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open GenericLib
(* open CoqLib *)
let semGenSize gen size =
gApp (gInject "semGenSize") [gen; size]
let semGen gen =
gApp (gInject "semGen") [gen]
let semReturn x =
gApp (gInject "semReturn") [x]
let arbitrarySize size =
gApp (gInject "arbitrarySize") [size]
let oneOf_freq p1 p2 p3 =
gApp ~explicit:true (gInject "oneOf_freq") [hole; p1; p2; p3]
let semFreqSize g gs size hall =
gApp ~explicit:true (gInject "semFreqSize") [hole; g; gs; size; hall]
let semFreq g gs hall =
gApp ~explicit:true (gInject "semFreq") [hole; g; gs; hall]
let semBindSize g f size =
gApp (gInject "semBindSize") [g; f; size]
let semBindSizeMon g f gMon fMon =
gApp
~explicit:true
(gInject "semBindSizeMonotonic")
[hole; hole; g; f; gMon; fMon]
let backtrackSizeMonotonic lst proof =
gApp (gInject "backtrackSizeMonotonic") [lst; proof]
let backtrackSizeMonotonicOpt lst proof =
gApp (gInject "backtrackSizeMonotonicOpt") [lst; proof]
let semBacktrack_sound g =
gApp ~explicit:true (gInject "semBacktrack_sound") [hole; g]
let semBacktrack_complete g =
gApp ~explicit:true (gInject "semBacktrack_complete") [hole; g]
let semBacktrackSize g s =
gApp ~explicit:true (gInject "semBacktrackSize") [hole; g; s]
let returnGenSizeMonotonic x =
gApp (gInject "returnGenSizeMonotonic") [x]
let returnGenSizeMonotonicOpt x =
gApp (gInject "returnGenSizeMonotonicOpt") [x]
let bindMonotonic p s fp =
gApp ~explicit:true
(gInject "bindMonotonic") [hole; hole; hole; hole; p; gFun [s] (fun [x] -> fp x)]
let bindMonotonicOpt p s fp =
gApp ~explicit:true
(gInject "bindMonotonicOpt") [hole; hole; hole; hole; p; gFun [s] (fun [x] -> fp x)]
let bindOptMonotonic p s fp =
gApp ~explicit:true
(gInject "bindOptMonotonic") [hole; hole; hole; hole; p; gFun [s] (fun [x] -> fp x)]
let bindOptMonotonicOpt p s fp =
gApp ~explicit:true
(gInject "bindOptMonotonicOpt") [hole; hole; hole; hole; p; gFun [s] (fun [x] -> fp x)]
(* let suchThatMaybeMonotonic p pred = *)
(* gApp ~explicit:true *)
(* (gInject "suchThatMaybeMonotonic") [hole; hole; pred; p] *)
(* let suchThatMaybeOptMonotonic p pred = *)
(* gApp ~explicit:true *)
(* (gInject "suchThatMaybeOptMonotonic") [hole; hole; pred; p] *)
let suchThatMaybeMonotonicOpt p pred =
gApp ~explicit:true
(gInject "suchThatMaybeMonotonicOpt") [hole; hole; pred; p]
let suchThatMaybeOptMonotonicOpt p pred =
gApp ~explicit:true
(gInject "suchThatMaybeOptMonotonicOpt") [hole; hole; pred; p]
let semBindOptSizeMonotonicIncl_r g f s sf hg hf =
gApp ~explicit:true (gInject "semBindOptSizeMonotonicIncl_r")
[hole; hole; g; f; s; sf; hg; hf]
let semBindSizeMonotonicIncl_r g f s sf hg hf =
gApp ~explicit:true (gInject "semBindSizeMonotonicIncl_r")
[hole; hole; g; f; s; sf; hg; hf]
let semBindOptSizeMonotonicIncl_l g f s sf mon monf hg hf =
gApp ~explicit:true (gInject "semBindOptSizeMonotonicIncl_l")
[hole; hole; g; f; s; sf; mon; monf; hg; hf]
let semBindSizeMonotonicIncl_l g f s sf mon monf hg hf =
gApp ~explicit:true (gInject "semBindSizeMonotonicIncl_l")
[hole; hole; g; f; s; sf; mon; monf; hg; hf]
let semSuchThatMaybe_complete g f s mon h =
gApp ~explicit:true (gInject "semSuchThatMaybe_complete") [hole; g; f; s; mon; h]
let semSuchThatMaybeOpt_complete g f s mon h =
gApp ~explicit:true (gInject "semSuchThatMaybeOpt_complete") [hole; g; f; s; mon; h]
let semSuchThatMaybe_sound g f s h =
gApp ~explicit:true (gInject "semSuchThatMaybe_sound") [hole; g; f; s; h]
let semSuchThatMaybeOpt_sound g f s h =
gApp ~explicit:true (gInject "semSuchThatMaybeOpt_sound") [hole; g; f; s; h]
let semBindSizeOpt_subset_compat h1 h2 =
gApp ~explicit:true (gInject "semBindSizeOpt_subset_compat")
[hole; hole; hole; hole; hole; hole; h1; h2]
let semBindOptSizeOpt_subset_compat h1 h2 =
gApp ~explicit:true (gInject "semBindOptSizeOpt_subset_compat")
[hole; hole; hole; hole; hole; hole; h1; h2]
let suchThatMaybe_subset_compat p h =
gApp ~explicit:true (gInject "suchThatMaybe_subset_compat")
[hole; p; hole; hole; h]
let suchThatMaybeOpt_subset_compat p h =
gApp ~explicit:true (gInject "suchThatMaybeOpt_subset_compat")
[hole; p; hole; hole; h]
let nat_set_ind typ ginst sinst cinst hb hi x =
gApp ~explicit:true (gInject "nat_set_ind") [typ; ginst; sinst; cinst; hb; hi; x]
(*
(* Checker proofs *)
let destruct_match_true_r (h : coq_expr) (k : coq_expr) =
gApp ~explicit:true (gInject "destruct_match_true_r") [hole; hole; h; k]
let destruct_match_true_l (h : coq_expr) =
gApp ~explicit:true (gInject "destruct_match_true_l") [hole; hole; h]
let checker_backtrack_spec_l (gens : coq_expr) (h : coq_expr) =
let heq = gApp ~explicit:true (gInject "checker_backtrack_spec") [gens] in
gApp (gProjL heq) [h]
let checker_backtrack_spec_r (gens : coq_expr) (h : coq_expr) =
let heq = gApp ~explicit:true (gInject "checker_backtrack_spec") [gens] in
gApp (gProjR heq) [h]
*)
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