fancy_with_casts_rewrite_head = match idc in (Compilers.ident t) return (Compile.value' true t) with | @Literal t v => Base (##v)%expr | Nat_succ => fun x : expr ℕ => Base (#(Nat_succ)%expr @ x)%expr_pat | Nat_pred => fun x : expr ℕ => Base (#(Nat_pred)%expr @ x)%expr_pat | Nat_max => fun x x0 : expr ℕ => Base (#(Nat_max)%expr @ x @ x0)%expr_pat | Nat_mul => fun x x0 : expr ℕ => Base (#(Nat_mul)%expr @ x @ x0)%expr_pat | Nat_add => fun x x0 : expr ℕ => Base (#(Nat_add)%expr @ x @ x0)%expr_pat | Nat_sub => fun x x0 : expr ℕ => Base (#(Nat_sub)%expr @ x @ x0)%expr_pat | Nat_eqb => fun x x0 : expr ℕ => Base (#(Nat_eqb)%expr @ x @ x0)%expr_pat | @nil t => Base []%expr_pat | @cons t => fun (x : expr t) (x0 : expr (list t)) => Base (x :: x0)%expr_pat | @pair A B => fun (x : expr A) (x0 : expr B) => Base (x, x0)%expr_pat | @fst A B => fun x : expr (A * B)%etype => Base (#(fst)%expr @ x)%expr_pat | @snd A B => fun x : expr (A * B)%etype => Base (#(snd)%expr @ x)%expr_pat | @prod_rect A B T => fun (x : expr A -> expr B -> UnderLets (expr T)) (x0 : expr (A * B)%etype) => Base (#(prod_rect)%expr @ (λ (x1 : var A)(x2 : var B), to_expr (x ($x1) ($x2)))%expr @ x0)%expr_pat | @bool_rect T => fun (x x0 : expr unit -> UnderLets (expr T)) (x1 : expr bool) => Base (#(bool_rect)%expr @ (λ x2 : var unit, to_expr (x ($x2)))%expr @ (λ x2 : var unit, to_expr (x0 ($x2)))%expr @ x1)%expr_pat | @nat_rect P => fun (x : expr unit -> UnderLets (expr P)) (x0 : expr ℕ -> expr P -> UnderLets (expr P)) (x1 : expr ℕ) => Base (#(nat_rect)%expr @ (λ x2 : var unit, to_expr (x ($x2)))%expr @ (λ (x2 : var ℕ)(x3 : var P), to_expr (x0 ($x2) ($x3)))%expr @ x1)%expr_pat | @nat_rect_arrow P Q => fun (x : expr P -> UnderLets (expr Q)) (x0 : expr ℕ -> (expr P -> UnderLets (expr Q)) -> expr P -> UnderLets (expr Q)) (x1 : expr ℕ) (x2 : expr P) => Base (#(nat_rect_arrow)%expr @ (λ x3 : var P, to_expr (x ($x3)))%expr @ (λ (x3 : var ℕ)(x4 : var (P -> Q)%ptype)(x5 : var P), to_expr (x0 ($x3) (fun x6 : expr P => Base ($x4 @ x6)%expr_pat) ($x5)))%expr @ x1 @ x2)%expr_pat | @eager_nat_rect P => fun (x : expr unit -> UnderLets (expr P)) (x0 : expr ℕ -> expr P -> UnderLets (expr P)) (x1 : expr ℕ) => Base (#(eager_nat_rect)%expr @ (λ x2 : var unit, to_expr (x ($x2)))%expr @ (λ (x2 : var ℕ)(x3 : var P), to_expr (x0 ($x2) ($x3)))%expr @ x1)%expr_pat | @eager_nat_rect_arrow P Q => fun (x : expr P -> UnderLets (expr Q)) (x0 : expr ℕ -> (expr P -> UnderLets (expr Q)) -> expr P -> UnderLets (expr Q)) (x1 : expr ℕ) (x2 : expr P) => Base (#(eager_nat_rect_arrow)%expr @ (λ x3 : var P, to_expr (x ($x3)))%expr @ (λ (x3 : var ℕ)(x4 : var (P -> Q)%ptype)(x5 : var P), to_expr (x0 ($x3) (fun x6 : expr P => Base ($x4 @ x6)%expr_pat) ($x5)))%expr @ x1 @ x2)%expr_pat | @list_rect A P => fun (x : expr unit -> UnderLets (expr P)) (x0 : expr A -> expr (list A) -> expr P -> UnderLets (expr P)) (x1 : expr (list A)) => Base (#(list_rect)%expr @ (λ x2 : var unit, to_expr (x ($x2)))%expr @ (λ (x2 : var A)(x3 : var (list A))(x4 : var P), to_expr (x0 ($x2) ($x3) ($x4)))%expr @ x1)%expr_pat | @list_rect_arrow A P Q => fun (x : expr P -> UnderLets (expr Q)) (x0 : expr A -> expr (list A) -> (expr P -> UnderLets (expr Q)) -> expr P -> UnderLets (expr Q)) (x1 : expr (list A)) (x2 : expr P) => Base (#(list_rect_arrow)%expr @ (λ x3 : var P, to_expr (x ($x3)))%expr @ (λ (x3 : var A)(x4 : var (list A))(x5 : var (P -> Q)%ptype)(x6 : var P), to_expr (x0 ($x3) ($x4) (fun x7 : expr P => Base ($x5 @ x7)%expr_pat) ($x6)))%expr @ x1 @ x2)%expr_pat | @eager_list_rect A P => fun (x : expr unit -> UnderLets (expr P)) (x0 : expr A -> expr (list A) -> expr P -> UnderLets (expr P)) (x1 : expr (list A)) => Base (#(eager_list_rect)%expr @ (λ x2 : var unit, to_expr (x ($x2)))%expr @ (λ (x2 : var A)(x3 : var (list A))(x4 : var P), to_expr (x0 ($x2) ($x3) ($x4)))%expr @ x1)%expr_pat | @eager_list_rect_arrow A P Q => fun (x : expr P -> UnderLets (expr Q)) (x0 : expr A -> expr (list A) -> (expr P -> UnderLets (expr Q)) -> expr P -> UnderLets (expr Q)) (x1 : expr (list A)) (x2 : expr P) => Base (#(eager_list_rect_arrow)%expr @ (λ x3 : var P, to_expr (x ($x3)))%expr @ (λ (x3 : var A)(x4 : var (list A))(x5 : var (P -> Q)%ptype)(x6 : var P), to_expr (x0 ($x3) ($x4) (fun x7 : expr P => Base ($x5 @ x7)%expr_pat) ($x6)))%expr @ x1 @ x2)%expr_pat | @list_case A P => fun (x : expr unit -> UnderLets (expr P)) (x0 : expr A -> expr (list A) -> UnderLets (expr P)) (x1 : expr (list A)) => Base (#(list_case)%expr @ (λ x2 : var unit, to_expr (x ($x2)))%expr @ (λ (x2 : var A)(x3 : var (list A)), to_expr (x0 ($x2) ($x3)))%expr @ x1)%expr_pat | @List_length T => fun x : expr (list T) => Base (#(List_length)%expr @ x)%expr_pat | List_seq => fun x x0 : expr ℕ => Base (#(List_seq)%expr @ x @ x0)%expr_pat | @List_firstn A => fun (x : expr ℕ) (x0 : expr (list A)) => Base (#(List_firstn)%expr @ x @ x0)%expr_pat | @List_skipn A => fun (x : expr ℕ) (x0 : expr (list A)) => Base (#(List_skipn)%expr @ x @ x0)%expr_pat | @List_repeat A => fun (x : expr A) (x0 : expr ℕ) => Base (#(List_repeat)%expr @ x @ x0)%expr_pat | @List_combine A B => fun (x : expr (list A)) (x0 : expr (list B)) => Base (#(List_combine)%expr @ x @ x0)%expr_pat | @List_map A B => fun (x : expr A -> UnderLets (expr B)) (x0 : expr (list A)) => Base (#(List_map)%expr @ (λ x1 : var A, to_expr (x ($x1)))%expr @ x0)%expr_pat | @List_app A => fun x x0 : expr (list A) => Base (x ++ x0)%expr | @List_rev A => fun x : expr (list A) => Base (#(List_rev)%expr @ x)%expr_pat | @List_flat_map A B => fun (x : expr A -> UnderLets (expr (list B))) (x0 : expr (list A)) => Base (#(List_flat_map)%expr @ (λ x1 : var A, to_expr (x ($x1)))%expr @ x0)%expr_pat | @List_partition A => fun (x : expr A -> UnderLets (expr bool)) (x0 : expr (list A)) => Base (#(List_partition)%expr @ (λ x1 : var A, to_expr (x ($x1)))%expr @ x0)%expr_pat | @List_fold_right A B => fun (x : expr B -> expr A -> UnderLets (expr A)) (x0 : expr A) (x1 : expr (list B)) => Base (#(List_fold_right)%expr @ (λ (x2 : var B)(x3 : var A), to_expr (x ($x2) ($x3)))%expr @ x0 @ x1)%expr_pat | @List_update_nth T => fun (x : expr ℕ) (x0 : expr T -> UnderLets (expr T)) (x1 : expr (list T)) => Base (#(List_update_nth)%expr @ x @ (λ x2 : var T, to_expr (x0 ($x2)))%expr @ x1)%expr_pat | @List_nth_default T => fun (x : expr T) (x0 : expr (list T)) (x1 : expr ℕ) => Base (#(List_nth_default)%expr @ x @ x0 @ x1)%expr_pat | @eager_List_nth_default T => fun (x : expr T) (x0 : expr (list T)) (x1 : expr ℕ) => Base (#(eager_List_nth_default)%expr @ x @ x0 @ x1)%expr_pat | Z_add => fun x x0 : expr ℤ => Base (x + x0)%expr | Z_mul => fun x x0 : expr ℤ => Base (x * x0)%expr | Z_pow => fun x x0 : expr ℤ => Base (#(Z_pow)%expr @ x @ x0)%expr_pat | Z_sub => fun x x0 : expr ℤ => Base (x - x0)%expr | Z_opp => fun x : expr ℤ => Base (- x)%expr | Z_div => fun x x0 : expr ℤ => Base (x / x0)%expr | Z_modulo => fun x x0 : expr ℤ => Base (x mod x0)%expr | Z_log2 => fun x : expr ℤ => Base (#(Z_log2)%expr @ x)%expr_pat | Z_log2_up => fun x : expr ℤ => Base (#(Z_log2_up)%expr @ x)%expr_pat | Z_eqb => fun x x0 : expr ℤ => Base (#(Z_eqb)%expr @ x @ x0)%expr_pat | Z_leb => fun x x0 : expr ℤ => Base (#(Z_leb)%expr @ x @ x0)%expr_pat | Z_ltb => fun x x0 : expr ℤ => Base (#(Z_ltb)%expr @ x @ x0)%expr_pat | Z_geb => fun x x0 : expr ℤ => Base (#(Z_geb)%expr @ x @ x0)%expr_pat | Z_gtb => fun x x0 : expr ℤ => Base (#(Z_gtb)%expr @ x @ x0)%expr_pat | Z_of_nat => fun x : expr ℕ => Base (#(Z_of_nat)%expr @ x)%expr_pat | Z_to_nat => fun x : expr ℤ => Base (#(Z_to_nat)%expr @ x)%expr_pat | Z_shiftr => fun x x0 : expr ℤ => Base (x >> x0)%expr | Z_shiftl => fun x x0 : expr ℤ => Base (x << x0)%expr | Z_land => fun x x0 : expr ℤ => Base (x &' x0)%expr | Z_lor => fun x x0 : expr ℤ => Base (x || x0)%expr | Z_min => fun x x0 : expr ℤ => Base (#(Z_min)%expr @ x @ x0)%expr_pat | Z_max => fun x x0 : expr ℤ => Base (#(Z_max)%expr @ x @ x0)%expr_pat | Z_bneg => fun x : expr ℤ => Base (#(Z_bneg)%expr @ x)%expr_pat | Z_lnot_modulo => fun x x0 : expr ℤ => Base (#(Z_lnot_modulo)%expr @ x @ x0)%expr_pat | Z_mul_split => fun x x0 x1 : expr ℤ => Base (#(Z_mul_split)%expr @ x @ x0 @ x1)%expr_pat | Z_add_get_carry => fun x x0 x1 : expr ℤ => Base (#(Z_add_get_carry)%expr @ x @ x0 @ x1)%expr_pat | Z_add_with_carry => fun x x0 x1 : expr ℤ => Base (#(Z_add_with_carry)%expr @ x @ x0 @ x1)%expr_pat | Z_add_with_get_carry => fun x x0 x1 x2 : expr ℤ => Base (#(Z_add_with_get_carry)%expr @ x @ x0 @ x1 @ x2)%expr_pat | Z_sub_get_borrow => fun x x0 x1 : expr ℤ => Base (#(Z_sub_get_borrow)%expr @ x @ x0 @ x1)%expr_pat | Z_sub_with_get_borrow => fun x x0 x1 x2 : expr ℤ => Base (#(Z_sub_with_get_borrow)%expr @ x @ x0 @ x1 @ x2)%expr_pat | Z_zselect => fun x x0 x1 : expr ℤ => Base (#(Z_zselect)%expr @ x @ x0 @ x1)%expr_pat | Z_add_modulo => fun x x0 x1 : expr ℤ => (match pattern.type.unify_extracted ((ℤ -> ℤ) -> ℤ)%ptype ((ℤ -> ℤ) -> ℤ)%ptype with | Datatypes.Some (_, _, _)%zrange => if type.type_beq base.type base.type.type_beq ((ℤ -> ℤ) -> ℤ)%ptype ((ℤ -> ℤ) -> ℤ)%ptype then Datatypes.Some (fv <-- Reify.expr_value_to_rewrite_rule_replacement (@Compile.reflect_ident_iota var) false (#(fancy_addm)%expr @ (($x)%expr, ($x0)%expr, ($x1)%expr))%expr_pat; Base fv)%under_lets else Datatypes.None | Datatypes.None => Datatypes.None end;;; Base (#(Z_add_modulo)%expr @ x @ x0 @ x1)%expr_pat)%option | Z_rshi => fun x x0 x1 x2 : expr ℤ => Base (#(Z_rshi)%expr @ x @ x0 @ x1 @ x2)%expr_pat | Z_cc_m => fun x x0 : expr ℤ => Base (#(Z_cc_m)%expr @ x @ x0)%expr_pat | Z_combine_at_bitwidth => fun x x0 x1 : expr ℤ => Base (#(Z_combine_at_bitwidth)%expr @ x @ x0 @ x1)%expr_pat | Z_cast range => fun x : expr ℤ => ((match x with | @expr.App _ _ _ s _ (@expr.App _ _ _ s0 _ (@expr.Ident _ _ _ t idc) (@expr.Ident _ _ _ t0 idc0 @ @expr.Ident _ _ _ t1 idc1)%expr_pat) (@expr.Ident _ _ _ t2 idc2 @ (@expr.Ident _ _ _ t3 idc3 @ x5 @ x4))%expr_pat => match x5 with | @expr.App _ _ _ s5 _ (@expr.Ident _ _ _ t4 idc4) x6 => match x4 with | @expr.App _ _ _ s6 _ (@expr.Ident _ _ _ t5 idc5) x7 => match x7 with | @expr.Ident _ _ _ t6 idc6 => args <- invert_bind_args idc6 Raw.ident.Literal; args0 <- invert_bind_args idc5 Raw.ident.Z_cast; args1 <- invert_bind_args idc4 Raw.ident.Z_cast; _ <- invert_bind_args idc3 Raw.ident.Z_land; args3 <- invert_bind_args idc2 Raw.ident.Z_cast; args4 <- invert_bind_args idc1 Raw.ident.Literal; args5 <- invert_bind_args idc0 Raw.ident.Z_cast; _ <- invert_bind_args idc Raw.ident.Z_mul; match pattern.type.unify_extracted (ℤ -> ℤ -> ℤ)%ptype ((projT1 args4) -> s5 -> (projT1 args))%ptype with | Datatypes.Some (_, (_, _))%zrange => if type.type_beq base.type base.type.type_beq (ℤ -> ℤ -> ℤ)%ptype ((projT1 args4) -> s5 -> (projT1 args))%ptype then xv <- ident.unify pattern.ident.Literal ##(projT2 args4); v <- type.try_make_transport_cps s5 ℤ; xv0 <- ident.unify pattern.ident.Literal ##(projT2 args); fv <- (if negb (option_beq Z.eqb (invert_low (2 * Z.log2_up (let (x8, _) := xv0 in x8)) (let (x8, _) := xv in x8)) Datatypes.None) && is_bounded_by_bool (let (x8, _) := xv in x8) (ZRange.normalize args5) && is_bounded_by_bool (let (x8, _) := xv0 in x8) (ZRange.normalize args0) && ((let (x8, _) := xv0 in x8) =? 2 ^ (2 * Z.log2_up (let (x8, _) := xv0 in x8) / 2) - 1) && (ZRange.normalize args1 &' ZRange.normalize (ZRange.constant (let (x8, _) := xv0 in x8)) <=? ZRange.normalize args3)%zrange then Datatypes.Some (Reify.expr_value_to_rewrite_rule_replacement (@Compile.reflect_ident_iota var) false (#(Z_cast range)%expr @ (#(fancy_mulll (2 * Z.log2_up (let (x8, _) := xv0 in x8)))%expr @ ((##match invert_low (2 * Z.log2_up (let (x8, _) := xv0 in x8)) (let (x8, _) := xv in x8) with | Datatypes.Some x8 => x8 | Datatypes.None => 0 end)%expr, #(Z_cast args1)%expr @ ($(v (Compile.reflect x6)))%expr)))%expr_pat) else Datatypes.None); Datatypes.Some (fv0 <-- fv; Base fv0)%under_lets else Datatypes.None | Datatypes.None => Datatypes.None end | _ => Datatypes.None end;; match x6 with | @expr.Ident _ _ _ t6 idc6 => (args <- invert_bind_args idc6 Raw.ident.Literal; args0 <- invert_bind_args idc5 Raw.ident.Z_cast; args1 <- invert_bind_args idc4 Raw.ident.Z_cast; _ <- invert_bind_args idc3 Raw.ident.Z_land; args3 <- invert_bind_args idc2 Raw.ident.Z_cast; args4 <- invert_bind_args idc1 Raw.ident.Literal; args5 <- invert_bind_args idc0 Raw.ident.Z_cast; _ <- invert_bind_args idc Raw.ident.Z_mul; match pattern.type.unify_extracted (ℤ -> ℤ -> ℤ)%ptype ((projT1 args4) -> (projT1 args) -> s6)%ptype with | Datatypes.Some (_, (_, _))%zrange => if type.type_beq base.type base.type.type_beq (ℤ -> ℤ -> ℤ)%ptype ((projT1 args4) -> (projT1 args) -> s6)%ptype then xv <- ident.unify pattern.ident.Literal ##(projT2 args4); xv0 <- ident.unify pattern.ident.Literal ##(projT2 args); v <- type.try_make_transport_cps s6 ℤ; fv <- (if negb (option_beq Z.eqb (invert_low (2 * Z.log2_up (let (x8, _) := xv0 in x8)) (let (x8, _) := xv in x8)) Datatypes.None) && is_bounded_by_bool (let (x8, _) := xv in x8) (ZRange.normalize args5) && is_bounded_by_bool (let (x8, _) := xv0 in x8) (ZRange.normalize args1) && ((let (x8, _) := xv0 in x8) =? 2 ^ (2 * Z.log2_up (let (x8, _) := xv0 in x8) / 2) - 1) && (ZRange.normalize (ZRange.constant (let (x8, _) := xv0 in x8)) &' ZRange.normalize args0 <=? ZRange.normalize args3)%zrange then Datatypes.Some (Reify.expr_value_to_rewrite_rule_replacement (@Compile.reflect_ident_iota var) false (#(Z_cast range)%expr @ (#(fancy_mulll (2 * Z.log2_up (let (x8, _) := xv0 in x8)))%expr @ ((##match invert_low (2 * Z.log2_up (let (x8, _) := xv0 in x8)) (let (x8, _) := xv in x8) with | Datatypes.Some x8 => x8 | Datatypes.None => 0 end)%expr, #(Z_cast args0)%expr @ ($(v (Compile.reflect x7)))%expr)))%expr_pat) else Datatypes.None); Datatypes.Some (fv0 <-- fv; Base fv0)%under_lets else Datatypes.None | Datatypes.None => Datatypes.None end);; args <- invert_bind_args idc6 Raw.ident.Literal; args0 <- invert_bind_args idc5 Raw.ident.Z_cast; args1 <- invert_bind_args idc4 Raw.ident.Z_cast; _ <- invert_bind_args idc3 Raw.ident.Z_land; args3 <- invert_bind_args idc2 Raw.ident.Z_cast; args4 <- invert_bind_args idc1 Raw.ident.Literal; args5 <- invert_bind_args idc0 Raw.ident.Z_cast; _ <- invert_bind_args idc Raw.ident.Z_mul; match pattern.type.unify_extracted (ℤ -> ℤ -> ℤ)%ptype ((projT1 args4) -> (projT1 args) -> s6)%ptype with | Datatypes.Some (_, (_, _))%zrange => if type.type_beq base.type base.type.type_beq (ℤ -> ℤ -> ℤ)%ptype ((projT1 args4) -> (projT1 args) -> s6)%ptype then xv <- ident.unify pattern.ident.Literal ##(projT2 args4); xv0 <- ident.unify pattern.ident.Literal ##(projT2 args); v <- type.try_make_transport_cps s6 ℤ; fv <- (if negb (option_beq Z.eqb (invert_high (2 * Z.log2_up (let (x8, _) := xv0 in x8)) (let (x8, _) := xv in x8)) Datatypes.None) && is_bounded_by_bool (let (x8, _) := xv in x8) (ZRange.normalize args5) && is_bounded_by_bool (let (x8, _) := xv0 in x8) (ZRange.normalize args1) && ((let (x8, _) := xv0 in x8) =? 2 ^ (2 * Z.log2_up (let (x8, _) := xv0 in x8) / 2) - 1) && (ZRange.normalize (ZRange.constant (let (x8, _) := xv0 in x8)) &' ZRange.normalize args0 <=? ZRange.normalize args3)%zrange then Datatypes.Some (Reify.expr_value_to_rewrite_rule_replacement (@Compile.reflect_ident_iota var) false (#(Z_cast range)%expr @ (#(fancy_mulhl (2 * Z.log2_up (let (x8, _) := xv0 in x8)))%expr @ ((##match invert_high (2 * Z.log2_up (let (x8, _) := xv0 in x8)) (let (x8, _) := xv in x8) with | Datatypes.Some x8 => x8 | Datatypes.None => 0 end)%expr, #(Z_cast args0)%expr @ ($(v (Compile.reflect x7)))%expr)))%expr_pat) else Datatypes.None); Datatypes.Some (fv0 <-- fv; Base fv0)%under_lets else Datatypes.None | Datatypes.None => Datatypes.None end | _ => Datatypes.None end;; match x7 with | @expr.Ident _ _ _ t6 idc6 => args <- invert_bind_args idc6 Raw.ident.Literal; args0 <- invert_bind_args idc5 Raw.ident.Z_cast; args1 <- invert_bind_args idc4 Raw.ident.Z_cast; _ <- invert_bind_args idc3 Raw.ident.Z_land; args3 <- invert_bind_args idc2 Raw.ident.Z_cast; args4 <- invert_bind_args idc1 Raw.ident.Literal; args5 <- invert_bind_args idc0 Raw.ident.Z_cast; _ <- invert_bind_args idc Raw.ident.Z_mul; match pattern.type.unify_extracted (ℤ -> ℤ -> ℤ)%ptype ((projT1 args4) -> s5 -> (projT1 args))%ptype with | Datatypes.Some (_, (_, _))%zrange => if type.type_beq base.type base.type.type_beq (ℤ -> ℤ -> ℤ)%ptype ((projT1 args4) -> s5 -> (projT1 args))%ptype then xv <- ident.unify pattern.ident.Literal ##(projT2 args4); v <- type.try_make_transport_cps s5 ℤ; xv0 <- ident.unify pattern.ident.Literal ##(projT2 args); fv <- (if negb (option_beq Z.eqb (invert_high (2 * Z.log2_up (let (x8, _) := xv0 in x8)) (let (x8, _) := xv in x8)) Datatypes.None) && is_bounded_by_bool (let (x8, _) := xv in x8) (ZRange.normalize args5) && is_bounded_by_bool (let (x8, _) := xv0 in x8) (ZRange.normalize args0) && ((let (x8, _) := xv0 in x8) =? 2 ^ (2 * Z.log2_up (let (x8, _) := xv0 in x8) / 2) - 1) && (ZRange.normalize args1 &' ZRange.normalize (ZRange.constant (let (x8, _) := xv0 in x8)) <=? ZRange.normalize args3)%zrange then Datatypes.Some (Reify.expr_value_to_rewrite_rule_replacement (@Compile.reflect_ident_iota var) false (#(Z_cast range)%expr @ (#(fancy_mulhl (2 * Z.log2_up (let (x8, _) := xv0 in x8)))%expr @ ((##match invert_high (2 * Z.log2_up (let (x8, _) := xv0 in x8)) (let (x8, _) := xv in x8) with | Datatypes.Some x8 => x8 | Datatypes.None => 0 end)%expr, #(Z_cast args1)%expr @ ($(v (Compile.reflect x6)))%expr)))%expr_pat) else Datatypes.None); Datatypes.Some (fv0 <-- fv; Base fv0)%under_lets else Datatypes.None | Datatypes.None => Datatypes.None end | _ => Datatypes.None end | @expr.App _ _ _ s6 _ ($_)%expr _ | @expr.App _ _ _ s6 _ (@expr.Abs _ _ _ _ _ _) _ | @expr.App _ _ _ s6 _ (_ @ _)%expr_pat _ | @expr.App _ _ _ s6 _ (@expr.LetIn _ _ _ _ _ _ _) _ => Datatypes.None | _ => Datatypes.None end | @expr.App _ _ _ s5 _ ($_)%expr _ | @expr.App _ _ _ s5 _ (@expr.Abs _ _ _ _ _ _) _ | @expr.App _ _ _ s5 _ (_ @ _)%expr_pat _ | @expr.App _ _ _ s5 _ (@expr.LetIn _ _ _ _ _ _ _) _ => Datatypes.None | _ => Datatypes.None end;; match x5 with | @expr.App _ _ _ s5 _ (@expr.Ident _ _ _ t4 idc4) x6 => match x4 with | (@expr.Ident _ _ _ t5 idc5 @ @expr.Ident _ _ _ t6 idc6)%expr_pat => (args <- invert_bind_args idc6 Raw.ident.Literal; args0 <- invert_bind_args idc5 Raw.ident.Z_cast; args1 <- invert_bind_args idc4 Raw.ident.Z_cast; _ <- invert_bind_args idc3 Raw.ident.Z_shiftr; args3 <- invert_bind_args idc2 Raw.ident.Z_cast; args4 <- invert_bind_args idc1 Raw.ident.Literal; args5 <- invert_bind_args idc0 Raw.ident.Z_cast; _ <- invert_bind_args idc Raw.ident.Z_mul; match pattern.type.unify_extracted (ℤ -> ℤ -> ℤ)%ptype ((projT1 args4) -> s5 -> (projT1 args))%ptype with | Datatypes.Some (_, (_, _))%zrange => if type.type_beq base.type base.type.type_beq (ℤ -> ℤ -> ℤ)%ptype ((projT1 args4) -> s5 -> (projT1 args))%ptype then xv <- ident.unify pattern.ident.Literal ##(projT2 args4); v <- type.try_make_transport_cps s5 ℤ; xv0 <- ident.unify pattern.ident.Literal ##(projT2 args); fv <- (if negb (option_beq Z.eqb (invert_low (2 * (let (x8, _) := xv0 in x8)) (let (x8, _) := xv in x8)) Datatypes.None) && is_bounded_by_bool (let (x8, _) := xv in x8) (ZRange.normalize args5) && is_bounded_by_bool (let (x8, _) := xv0 in x8) (ZRange.normalize args0) && (ZRange.normalize args1 >> ZRange.normalize (ZRange.constant (let (x8, _) := xv0 in x8)) <=? ZRange.normalize args3)%zrange then Datatypes.Some (Reify.expr_value_to_rewrite_rule_replacement (@Compile.reflect_ident_iota var) false (#(Z_cast range)%expr @ (#(fancy_mullh (2 * (let (x8, _) := xv0 in x8)))%expr @ ((##match invert_low (2 * (let (x8, _) := xv0 in x8)) (let (x8, _) := xv in x8) with | Datatypes.Some x8 => x8 | Datatypes.None => 0 end)%expr, #(Z_cast args1)%expr @ ($(v (Compile.reflect x6)))%expr)))%expr_pat) else Datatypes.None); Datatypes.Some (fv0 <-- fv; Base fv0)%under_lets else Datatypes.None | Datatypes.None => Datatypes.None end);; args <- invert_bind_args idc6 Raw.ident.Literal; args0 <- invert_bind_args idc5 Raw.ident.Z_cast; args1 <- invert_bind_args idc4 Raw.ident.Z_cast; _ <- invert_bind_args idc3 Raw.ident.Z_shiftr; args3 <- invert_bind_args idc2 Raw.ident.Z_cast; args4 <- invert_bind_args idc1 Raw.ident.Literal; args5 <- invert_bind_args idc0 Raw.ident.Z_cast; _ <- invert_bind_args idc Raw.ident.Z_mul; match pattern.type.unify_extracted (ℤ -> ℤ -> ℤ)%ptype ((projT1 args4) -> s5 -> (projT1 args))%ptype with | Datatypes.Some (_, (_, _))%zrange => if type.type_beq base.type base.type.type_beq (ℤ -> ℤ -> ℤ)%ptype ((projT1 args4) -> s5 -> (projT1 args))%ptype then xv <- ident.unify pattern.ident.Literal ##(projT2 args4); v <- type.try_make_transport_cps s5 ℤ; xv0 <- ident.unify pattern.ident.Literal ##(projT2 args); fv <- (if negb (option_beq Z.eqb (invert_high (2 * (let (x8, _) := xv0 in x8)) (let (x8, _) := xv in x8)) Datatypes.None) && is_bounded_by_bool (let (x8, _) := xv in x8) (ZRange.normalize args5) && is_bounded_by_bool (let (x8, _) := xv0 in x8) (ZRange.normalize args0) && (ZRange.normalize args1 >> ZRange.normalize (ZRange.constant (let (x8, _) := xv0 in x8)) <=? ZRange.normalize args3)%zrange then Datatypes.Some (Reify.expr_value_to_rewrite_rule_replacement (@Compile.reflect_ident_iota var) false (#(Z_cast range)%expr @ (#(fancy_mulhh (2 * (let (x8, _) := xv0 in x8)))%expr @ ((##match invert_high (2 * (let (x8, _) := xv0 in x8)) (let (x8, _) := xv in x8) with | Datatypes.Some x8 => x8 | Datatypes.None => 0 end)%expr, #(Z_cast args1)%expr @ ($(v (Compile.reflect x6)))%expr)))%expr_pat) else Datatypes.None); Datatypes.Some (fv0 <-- fv; Base fv0)%under_lets else Datatypes.None | Datatypes.None => Datatypes.None end | (@expr.Ident _ _ _ t5 idc5 @ ($_)%expr)%expr_pat | (@expr.Ident _ _ _ t5 idc5 @ @expr.Abs _ _ _ _ _ _)%expr_pat | (@expr.Ident _ _ _ t5 idc5 @ (_ @ _))%expr_pat | (@expr.Ident _ _ _ t5 idc5 @ @expr.LetIn _ _ _ _ _ _ _)%expr_pat => Datatypes.None | _ => Datatypes.None end | @expr.App _ _ _ s5 _ ($_)%expr _ | @expr.App _ _ _ s5 _ (@expr.Abs _ _ _ _ _ _) _ | @expr.App _ _ _ s5 _ (_ @ _)%expr_pat _ | @expr.App _ _ _ s5 _ (@expr.LetIn _ _ _ _ _ _ _) _ => Datatypes.None | _ => Datatypes.None end | @expr.App _ _ _ s _ (@expr.App _ _ _ s0 _ (@expr.Ident _ _ _ t idc) (@expr.Ident _ _ _ t0 idc0 @ @expr.Ident _ _ _ t1 idc1)%expr_pat) (@expr.Ident _ _ _ t2 idc2 @ #(_))%expr_pat | @expr.App _ _ _ s _ (@expr.App _ _ _ s0 _ (@expr.Ident _ _ _ t idc) (@expr.Ident _ _ _ t0 idc0 @ @expr.Ident _ _ _ t1 idc1)%expr_pat) (@expr.Ident _ _ _ t2 