1 | include "joint/Joint.ma". |
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2 | include "joint/blocks.ma". |
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3 | include "utilities/hide.ma". |
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4 | include "utilities/deqsets.ma". |
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5 | |
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6 | (* general type of functions generating fresh things *) |
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7 | definition freshT ≝ λpars : params.λg.state_monad (joint_internal_function pars g). |
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8 | |
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9 | include alias "basics/lists/list.ma". |
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10 | let rec repeat_fresh pars globals A (fresh : freshT pars globals A) (n : ℕ) |
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11 | on n : |
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12 | freshT pars globals (Σl : list A. |l| = n) ≝ |
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13 | match n return λx.freshT … (Σl.|l| = x) with |
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14 | [ O ⇒ return «[ ], ?» |
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15 | | S n' ⇒ |
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16 | ! regs' ← repeat_fresh … fresh n'; |
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17 | ! reg ← fresh ; |
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18 | return «reg::regs',?» |
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19 | ]. [% | @hide_prf cases regs' #l #EQ normalize >EQ % ] qed. |
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20 | |
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21 | definition fresh_label: |
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22 | ∀g_pars,globals.freshT globals g_pars label ≝ |
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23 | λg_pars,globals,def. |
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24 | let 〈r,luniverse〉 ≝ fresh … (joint_if_luniverse … def) in |
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25 | 〈set_luniverse … def luniverse, r〉. |
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26 | |
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27 | (* insert into a graph a block of instructions *) |
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28 | let rec adds_graph_list |
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29 | (g_pars: graph_params) |
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30 | (globals: list ident) |
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31 | (insts: list (joint_seq g_pars globals)) |
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32 | (src : label) on insts : state_monad (joint_internal_function g_pars globals) label ≝ |
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33 | match insts with |
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34 | [ nil ⇒ return src |
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35 | | cons instr others ⇒ |
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36 | ! mid ← fresh_label … ; |
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37 | ! def ← state_get … ; |
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38 | !_ state_set … (add_graph … src (sequential … instr mid) def) ; |
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39 | adds_graph_list g_pars globals others mid |
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40 | ]. |
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41 | |
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42 | definition is_inr : ∀A,B.A + B → bool ≝ λA,B,x.match x with |
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43 | [ inl _ ⇒ true |
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44 | | inr _ ⇒ false |
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45 | ]. |
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46 | definition is_inl : ∀A,B.A + B → bool ≝ λA,B,x.match x with |
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47 | [ inl _ ⇒ true |
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48 | | inr _ ⇒ false |
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49 | ]. |
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50 | |
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51 | definition adds_graph : |
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52 | ∀g_pars : graph_params. |
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53 | ∀globals: list ident. |
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54 | ∀b : seq_block g_pars globals (joint_step g_pars globals) + |
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55 | seq_block g_pars globals (joint_fin_step g_pars). |
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56 | label → if is_inl … b then label else unit → |
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57 | joint_internal_function g_pars globals → joint_internal_function g_pars globals ≝ |
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58 | λg_pars,globals,insts,src. |
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59 | match insts return λx.if is_inl … x then ? else ? → ? → ? with |
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60 | [ inl b ⇒ λdst,def. |
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61 | let 〈def, mid〉 ≝ adds_graph_list … (\fst b) src def in |
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62 | add_graph … mid (sequential … (\snd b) dst) def |
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63 | | inr b ⇒ λdst,def. |
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64 | let 〈def, mid〉 ≝ adds_graph_list … (\fst b) src def in |
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65 | add_graph … mid (final … (\snd b)) def |
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66 | ]. |
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67 | |
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68 | (* ignoring register allocation for now *) |
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69 | |
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70 | definition luniverse_ok : ∀p : graph_params.∀g.joint_internal_function p g → Prop ≝ |
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71 | λp,g,def.fresh_map_for_univ … (joint_if_code … def) (joint_if_luniverse … def). |
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72 | |
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73 | lemma present_to_memb : ∀tag,A,l,m.present tag A m l → bool_to_Prop (l∈m). |
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74 | #tag #A * #l * #m whd in ⊢ (%→?%); |
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75 | elim (lookup tag ???) |
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76 | [ * #ABS elim (ABS ?) % |
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77 | | #a #_ % |
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78 | ] qed. |
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79 | |
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80 | lemma memb_to_present : ∀tag,A,l,m.l∈m → present tag A m l. |
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81 | #tag #A * #l * #m whd in ⊢ (?%→%); |
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82 | elim (lookup tag ???) |
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83 | [ * | #a * % #ABS destruct(ABS) ] qed. |
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84 | |
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85 | (* |
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86 | lemma All_fresh_not_memb : ∀tag,u,l,id,u'. |
