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new_backendProofScript.sml
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new_backendProofScript.sml
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(**
Proof of a new overall compiler correctness theorem for
the global constant lifting, showing that it is semantics preserving
**)
open semanticPrimitivesTheory evaluateTheory
icing_rewriterTheory icing_optimisationsTheory
icing_optimisationProofsTheory fpOptTheory fpValTreeTheory
namespacePropsTheory ml_progTheory
optPlannerTheory source_to_source2Theory source_to_source2ProofsTheory
pull_wordsTheory backendProofTheory;
open preamble;
val _ = new_theory "new_backendProof";
(*
Theorem pull_words_correct:
let (s,env) = THE (prim_sem_env (ffi:'ffi ffi_state)) in
semantics_prog s env prog = semantics_prog s env (lift_constants_decl prog)
Proof
fs[primSemEnvTheory.prim_sem_env_eq, FUN_EQ_THM]
>> qmatch_goalsub_abbrev_tac ‘semantics_prog init_ffi initEnv’
>> gen_tac >> Cases_on ‘x’ >> gs[semanticsTheory.semantics_prog_def]
(* Timeout *)
>- (
EQ_TAC >> rpt gen_tac >> disch_then strip_assume_tac
>> gs[semanticsTheory.evaluate_prog_with_clock_def, PULL_FORALL]
>> rpt gen_tac >> first_x_assum $ qspec_then ‘k’ strip_assume_tac
>- (
Cases_on ‘evaluate_decs (init_ffi with clock := k) initEnv prog’
>> gs[lift_constants_decl_def, evaluate_decs_app] >> rveq
>> qmatch_goalsub_abbrev_tac
‘evaluate_decs _ initEnv (build_decl_list cst_lst)’
>> qspecl_then [‘init_ffi with clock := k’, ‘initEnv’, ‘initEnv’, ‘[]’,
‘cst_lst’]
mp_tac build_decl_list_lemma
>> impl_tac
>- (
unabbrev_all_tac >> gs[env_rel_def]
>> rpt conj_tac >> gs[namespaceTheory.nsLookup_def]
>- (rpt strip_tac >> drule build_cnst_list_unique >> gs[])
>> rpt strip_tac >> Cases_on ‘n’ >> gs[namespaceTheory.nsLookup_def]
)
>> rpt $ disch_then strip_assume_tac >> gs[]
>> qpat_x_assum `evaluate_decs _ _ prog = _` $
mp_then Any mp_tac replace_constants_decl_thm
>> disch_then $
qspecl_then [‘init_ffi with clock := k’,
‘extend_dec_env env2 initEnv’,‘cst_lst’]
mp_tac
>> gs[] >> impl_tac
>- (
rpt conj_tac
>- (
unabbrev_all_tac
>> qspecl_then [‘gather_constants_decl prog’,
‘gather_used_identifiers_decl prog’, ‘0’]
mp_tac build_cnst_list_disjoint_res
>> metis_tac[IN_DISJOINT,SUBSET_DEF])
>> unabbrev_all_tac >> gs[state_rel_def, ref_rel_def])
>> disch_then strip_assume_tac >> gs[]
>> Cases_on ‘res1’
>> gs[dec_res_rel_def, combine_dec_result_def, state_rel_def]
>> Cases_on ‘e’ >> gs[dec_res_rel_def, lprefix_lub_def]
>> rpt conj_tac >> rpt strip_tac
>- (
first_x_assum irule >> qexists_tac ‘k'’
>> rveq
>> qspecl_then [‘init_ffi with clock := k'’, ‘initEnv’, ‘initEnv’, ‘[]’,
‘cst_lst’]
mp_tac build_decl_list_lemma
>> impl_tac
>- (
unabbrev_all_tac >> gs[env_rel_def]
>> rpt conj_tac >> gs[namespaceTheory.nsLookup_def]