idc2 @ ($_)%expr)%expr_pat | @expr.App _ _ _ s _ (@expr.App _ _ _ s0 _ (@expr.Ident _ _ _ t idc) (@expr.Ident _ _ _ t0 idc0 @ @expr.Ident _ _ _ t1 idc1)%expr_pat) (@expr.Ident _ _ _ t2 idc2 @ @expr.Abs _ _ _ _ _ _)%expr_pat | @expr.App _ _ _ s _ (@expr.App _ _ _ s0 _ (@expr.Ident _ _ _ t idc) (@expr.Ident _ _ _ t0 idc0 @ @expr.Ident _ _ _ t1 idc1)%expr_pat) (@expr.Ident _ _ _ t2 idc2 @ (#(_) @ _))%expr_pat | @expr.App _ _ _ s _ (@expr.App _ _ _ s0 _ (@expr.Ident _ _ _ t idc) (@expr.Ident _ _ _ t0 idc0 @ @expr.Ident _ _ _ t1 idc1)%expr_pat) (@expr.Ident _ _ _ t2 idc2 @ (($_)%expr @ _))%expr_pat | @expr.App _ _ _ s _ (@expr.App _ _ _ s0 _ (@expr.Ident _ _ _ t idc) (@expr.Ident _ _ _ t0 idc0 @ @expr.Ident _ _ _ t1 idc1)%expr_pat) (@expr.Ident _ _ _ t2 idc2 @ (@expr.Abs _ _ _ _ _ _ @ _))%expr_pat | @expr.App _ _ _ s _ (@expr.App _ _ _ s0 _ (@expr.Ident _ _ _ t idc) (@expr.Ident _ _ _ t0 idc0 @ @expr.Ident _ _ _ t1 idc1)%expr_pat) (@expr.Ident _ _ _ t2 idc2 @ (($_)%expr @ _ @ _))%expr_pat | @expr.App _ _ _ s _ (@expr.App _ _ _ s0 _ (@expr.Ident _ _ _ t idc) (@expr.Ident _ _ _ t0 idc0 @ @expr.Ident _ _ _ t1 idc1)%expr_pat) (@expr.Ident _ _ _ t2 idc2 @ (@expr.Abs _ _ _ _ _ _ @ _ @ _))%expr_pat | @expr.App _ _ _ s _ (@expr.App _ _ _ s0 _ (@expr.Ident _ _ _ t idc) (@expr.Ident _ _ _ t0 idc0 @ @expr.Ident _ _ _ t1 idc1)%expr_pat) (@expr.Ident _ _ _ t2 idc2 @ (_ @ _ @ _ @ _))%expr_pat | @expr.App _ _ _ s _ (@expr.App _ _ _ s0 _ (@expr.Ident _ _ _ t idc) (@expr.Ident _ _ _ t0 idc0 @ @expr.Ident _ _ _ t1 idc1)%expr_pat) (@expr.Ident _ _ _ t2 idc2 @ (@expr.LetIn _ _ _ _ _ _ _ @ _ @ _))%expr_pat | @expr.App _ _ _ s _ (@expr.App _ _ _ s0 _ (@expr.Ident _ _ _ t idc) (@expr.Ident _ _ _ t0 idc0 @ @expr.Ident _ _ _ t1 idc1)%expr_pat) (@expr.Ident _ _ _ t2 idc2 @ (@expr.LetIn _ _ _ _ _ _ _ @ _))%expr_pat | @expr.App _ _ _ s _ (@expr.App _ _ _ s0 _ (@expr.Ident _ _ _ t idc) (@expr.Ident _ _ _ t0 idc0 @ @expr.Ident _ _ _ t1 idc1)%expr_pat) (@expr.Ident _ _ _ t2 idc2 @ @expr.LetIn _ _ _ _ _ _ _)%expr_pat => Datatypes.None | @expr.App _ _ _ s _ (@expr.App _ _ _ s0 _ (@expr.Ident _ _ _ t idc) (@expr.Ident _ _ _ t0 idc0 @ @expr.Ident _ _ _ t1 idc1)%expr_pat) #(_)%expr_pat | @expr.App _ _ _ s _ (@expr.App _ _ _ s0 _ (@expr.Ident _ _ _ t idc) (@expr.Ident _ _ _ t0 idc0 @ @expr.Ident _ _ _ t1 idc1)%expr_pat) ($_)%expr | @expr.App _ _ _ s _ (@expr.App _ _ _ s0 _ (@expr.Ident _ _ _ t idc) (@expr.Ident _ _ _ t0 idc0 @ @expr.Ident _ _ _ t1 idc1)%expr_pat) (@expr.Abs _ _ _ _ _ _) | @expr.App _ _ _ s _ (@expr.App _ _ _ s0 _ (@expr.Ident _ _ _ t idc) (@expr.Ident _ _ _ t0 idc0 @ @expr.Ident _ _ _ t1 idc1)%expr_pat) (($_)%expr @ _)%expr_pat | @expr.App _ _ _ s _ (@expr.App _ _ _ s0 _ (@expr.Ident _ _ _ t idc) (@expr.Ident _ _ _ t0 idc0 @ @expr.Ident _ _ _ t1 idc1)%expr_pat) (@expr.Abs _ _ _ _ _ _ @ _)%expr_pat | @expr.App _ _ _ s _ (@expr.App _ _ _ s0 _ (@expr.Ident _ _ _ t idc) (@expr.Ident _ _ _ t0 idc0 @ @expr.Ident _ _ _ t1 idc1)%expr_pat) (_ @ _ @ _)%expr_pat | @expr.App _ _ _ s _ (@expr.App _ _ _ s0 _ (@expr.Ident _ _ _ t idc) (@expr.Ident _ _ _ t0 idc0 @ @expr.Ident _ _ _ t1 idc1)%expr_pat) (@expr.LetIn _ _ _ _ _ _ _ @ _)%expr_pat | @expr.App _ _ _ s _ (@expr.App _ _ _ s0 _ (@expr.Ident _ _ _ t idc) (@expr.Ident _ _ _ t0 idc0 @ @expr.Ident _ _ _ t1 idc1)%expr_pat) (@expr.LetIn _ _ _ _ _ _ _) => Datatypes.None | @expr.App _ _ _ s _ (@expr.App _ _ _ s0 _ (@expr.Ident _ _ _ t idc) (@expr.Ident _ _ _ t0 idc0 @ (@expr.Ident _ _ _ t1 idc1 @ x4 @ x3))%expr_pat) x0 => match x4 with | @expr.App _ _ _ s4 _ (@expr.Ident _ _ _ t2 idc2) x5 => match x5 with | @expr.Ident _ _ _ t3 idc3 => match x3 with | @expr.App _ _ _ s5 _ (@expr.Ident _ _ _ t4 idc4) x6 => match x0 with | (@expr.Ident _ _ _ t5 idc5 @ @expr.Ident _ _ _ t6 idc6)%expr_pat => args <- invert_bind_args idc6 Raw.ident.Literal; args0 <- invert_bind_args idc5 Raw.ident.Z_cast; args1 <- invert_bind_args idc4 Raw.ident.Z_cast; args2 <- invert_bind_args idc3 Raw.ident.Literal; args3 <- invert_bind_args idc2 Raw.ident.Z_cast; _ <- invert_bind_args idc1 Raw.ident.Z_land; args5 <- invert_bind_args idc0 Raw.ident.Z_cast; _ <- invert_bind_args idc Raw.ident.Z_mul; match pattern.type.unify_extracted ((ℤ -> ℤ) -> ℤ)%ptype (((projT1 args2) -> s5) -> (projT1 args))%ptype with | Datatypes.Some (_, _, _)%zrange => if type.type_beq base.type base.type.type_beq ((ℤ -> ℤ) -> ℤ)%ptype (((projT1 args2) -> s5) -> (projT1 args))%ptype then xv <- ident.unify pattern.ident.Literal ##(projT2 args2); v <- type.try_make_transport_cps s5 ℤ; xv0 <- ident.unify pattern.ident.Literal ##(projT2 args); fv <- (if negb (option_beq Z.eqb (invert_low (2 * Z.log2_up (let (x8, _) := xv in x8)) (let (x8, _) := xv0 in x8)) Datatypes.None) && is_bounded_by_bool (let (x8, _) := xv0 in x8) (ZRange.normalize args0) && is_bounded_by_bool (let (x8, _) := xv in x8) (ZRange.normalize args3) && ((let (x8, _) := xv in x8) =? 2 ^ (2 * Z.log2_up (let (x8, _) := xv in x8) / 2) - 1) && (ZRange.normalize (ZRange.constant (let (x8, _) := xv in x8)) &' ZRange.normalize args1 <=? ZRange.normalize args5)%zrange then Datatypes.Some (Reify.expr_value_to_rewrite_rule_replacement (@Compile.reflect_ident_iota var) false (#(Z_cast range)%expr @ (#(fancy_mulll (2 * Z.log2_up (let (x8, _) := xv in x8)))%expr @ (#(Z_cast args1)%expr @ ($(v (Compile.reflect x6)))%expr, (##match invert_low (2 * Z.log2_up (let (x8, _) := xv in x8)) (let (x8, _) := xv0 in x8) with | Datatypes.Some y => y | Datatypes.None => 0 end)%expr)))%expr_pat) else Datatypes.None); Datatypes.Some (fv0 <-- fv; Base fv0)%under_lets else Datatypes.None | Datatypes.None => Datatypes.None end | (@expr.Ident _ _ _ t5 idc5 @ ($_)%expr)%expr_pat | (@expr.Ident _ _ _ t5 idc5 @ @expr.Abs _ _ _ _ _ _)%expr_pat | (@expr.Ident _ _ _ t5 idc5 @ (_ @ _))%expr_pat | (@expr.Ident _ _ _ t5 idc5 @ @expr.LetIn _ _ _ _ _ _ _)%expr_pat => Datatypes.None | _ => Datatypes.None end | @expr.App _ _ _ s5 _ ($_)%expr _ | @expr.App _ _ _ s5 _ (@expr.Abs _ _ _ _ _ _) _ | @expr.App _ _ _ s5 _ (_ @ _)%expr_pat _ | @expr.App _ _ _ s5 _ (@expr.LetIn _ _ _ _ _ _ _) _ => Datatypes.None | _ => Datatypes.None end | _ => Datatypes.None end;; match x3 with | @expr.App _ _ _ s5 _ (@expr.Ident _ _ _ t3 idc3) x6 => match x6 with | @expr.Ident _ _ _ t4 idc4 => match x0 with | (@expr.Ident _ _ _ t5 idc5 @ @expr.Ident _ _ _ t6 idc6)%expr_pat => args <- invert_bind_args idc6 Raw.ident.Literal; args0 <- invert_bind_args idc5 Raw.ident.Z_cast; args1 <- invert_bind_args idc4 Raw.ident.Literal; args2 <- invert_bind_args idc3 Raw.ident.Z_cast; args3 <- invert_bind_args idc2 Raw.ident.Z_cast; _ <- invert_bind_args idc1 Raw.ident.Z_land; args5 <- invert_bind_args idc0 Raw.ident.Z_cast; _ <- invert_bind_args idc Raw.ident.Z_mul; match pattern.type.unify_extracted ((ℤ -> ℤ) -> ℤ)%ptype ((s4 -> (projT1 args1)) -> (projT1 args))%ptype with | Datatypes.Some (_, _, _)%zrange => if type.type_beq base.type base.type.type_beq ((ℤ -> ℤ) -> ℤ)%ptype ((s4 -> (projT1 args1)) -> (projT1 args))%ptype then v <- type.try_make_transport_cps s4 ℤ; xv <- ident.unify pattern.ident.Literal ##(projT2 args1); xv0 <- ident.unify pattern.ident.Literal ##(projT2 args); fv <- (if negb (option_beq Z.eqb (invert_low (2 * Z.log2_up (let (x8, _) := xv in x8)) (let (x8, _) := xv0 in x8)) Datatypes.None) && is_bounded_by_bool (let (x8, _) := xv0 in x8) (ZRange.normalize args0) && is_bounded_by_bool (let (x8, _) := xv in x8) (ZRange.normalize args2) && ((let (x8, _) := xv in x8) =? 2 ^ (2 * Z.log2_up (let (x8, _) := xv in x8) / 2) - 1) && (ZRange.normalize args3 &' ZRange.normalize (ZRange.constant (let (x8, _) := xv in x8)) <=? ZRange.normalize args5)%zrange then Datatypes.Some (Reify.expr_value_to_rewrite_rule_replacement (@Compile.reflect_ident_iota var) false (#(Z_cast range)%expr @ (#(fancy_mulll (2 * Z.log2_up (let (x8, _) := xv in x8)))%expr @ (#(Z_cast args3)%expr @ ($(v (Compile.reflect x5)))%expr, (##match invert_low (2 * Z.log2_up (let (x8, _) := xv in x8)) (let (x8, _) := xv0 in x8) with | Datatypes.Some y => y | Datatypes.None => 0 end)%expr)))%expr_pat) else Datatypes.None); Datatypes.Some (fv0 <-- fv; Base fv0)%under_lets else Datatypes.None | Datatypes.None => Datatypes.None end | (@expr.Ident _ _ _ t5 idc5 @ ($_)%expr)%expr_pat | (@expr.Ident _ _ _ t5 idc5 @ @expr.Abs _ _ _ _ _ _)%expr_pat | (@expr.Ident _ _ _ t5 idc5 @ (_ @ _))%expr_pat | (@expr.Ident _ _ _ t5 idc5 @ @expr.LetIn _ _ _ _ _ _ _)%expr_pat => Datatypes.None | _ => Datatypes.None end | _ => Datatypes.None end;; match x5 with | @expr.Ident _ _ _ t4 idc4 => match x0 with | (@expr.Ident _ _ _ t5 idc5 @ @expr.Ident _ _ _ t6 idc6)%expr_pat => args <- invert_bind_args idc6 Raw.ident.Literal; args0 <- invert_bind_args idc5 Raw.ident.Z_cast; args1 <- invert_bind_args idc4 Raw.ident.Literal; args2 <- invert_bind_args idc3 Raw.ident.Z_cast; args3 <- invert_bind_args idc2 Raw.ident.Z_cast; _ <- invert_bind_args idc1 Raw.ident.Z_land; args5 <- invert_bind_args idc0 Raw.ident.Z_cast; _ <- invert_bind_args idc Raw.ident.Z_mul; match pattern.type.unify_extracted ((ℤ -> ℤ) -> ℤ)%ptype (((projT1 args1) -> s5) -> (projT1 args))%ptype with | Datatypes.Some (_, _, _)%zrange => if type.type_beq base.type base.type.type_beq ((ℤ -> ℤ) -> ℤ)%ptype (((projT1 args1) -> s5) -> (projT1 args))%ptype then xv <- ident.unify pattern.ident.Literal ##(projT2 args1); v <- type.try_make_transport_cps s5 ℤ; xv0 <- ident.unify pattern.ident.Literal ##(projT2 args); fv <- (if negb (option_beq Z.eqb (invert_high (2 * Z.log2_up (let (x8, _) := xv in x8)) (let (x8, _) := xv0 in x8)) Datatypes.None) && is_bounded_by_bool (let (x8, _) := xv0 in x8) (ZRange.normalize args0) && is_bounded_by_bool (let (x8, _) := xv in x8) (ZRange.normalize args3) && ((let (x8, _) := xv in x8) =? 2 ^ (2 * Z.log2_up (let (x8, _) := xv in x8) / 2) - 1) && (ZRange.normalize (ZRange.constant (let (x8, _) := xv in x8)) &' ZRange.normalize args2 <=? ZRange.normalize args5)%zrange then Datatypes.Some (Reify.expr_value_to_rewrite_rule_replacement (@Compile.reflect_ident_iota var) false (#(Z_cast range)%expr @ (#(fancy_mullh (2 * Z.log2_up (let (x8, _) := xv in x8)))%expr @ (#(Z_cast args2)%expr @ ($(v (Compile.reflect x6)))%expr, (##match invert_high (2 * Z.log2_up (let (x8, _) := xv in x8)) (let (x8, _) := xv0 in x8) with | Datatypes.Some y => y | Datatypes.None => 0 end)%expr)))%expr_pat) else Datatypes.None); Datatypes.Some (fv0 <-- fv; Base fv0)%under_lets else Datatypes.None | Datatypes.None => Datatypes.None end | (@expr.Ident _ _ _ t5 idc5 @ ($_)%expr)%expr_pat | (@expr.Ident _ _ _ t5 idc5 @ @expr.Abs _ _ _ _ _ _)%expr_pat | (@expr.Ident _ _ _ t5 idc5 @ (_ @ _))%expr_pat | (@expr.Ident _ _ _ t5 idc5 @ @expr.LetIn _ _ _ _ _ _ _)%expr_pat => Datatypes.None | _ => Datatypes.None end | _ => Datatypes.None end;; match x6 with | @expr.Ident _ _ _ t4 idc4 => match x0 with | (@expr.Ident _ _ _ t5 idc5 @ @expr.Ident _ _ _ t6 idc6)%expr_pat => args <- invert_bind_args idc6 Raw.ident.Literal; args0 <- invert_bind_args idc5 Raw.ident.Z_cast; args1 <- invert_bind_args idc4 Raw.ident.Literal; args2 <- invert_bind_args idc3 Raw.ident.Z_cast; args3 <- invert_bind_args idc2 Raw.ident.Z_cast; _ <- invert_bind_args idc1 Raw.ident.Z_land; args5 <- invert_bind_args idc0 Raw.ident.Z_cast; _ <- invert_bind_args idc Raw.ident.Z_mul; match pattern.type.unify_extracted ((ℤ -> ℤ) -> ℤ)%ptype ((s4 -> (projT1 args1)) -> (projT1 args))%ptype with | Datatypes.Some (_, _, _)%zrange => if type.type_beq base.type base.type.type_beq ((ℤ -> ℤ) -> ℤ)%ptype ((s4 -> (projT1 args1)) -> (projT1 args))%ptype then v <- type.try_make_transport_cps s4 ℤ; xv <- ident.unify pattern.ident.Literal ##(projT2 args1); xv0 <- ident.unify pattern.ident.Literal ##(projT2 args); fv <- (if negb (option_beq Z.eqb (invert_high (2 * Z.log2_up (let (x8, _) := xv in x8)) (let (x8, _) := xv0 in x8)) Datatypes.None) && is_bounded_by_bool (let (x8, _) := xv0 in x8) (ZRange.normalize args0) && is_bounded_by_bool (let (x8, _) := xv in x8) (ZRange.normalize args2) && ((let (x8, _) := xv in x8) =? 2 ^ (2 * Z.log2_up (let (x8, _) := xv in x8) / 2) - 1) && (ZRange.normalize args3 &' ZRange.normalize (ZRange.constant (let (x8, _) := xv in x8)) <=? ZRange.normalize args5)%zrange then Datatypes.Some (Reify.expr_value_to_rewrite_rule_replacement (@Compile.reflect_ident_iota var) false (#(Z_cast range)%expr @ (#(fancy_mullh (2 * Z.log2_up (let (x8, _) := xv in x8)))%expr @ (#(Z_cast args3)%expr @ ($(v (Compile.reflect x5)))%expr, (##match invert_high (2 * Z.log2_up (let (x8, _) := xv in x8)) (let (x8, _) := xv0 in x8) with | Datatypes.Some y => y | Datatypes.None => 0 end)%expr)))%expr_pat) else Datatypes.None); Datatypes.Some (fv0 <-- fv; Base fv0)%under_lets else Datatypes.None | Datatypes.None => Datatypes.None end | (@expr.Ident _ _ _ t5 idc5 @ ($_)%expr)%expr_pat | (@expr.Ident _ _ _ t5 idc5 @ @expr.Abs _ _ _ _ _ _)%expr_pat | (@expr.Ident _ _ _ t5 idc5 @ (_ @ _))%expr_pat | (@expr.Ident _ _ _ t5 idc5 @ @expr.LetIn _ _ _ _ _ _ _)%expr_pat => Datatypes.None | _ => Datatypes.None end | _ => Datatypes.None end;; match x5 with | @expr.Ident _ _ _ t4 idc4 => match x0 with | (@expr.Ident _ _ _ t5 idc5 @ (@expr.Ident _ _ _ t6 idc6 @ (@expr.Ident _ _ _ t7 idc7 @ @expr.Ident _ _ _ t8 idc8) @ @expr.App _ _ _ s10 _ (@expr.Ident _ _ _ t9 idc9) x11))%expr_pat => args <- invert_bind_args idc9 Raw.ident.Z_cast; args0 <- invert_bind_args idc8 Raw.ident.Literal; args1 <- invert_bind_args idc7 Raw.ident.Z_cast; _ <- invert_bind_args idc6 Raw.ident.Z_land; args3 <- invert_bind_args idc5 Raw.ident.Z_cast; args4 <- invert_bind_args idc4 Raw.ident.Literal; args5 <- invert_bind_args idc3 Raw.ident.Z_cast; args6 <- invert_bind_args idc2 Raw.ident.Z_cast; _ <- invert_bind_args idc1 Raw.ident.Z_land; args8 <- invert_bind_args idc0 Raw.ident.Z_cast; _ <- invert_bind_args idc Raw.ident.Z_mul; match pattern.type.unify_extracted ((ℤ -> ℤ) -> ℤ -> ℤ)%ptype (((projT1 args4) -> s5) -> (projT1 args0) -> s10)%ptype with | Datatypes.Some (_, _, (_, _))%zrange => if type.type_beq base.type base.type.type_beq ((ℤ -> ℤ) -> ℤ -> ℤ)%ptype (((projT1 args4) -> s5) -> (projT1 args0) -> s10)%ptype then xv <- ident.unify pattern.ident.Literal ##(projT2 args4); v <- type.try_make_transport_cps s5 ℤ; xv0 <- ident.unify pattern.ident.Literal ##(projT2 args0); v0 <- type.try_make_transport_cps s10 ℤ; fv <- (if is_bounded_by_bool (let (x12, _) := xv in x12) (ZRange.normalize args6) && is_bounded_by_bool (let (x12, _) := xv0 in x12) (ZRange.normalize args1) && ((let (x12, _) := xv in x12) =? 2 ^ (2 * Z.log2_up (let (x12, _) := xv in x12) / 2) - 1) && ((let (x12, _) := xv0 in x12) =? 2 ^ (2 * Z.log2_up (let (x12, _) := xv in x12) / 2) - 1) && (ZRange.normalize (ZRange.constant (let (x12, _) := xv in x12)) &' ZRange.normalize args5 <=? ZRange.normalize args8)%zrange && (ZRange.normalize (ZRange.constant (let (x12, _) := xv0 in x12)) &' ZRange.normalize args <=? ZRange.normalize args3)%zrange then Datatypes.Some (Reify.expr_value_to_rewrite_rule_replacement (@Compile.reflect_ident_iota var) false (#(Z_cast range)%expr @ (#(fancy_mulll (2 * Z.log2_up (let (x12, _) := xv in x12)))%expr @ (#(Z_cast args5)%expr @ ($(v (Compile.reflect x6)))%expr, #(Z_cast args)%expr @ ($(v0 (Compile.reflect x11)))%expr)))%expr_pat) else Datatypes.None); Datatypes.Some (fv0 <-- fv; Base fv0)%under_lets else Datatypes.None | Datatypes.None => Datatypes.None end | (@expr.Ident _ _ _ t5 idc5 @ (@expr.Ident _ _ _ t6 idc6 @ (@expr.Ident _ _ _ t7 idc7 @ @expr.Ident _ _ _ t8 idc8) @ @expr.App _ _ _ s10 _ ($_)%expr _))%expr_pat | (@expr.Ident _ _ _ t5 idc5 @ (@expr.Ident _ _ _ t6 idc6 @ (@expr.Ident _ _ _ t7 idc7 @ @expr.Ident _ _ _ t8 idc8) @ @expr.App _ _ _ s10 _ (@expr.Abs _ _ _ _ _ _) _))%expr_pat | (@expr.Ident _ _ _ t5 idc5 @ (@expr.Ident _ _ _ t6 idc6 @ (@expr.Ident _ _ _ t7 idc7 @ @expr.Ident _ _ _ t8 idc8) @ @expr.App _ _ _ s10 _ (_ @ _) _))%expr_pat | (@expr.Ident _ _ _ t5 idc5 @ (@expr.Ident _ _ _ t6 idc6 @ (@expr.Ident _ _ _ t7 idc7 @ @expr.Ident _ _ _ t8 idc8) @ @expr.App _ _ _ s10 _ (@expr.LetIn _ _ _ _ _ _ _) _))%expr_pat => Datatypes.None | (@expr.Ident _ _ _ t5 idc5 @ (@expr.Ident _ _ _ t6 idc6 @ (@expr.Ident _ _ _ t7 idc7 @ @expr.Ident _ _ _ t8 idc8) @ #(_)))%expr_pat | (@expr.Ident _ _ _ t5 idc5 @ (@expr.Ident _ _ _ t6 idc6 @ (@expr.Ident _ _ _ t7 idc7 @ @expr.Ident _ _ _ t8 idc8) @ ($_)%expr))%expr_pat | (@expr.Ident _ _ _ t5 idc5 @ (@expr.Ident _ _ _ t6 idc6 @ (@expr.Ident _ _ _ t7 idc7 @ @expr.Ident _ _ _ t8 idc8) @ @expr.Abs _ _ _ _ _ _))%expr_pat | (@expr.Ident _ _ _ t5 idc5 @ (@expr.Ident _ _ _ t6 idc6 @ (@expr.Ident _ _ _ t7 idc7 @ @expr.Ident _ _ _ t8 idc8) @ @expr.LetIn _ _ _ _ _ _ _))%expr_pat => Datatypes.None | (@expr.Ident _ _ _ t5 idc5 @ (@expr.Ident _ _ _ t6 idc6 @ (@expr.Ident _ _ _ t7 idc7 @ ($_)%expr) @ _))%expr_pat | (@expr.Ident _ _ _ t5 idc5 @ (@expr.Ident _ _ _ t6 idc6 @ (@expr.Ident _ _ _ t7 idc7 @ @expr.Abs _ _ _ _ _ _) @ _))%expr_pat | (@expr.Ident _ _ _ t5 idc5 @ (@expr.Ident _ _ _ t6 idc6 @ (@expr.Ident _ _ _ t7 idc7 @ (_ @ _)) @ _))%expr_pat | (@expr.Ident _ _ _ t5 idc5 @ (@expr.Ident _ _ _ t6 idc6 @ (@expr.Ident _ _ _ t7 idc7 @ @expr.LetIn _ _ _ _ _ _ _) @ _))%expr_pat => Datatypes.None | (@expr.Ident _ _ _ t5 idc5 @ (@expr.Ident _ _ _ t6 idc6 @ #(_) @ _))%expr_pat | (@expr.Ident _ _ _ t5 idc5 @ (@expr.Ident _ _ _ t6 idc6 @ ($_)%expr @ _))%expr_pat | (@expr.Ident _ _ _ t5 idc5 @ (@expr.Ident _ _ _ t6 idc6 @ @expr.Abs _ _ _ _ _ _ @ _))%expr_pat | (@expr.Ident _ _ _ t5 idc5 @ (@expr.Ident _ _ _ t6 idc6 @ (($_)%expr @ _) @ _))%expr_pat | (@expr.Ident _ _ _ t5 idc5 @ (@expr.Ident _ _ _ t6 idc6 @ (@expr.Abs _ _ _ _ _ _ @ _) @ _))%expr_pat | (@expr.Ident _ _ _ t5 idc5 @ (@expr.Ident _ _ _ t6 idc6 @ (_ @ _ @ _) @ _))%expr_pat | (@expr.Ident _ _ _ t5 idc5 @ (@expr.Ident _ _ _ t6 idc6 @ (@expr.LetIn _ _ _ _ _ _ _ @ _) @ _))%expr_pat | (@expr.Ident _ _ _ t5 idc5 @ (@expr.Ident _ _ _ t6 idc6 @ @expr.LetIn _ _ _ _ _ _ _ @ _))%expr_pat => Datatypes.None | (@expr.Ident _ _ _ t5 idc5 @ #(_))%expr_pat | (@expr.Ident _ _ _ t5 idc5 @ ($_)%expr)%expr_pat | (@expr.Ident _ _ _ t5 idc5 @ @expr.Abs _ _ _ _ _ _)%expr_pat | (@expr.Ident _ _ _ t5 idc5 @ (#(_) @ _))%expr_pat | (@expr.Ident _ _ _ t5 idc5 @ (($_)%expr @ _))%expr_pat | (@expr.Ident _ _ _ t5 idc5 @ (@expr.Abs _ _ _ _ _ _ @ _))%expr_pat | (@expr.Ident _ _ _ t5 idc5 @ (($_)%expr @ _ @ _))%expr_pat | (@expr.Ident _ _ _ t5 idc5 @ (@expr.Abs _ _ _ _ _ _ @ _ @ _))%expr_pat | (@expr.Ident _ _ _ t5 idc5 @ (_ @ _ @ _ @ _))%expr_pat | (@expr.Ident _ _ _ t5 idc5 @ (@expr.LetIn _ _ _ _ _ _ _ @ _ @ _))%expr_pat | (@expr.Ident _ _ _ t5 idc5 @ (@expr.LetIn _ _ _ _ _ _ _ @ _))%expr_pat | (@expr.Ident _ _ _ t5 idc5 @ @expr.LetIn _ _ _ _ _ _ _)%expr_pat => Datatypes.None | _ => Datatypes.None end | _ => Datatypes.None end;; match x6 with | @expr.Ident _ _ _ t4 idc4 => match x0 with | (@expr.Ident _ _ _ t5 idc5 @ (@expr.Ident _ _ _ t6 idc6 @ (@expr.Ident _ _ _ t7 idc7 @ @expr.Ident _ _ _ t8 idc8) @ @expr.App _ _ _ s10 _ (@expr.Ident _ _ _ t9 idc9) x11))%expr_pat => args <- invert_bind_args idc9 Raw.ident.Z_cast; args0 <- invert_bind_args idc8 Raw.ident.Literal; args1 <- invert_bind_args idc7 Raw.ident.Z_cast; _ <- invert_bind_args idc6 Raw.ident.Z_land; args3 <- invert_bind_args idc5 Raw.ident.Z_cast; args4 <- invert_bind_args idc4 Raw.ident.Literal; args5 <- invert_bind_args idc3 Raw.ident.Z_cast; args6 <- invert_bind_args idc2 Raw.ident.Z_cast; _ <- invert_bind_args idc1 Raw.ident.Z_land; args8 <- invert_bind_args idc0 Raw.ident.Z_cast; _ <- invert_bind_args idc Raw.ident.Z_mul; match pattern.type.unify_extracted ((ℤ -> ℤ) -> ℤ -> ℤ)%ptype ((s4 -> (projT1 args4)) -> (projT1 args0) -> s10)%ptype with | Datatypes.Some (_, _, (_, _))%zrange => if type.type_beq base.type base.type.type_beq ((ℤ -> ℤ) -> ℤ -> ℤ)%ptype ((s4 -> (projT1 args4)) -> (projT1 args0) -> s10)%ptype then v <- type.try_make_transport_cps s4 ℤ; xv <- ident.unify pattern.ident.Literal ##(projT2 args4); xv0 <- ident.unify pattern.ident.Literal ##(projT2 args0); v0 <- type.try_make_transport_cps s10 ℤ; fv <- (if is_bounded_by_bool (let (x12, _) := xv in x12) (ZRange.normalize args5) && is_bounded_by_bool (let (x12, _) := xv0 in x12) (ZRange.normalize args1) && ((let (x12, _) := xv in x12) =? 2 ^ (2 * Z.log2_up (let (x12, _) := xv in x12) / 2) - 1) && ((let (x12, _) := xv0 in x12) =? 