X-Git-Url: http://git.megacz.com/?p=coq-hetmet.git;a=blobdiff_plain;f=src%2FNaturalDeduction.v;h=8568e389ec9b8c5b52bed91148fa8592f16d8d8d;hp=855b66a7614d31985359c0d5eb8ec09f8054aeda;hb=786b693ac8d5f2081db75b49bba838a6cff7e2f6;hpb=8cb97991a95d5761a28ca94767b8fe637d1411d9 diff --git a/src/NaturalDeduction.v b/src/NaturalDeduction.v index 855b66a..8568e38 100644 --- a/src/NaturalDeduction.v +++ b/src/NaturalDeduction.v @@ -333,11 +333,65 @@ Section Natural_Deduction. | cnd_branch c1 c2 cnd1 cnd2 => nd_llecnac ;; nd_prod (closedNDtoNormalND cnd1) (closedNDtoNormalND cnd2) end. + Section Sequents. + Context {S:Type}. (* type of sequent components *) + Context {sequent:S->S->Judgment}. + Context {ndr:ND_Relation}. + Notation "a |= b" := (sequent a b). + Notation "a === b" := (@ndr_eqv ndr _ _ a b) : nd_scope. + + Class SequentCalculus := + { nd_seq_reflexive : forall a, ND [ ] [ a |= a ] + }. + + Class CutRule (nd_cutrule_seq:SequentCalculus) := + { nd_cut : forall a b c, [ a |= b ] ,, [ b |= c ] /⋯⋯/ [ a |= c ] + ; nd_cut_left_identity : forall a b, (( (nd_seq_reflexive a)**(nd_id _));; nd_cut _ _ b) === nd_cancell + ; nd_cut_right_identity : forall a b, (((nd_id _)**(nd_seq_reflexive a) );; nd_cut b _ _) === nd_cancelr + ; nd_cut_associativity : forall {a b c d}, + (nd_id1 (a|=b) ** nd_cut b c d) ;; (nd_cut a b d) === nd_cossa ;; (nd_cut a b c ** nd_id1 (c|=d)) ;; nd_cut a c d + }. + + End Sequents. +(*Implicit Arguments SequentCalculus [ S ]*) +(*Implicit Arguments CutRule [ S ]*) + Section SequentsOfTrees. + Context {T:Type}{sequent:Tree ??T -> Tree ??T -> Judgment}. + Context (ndr:ND_Relation). + Notation "a |= b" := (sequent a b). + Notation "a === b" := (@ndr_eqv ndr _ _ a b) : nd_scope. + + Class TreeStructuralRules := + { tsr_ant_assoc : forall {x a b c}, ND [((a,,b),,c) |= x] [(a,,(b,,c)) |= x] + ; tsr_ant_cossa : forall {x a b c}, ND [(a,,(b,,c)) |= x] [((a,,b),,c) |= x] + ; tsr_ant_cancell : forall {x a }, ND [ [],,a |= x] [ a |= x] + ; tsr_ant_cancelr : forall {x a }, ND [a,,[] |= x] [ a |= x] + ; tsr_ant_llecnac : forall {x a }, ND [ a |= x] [ [],,a |= x] + ; tsr_ant_rlecnac : forall {x a }, ND [ a |= x] [ a,,[] |= x] + }. + + Notation "[# a #]" := (nd_rule a) : nd_scope. + + Context `{se_cut : @CutRule _ sequent ndr sc}. + Class SequentExpansion := + { se_expand_left : forall tau {Gamma Sigma}, ND [ Gamma |= Sigma ] [tau,,Gamma|=tau,,Sigma] + ; se_expand_right : forall tau {Gamma Sigma}, ND [ Gamma |= Sigma ] [Gamma,,tau|=Sigma,,tau] + + (* left and right expansion must commute with cut *) + ; se_reflexive_left : ∀ a c, nd_seq_reflexive a;; se_expand_left c === nd_seq_reflexive (c,, a) + ; se_reflexive_right : ∀ a c, nd_seq_reflexive a;; se_expand_right c === nd_seq_reflexive (a,, c) + ; se_cut_left : ∀ a b c d, (se_expand_left _)**(se_expand_left _);;nd_cut _ _ _===nd_cut a b d;;(se_expand_left c) + ; se_cut_right : ∀ a b c d, (se_expand_right _)**(se_expand_right _);;nd_cut _ _ _===nd_cut a b d;;(se_expand_right c) + }. + End SequentsOfTrees. + Close Scope nd_scope. Open Scope pf_scope. End Natural_Deduction. +Coercion nd_cut : CutRule >-> Funclass. + Implicit Arguments ND [ Judgment ]. Hint Constructors Structural. Hint Extern 1 => apply nd_id_structural.