>- (rpt strip_tac >> drule build_cnst_list_unique >> gs[])
>> rpt strip_tac >> Cases_on ‘n’ >> gs[namespaceTheory.nsLookup_def]
)
>> disch_then strip_assume_tac >> gs[]
>> Cases_on ‘evaluate_decs (init_ffi with clock := k') initEnv prog’
>> gs[]
>> pop_assum $ mp_then Any mp_tac replace_constants_decl_thm
>> disch_then $
qspecl_then [‘init_ffi with clock := k'’,
‘extend_dec_env env2' initEnv’,‘cst_lst’]
mp_tac
>> gs[] >> impl_tac
>- (
rpt conj_tac
>- (
unabbrev_all_tac
>> qspecl_then [‘gather_constants_decl prog’,
‘gather_used_identifiers_decl prog’, ‘0’]
mp_tac build_cnst_list_disjoint_res
>> metis_tac[IN_DISJOINT,SUBSET_DEF])
>> unabbrev_all_tac >> gs[state_rel_def, ref_rel_def])
>> rpt strip_tac >> gs[state_rel_def])
>> last_x_assum $ qspec_then ‘ub’ assume_tac
>> pop_assum irule
>> rpt strip_tac >> first_x_assum $ qspec_then ‘ll’ irule >> rveq
>> qexists_tac ‘k'’ >> gs[]
>> qspecl_then [‘init_ffi with clock := k'’, ‘initEnv’, ‘initEnv’, ‘[]’,
‘cst_lst’]
mp_tac build_decl_list_lemma
>> impl_tac
>- (
unabbrev_all_tac >> gs[env_rel_def]
>> rpt conj_tac >> gs[namespaceTheory.nsLookup_def]
>- (rpt strip_tac >> drule build_cnst_list_unique >> gs[])
>> rpt strip_tac >> Cases_on ‘n’ >> gs[namespaceTheory.nsLookup_def]
)
>> disch_then strip_assume_tac >> gs[]
>> Cases_on ‘evaluate_decs (init_ffi with clock := k') initEnv prog’
>> gs[]
>> pop_assum $ mp_then Any mp_tac replace_constants_decl_thm
>> disch_then $
qspecl_then [‘init_ffi with clock := k'’,
‘extend_dec_env env2' initEnv’,‘cst_lst’]
mp_tac
>> gs[] >> impl_tac
>- (
rpt conj_tac
>- (
unabbrev_all_tac
>> qspecl_then [‘gather_constants_decl prog’,
‘gather_used_identifiers_decl prog’, ‘0’]
mp_tac build_cnst_list_disjoint_res
>> metis_tac[IN_DISJOINT,SUBSET_DEF])
>> unabbrev_all_tac >> gs[state_rel_def, ref_rel_def])
>> rpt strip_tac >> gs[state_rel_def])
>> Cases_on ‘evaluate_decs (init_ffi with clock := k) initEnv prog’
>> qpat_x_assum `(λ (st, r). (st.ffi, r))
(evaluate_decs _ _ (lift_constants_decl _)) = _`
mp_tac
>> gs[lift_constants_decl_def, evaluate_decs_app] >> rveq
>> qmatch_goalsub_abbrev_tac ‘evaluate_decs _ initEnv
(build_decl_list cst_lst)’
>> qspecl_then [‘init_ffi with clock := k’, ‘initEnv’, ‘initEnv’, ‘[]’,
‘cst_lst’]
mp_tac build_decl_list_lemma
>> impl_tac
>- (
unabbrev_all_tac >> gs[env_rel_def]
>> rpt conj_tac >> gs[namespaceTheory.nsLookup_def]
>- (rpt strip_tac >> drule build_cnst_list_unique >> gs[])
>> rpt strip_tac >> Cases_on ‘n’ >> gs[namespaceTheory.nsLookup_def]
)
>> disch_then strip_assume_tac >> gs[]
>> qpat_x_assum `evaluate_decs _ _ prog = _` $
mp_then Any mp_tac replace_constants_decl_thm
>> disch_then $
qspecl_then [‘init_ffi with clock := k’, ‘extend_dec_env env2 initEnv’,
‘cst_lst’] mp_tac
>> gs[] >> impl_tac
>- (
rpt conj_tac
>- (