2 ^ (2 * Z.log2_up (let (x12, _) := xv in x12) / 2) - 1) && (ZRange.normalize args6 &' ZRange.normalize (ZRange.constant (let (x12, _) := xv in x12)) <=? ZRange.normalize args8)%zrange && (ZRange.normalize (ZRange.constant (let (x12, _) := xv0 in x12)) &' ZRange.normalize args <=? ZRange.normalize args3)%zrange then Datatypes.Some (Reify.expr_value_to_rewrite_rule_replacement (@Compile.reflect_ident_iota var) false (#(Z_cast range)%expr @ (#(fancy_mulll (2 * Z.log2_up (let (x12, _) := xv in x12)))%expr @ (#(Z_cast args6)%expr @ ($(v (Compile.reflect x5)))%expr, #(Z_cast args)%expr @ ($(v0 (Compile.reflect x11)))%expr)))%expr_pat) else Datatypes.None); Datatypes.Some (fv0 <-- fv; Base fv0)%under_lets else Datatypes.None | Datatypes.None => Datatypes.None end | (@expr.Ident _ _ _ t5 idc5 @ (@expr.Ident _ _ _ t6 idc6 @ (@expr.Ident _ _ _ t7 idc7 @ @expr.Ident _ _ _ t8 idc8) @ @expr.App _ _ _ s10 _ ($_)%expr _))%expr_pat | (@expr.Ident _ _ _ t5 idc5 @ (@expr.Ident _ _ _ t6 idc6 @ (@expr.Ident _ _ _ t7 idc7 @ @expr.Ident _ _ _ t8 idc8) @ @expr.App _ _ _ s10 _ (@expr.Abs _ _ _ _ _ _) _))%expr_pat | (@expr.Ident _ _ _ t5 idc5 @ (@expr.Ident _ _ _ t6 idc6 @ (@expr.Ident _ _ _ t7 idc7 @ @expr.Ident _ _ _ t8 idc8) @ @expr.App _ _ _ s10 _ (_ @ _) _))%expr_pat | (@expr.Ident _ _ _ t5 idc5 @ (@expr.Ident _ _ _ t6 idc6 @ (@expr.Ident _ _ _ t7 idc7 @ @expr.Ident _ _ _ t8 idc8) @ @expr.App _ _ _ s10 _ (@expr.LetIn _ _ _ _ _ _ _) _))%expr_pat => Datatypes.None | (@expr.Ident _ _ _ t5 idc5 @ (@expr.Ident _ _ _ t6 idc6 @ (@expr.Ident _ _ _ t7 idc7 @ @expr.Ident _ _ _ t8 idc8) @ #(_)))%expr_pat | (@expr.Ident _ _ _ t5 idc5 @ (@expr.Ident _ _ _ t6 idc6 @ (@expr.Ident _ _ _ t7 idc7 @ @expr.Ident _ _ _ t8 idc8) @ ($_)%expr))%expr_pat | (@expr.Ident _ _ _ t5 idc5 @ (@expr.Ident _ _ _ t6 idc6 @ (@expr.Ident _ _ _ t7 idc7 @ @expr.Ident _ _ _ t8 idc8) @ @expr.Abs _ _ _ _ _ _))%expr_pat | (@expr.Ident _ _ _ t5 idc5 @ (@expr.Ident _ _ _ t6 idc6 @ (@expr.Ident _ _ _ t7 idc7 @ @expr.Ident _ _ _ t8 idc8) @ @expr.LetIn _ _ _ _ _ _ _))%expr_pat => Datatypes.None | (@expr.Ident _ _ _ t5 idc5 @ (@expr.Ident _ _ _ t6 idc6 @ (@expr.Ident _ _ _ t7 idc7 @ ($_)%expr) @ _))%expr_pat | (@expr.Ident _ _ _ t5 idc5 @ (@expr.Ident _ _ _ t6 idc6 @ (@expr.Ident _ _ _ t7 idc7 @ @expr.Abs _ _ _ _ _ _) @ _))%expr_pat | (@expr.Ident _ _ _ t5 idc5 @ (@expr.Ident _ _ _ t6 idc6 @ (@expr.Ident _ _ _ t7 idc7 @ (_ @ _)) @ _))%expr_pat | (@expr.Ident _ _ _ t5 idc5 @ (@expr.Ident _ _ _ t6 idc6 @ (@expr.Ident _ _ _ t7 idc7 @ @expr.LetIn _ _ _ _ _ _ _) @ _))%expr_pat => Datatypes.None | (@expr.Ident _ _ _ t5 idc5 @ (@expr.Ident _ _ _ t6 idc6 @ #(_) @ _))%expr_pat | (@expr.Ident _ _ _ t5 idc5 @ (@expr.Ident _ _ _ t6 idc6 @ ($_)%expr @ _))%expr_pat | (@expr.Ident _ _ _ t5 idc5 @ (@expr.Ident _ _ _ t6 idc6 @ @expr.Abs _ _ _ _ _ _ @ _))%expr_pat | (@expr.Ident _ _ _ t5 idc5 @ (@expr.Ident _ _ _ t6 idc6 @ (($_)%expr @ _) @ _))%expr_pat | (@expr.Ident _ _ _ t5 idc5 @ (@expr.Ident _ _ _ t6 idc6 @ (@expr.Abs _ _ _ _ _ _ @ _) @ _))%expr_pat | (@expr.Ident _ _ _ t5 idc5 @ (@expr.Ident _ _ _ t6 idc6 @ (_ @ _ @ _) @ _))%expr_pat | (@expr.Ident _ _ _ t5 idc5 @ (@expr.Ident _ _ _ t6 idc6 @ (@expr.LetIn _ _ _ _ _ _ _ @ _) @ _))%expr_pat | (@expr.Ident _ _ _ t5 idc5 @ (@expr.Ident _ _ _ t6 idc6 @ @expr.LetIn _ _ _ _ _ _ _ @ _))%expr_pat => Datatypes.None | (@expr.Ident _ _ _ t5 idc5 @ #(_))%expr_pat | (@expr.Ident _ _ _ t5 idc5 @ ($_)%expr)%expr_pat | (@expr.Ident _ _ _ t5 idc5 @ @expr.Abs _ _ _ _ _ _)%expr_pat | (@expr.Ident _ _ _ t5 idc5 @ (#(_) @ _))%expr_pat | (@expr.Ident _ _ _ t5 idc5 @ (($_)%expr @ _))%expr_pat | (@expr.Ident _ _ _ t5 idc5 @ (@expr.Abs _ _ _ _ _ _ @ _))%expr_pat | (@expr.Ident _ _ _ t5 idc5 @ (($_)%expr @ _ @ _))%expr_pat | (@expr.Ident _ _ _ t5 idc5 @ (@expr.Abs _ _ _ _ _ _ @ _ @ _))%expr_pat | (@expr.Ident _ _ _ t5 idc5 @ (_ @ _ @ _ @ _))%expr_pat | (@expr.Ident _ _ _ t5 idc5 @ (@expr.LetIn _ _ _ _ _ _ _ @ _ @ _))%expr_pat | (@expr.Ident _ _ _ t5 idc5 @ (@expr.LetIn _ _ _ _ _ _ _ @ _))%expr_pat | (@expr.Ident _ _ _ t5 idc5 @ @expr.LetIn _ _ _ _ _ _ _)%expr_pat => Datatypes.None | _ => Datatypes.None end | _ => Datatypes.None end;; match x5 with | @expr.Ident _ _ _ t4 idc4 => match x0 with | (@expr.Ident _ _ _ t5 idc5 @ (@expr.Ident _ _ _ t6 idc6 @ @expr.App _ _ _ s9 _ (@expr.Ident _ _ _ t7 idc7) x10 @ (@expr.Ident _ _ _ t8 idc8 @ @expr.Ident _ _ _ t9 idc9)))%expr_pat => args <- invert_bind_args idc9 Raw.ident.Literal; args0 <- invert_bind_args idc8 Raw.ident.Z_cast; args1 <- invert_bind_args idc7 Raw.ident.Z_cast; _ <- invert_bind_args idc6 Raw.ident.Z_land; args3 <- invert_bind_args idc5 Raw.ident.Z_cast; args4 <- invert_bind_args idc4 Raw.ident.Literal; args5 <- invert_bind_args idc3 Raw.ident.Z_cast; args6 <- invert_bind_args idc2 Raw.ident.Z_cast; _ <- invert_bind_args idc1 Raw.ident.Z_land; args8 <- invert_bind_args idc0 Raw.ident.Z_cast; _ <- invert_bind_args idc Raw.ident.Z_mul; match pattern.type.unify_extracted ((ℤ -> ℤ) -> ℤ -> ℤ)%ptype (((projT1 args4) -> s5) -> s9 -> (projT1 args))%ptype with | Datatypes.Some (_, _, (_, _))%zrange => if type.type_beq base.type base.type.type_beq ((ℤ -> ℤ) -> ℤ -> ℤ)%ptype (((projT1 args4) -> s5) -> s9 -> (projT1 args))%ptype then xv <- ident.unify pattern.ident.Literal ##(projT2 args4); v <- type.try_make_transport_cps s5 ℤ; v0 <- type.try_make_transport_cps s9 ℤ; xv0 <- ident.unify pattern.ident.Literal ##(projT2 args); fv <- (if is_bounded_by_bool (let (x12, _) := xv in x12) (ZRange.normalize args6) && is_bounded_by_bool (let (x12, _) := xv0 in x12) (ZRange.normalize args0) && ((let (x12, _) := xv in x12) =? 2 ^ (2 * Z.log2_up (let (x12, _) := xv in x12) / 2) - 1) && ((let (x12, _) := xv0 in x12) =? 2 ^ (2 * Z.log2_up (let (x12, _) := xv in x12) / 2) - 1) && (ZRange.normalize (ZRange.constant (let (x12, _) := xv in x12)) &' ZRange.normalize args5 <=? ZRange.normalize args8)%zrange && (ZRange.normalize args1 &' ZRange.normalize (ZRange.constant (let (x12, _) := xv0 in x12)) <=? ZRange.normalize args3)%zrange then Datatypes.Some (Reify.expr_value_to_rewrite_rule_replacement (@Compile.reflect_ident_iota var) false (#(Z_cast range)%expr @ (#(fancy_mulll (2 * Z.log2_up (let (x12, _) := xv in x12)))%expr @ (#(Z_cast args5)%expr @ ($(v (Compile.reflect x6)))%expr, #(Z_cast args1)%expr @ ($(v0 (Compile.reflect x10)))%expr)))%expr_pat) else Datatypes.None); Datatypes.Some (fv0 <-- fv; Base fv0)%under_lets else Datatypes.None | Datatypes.None => Datatypes.None end | (@expr.Ident _ _ _ t5 idc5 @ (@expr.Ident _ _ _ t6 idc6 @ @expr.App _ _ _ s9 _ (@expr.Ident _ _ _ t7 idc7) x10 @ (@expr.Ident _ _ _ t8 idc8 @ ($_)%expr)))%expr_pat | (@expr.Ident _ _ _ t5 idc5 @ (@expr.Ident _ _ _ t6 idc6 @ @expr.App _ _ _ s9 _ (@expr.Ident _ _ _ t7 idc7) x10 @ (@expr.Ident _ _ _ t8 idc8 @ @expr.Abs _ _ _ _ _ _)))%expr_pat | (@expr.Ident _ _ _ t5 idc5 @ (@expr.Ident _ _ _ t6 idc6 @ @expr.App _ _ _ s9 _ (@expr.Ident _ _ _ t7 idc7) x10 @ (@expr.Ident _ _ _ t8 idc8 @ (_ @ _))))%expr_pat | (@expr.Ident _ _ _ t5 idc5 @ (@expr.Ident _ _ _ t6 idc6 @ @expr.App _ _ _ s9 _ (@expr.Ident _ _ _ t7 idc7) x10 @ (@expr.Ident _ _ _ t8 idc8 @ @expr.LetIn _ _ _ _ _ _ _)))%expr_pat => Datatypes.None | (@expr.Ident _ _ _ t5 idc5 @ (@expr.Ident _ _ _ t6 idc6 @ @expr.App _ _ _ s9 _ (@expr.Ident _ _ _ t7 idc7) x10 @ #(_)))%expr_pat | (@expr.Ident _ _ _ t5 idc5 @ (@expr.Ident _ _ _ t6 idc6 @ @expr.App _ _ _ s9 _ (@expr.Ident _ _ _ t7 idc7) x10 @ ($_)%expr))%expr_pat | (@expr.Ident _ _ _ t5 idc5 @ (@expr.Ident _ _ _ t6 idc6 @ @expr.App _ _ _ s9 _ (@expr.Ident _ _ _ t7 idc7) x10 @ @expr.Abs _ _ _ _ _ _))%expr_pat | (@expr.Ident _ _ _ t5 idc5 @ (@expr.Ident _ _ _ t6 idc6 @ @expr.App _ _ _ s9 _ (@expr.Ident _ _ _ t7 idc7) x10 @ (($_)%expr @ _)))%expr_pat | (@expr.Ident _ _ _ t5 idc5 @ (@expr.Ident _ _ _ t6 idc6 @ @expr.App _ _ _ s9 _ (@expr.Ident _ _ _ t7 idc7) x10 @ (@expr.Abs _ _ _ _ _ _ @ _)))%expr_pat | (@expr.Ident _ _ _ t5 idc5 @ (@expr.Ident _ _ _ t6 idc6 @ @expr.App _ _ _ s9 _ (@expr.Ident _ _ _ t7 idc7) x10 @ (_ @ _ @ _)))%expr_pat | (@expr.Ident _ _ _ t5 idc5 @ (@expr.Ident _ _ _ t6 idc6 @ @expr.App _ _ _ s9 _ (@expr.Ident _ _ _ t7 idc7) x10 @ (@expr.LetIn _ _ _ _ _ _ _ @ _)))%expr_pat | (@expr.Ident _ _ _ t5 idc5 @ (@expr.Ident _ _ _ t6 idc6 @ @expr.App _ _ _ s9 _ (@expr.Ident _ _ _ t7 idc7) x10 @ @expr.LetIn _ _ _ _ _ _ _))%expr_pat => Datatypes.None | (@expr.Ident _ _ _ t5 idc5 @ (@expr.Ident _ _ _ t6 idc6 @ @expr.App _ _ _ s9 _ ($_)%expr _ @ _))%expr_pat | (@expr.Ident _ _ _ t5 idc5 @ (@expr.Ident _ _ _ t6 idc6 @ @expr.App _ _ _ s9 _ (@expr.Abs _ _ _ _ _ _) _ @ _))%expr_pat | (@expr.Ident _ _ _ t5 idc5 @ (@expr.Ident _ _ _ t6 idc6 @ @expr.App _ _ _ s9 _ (_ @ _) _ @ _))%expr_pat | (@expr.Ident _ _ _ t5 idc5 @ (@expr.Ident _ _ _ t6 idc6 @ @expr.App _ _ _ s9 _ (@expr.LetIn _ _ _ _ _ _ _) _ @ _))%expr_pat => Datatypes.None | (@expr.Ident _ _ _ t5 idc5 @ (@expr.Ident _ _ _ t6 idc6 @ #(_) @ _))%expr_pat | (@expr.Ident _ _ _ t5 idc5 @ (@expr.Ident _ _ _ t6 idc6 @ ($_)%expr @ _))%expr_pat | (@expr.Ident _ _ _ t5 idc5 @ (@expr.Ident _ _ _ t6 idc6 @ @expr.Abs _ _ _ _ _ _ @ _))%expr_pat | (@expr.Ident _ _ _ t5 idc5 @ (@expr.Ident _ _ _ t6 idc6 @ @expr.LetIn _ _ _ _ _ _ _ @ _))%expr_pat => Datatypes.None | (@expr.Ident _ _ _ t5 idc5 @ #(_))%expr_pat | (@expr.Ident _ _ _ t5 idc5 @ ($_)%expr)%expr_pat | (@expr.Ident _ _ _ t5 idc5 @ @expr.Abs _ _ _ _ _ _)%expr_pat | (@expr.Ident _ _ _ t5 idc5 @ (#(_) @ _))%expr_pat | (@expr.Ident _ _ _ t5 idc5 @ (($_)%expr @ _))%expr_pat | (@expr.Ident _ _ _ t5 idc5 @ (@expr.Abs _ _ _ _ _ _ @ _))%expr_pat | (@expr.Ident _ _ _ t5 idc5 @ (($_)%expr @ _ @ _))%expr_pat | (@expr.Ident _ _ _ t5 idc5 @ (@expr.Abs _ _ _ _ _ _ @ _ @ _))%expr_pat | (@expr.Ident _ _ _ t5 idc5 @ (_ @ _ @ _ @ _))%expr_pat | (@expr.Ident _ _ _ t5 idc5 @ (@expr.LetIn _ _ _ _ _ _ _ @ _ @ _))%expr_pat | (@expr.Ident _ _ _ t5 idc5 @ (@expr.LetIn _ _ _ _ _ _ _ @ _))%expr_pat | (@expr.Ident _ _ _ t5 idc5 @ @expr.LetIn _ _ _ _ _ _ _)%expr_pat => Datatypes.None | _ => Datatypes.None end | _ => Datatypes.None end;; match x6 with | @expr.Ident _ _ _ t4 idc4 => match x0 with | (@expr.Ident _ _ _ t5 idc5 @ (@expr.Ident _ _ _ t6 idc6 @ @expr.App _ _ _ s9 _ (@expr.Ident _ _ _ t7 idc7) x10 @ (@expr.Ident _ _ _ t8 idc8 @ @expr.Ident _ _ _ t9 idc9)))%expr_pat => args <- invert_bind_args idc9 Raw.ident.Literal; args0 <- invert_bind_args idc8 Raw.ident.Z_cast; args1 <- invert_bind_args idc7 Raw.ident.Z_cast; _ <- invert_bind_args idc6 Raw.ident.Z_land; args3 <- invert_bind_args idc5 Raw.ident.Z_cast; args4 <- invert_bind_args idc4 Raw.ident.Literal; args5 <- invert_bind_args idc3 Raw.ident.Z_cast; args6 <- invert_bind_args idc2 Raw.ident.Z_cast; _ <- invert_bind_args idc1 Raw.ident.Z_land; args8 <- invert_bind_args idc0 Raw.ident.Z_cast; _ <- invert_bind_args idc Raw.ident.Z_mul; match pattern.type.unify_extracted ((ℤ -> ℤ) -> ℤ -> ℤ)%ptype ((s4 -> (projT1 args4)) -> s9 -> (projT1 args))%ptype with | Datatypes.Some (_, _, (_, _))%zrange => if type.type_beq base.type base.type.type_beq ((ℤ -> ℤ) -> ℤ -> ℤ)%ptype ((s4 -> (projT1 args4)) -> s9 -> (projT1 args))%ptype then v <- type.try_make_transport_cps s4 ℤ; xv <- ident.unify pattern.ident.Literal ##(projT2 args4); v0 <- type.try_make_transport_cps s9 ℤ; xv0 <- ident.unify pattern.ident.Literal ##(projT2 args); fv <- (if is_bounded_by_bool (let (x12, _) := xv in x12) (ZRange.normalize args5) && is_bounded_by_bool (let (x12, _) := xv0 in x12) (ZRange.normalize args0) && ((let (x12, _) := xv in x12) =? 2 ^ (2 * Z.log2_up (let (x12, _) := xv in x12) / 2) - 1) && ((let (x12, _) := xv0 in x12) =? 2 ^ (2 * Z.log2_up (let (x12, _) := xv in x12) / 2) - 1) && (ZRange.normalize args6 &' ZRange.normalize (ZRange.constant (let (x12, _) := xv in x12)) <=? ZRange.normalize args8)%zrange && (ZRange.normalize args1 &' ZRange.normalize (ZRange.constant (let (x12, _) := xv0 in x12)) <=? ZRange.normalize args3)%zrange then Datatypes.Some (Reify.expr_value_to_rewrite_rule_replacement (@Compile.reflect_ident_iota var) false (#(Z_cast range)%expr @ (#(fancy_mulll (2 * Z.log2_up (let (x12, _) := xv in x12)))%expr @ (#(Z_cast args6)%expr @ ($(v (Compile.reflect x5)))%expr, #(Z_cast args1)%expr @ ($(v0 (Compile.reflect x10)))%expr)))%expr_pat) else Datatypes.None); Datatypes.Some (fv0 <-- fv; Base fv0)%under_lets else Datatypes.None | Datatypes.None => Datatypes.None end | (@expr.Ident _ _ _ t5 idc5 @ (@expr.Ident _ _ _ t6 idc6 @ @expr.App _ _ _ s9 _ (@expr.Ident _ _ _ t7 idc7) x10 @ (@expr.Ident _ _ _ t8 idc8 @ ($_)%expr)))%expr_pat | (@expr.Ident _ _ _ t5 idc5 @ (@expr.Ident _ _ _ t6 idc6 @ @expr.App _ _ _ s9 _ (@expr.Ident _ _ _ t7 idc7) x10 @ (@expr.Ident _ _ _ t8 idc8 @ @expr.Abs _ _ _ _ _ _)))%expr_pat | (@expr.Ident _ _ _ t5 idc5 @ (@expr.Ident _ _ _ t6 idc6 @ @expr.App _ _ _ s9 _ (@expr.Ident _ _ _ t7 idc7) x10 @ (@expr.Ident _ _ _ t8 idc8 @ (_ @ _))))%expr_pat | (@expr.Ident _ _ _ t5 idc5 @ (@expr.Ident _ _ _ t6 idc6 @ @expr.App _ _ _ s9 _ (@expr.Ident _ _ _ t7 idc7) x10 @ (@expr.Ident _ _ _ t8 idc8 @ @expr.LetIn _ _ _ _ _ _ _)))%expr_pat => Datatypes.None | (@expr.Ident _ _ _ t5 idc5 @ (@expr.Ident _ _ _ t6 idc6 @ @expr.App _ _ _ s9 _ (@expr.Ident _ _ _ t7 idc7) x10 @ #(_)))%expr_pat | (@expr.Ident _ _ _ t5 idc5 @ (@expr.Ident _ _ _ t6 idc6 @ @expr.App _ _ _ s9 _ (@expr.Ident _ _ _ t7 idc7) x10 @ ($_)%expr))%expr_pat | (@expr.Ident _ _ _ t5 idc5 @ (@expr.Ident _ _ _ t6 idc6 @ @expr.App _ _ _ s9 _ (@expr.Ident _ _ _ t7 idc7) x10 @ @expr.Abs _ _ _ _ _ _))%expr_pat | (@expr.Ident _ _ _ t5 idc5 @ (@expr.Ident _ _ _ t6 idc6 @ @expr.App _ _ _ s9 _ (@expr.Ident _ _ _ t7 idc7) x10 @ (($_)%expr @ _)))%expr_pat | (@expr.Ident _ _ _ t5 idc5 @ (@expr.Ident _ _ _ t6 idc6 @ @expr.App _ _ _ s9 _ (@expr.Ident _ _ _ t7 idc7) x10 @ (@expr.Abs _ _ _ _ _ _ @ _)))%expr_pat | (@expr.Ident _ _ _ t5 idc5 @ (@expr.Ident _ _ _ t6 idc6 @ @expr.App _ _ _ s9 _ (@expr.Ident _ _ _ t7 idc7) x10 @ (_ @ _ @ _)))%expr_pat | (@expr.Ident _ _ _ t5 idc5 @ (@expr.Ident _ _ _ t6 idc6 @ @expr.App _ _ _ s9 _ (@expr.Ident _ _ _ t7 idc7) x10 @ (@expr.LetIn _ _ _ _ _ _ _ @ _)))%expr_pat | (@expr.Ident _ _ _ t5 idc5 @ (@expr.Ident _ _ _ t6 idc6 @ @expr.App _ _ _ s9 _ (@expr.Ident _ _ _ t7 idc7) x10 @ @expr.LetIn _ _ _ _ _ _ _))%expr_pat => Datatypes.None | (@expr.Ident _ _ _ t5 idc5 @ (@expr.Ident _ _ _ t6 idc6 @ @expr.App _ _ _ s9 _ ($_)%expr _ @ _))%expr_pat | (@expr.Ident _ _ _ t5 idc5 @ (@expr.Ident _ _ _ t6 idc6 @ @expr.App _ _ _ s9 _ (@expr.Abs _ _ _ _ _ _) _ @ _))%expr_pat | (@expr.Ident _ _ _ t5 idc5 @ (@expr.Ident _ _ _ t6 idc6 @ @expr.App _ _ _ s9 _ (_ @ _) _ @ _))%expr_pat | (@expr.Ident _ _ _ t5 idc5 @ (@expr.Ident _ _ _ t6 idc6 @ @expr.App _ _ _ s9 _ (@expr.LetIn _ _ _ _ _ _ _) _ @ _))%expr_pat => Datatypes.None | (@expr.Ident _ _ _ t5 idc5 @ (@expr.Ident _ _ _ t6 idc6 @ #(_) @ _))%expr_pat | (@expr.Ident _ _ _ t5 idc5 @ (@expr.Ident _ _ _ t6 idc6 @ ($_)%expr @ _))%expr_pat | (@expr.Ident _ _ _ t5 idc5 @ (@expr.Ident _ _ _ t6 idc6 @ @expr.Abs _ _ _ _ _ _ @ _))%expr_pat | (@expr.Ident _ _ _ t5 idc5 @ (@expr.Ident _ _ _ t6 idc6 @ @expr.LetIn _ _ _ _ _ _ _ @ _))%expr_pat => Datatypes.None | (@expr.Ident _ _ _ t5 idc5 @ #(_))%expr_pat | (@expr.Ident _ _ _ t5 idc5 @ ($_)%expr)%expr_pat | (@expr.Ident _ _ _ t5 idc5 @ @expr.Abs _ _ _ _ _ _)%expr_pat | (@expr.Ident _ _ _ t5 idc5 @ (#(_) @ _))%expr_pat | (@expr.Ident _ _ _ t5 idc5 @ (($_)%expr @ _))%expr_pat | (@expr.Ident _ _ _ t5 idc5 @ (@expr.Abs _ _ _ _ _ _ @ _))%expr_pat | (@expr.Ident _ _ _ t5 idc5 @ (($_)%expr @ _ @ _))%expr_pat | (@expr.Ident _ _ _ t5 idc5 @ (@expr.Abs _ _ _ _ _ _ @ _ @ _))%expr_pat | (@expr.Ident _ _ _ t5 idc5 @ (_ @ _ @ _ @ _))%expr_pat | (@expr.Ident _ _ _ t5 idc5 @ (@expr.LetIn _ _ _ _ _ _ _ @ _ @ _))%expr_pat | (@expr.Ident _ _ _ t5 idc5 @ (@expr.LetIn _ _ _ _ _ _ _ @ _))%expr_pat | (@expr.Ident _ _ _ t5 idc5 @ @expr.LetIn _ _ _ _ _ _ _)%expr_pat => Datatypes.None | _ => Datatypes.None end | _ => Datatypes.None end;; match x5 with | @expr.Ident _ _ _ t4 idc4 => match x0 with | (@expr.Ident _ _ _ t5 idc5 @ (@expr.Ident _ _ _ t6 idc6 @ @expr.App _ _ _ s9 _ (@expr.Ident _ _ _ t7 idc7) x10 @ (@expr.Ident _ _ _ t8 idc8 @ @expr.Ident _ _ _ t9 idc9)))%expr_pat => args <- invert_bind_args idc9 Raw.ident.Literal; args0 <- invert_bind_args idc8 Raw.ident.Z_cast; args1 <- invert_bind_args idc7 Raw.ident.Z_cast; _ <- invert_bind_args idc6 Raw.ident.Z_shiftr; args3 <- invert_bind_args idc5 Raw.ident.Z_cast; args4 <- invert_bind_args idc4 Raw.ident.Literal; args5 <- invert_bind_args idc3 Raw.ident.Z_cast; args6 <- invert_bind_args idc2 Raw.ident.Z_cast; _ <- invert_bind_args idc1 Raw.ident.Z_land; args8 <- invert_bind_args idc0 Raw.ident.Z_cast; _ <- invert_bind_args idc Raw.ident.Z_mul; match pattern.type.unify_extracted ((ℤ -> ℤ) -> ℤ -> ℤ)%ptype (((projT1 args4) -> s5) -> s9 -> (projT1 args))%ptype with | Datatypes.Some (_, _, (_, _))%zrange => if type.type_beq base.type base.type.type_beq ((ℤ -> ℤ) -> ℤ -> ℤ)%ptype (((projT1 args4) -> s5) -> s9 -> (projT1 args))%ptype then xv <- ident.unify pattern.ident.Literal ##(projT2 args4); v <- type.try_make_transport_cps s5 ℤ; v0 <- type.try_make_transport_cps s9 ℤ; xv0 <- ident.unify pattern.ident.Literal ##(projT2 args); fv <- (if is_bounded_by_bool (let (x12, _) := xv in x12) (ZRange.normalize args6) && is_bounded_by_bool (let (x12, _) := xv0 in x12) (ZRange.normalize args0) && ((let (x12, _) := xv in x12) =? 2 ^ (2 * (let (x12, _) := xv0 in x12) / 2) - 1) && (ZRange.normalize (ZRange.constant (let (x12, _) := xv in x12)) &' ZRange.normalize args5 <=? ZRange.normalize args8)%zrange && (ZRange.normalize args1 >> ZRange.normalize (ZRange.constant (let (x12, _) := xv0 in x12)) <=? ZRange.normalize args3)%zrange then Datatypes.Some (Reify.expr_value_to_rewrite_rule_replacement (@Compile.reflect_ident_iota var) false (#(Z_cast range)%expr @ (#(fancy_mullh (2 * (let (x12, _) := xv0 in x12)))%expr @ (#(Z_cast args5)%expr @ ($(v (Compile.reflect x6)))%expr, #(Z_cast args1)%expr @ ($(v0 (Compile.reflect x10)))%expr)))%expr_pat) else Datatypes.None); Datatypes.Some (fv0 <-- fv; Base fv0)%under_lets else Datatypes.None | Datatypes.None => Datatypes.None end | (@expr.Ident _ _ _ t5 idc5 @ (@expr.Ident _ _ _ t6 idc6 @ @expr.App _ _ _ s9 _ (@expr.Ident _ _ _ t7 idc7) x10 @ (@expr.Ident _ _ _ t8 idc8 @ ($_)%expr)))%expr_pat | (@expr.Ident _ _ _ t5 idc5 @ (@expr.Ident _ _ _ t6 idc6 @ @expr.App _ _ _ s9 _ (@expr.Ident _ _ _ t7 idc7) x10 @ (@expr.Ident _ _ _ t8 idc8 @ @expr.Abs _ _ _ _ _ _)))%expr_pat | (@expr.Ident _ _ _ t5 idc5 @ (@expr.Ident _ _ _ t6 idc6 @ @expr.App _ _ _ s9 _ (@expr.Ident _ _ _ t7 idc7) x10 @ (@expr.Ident _ _ _ t8 idc8 @ (_ @ _))))%expr_pat | (@expr.Ident _ _ _ t5 idc5 @ (@expr.Ident _ _ _ t6 idc6 @ @expr.App _ _ _ s9 _ (@expr.Ident _ _ _ t7 idc7) x10 @ (@expr.Ident _ _ _ t8 idc8 @ @expr.LetIn _ _ _ _ _ _ _)))%expr_pat => Datatypes.None | (@expr.Ident _ _ _ t5 idc5 @ (@expr.Ident _ _ _ t6 idc6 @ @expr.App _ _ _ s9 _ (@expr.Ident _ _ _ t7 idc7) x10 @ #(_)))%expr_pat | (@expr.Ident _ _ _ t5 idc5 @ (@expr.Ident _ _ _ t6 idc6 @ @expr.App _ _ _ s9 _ (@expr.Ident _ _ _ t7 idc7) x10 @ ($_)%expr))%expr_pat | (@expr.Ident _ _ _ t5 idc5 @ (@expr.Ident _ _ _ t6 idc6 @ @expr.App _ _ _ s9 _ (@expr.Ident _ _ _ t7 idc7) x10 @ @expr.Abs _ _ _ _ _ _))%expr_pat | (@expr.Ident _ _ _ t5 idc5 @ (@expr.Ident _ _ _ t6 idc6 @ @expr.App _ _ _ s9 _ (@expr.Ident _ _ _ t7 idc7) x10 @ (($_)%expr @ _)))%expr_pat | (@expr.Ident _ _ _ t5 idc5 @ (@expr.Ident _ _ _ t6 idc6 @ @expr.App _ _ _ s9 _ (@expr.Ident _ _ _ t7 idc7) x10 @ (@expr.Abs _ _ _ _ _ _ @ _)))%expr_pat | (@expr.Ident _ _ _ t5 idc5 @ (@expr.Ident _ _ _ t6 idc6 @ @expr.App _ _ _ s9 _ (@expr.Ident _ _ _ t7 idc7) x10 @ (_ @ _ @ _)))%expr_pat | (@expr.Ident _ _ _ t5 idc5 @ (@expr.Ident _ _ _ t6 idc6 @ @expr.App _ _ _ s9 _ (@expr.Ident _ _ _ t7 idc7) x10 @ (@expr.LetIn _ _ _ _ _ _ _ @ _)))%expr_pat | (@expr.Ident _ _ _ t5 idc5 @ (@expr.Ident _ _ _ t6 idc6 @ @expr.App _ _ _ s9 _ (@expr.Ident _ _ _ t7 idc7) x10 @ @expr.LetIn _ _ _ _ _ _ _))%expr_pat => Datatypes.None | (@expr.Ident _ _ _ t5 idc5 @ (@expr.Ident _ _ _ t6 idc6 @ @expr.App _ _ _ s9 _ ($_)%expr _ @ _))%expr_pat | (@expr.Ident _ _ _ t5 idc5 @ (@expr.Ident _ _ _ t6 idc6 @ @expr.App _ _ _ s9 _ (@expr.Abs _ _ _ _ _ _) _ @ _))%expr_pat | (@expr.Ident _ _ _ t5 idc5 @ (@expr.Ident _ _ _ t6 idc6 @ @expr.App _ _ _ s9 _ (_ @ _) _ @ _))%expr_pat | (@expr.Ident _ _ _ t5 idc5 @ (@expr.Ident _ _ _ t6 idc6 @ @expr.App _ _ _ s9 _ (@expr.LetIn _ _ _ _ _ _ _) _ @ _))%expr_pat => Datatypes.None | (@expr.Ident _ _ _ t5 idc5 @ (@expr.Ident _ _ _ t6 idc6 @ #(_) @ _))%expr_pat | (@expr.Ident _ _ _ t5 idc5 @ (@expr.Ident _ _ _ t6 idc6 @ ($_)%expr @ _))%expr_pat | (@expr.Ident _ _ _ t5 idc5 @ (@expr.Ident _ _ _ t6 idc6 @ @expr.Abs _ _ _ _ _ _ @ _))%expr_pat | (@expr.Ident _ _ _ t5 idc5 @ (@expr.Ident _ _ _ t6 idc6 @ @expr.LetIn _ _ _ _ _ _ _ @ _))%expr_pat => Datatypes.None | (@expr.Ident _ _ _ t5 idc5 @ #(_))%expr_pat | (@expr.Ident _ _ _ t5 idc5 @ ($_)%expr)%expr_pat | (@expr.Ident _ _ _ t5 idc5 @ @expr.Abs _ _ _ _ _ _)%expr_pat | (@expr.Ident _ _ _ t5 idc5 @ (#(_) @ _))%expr_pat | (@expr.Ident _ _ _ t5 idc5 @ (($_)%expr @ _))%expr_pat | (@expr.Ident _ _ _ t5 idc5 @ (@expr.Abs _ _ _ _ _ _ @ _))%expr_pat | (@expr.Ident _ _ _ t5 idc5 @ (($_)%expr @ _ @ _))%expr_pat | (@expr.Ident _ _ _ t5 idc5 @ (@expr.Abs _ _ _ _ _ _ @ _ @ _))%expr_pat | (@expr.Ident _ _ _ t5 idc5 @ (_ @ _ @ _ @ _))%expr_pat | (@expr.Ident _ _ _ t5 idc5 @ (@expr.LetIn _ _ _ _ _ _ _ @ _ @ _))%expr_pat | (@expr.Ident _ _ _ t5 idc5 @ (@expr.LetIn _ _ _ _ _ _ _ @ _))%expr_pat | (@expr.Ident _ _ _ t5 idc5 @ @expr.LetIn _ _ _ _ _ _ _)%expr_pat => Datatypes.None | _ => Datatypes.None end | _ => Datatypes.None end;; match x6 with | @expr.Ident _ _ _ t4 idc4 => match x0 with | (@expr.Ident _ _ _ t5 idc5 @ (@expr.Ident _ _ _ t6 idc6 @ @expr.App _ _ _ s9 _ (@expr.Ident _ _ _ t7 idc7) x10 @ (@expr.Ident _ _ _ t8 idc8 @ @expr.Ident _ _ _ t9 idc9)))%expr_pat => args <- invert_bind_args idc9 Raw.ident.Literal; args0 <- invert_bind_args idc8 Raw.ident.Z_cast; args1 <- invert_bind_args idc7 Raw.ident.Z_cast; _ <- invert_bind_args idc6 Raw.ident.Z_shiftr; args3 <- invert_bind_args idc5 Raw.ident.Z_cast; args4 <- invert_bind_args idc4 Raw.ident.Literal; args5 <- invert_bind_args idc3 Raw.ident.Z_cast; args6 <- invert_bind_args idc2 Raw.ident.Z_cast; _ <- invert_bind_args idc1 Raw.ident.Z_land; args8 <- invert_bind_args idc0 Raw.ident.Z_cast; _ <- invert_bind_args idc Raw.ident.Z_mul; match pattern.type.unify_extracted ((ℤ -> ℤ) -> ℤ -> ℤ)%ptype ((s4 -> (projT1 args4)) -> s9 -> (projT1 args))%ptype with | Datatypes.Some (_, _, (_, _))%zrange => if type.type_beq base.type base.type.type_beq ((ℤ -> ℤ) -> ℤ -> ℤ)%ptype ((s4 -> (projT1 args4)) -> s9 -> (projT1 args))%ptype then v <- type.try_make_transport_cps s4 ℤ; xv <- ident.unify pattern.ident.Literal ##(projT2 args4); v0 <- type.try_make_transport_cps s9 ℤ; xv0 <- ident.unify pattern.ident.Literal ##(projT2 args); fv <- (if is_bounded_by_bool (let (x12, _) := xv in x12) (ZRange.normalize args5) && is_bounded_by_bool (let (x12, _) := xv0 in x12) (ZRange.normalize args0) && ((let (x12, _) := xv in x12) =? 