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87 | All (identifier tag) (λid'.¬fresh_for_univ tag id' u) l → |
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88 | 〈id, u'〉 = fresh tag u → |
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89 | ¬id ∈ l. |
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90 | #tag #u #l elim l [2: #hd #tl #IH] #id #u' * |
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91 | [ #hd_fresh #tl_fresh #EQfresh |
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92 | whd in ⊢ (?(?%)); |
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93 | change with (eq_identifier ???) in match (?==?); |
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94 | >eq_identifier_sym |
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95 | >(eq_identifier_false … (fresh_distinct … hd_fresh EQfresh)) |
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96 | normalize nodelta @(IH … tl_fresh EQfresh) |
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97 | | #_ % |
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98 | ] |
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99 | qed. |
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100 | *) |
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101 | |
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102 | lemma fresh_was_fresh : ∀tag,id,id',u,u'. |
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103 | 〈id,u'〉 = fresh tag u → |
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104 | fresh_for_univ tag id' u' → |
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105 | id' ≠ id → |
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106 | fresh_for_univ tag id' u. |
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107 | #tag * #id * #id' * #u * #u' |
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108 | normalize #EQfresh destruct |
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109 | #H #NEQ |
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110 | elim (le_to_or_lt_eq … H) |
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111 | [ (* not recompiling... /2 by monotonic_pred/ *) /2/ ] |
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112 | #H >(succ_injective … H) in NEQ; |
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113 | * #G elim (G (refl …)) |
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114 | qed. |
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115 | |
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116 | |
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117 | (* use Russell? *) |
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118 | axiom adds_graph_list_ok : |
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119 | ∀g_pars,globals,b,src,def. |
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120 | fresh_for_univ … src (joint_if_luniverse … def) → |
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121 | luniverse_ok ?? def → |
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122 | let 〈def', dst〉 ≝ adds_graph_list g_pars globals b src def in |
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123 | luniverse_ok ?? def' ∧ |
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124 | ∃l.bool_to_Prop (uniqueb … l) ∧ |
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125 | All … (λlbl.¬fresh_for_univ … lbl (joint_if_luniverse … def) ∧ |
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126 | fresh_for_univ … lbl (joint_if_luniverse … def')) l ∧ |
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127 | src ~❨b,l❩~> dst in joint_if_code … def'. |
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128 | (* #p #g #l elim l |
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129 | [ #src #def #_ #Hdef whd |
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130 | %{Hdef} %{[ ]} %%% |
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131 | | #hd #tl #IH #src #def #src_fresh #Hdef |
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132 | whd in match (adds_graph_list ?????); |
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133 | whd in match (fresh_label ???); |
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134 | @(pair_elim … (fresh ??)) normalize nodelta |
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135 | #mid #luniverse' #EQfresh |
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136 | whd in ⊢ (match % with [ _ ⇒ ?]); |
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137 | letin def' ≝ (add_graph p g src (sequential … hd mid) (set_luniverse … def luniverse')) |
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138 | cut (joint_if_code p g (set_luniverse p g def luniverse') = joint_if_code … def) |
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139 | [ cases def // ] #EQ_aux |
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140 | lapply (IH mid def' ??) |
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141 | [ #l whd in match def'; #Hpres |
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142 | lapply (present_to_memb … Hpres) -Hpres |
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143 | >mem_set_add @eq_identifier_elim |
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144 | [ #EQ destruct(EQ) * |
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145 | | #NEQ change with (? ∈ joint_if_code p ??) in ⊢ (?%→?); >EQ_aux |
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146 | #l_in |
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147 | ] |
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148 | @(fresh_remains_fresh … (sym_eq … EQfresh)) |
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149 | [2: @Hdef @memb_to_present ] assumption |
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150 | | whd in match def'; |
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151 | cases def #H1 #H2 #H3 #H4 #H5 #H6 #H7 #H8 #H9 |
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152 | whd in match (set_luniverse ????); |
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153 | @(fresh_is_fresh … (sym_eq … EQfresh)) |
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154 | ] |
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155 | elim (adds_graph_list ?????) #def'' #mid' normalize nodelta |
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156 | * #Hdef'' * #l ** #Hl1 #Hl2 #Hl3 %{Hdef''} %{(mid::l)} |
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157 | % [ % ] |
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158 | [ whd in ⊢ (?%); |
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159 | elim (true_or_false_Prop (mid∈l)) #H >H normalize nodelta |
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160 | [ elim (All_memb … Hl2 H) |
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161 | cases def #H1 #H2 #H3 #H4 #H5 #H6 #H7 #H8 #H9 normalize in ⊢ (%→?); |
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162 | #H #_ @(absurd ?? H) |
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163 | @(fresh_remains_fresh … (eqEQfresh) |
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164 | normalize #H10 #H11 |
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165 | |
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166 | >(All_fresh_not_memb … (sym_eq … EQfresh)) |
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167 | [ assumption ] |
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168 | @(All_mp … Hl2) #lbl * |
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169 | cases def in EQfresh; #H11 #H12 #H13 #H14 #H15 #H16 #H17 #H18 #H19 |
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170 | normalize #EQfresh #H #lbl_not_mid |
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171 | lapply(fresh_remains_fresh … H (sym_eq … EQfresh)) |
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172 | |