unabbrev_all_tac
>> qspecl_then [‘gather_constants_decl prog’,
‘gather_used_identifiers_decl prog’, ‘0’]
mp_tac build_cnst_list_disjoint_res
>> metis_tac[IN_DISJOINT,SUBSET_DEF])
>> unabbrev_all_tac >> gs[state_rel_def, ref_rel_def])
>> rpt $ disch_then strip_assume_tac >> gs[] >> rveq
>> Cases_on ‘r’ >> Cases_on ‘res1’
>> gs[dec_res_rel_def, combine_dec_result_def, state_rel_def]
>> Cases_on ‘e’ >> gs[dec_res_rel_def, lprefix_lub_def]
>> rpt conj_tac >> rpt strip_tac
>- (
first_x_assum irule >> qexists_tac ‘k'’ >> rveq
>> qspecl_then [‘init_ffi with clock := k'’, ‘initEnv’, ‘initEnv’, ‘[]’,
‘cst_lst’]
mp_tac build_decl_list_lemma
>> impl_tac
>- (
unabbrev_all_tac >> gs[env_rel_def]
>> rpt conj_tac >> gs[namespaceTheory.nsLookup_def]
>- (rpt strip_tac >> drule build_cnst_list_unique >> gs[])
>> rpt strip_tac >> Cases_on ‘n’ >> gs[namespaceTheory.nsLookup_def]
)
>> disch_then strip_assume_tac >> gs[]
>> Cases_on ‘evaluate_decs (init_ffi with clock := k') initEnv prog’
>> gs[]
>> pop_assum $ mp_then Any mp_tac replace_constants_decl_thm
>> disch_then $
qspecl_then [‘init_ffi with clock := k'’,
‘extend_dec_env env2' initEnv’,‘cst_lst’]
mp_tac
>> gs[] >> impl_tac
>- (
rpt conj_tac
>- (
unabbrev_all_tac
>> qspecl_then [‘gather_constants_decl prog’,
‘gather_used_identifiers_decl prog’, ‘0’]
mp_tac build_cnst_list_disjoint_res
>> metis_tac[IN_DISJOINT,SUBSET_DEF])
>> unabbrev_all_tac >> gs[state_rel_def, ref_rel_def])
>> rpt strip_tac >> gs[state_rel_def])
>> last_x_assum $ qspec_then ‘ub’ assume_tac
>> pop_assum irule
>> rpt strip_tac >> first_x_assum $ qspec_then ‘ll’ irule >> rveq
>> qexists_tac ‘k'’ >> gs[]
>> qspecl_then [‘init_ffi with clock := k'’, ‘initEnv’, ‘initEnv’, ‘[]’,
‘cst_lst’]
mp_tac build_decl_list_lemma
>> impl_tac
>- (
unabbrev_all_tac >> gs[env_rel_def]
>> rpt conj_tac >> gs[namespaceTheory.nsLookup_def]
>- (rpt strip_tac >> drule build_cnst_list_unique >> gs[])
>> rpt strip_tac >> Cases_on ‘n’ >> gs[namespaceTheory.nsLookup_def]
)
>> disch_then strip_assume_tac >> gs[]
>> Cases_on ‘evaluate_decs (init_ffi with clock := k') initEnv prog’
>> gs[]
>> pop_assum $ mp_then Any mp_tac replace_constants_decl_thm
>> disch_then $
qspecl_then [‘init_ffi with clock := k'’,
‘extend_dec_env env2' initEnv’,‘cst_lst’]
mp_tac
>> gs[] >> impl_tac
>- (
rpt conj_tac
>- (
unabbrev_all_tac
>> qspecl_then [‘gather_constants_decl prog’,
‘gather_used_identifiers_decl prog’, ‘0’]
mp_tac build_cnst_list_disjoint_res
>> metis_tac[IN_DISJOINT,SUBSET_DEF])
>> unabbrev_all_tac >> gs[state_rel_def, ref_rel_def])
>> rpt strip_tac >> gs[state_rel_def])
(* Termination *)
>- (
EQ_TAC >> rpt strip_tac >> gs[semanticsTheory.evaluate_prog_with_clock_def]
>- (
Cases_on ‘evaluate_decs (init_ffi with clock := k) initEnv prog’
>> gs[lift_constants_decl_def, evaluate_decs_app] >> rveq