2 ^ (2 * (let (x12, _) := xv0 in x12) / 2) - 1) && (ZRange.normalize args6 &' ZRange.normalize (ZRange.constant (let (x12, _) := xv in x12)) <=? ZRange.normalize args8)%zrange && (ZRange.normalize args1 >> ZRange.normalize (ZRange.constant (let (x12, _) := xv0 in x12)) <=? ZRange.normalize args3)%zrange then Datatypes.Some (Reify.expr_value_to_rewrite_rule_replacement (@Compile.reflect_ident_iota var) false (#(Z_cast range)%expr @ (#(fancy_mullh (2 * (let (x12, _) := xv0 in x12)))%expr @ (#(Z_cast args6)%expr @ ($(v (Compile.reflect x5)))%expr, #(Z_cast args1)%expr @ ($(v0 (Compile.reflect x10)))%expr)))%expr_pat) else Datatypes.None); Datatypes.Some (fv0 <-- fv; Base fv0)%under_lets else Datatypes.None | Datatypes.None => Datatypes.None end | (@expr.Ident _ _ _ t5 idc5 @ (@expr.Ident _ _ _ t6 idc6 @ @expr.App _ _ _ s9 _ (@expr.Ident _ _ _ t7 idc7) x10 @ (@expr.Ident _ _ _ t8 idc8 @ ($_)%expr)))%expr_pat | (@expr.Ident _ _ _ t5 idc5 @ (@expr.Ident _ _ _ t6 idc6 @ @expr.App _ _ _ s9 _ (@expr.Ident _ _ _ t7 idc7) x10 @ (@expr.Ident _ _ _ t8 idc8 @ @expr.Abs _ _ _ _ _ _)))%expr_pat | (@expr.Ident _ _ _ t5 idc5 @ (@expr.Ident _ _ _ t6 idc6 @ @expr.App _ _ _ s9 _ (@expr.Ident _ _ _ t7 idc7) x10 @ (@expr.Ident _ _ _ t8 idc8 @ (_ @ _))))%expr_pat | (@expr.Ident _ _ _ t5 idc5 @ (@expr.Ident _ _ _ t6 idc6 @ @expr.App _ _ _ s9 _ (@expr.Ident _ _ _ t7 idc7) x10 @ (@expr.Ident _ _ _ t8 idc8 @ @expr.LetIn _ _ _ _ _ _ _)))%expr_pat => Datatypes.None | (@expr.Ident _ _ _ t5 idc5 @ (@expr.Ident _ _ _ t6 idc6 @ @expr.App _ _ _ s9 _ (@expr.Ident _ _ _ t7 idc7) x10 @ #(_)))%expr_pat | (@expr.Ident _ _ _ t5 idc5 @ (@expr.Ident _ _ _ t6 idc6 @ @expr.App _ _ _ s9 _ (@expr.Ident _ _ _ t7 idc7) x10 @ ($_)%expr))%expr_pat | (@expr.Ident _ _ _ t5 idc5 @ (@expr.Ident _ _ _ t6 idc6 @ @expr.App _ _ _ s9 _ (@expr.Ident _ _ _ t7 idc7) x10 @ @expr.Abs _ _ _ _ _ _))%expr_pat | (@expr.Ident _ _ _ t5 idc5 @ (@expr.Ident _ _ _ t6 idc6 @ @expr.App _ _ _ s9 _ (@expr.Ident _ _ _ t7 idc7) x10 @ (($_)%expr @ _)))%expr_pat | (@expr.Ident _ _ _ t5 idc5 @ (@expr.Ident _ _ _ t6 idc6 @ @expr.App _ _ _ s9 _ (@expr.Ident _ _ _ t7 idc7) x10 @ (@expr.Abs _ _ _ _ _ _ @ _)))%expr_pat | (@expr.Ident _ _ _ t5 idc5 @ (@expr.Ident _ _ _ t6 idc6 @ @expr.App _ _ _ s9 _ (@expr.Ident _ _ _ t7 idc7) x10 @ (_ @ _ @ _)))%expr_pat | (@expr.Ident _ _ _ t5 idc5 @ (@expr.Ident _ _ _ t6 idc6 @ @expr.App _ _ _ s9 _ (@expr.Ident _ _ _ t7 idc7) x10 @ (@expr.LetIn _ _ _ _ _ _ _ @ _)))%expr_pat | (@expr.Ident _ _ _ t5 idc5 @ (@expr.Ident _ _ _ t6 idc6 @ @expr.App _ _ _ s9 _ (@expr.Ident _ _ _ t7 idc7) x10 @ @expr.LetIn _ _ _ _ _ _ _))%expr_pat => Datatypes.None | (@expr.Ident _ _ _ t5 idc5 @ (@expr.Ident _ _ _ t6 idc6 @ @expr.App _ _ _ s9 _ ($_)%expr _ @ _))%expr_pat | (@expr.Ident _ _ _ t5 idc5 @ (@expr.Ident _ _ _ t6 idc6 @ @expr.App _ _ _ s9 _ (@expr.Abs _ _ _ _ _ _) _ @ _))%expr_pat | (@expr.Ident _ _ _ t5 idc5 @ (@expr.Ident _ _ _ t6 idc6 @ @expr.App _ _ _ s9 _ (_ @ _) _ @ _))%expr_pat | (@expr.Ident _ _ _ t5 idc5 @ (@expr.Ident _ _ _ t6 idc6 @ @expr.App _ _ _ s9 _ (@expr.LetIn _ _ _ _ _ _ _) _ @ _))%expr_pat => Datatypes.None | (@expr.Ident _ _ _ t5 idc5 @ (@expr.Ident _ _ _ t6 idc6 @ #(_) @ _))%expr_pat | (@expr.Ident _ _ _ t5 idc5 @ (@expr.Ident _ _ _ t6 idc6 @ ($_)%expr @ _))%expr_pat | (@expr.Ident _ _ _ t5 idc5 @ (@expr.Ident _ _ _ t6 idc6 @ @expr.Abs _ _ _ _ _ _ @ _))%expr_pat | (@expr.Ident _ _ _ t5 idc5 @ (@expr.Ident _ _ _ t6 idc6 @ @expr.LetIn _ _ _ _ _ _ _ @ _))%expr_pat => Datatypes.None | (@expr.Ident _ _ _ t5 idc5 @ #(_))%expr_pat | (@expr.Ident _ _ _ t5 idc5 @ ($_)%expr)%expr_pat | (@expr.Ident _ _ _ t5 idc5 @ @expr.Abs _ _ _ _ _ _)%expr_pat | (@expr.Ident _ _ _ t5 idc5 @ (#(_) @ _))%expr_pat | (@expr.Ident _ _ _ t5 idc5 @ (($_)%expr @ _))%expr_pat | (@expr.Ident _ _ _ t5 idc5 @ (@expr.Abs _ _ _ _ _ _ @ _))%expr_pat | (@expr.Ident _ _ _ t5 idc5 @ (($_)%expr @ _ @ _))%expr_pat | (@expr.Ident _ _ _ t5 idc5 @ (@expr.Abs _ _ _ _ _ _ @ _ @ _))%expr_pat | (@expr.Ident _ _ _ t5 idc5 @ (_ @ _ @ _ @ _))%expr_pat | (@expr.Ident _ _ _ t5 idc5 @ (@expr.LetIn _ _ _ _ _ _ _ @ _ @ _))%expr_pat | (@expr.Ident _ _ _ t5 idc5 @ (@expr.LetIn _ _ _ _ _ _ _ @ _))%expr_pat | (@expr.Ident _ _ _ t5 idc5 @ @expr.LetIn _ _ _ _ _ _ _)%expr_pat => Datatypes.None | _ => Datatypes.None end | _ => Datatypes.None end | @expr.App _ _ _ s5 _ ($_)%expr _ | @expr.App _ _ _ s5 _ (@expr.Abs _ _ _ _ _ _) _ | @expr.App _ _ _ s5 _ (_ @ _)%expr_pat _ | @expr.App _ _ _ s5 _ (@expr.LetIn _ _ _ _ _ _ _) _ => Datatypes.None | _ => Datatypes.None end | @expr.App _ _ _ s4 _ ($_)%expr _ | @expr.App _ _ _ s4 _ (@expr.Abs _ _ _ _ _ _) _ | @expr.App _ _ _ s4 _ (_ @ _)%expr_pat _ | @expr.App _ _ _ s4 _ (@expr.LetIn _ _ _ _ _ _ _) _ => Datatypes.None | _ => Datatypes.None end;; match x4 with | @expr.App _ _ _ s4 _ (@expr.Ident _ _ _ t2 idc2) x5 => match x3 with | (@expr.Ident _ _ _ t3 idc3 @ @expr.Ident _ _ _ t4 idc4)%expr_pat => match x0 with | (@expr.Ident _ _ _ t5 idc5 @ @expr.Ident _ _ _ t6 idc6)%expr_pat => (args <- invert_bind_args idc6 Raw.ident.Literal; args0 <- invert_bind_args idc5 Raw.ident.Z_cast; args1 <- invert_bind_args idc4 Raw.ident.Literal; args2 <- invert_bind_args idc3 Raw.ident.Z_cast; args3 <- invert_bind_args idc2 Raw.ident.Z_cast; _ <- invert_bind_args idc1 Raw.ident.Z_shiftr; args5 <- invert_bind_args idc0 Raw.ident.Z_cast; _ <- invert_bind_args idc Raw.ident.Z_mul; match pattern.type.unify_extracted ((ℤ -> ℤ) -> ℤ)%ptype ((s4 -> (projT1 args1)) -> (projT1 args))%ptype with | Datatypes.Some (_, _, _)%zrange => if type.type_beq base.type base.type.type_beq ((ℤ -> ℤ) -> ℤ)%ptype ((s4 -> (projT1 args1)) -> (projT1 args))%ptype then v <- type.try_make_transport_cps s4 ℤ; xv <- ident.unify pattern.ident.Literal ##(projT2 args1); xv0 <- ident.unify pattern.ident.Literal ##(projT2 args); fv <- (if negb (option_beq Z.eqb (invert_low (2 * (let (x8, _) := xv in x8)) (let (x8, _) := xv0 in x8)) Datatypes.None) && is_bounded_by_bool (let (x8, _) := xv0 in x8) (ZRange.normalize args0) && is_bounded_by_bool (let (x8, _) := xv in x8) (ZRange.normalize args2) && (ZRange.normalize args3 >> ZRange.normalize (ZRange.constant (let (x8, _) := xv in x8)) <=? ZRange.normalize args5)%zrange then Datatypes.Some (Reify.expr_value_to_rewrite_rule_replacement (@Compile.reflect_ident_iota var) false (#(Z_cast range)%expr @ (#(fancy_mulhl (2 * (let (x8, _) := xv in x8)))%expr @ (#(Z_cast args3)%expr @ ($(v (Compile.reflect x5)))%expr, (##match invert_low (2 * (let (x8, _) := xv in x8)) (let (x8, _) := xv0 in x8) with | Datatypes.Some y => y | Datatypes.None => 0 end)%expr)))%expr_pat) else Datatypes.None); Datatypes.Some (fv0 <-- fv; Base fv0)%under_lets else Datatypes.None | Datatypes.None => Datatypes.None end);; args <- invert_bind_args idc6 Raw.ident.Literal; args0 <- invert_bind_args idc5 Raw.ident.Z_cast; args1 <- invert_bind_args idc4 Raw.ident.Literal; args2 <- invert_bind_args idc3 Raw.ident.Z_cast; args3 <- invert_bind_args idc2 Raw.ident.Z_cast; _ <- invert_bind_args idc1 Raw.ident.Z_shiftr; args5 <- invert_bind_args idc0 Raw.ident.Z_cast; _ <- invert_bind_args idc Raw.ident.Z_mul; match pattern.type.unify_extracted ((ℤ -> ℤ) -> ℤ)%ptype ((s4 -> (projT1 args1)) -> (projT1 args))%ptype with | Datatypes.Some (_, _, _)%zrange => if type.type_beq base.type base.type.type_beq ((ℤ -> ℤ) -> ℤ)%ptype ((s4 -> (projT1 args1)) -> (projT1 args))%ptype then v <- type.try_make_transport_cps s4 ℤ; xv <- ident.unify pattern.ident.Literal ##(projT2 args1); xv0 <- ident.unify pattern.ident.Literal ##(projT2 args); fv <- (if negb (option_beq Z.eqb (invert_high (2 * (let (x8, _) := xv in x8)) (let (x8, _) := xv0 in x8)) Datatypes.None) && is_bounded_by_bool (let (x8, _) := xv0 in x8) (ZRange.normalize args0) && is_bounded_by_bool (let (x8, _) := xv in x8) (ZRange.normalize args2) && (ZRange.normalize args3 >> ZRange.normalize (ZRange.constant (let (x8, _) := xv in x8)) <=? ZRange.normalize args5)%zrange then Datatypes.Some (Reify.expr_value_to_rewrite_rule_replacement (@Compile.reflect_ident_iota var) false (#(Z_cast range)%expr @ (#(fancy_mulhh (2 * (let (x8, _) := xv in x8)))%expr @ (#(Z_cast args3)%expr @ ($(v (Compile.reflect x5)))%expr, (##match invert_high (2 * (let (x8, _) := xv in x8)) (let (x8, _) := xv0 in x8) with | Datatypes.Some y => y | Datatypes.None => 0 end)%expr)))%expr_pat) else Datatypes.None); Datatypes.Some (fv0 <-- fv; Base fv0)%under_lets else Datatypes.None | Datatypes.None => Datatypes.None end | (@expr.Ident _ _ _ t5 idc5 @ (@expr.Ident _ _ _ t6 idc6 @ x9 @ x8))%expr_pat => match x9 with | @expr.App _ _ _ s9 _ (@expr.Ident _ _ _ t7 idc7) x10 => match x10 with | @expr.Ident _ _ _ t8 idc8 => match x8 with | @expr.App _ _ _ s10 _ (@expr.Ident _ _ _ t9 idc9) x11 => args <- invert_bind_args idc9 Raw.ident.Z_cast; args0 <- invert_bind_args idc8 Raw.ident.Literal; args1 <- invert_bind_args idc7 Raw.ident.Z_cast; _ <- invert_bind_args idc6 Raw.ident.Z_land; args3 <- invert_bind_args idc5 Raw.ident.Z_cast; args4 <- invert_bind_args idc4 Raw.ident.Literal; args5 <- invert_bind_args idc3 Raw.ident.Z_cast; args6 <- invert_bind_args idc2 Raw.ident.Z_cast; _ <- invert_bind_args idc1 Raw.ident.Z_shiftr; args8 <- invert_bind_args idc0 Raw.ident.Z_cast; _ <- invert_bind_args idc Raw.ident.Z_mul; match pattern.type.unify_extracted ((ℤ -> ℤ) -> ℤ -> ℤ)%ptype ((s4 -> (projT1 args4)) -> (projT1 args0) -> s10)%ptype with | Datatypes.Some (_, _, (_, _))%zrange => if type.type_beq base.type base.type.type_beq ((ℤ -> ℤ) -> ℤ -> ℤ)%ptype ((s4 -> (projT1 args4)) -> (projT1 args0) -> s10)%ptype then v <- type.try_make_transport_cps s4 ℤ; xv <- ident.unify pattern.ident.Literal ##(projT2 args4); xv0 <- ident.unify pattern.ident.Literal ##(projT2 args0); v0 <- type.try_make_transport_cps s10 ℤ; fv <- (if is_bounded_by_bool (let (x12, _) := xv0 in x12) (ZRange.normalize args1) && is_bounded_by_bool (let (x12, _) := xv in x12) (ZRange.normalize args5) && ((let (x12, _) := xv0 in x12) =? 2 ^ (2 * (let (x12, _) := xv in x12) / 2) - 1) && (ZRange.normalize args6 >> ZRange.normalize (ZRange.constant (let (x12, _) := xv in x12)) <=? ZRange.normalize args8)%zrange && (ZRange.normalize (ZRange.constant (let (x12, _) := xv0 in x12)) &' ZRange.normalize args <=? ZRange.normalize args3)%zrange then Datatypes.Some (Reify.expr_value_to_rewrite_rule_replacement (@Compile.reflect_ident_iota var) false (#(Z_cast range)%expr @ (#(fancy_mulhl (2 * (let (x12, _) := xv in x12)))%expr @ (#(Z_cast args6)%expr @ ($(v (Compile.reflect x5)))%expr, #(Z_cast args)%expr @ ($(v0 (Compile.reflect x11)))%expr)))%expr_pat) else Datatypes.None); Datatypes.Some (fv0 <-- fv; Base fv0)%under_lets else Datatypes.None | Datatypes.None => Datatypes.None end | @expr.App _ _ _ s10 _ ($_)%expr _ | @expr.App _ _ _ s10 _ (@expr.Abs _ _ _ _ _ _) _ | @expr.App _ _ _ s10 _ (_ @ _)%expr_pat _ | @expr.App _ _ _ s10 _ (@expr.LetIn _ _ _ _ _ _ _) _ => Datatypes.None | _ => Datatypes.None end | _ => Datatypes.None end;; match x8 with | (@expr.Ident _ _ _ t8 idc8 @ @expr.Ident _ _ _ t9 idc9)%expr_pat => args <- invert_bind_args idc9 Raw.ident.Literal; args0 <- invert_bind_args idc8 Raw.ident.Z_cast; args1 <- invert_bind_args idc7 Raw.ident.Z_cast; _ <- invert_bind_args idc6 Raw.ident.Z_land; args3 <- invert_bind_args idc5 Raw.ident.Z_cast; args4 <- invert_bind_args idc4 Raw.ident.Literal; args5 <- invert_bind_args idc3 Raw.ident.Z_cast; args6 <- invert_bind_args idc2 Raw.ident.Z_cast; _ <- invert_bind_args idc1 Raw.ident.Z_shiftr; args8 <- invert_bind_args idc0 Raw.ident.Z_cast; _ <- invert_bind_args idc Raw.ident.Z_mul; match pattern.type.unify_extracted ((ℤ -> ℤ) -> ℤ -> ℤ)%ptype ((s4 -> (projT1 args4)) -> s9 -> (projT1 args))%ptype with | Datatypes.Some (_, _, (_, _))%zrange => if type.type_beq base.type base.type.type_beq ((ℤ -> ℤ) -> ℤ -> ℤ)%ptype ((s4 -> (projT1 args4)) -> s9 -> (projT1 args))%ptype then v <- type.try_make_transport_cps s4 ℤ; xv <- ident.unify pattern.ident.Literal ##(projT2 args4); v0 <- type.try_make_transport_cps s9 ℤ; xv0 <- ident.unify pattern.ident.Literal ##(projT2 args); fv <- (if is_bounded_by_bool (let (x12, _) := xv0 in x12) (ZRange.normalize args0) && is_bounded_by_bool (let (x12, _) := xv in x12) (ZRange.normalize args5) && ((let (x12, _) := xv0 in x12) =? 2 ^ (2 * (let (x12, _) := xv in x12) / 2) - 1) && (ZRange.normalize args6 >> ZRange.normalize (ZRange.constant (let (x12, _) := xv in x12)) <=? ZRange.normalize args8)%zrange && (ZRange.normalize args1 &' ZRange.normalize (ZRange.constant (let (x12, _) := xv0 in x12)) <=? ZRange.normalize args3)%zrange then Datatypes.Some (Reify.expr_value_to_rewrite_rule_replacement (@Compile.reflect_ident_iota var) false (#(Z_cast range)%expr @ (#(fancy_mulhl (2 * (let (x12, _) := xv in x12)))%expr @ (#(Z_cast args6)%expr @ ($(v (Compile.reflect x5)))%expr, #(Z_cast args1)%expr @ ($(v0 (Compile.reflect x10)))%expr)))%expr_pat) else Datatypes.None); Datatypes.Some (fv0 <-- fv; Base fv0)%under_lets else Datatypes.None | Datatypes.None => Datatypes.None end | (@expr.Ident _ _ _ t8 idc8 @ ($_)%expr)%expr_pat | (@expr.Ident _ _ _ t8 idc8 @ @expr.Abs _ _ _ _ _ _)%expr_pat | (@expr.Ident _ _ _ t8 idc8 @ (_ @ _))%expr_pat | (@expr.Ident _ _ _ t8 idc8 @ @expr.LetIn _ _ _ _ _ _ _)%expr_pat => Datatypes.None | _ => Datatypes.None end | @expr.App _ _ _ s9 _ ($_)%expr _ | @expr.App _ _ _ s9 _ (@expr.Abs _ _ _ _ _ _) _ | @expr.App _ _ _ s9 _ (_ @ _)%expr_pat _ | @expr.App _ _ _ s9 _ (@expr.LetIn _ _ _ _ _ _ _) _ => Datatypes.None | _ => Datatypes.None end;; match x9 with | @expr.App _ _ _ s9 _ (@expr.Ident _ _ _ t7 idc7) x10 => match x8 with | (@expr.Ident _ _ _ t8 idc8 @ @expr.Ident _ _ _ t9 idc9)%expr_pat => args <- invert_bind_args idc9 Raw.ident.Literal; args0 <- invert_bind_args idc8 Raw.ident.Z_cast; args1 <- invert_bind_args idc7 Raw.ident.Z_cast; _ <- invert_bind_args idc6 Raw.ident.Z_shiftr; args3 <- invert_bind_args idc5 Raw.ident.Z_cast; args4 <- invert_bind_args idc4 Raw.ident.Literal; args5 <- invert_bind_args idc3 Raw.ident.Z_cast; args6 <- invert_bind_args idc2 Raw.ident.Z_cast; _ <- invert_bind_args idc1 Raw.ident.Z_shiftr; args8 <- invert_bind_args idc0 Raw.ident.Z_cast; _ <- invert_bind_args idc Raw.ident.Z_mul; match pattern.type.unify_extracted ((ℤ -> ℤ) -> ℤ -> ℤ)%ptype ((s4 -> (projT1 args4)) -> s9 -> (projT1 args))%ptype with | Datatypes.Some (_, _, (_, _))%zrange => if type.type_beq base.type base.type.type_beq ((ℤ -> ℤ) -> ℤ -> ℤ)%ptype ((s4 -> (projT1 args4)) -> s9 -> (projT1 args))%ptype then v <- type.try_make_transport_cps s4 ℤ; xv <- ident.unify pattern.ident.Literal ##(projT2 args4); v0 <- type.try_make_transport_cps s9 ℤ; xv0 <- ident.unify pattern.ident.Literal ##(projT2 args); fv <- (if is_bounded_by_bool (let (x12, _) := xv in x12) (ZRange.normalize args5) && is_bounded_by_bool (let (x12, _) := xv0 in x12) (ZRange.normalize args0) && ((let (x12, _) := xv in x12) =? (let (x12, _) := xv0 in x12)) && (ZRange.normalize args6 >> ZRange.normalize (ZRange.constant (let (x12, _) := xv in x12)) <=? ZRange.normalize args8)%zrange && (ZRange.normalize args1 >> ZRange.normalize (ZRange.constant (let (x12, _) := xv0 in x12)) <=? ZRange.normalize args3)%zrange then Datatypes.Some (Reify.expr_value_to_rewrite_rule_replacement (@Compile.reflect_ident_iota var) false (#(Z_cast range)%expr @ (#(fancy_mulhh (2 * (let (x12, _) := xv in x12)))%expr @ (#(Z_cast args6)%expr @ ($(v (Compile.reflect x5)))%expr, #(Z_cast args1)%expr @ ($(v0 (Compile.reflect x10)))%expr)))%expr_pat) else Datatypes.None); Datatypes.Some (fv0 <-- fv; Base fv0)%under_lets else Datatypes.None | Datatypes.None => Datatypes.None end | (@expr.Ident _ _ _ t8 idc8 @ ($_)%expr)%expr_pat | (@expr.Ident _ _ _ t8 idc8 @ @expr.Abs _ _ _ _ _ _)%expr_pat | (@expr.Ident _ _ _ t8 idc8 @ (_ @ _))%expr_pat | (@expr.Ident _ _ _ t8 idc8 @ @expr.LetIn _ _ _ _ _ _ _)%expr_pat => Datatypes.None | _ => Datatypes.None end | @expr.App _ _ _ s9 _ ($_)%expr _ | @expr.App _ _ _ s9 _ (@expr.Abs _ _ _ _ _ _) _ | @expr.App _ _ _ s9 _ (_ @ _)%expr_pat _ | @expr.App _ _ _ s9 _ (@expr.LetIn _ _ _ _ _ _ _) _ => Datatypes.None | _ => Datatypes.None end | (@expr.Ident _ _ _ t5 idc5 @ ($_)%expr)%expr_pat | (@expr.Ident _ _ _ t5 idc5 @ @expr.Abs _ _ _ _ _ _)%expr_pat | (@expr.Ident _ _ _ t5 idc5 @ (#(_) @ _))%expr_pat | (@expr.Ident _ _ _ t5 idc5 @ (($_)%expr @ _))%expr_pat | (@expr.Ident _ _ _ t5 idc5 @ (@expr.Abs _ _ _ _ _ _ @ _))%expr_pat | (@expr.Ident _ _ _ t5 idc5 @ (($_)%expr @ _ @ _))%expr_pat | (@expr.Ident _ _ _ t5 idc5 @ (@expr.Abs _ _ _ _ _ _ @ _ @ _))%expr_pat | (@expr.Ident _ _ _ t5 idc5 @ (_ @ _ @ _ @ _))%expr_pat | (@expr.Ident _ _ _ t5 idc5 @ (@expr.LetIn _ _ _ _ _ _ _ @ _ @ _))%expr_pat | (@expr.Ident _ _ _ t5 idc5 @ (@expr.LetIn _ _ _ _ _ _ _ @ _))%expr_pat | (@expr.Ident _ _ _ t5 idc5 @ @expr.LetIn _ _ _ _ _ _ _)%expr_pat => Datatypes.None | _ => Datatypes.None end | (@expr.Ident _ _ _ t3 idc3 @ ($_)%expr)%expr_pat | (@expr.Ident _ _ _ t3 idc3 @ @expr.Abs _ _ _ _ _ _)%expr_pat | (@expr.Ident _ _ _ t3 idc3 @ (_ @ _))%expr_pat | (@expr.Ident _ _ _ t3 idc3 @ @expr.LetIn _ _ _ _ _ _ _)%expr_pat => Datatypes.None | _ => Datatypes.None end | @expr.App _ _ _ s4 _ ($_)%expr _ | @expr.App _ _ _ s4 _ (@expr.Abs _ _ _ _ _ _) _ | @expr.App _ _ _ s4 _ (_ @ _)%expr_pat _ | @expr.App _ _ _ s4 _ (@expr.LetIn _ _ _ _ _ _ _) _ => Datatypes.None | _ => Datatypes.None end | @expr.App _ _ _ s _ (@expr.App _ _ _ s0 _ (@expr.Ident _ _ _ t idc) (@expr.Ident _ _ _ t0 idc0 @ ($_)%expr)%expr_pat) _ | @expr.App _ _ _ s _ (@expr.App _ _ _ s0 _ (@expr.Ident _ _ _ t idc) (@expr.Ident _ _ _ t0 idc0 @ @expr.Abs _ _ _ _ _ _)%expr_pat) _ | @expr.App _ _ _ s _ (@expr.App _ _ _ s0 _ (@expr.Ident _ _ _ t idc) (@expr.Ident _ _ _ t0 idc0 @ (#(_) @ _))%expr_pat) _ | @expr.App _ _ _ s _ (@expr.App _ _ _ s0 _ (@expr.Ident _ _ _ t idc) (@expr.Ident _ _ _ t0 idc0 @ (($_)%expr @ _))%expr_pat) _ | @expr.App _ _ _ s _ (@expr.App _ _ _ s0 _ (@expr.Ident _ _ _ t idc) (@expr.Ident _ _ _ t0 idc0 @ (@expr.Abs _ _ _ _ _ _ @ _))%expr_pat) _ | @expr.App _ _ _ s _ (@expr.App _ _ _ s0 _ (@expr.Ident _ _ _ t idc) (@expr.Ident _ _ _ t0 idc0 @ (($_)%expr @ _ @ _))%expr_pat) _ | @expr.App _ _ _ s _ (@expr.App _ _ _ s0 _ (@expr.Ident _ _ _ t idc) (@expr.Ident _ _ _ t0 idc0 @ (@expr.Abs _ _ _ _ _ _ @ _ @ _))%expr_pat) _ | @expr.App _ _ _ s _ (@expr.App _ _ _ s0 _ (@expr.Ident _ _ _ t idc) (@expr.Ident _ _ _ t0 idc0 @ (_ @ _ @ _ @ _))%expr_pat) _ | @expr.App _ _ _ s _ (@expr.App _ _ _ s0 _ (@expr.Ident _ _ _ t idc) (@expr.Ident _ _ _ t0 idc0 @ (@expr.LetIn _ _ _ _ _ _ _ @ _ @ _))%expr_pat) _ | @expr.App _ _ _ s _ (@expr.App _ _ _ s0 _ (@expr.Ident _ _ _ t idc) (@expr.Ident _ _ _ t0 idc0 @ (@expr.LetIn _ _ _ _ _ _ _ @ _))%expr_pat) _ | @expr.App _ _ _ s _ (@expr.App _ _ _ s0 _ (@expr.Ident _ _ _ t idc) (@expr.Ident _ _ _ t0 idc0 @ @expr.LetIn _ _ _ _ _ _ _)%expr_pat) _ => Datatypes.None | @expr.App _ _ _ s _ (@expr.App _ _ _ s0 _ (@expr.Ident _ _ _ t idc) #(_)%expr_pat) _ | @expr.App _ _ _ s _ (@expr.App _ _ _ s0 _ (@expr.Ident _ _ _ t idc) ($_)%expr) _ | @expr.App _ _ _ s _ (@expr.App _ _ _ s0 _ (@expr.Ident _ _ _ t idc) (@expr.Abs _ _ _ _ _ _)) _ | @expr.App _ _ _ s _ (@expr.App _ _ _ s0 _ (@expr.Ident _ _ _ t idc) (($_)%expr @ _)%expr_pat) _ | @expr.App _ _ _ s _ (@expr.App _ _ _ s0 _ (@expr.Ident _ _ _ t idc) (@expr.Abs _ _ _ _ _ _ @ _)%expr_pat) _ | @expr.App _ _ _ s _ (@expr.App _ _ _ s0 _ (@expr.Ident _ _ _ t idc) (_ @ _ @ _)%expr_pat) _ | @expr.App _ _ _ s _ (@expr.App _ _ _ s0 _ (@expr.Ident _ _ _ t idc) (@expr.LetIn _ _ _ _ _ _ _ @ _)%expr_pat) _ | @expr.App _ _ _ s _ (@expr.App _ _ _ s0 _ (@expr.Ident _ _ _ t idc) (@expr.LetIn _ _ _ _ _ _ _)) _ => Datatypes.None | @expr.App _ _ _ s _ (@expr.App _ _ _ s0 _ (@expr.App _ _ _ s1 _ (@expr.Ident _ _ _ t idc) x2) x1) x0 => match x2 with | (@expr.Ident _ _ _ t0 idc0 @ (@expr.Ident _ _ _ t1 idc1 @ x5 @ x4))%expr_pat => match x5 with | (@expr.Ident _ _ _ t2 idc2 @ @expr.Ident _ _ _ t3 idc3)%expr_pat => match x4 with | @expr.App _ _ _ s6 _ (@expr.Ident _ _ _ t4 idc4) x7 => match x1 with | @expr.App _ _ _ s7 _ (@expr.Ident _ _ _ t5 idc5) x8 => match x0 with | @expr.App _ _ _ s8 _ (@expr.Ident _ _ _ t6 idc6) x9 => args <- invert_bind_args idc6 Raw.ident.Z_cast; args0 <- invert_bind_args idc5 Raw.ident.Z_cast; args1 <- invert_bind_args idc4 Raw.ident.Z_cast; args2 <- invert_bind_args idc3 Raw.ident.Literal; args3 <- invert_bind_args idc2 Raw.ident.Z_cast; _ <- invert_bind_args idc1 Raw.ident.Z_cc_m; args5 <- invert_bind_args idc0 Raw.ident.Z_cast; _ <- invert_bind_args idc Raw.ident.Z_zselect; match pattern.type.unify_extracted (((ℤ -> ℤ) -> ℤ) -> ℤ)%ptype ((((projT1 args2) -> s6) -> s7) -> s8)%ptype with | Datatypes.Some (_, _, _, _)%zrange => if type.type_beq base.type base.type.type_beq (((ℤ -> ℤ) -> ℤ) -> ℤ)%ptype ((((projT1 args2) -> s6) -> s7) -> s8)%ptype then xv <- ident.unify pattern.ident.Literal ##(projT2 args2); v <- type.try_make_transport_cps s6 ℤ; v0 <- type.try_make_transport_cps s7 ℤ; v1 <- type.try_make_transport_cps s8 ℤ; fv <- (if is_bounded_by_bool (let (x10, _) := xv in x10) (ZRange.normalize args3) && ((let (x10, _) := xv in x10) =? 2 ^ Z.log2 (let (x10, _) := xv in x10)) && ((ZRange.cc_m (let (x10, _) := xv in x10)) (ZRange.normalize args1) <=? ZRange.normalize args5)%zrange then Datatypes.Some (Reify.expr_value_to_rewrite_rule_replacement (@Compile.reflect_ident_iota var) false (#(Z_cast range)%expr @ (#(fancy_selm (Z.log2 (let (x10, _) := xv in x10)))%expr @ (#(Z_cast args1)%expr @ ($(v (Compile.reflect x7)))%expr, #(Z_cast args0)%expr @ ($(v0 (Compile.reflect x8)))%expr, #(Z_cast args)%expr @ ($(v1 (Compile.reflect x9)))%expr)))%expr_pat) else Datatypes.None); Datatypes.Some (fv0 <-- fv; Base fv0)%under_lets else Datatypes.None | Datatypes.None => Datatypes.None end | @expr.App _ _ _ s8 _ ($_)%expr _ | @expr.App _ _ _ s8 _ (@expr.Abs _ _ _ _ _ _) _ | @expr.App _ _ _ s8 _ (_ @ _)%expr_pat _ | @expr.App _ _ _ s8 _ (@expr.LetIn _ _ _ _ _ _ _) _ => Datatypes.None | _ => Datatypes.None end | @expr.App _ _ _ s7 _ ($_)%expr _ | @expr.App _ _ _ s7 _ (@expr.Abs _ _ _ _ _ _) _ | @expr.App _ _ _ s7 _ (_ @ _)%expr_pat _ | @expr.App _ _ _ s7 _ (@expr.LetIn _ _ _ _ _ _ _) _ => Datatypes.None | _ => Datatypes.None end | @expr.App _ _ _ s6 _ ($_)%expr _ | @expr.App _ _ _ s6 _ (@expr.Abs _ _ _ _ _ _) _ | @expr.App _ _ _ s6 _ (_ @ _)%expr_pat _ | @expr.App _ _ _ s6 _ (@expr.LetIn _ _ _ _ _ _ _) _ => Datatypes.None | _ => Datatypes.None end | (@expr.Ident _ _ _ t2 idc2 @ ($_)%expr)%expr_pat | (@expr.Ident _ _ _ t2 idc2 @ @expr.Abs _ _ _ _ _ _)%expr_pat | (@expr.Ident _ _ _ t2 idc2 @ (_ @ _))%expr_pat | (@expr.Ident _ _ _ t2 idc2 @ @expr.LetIn _ _ _ _ _ _ _)%expr_pat => Datatypes.None | _ => Datatypes.None end;; match x5 with | @expr.App _ _ _ s5 _ (@expr.Ident _ _ _ t2 idc2) x6 => match x6 with | @expr.Ident _ _ _ t3 idc3 => match x4 with | @expr.App _ _ _ s6 _ (@expr.Ident _ _ _ t4 idc4) x7 => match x1 with | @expr.App _ _ _ s7 _ (@expr.Ident _ _ _ t5 idc5) x8 => match x0 with | @expr.App _ _ _ s8 _ (@expr.Ident _ _ _ t6 idc6) x9 => args <- invert_bind_args idc6 Raw.ident.Z_cast; args0 <- invert_bind_args idc5 Raw.ident.Z_cast; args1 <- invert_bind_args idc4 Raw.ident.Z_cast; args2 <- invert_bind_args idc3 Raw.ident.Literal; args3 <- invert_bind_args idc2 Raw.ident.Z_cast; _ <- invert_bind_args idc1 Raw.ident.Z_land; args5 <- invert_bind_args idc0 Raw.ident.Z_cast; _ <- invert_bind_args idc Raw.ident.Z_zselect; match pattern.type.unify_extracted (((ℤ -> ℤ) -> ℤ) -> ℤ)%ptype ((((projT1 args2) -> s6) -> s7) -> s8)%ptype with | Datatypes.Some (_, _, _, _)%zrange => if type.type_beq base.type base.type.type_beq (((ℤ -> ℤ) -> ℤ) -> ℤ)%ptype ((((projT1 args2) -> s6) -> s7) -> s8)%ptype then xv <- ident.unify pattern.ident.Literal ##(projT2 args2); v <- type.try_make_transport_cps s6 ℤ; v0 <- type.try_make_transport_cps s7 ℤ; v1 <- type.try_make_transport_cps s8 ℤ; fv <- (if is_bounded_by_bool 1 (ZRange.normalize args3) && (ZRange.normalize (ZRange.constant 1) &' ZRange.normalize args1 <=? ZRange.normalize args5)%zrange && ((let (x10, _) := xv in x10) =? 