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173 | elim (true_or_false_Prop (mid∈l)) #mid_l >mid_l |
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174 | [ normalize |
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175 | *) |
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176 | |
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177 | (* preserves first statement if a cost label (should be an invariant) *) |
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178 | definition insert_prologue ≝ |
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179 | λg_pars:graph_params.λglobals.λinsts : list (joint_seq g_pars globals). |
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180 | λdef : joint_internal_function g_pars globals. |
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181 | let entry ≝ joint_if_entry … def in |
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182 | match stmt_at … entry |
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183 | return λx.match x with [None ⇒ false | Some _ ⇒ true] → ? |
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184 | with |
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185 | [ Some s ⇒ λ_. |
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186 | match s with |
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187 | [ sequential s' next ⇒ |
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188 | match s' with |
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189 | [ step_seq s'' ⇒ |
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190 | match s'' with |
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191 | [ COST_LABEL _ ⇒ |
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192 | adds_graph ?? (inl … (s'' :: insts)) entry next def |
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193 | | _ ⇒ |
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194 | let 〈def', tmp〉 ≝ adds_graph_list ?? insts entry def in |
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195 | add_graph … tmp s def' |
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196 | ] |
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197 | | _ ⇒ |
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198 | let 〈def', tmp〉 ≝ adds_graph_list ?? insts entry def in |
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199 | add_graph … tmp s def' |
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200 | ] |
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201 | | _ ⇒ |
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202 | let 〈def', tmp〉 ≝ adds_graph_list ?? insts entry def in |
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203 | add_graph … tmp s def' |
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204 | ] |
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205 | | None ⇒ Ⓧ |
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206 | ] (pi2 … entry). |
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207 | |
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208 | definition insert_epilogue ≝ |
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209 | λg_pars:graph_params.λglobals.λinsts : list (joint_seq g_pars globals). |
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210 | λdef : joint_internal_function g_pars globals. |
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211 | let exit ≝ joint_if_exit … def in |
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212 | match stmt_at … exit |
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213 | return λx.match x with [None ⇒ false | Some _ ⇒ true] → ? |
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214 | with |
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215 | [ Some s ⇒ λ_. |
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216 | let 〈def', tmp〉 as prf ≝ adds_graph_list ?? insts exit def in |
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217 | let def'' ≝ add_graph … tmp s def' in |
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218 | set_joint_code … def'' (joint_if_code … def'') (joint_if_entry … def'') tmp |
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219 | | None ⇒ Ⓧ |
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220 | ] (pi2 … exit). |
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221 | whd in match def''; >graph_code_has_point // |
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222 | qed. |
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223 | |
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224 | definition b_adds_graph : |
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225 | ∀g_pars: graph_params. |
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226 | ∀globals: list ident. |
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227 | (* fresh register creation *) |
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228 | freshT g_pars globals (localsT … g_pars) → |
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229 | ∀b : bind_seq_block g_pars globals (joint_step g_pars globals) + |
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230 | bind_seq_block g_pars globals (joint_fin_step g_pars). |
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231 | label → if is_inl … b then label else unit → |
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232 | joint_internal_function g_pars globals→ |
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233 | joint_internal_function g_pars globals ≝ |
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234 | λg_pars,globals,fresh_r,insts,src. |
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235 | match insts return λx.if is_inl … x then ? else ? → ? → ? with |
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236 | [ inl b ⇒ λdst,def. |
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237 | let 〈def, stmts〉 ≝ bcompile ??? fresh_r b def in |
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238 | adds_graph … (inl … stmts) src dst def |
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239 | | inr b ⇒ λdst,def. |
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240 | let 〈def, stmts〉 ≝ bcompile ??? fresh_r b def in |
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241 | adds_graph … (inr … stmts) src dst def |
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242 | ]. |
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243 | |
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244 | |
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245 | |
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246 | (* translation with inline fresh register allocation *) |
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247 | definition b_graph_translate : |
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248 | ∀src_g_pars,dst_g_pars : graph_params. |
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249 | ∀globals: list ident. |
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250 | (* fresh register creation *) |
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251 | freshT dst_g_pars globals (localsT dst_g_pars) → |
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252 | (* initialized function definition with empty graph *) |
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253 | joint_internal_function dst_g_pars globals → |
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254 | (* functions dictating the translation *) |
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255 | (label → joint_step src_g_pars globals → |
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256 | bind_seq_block dst_g_pars globals (joint_step dst_g_pars globals)) → |
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257 | (label → joint_fin_step src_g_pars → |