>> qmatch_goalsub_abbrev_tac
‘evaluate_decs _ initEnv (build_decl_list cst_lst)’
>> qspecl_then [‘init_ffi with clock := k’, ‘initEnv’, ‘initEnv’, ‘[]’,
‘cst_lst’]
mp_tac build_decl_list_lemma
>> impl_tac
>- (
unabbrev_all_tac >> gs[env_rel_def]
>> rpt conj_tac >> gs[namespaceTheory.nsLookup_def]
>- (rpt strip_tac >> drule build_cnst_list_unique >> gs[])
>> rpt strip_tac >> Cases_on ‘n’ >> gs[namespaceTheory.nsLookup_def]
)
>> rpt strip_tac >> qexists_tac ‘k’ >> gs[]
>> qpat_x_assum `evaluate_decs _ _ prog = _` $
mp_then Any mp_tac replace_constants_decl_thm
>> disch_then $
qspecl_then [‘init_ffi with clock := k’,
‘extend_dec_env env2 initEnv’,‘cst_lst’]
mp_tac
>> gs[] >> impl_tac
>- (
rpt conj_tac
>- (
unabbrev_all_tac
>> qspecl_then [‘gather_constants_decl prog’,
‘gather_used_identifiers_decl prog’, ‘0’]
mp_tac build_cnst_list_disjoint_res
>> metis_tac[IN_DISJOINT,SUBSET_DEF])
>> unabbrev_all_tac >> gs[state_rel_def, ref_rel_def])
>> rpt strip_tac >> gs[]
>> Cases_on ‘r’ >> Cases_on ‘res1’
>> gs[dec_res_rel_def, combine_dec_result_def, state_rel_def]
>> Cases_on ‘e’ >> Cases_on ‘e'’ >> gs[dec_res_rel_def])
>> Cases_on ‘evaluate_decs (init_ffi with clock := k) initEnv prog’
>> qpat_x_assum `(λ (st, r). (st.ffi, r))
(evaluate_decs _ _ (lift_constants_decl _)) = _`
mp_tac
>> gs[lift_constants_decl_def, evaluate_decs_app] >> rveq
>> qmatch_goalsub_abbrev_tac ‘evaluate_decs _ initEnv
(build_decl_list cst_lst)’
>> qspecl_then [‘init_ffi with clock := k’, ‘initEnv’, ‘initEnv’, ‘[]’,
‘cst_lst’]
mp_tac build_decl_list_lemma
>> impl_tac
>- (
unabbrev_all_tac >> gs[env_rel_def]
>> rpt conj_tac >> gs[namespaceTheory.nsLookup_def]
>- (rpt strip_tac >> drule build_cnst_list_unique >> gs[])
>> rpt strip_tac >> Cases_on ‘n’ >> gs[namespaceTheory.nsLookup_def]
)
>> rpt strip_tac >> qexists_tac ‘k’ >> gs[]
>> qpat_x_assum `evaluate_decs _ _ prog = _` $
mp_then Any mp_tac replace_constants_decl_thm
>> disch_then $
qspecl_then [‘init_ffi with clock := k’, ‘extend_dec_env env2 initEnv’,
‘cst_lst’] mp_tac
>> gs[] >> impl_tac
>- (
rpt conj_tac
>- (
unabbrev_all_tac
>> qspecl_then [‘gather_constants_decl prog’,
‘gather_used_identifiers_decl prog’, ‘0’]
mp_tac build_cnst_list_disjoint_res
>> metis_tac[IN_DISJOINT,SUBSET_DEF])
>> unabbrev_all_tac >> gs[state_rel_def, ref_rel_def])
>> rpt strip_tac >> gs[] >> rveq
>~ [‘dec_res_rel _ _ (Rerr (Rabort Rtype_error)) _ _’]
>- (
Cases_on ‘res1’ >> gs[dec_res_rel_def, combine_dec_result_def, state_rel_def]
>> Cases_on ‘e’ >> gs[dec_res_rel_def])
>> Cases_on ‘r'’ >> Cases_on ‘res1’ >> gs[dec_res_rel_def, combine_dec_result_def, state_rel_def]
>> Cases_on ‘e’ >> Cases_on ‘e'’ >> gs[dec_res_rel_def]
)
>> EQ_TAC >> rpt strip_tac >> gs[semanticsTheory.evaluate_prog_with_clock_def]
>- (