1) then Datatypes.Some (Reify.expr_value_to_rewrite_rule_replacement (@Compile.reflect_ident_iota var) false (#(Z_cast range)%expr @ (#(fancy_sell)%expr @ (#(Z_cast args1)%expr @ ($(v (Compile.reflect x7)))%expr, #(Z_cast args0)%expr @ ($(v0 (Compile.reflect x8)))%expr, #(Z_cast args)%expr @ ($(v1 (Compile.reflect x9)))%expr)))%expr_pat) else Datatypes.None); Datatypes.Some (fv0 <-- fv; Base fv0)%under_lets else Datatypes.None | Datatypes.None => Datatypes.None end | @expr.App _ _ _ s8 _ ($_)%expr _ | @expr.App _ _ _ s8 _ (@expr.Abs _ _ _ _ _ _) _ | @expr.App _ _ _ s8 _ (_ @ _)%expr_pat _ | @expr.App _ _ _ s8 _ (@expr.LetIn _ _ _ _ _ _ _) _ => Datatypes.None | _ => Datatypes.None end | @expr.App _ _ _ s7 _ ($_)%expr _ | @expr.App _ _ _ s7 _ (@expr.Abs _ _ _ _ _ _) _ | @expr.App _ _ _ s7 _ (_ @ _)%expr_pat _ | @expr.App _ _ _ s7 _ (@expr.LetIn _ _ _ _ _ _ _) _ => Datatypes.None | _ => Datatypes.None end | @expr.App _ _ _ s6 _ ($_)%expr _ | @expr.App _ _ _ s6 _ (@expr.Abs _ _ _ _ _ _) _ | @expr.App _ _ _ s6 _ (_ @ _)%expr_pat _ | @expr.App _ _ _ s6 _ (@expr.LetIn _ _ _ _ _ _ _) _ => Datatypes.None | _ => Datatypes.None end | _ => Datatypes.None end;; match x4 with | (@expr.Ident _ _ _ t3 idc3 @ @expr.Ident _ _ _ t4 idc4)%expr_pat => match x1 with | @expr.App _ _ _ s7 _ (@expr.Ident _ _ _ t5 idc5) x8 => match x0 with | @expr.App _ _ _ s8 _ (@expr.Ident _ _ _ t6 idc6) x9 => args <- invert_bind_args idc6 Raw.ident.Z_cast; args0 <- invert_bind_args idc5 Raw.ident.Z_cast; args1 <- invert_bind_args idc4 Raw.ident.Literal; args2 <- invert_bind_args idc3 Raw.ident.Z_cast; args3 <- invert_bind_args idc2 Raw.ident.Z_cast; _ <- invert_bind_args idc1 Raw.ident.Z_land; args5 <- invert_bind_args idc0 Raw.ident.Z_cast; _ <- invert_bind_args idc Raw.ident.Z_zselect; match pattern.type.unify_extracted (((ℤ -> ℤ) -> ℤ) -> ℤ)%ptype (((s5 -> (projT1 args1)) -> s7) -> s8)%ptype with | Datatypes.Some (_, _, _, _)%zrange => if type.type_beq base.type base.type.type_beq (((ℤ -> ℤ) -> ℤ) -> ℤ)%ptype (((s5 -> (projT1 args1)) -> s7) -> s8)%ptype then v <- type.try_make_transport_cps s5 ℤ; xv <- ident.unify pattern.ident.Literal ##(projT2 args1); v0 <- type.try_make_transport_cps s7 ℤ; v1 <- type.try_make_transport_cps s8 ℤ; fv <- (if is_bounded_by_bool 1 (ZRange.normalize args2) && (ZRange.normalize args3 &' ZRange.normalize (ZRange.constant 1) <=? ZRange.normalize args5)%zrange && ((let (x10, _) := xv in x10) =? 1) then Datatypes.Some (Reify.expr_value_to_rewrite_rule_replacement (@Compile.reflect_ident_iota var) false (#(Z_cast range)%expr @ (#(fancy_sell)%expr @ (#(Z_cast args3)%expr @ ($(v (Compile.reflect x6)))%expr, #(Z_cast args0)%expr @ ($(v0 (Compile.reflect x8)))%expr, #(Z_cast args)%expr @ ($(v1 (Compile.reflect x9)))%expr)))%expr_pat) else Datatypes.None); Datatypes.Some (fv0 <-- fv; Base fv0)%under_lets else Datatypes.None | Datatypes.None => Datatypes.None end | @expr.App _ _ _ s8 _ ($_)%expr _ | @expr.App _ _ _ s8 _ (@expr.Abs _ _ _ _ _ _) _ | @expr.App _ _ _ s8 _ (_ @ _)%expr_pat _ | @expr.App _ _ _ s8 _ (@expr.LetIn _ _ _ _ _ _ _) _ => Datatypes.None | _ => Datatypes.None end | @expr.App _ _ _ s7 _ ($_)%expr _ | @expr.App _ _ _ s7 _ (@expr.Abs _ _ _ _ _ _) _ | @expr.App _ _ _ s7 _ (_ @ _)%expr_pat _ | @expr.App _ _ _ s7 _ (@expr.LetIn _ _ _ _ _ _ _) _ => Datatypes.None | _ => Datatypes.None end | (@expr.Ident _ _ _ t3 idc3 @ ($_)%expr)%expr_pat | (@expr.Ident _ _ _ t3 idc3 @ @expr.Abs _ _ _ _ _ _)%expr_pat | (@expr.Ident _ _ _ t3 idc3 @ (_ @ _))%expr_pat | (@expr.Ident _ _ _ t3 idc3 @ @expr.LetIn _ _ _ _ _ _ _)%expr_pat => Datatypes.None | _ => Datatypes.None end | @expr.App _ _ _ s5 _ ($_)%expr _ | @expr.App _ _ _ s5 _ (@expr.Abs _ _ _ _ _ _) _ | @expr.App _ _ _ s5 _ (_ @ _)%expr_pat _ | @expr.App _ _ _ s5 _ (@expr.LetIn _ _ _ _ _ _ _) _ => Datatypes.None | _ => Datatypes.None end | (@expr.Ident _ _ _ t0 idc0 @ #(_))%expr_pat | (@expr.Ident _ _ _ t0 idc0 @ ($_)%expr)%expr_pat | (@expr.Ident _ _ _ t0 idc0 @ @expr.Abs _ _ _ _ _ _)%expr_pat | (@expr.Ident _ _ _ t0 idc0 @ (#(_) @ _))%expr_pat | (@expr.Ident _ _ _ t0 idc0 @ (($_)%expr @ _))%expr_pat | (@expr.Ident _ _ _ t0 idc0 @ (@expr.Abs _ _ _ _ _ _ @ _))%expr_pat | (@expr.Ident _ _ _ t0 idc0 @ (($_)%expr @ _ @ _))%expr_pat | (@expr.Ident _ _ _ t0 idc0 @ (@expr.Abs _ _ _ _ _ _ @ _ @ _))%expr_pat | (@expr.Ident _ _ _ t0 idc0 @ (_ @ _ @ _ @ _))%expr_pat | (@expr.Ident _ _ _ t0 idc0 @ (@expr.LetIn _ _ _ _ _ _ _ @ _ @ _))%expr_pat | (@expr.Ident _ _ _ t0 idc0 @ (@expr.LetIn _ _ _ _ _ _ _ @ _))%expr_pat | (@expr.Ident _ _ _ t0 idc0 @ @expr.LetIn _ _ _ _ _ _ _)%expr_pat => Datatypes.None | _ => Datatypes.None end;; _ <- invert_bind_args idc Raw.ident.Z_zselect; match pattern.type.unify_extracted ((ℤ -> ℤ) -> ℤ)%ptype ((s1 -> s0) -> s)%ptype with | Datatypes.Some (_, _, _)%zrange => if type.type_beq base.type base.type.type_beq ((ℤ -> ℤ) -> ℤ)%ptype ((s1 -> s0) -> s)%ptype then v <- type.try_make_transport_cps s1 ℤ; v0 <- type.try_make_transport_cps s0 ℤ; v1 <- type.try_make_transport_cps s ℤ; Datatypes.Some (fv <-- Reify.expr_value_to_rewrite_rule_replacement (@Compile.reflect_ident_iota var) false (#(Z_cast range)%expr @ (#(fancy_selc)%expr @ (($(v (Compile.reflect x2)))%expr, ($(v0 (Compile.reflect x1)))%expr, ($(v1 (Compile.reflect x0)))%expr)))%expr_pat; Base fv)%under_lets else Datatypes.None | Datatypes.None => Datatypes.None end | @expr.App _ _ _ s _ (@expr.App _ _ _ s0 _ (@expr.App _ _ _ s1 _ (@expr.Ident _ _ _ t idc @ (@expr.Ident _ _ _ t0 idc0 @ @expr.Ident _ _ _ t1 idc1))%expr_pat (@expr.App _ _ _ s4 _ (@expr.Ident _ _ _ t2 idc2) x5)) (@expr.App _ _ _ s5 _ (@expr.Ident _ _ _ t3 idc3) x6)) (@expr.Ident _ _ _ t4 idc4 @ @expr.Ident _ _ _ t5 idc5)%expr_pat => args <- invert_bind_args idc5 Raw.ident.Literal; args0 <- invert_bind_args idc4 Raw.ident.Z_cast; args1 <- invert_bind_args idc3 Raw.ident.Z_cast; args2 <- invert_bind_args idc2 Raw.ident.Z_cast; args3 <- invert_bind_args idc1 Raw.ident.Literal; args4 <- invert_bind_args idc0 Raw.ident.Z_cast; _ <- invert_bind_args idc Raw.ident.Z_rshi; match pattern.type.unify_extracted (((ℤ -> ℤ) -> ℤ) -> ℤ)%ptype ((((projT1 args3) -> s4) -> s5) -> (projT1 args))%ptype with | Datatypes.Some (_, _, _, _)%zrange => if type.type_beq base.type base.type.type_beq (((ℤ -> ℤ) -> ℤ) -> ℤ)%ptype ((((projT1 args3) -> s4) -> s5) -> (projT1 args))%ptype then xv <- ident.unify pattern.ident.Literal ##(projT2 args3); v <- type.try_make_transport_cps s4 ℤ; v0 <- type.try_make_transport_cps s5 ℤ; xv0 <- ident.unify pattern.ident.Literal ##(projT2 args); fv <- (if is_bounded_by_bool (let (x8, _) := xv in x8) (ZRange.normalize args4) && is_bounded_by_bool (let (x8, _) := xv0 in x8) (ZRange.normalize args0) && ((let (x8, _) := xv in x8) =? 2 ^ Z.log2 (let (x8, _) := xv in x8)) then Datatypes.Some (Reify.expr_value_to_rewrite_rule_replacement (@Compile.reflect_ident_iota var) false (#(Z_cast range)%expr @ (#(fancy_rshi (Z.log2 (let (x8, _) := xv in x8)) (let (x8, _) := xv0 in x8))%expr @ (#(Z_cast args2)%expr @ ($(v (Compile.reflect x5)))%expr, #(Z_cast args1)%expr @ ($(v0 (Compile.reflect x6)))%expr)))%expr_pat) else Datatypes.None); Datatypes.Some (fv0 <-- fv; Base fv0)%under_lets else Datatypes.None | Datatypes.None => Datatypes.None end | @expr.App _ _ _ s _ (@expr.App _ _ _ s0 _ (@expr.App _ _ _ s1 _ (@expr.Ident _ _ _ t idc @ (@expr.Ident _ _ _ t0 idc0 @ @expr.Ident _ _ _ t1 idc1))%expr_pat (@expr.App _ _ _ s4 _ (@expr.Ident _ _ _ t2 idc2) x5)) (@expr.App _ _ _ s5 _ (@expr.Ident _ _ _ t3 idc3) x6)) (@expr.Ident _ _ _ t4 idc4 @ ($_)%expr)%expr_pat | @expr.App _ _ _ s _ (@expr.App _ _ _ s0 _ (@expr.App _ _ _ s1 _ (@expr.Ident _ _ _ t idc @ (@expr.Ident _ _ _ t0 idc0 @ @expr.Ident _ _ _ t1 idc1))%expr_pat (@expr.App _ _ _ s4 _ (@expr.Ident _ _ _ t2 idc2) x5)) (@expr.App _ _ _ s5 _ (@expr.Ident _ _ _ t3 idc3) x6)) (@expr.Ident _ _ _ t4 idc4 @ @expr.Abs _ _ _ _ _ _)%expr_pat | @expr.App _ _ _ s _ (@expr.App _ _ _ s0 _ (@expr.App _ _ _ s1 _ (@expr.Ident _ _ _ t idc @ (@expr.Ident _ _ _ t0 idc0 @ @expr.Ident _ _ _ t1 idc1))%expr_pat (@expr.App _ _ _ s4 _ (@expr.Ident _ _ _ t2 idc2) x5)) (@expr.App _ _ _ s5 _ (@expr.Ident _ _ _ t3 idc3) x6)) (@expr.Ident _ _ _ t4 idc4 @ (_ @ _))%expr_pat | @expr.App _ _ _ s _ (@expr.App _ _ _ s0 _ (@expr.App _ _ _ s1 _ (@expr.Ident _ _ _ t idc @ (@expr.Ident _ _ _ t0 idc0 @ @expr.Ident _ _ _ t1 idc1))%expr_pat (@expr.App _ _ _ s4 _ (@expr.Ident _ _ _ t2 idc2) x5)) (@expr.App _ _ _ s5 _ (@expr.Ident _ _ _ t3 idc3) x6)) (@expr.Ident _ _ _ t4 idc4 @ @expr.LetIn _ _ _ _ _ _ _)%expr_pat => Datatypes.None | @expr.App _ _ _ s _ (@expr.App _ _ _ s0 _ (@expr.App _ _ _ s1 _ (@expr.Ident _ _ _ t idc @ (@expr.Ident _ _ _ t0 idc0 @ @expr.Ident _ _ _ t1 idc1))%expr_pat (@expr.App _ _ _ s4 _ (@expr.Ident _ _ _ t2 idc2) x5)) (@expr.App _ _ _ s5 _ (@expr.Ident _ _ _ t3 idc3) x6)) #(_)%expr_pat | @expr.App _ _ _ s _ (@expr.App _ _ _ s0 _ (@expr.App _ _ _ s1 _ (@expr.Ident _ _ _ t idc @ (@expr.Ident _ _ _ t0 idc0 @ @expr.Ident _ _ _ t1 idc1))%expr_pat (@expr.App _ _ _ s4 _ (@expr.Ident _ _ _ t2 idc2) x5)) (@expr.App _ _ _ s5 _ (@expr.Ident _ _ _ t3 idc3) x6)) ($_)%expr | @expr.App _ _ _ s _ (@expr.App _ _ _ s0 _ (@expr.App _ _ _ s1 _ (@expr.Ident _ _ _ t idc @ (@expr.Ident _ _ _ t0 idc0 @ @expr.Ident _ _ _ t1 idc1))%expr_pat (@expr.App _ _ _ s4 _ (@expr.Ident _ _ _ t2 idc2) x5)) (@expr.App _ _ _ s5 _ (@expr.Ident _ _ _ t3 idc3) x6)) (@expr.Abs _ _ _ _ _ _) | @expr.App _ _ _ s _ (@expr.App _ _ _ s0 _ (@expr.App _ _ _ s1 _ (@expr.Ident _ _ _ t idc @ (@expr.Ident _ _ _ t0 idc0 @ @expr.Ident _ _ _ t1 idc1))%expr_pat (@expr.App _ _ _ s4 _ (@expr.Ident _ _ _ t2 idc2) x5)) (@expr.App _ _ _ s5 _ (@expr.Ident _ _ _ t3 idc3) x6)) (($_)%expr @ _)%expr_pat | @expr.App _ _ _ s _ (@expr.App _ _ _ s0 _ (@expr.App _ _ _ s1 _ (@expr.Ident _ _ _ t idc @ (@expr.Ident _ _ _ t0 idc0 @ @expr.Ident _ _ _ t1 idc1))%expr_pat (@expr.App _ _ _ s4 _ (@expr.Ident _ _ _ t2 idc2) x5)) (@expr.App _ _ _ s5 _ (@expr.Ident _ _ _ t3 idc3) x6)) (@expr.Abs _ _ _ _ _ _ @ _)%expr_pat | @expr.App _ _ _ s _ (@expr.App _ _ _ s0 _ (@expr.App _ _ _ s1 _ (@expr.Ident _ _ _ t idc @ (@expr.Ident _ _ _ t0 idc0 @ @expr.Ident _ _ _ t1 idc1))%expr_pat (@expr.App _ _ _ s4 _ (@expr.Ident _ _ _ t2 idc2) x5)) (@expr.App _ _ _ s5 _ (@expr.Ident _ _ _ t3 idc3) x6)) (_ @ _ @ _)%expr_pat | @expr.App _ _ _ s _ (@expr.App _ _ _ s0 _ (@expr.App _ _ _ s1 _ (@expr.Ident _ _ _ t idc @ (@expr.Ident _ _ _ t0 idc0 @ @expr.Ident _ _ _ t1 idc1))%expr_pat (@expr.App _ _ _ s4 _ (@expr.Ident _ _ _ t2 idc2) x5)) (@expr.App _ _ _ s5 _ (@expr.Ident _ _ _ t3 idc3) x6)) (@expr.LetIn _ _ _ _ _ _ _ @ _)%expr_pat | @expr.App _ _ _ s _ (@expr.App _ _ _ s0 _ (@expr.App _ _ _ s1 _ (@expr.Ident _ _ _ t idc @ (@expr.Ident _ _ _ t0 idc0 @ @expr.Ident _ _ _ t1 idc1))%expr_pat (@expr.App _ _ _ s4 _ (@expr.Ident _ _ _ t2 idc2) x5)) (@expr.App _ _ _ s5 _ (@expr.Ident _ _ _ t3 idc3) x6)) (@expr.LetIn _ _ _ _ _ _ _) => Datatypes.None | @expr.App _ _ _ s _ (@expr.App _ _ _ s0 _ (@expr.App _ _ _ s1 _ (@expr.Ident _ _ _ t idc @ (@expr.Ident _ _ _ t0 idc0 @ @expr.Ident _ _ _ t1 idc1))%expr_pat (@expr.App _ _ _ s4 _ (@expr.Ident _ _ _ t2 idc2) x5)) (@expr.App _ _ _ s5 _ ($_)%expr _)) _ | @expr.App _ _ _ s _ (@expr.App _ _ _ s0 _ (@expr.App _ _ _ s1 _ (@expr.Ident _ _ _ t idc @ (@expr.Ident _ _ _ t0 idc0 @ @expr.Ident _ _ _ t1 idc1))%expr_pat (@expr.App _ _ _ s4 _ (@expr.Ident _ _ _ t2 idc2) x5)) (@expr.App _ _ _ s5 _ (@expr.Abs _ _ _ _ _ _) _)) _ | @expr.App _ _ _ s _ (@expr.App _ _ _ s0 _ (@expr.App _ _ _ s1 _ (@expr.Ident _ _ _ t idc @ (@expr.Ident _ _ _ t0 idc0 @ @expr.Ident _ _ _ t1 idc1))%expr_pat (@expr.App _ _ _ s4 _ (@expr.Ident _ _ _ t2 idc2) x5)) (@expr.App _ _ _ s5 _ (_ @ _)%expr_pat _)) _ | @expr.App _ _ _ s _ (@expr.App _ _ _ s0 _ (@expr.App _ _ _ s1 _ (@expr.Ident _ _ _ t idc @ (@expr.Ident _ _ _ t0 idc0 @ @expr.Ident _ _ _ t1 idc1))%expr_pat (@expr.App _ _ _ s4 _ (@expr.Ident _ _ _ t2 idc2) x5)) (@expr.App _ _ _ s5 _ (@expr.LetIn _ _ _ _ _ _ _) _)) _ => Datatypes.None | @expr.App _ _ _ s _ (@expr.App _ _ _ s0 _ (@expr.App _ _ _ s1 _ (@expr.Ident _ _ _ t idc @ (@expr.Ident _ _ _ t0 idc0 @ @expr.Ident _ _ _ t1 idc1))%expr_pat (@expr.App _ _ _ s4 _ (@expr.Ident _ _ _ t2 idc2) x5)) #(_)%expr_pat) _ | @expr.App _ _ _ s _ (@expr.App _ _ _ s0 _ (@expr.App _ _ _ s1 _ (@expr.Ident _ _ _ t idc @ (@expr.Ident _ _ _ t0 idc0 @ @expr.Ident _ _ _ t1 idc1))%expr_pat (@expr.App _ _ _ s4 _ (@expr.Ident _ _ _ t2 idc2) x5)) ($_)%expr) _ | @expr.App _ _ _ s _ (@expr.App _ _ _ s0 _ (@expr.App _ _ _ s1 _ (@expr.Ident _ _ _ t idc @ (@expr.Ident _ _ _ t0 idc0 @ @expr.Ident _ _ _ t1 idc1))%expr_pat (@expr.App _ _ _ s4 _ (@expr.Ident _ _ _ t2 idc2) x5)) (@expr.Abs _ _ _ _ _ _)) _ | @expr.App _ _ _ s _ (@expr.App _ _ _ s0 _ (@expr.App _ _ _ s1 _ (@expr.Ident _ _ _ t idc @ (@expr.Ident _ _ _ t0 idc0 @ @expr.Ident _ _ _ t1 idc1))%expr_pat (@expr.App _ _ _ s4 _ (@expr.Ident _ _ _ t2 idc2) x5)) (@expr.LetIn _ _ _ _ _ _ _)) _ => Datatypes.None | @expr.App _ _ _ s _ (@expr.App _ _ _ s0 _ (@expr.App _ _ _ s1 _ (@expr.Ident _ _ _ t idc @ (@expr.Ident _ _ _ t0 idc0 @ @expr.Ident _ _ _ t1 idc1))%expr_pat (@expr.App _ _ _ s4 _ ($_)%expr _)) _) _ | @expr.App _ _ _ s _ (@expr.App _ _ _ s0 _ (@expr.App _ _ _ s1 _ (@expr.Ident _ _ _ t idc @ (@expr.Ident _ _ _ t0 idc0 @ @expr.Ident _ _ _ t1 idc1))%expr_pat (@expr.App _ _ _ s4 _ (@expr.Abs _ _ _ _ _ _) _)) _) _ | @expr.App _ _ _ s _ (@expr.App _ _ _ s0 _ (@expr.App _ _ _ s1 _ (@expr.Ident _ _ _ t idc @ (@expr.Ident _ _ _ t0 idc0 @ @expr.Ident _ _ _ t1 idc1))%expr_pat (@expr.App _ _ _ s4 _ (_ @ _)%expr_pat _)) _) _ | @expr.App _ _ _ s _ (@expr.App _ _ _ s0 _ (@expr.App _ _ _ s1 _ (@expr.Ident _ _ _ t idc @ (@expr.Ident _ _ _ t0 idc0 @ @expr.Ident _ _ _ t1 idc1))%expr_pat (@expr.App _ _ _ s4 _ (@expr.LetIn _ _ _ _ _ _ _) _)) _) _ => Datatypes.None | @expr.App _ _ _ s _ (@expr.App _ _ _ s0 _ (@expr.App _ _ _ s1 _ (@expr.Ident _ _ _ t idc @ (@expr.Ident _ _ _ t0 idc0 @ @expr.Ident _ _ _ t1 idc1))%expr_pat #(_)%expr_pat) _) _ | @expr.App _ _ _ s _ (@expr.App _ _ _ s0 _ (@expr.App _ _ _ s1 _ (@expr.Ident _ _ _ t idc @ (@expr.Ident _ _ _ t0 idc0 @ @expr.Ident _ _ _ t1 idc1))%expr_pat ($_)%expr) _) _ | @expr.App _ _ _ s _ (@expr.App _ _ _ s0 _ (@expr.App _ _ _ s1 _ (@expr.Ident _ _ _ t idc @ (@expr.Ident _ _ _ t0 idc0 @ @expr.Ident _ _ _ t1 idc1))%expr_pat (@expr.Abs _ _ _ _ _ _)) _) _ | @expr.App _ _ _ s _ (@expr.App _ _ _ s0 _ (@expr.App _ _ _ s1 _ (@expr.Ident _ _ _ t idc @ (@expr.Ident _ _ _ t0 idc0 @ @expr.Ident _ _ _ t1 idc1))%expr_pat (@expr.LetIn _ _ _ _ _ _ _)) _) _ => Datatypes.None | @expr.App _ _ _ s _ (@expr.App _ _ _ s0 _ (@expr.App _ _ _ s1 _ (@expr.Ident _ _ _ t idc @ (@expr.Ident _ _ _ t0 idc0 @ ($_)%expr))%expr_pat _) _) _ | @expr.App _ _ _ s _ (@expr.App _ _ _ s0 _ (@expr.App _ _ _ s1 _ (@expr.Ident _ _ _ t idc @ (@expr.Ident _ _ _ t0 idc0 @ @expr.Abs _ _ _ _ _ _))%expr_pat _) _) _ | @expr.App _ _ _ s _ (@expr.App _ _ _ s0 _ (@expr.App _ _ _ s1 _ (@expr.Ident _ _ _ t idc @ (@expr.Ident _ _ _ t0 idc0 @ (_ @ _)))%expr_pat _) _) _ | @expr.App _ _ _ s _ (@expr.App _ _ _ s0 _ (@expr.App _ _ _ s1 _ (@expr.Ident _ _ _ t idc @ (@expr.Ident _ _ _ t0 idc0 @ @expr.LetIn _ _ _ _ _ _ _))%expr_pat _) _) _ => Datatypes.None | @expr.App _ _ _ s _ (@expr.App _ _ _ s0 _ (@expr.App _ _ _ s1 _ (@expr.Ident _ _ _ t idc @ #(_))%expr_pat _) _) _ | @expr.App _ _ _ s _ (@expr.App _ _ _ s0 _ (@expr.App _ _ _ s1 _ (@expr.Ident _ _ _ t idc @ ($_)%expr)%expr_pat _) _) _ | @expr.App _ _ _ s _ (@expr.App _ _ _ s0 _ (@expr.App _ _ _ s1 _ (@expr.Ident _ _ _ t idc @ @expr.Abs _ _ _ _ _ _)%expr_pat _) _) _ | @expr.App _ _ _ s _ (@expr.App _ _ _ s0 _ (@expr.App _ _ _ s1 _ (@expr.Ident _ _ _ t idc @ (($_)%expr @ _))%expr_pat _) _) _ | @expr.App _ _ _ s _ (@expr.App _ _ _ s0 _ (@expr.App _ _ _ s1 _ (@expr.Ident _ _ _ t idc @ (@expr.Abs _ _ _ _ _ _ @ _))%expr_pat _) _) _ | @expr.App _ _ _ s _ (@expr.App _ _ _ s0 _ (@expr.App _ _ _ s1 _ (@expr.Ident _ _ _ t idc @ (_ @ _ @ _))%expr_pat _) _) _ | @expr.App _ _ _ s _ (@expr.App _ _ _ s0 _ (@expr.App _ _ _ s1 _ (@expr.Ident _ _ _ t idc @ (@expr.LetIn _ _ _ _ _ _ _ @ _))%expr_pat _) _) _ | @expr.App _ _ _ s _ (@expr.App _ _ _ s0 _ (@expr.App _ _ _ s1 _ (@expr.Ident _ _ _ t idc @ @expr.LetIn _ _ _ _ _ _ _)%expr_pat _) _) _ => Datatypes.None | @expr.App _ _ _ s _ (@expr.App _ _ _ s0 _ (@expr.App _ _ _ s1 _ ($_)%expr _) _) _ | @expr.App _ _ _ s _ (@expr.App _ _ _ s0 _ (@expr.App _ _ _ s1 _ (@expr.Abs _ _ _ _ _ _) _) _) _ | @expr.App _ _ _ s _ (@expr.App _ _ _ s0 _ (@expr.App _ _ _ s1 _ (($_)%expr @ _)%expr_pat _) _) _ | @expr.App _ _ _ s _ (@expr.App _ _ _ s0 _ (@expr.App _ _ _ s1 _ (@expr.Abs _ _ _ _ _ _ @ _)%expr_pat _) _) _ | @expr.App _ _ _ s _ (@expr.App _ _ _ s0 _ (@expr.App _ _ _ s1 _ (_ @ _ @ _)%expr_pat _) _) _ | @expr.App _ _ _ s _ (@expr.App _ _ _ s0 _ (@expr.App _ _ _ s1 _ (@expr.LetIn _ _ _ _ _ _ _ @ _)%expr_pat _) _) _ | @expr.App _ _ _ s _ (@expr.App _ _ _ s0 _ (@expr.App _ _ _ s1 _ (@expr.LetIn _ _ _ _ _ _ _) _) _) _ => Datatypes.None | @expr.App _ _ _ s _ (@expr.App _ _ _ s0 _ ($_)%expr _) _ | @expr.App _ _ _ s _ (@expr.App _ _ _ s0 _ (@expr.Abs _ _ _ _ _ _) _) _ | @expr.App _ _ _ s _ (@expr.App _ _ _ s0 _ (@expr.LetIn _ _ _ _ _ _ _) _) _ => Datatypes.None | @expr.App _ _ _ s _ #(_)%expr_pat _ | @expr.App _ _ _ s _ ($_)%expr _ | @expr.App _ _ _ s _ (@expr.Abs _ _ _ _ _ _) _ | @expr.App _ _ _ s _ (@expr.LetIn _ _ _ _ _ _ _) _ => Datatypes.None | _ => Datatypes.None end;; match pattern.type.unify_extracted ℤ ℤ with | Datatypes.Some _ => if type.type_beq base.type base.type.type_beq ℤ ℤ then fv <- (if (range <=? value_range)%zrange || (range <=? flag_range)%zrange then Datatypes.Some (Reify.expr_value_to_rewrite_rule_replacement (@Compile.reflect_ident_iota var) false (#(Z_cast range)%expr @ ($x)%expr)%expr_pat) else Datatypes.None); Datatypes.Some (fv0 <-- fv; Base fv0)%under_lets else Datatypes.None | Datatypes.None => Datatypes.None end);;; Base (#(Z_cast range)%expr @ x)%expr_pat)%option | Z_cast2 range => fun x : expr (ℤ * ℤ)%etype => ((match x with | (@expr.Ident _ _ _ t idc @ x2 @ x1 @ x0)%expr_pat => match x2 with | (@expr.Ident _ _ _ t0 idc0 @ @expr.Ident _ _ _ t1 idc1)%expr_pat => match x1 with | @expr.App _ _ _ s3 _ (@expr.Ident _ _ _ t2 idc2) x4 => match x0 with | @expr.App _ _ _ s4 _ (@expr.Ident _ _ _ t3 idc3) x5 => match x5 with | (@expr.Ident _ _ _ t4 idc4 @ (@expr.Ident _ _ _ t5 idc5 @ (@expr.Ident _ _ _ t6 idc6 @ @expr.App _ _ _ s10 _ (@expr.Ident _ _ _ t7 idc7) x11 @ (@expr.Ident _ _ _ t8 idc8 @ @expr.Ident _ _ _ t9 idc9))) @ (@expr.Ident _ _ _ t10 idc10 @ @expr.Ident _ _ _ t11 idc11))%expr_pat => (args <- invert_bind_args idc11 Raw.ident.Literal; args0 <- invert_bind_args idc10 Raw.ident.Z_cast; args1 <- invert_bind_args idc9 Raw.ident.Literal; args2 <- invert_bind_args idc8 Raw.ident.Z_cast; args3 <- invert_bind_args idc7 Raw.ident.Z_cast; _ <- invert_bind_args idc6 Raw.ident.Z_land; args5 <- invert_bind_args idc5 Raw.ident.Z_cast; _ <- invert_bind_args idc4 Raw.ident.Z_shiftl; args7 <- invert_bind_args idc3 Raw.ident.Z_cast; args8 <- invert_bind_args idc2 Raw.ident.Z_cast; args9 <- invert_bind_args idc1 Raw.ident.Literal; args10 <- invert_bind_args idc0 Raw.ident.Z_cast; _ <- invert_bind_args idc Raw.ident.Z_add_get_carry; match pattern.type.unify_extracted ((ℤ -> ℤ) -> (ℤ -> ℤ) -> ℤ)%ptype (((projT1 args9) -> s3) -> (s10 -> (projT1 args1)) -> (projT1 args))%ptype with | Datatypes.Some (_, _, (_, _, _))%zrange => if type.type_beq base.type base.type.type_beq ((ℤ -> ℤ) -> (ℤ -> ℤ) -> ℤ)%ptype (((projT1 args9) -> s3) -> (s10 -> (projT1 args1)) -> (projT1 args))%ptype then xv <- ident.unify pattern.ident.Literal ##(projT2 args9); v <- type.try_make_transport_cps s3 ℤ; v0 <- type.try_make_transport_cps s10 ℤ; xv0 <- ident.unify pattern.ident.Literal ##(projT2 args1); xv1 <- ident.unify pattern.ident.Literal ##(projT2 args); fv <- (if ((let (x14, _) := xv in x14) =? 2 ^ Z.log2 (let (x14, _) := xv in x14)) && is_bounded_by_bool (let (x14, _) := xv in x14) (ZRange.normalize args10) && is_bounded_by_bool (let (x14, _) := xv1 in x14) (ZRange.normalize args0) && is_bounded_by_bool (let (x14, _) := xv0 in x14) (ZRange.normalize args2) && (ZRange.normalize args5 << ZRange.normalize (ZRange.constant (let (x14, _) := xv1 in x14)) <=? ZRange.normalize args7)%zrange && (ZRange.normalize args3 &' ZRange.normalize (ZRange.constant (let (x14, _) := xv0 in x14)) <=? ZRange.normalize args5)%zrange && (ZRange.normalize args7 <=? r[0 ~> (let (x14, _) := xv in x14) - 1])%zrange && ((let (x14, _) := xv0 in x14) =? Z.ones (Z.log2 (let (x14, _) := xv in x14) - (let (x14, _) := xv1 in x14))) && ((0 <=? (let (x14, _) := xv1 in x14)) && ((let (x14, _) := xv1 in x14) <=? Z.log2 (let (x14, _) := xv in x14))) then Datatypes.Some (Reify.expr_value_to_rewrite_rule_replacement (@Compile.reflect_ident_iota var) false (#(Z_cast2 range)%expr @ (#(fancy_add (Z.log2 (let (x14, _) := xv in x14)) (let (x14, _) := xv1 in x14))%expr @ (#(Z_cast args8)%expr @ ($(v (Compile.reflect x4)))%expr, #(Z_cast args3)%expr @ ($(v0 (Compile.reflect x11)))%expr)))%expr_pat) else Datatypes.None); Datatypes.Some (fv0 <-- fv; Base fv0)%under_lets else Datatypes.None | Datatypes.None => Datatypes.None end);; args <- invert_bind_args idc11 Raw.ident.Literal; args0 <- invert_bind_args idc10 Raw.ident.Z_cast; args1 <- invert_bind_args idc9 Raw.ident.Literal; args2 <- invert_bind_args idc8 Raw.ident.Z_cast; args3 <- invert_bind_args idc7 Raw.ident.Z_cast; _ <- invert_bind_args idc6 Raw.ident.Z_land; args5 <- invert_bind_args idc5 Raw.ident.Z_cast; _ <- invert_bind_args idc4 Raw.ident.Z_shiftl; args7 <- invert_bind_args idc3 Raw.ident.Z_cast; args8 <- invert_bind_args idc2 Raw.ident.Z_cast; args9 <- invert_bind_args idc1 Raw.ident.Literal; args10 <- invert_bind_args idc0 Raw.ident.Z_cast; _ <- invert_bind_args idc Raw.ident.Z_add_get_carry; match pattern.type.unify_extracted ((ℤ -> ℤ) -> (ℤ -> ℤ) -> ℤ)%ptype (((projT1 args9) -> s3) -> (s10 -> (projT1 args1)) -> (projT1 args))%ptype with | Datatypes.Some (_, _, (_, _, _))%zrange => if type.type_beq base.type base.type.type_beq ((ℤ -> ℤ) -> (ℤ -> ℤ) -> ℤ)%ptype (((projT1 args9) -> s3) -> (s10 -> (projT1 args1)) -> (projT1 args))%ptype then xv <- ident.unify pattern.ident.Literal ##(projT2 args9); v <- type.try_make_transport_cps s3 ℤ; v0 <- type.try_make_transport_cps s10 ℤ; xv0 <- ident.unify pattern.ident.Literal ##(projT2 args1); xv1 <- ident.unify pattern.ident.Literal ##(projT2 args); fv <- (if ((let (x14, _) := xv in x14) =? 