None ?
232        else
233          Some ? l
234      | hardware h1 ⇒
235        if set_member … eq_Register h1 hliveafter then
236          None ?
237        else
238          Some ? l]
239    | joint_instr_extension ext ⇒
240      match ext with
241      [ ertl_st_ext_new_frame ⇒ None ?
242      | ertl_st_ext_del_frame ⇒ None ?
243      | ertl_st_ext_frame_size r ⇒
244        if set_member ? (eq_identifier RegisterTag) r pliveafter ∨
245           set_member ? eq_Register RegisterCarry hliveafter then
246          None ?
247        else
248          Some ? l]]
249  | joint_st_goto l ⇒ None ?
250  | joint_st_return ⇒ None ?
251  ].
252
253definition statement_semantics: ∀globals: list ident. ertl_statement globals → register_lattice → register_lattice ≝
254  λglobals.
255  λstmt.
256  λliveafter.
257  match eliminable globals liveafter stmt with
258  [ None ⇒ lattice_join (lattice_diff liveafter (defined globals stmt)) (used globals stmt)
259  | Some l ⇒ liveafter
260  ].
261
262definition valuation ≝ label → register_lattice.
263definition rhs ≝ valuation → lattice_property.
264definition equations ≝ label → rhs.
265
266axiom fix_lfp: equations → valuation.
267
268definition livebefore ≝
269  λglobals: list ident.
270  λint_fun: ertl_internal_function globals.
271  λlabel.
272  λliveafter: valuation.
273  match lookup … (joint_if_code … int_fun) label with
274  [ None      ⇒ ?
275  | Some stmt ⇒ statement_semantics globals stmt (liveafter label)
276  ].
277  cases not_implemented (* XXX *)
278qed.
279
280definition liveafter ≝
281  λglobals: list ident.
282  λint_fun: ertl_internal_function globals.
283  λlivebefore: label → ?.
284  λlabel.
285  λliveafter: valuation.
286  match lookup … (joint_if_code … int_fun) label with
287  [ None      ⇒ ?
288  | Some stmt ⇒ set_fold ? ? (λsuccessor. λaccu: register_lattice.
289      lattice_join (livebefore successor liveafter) accu)
290      (statement_successors globals stmt) lattice_bottom
291  ].
292  cases not_implemented (* XXX *)
293qed.
294
295definition analyse ≝
296  λglobals.
297  λint_fun.
298    fix_lfp (liveafter globals int_fun (livebefore globals int_fun)).
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