Cases_on ‘evaluate_decs (init_ffi with clock := k) initEnv prog’
>> gs[lift_constants_decl_def, evaluate_decs_app] >> rveq
>> qmatch_goalsub_abbrev_tac
‘evaluate_decs _ initEnv (build_decl_list cst_lst)’
>> qspecl_then [‘init_ffi with clock := k’, ‘initEnv’, ‘initEnv’, ‘[]’,
‘cst_lst’]
mp_tac build_decl_list_lemma
>> impl_tac
>- (
unabbrev_all_tac >> gs[env_rel_def]
>> rpt conj_tac >> gs[namespaceTheory.nsLookup_def]
>- (rpt strip_tac >> drule build_cnst_list_unique >> gs[])
>> rpt strip_tac >> Cases_on ‘n’ >> gs[namespaceTheory.nsLookup_def]
)
>> rpt strip_tac >> qexists_tac ‘k’ >> gs[]
>> qpat_x_assum `evaluate_decs _ _ prog = _` $
mp_then Any mp_tac replace_constants_decl_thm
>> disch_then $
qspecl_then [‘init_ffi with clock := k’,
‘extend_dec_env env2 initEnv’,‘cst_lst’]
mp_tac
>> gs[] >> impl_tac
>- (
rpt conj_tac
>- (
unabbrev_all_tac
>> qspecl_then [‘gather_constants_decl prog’,
‘gather_used_identifiers_decl prog’, ‘0’]
mp_tac build_cnst_list_disjoint_res
>> metis_tac[IN_DISJOINT,SUBSET_DEF])
>> unabbrev_all_tac >> gs[state_rel_def, ref_rel_def])
>> rpt strip_tac >> gs[]
>> Cases_on ‘res1’
>> gs[dec_res_rel_def, combine_dec_result_def, state_rel_def]
>> Cases_on ‘e’ >> gs[dec_res_rel_def])
>> Cases_on ‘evaluate_decs (init_ffi with clock := k) initEnv prog’
>> qpat_x_assum `SND ((λ (st, r). (st.ffi, r))
(evaluate_decs _ _ (lift_constants_decl _))) = _`
mp_tac
>> gs[lift_constants_decl_def, evaluate_decs_app] >> rveq
>> qmatch_goalsub_abbrev_tac ‘evaluate_decs _ initEnv
(build_decl_list cst_lst)’
>> qspecl_then [‘init_ffi with clock := k’, ‘initEnv’, ‘initEnv’, ‘[]’,
‘cst_lst’]
mp_tac build_decl_list_lemma
>> impl_tac
>- (
unabbrev_all_tac >> gs[env_rel_def]
>> rpt conj_tac >> gs[namespaceTheory.nsLookup_def]
>- (rpt strip_tac >> drule build_cnst_list_unique >> gs[])
>> rpt strip_tac >> Cases_on ‘n’ >> gs[namespaceTheory.nsLookup_def]
)
>> rpt strip_tac >> qexists_tac ‘k’ >> gs[]
>> qpat_x_assum `evaluate_decs _ _ prog = _` $
mp_then Any mp_tac replace_constants_decl_thm
>> disch_then $
qspecl_then [‘init_ffi with clock := k’, ‘extend_dec_env env2 initEnv’,
‘cst_lst’] mp_tac
>> gs[] >> impl_tac
>- (
rpt conj_tac
>- (
unabbrev_all_tac
>> qspecl_then [‘gather_constants_decl prog’,
‘gather_used_identifiers_decl prog’, ‘0’]
mp_tac build_cnst_list_disjoint_res
>> metis_tac[IN_DISJOINT,SUBSET_DEF])
>> unabbrev_all_tac >> gs[state_rel_def, ref_rel_def])
>> rpt strip_tac >> gs[] >> rveq
>> Cases_on ‘r’ >> Cases_on ‘res1’ >> gs[dec_res_rel_def, combine_dec_result_def, state_rel_def]
>> Cases_on ‘e’ >> gs[dec_res_rel_def]
QED
Theorem pull_words_correct_simp =
SIMP_RULE std_ss [primSemEnvTheory.prim_sem_env_eq,
GSYM ml_progTheory.init_state_def,
GSYM ml_progTheory.init_env_def] pull_words_correct
|> CONV_RULE pairLib.let_CONV;
*)
val _ = export_theory();