2 ^ Z.log2 (let (x14, _) := xv in x14)) && ((let (x14, _) := xv0 in x14) =? Z.ones (Z.log2 (let (x14, _) := xv in x14) - (let (x14, _) := xv1 in x14))) && ((0 <=? (let (x14, _) := xv1 in x14)) && ((let (x14, _) := xv1 in x14) <=? Z.log2 (let (x14, _) := xv in x14))) && is_bounded_by_bool (let (x14, _) := xv in x14) (ZRange.normalize args10) && is_bounded_by_bool (let (x14, _) := xv0 in x14) (ZRange.normalize args2) && is_bounded_by_bool (let (x14, _) := xv1 in x14) (ZRange.normalize args0) && (ZRange.normalize args5 << ZRange.normalize (ZRange.constant (let (x14, _) := xv1 in x14)) <=? ZRange.normalize args7)%zrange && (ZRange.normalize args3 &' ZRange.normalize (ZRange.constant (let (x14, _) := xv0 in x14)) <=? ZRange.normalize args5)%zrange && (ZRange.normalize args7 <=? r[0 ~> (let (x14, _) := xv in x14) - 1])%zrange then Datatypes.Some (Reify.expr_value_to_rewrite_rule_replacement (@Compile.reflect_ident_iota var) false (#(Z_cast2 range)%expr @ (#(fancy_add (Z.log2 (let (x14, _) := xv in x14)) (let (x14, _) := xv1 in x14))%expr @ (#(Z_cast args8)%expr @ ($(v (Compile.reflect x4)))%expr, #(Z_cast args3)%expr @ ($(v0 (Compile.reflect x11)))%expr)))%expr_pat) else Datatypes.None); Datatypes.Some (fv0 <-- fv; Base fv0)%under_lets else Datatypes.None | Datatypes.None => Datatypes.None end | (@expr.Ident _ _ _ t4 idc4 @ (@expr.Ident _ _ _ t5 idc5 @ (@expr.Ident _ _ _ t6 idc6 @ @expr.App _ _ _ s10 _ (@expr.Ident _ _ _ t7 idc7) x11 @ (@expr.Ident _ _ _ t8 idc8 @ @expr.Ident _ _ _ t9 idc9))) @ (@expr.Ident _ _ _ t10 idc10 @ ($_)%expr))%expr_pat | (@expr.Ident _ _ _ t4 idc4 @ (@expr.Ident _ _ _ t5 idc5 @ (@expr.Ident _ _ _ t6 idc6 @ @expr.App _ _ _ s10 _ (@expr.Ident _ _ _ t7 idc7) x11 @ (@expr.Ident _ _ _ t8 idc8 @ @expr.Ident _ _ _ t9 idc9))) @ (@expr.Ident _ _ _ t10 idc10 @ @expr.Abs _ _ _ _ _ _))%expr_pat | (@expr.Ident _ _ _ t4 idc4 @ (@expr.Ident _ _ _ t5 idc5 @ (@expr.Ident _ _ _ t6 idc6 @ @expr.App _ _ _ s10 _ (@expr.Ident _ _ _ t7 idc7) x11 @ (@expr.Ident _ _ _ t8 idc8 @ @expr.Ident _ _ _ t9 idc9))) @ (@expr.Ident _ _ _ t10 idc10 @ (_ @ _)))%expr_pat | (@expr.Ident _ _ _ t4 idc4 @ (@expr.Ident _ _ _ t5 idc5 @ (@expr.Ident _ _ _ t6 idc6 @ @expr.App _ _ _ s10 _ (@expr.Ident _ _ _ t7 idc7) x11 @ (@expr.Ident _ _ _ t8 idc8 @ @expr.Ident _ _ _ t9 idc9))) @ (@expr.Ident _ _ _ t10 idc10 @ @expr.LetIn _ _ _ _ _ _ _))%expr_pat => Datatypes.None | (@expr.Ident _ _ _ t4 idc4 @ (@expr.Ident _ _ _ t5 idc5 @ (@expr.Ident _ _ _ t6 idc6 @ @expr.App _ _ _ s10 _ (@expr.Ident _ _ _ t7 idc7) x11 @ (@expr.Ident _ _ _ t8 idc8 @ @expr.Ident _ _ _ t9 idc9))) @ #(_))%expr_pat | (@expr.Ident _ _ _ t4 idc4 @ (@expr.Ident _ _ _ t5 idc5 @ (@expr.Ident _ _ _ t6 idc6 @ @expr.App _ _ _ s10 _ (@expr.Ident _ _ _ t7 idc7) x11 @ (@expr.Ident _ _ _ t8 idc8 @ @expr.Ident _ _ _ t9 idc9))) @ ($_)%expr)%expr_pat | (@expr.Ident _ _ _ t4 idc4 @ (@expr.Ident _ _ _ t5 idc5 @ (@expr.Ident _ _ _ t6 idc6 @ @expr.App _ _ _ s10 _ (@expr.Ident _ _ _ t7 idc7) x11 @ (@expr.Ident _ _ _ t8 idc8 @ @expr.Ident _ _ _ t9 idc9))) @ @expr.Abs _ _ _ _ _ _)%expr_pat | (@expr.Ident _ _ _ t4 idc4 @ (@expr.Ident _ _ _ t5 idc5 @ (@expr.Ident _ _ _ t6 idc6 @ @expr.App _ _ _ s10 _ (@expr.Ident _ _ _ t7 idc7) x11 @ (@expr.Ident _ _ _ t8 idc8 @ @expr.Ident _ _ _ t9 idc9))) @ (($_)%expr @ _))%expr_pat | (@expr.Ident _ _ _ t4 idc4 @ (@expr.Ident _ _ _ t5 idc5 @ (@expr.Ident _ _ _ t6 idc6 @ @expr.App _ _ _ s10 _ (@expr.Ident _ _ _ t7 idc7) x11 @ (@expr.Ident _ _ _ t8 idc8 @ @expr.Ident _ _ _ t9 idc9))) @ (@expr.Abs _ _ _ _ _ _ @ _))%expr_pat | (@expr.Ident _ _ _ t4 idc4 @ (@expr.Ident _ _ _ t5 idc5 @ (@expr.Ident _ _ _ t6 idc6 @ @expr.App _ _ _ s10 _ (@expr.Ident _ _ _ t7 idc7) x11 @ (@expr.Ident _ _ _ t8 idc8 @ @expr.Ident _ _ _ t9 idc9))) @ (_ @ _ @ _))%expr_pat | (@expr.Ident _ _ _ t4 idc4 @ (@expr.Ident _ _ _ t5 idc5 @ (@expr.Ident _ _ _ t6 idc6 @ @expr.App _ _ _ s10 _ (@expr.Ident _ _ _ t7 idc7) x11 @ (@expr.Ident _ _ _ t8 idc8 @ @expr.Ident _ _ _ t9 idc9))) @ (@expr.LetIn _ _ _ _ _ _ _ @ _))%expr_pat | (@expr.Ident _ _ _ t4 idc4 @ (@expr.Ident _ _ _ t5 idc5 @ (@expr.Ident _ _ _ t6 idc6 @ @expr.App _ _ _ s10 _ (@expr.Ident _ _ _ t7 idc7) x11 @ (@expr.Ident _ _ _ t8 idc8 @ @expr.Ident _ _ _ t9 idc9))) @ @expr.LetIn _ _ _ _ _ _ _)%expr_pat => Datatypes.None | (@expr.Ident _ _ _ t4 idc4 @ (@expr.Ident _ _ _ t5 idc5 @ (@expr.Ident _ _ _ t6 idc6 @ @expr.App _ _ _ s10 _ (@expr.Ident _ _ _ t7 idc7) x11 @ (@expr.Ident _ _ _ t8 idc8 @ ($_)%expr))) @ _)%expr_pat | (@expr.Ident _ _ _ t4 idc4 @ (@expr.Ident _ _ _ t5 idc5 @ (@expr.Ident _ _ _ t6 idc6 @ @expr.App _ _ _ s10 _ (@expr.Ident _ _ _ t7 idc7) x11 @ (@expr.Ident _ _ _ t8 idc8 @ @expr.Abs _ _ _ _ _ _))) @ _)%expr_pat | (@expr.Ident _ _ _ t4 idc4 @ (@expr.Ident _ _ _ t5 idc5 @ (@expr.Ident _ _ _ t6 idc6 @ @expr.App _ _ _ s10 _ (@expr.Ident _ _ _ t7 idc7) x11 @ (@expr.Ident _ _ _ t8 idc8 @ (_ @ _)))) @ _)%expr_pat | (@expr.Ident _ _ _ t4 idc4 @ (@expr.Ident _ _ _ t5 idc5 @ (@expr.Ident _ _ _ t6 idc6 @ @expr.App _ _ _ s10 _ (@expr.Ident _ _ _ t7 idc7) x11 @ (@expr.Ident _ _ _ t8 idc8 @ @expr.LetIn _ _ _ _ _ _ _))) @ _)%expr_pat => Datatypes.None | (@expr.Ident _ _ _ t4 idc4 @ (@expr.Ident _ _ _ t5 idc5 @ (@expr.Ident _ _ _ t6 idc6 @ @expr.App _ _ _ s10 _ (@expr.Ident _ _ _ t7 idc7) x11 @ #(_))) @ _)%expr_pat | (@expr.Ident _ _ _ t4 idc4 @ (@expr.Ident _ _ _ t5 idc5 @ (@expr.Ident _ _ _ t6 idc6 @ @expr.App _ _ _ s10 _ (@expr.Ident _ _ _ t7 idc7) x11 @ ($_)%expr)) @ _)%expr_pat | (@expr.Ident _ _ _ t4 idc4 @ (@expr.Ident _ _ _ t5 idc5 @ (@expr.Ident _ _ _ t6 idc6 @ @expr.App _ _ _ s10 _ (@expr.Ident _ _ _ t7 idc7) x11 @ @expr.Abs _ _ _ _ _ _)) @ _)%expr_pat | (@expr.Ident _ _ _ t4 idc4 @ (@expr.Ident _ _ _ t5 idc5 @ (@expr.Ident _ _ _ t6 idc6 @ @expr.App _ _ _ s10 _ (@expr.Ident _ _ _ t7 idc7) x11 @ (($_)%expr @ _))) @ _)%expr_pat | (@expr.Ident _ _ _ t4 idc4 @ (@expr.Ident _ _ _ t5 idc5 @ (@expr.Ident _ _ _ t6 idc6 @ @expr.App _ _ _ s10 _ (@expr.Ident _ _ _ t7 idc7) x11 @ (@expr.Abs _ _ _ _ _ _ @ _))) @ _)%expr_pat | (@expr.Ident _ _ _ t4 idc4 @ (@expr.Ident _ _ _ t5 idc5 @ (@expr.Ident _ _ _ t6 idc6 @ @expr.App _ _ _ s10 _ (@expr.Ident _ _ _ t7 idc7) x11 @ (_ @ _ @ _))) @ _)%expr_pat | (@expr.Ident _ _ _ t4 idc4 @ (@expr.Ident _ _ _ t5 idc5 @ (@expr.Ident _ _ _ t6 idc6 @ @expr.App _ _ _ s10 _ (@expr.Ident _ _ _ t7 idc7) x11 @ (@expr.LetIn _ _ _ _ _ _ _ @ _))) @ _)%expr_pat | (@expr.Ident _ _ _ t4 idc4 @ (@expr.Ident _ _ _ t5 idc5 @ (@expr.Ident _ _ _ t6 idc6 @ @expr.App _ _ _ s10 _ (@expr.Ident _ _ _ t7 idc7) x11 @ @expr.LetIn _ _ _ _ _ _ _)) @ _)%expr_pat => Datatypes.None | (@expr.Ident _ _ _ t4 idc4 @ (@expr.Ident _ _ _ t5 idc5 @ (@expr.Ident _ _ _ t6 idc6 @ @expr.App _ _ _ s10 _ ($_)%expr _ @ _)) @ _)%expr_pat | (@expr.Ident _ _ _ t4 idc4 @ (@expr.Ident _ _ _ t5 idc5 @ (@expr.Ident _ _ _ t6 idc6 @ @expr.App _ _ _ s10 _ (@expr.Abs _ _ _ _ _ _) _ @ _)) @ _)%expr_pat | (@expr.Ident _ _ _ t4 idc4 @ (@expr.Ident _ _ _ t5 idc5 @ (@expr.Ident _ _ _ t6 idc6 @ @expr.App _ _ _ s10 _ (_ @ _) _ @ _)) @ _)%expr_pat | (@expr.Ident _ _ _ t4 idc4 @ (@expr.Ident _ _ _ t5 idc5 @ (@expr.Ident _ _ _ t6 idc6 @ @expr.App _ _ _ s10 _ (@expr.LetIn _ _ _ _ _ _ _) _ @ _)) @ _)%expr_pat => Datatypes.None | (@expr.Ident _ _ _ t4 idc4 @ (@expr.Ident _ _ _ t5 idc5 @ (@expr.Ident _ _ _ t6 idc6 @ #(_) @ _)) @ _)%expr_pat | (@expr.Ident _ _ _ t4 idc4 @ (@expr.Ident _ _ _ t5 idc5 @ (@expr.Ident _ _ _ t6 idc6 @ ($_)%expr @ _)) @ _)%expr_pat | (@expr.Ident _ _ _ t4 idc4 @ (@expr.Ident _ _ _ t5 idc5 @ (@expr.Ident _ _ _ t6 idc6 @ @expr.Abs _ _ _ _ _ _ @ _)) @ _)%expr_pat | (@expr.Ident _ _ _ t4 idc4 @ (@expr.Ident _ _ _ t5 idc5 @ (@expr.Ident _ _ _ t6 idc6 @ @expr.LetIn _ _ _ _ _ _ _ @ _)) @ _)%expr_pat => Datatypes.None | (@expr.Ident _ _ _ t4 idc4 @ (@expr.Ident _ _ _ t5 idc5 @ #(_)) @ _)%expr_pat | (@expr.Ident _ _ _ t4 idc4 @ (@expr.Ident _ _ _ t5 idc5 @ ($_)%expr) @ _)%expr_pat | (@expr.Ident _ _ _ t4 idc4 @ (@expr.Ident _ _ _ t5 idc5 @ @expr.Abs _ _ _ _ _ _) @ _)%expr_pat | (@expr.Ident _ _ _ t4 idc4 @ (@expr.Ident _ _ _ t5 idc5 @ (#(_) @ _)) @ _)%expr_pat | (@expr.Ident _ _ _ t4 idc4 @ (@expr.Ident _ _ _ t5 idc5 @ (($_)%expr @ _)) @ _)%expr_pat | (@expr.Ident _ _ _ t4 idc4 @ (@expr.Ident _ _ _ t5 idc5 @ (@expr.Abs _ _ _ _ _ _ @ _)) @ _)%expr_pat | (@expr.Ident _ _ _ t4 idc4 @ (@expr.Ident _ _ _ t5 idc5 @ (($_)%expr @ _ @ _)) @ _)%expr_pat | (@expr.Ident _ _ _ t4 idc4 @ (@expr.Ident _ _ _ t5 idc5 @ (@expr.Abs _ _ _ _ _ _ @ _ @ _)) @ _)%expr_pat | (@expr.Ident _ _ _ t4 idc4 @ (@expr.Ident _ _ _ t5 idc5 @ (_ @ _ @ _ @ _)) @ _)%expr_pat | (@expr.Ident _ _ _ t4 idc4 @ (@expr.Ident _ _ _ t5 idc5 @ (@expr.LetIn _ _ _ _ _ _ _ @ _ @ _)) @ _)%expr_pat | (@expr.Ident _ _ _ t4 idc4 @ (@expr.Ident _ _ _ t5 idc5 @ (@expr.LetIn _ _ _ _ _ _ _ @ _)) @ _)%expr_pat | (@expr.Ident _ _ _ t4 idc4 @ (@expr.Ident _ _ _ t5 idc5 @ @expr.LetIn _ _ _ _ _ _ _) @ _)%expr_pat => Datatypes.None | (@expr.Ident _ _ _ t4 idc4 @ #(_) @ _)%expr_pat | (@expr.Ident _ _ _ t4 idc4 @ ($_)%expr @ _)%expr_pat | (@expr.Ident _ _ _ t4 idc4 @ @expr.Abs _ _ _ _ _ _ @ _)%expr_pat | (@expr.Ident _ _ _ t4 idc4 @ (($_)%expr @ _) @ _)%expr_pat | (@expr.Ident _ _ _ t4 idc4 @ (@expr.Abs _ _ _ _ _ _ @ _) @ _)%expr_pat | (@expr.Ident _ _ _ t4 idc4 @ (_ @ _ @ _) @ _)%expr_pat | (@expr.Ident _ _ _ t4 idc4 @ (@expr.LetIn _ _ _ _ _ _ _ @ _) @ _)%expr_pat | (@expr.Ident _ _ _ t4 idc4 @ @expr.LetIn _ _ _ _ _ _ _ @ _)%expr_pat => Datatypes.None | _ => Datatypes.None end;; match x4 with | (@expr.Ident _ _ _ t4 idc4 @ (@expr.Ident _ _ _ t5 idc5 @ (@expr.Ident _ _ _ t6 idc6 @ @expr.App _ _ _ s10 _ (@expr.Ident _ _ _ t7 idc7) x11 @ (@expr.Ident _ _ _ t8 idc8 @ @expr.Ident _ _ _ t9 idc9))) @ (@expr.Ident _ _ _ t10 idc10 @ @expr.Ident _ _ _ t11 idc11))%expr_pat => args <- invert_bind_args idc11 Raw.ident.Literal; args0 <- invert_bind_args idc10 Raw.ident.Z_cast; args1 <- invert_bind_args idc9 Raw.ident.Literal; args2 <- invert_bind_args idc8 Raw.ident.Z_cast; args3 <- invert_bind_args idc7 Raw.ident.Z_cast; _ <- invert_bind_args idc6 Raw.ident.Z_land; args5 <- invert_bind_args idc5 Raw.ident.Z_cast; _ <- invert_bind_args idc4 Raw.ident.Z_shiftl; args7 <- invert_bind_args idc3 Raw.ident.Z_cast; args8 <- invert_bind_args idc2 Raw.ident.Z_cast; args9 <- invert_bind_args idc1 Raw.ident.Literal; args10 <- invert_bind_args idc0 Raw.ident.Z_cast; _ <- invert_bind_args idc Raw.ident.Z_add_get_carry; match pattern.type.unify_extracted ((ℤ -> (ℤ -> ℤ) -> ℤ) -> ℤ)%ptype (((projT1 args9) -> (s10 -> (projT1 args1)) -> (projT1 args)) -> s4)%ptype with | Datatypes.Some (_, (_, _, _), _)%zrange => if type.type_beq base.type base.type.type_beq ((ℤ -> (ℤ -> ℤ) -> ℤ) -> ℤ)%ptype (((projT1 args9) -> (s10 -> (projT1 args1)) -> (projT1 args)) -> s4)%ptype then xv <- ident.unify pattern.ident.Literal ##(projT2 args9); v <- type.try_make_transport_cps s10 ℤ; xv0 <- ident.unify pattern.ident.Literal ##(projT2 args1); xv1 <- ident.unify pattern.ident.Literal ##(projT2 args); v0 <- type.try_make_transport_cps s4 ℤ; fv <- (if is_bounded_by_bool (let (x14, _) := xv in x14) (ZRange.normalize args10) && is_bounded_by_bool (let (x14, _) := xv0 in x14) (ZRange.normalize args2) && is_bounded_by_bool (let (x14, _) := xv1 in x14) (ZRange.normalize args0) && ((let (x14, _) := xv in x14) =? 2 ^ Z.log2 (let (x14, _) := xv in x14)) && (ZRange.normalize args5 << ZRange.normalize (ZRange.constant (let (x14, _) := xv1 in x14)) <=? ZRange.normalize args8)%zrange && (ZRange.normalize args3 &' ZRange.normalize (ZRange.constant (let (x14, _) := xv0 in x14)) <=? ZRange.normalize args5)%zrange && (ZRange.normalize args8 <=? r[0 ~> (let (x14, _) := xv in x14) - 1])%zrange && ((let (x14, _) := xv0 in x14) =? Z.ones (Z.log2 (let (x14, _) := xv in x14) - (let (x14, _) := xv1 in x14))) && ((0 <=? (let (x14, _) := xv1 in x14)) && ((let (x14, _) := xv1 in x14) <=? Z.log2 (let (x14, _) := xv in x14))) then Datatypes.Some (Reify.expr_value_to_rewrite_rule_replacement (@Compile.reflect_ident_iota var) false (#(Z_cast2 range)%expr @ (#(fancy_add (Z.log2 (let (x14, _) := xv in x14)) (let (x14, _) := xv1 in x14))%expr @ (#(Z_cast args7)%expr @ ($(v0 (Compile.reflect x5)))%expr, #(Z_cast args3)%expr @ ($(v (Compile.reflect x11)))%expr)))%expr_pat) else Datatypes.None); Datatypes.Some (fv0 <-- fv; Base fv0)%under_lets else Datatypes.None | Datatypes.None => Datatypes.None end | (@expr.Ident _ _ _ t4 idc4 @ (@expr.Ident _ _ _ t5 idc5 @ (@expr.Ident _ _ _ t6 idc6 @ @expr.App _ _ _ s10 _ (@expr.Ident _ _ _ t7 idc7) x11 @ (@expr.Ident _ _ _ t8 idc8 @ @expr.Ident _ _ _ t9 idc9))) @ (@expr.Ident _ _ _ t10 idc10 @ ($_)%expr))%expr_pat | (@expr.Ident _ _ _ t4 idc4 @ (@expr.Ident _ _ _ t5 idc5 @ (@expr.Ident _ _ _ t6 idc6 @ @expr.App _ _ _ s10 _ (@expr.Ident _ _ _ t7 idc7) x11 @ (@expr.Ident _ _ _ t8 idc8 @ @expr.Ident _ _ _ t9 idc9))) @ (@expr.Ident _ _ _ t10 idc10 @ @expr.Abs _ _ _ _ _ _))%expr_pat | (@expr.Ident _ _ _ t4 idc4 @ (@expr.Ident _ _ _ t5 idc5 @ (@expr.Ident _ _ _ t6 idc6 @ @expr.App _ _ _ s10 _ (@expr.Ident _ _ _ t7 idc7) x11 @ (@expr.Ident _ _ _ t8 idc8 @ @expr.Ident _ _ _ t9 idc9))) @ (@expr.Ident _ _ _ t10 idc10 @ (_ @ _)))%expr_pat | (@expr.Ident _ _ _ t4 idc4 @ (@expr.Ident _ _ _ t5 idc5 @ (@expr.Ident _ _ _ t6 idc6 @ @expr.App _ _ _ s10 _ (@expr.Ident _ _ _ t7 idc7) x11 @ (@expr.Ident _ _ _ t8 idc8 @ @expr.Ident _ _ _ t9 idc9))) @ (@expr.Ident _ _ _ t10 idc10 @ @expr.LetIn _ _ _ _ _ _ _))%expr_pat => Datatypes.None | (@expr.Ident _ _ _ t4 idc4 @ (@expr.Ident _ _ _ t5 idc5 @ (@expr.Ident _ _ _ t6 idc6 @ @expr.App _ _ _ s10 _ (@expr.Ident _ _ _ t7 idc7) x11 @ (@expr.Ident _ _ _ t8 idc8 @ @expr.Ident _ _ _ t9 idc9))) @ #(_))%expr_pat | (@expr.Ident _ _ _ t4 idc4 @ (@expr.Ident _ _ _ t5 idc5 @ (@expr.Ident _ _ _ t6 idc6 @ @expr.App _ _ _ s10 _ (@expr.Ident _ _ _ t7 idc7) x11 @ (@expr.Ident _ _ _ t8 idc8 @ @expr.Ident _ _ _ t9 idc9))) @ ($_)%expr)%expr_pat | (@expr.Ident _ _ _ t4 idc4 @ (@expr.Ident _ _ _ t5 idc5 @ (@expr.Ident _ _ _ t6 idc6 @ @expr.App _ _ _ s10 _ (@expr.Ident _ _ _ t7 idc7) x11 @ (@expr.Ident _ _ _ t8 idc8 @ @expr.Ident _ _ _ t9 idc9))) @ @expr.Abs _ _ _ _ _ _)%expr_pat | (@expr.Ident _ _ _ t4 idc4 @ (@expr.Ident _ _ _ t5 idc5 @ (@expr.Ident _ _ _ t6 idc6 @ @expr.App _ _ _ s10 _ (@expr.Ident _ _ _ t7 idc7) x11 @ (@expr.Ident _ _ _ t8 idc8 @ @expr.Ident _ _ _ t9 idc9))) @ (($_)%expr @ _))%expr_pat | (@expr.Ident _ _ _ t4 idc4 @ (@expr.Ident _ _ _ t5 idc5 @ (@expr.Ident _ _ _ t6 idc6 @ @expr.App _ _ _ s10 _ (@expr.Ident _ _ _ t7 idc7) x11 @ (@expr.Ident _ _ _ t8 idc8 @ @expr.Ident _ _ _ t9 idc9))) @ (@expr.Abs _ _ _ _ _ _ @ _))%expr_pat | (@expr.Ident _ _ _ t4 idc4 @ (@expr.Ident _ _ _ t5 idc5 @ (@expr.Ident _ _ _ t6 idc6 @ @expr.App _ _ _ s10 _ (@expr.Ident _ _ _ t7 idc7) x11 @ (@expr.Ident _ _ _ t8 idc8 @ @expr.Ident _ _ _ t9 idc9))) @ (_ @ _ @ _))%expr_pat | (@expr.Ident _ _ _ t4 idc4 @ (@expr.Ident _ _ _ t5 idc5 @ (@expr.Ident _ _ _ t6 idc6 @ @expr.App _ _ _ s10 _ (@expr.Ident _ _ _ t7 idc7) x11 @ (@expr.Ident _ _ _ t8 idc8 @ @expr.Ident _ _ _ t9 idc9))) @ (@expr.LetIn _ _ _ _ _ _ _ @ _))%expr_pat | (@expr.Ident _ _ _ t4 idc4 @ (@expr.Ident _ _ _ t5 idc5 @ (@expr.Ident _ _ _ t6 idc6 @ @expr.App _ _ _ s10 _ (@expr.Ident _ _ _ t7 idc7) x11 @ (@expr.Ident _ _ _ t8 idc8 @ @expr.Ident _ _ _ t9 idc9))) @ @expr.LetIn _ _ _ _ _ _ _)%expr_pat => Datatypes.None | (@expr.Ident _ _ _ t4 idc4 @ (@expr.Ident _ _ _ t5 idc5 @ (@expr.Ident _ _ _ t6 idc6 @ @expr.App _ _ _ s10 _ (@expr.Ident _ _ _ t7 idc7) x11 @ (@expr.Ident _ _ _ t8 idc8 @ ($_)%expr))) @ _)%expr_pat | (@expr.Ident _ _ _ t4 idc4 @ (@expr.Ident _ _ _ t5 idc5 @ (@expr.Ident _ _ _ t6 idc6 @ @expr.App _ _ _ s10 _ (@expr.Ident _ _ _ t7 idc7) x11 @ (@expr.Ident _ _ _ t8 idc8 @ @expr.Abs _ _ _ _ _ _))) @ _)%expr_pat | (@expr.Ident _ _ _ t4 idc4 @ (@expr.Ident _ _ _ t5 idc5 @ (@expr.Ident _ _ _ t6 idc6 @ @expr.App _ _ _ s10 _ (@expr.Ident _ _ _ t7 idc7) x11 @ (@expr.Ident _ _ _ t8 idc8 @ (_ @ _)))) @ _)%expr_pat | (@expr.Ident _ _ _ t4 idc4 @ (@expr.Ident _ _ _ t5 idc5 @ (@expr.Ident _ _ _ t6 idc6 @ @expr.App _ _ _ s10 _ (@expr.Ident _ _ _ t7 idc7) x11 @ (@expr.Ident _ _ _ t8 idc8 @ @expr.LetIn _ _ _ _ _ _ _))) @ _)%expr_pat => Datatypes.None | (@expr.Ident _ _ _ t4 idc4 @ (@expr.Ident _ _ _ t5 idc5 @ (@expr.Ident _ _ _ t6 idc6 @ @expr.App _ _ _ s10 _ (@expr.Ident _ _ _ t7 idc7) x11 @ #(_))) @ _)%expr_pat | (@expr.Ident _ _ _ t4 idc4 @ (@expr.Ident _ _ _ t5 idc5 @ (@expr.Ident _ _ _ t6 idc6 @ @expr.App _ _ _ s10 _ (@expr.Ident _ _ _ t7 idc7) x11 @ ($_)%expr)) @ _)%expr_pat | (@expr.Ident _ _ _ t4 idc4 @ (@expr.Ident _ _ _ t5 idc5 @ (@expr.Ident _ _ _ t6 idc6 @ @expr.App _ _ _ s10 _ (@expr.Ident _ _ _ t7 idc7) x11 @ @expr.Abs _ _ _ _ _ _)) @ _)%expr_pat | (@expr.Ident _ _ _ t4 idc4 @ (@expr.Ident _ _ _ t5 idc5 @ (@expr.Ident _ _ _ t6 idc6 @ @expr.App _ _ _ s10 _ (@expr.Ident _ _ _ t7 idc7) x11 @ (($_)%expr @ _))) @ _)%expr_pat | (@expr.Ident _ _ _ t4 idc4 @ (@expr.Ident _ _ _ t5 idc5 @ (@expr.Ident _ _ _ t6 idc6 @ @expr.App _ _ _ s10 _ (@expr.Ident _ _ _ t7 idc7) x11 @ (@expr.Abs _ _ _ _ _ _ @ _))) @ _)%expr_pat | (@expr.Ident _ _ _ t4 idc4 @ (@expr.Ident _ _ _ t5 idc5 @ (@expr.Ident _ _ _ t6 idc6 @ @expr.App _ _ _ s10 _ (@expr.Ident _ _ _ t7 idc7) x11 @ (_ @ _ @ _))) @ _)%expr_pat | (@expr.Ident _ _ _ t4 idc4 @ (@expr.Ident _ _ _ t5 idc5 @ (@expr.Ident _ _ _ t6 idc6 @ @expr.App _ _ _ s10 _ (@expr.Ident _ _ _ t7 idc7) x11 @ (@expr.LetIn _ _ _ _ _ _ _ @ _))) @ _)%expr_pat | (@expr.Ident _ _ _ t4 idc4 @ (@expr.Ident _ _ _ t5 idc5 @ (@expr.Ident _ _ _ t6 idc6 @ @expr.App _ _ _ s10 _ (@expr.Ident _ _ _ t7 idc7) x11 @ @expr.LetIn _ _ _ _ _ _ _)) @ _)%expr_pat => Datatypes.None | (@expr.Ident _ _ _ t4 idc4 @ (@expr.Ident _ _ _ t5 idc5 @ (@expr.Ident _ _ _ t6 idc6 @ @expr.App _ _ _ s10 _ ($_)%expr _ @ _)) @ _)%expr_pat | (@expr.Ident _ _ _ t4 idc4 @ (@expr.Ident _ _ _ t5 idc5 @ (@expr.Ident _ _ _ t6 idc6 @ @expr.App _ _ _ s10 _ (@expr.Abs _ _ _ _ _ _) _ @ _)) @ _)%expr_pat | (@expr.Ident _ _ _ t4 idc4 @ (@expr.Ident _ _ _ t5 idc5 @ (@expr.Ident _ _ _ t6 idc6 @ @expr.App _ _ _ s10 _ (_ @ _) _ @ _)) @ _)%expr_pat | (@expr.Ident _ _ _ t4 idc4 @ (@expr.Ident _ _ _ t5 idc5 @ (@expr.Ident _ _ _ t6 idc6 @ @expr.App _ _ _ s10 _ (@expr.LetIn _ _ _ _ _ _ _) _ @ _)) @ _)%expr_pat => Datatypes.None | (@expr.Ident _ _ _ t4 idc4 @ (@expr.Ident _ _ _ t5 idc5 @ (@expr.Ident _ _ _ t6 idc6 @ #(_) @ _)) @ _)%expr_pat | (@expr.Ident _ _ _ t4 idc4 @ (@expr.Ident _ _ _ t5 idc5 @ (@expr.Ident _ _ _ t6 idc6 @ ($_)%expr @ _)) @ _)%expr_pat | (@expr.Ident _ _ _ t4 idc4 @ (@expr.Ident _ _ _ t5 idc5 @ (@expr.Ident _ _ _ t6 idc6 @ @expr.Abs _ _ _ _ _ _ @ _)) @ _)%expr_pat | (@expr.Ident _ _ _ t4 idc4 @ (@expr.Ident _ _ _ t5 idc5 @ (@expr.Ident _ _ _ t6 idc6 @ @expr.LetIn _ _ _ _ _ _ _ @ _)) @ _)%expr_pat => Datatypes.None | (@expr.Ident _ _ _ t4 idc4 @ (@expr.Ident _ _ _ t5 idc5 @ #(_)) @ _)%expr_pat | (@expr.Ident _ _ _ t4 idc4 @ (@expr.Ident _ _ _ t5 idc5 @ ($_)%expr) @ _)%expr_pat | (@expr.Ident _ _ _ t4 idc4 @ (@expr.Ident _ _ _ t5 idc5 @ @expr.Abs _ _ _ _ _ _) @ _)%expr_pat | (@expr.Ident _ _ _ t4 idc4 @ (@expr.Ident _ _ _ t5 idc5 @ (#(_) @ _)) @ _)%expr_pat | (@expr.Ident _ _ _ t4 idc4 @ (@expr.Ident _ _ _ t5 idc5 @ (($_)%expr @ _)) @ _)%expr_pat | (@expr.Ident _ _ _ t4 idc4 @ (@expr.Ident _ _ _ t5 idc5 @ (@expr.Abs _ _ _ _ _ _ @ _)) @ _)%expr_pat | (@expr.Ident _ _ _ t4 idc4 @ (@expr.Ident _ _ _ t5 idc5 @ (($_)%expr @ _ @ _)) @ _)%expr_pat | (@expr.Ident _ _ _ t4 idc4 @ (@expr.Ident _ _ _ t5 idc5 @ (@expr.Abs _ _ _ _ _ _ @ _ @ _)) @ _)%expr_pat | (@expr.Ident _ _ _ t4 idc4 @ (@expr.Ident _ _ _ t5 idc5 @ (_ @ _ @ _ @ _)) @ _)%expr_pat | (@expr.Ident _ _ _ t4 idc4 @ (@expr.Ident _ _ _ t5 idc5 @ (@expr.LetIn _ _ _ _ _ _ _ @ _ @ _)) @ _)%expr_pat | (@expr.Ident _ _ _ t4 idc4 @ (@expr.Ident _ _ _ t5 idc5 @ (@expr.LetIn _ _ _ _ _ _ _ @ _)) @ _)%expr_pat | (@expr.Ident _ _ _ t4 idc4 @ (@expr.Ident _ _ _ t5 idc5 @ @expr.LetIn _ _ _ _ _ _ _) @ _)%expr_pat => Datatypes.None | (@expr.Ident _ _ _ t4 idc4 @ #(_) @ _)%expr_pat | (@expr.Ident _ _ _ t4 idc4 @ ($_)%expr @ _)%expr_pat | (@expr.Ident _ _ _ t4 idc4 @ @expr.Abs _ _ _ _ _ _ @ _)%expr_pat | (@expr.Ident _ _ _ t4 idc4 @ (($_)%expr @ _) @ _)%expr_pat | (@expr.Ident _ _ _ t4 idc4 @ (@expr.Abs _ _ _ _ _ _ @ _) @ _)%expr_pat | (@expr.Ident _ _ _ t4 idc4 @ (_ @ _ @ _) @ _)%expr_pat | (@expr.Ident _ _ _ t4 idc4 @ (@expr.LetIn _ _ _ _ _ _ _ @ _) @ _)%expr_pat | (@expr.Ident _ _ _ t4 idc4 @ @expr.LetIn _ _ _ _ _ _ _ @ _)%expr_pat => Datatypes.None | _ => Datatypes.None end;; match x5 with | (@expr.Ident _ _ _ t4 idc4 @ @expr.App _ _ _ s7 _ (@expr.Ident _ _ _ t5 idc5) x8 @ (@expr.Ident _ _ _ t6 idc6 @ @expr.Ident _ _ _ t7 idc7))%expr_pat => args <- invert_bind_args idc7 Raw.ident.Literal; args0 <- invert_bind_args idc6 Raw.ident.Z_cast; args1 <- invert_bind_args idc5 Raw.ident.Z_cast; _ <- invert_bind_args idc4 Raw.ident.Z_shiftr; args3 <- invert_bind_args idc3 Raw.ident.Z_cast; args4 <- invert_bind_args idc2 Raw.ident.Z_cast; args5 <- invert_bind_args idc1 Raw.ident.Literal; args6 <- invert_bind_args idc0 Raw.ident.Z_cast; _ <- invert_bind_args idc Raw.ident.Z_add_get_carry; match pattern.type.unify_extracted ((ℤ -> ℤ) -> ℤ -> ℤ)%ptype (((projT1 args5) -> s3) -> s7 -> (projT1 args))%ptype with | Datatypes.Some (_, _, (_, _))%zrange => if type.type_beq base.type base.type.type_beq ((ℤ -> ℤ) -> ℤ -> ℤ)%ptype (((projT1 args5) -> s3) -> s7 -> (projT1 args))%ptype then xv <- ident.unify pattern.ident.Literal ##(projT2 args5); v <- type.try_make_transport_cps s3 ℤ; v0 <- type.try_make_transport_cps s7 ℤ; xv0 <- ident.unify pattern.ident.Literal ##(projT2 args); fv <- (if is_bounded_by_bool (let (x10, _) := xv in x10) (ZRange.normalize args6) && is_bounded_by_bool (let (x10, _) := xv0 in x10) (ZRange.normalize args0) && ((let (x10, _) := xv in x10) =? 