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258 | bind_seq_block dst_g_pars globals (joint_fin_step dst_g_pars)) → |
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259 | (* source function *) |
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260 | joint_internal_function src_g_pars globals → |
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261 | (* destination function *) |
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262 | joint_internal_function dst_g_pars globals ≝ |
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263 | λsrc_g_pars,dst_g_pars,globals,fresh_reg,empty,trans_step,trans_fin_step,def. |
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264 | let f : label → joint_statement (src_g_pars : params) globals → |
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265 | joint_internal_function dst_g_pars globals → joint_internal_function dst_g_pars globals ≝ |
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266 | λlbl,stmt,def. |
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267 | match stmt with |
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268 | [ sequential inst next ⇒ |
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269 | b_adds_graph … fresh_reg (inl … (trans_step lbl inst)) lbl next def |
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270 | | final inst ⇒ |
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271 | b_adds_graph … fresh_reg (inr … (trans_fin_step lbl inst)) lbl it def |
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272 | | FCOND abs _ _ _ ⇒ Ⓧabs |
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273 | ] in |
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274 | foldi … f (joint_if_code … def) empty. |
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275 | |
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276 | (* translation without register allocation *) |
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277 | definition graph_translate : |
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278 | ∀src_g_pars,dst_g_pars : graph_params. |
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279 | ∀globals: list ident. |
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280 | (* initialized function definition with empty graph *) |
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281 | joint_internal_function dst_g_pars globals → |
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282 | (* functions dictating the translation *) |
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283 | (label → joint_step src_g_pars globals → |
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284 | seq_block dst_g_pars globals (joint_step dst_g_pars globals)) → |
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285 | (label → joint_fin_step src_g_pars → |
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286 | seq_block dst_g_pars globals (joint_fin_step dst_g_pars)) → |
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287 | (* source function *) |
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288 | joint_internal_function src_g_pars globals → |
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289 | (* destination function *) |
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290 | joint_internal_function dst_g_pars globals ≝ |
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291 | λsrc_g_pars,dst_g_pars,globals,empty,trans_step,trans_fin_step,def. |
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292 | let f : label → joint_statement (src_g_pars : params) globals → |
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293 | joint_internal_function dst_g_pars globals → joint_internal_function dst_g_pars globals ≝ |
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294 | λlbl,stmt,def. |
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295 | match stmt with |
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296 | [ sequential inst next ⇒ |
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297 | adds_graph … (inl … (trans_step lbl inst)) lbl next def |
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298 | | final inst ⇒ |
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299 | adds_graph … (inr … (trans_fin_step lbl inst)) lbl it def |
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300 | | FCOND abs _ _ _ ⇒ Ⓧabs |
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301 | ] in |
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302 | foldi … f (joint_if_code … def) empty. |
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303 | |
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304 | definition init_graph_if ≝ |
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305 | λg_pars : graph_params.λglobals. |
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306 | λluniverse,runiverse,ret,params,locals,stack_size,entry,exit. |
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307 | let graph ≝ add ? ? (empty_map ? (joint_statement ??)) entry (GOTO … exit) in |
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308 | let graph ≝ add ? ? graph exit (RETURN …) in |
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309 | mk_joint_internal_function g_pars globals |
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310 | luniverse runiverse ret params locals stack_size |
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311 | graph entry exit. |
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312 | >graph_code_has_point @map_mem_prop |
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313 | [@graph_add_lookup] @graph_add |
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314 | qed. |
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315 | |
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316 | |
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317 | (* |
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318 | let rec add_translates |
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319 | (pars1: params1) (globals: list ident) |
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320 | (translate_list: list ?) (start_lbl: label) (dest_lbl: label) |
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321 | (def: joint_internal_function … (graph_params pars1 globals)) |
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322 | on translate_list ≝ |
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323 | match translate_list with |
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324 | [ nil ⇒ add_graph … start_lbl (GOTO … dest_lbl) def |
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325 | | cons trans translate_list ⇒ |
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326 | match translate_list with |
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327 | [ nil ⇒ trans start_lbl dest_lbl def |
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328 | | _ ⇒ |
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329 | let 〈tmp_lbl, def〉 ≝ fresh_label … def in |
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330 | let def ≝ trans start_lbl tmp_lbl def in |
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331 | add_translates pars1 globals translate_list tmp_lbl dest_lbl def]]. |
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332 | |
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333 | definition adds_graph ≝ |
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334 | λpars1:params1.λglobals. λstmt_list: list (label → joint_statement (graph_params_ pars1) globals). |
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335 | add_translates … (map ?? (λf,start_lbl,dest_lbl. add_graph pars1 ? start_lbl (f dest_lbl)) stmt_list). |
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336 | *) |
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