2 ^ Z.log2 (let (x10, _) := xv in x10)) && (ZRange.normalize args1 >> ZRange.normalize (ZRange.constant (let (x10, _) := xv0 in x10)) <=? ZRange.normalize args3)%zrange && (ZRange.normalize args3 <=? r[0 ~> (let (x10, _) := xv in x10) - 1])%zrange then Datatypes.Some (Reify.expr_value_to_rewrite_rule_replacement (@Compile.reflect_ident_iota var) false (#(Z_cast2 range)%expr @ (#(fancy_add (Z.log2 (let (x10, _) := xv in x10)) (- (let (x10, _) := xv0 in x10)))%expr @ (#(Z_cast args4)%expr @ ($(v (Compile.reflect x4)))%expr, #(Z_cast args1)%expr @ ($(v0 (Compile.reflect x8)))%expr)))%expr_pat) else Datatypes.None); Datatypes.Some (fv0 <-- fv; Base fv0)%under_lets else Datatypes.None | Datatypes.None => Datatypes.None end | (@expr.Ident _ _ _ t4 idc4 @ @expr.App _ _ _ s7 _ (@expr.Ident _ _ _ t5 idc5) x8 @ (@expr.Ident _ _ _ t6 idc6 @ ($_)%expr))%expr_pat | (@expr.Ident _ _ _ t4 idc4 @ @expr.App _ _ _ s7 _ (@expr.Ident _ _ _ t5 idc5) x8 @ (@expr.Ident _ _ _ t6 idc6 @ @expr.Abs _ _ _ _ _ _))%expr_pat | (@expr.Ident _ _ _ t4 idc4 @ @expr.App _ _ _ s7 _ (@expr.Ident _ _ _ t5 idc5) x8 @ (@expr.Ident _ _ _ t6 idc6 @ (_ @ _)))%expr_pat | (@expr.Ident _ _ _ t4 idc4 @ @expr.App _ _ _ s7 _ (@expr.Ident _ _ _ t5 idc5) x8 @ (@expr.Ident _ _ _ t6 idc6 @ @expr.LetIn _ _ _ _ _ _ _))%expr_pat => Datatypes.None | (@expr.Ident _ _ _ t4 idc4 @ @expr.App _ _ _ s7 _ (@expr.Ident _ _ _ t5 idc5) x8 @ #(_))%expr_pat | (@expr.Ident _ _ _ t4 idc4 @ @expr.App _ _ _ s7 _ (@expr.Ident _ _ _ t5 idc5) x8 @ ($_)%expr)%expr_pat | (@expr.Ident _ _ _ t4 idc4 @ @expr.App _ _ _ s7 _ (@expr.Ident _ _ _ t5 idc5) x8 @ @expr.Abs _ _ _ _ _ _)%expr_pat | (@expr.Ident _ _ _ t4 idc4 @ @expr.App _ _ _ s7 _ (@expr.Ident _ _ _ t5 idc5) x8 @ (($_)%expr @ _))%expr_pat | (@expr.Ident _ _ _ t4 idc4 @ @expr.App _ _ _ s7 _ (@expr.Ident _ _ _ t5 idc5) x8 @ (@expr.Abs _ _ _ _ _ _ @ _))%expr_pat | (@expr.Ident _ _ _ t4 idc4 @ @expr.App _ _ _ s7 _ (@expr.Ident _ _ _ t5 idc5) x8 @ (_ @ _ @ _))%expr_pat | (@expr.Ident _ _ _ t4 idc4 @ @expr.App _ _ _ s7 _ (@expr.Ident _ _ _ t5 idc5) x8 @ (@expr.LetIn _ _ _ _ _ _ _ @ _))%expr_pat | (@expr.Ident _ _ _ t4 idc4 @ @expr.App _ _ _ s7 _ (@expr.Ident _ _ _ t5 idc5) x8 @ @expr.LetIn _ _ _ _ _ _ _)%expr_pat => Datatypes.None | (@expr.Ident _ _ _ t4 idc4 @ @expr.App _ _ _ s7 _ ($_)%expr _ @ _)%expr_pat | (@expr.Ident _ _ _ t4 idc4 @ @expr.App _ _ _ s7 _ (@expr.Abs _ _ _ _ _ _) _ @ _)%expr_pat | (@expr.Ident _ _ _ t4 idc4 @ @expr.App _ _ _ s7 _ (_ @ _) _ @ _)%expr_pat | (@expr.Ident _ _ _ t4 idc4 @ @expr.App _ _ _ s7 _ (@expr.LetIn _ _ _ _ _ _ _) _ @ _)%expr_pat => Datatypes.None | (@expr.Ident _ _ _ t4 idc4 @ #(_) @ _)%expr_pat | (@expr.Ident _ _ _ t4 idc4 @ ($_)%expr @ _)%expr_pat | (@expr.Ident _ _ _ t4 idc4 @ @expr.Abs _ _ _ _ _ _ @ _)%expr_pat | (@expr.Ident _ _ _ t4 idc4 @ @expr.LetIn _ _ _ _ _ _ _ @ _)%expr_pat => Datatypes.None | _ => Datatypes.None end;; match x4 with | (@expr.Ident _ _ _ t4 idc4 @ @expr.App _ _ _ s7 _ (@expr.Ident _ _ _ t5 idc5) x8 @ (@expr.Ident _ _ _ t6 idc6 @ @expr.Ident _ _ _ t7 idc7))%expr_pat => args <- invert_bind_args idc7 Raw.ident.Literal; args0 <- invert_bind_args idc6 Raw.ident.Z_cast; args1 <- invert_bind_args idc5 Raw.ident.Z_cast; _ <- invert_bind_args idc4 Raw.ident.Z_shiftr; args3 <- invert_bind_args idc3 Raw.ident.Z_cast; args4 <- invert_bind_args idc2 Raw.ident.Z_cast; args5 <- invert_bind_args idc1 Raw.ident.Literal; args6 <- invert_bind_args idc0 Raw.ident.Z_cast; _ <- invert_bind_args idc Raw.ident.Z_add_get_carry; match pattern.type.unify_extracted ((ℤ -> ℤ -> ℤ) -> ℤ)%ptype (((projT1 args5) -> s7 -> (projT1 args)) -> s4)%ptype with | Datatypes.Some (_, (_, _), _)%zrange => if type.type_beq base.type base.type.type_beq ((ℤ -> ℤ -> ℤ) -> ℤ)%ptype (((projT1 args5) -> s7 -> (projT1 args)) -> s4)%ptype then xv <- ident.unify pattern.ident.Literal ##(projT2 args5); v <- type.try_make_transport_cps s7 ℤ; xv0 <- ident.unify pattern.ident.Literal ##(projT2 args); v0 <- type.try_make_transport_cps s4 ℤ; fv <- (if is_bounded_by_bool (let (x10, _) := xv in x10) (ZRange.normalize args6) && is_bounded_by_bool (let (x10, _) := xv0 in x10) (ZRange.normalize args0) && ((let (x10, _) := xv in x10) =? 2 ^ Z.log2 (let (x10, _) := xv in x10)) && (ZRange.normalize args1 >> ZRange.normalize (ZRange.constant (let (x10, _) := xv0 in x10)) <=? ZRange.normalize args4)%zrange && (ZRange.normalize args4 <=? r[0 ~> (let (x10, _) := xv in x10) - 1])%zrange then Datatypes.Some (Reify.expr_value_to_rewrite_rule_replacement (@Compile.reflect_ident_iota var) false (#(Z_cast2 range)%expr @ (#(fancy_add (Z.log2 (let (x10, _) := xv in x10)) (- (let (x10, _) := xv0 in x10)))%expr @ (#(Z_cast args3)%expr @ ($(v0 (Compile.reflect x5)))%expr, #(Z_cast args1)%expr @ ($(v (Compile.reflect x8)))%expr)))%expr_pat) else Datatypes.None); Datatypes.Some (fv0 <-- fv; Base fv0)%under_lets else Datatypes.None | Datatypes.None => Datatypes.None end | (@expr.Ident _ _ _ t4 idc4 @ @expr.App _ _ _ s7 _ (@expr.Ident _ _ _ t5 idc5) x8 @ (@expr.Ident _ _ _ t6 idc6 @ ($_)%expr))%expr_pat | (@expr.Ident _ _ _ t4 idc4 @ @expr.App _ _ _ s7 _ (@expr.Ident _ _ _ t5 idc5) x8 @ (@expr.Ident _ _ _ t6 idc6 @ @expr.Abs _ _ _ _ _ _))%expr_pat | (@expr.Ident _ _ _ t4 idc4 @ @expr.App _ _ _ s7 _ (@expr.Ident _ _ _ t5 idc5) x8 @ (@expr.Ident _ _ _ t6 idc6 @ (_ @ _)))%expr_pat | (@expr.Ident _ _ _ t4 idc4 @ @expr.App _ _ _ s7 _ (@expr.Ident _ _ _ t5 idc5) x8 @ (@expr.Ident _ _ _ t6 idc6 @ @expr.LetIn _ _ _ _ _ _ _))%expr_pat => Datatypes.None | (@expr.Ident _ _ _ t4 idc4 @ @expr.App _ _ _ s7 _ (@expr.Ident _ _ _ t5 idc5) x8 @ #(_))%expr_pat | (@expr.Ident _ _ _ t4 idc4 @ @expr.App _ _ _ s7 _ (@expr.Ident _ _ _ t5 idc5) x8 @ ($_)%expr)%expr_pat | (@expr.Ident _ _ _ t4 idc4 @ @expr.App _ _ _ s7 _ (@expr.Ident _ _ _ t5 idc5) x8 @ @expr.Abs _ _ _ _ _ _)%expr_pat | (@expr.Ident _ _ _ t4 idc4 @ @expr.App _ _ _ s7 _ (@expr.Ident _ _ _ t5 idc5) x8 @ (($_)%expr @ _))%expr_pat | (@expr.Ident _ _ _ t4 idc4 @ @expr.App _ _ _ s7 _ (@expr.Ident _ _ _ t5 idc5) x8 @ (@expr.Abs _ _ _ _ _ _ @ _))%expr_pat | (@expr.Ident _ _ _ t4 idc4 @ @expr.App _ _ _ s7 _ (@expr.Ident _ _ _ t5 idc5) x8 @ (_ @ _ @ _))%expr_pat | (@expr.Ident _ _ _ t4 idc4 @ @expr.App _ _ _ s7 _ (@expr.Ident _ _ _ t5 idc5) x8 @ (@expr.LetIn _ _ _ _ _ _ _ @ _))%expr_pat | (@expr.Ident _ _ _ t4 idc4 @ @expr.App _ _ _ s7 _ (@expr.Ident _ _ _ t5 idc5) x8 @ @expr.LetIn _ _ _ _ _ _ _)%expr_pat => Datatypes.None | (@expr.Ident _ _ _ t4 idc4 @ @expr.App _ _ _ s7 _ ($_)%expr _ @ _)%expr_pat | (@expr.Ident _ _ _ t4 idc4 @ @expr.App _ _ _ s7 _ (@expr.Abs _ _ _ _ _ _) _ @ _)%expr_pat | (@expr.Ident _ _ _ t4 idc4 @ @expr.App _ _ _ s7 _ (_ @ _) _ @ _)%expr_pat | (@expr.Ident _ _ _ t4 idc4 @ @expr.App _ _ _ s7 _ (@expr.LetIn _ _ _ _ _ _ _) _ @ _)%expr_pat => Datatypes.None | (@expr.Ident _ _ _ t4 idc4 @ #(_) @ _)%expr_pat | (@expr.Ident _ _ _ t4 idc4 @ ($_)%expr @ _)%expr_pat | (@expr.Ident _ _ _ t4 idc4 @ @expr.Abs _ _ _ _ _ _ @ _)%expr_pat | (@expr.Ident _ _ _ t4 idc4 @ @expr.LetIn _ _ _ _ _ _ _ @ _)%expr_pat => Datatypes.None | _ => Datatypes.None end;; args <- invert_bind_args idc3 Raw.ident.Z_cast; args0 <- invert_bind_args idc2 Raw.ident.Z_cast; args1 <- invert_bind_args idc1 Raw.ident.Literal; args2 <- invert_bind_args idc0 Raw.ident.Z_cast; _ <- invert_bind_args idc Raw.ident.Z_add_get_carry; match pattern.type.unify_extracted ((ℤ -> ℤ) -> ℤ)%ptype (((projT1 args1) -> s3) -> s4)%ptype with | Datatypes.Some (_, _, _)%zrange => if type.type_beq base.type base.type.type_beq ((ℤ -> ℤ) -> ℤ)%ptype (((projT1 args1) -> s3) -> s4)%ptype then xv <- ident.unify pattern.ident.Literal ##(projT2 args1); v <- type.try_make_transport_cps s3 ℤ; v0 <- type.try_make_transport_cps s4 ℤ; fv <- (if is_bounded_by_bool (let (x6, _) := xv in x6) (ZRange.normalize args2) && ((let (x6, _) := xv in x6) =? 2 ^ Z.log2 (let (x6, _) := xv in x6)) && (ZRange.normalize args <=? r[0 ~> (let (x6, _) := xv in x6) - 1])%zrange then Datatypes.Some (Reify.expr_value_to_rewrite_rule_replacement (@Compile.reflect_ident_iota var) false (#(Z_cast2 range)%expr @ (#(fancy_add (Z.log2 (let (x6, _) := xv in x6)) 0)%expr @ (#(Z_cast args0)%expr @ ($(v (Compile.reflect x4)))%expr, #(Z_cast args)%expr @ ($(v0 (Compile.reflect x5)))%expr)))%expr_pat) else Datatypes.None); Datatypes.Some (fv0 <-- fv; Base fv0)%under_lets else Datatypes.None | Datatypes.None => Datatypes.None end | @expr.App _ _ _ s4 _ ($_)%expr _ | @expr.App _ _ _ s4 _ (@expr.Abs _ _ _ _ _ _) _ | @expr.App _ _ _ s4 _ (_ @ _)%expr_pat _ | @expr.App _ _ _ s4 _ (@expr.LetIn _ _ _ _ _ _ _) _ => Datatypes.None | _ => Datatypes.None end | @expr.App _ _ _ s3 _ ($_)%expr _ | @expr.App _ _ _ s3 _ (@expr.Abs _ _ _ _ _ _) _ | @expr.App _ _ _ s3 _ (_ @ _)%expr_pat _ | @expr.App _ _ _ s3 _ (@expr.LetIn _ _ _ _ _ _ _) _ => Datatypes.None | _ => Datatypes.None end | (@expr.Ident _ _ _ t0 idc0 @ ($_)%expr)%expr_pat | (@expr.Ident _ _ _ t0 idc0 @ @expr.Abs _ _ _ _ _ _)%expr_pat | (@expr.Ident _ _ _ t0 idc0 @ (_ @ _))%expr_pat | (@expr.Ident _ _ _ t0 idc0 @ @expr.LetIn _ _ _ _ _ _ _)%expr_pat => Datatypes.None | _ => Datatypes.None end;; match x2 with | (@expr.Ident _ _ _ t0 idc0 @ @expr.Ident _ _ _ t1 idc1)%expr_pat => match x1 with | @expr.App _ _ _ s3 _ (@expr.Ident _ _ _ t2 idc2) x4 => match x0 with | @expr.App _ _ _ s4 _ (@expr.Ident _ _ _ t3 idc3) x5 => match x5 with | (@expr.Ident _ _ _ t4 idc4 @ x7 @ x6)%expr_pat => match x7 with | (@expr.Ident _ _ _ t5 idc5 @ (@expr.Ident _ _ _ t6 idc6 @ @expr.App _ _ _ s10 _ (@expr.Ident _ _ _ t7 idc7) x11 @ (@expr.Ident _ _ _ t8 idc8 @ @expr.Ident _ _ _ t9 idc9)))%expr_pat => match x6 with | (@expr.Ident _ _ _ t10 idc10 @ @expr.Ident _ _ _ t11 idc11)%expr_pat => args <- invert_bind_args idc11 Raw.ident.Literal; args0 <- invert_bind_args idc10 Raw.ident.Z_cast; args1 <- invert_bind_args idc9 Raw.ident.Literal; args2 <- invert_bind_args idc8 Raw.ident.Z_cast; args3 <- invert_bind_args idc7 Raw.ident.Z_cast; _ <- invert_bind_args idc6 Raw.ident.Z_land; args5 <- invert_bind_args idc5 Raw.ident.Z_cast; _ <- invert_bind_args idc4 Raw.ident.Z_shiftl; args7 <- invert_bind_args idc3 Raw.ident.Z_cast; args8 <- invert_bind_args idc2 Raw.ident.Z_cast; args9 <- invert_bind_args idc1 Raw.ident.Literal; args10 <- invert_bind_args idc0 Raw.ident.Z_cast; _ <- invert_bind_args idc Raw.ident.Z_sub_get_borrow; match pattern.type.unify_extracted ((ℤ -> ℤ) -> (ℤ -> ℤ) -> ℤ)%ptype (((projT1 args9) -> s3) -> (s10 -> (projT1 args1)) -> (projT1 args))%ptype with | Datatypes.Some (_, _, (_, _, _))%zrange => if type.type_beq base.type base.type.type_beq ((ℤ -> ℤ) -> (ℤ -> ℤ) -> ℤ)%ptype (((projT1 args9) -> s3) -> (s10 -> (projT1 args1)) -> (projT1 args))%ptype then xv <- ident.unify pattern.ident.Literal ##(projT2 args9); v <- type.try_make_transport_cps s3 ℤ; v0 <- type.try_make_transport_cps s10 ℤ; xv0 <- ident.unify pattern.ident.Literal ##(projT2 args1); xv1 <- ident.unify pattern.ident.Literal ##(projT2 args); fv <- (if is_bounded_by_bool (let (x14, _) := xv in x14) (ZRange.normalize args10) && is_bounded_by_bool (let (x14, _) := xv0 in x14) (ZRange.normalize args2) && is_bounded_by_bool (let (x14, _) := xv1 in x14) (ZRange.normalize args0) && ((let (x14, _) := xv in x14) =? 2 ^ Z.log2 (let (x14, _) := xv in x14)) && (ZRange.normalize args5 << ZRange.normalize (ZRange.constant (let (x14, _) := xv1 in x14)) <=? ZRange.normalize args7)%zrange && (ZRange.normalize args7 <=? r[0 ~> (let (x14, _) := xv in x14) - 1])%zrange && (ZRange.normalize args3 &' ZRange.normalize (ZRange.constant (let (x14, _) := xv0 in x14)) <=? ZRange.normalize args5)%zrange && ((let (x14, _) := xv0 in x14) =? Z.ones (Z.log2 (let (x14, _) := xv in x14) - (let (x14, _) := xv1 in x14))) && ((0 <=? (let (x14, _) := xv1 in x14)) && ((let (x14, _) := xv1 in x14) <=? Z.log2 (let (x14, _) := xv in x14))) then Datatypes.Some (Reify.expr_value_to_rewrite_rule_replacement (@Compile.reflect_ident_iota var) false (#(Z_cast2 range)%expr @ (#(fancy_sub (Z.log2 (let (x14, _) := xv in x14)) (let (x14, _) := xv1 in x14))%expr @ (#(Z_cast args8)%expr @ ($(v (Compile.reflect x4)))%expr, #(Z_cast args3)%expr @ ($(v0 (Compile.reflect x11)))%expr)))%expr_pat) else Datatypes.None); Datatypes.Some (fv0 <-- fv; Base fv0)%under_lets else Datatypes.None | Datatypes.None => Datatypes.None end | (@expr.Ident _ _ _ t10 idc10 @ ($_)%expr)%expr_pat | (@expr.Ident _ _ _ t10 idc10 @ @expr.Abs _ _ _ _ _ _)%expr_pat | (@expr.Ident _ _ _ t10 idc10 @ (_ @ _))%expr_pat | (@expr.Ident _ _ _ t10 idc10 @ @expr.LetIn _ _ _ _ _ _ _)%expr_pat => Datatypes.None | _ => Datatypes.None end | (@expr.Ident _ _ _ t5 idc5 @ (@expr.Ident _ _ _ t6 idc6 @ @expr.App _ _ _ s10 _ (@expr.Ident _ _ _ t7 idc7) x11 @ (@expr.Ident _ _ _ t8 idc8 @ ($_)%expr)))%expr_pat | (@expr.Ident _ _ _ t5 idc5 @ (@expr.Ident _ _ _ t6 idc6 @ @expr.App _ _ _ s10 _ (@expr.Ident _ _ _ t7 idc7) x11 @ (@expr.Ident _ _ _ t8 idc8 @ @expr.Abs _ _ _ _ _ _)))%expr_pat | (@expr.Ident _ _ _ t5 idc5 @ (@expr.Ident _ _ _ t6 idc6 @ @expr.App _ _ _ s10 _ (@expr.Ident _ _ _ t7 idc7) x11 @ (@expr.Ident _ _ _ t8 idc8 @ (_ @ _))))%expr_pat | (@expr.Ident _ _ _ t5 idc5 @ (@expr.Ident _ _ _ t6 idc6 @ @expr.App _ _ _ s10 _ (@expr.Ident _ _ _ t7 idc7) x11 @ (@expr.Ident _ _ _ t8 idc8 @ @expr.LetIn _ _ _ _ _ _ _)))%expr_pat => Datatypes.None | (@expr.Ident _ _ _ t5 idc5 @ (@expr.Ident _ _ _ t6 idc6 @ @expr.App _ _ _ s10 _ (@expr.Ident _ _ _ t7 idc7) x11 @ #(_)))%expr_pat | (@expr.Ident _ _ _ t5 idc5 @ (@expr.Ident _ _ _ t6 idc6 @ @expr.App _ _ _ s10 _ (@expr.Ident _ _ _ t7 idc7) x11 @ ($_)%expr))%expr_pat | (@expr.Ident _ _ _ t5 idc5 @ (@expr.Ident _ _ _ t6 idc6 @ @expr.App _ _ _ s10 _ (@expr.Ident _ _ _ t7 idc7) x11 @ @expr.Abs _ _ _ _ _ _))%expr_pat | (@expr.Ident _ _ _ t5 idc5 @ (@expr.Ident _ _ _ t6 idc6 @ @expr.App _ _ _ s10 _ (@expr.Ident _ _ _ t7 idc7) x11 @ (($_)%expr @ _)))%expr_pat | (@expr.Ident _ _ _ t5 idc5 @ (@expr.Ident _ _ _ t6 idc6 @ @expr.App _ _ _ s10 _ (@expr.Ident _ _ _ t7 idc7) x11 @ (@expr.Abs _ _ _ _ _ _ @ _)))%expr_pat | (@expr.Ident _ _ _ t5 idc5 @ (@expr.Ident _ _ _ t6 idc6 @ @expr.App _ _ _ s10 _ (@expr.Ident _ _ _ t7 idc7) x11 @ (_ @ _ @ _)))%expr_pat | (@expr.Ident _ _ _ t5 idc5 @ (@expr.Ident _ _ _ t6 idc6 @ @expr.App _ _ _ s10 _ (@expr.Ident _ _ _ t7 idc7) x11 @ (@expr.LetIn _ _ _ _ _ _ _ @ _)))%expr_pat | (@expr.Ident _ _ _ t5 idc5 @ (@expr.Ident _ _ _ t6 idc6 @ @expr.App _ _ _ s10 _ (@expr.Ident _ _ _ t7 idc7) x11 @ @expr.LetIn _ _ _ _ _ _ _))%expr_pat => Datatypes.None | (@expr.Ident _ _ _ t5 idc5 @ (@expr.Ident _ _ _ t6 idc6 @ @expr.App _ _ _ s10 _ ($_)%expr _ @ _))%expr_pat | (@expr.Ident _ _ _ t5 idc5 @ (@expr.Ident _ _ _ t6 idc6 @ @expr.App _ _ _ s10 _ (@expr.Abs _ _ _ _ _ _) _ @ _))%expr_pat | (@expr.Ident _ _ _ t5 idc5 @ (@expr.Ident _ _ _ t6 idc6 @ @expr.App _ _ _ s10 _ (_ @ _) _ @ _))%expr_pat | (@expr.Ident _ _ _ t5 idc5 @ (@expr.Ident _ _ _ t6 idc6 @ @expr.App _ _ _ s10 _ (@expr.LetIn _ _ _ _ _ _ _) _ @ _))%expr_pat => Datatypes.None | (@expr.Ident _ _ _ t5 idc5 @ (@expr.Ident _ _ _ t6 idc6 @ #(_) @ _))%expr_pat | (@expr.Ident _ _ _ t5 idc5 @ (@expr.Ident _ _ _ t6 idc6 @ ($_)%expr @ _))%expr_pat | (@expr.Ident _ _ _ t5 idc5 @ (@expr.Ident _ _ _ t6 idc6 @ @expr.Abs _ _ _ _ _ _ @ _))%expr_pat | (@expr.Ident _ _ _ t5 idc5 @ (@expr.Ident _ _ _ t6 idc6 @ @expr.LetIn _ _ _ _ _ _ _ @ _))%expr_pat => Datatypes.None | (@expr.Ident _ _ _ t5 idc5 @ #(_))%expr_pat | (@expr.Ident _ _ _ t5 idc5 @ ($_)%expr)%expr_pat | (@expr.Ident _ _ _ t5 idc5 @ @expr.Abs _ _ _ _ _ _)%expr_pat | (@expr.Ident _ _ _ t5 idc5 @ (#(_) @ _))%expr_pat | (@expr.Ident _ _ _ t5 idc5 @ (($_)%expr @ _))%expr_pat | (@expr.Ident _ _ _ t5 idc5 @ (@expr.Abs _ _ _ _ _ _ @ _))%expr_pat | (@expr.Ident _ _ _ t5 idc5 @ (($_)%expr @ _ @ _))%expr_pat | (@expr.Ident _ _ _ t5 idc5 @ (@expr.Abs _ _ _ _ _ _ @ _ @ _))%expr_pat | (@expr.Ident _ _ _ t5 idc5 @ (_ @ _ @ _ @ _))%expr_pat | (@expr.Ident _ _ _ t5 idc5 @ (@expr.LetIn _ _ _ _ _ _ _ @ _ @ _))%expr_pat | (@expr.Ident _ _ _ t5 idc5 @ (@expr.LetIn _ _ _ _ _ _ _ @ _))%expr_pat | (@expr.Ident _ _ _ t5 idc5 @ @expr.LetIn _ _ _ _ _ _ _)%expr_pat => Datatypes.None | _ => Datatypes.None end;; match x7 with | @expr.App _ _ _ s7 _ (@expr.Ident _ _ _ t5 idc5) x8 => match x6 with | (@expr.Ident _ _ _ t6 idc6 @ @expr.Ident _ _ _ t7 idc7)%expr_pat => args <- invert_bind_args idc7 Raw.ident.Literal; args0 <- invert_bind_args idc6 Raw.ident.Z_cast; args1 <- invert_bind_args idc5 Raw.ident.Z_cast; _ <- invert_bind_args idc4 Raw.ident.Z_shiftr; args3 <- invert_bind_args idc3 Raw.ident.Z_cast; args4 <- invert_bind_args idc2 Raw.ident.Z_cast; args5 <- invert_bind_args idc1 Raw.ident.Literal; args6 <- invert_bind_args idc0 Raw.ident.Z_cast; _ <- invert_bind_args idc Raw.ident.Z_sub_get_borrow; match pattern.type.unify_extracted ((ℤ -> ℤ) -> ℤ -> ℤ)%ptype (((projT1 args5) -> s3) -> s7 -> (projT1 args))%ptype with | Datatypes.Some (_, _, (_, _))%zrange => if type.type_beq base.type base.type.type_beq ((ℤ -> ℤ) -> ℤ -> ℤ)%ptype (((projT1 args5) -> s3) -> s7 -> (projT1 args))%ptype then xv <- ident.unify pattern.ident.Literal ##(projT2 args5); v <- type.try_make_transport_cps s3 ℤ; v0 <- type.try_make_transport_cps s7 ℤ; xv0 <- ident.unify pattern.ident.Literal ##(projT2 args); fv <- (if is_bounded_by_bool (let (x10, _) := xv in x10) (ZRange.normalize args6) && is_bounded_by_bool (let (x10, _) := xv0 in x10) (ZRange.normalize args0) && ((let (x10, _) := xv in x10) =? 2 ^ Z.log2 (let (x10, _) := xv in x10)) && (ZRange.normalize args1 >> ZRange.normalize (ZRange.constant (let (x10, _) := xv0 in x10)) <=? ZRange.normalize args3)%zrange && (ZRange.normalize args3 <=? r[0 ~> (let (x10, _) := xv in x10) - 1])%zrange then Datatypes.Some (Reify.expr_value_to_rewrite_rule_replacement (@Compile.reflect_ident_iota var) false (#(Z_cast2 range)%expr @ (#(fancy_sub (Z.log2 (let (x10, _) := xv in x10)) (- (let (x10, _) := xv0 in x10)))%expr @ (#(Z_cast args4)%expr @ ($(v (Compile.reflect x4)))%expr, #(Z_cast args1)%expr @ ($(v0 (Compile.reflect x8)))%expr)))%expr_pat) else Datatypes.None); Datatypes.Some (fv0 <-- fv; Base fv0)%under_lets else Datatypes.None | Datatypes.None => Datatypes.None end | (@expr.Ident _ _ _ t6 idc6 @ ($_)%expr)%expr_pat | (@expr.Ident _ _ _ t6 idc6 @ @expr.Abs _ _ _ _ _ _)%expr_pat | (@expr.Ident _ _ _ t6 idc6 @ (_ @ _))%expr_pat | (@expr.Ident _ _ _ t6 idc6 @ @expr.LetIn _ _ _ _ _ _ _)%expr_pat => Datatypes.None | _ => Datatypes.None end | @expr.App _ _ _ s7 _ ($_)%expr _ | @expr.App _ _ _ s7 _ (@expr.Abs _ _ _ _ _ _) _ | @expr.App _ _ _ s7 _ (_ @ _)%expr_pat _ | @expr.App _ _ _ s7 _ (@expr.LetIn _ _ _ _ _ _ _) _ => Datatypes.None | _ => Datatypes.None end | _ => Datatypes.None end;; args <- invert_bind_args idc3 Raw.ident.Z_cast; args0 <- invert_bind_args idc2 Raw.ident.Z_cast; args1 <- invert_bind_args idc1 Raw.ident.Literal; args2 <- invert_bind_args idc0 Raw.ident.Z_cast; _ <- invert_bind_args idc Raw.ident.Z_sub_get_borrow; match pattern.type.unify_extracted ((ℤ -> ℤ) -> ℤ)%ptype (((projT1 args1) -> s3) -> s4)%ptype with | Datatypes.Some (_, _, _)%zrange => if type.type_beq base.type base.type.type_beq ((ℤ -> ℤ) -> ℤ)%ptype (((projT1 args1) -> s3) -> s4)%ptype then xv <- ident.unify pattern.ident.Literal ##(projT2 args1); v <- type.try_make_transport_cps s3 ℤ; v0 <- type.try_make_transport_cps s4 ℤ; fv <- (if is_bounded_by_bool (let (x6, _) := xv in x6) (ZRange.normalize args2) && ((let (x6, _) := xv in x6) =? 2 ^ Z.log2 (let (x6, _) := xv in x6)) && (ZRange.normalize args <=? r[0 ~> (let (x6, _) := xv in x6) - 1])%zrange then Datatypes.Some (Reify.expr_value_to_rewrite_rule_replacement (@Compile.reflect_ident_iota var) false (#(Z_cast2 range)%expr @ (#(fancy_sub (Z.log2 (let (x6, _) := xv in x6)) 0)%expr @ (#(Z_cast args0)%expr @ ($(v (Compile.reflect x4)))%expr, #(Z_cast args)%expr @ ($(v0 (Compile.reflect x5)))%expr)))%expr_pat) else Datatypes.None); Datatypes.Some (fv0 <-- fv; Base fv0)%under_lets else Datatypes.None | Datatypes.None => Datatypes.None end | @expr.App _ _ _ s4 _ ($_)%expr _ | @expr.App _ _ _ s4 _ (@expr.Abs _ _ _ _ _ _) _ | @expr.App _ _ _ s4 _ (_ @ _)%expr_pat _ | @expr.App _ _ _ s4 _ (@expr.LetIn _ _ _ _ _ _ _) _ => Datatypes.None | _ => Datatypes.None end | @expr.App _ _ _ s3 _ ($_)%expr _ | @expr.App _ _ _ s3 _ (@expr.Abs _ _ _ _ _ _) _ | @expr.App _ _ _ s3 _ (_ @ _)%expr_pat _ | @expr.App _ _ _ s3 _ (@expr.LetIn _ _ _ _ _ _ _) _ => Datatypes.None | _ => Datatypes.None end | (@expr.Ident _ _ _ t0 idc0 @ ($_)%expr)%expr_pat | (@expr.Ident _ _ _ t0 idc0 @ @expr.Abs _ _ _ _ _ _)%expr_pat | (@expr.Ident _ _ _ t0 idc0 @ (_ @ _))%expr_pat | (@expr.Ident _ _ _ t0 idc0 @ @expr.LetIn _ _ _ _ _ _ _)%expr_pat => Datatypes.None | _ => Datatypes.None end | (@expr.Ident _ _ _ t idc @ x3 @ x2 @ x1 @ x0)%expr_pat => match x3 with | (@expr.Ident _ _ _ t0 idc0 @ @expr.Ident _ _ _ t1 idc1)%expr_pat => match x2 with | @expr.App _ _ _ s4 _ (@expr.Ident _ _ _ t2 idc2) x5 => match x1 with | @expr.App _ _ _ s5 _ (@expr.Ident _ _ _ t3 idc3) x6 => match x0 with | @expr.App _ _ _ s6 _ (@expr.Ident _ _ _ t4 idc4) x7 => match x7 with | (@expr.Ident _ _ _ t5 idc5 @ (@expr.Ident _ _ _ t6 idc6 @ (@expr.Ident _ _ _ t7 idc7 @ @expr.App _ _ _ s12 _ (@expr.Ident _ _ _ t8 idc8) x13 @ (@expr.Ident _ _ _ t9 idc9 @ @expr.Ident _ _ _ t10 idc10))) @ (@expr.Ident _ _ _ t11 idc11 @ @expr.Ident _ _ _ t12 idc12))%expr_pat => args <- invert_bind_args idc12 Raw.ident.Literal; args0 <- invert_bind_args idc11 Raw.ident.Z_cast; args1 <- invert_bind_args idc10 Raw.ident.Literal; args2 <- invert_bind_args idc9 Raw.ident.Z_cast; args3 <- invert_bind_args idc8 Raw.ident.Z_cast; _ <- invert_bind_args idc7 Raw.ident.Z_land; args5 <- invert_bind_args idc6 Raw.ident.Z_cast; _ <- invert_bind_args idc5 Raw.ident.Z_shiftl; args7 <- invert_bind_args idc4 Raw.ident.Z_cast; args8 <- invert_bind_args idc3 Raw.ident.Z_cast; args9 <- invert_bind_args idc2 Raw.ident.Z_cast; args10 <- invert_bind_args idc1 Raw.ident.Literal; args11 <- invert_bind_args idc0 Raw.ident.Z_cast; _ <- invert_bind_args idc Raw.ident.Z_add_with_get_carry; match pattern.type.unify_extracted (((ℤ -> ℤ) -> ℤ) -> (ℤ -> ℤ) -> ℤ)%ptype ((((projT1 args10) -> s4) -> s5) -> (s12 -> (projT1 args1)) -> (projT1 args))%ptype with | Datatypes.Some (_, _, _, (_, _, _))%zrange => if type.type_beq base.type base.type.type_beq (((ℤ -> ℤ) -> ℤ) -> (ℤ -> ℤ) -> ℤ)%ptype ((((projT1 args10) -> s4) -> s5) -> (s12 -> (projT1 args1)) -> (projT1 args))%ptype then xv <- ident.unify pattern.ident.Literal ##(projT2 args10); v <- type.try_make_transport_cps s4 ℤ; v0 <- type.try_make_transport_cps s5 ℤ; v1 <- type.try_make_transport_cps s12 ℤ; xv0 <- ident.unify pattern.ident.Literal ##(projT2 args1); xv1 <- ident.unify pattern.ident.Literal ##(projT2 args); fv <- (if is_bounded_by_bool (let (x16, _) := xv in x16) (ZRange.normalize args11) && is_bounded_by_bool (let (x16, _) := xv0 in x16) (ZRange.normalize args2) && is_bounded_by_bool (let (x16, _) := xv1 in x16) (ZRange.normalize args0) && ((let (x16, _) := xv in x16) =? 2 ^ Z.log2 (let (x16, _) := xv in x16)) && (ZRange.normalize args5 << ZRange.normalize (ZRange.constant (let (x16, _) := xv1 in x16)) <=? ZRange.normalize args7)%zrange && (ZRange.normalize args3 &' ZRange.normalize (ZRange.constant (let (x16, _) := xv0 in x16)) <=? ZRange.normalize args5)%zrange && (ZRange.normalize args7 <=? r[0 ~> (let (x16, _) := xv in x16) - 1])%zrange && ((let (x16, _) := xv0 in x16) =? Z.ones (Z.log2 (let (x16, _) := xv in x16) - (let (x16, _) := xv1 in x16))) && ((0 <=? (let (x16, _) := xv1 in x16)) && ((let (x16, _) := xv1 in x16) <=? Z.log2 (let (x16, _) := xv in x16))) then Datatypes.Some (Reify.expr_value_to_rewrite_rule_replacement (@Compile.reflect_ident_iota var) false (#(Z_cast2 range)%expr @ (#(fancy_addc (Z.log2 (let (x16, _) := xv in x16)) (let (x16, _) := xv1 in x16))%expr @ (#(Z_cast args9)%expr @ ($(v (Compile.reflect x5)))%expr, #(Z_cast args8)%expr @ ($(v0 (Compile.reflect x6)))%expr, #(Z_cast args3)%expr @ ($(v1 (Compile.reflect x13)))%expr)))%expr_pat) else Datatypes.None); Datatypes.Some (fv0 <-- fv; Base fv0)%under_lets else Datatypes.None | Datatypes.None => Datatypes.None end | (@expr.Ident _ _ _ t5 idc5 @ (@expr.Ident _ _ _ t6 idc6 @ (@expr.Ident _ _ _ t7 idc7 @ @expr.App _ _ _ s12 _ (@expr.Ident _ _ _ t8 idc8) x13 @ (@expr.Ident _ _ _ t9 idc9 @ @expr.Ident _ _ _ t10 idc10))) @ (@expr.Ident _ _ _ t11 idc11 @ ($_)%expr))%expr_pat | (@expr.Ident _ _ _ t5 idc5 @ (@expr.Ident _ _ _ t6 idc6 @ (@expr.Ident _ _ _ t7 idc7 @ @expr.App _ _ _ s12 _ (@expr.Ident _ _ _ t8 idc8) x13 @ (@expr.Ident _ _ _ t9 idc9 @ @expr.Ident _ _ _ t10 idc10))) @ (@expr.Ident _ _ _ t11 idc11 @ @expr.Abs _ _ _ _ _ _))%expr_pat | (@expr.Ident _ _ _ t5 idc5 @ (@expr.Ident _ _ _ t6 idc6 @ (@expr.Ident _ _ _ t7 idc7 @ @expr.App _ _ _ s12 _ (@expr.Ident _ _ _ t8 idc8) x13 @ (@expr.Ident _ _ _ t9 idc9 @ @expr.Ident _ _ _ t10 idc10))) @ (@expr.Ident _ _ _ t11 idc11 @ (_ @ _)))%expr_pat | (@expr.Ident _ _ _ t5 idc5 @ (@expr.Ident _ _ _ t6 idc6 @ (@expr.Ident _ _ _ t7 idc7 @ @expr.App _ _ _ s12 _ (@expr.Ident _ _ _ t8 idc8) x13 @ (@expr.Ident _ _ _ t9 idc9 @ @expr.Ident _ _ _ t10 idc10))) @ (@expr.Ident _ _ _ t11 idc11 @ @expr.LetIn _ _ _ _ _ _ _))%expr_pat => Datatypes.None | (@expr.Ident _ _ _ t5 idc5 @ (@expr.Ident _ _ _ t6 idc6 @ (@expr.Ident _ _ _ t7 idc7 @ @expr.App _ _ _ s12 _ (@expr.Ident _ _ _ t8 idc8) x13 @ (@expr.Ident _ _ _ t9 idc9 @ @expr.Ident _ _ _ t10 idc10))) @ #(_))%expr_pat | (@expr.Ident _ _ _ t5 idc5 @ (@expr.Ident _ _ _ t6 idc6 @ (@expr.Ident _ _ _ t7 idc7 @ @expr.App _ _ _ s12 _ (@expr.Ident _ _ _ t8 idc8) x13 @ (@expr.Ident _ _ _ t9 idc9 @ @expr.Ident _ _ _ t10 idc10))) @ ($_)%expr)%expr_pat | (@expr.Ident _ _ _ t5 idc5 @ (@expr.Ident _ _ _ t6 idc6 @ (@expr.Ident _ _ _ t7 idc7 @ @expr.App _ _ _ s12 _ (@expr.Ident _ _ _ t8 idc8) x13 @ (@expr.Ident _ _ _ t9 idc9 @ @expr.Ident _ _ _ t10 idc10))) @ @expr.Abs _ _ _ _ _ _)%expr_pat | (@expr.Ident _ _ _ t5 idc5 @ (@expr.Ident _ _ _ t6 idc6 @ (@expr.Ident _ _ _ t7 idc7 @ @expr.App _ _ _ s12 _ (@expr.Ident _ _ _ t8 idc8) x13 @ (@expr.Ident _ _ _ t9 idc9 @ @expr.Ident _ _ _ t10 idc10))) @ (($_)%expr @ _))%expr_pat | (@expr.Ident _ _ _ t5 idc5 @ (@expr.Ident _ _ _ t6 idc6 @ (@expr.Ident _ _ _ t7 idc7 @ @expr.App _ _ _ s12 _ (@expr.Ident _ _ _ t8 idc8) x13 @ (@expr.Ident _ _ _ t9 idc9 @ @expr.Ident _ _ _ t10 idc10))) @ (@expr.Abs _ _ _ _ _ _ @ _))%expr_pat | (@expr.Ident _ _ _ t5 idc5 @ (@expr.Ident _ _ _ t6 idc6 @ (@expr.Ident _ _ _ t7 idc7 @ @expr.App _ _ _ s12 _ (@expr.Ident _ _ _ t8 idc8) x13 @ (@expr.Ident _ _ _ t9 idc9 @ @expr.Ident _ _ _ t10 idc10))) @ (_ @ _ @ _))%expr_pat | (@expr.Ident _ _ _ t5 idc5 @ (@expr.Ident _ _ _ t6 idc6 @ (@expr.Ident _ _ _ t7 idc7 @ @expr.App _ _ _ s12 _ (@expr.Ident _ _ _ t8 idc8) x13 @ (@expr.Ident _ _ _ t9 idc9 @ @expr.Ident _ _ _ t10 idc10))) @ (@expr.LetIn _ _ _ _ _ _ _ @ _))%expr_pat | (@expr.Ident _ _ _ t5 idc5 @ (@expr.Ident _ _ _ t6 idc6 @ (@expr.Ident _ _ _ t7 idc7 @ @expr.App _ _ _ s12 _ (@expr.Ident _ _ _ t8 idc8) x13 @ (@expr.Ident _ _ _ t9 idc9 @ @expr.Ident _ _ _ t10 idc10))) @ @expr.LetIn _ _ _ _ _ _ _)%expr_pat => Datatypes.None | (@expr.Ident _ _ _ t5 idc5 @ (@expr.Ident _ _ _ t6 idc6 @ (@expr.Ident _ _ _ t7 idc7 @ @expr.App _ _ _ s12 _ (@expr.Ident _ _ _ t8 idc8) x13 @ (@expr.Ident _ _ _ t9 idc9 @ ($_)%expr))) @ _)%expr_pat | (@expr.Ident _ _ _ t5 idc5 @ (@expr.Ident _ _ _ t6 idc6 @ (@expr.Ident _ _ _ t7 idc7 @ @expr.App _ _ _ s12 _ (@expr.Ident _ _ _ t8 idc8) x13 @ (@expr.Ident _ _ _ t9 idc9 @ @expr.Abs _ _ _ _ _ _))) @ _)%expr_pat | (@expr.Ident _ _ _ t5 idc5 @ (@expr.Ident _ _ _ t6 idc6 @ (@expr.Ident _ _ _ t7 idc7 @ @expr.App _ _ _ s12 _ (@expr.Ident _ _ _ t8 idc8) x13 @ (@expr.Ident _ _ _ t9 idc9 @ (_ @ _)))) @ _)%expr_pat | (@expr.Ident _ _ _ t5 idc5 @ (@expr.Ident _ _ _ t6 idc6 @ (@expr.Ident _ _ _ t7 idc7 @ @expr.App _ _ _ s12 _ (@expr.Ident _ _ _ t8 idc8) x13 @ (@expr.Ident _ _ _ t9 idc9 @ @expr.LetIn _ _ _ _ _ _ _))) @ _)%expr_pat => Datatypes.None | (@expr.Ident _ _ _ t5 idc5 @ (@expr.Ident _ _ _ t6 idc6 @ (@expr.Ident _ _ _ t7 idc7 @ @expr.App _ _ _ s12 _ (@expr.Ident _ _ _ t8 idc8) x13 @ # (_))) @ _)%expr_pat | (@expr.Ident _ _ _ t5 idc5 @ (@expr.Ident _ _ _ t6 idc6 @ (@expr.Ident _ _ _ t7 idc7 @ @expr.App _ _ _ s12 _ (@expr.Ident _ _ _ t8 idc8) x13 @ ($_)%expr)) @ _)%expr_pat | (@expr.Ident _ _ _ t5 idc5 @ (@expr.Ident _ _ _ t6 idc6 @ (@expr.Ident _ _ _ t7 idc7 @ @expr.App _ _ _ s12 _ (@expr.Ident _ _ _ t8 idc8) x13 @ @expr.Abs _ _ _ _ _ _)) @ _)%expr_pat | (@expr.Ident _ _ _ t5 idc5 @ (@expr.Ident _ _ _ t6 idc6 @ (@expr.Ident _ _ _ t7 idc7 @ @expr.App _ _ _ s12 _ (@expr.Ident _ _ _ t8 idc8) x13 @ (($_)%expr @ _))) @ _)%expr_pat | (@expr.Ident _ _ _ t5 idc5 @ (@expr.Ident _ _ _ t6 idc6 @ (@expr.Ident _ _ _ t7 idc7 @ @expr.App _ _ _ s12 _ (@expr.Ident _ _ _ t8 idc8) x13 @ (@expr.Abs _ _ _ _ _ _ @ _))) @ _)%expr_pat | (@expr.Ident _ _ _ t5 idc5 @ (@expr.Ident _ _ _ t6 idc6 @ (@expr.Ident _ _ _ t7 idc7 @ @expr.App _ _ _ s12 _ (@expr.Ident _ _ _ t8 idc8) x13 @ (_ @ _ @ _))) @ _)%expr_pat | (@expr.Ident _ _ _ t5 idc5 @ (@expr.Ident _ _ _ t6 idc6 @ (@expr.Ident _ _ _ t7 idc7 @ @expr.App _ _ _ s12 _ (@expr.Ident _ _ _ t8 idc8) x13 @ (@expr.LetIn _ _ _ _ _ _ _ @ _))) @ _)%expr_pat | (@expr.Ident _ _ _ t5 idc5 @ (@expr.Ident _ _ _ t6 idc6 @ (@expr.Ident _ _ _ t7 idc7 @ @expr.App _ _ _ s12 _ (@expr.Ident _ _ _ t8 idc8) x13 @ @expr.LetIn _ _ _ _ _ _ _)) @ _)%expr_pat => Datatypes.None | (@expr.Ident _ _ _ t5 idc5 @ (@expr.Ident _ _ _ t6 idc6 @ (@expr.Ident _ _ _ t7 idc7 @ @expr.App _ _ _ s12 _ ($_)%expr _ @ _)) @ _)%expr_pat | (@expr.Ident _ _ _ t5 idc5 @ (@expr.Ident _ _ _ t6 idc6 @ (@expr.Ident _ _ _ t7 idc7 @ @expr.App _ _ _ s12 _ (@expr.Abs _ _ _ _ _ _) _ @ _)) @ _)%expr_pat | (@expr.Ident _ _ _ t5 idc5 @ (@expr.Ident _ _ _ t6 idc6 @ (@expr.Ident _ _ _ t7 idc7 @ @expr.App _ _ _ s12 _ (_ @ _) _ @ _)) @ _)%expr_pat | (@expr.Ident _ _ _ t5 idc5 @ (@expr.Ident _ _ _ t6 idc6 @ (@expr.Ident _ _ _ t7 idc7 @ @expr.App _ _ _ s12 _ (@expr.LetIn _ _ _ _ _ _ _) _ @ _)) @ _)%expr_pat => Datatypes.None | (@expr.Ident _ _ _ t5 idc5 @ (@expr.Ident _ _ _ t6 idc6 @ (@expr.Ident _ _ _ t7 idc7 @ #(_) @ _)) @ _)%expr_pat | (@expr.Ident _ _ _ t5 idc5 @ (@expr.Ident _ _ _ t6 idc6 @ (@expr.Ident _ _ _ t7 idc7 @ ($_)%expr @ _)) @ _)%expr_pat | (@expr.Ident _ _ _ t5 idc5 @ (@expr.Ident _ _ _ t6 idc6 @ (@expr.Ident _ _ _ t7 idc7 @ @expr.Abs _ _ _ _ _ _ @ _)) @ _)%expr_pat | (@expr.Ident _ _ _ t5 idc5 @ (@expr.Ident _ _ _ t6 idc6 @ (@expr.Ident _ _ _ t7 idc7 @ @expr.LetIn _ _ _ _ _ _ _ @ _)) @ _)%expr_pat => Datatypes.None | (@expr.Ident _ _ _ t5 idc5 @ (@expr.Ident _ _ _ t6 idc6 @ #(_)) @ _)%expr_pat | (@expr.Ident _ _ _ t5 idc5 @ (@expr.Ident _ _ _ t6 idc6 @ ($_)%expr) @ _)%expr_pat | (@expr.Ident _ _ _ t5 idc5 @ (@expr.Ident _ _ _ t6 idc6 @ @expr.Abs _ _ _ _ _ _) @ _)%expr_pat | (@expr.Ident _ _ _ t5 idc5 @ (@expr.Ident _ _ _ t6 idc6 @ (#(_) @ _)) @ _)%expr_pat | (@expr.Ident _ _ _ t5 idc5 @ (@expr.Ident _ _ _ t6 idc6 @ (($_)%expr @ _)) @ _)%expr_pat | (@expr.Ident _ _ _ t5 idc5 @ (@expr.Ident _ _ _ t6 idc6 @ (@expr.Abs _ _ _ _ _ _ @ _)) @ _)%expr_pat | (@expr.Ident _ _ _ t5 idc5 @ (@expr.Ident _ _ _ t6 idc6 @ (($_)%expr @ _ @ _)) @ _)%expr_pat | (@expr.Ident _ _ _ t5 idc5 @ (@expr.Ident _ _ _ t6 idc6 @ (@expr.Abs _ _ _ _ _ _ @ _ @ _)) @ _)%expr_pat | (@expr.Ident _ _ _ t5 idc5 @ (@expr.Ident _ _ _ t6 idc6 @ (_ @ _ @ _ @ _)) @ _)%expr_pat | (@expr.Ident _ _ _ t5 idc5 @ (@expr.Ident _ _ _ t6 idc6 @ (@expr.LetIn _ _ _ _ _ _ _ @ _ @ _)) @ _)%expr_pat | (@expr.Ident _ _ _ t5 idc5 @ (@expr.Ident _ _ _ t6 idc6 @ (@expr.LetIn _ _ _ _ _ _ _ @ _)) @ _)%expr_pat | (@expr.Ident _ _ _ t5 idc5 @ (@expr.Ident _ _ _ t6 idc6 @ @expr.LetIn _ _ _ _ _ _ _) @ _)%expr_pat => Datatypes.None | (@expr.Ident _ _ _ t5 idc5 @ #(_) @ _)%expr_pat | (@expr.Ident _ _ _ t5 idc5 @ ($_)%expr @ _)%expr_pat | (@expr.Ident _ _ _ t5 idc5 @ @expr.Abs _ _ _ _ _ _ @ _)%expr_pat | (@expr.Ident _ _ _ t5 idc5 @ (($_)%expr @ _) @ _)%expr_pat | (@expr.Ident _ _ _ t5 idc5 @ (@expr.Abs _ _ _ _ _ _ @ _) @ _)%expr_pat | (@expr.Ident _ _ _ t5 idc5 @ (_ @ _ @ _) @ _)%expr_pat | (@expr.Ident _ _ _ t5 idc5 @ (@expr.LetIn _ _ _ _ _ _ _ @ _) @ _)%expr_pat | (@expr.Ident _ _ _ t5 idc5 @ @expr.LetIn _ _ _ _ _ _ _ @ _)%expr_pat => Datatypes.None | _ => Datatypes.None end;; match x6 with | (@expr.Ident _ _ _ t5 idc5 @ (@expr.Ident _ _ _ t6 idc6 @ (@expr.Ident _ _ _ t7 idc7 @ @expr.App _ _ _ s12 _ (@expr.Ident _ _ _ t8 idc8) x13 @ (@expr.Ident _ _ _ t9 idc9 @ @expr.Ident _ _ _ t10 idc10))) @ (@expr.Ident _ _ _ t11 idc11 @ @expr.Ident _ _ _ t12 idc12))%expr_pat => args <- invert_bind_args idc12 Raw.ident.Literal; args0 <- invert_bind_args idc11 Raw.ident.Z_cast; args1 <- invert_bind_args idc10 Raw.ident.Literal; args2 <- invert_bind_args idc9 Raw.ident.Z_cast; args3 <- invert_bind_args idc8 Raw.ident.Z_cast; _ <- invert_bind_args idc7 Raw.ident.Z_land; args5 <- invert_bind_args idc6 Raw.ident.Z_cast; _ <- invert_bind_args idc5 Raw.ident.Z_shiftl; args7 <- invert_bind_args idc4 Raw.ident.Z_cast; args8 <- invert_bind_args idc3 Raw.ident.Z_cast; args9 <- invert_bind_args idc2 Raw.ident.Z_cast; args10 <- invert_bind_args idc1 Raw.ident.Literal; args11 <- invert_bind_args idc0 Raw.ident.Z_cast; _ <- invert_bind_args idc Raw.ident.Z_add_with_get_carry; match pattern.type.unify_extracted (((ℤ -> ℤ) -> (ℤ -> ℤ) -> ℤ) -> ℤ)%ptype ((((projT1 args10) -> s4) -> (s12 -> (projT1 args1)) -> (projT1 args)) -> s6)%ptype with | Datatypes.Some (_, _, (_, _, _), _)%zrange => if type.type_beq base.type base.type.type_beq (((ℤ -> ℤ) -> (ℤ -> ℤ) -> ℤ) -> ℤ)%ptype ((((projT1 args10) -> s4) -> (s12 -> (projT1 args1)) -> (projT1 args)) -> s6)%ptype then xv <- ident.unify pattern.ident.Literal ##(projT2 args10); v <- type.try_make_transport_cps s4 ℤ; v0 <- type.try_make_transport_cps s12 ℤ; xv0 <- ident.unify pattern.ident.Literal ##(projT2 args1); xv1 <- ident.unify pattern.ident.Literal ##(projT2 args); v1 <- type.try_make_transport_cps s6 ℤ; fv <- (if is_bounded_by_bool (let (x16, _) := xv in x16) (ZRange.normalize args11) && is_bounded_by_bool (let (x16, _) := xv0 in x16) (ZRange.normalize args2) && is_bounded_by_bool (let (x16, _) := xv1 in x16) (ZRange.normalize args0) && ((let (x16, _) := xv in x16) =? 2 ^ Z.log2 (let (x16, _) := xv in x16)) && (ZRange.normalize args5 << ZRange.normalize (ZRange.constant (let (x16, _) := xv1 in x16)) <=? ZRange.normalize args8)%zrange && (ZRange.normalize args8 <=? r[0 ~> (let (x16, _) := xv in x16) - 1])%zrange && (ZRange.normalize args3 &' ZRange.normalize (ZRange.constant (let (x16, _) := xv0 in x16)) <=? ZRange.normalize args5)%zrange && ((let (x16, _) := xv0 in x16) =? Z.ones (Z.log2 (let (x16, _) := xv in x16) - (let (x16, _) := xv1 in x16))) && ((0 <=? (let (x16, _) := xv1 in x16)) && ((let (x16, _) := xv1 in x16) <=? Z.log2 (let (x16, _) := xv in x16))) then Datatypes.Some (Reify.expr_value_to_rewrite_rule_replacement (@Compile.reflect_ident_iota var) false (#(Z_cast2 range)%expr @ (#(fancy_addc (Z.log2 (let (x16, _) := xv in x16)) (let (x16, _) := xv1 in x16))%expr @ (#(Z_cast args9)%expr @ ($(v (Compile.reflect x5)))%expr, #(Z_cast args7)%expr @ ($(v1 (Compile.reflect x7)))%expr, #(Z_cast args3)%expr @ ($(v0 (Compile.reflect x13)))%expr)))%expr_pat) else Datatypes.None); Datatypes.Some (fv0 <-- fv; Base fv0)%under_lets else Datatypes.None | Datatypes.None => Datatypes.None end | (@expr.Ident _ _ _ t5 idc5 @ (@expr.Ident _ _ _ t6 idc6 @ (@expr.Ident _ _ _ t7 idc7 @ @expr.App _ _ _ s12 _ (@expr.Ident _ _ _ t8 idc8) x13 @ (@expr.Ident _ _ _ t9 idc9 @ @expr.Ident _ _ _ t10 idc10))) @ (@expr.Ident _ _ _ t11 idc11 @ ($_)%expr))%expr_pat | (@expr.Ident _ _ _ t5 idc5 @ (@expr.Ident _ _ _ t6 idc6 @ (@expr.Ident _ _ _ t7 idc7 @ @expr.App _ _ _ s12 _ (@expr.Ident _ _ _ t8 idc8) x13 @ (@expr.Ident _ _ _ t9 idc9 @ @expr.Ident _ _ _ t10 idc10))) @ (@expr.Ident _ _ _ t11 idc11 @ @expr.Abs _ _ _ _ _ _))%expr_pat | (@expr.Ident _ _ _ t5 idc5 @ (@expr.Ident _ _ _ t6 idc6 @ (@expr.Ident _ _ _ t7 idc7 @ @expr.App _ _ _ s12 _ (@expr.Ident _ _ _ t8 idc8) x13 @ (@expr.Ident _ _ _ t9 idc9 @ @expr.Ident _ _ _ t10 idc10))) @ (@expr.Ident _ _ _ t11 idc11 @ (_ @ _)))%expr_pat | (@expr.Ident _ _ _ t5 idc5 @ (@expr.Ident _ _ _ t6 idc6 @ (@expr.Ident _ _ _ t7 idc7 @ @expr.App _ _ _ s12 _ (@expr.Ident _ _ _ t8 idc8) x13 @ (@expr.Ident _ _ _ t9 idc9 @ @expr.Ident _ _ _ t10 idc10))) @ (@expr.Ident _ _ _ t11 idc11 @ @expr.LetIn _ _ _ _ _ _ _))%expr_pat => Datatypes.None | (@expr.Ident _ _ _ t5 idc5 @ (@expr.Ident _ _ _ t6 idc6 @ (@expr.Ident _ _ _ t7 idc7 @ @expr.App _ _ _ s12 _ (@expr.Ident _ _ _ t8 idc8) x13 @ (@expr.Ident _ _ _ t9 idc9 @ @expr.Ident _ _ _ t10 idc10))) @ #(_))%expr_pat | (@expr.Ident _ _ _ t5 idc5 @ (@expr.Ident _ _ _ t6 idc6 @ (@expr.Ident _ _ _ t7 idc7 @ @expr.App _ _ _ s12 _ (@expr.Ident _ _ _ t8 idc8) x13 @ (@expr.Ident _ _ _ t9 idc9 @ @expr.Ident _ _ _ t10 idc10))) @ ($_)%expr)%expr_pat | (@expr.Ident _ _ _ t5 idc5 @ (@expr.Ident _ _ _ t6 idc6 @ (@expr.Ident _ _ _ t7 idc7 @ @expr.App _ _ _ s12 _ (@expr.Ident _ _ _ t8 idc8) x13 @ (@expr.Ident _ _ _ t9 idc9 @ @expr.Ident _ _ _ t10 idc10))) @ @expr.Abs _ _ _ _ _ _)%expr_pat | (@expr.Ident _ _ _ t5 idc5 @ (@expr.Ident _ _ _ t6 idc6 @ (@expr.Ident _ _ _ t7 idc7 @ @expr.App _ _ _ s12 _ (@expr.Ident _ _ _ t8 idc8) x13 @ (@expr.Ident _ _ _ t9 idc9 @ @expr.Ident _ _ _ t10 idc10))) @ (($_)%expr @ _))%expr_pat | (@expr.Ident _ _ _ t5 idc5 @ (@expr.Ident _ _ _ t6 idc6 @ (@expr.Ident _ _ _ t7 idc7 @ @expr.App _ _ _ s12 _ (@expr.Ident _ _ _ t8 idc8) x13 @ (@expr.Ident _ _ _ t9 idc9 @ @expr.Ident _ _ _ t10 idc10))) @ (@expr.Abs _ _ _ _ _ _ @ _))%expr_pat | (@expr.Ident _ _ _ t5 idc5 @ (@expr.Ident _ _ _ t6 idc6 @ (@expr.Ident _ _ _ t7 idc7 @ @expr.App _ _ _ s12 _ (@expr.Ident _ _ _ t8 idc8) x13 @ (@expr.Ident _ _ _ t9 idc9 @ @expr.Ident _ _ _ t10 idc10))) @ (_ @ _ @ _))%expr_pat | (@expr.Ident _ _ _ t5 idc5 @ (@expr.Ident _ _ _ t6 idc6 @ (@expr.Ident _ _ _ t7 idc7 @ @expr.App _ _ _ s12 _ (@expr.Ident _ _ _ t8 idc8) x13 @ (@expr.Ident _ _ _ t9 idc9 @ @expr.Ident _ _ _ t10 idc10))) @ (@expr.LetIn _ _ _ _ _ _ _ @ _))%expr_pat | (@expr.Ident _ _ _ t5 idc5 @ (@expr.Ident _ _ _ t6 idc6 @ (@expr.Ident _ _ _ t7 idc7 @ @expr.App _ _ _ s12 _ (@expr.Ident _ _ _ t8 idc8) x13 @ (@expr.Ident _ _ _ t9 idc9 @ @expr.Ident _ _ _ t10 idc10))) @ @expr.LetIn _ _ _ _ _ _ _)%expr_pat => Datatypes.None | (@expr.Ident _ _ _ t5 idc5 @ (@expr.Ident _ _ _ t6 idc6 @ (@expr.Ident _ _ _ t7 idc7 @ @expr.App _ _ _ s12 _ (@expr.Ident _ _ _ t8 idc8) x13 @ (@expr.Ident _ _ _ t9 idc9 @ ($_)%expr))) @ _)%expr_pat | (@expr.Ident _ _ _ t5 idc5 @ (@expr.Ident _ _ _ t6 idc6 @ (@expr.Ident _ _ _ t7 idc7 @ @expr.App _ _ _ s12 _ (@expr.Ident _ _ _ t8 idc8) x13 @ (@expr.Ident _ _ _ t9 idc9 @ @expr.Abs _ _ _ _ _ _))) @ _)%expr_pat | (@expr.Ident _ _ _ t5 idc5 @ (@expr.Ident _ _ _ t6 idc6 @ (@expr.Ident _ _ _ t7 idc7 @ @expr.App _ _ _ s12 _ (@expr.Ident _ _ _ t8 idc8) x13 @ (@expr.Ident _ _ _ t9 idc9 @ (_ @ _)))) @ _)%expr_pat | (@expr.Ident _ _ _ t5 idc5 @ (@expr.Ident _ _ _ t6 idc6 @ (@expr.Ident _ _ _ t7 idc7 @ @expr.App _ _ _ s12 _ (@expr.Ident _ _ _ t8 idc8) x13 @ (@expr.Ident _ _ _ t9 idc9 @ @expr.LetIn _ _ _ _ _ _ _))) @ _)%expr_pat => Datatypes.None | (@expr.Ident _ _ _ t5 idc5 @ (@expr.Ident _ _ _ t6 idc6 @ (@expr.Ident _ _ _ t7 idc7 @ @expr.App _ _ _ s12 _ (@expr.Ident _ _ _ t8 idc8) x13 @ # (_))) @ _)%expr_pat | (@expr.Ident _ _ _ t5 idc5 @ (@expr.Ident _ _ _ t6 idc6 @ (@expr.Ident _ _ _ t7 idc7 @ @expr.App _ _ _ s12 _ (@expr.Ident _ _ _ t8 idc8) x13 @ ($_)%expr)) @ _)%expr_pat | (@expr.Ident _ _ _ t5 idc5 @ (@expr.Ident _ _ _ t6 idc6 @ (@expr.Ident _ _ _ t7 idc7 @ @expr.App _ _ _ s12 _ (@expr.Ident _ _ _ t8 idc8) x13 @ @expr.Abs _ _ _ _ _ _)) @ _)%expr_pat | (@expr.Ident _ _ _ t5 idc5 @ (@expr.Ident _ _ _ t6 idc6 @ (@expr.Ident _ _ _ t7 idc7 @ @expr.App _ _ _ s12 _ (@expr.Ident _ _ _ t8 idc8) x13 @ (($_)%expr @ _))) @ _)%expr_pat | (@expr.Ident _ _ _ t5 idc5 @ (@expr.Ident _ _ _ t6 idc6 @ (@expr.Ident _ _ _ t7 idc7 @ @expr.App _ _ _ s12 _ (@expr.Ident _ _ _ t8 idc8) x13 @ (@expr.Abs _ _ _ _ _ _ @ _))) @ _)%expr_pat | (@expr.Ident _ _ _ t5 idc5 @ (@expr.Ident _ _ _ t6 idc6 @ (@expr.Ident _ _ _ t7 idc7 @ @expr.App _ _ _ s12 _ (@expr.Ident _ _ _ t8 idc8) x13 @ (_ @ _ @ _))) @ _)%expr_pat | (@expr.Ident _ _ _ t5 idc5 @ (@expr.Ident _ _ _ t6 idc6 @ (@expr.Ident _ _ _ t7 idc7 @ @expr.App _ _ _ s12 _ (@expr.Ident _ _ _ t8 idc8) x13 @ (@expr.LetIn _ _ _ _ _ _ _ @ _))) @ _)%expr_pat | (@expr.Ident _ _ _ t5 idc5 @ (@expr.Ident _ _ _ t6 idc6 @ (@expr.Ident _ _ _ t7 idc7 @ @expr.App _ _ _ s12 _ (@expr.Ident _ _ _ t8 idc8) x13 @ @expr.LetIn _ _ _ _ _ _ _)) @ _)%expr_pat => Datatypes.None | (@expr.Ident _ _ _ t5 idc5 @ (@expr.Ident _ _ _ t6 idc6 @ (@expr.Ident _ _ _ t7 idc7 @ @expr.App _ _ _ s12 _ ($_)%expr _ @ _)) @ _)%expr_pat | (@expr.Ident _ _ _ t5 idc5 @ (@expr.Ident _ _ _ t6 idc6 @ (@expr.Ident _ _ _ t7 idc7 @ @expr.App _ _ _ s12 _ (@expr.Abs _ _ _ _ _ _) _ @ _)) @ _)%expr_pat | (@expr.Ident _ _ _ t5 idc5 @ (@expr.Ident _ _ _ t6 idc6 @ (@expr.Ident _ _ _ t7 idc7 @ @expr.App _ _ _ s12 _ (_ @ _) _ @ _)) @ _)%expr_pat | (@expr.Ident _ _ _ t5 idc5 @ (@expr.Ident _ _ _ t6 idc6 @ (@expr.Ident _ _ _ t7 idc7 @ @expr.App _ _ _ s12 _ (@expr.LetIn _ _ _ _ _ _ _) _ @ _)) @ _)%expr_pat => Datatypes.None | (@expr.Ident _ _ _ t5 idc5 @ (@expr.Ident _ _ _ t6 idc6 @ (@expr.Ident _ _ _ t7 idc7 @ #(_) @ _)) @ _)%expr_pat | (@expr.Ident _ _ _ t5 idc5 @ (@expr.Ident _ _ _ t6 idc6 @ (@expr.Ident _ _ _ t7 idc7 @ ($_)%expr @ _)) @ _)%expr_pat | (@expr.Ident _ _ _ t5 idc5 @ (@expr.Ident _ _ _ t6 idc6 @ (@expr.Ident _ _ _ t7 idc7 @ @expr.Abs _ _ _ _ _ _ @ _)) @ _)%expr_pat | (@expr.Ident _ _ _ t5 idc5 @ (@expr.Ident _ _ _ t6 idc6 @ (@expr.Ident _ _ _ t7 idc7 @ @expr.LetIn _ _ _ _ _ _ _ @ _)) @ _)%expr_pat => Datatypes.None | (@expr.Ident _ _ _ t5 idc5 @ (@expr.Ident _ _ _ t6 idc6 @ #(_)) @ _)%expr_pat | (@expr.Ident _ _ _ t5 idc5 @ (@expr.Ident _ _ _ t6 idc6 @ ($_)%expr) @ _)%expr_pat | (@expr.Ident _ _ _ t5 idc5 @ (@expr.Ident _ _ _ t6 idc6 @ @expr.Abs _ _ _ _ _ _) @ _)%expr_pat | (@expr.Ident _ _ _ t5 idc5 @ (@expr.Ident _ _ _ t6 idc6 @ (#(_) @ _)) @ _)%expr_pat | (@expr.Ident _ _ _ t5 idc5 @ (@expr.Ident _ _ _ t6 idc6 @ (($_)%expr @ _)) @ _)%expr_pat | (@expr.Ident _ _ _ t5 idc5 @ (@expr.Ident _ _ _ t6 idc6 @ (@expr.Abs _ _ _ _ _ _ @ _)) @ _)%expr_pat | (@expr.Ident _ _ _ t5 idc5 @ (@expr.Ident _ _ _ t6 idc6 @ (($_)%expr @ _ @ _)) @ _)%expr_pat | (@expr.Ident _ _ _ t5 idc5 @ (@expr.Ident _ _ _ t6 idc6 @ (@expr.Abs _ _ _ _ _ _ @ _ @ _)) @ _)%expr_pat | (@expr.Ident _ _ _ t5 idc5 @ (@expr.Ident _ _ _ t6 idc6 @ (_ @ _ @ _ @ _)) @ _)%expr_pat | (@expr.Ident _ _ _ t5 idc5 @ (@expr.Ident _ _ _ t6 idc6 @ (@expr.LetIn _ _ _ _ _ _ _ @ _ @ _)) @ _)%expr_pat | (@expr.Ident _ _ _ t5 idc5 @ (@expr.Ident _ _ _ t6 idc6 @ (@expr.LetIn _ _ _ _ _ _ _ @ _)) @ _)%expr_pat | (@expr.Ident _ _ _ t5 idc5 @ (@expr.Ident _ _ _ t6 idc6 @ @expr.LetIn _ _ _ _ _ _ _) @ _)%expr_pat => Datatypes.None | (@expr.Ident _ _ _ t5 idc5 @ #(_) @ _)%expr_pat | (@expr.Ident _ _ _ t5 idc5 @ ($_)%expr @ _)%expr_pat | (@expr.Ident _ _ _ t5 idc5 @ @expr.Abs _ _ _ _ _ _ @ _)%expr_pat | (@expr.Ident _ _ _ t5 idc5 @ (($_)%expr @ _) @ _)%expr_pat | (@expr.Ident _ _ _ t5 idc5 @ (@expr.Abs _ _ _ _ _ _ @ _) @ _)%expr_pat | (@expr.Ident _ _ _ t5 idc5 @ (_ @ _ @ _) @ _)%expr_pat | (@expr.Ident _ _ _ t5 idc5 @ (@expr.LetIn _ _ _ _ _ _ _ @ _) @ _)%expr_pat | (@expr.Ident _ _ _ t5 idc5 @ @expr.LetIn _ _ _ _ _ _ _ @ _)%expr_pat => Datatypes.None | _ => Datatypes.None end;; match x7 with | (@expr.Ident _ _ _ t5 idc5 @ @expr.App _ _ _ s9 _ (@expr.Ident _ _ _ t6 idc6) x10 @ (@expr.Ident _ _ _ t7 idc7 @ @expr.Ident _ _ _ t8 idc8))%expr_pat => args <- invert_bind_args idc8 Raw.ident.Literal; args0 <- invert_bind_args idc7 Raw.ident.Z_cast; args1 <- invert_bind_args idc6 Raw.ident.Z_cast; _ <- invert_bind_args idc5 Raw.ident.Z_shiftr; args3 <- invert_bind_args idc4 Raw.ident.Z_cast; args4 <- invert_bind_args idc3 Raw.ident.Z_cast; args5 <- invert_bind_args idc2 Raw.ident.Z_cast; args6 <- invert_bind_args idc1 Raw.ident.Literal; args7 <- invert_bind_args idc0 Raw.ident.Z_cast; _ <- invert_bind_args idc Raw.ident.Z_add_with_get_carry; match pattern.type.unify_extracted (((ℤ -> ℤ) -> ℤ) -> ℤ -> ℤ)%ptype ((((projT1 args6) -> s4) -> s5) -> s9 -> (projT1 args))%ptype with | Datatypes.Some (_, _, _, (_, _))%zrange => if type.type_beq base.type base.type.type_beq (((ℤ -> ℤ) -> ℤ) -> ℤ -> ℤ)%ptype ((((projT1 args6) -> s4) -> s5) -> s9 -> (projT1 args))%ptype then xv <- ident.unify pattern.ident.Literal ##(projT2 args6); v <- type.try_make_transport_cps s4 ℤ; v0 <- type.try_make_transport_cps s5 ℤ; v1 <- type.try_make_transport_cps s9 ℤ; xv0 <- ident.unify pattern.ident.Literal ##(projT2 args); fv <- (if is_bounded_by_bool (let (x12, _) := xv in x12) (ZRange.normalize args7) && is_bounded_by_bool (let (x12, _) := xv0 in x12) (ZRange.normalize args0) && ((let (x12, _) := xv in x12) =? 2 ^ Z.log2 (let (x12, _) := xv in x12)) && (ZRange.normalize args1 >> ZRange.normalize (ZRange.constant (let (x12, _) := xv0 in x12)) <=? ZRange.normalize args3)%zrange && (ZRange.normalize args3 <=? r[0 ~> (let (x12, _) := xv in x12) - 1])%zrange then Datatypes.Some (Reify.expr_value_to_rewrite_rule_replacement (@Compile.reflect_ident_iota var) false (#(Z_cast2 range)%expr @ (#(fancy_addc (Z.log2 (let (x12, _) := xv in x12)) (- (let (x12, _) := xv0 in x12)))%expr @ (#(Z_cast args5)%expr @ ($(v (Compile.reflect x5)))%expr, #(Z_cast args4)%expr @ ($(v0 (Compile.reflect x6)))%expr, #(Z_cast args1)%expr @ ($(v1 (Compile.reflect x10)))%expr)))%expr_pat) else Datatypes.None); Datatypes.Some (fv0 <-- fv; Base fv0)%under_lets else Datatypes.None | Datatypes.None => Datatypes.None end | (@expr.Ident _ _ _ t5 idc5 @ @expr.App _ _ _ s9 _ (@expr.Ident _ _ _ t6 idc6) x10 @ (@expr.Ident _ _ _ t7 idc7 @ ($_)%expr))%expr_pat | (@expr.Ident _ _ _ t5 idc5 @ @expr.App _ _ _ s9 _ (@expr.Ident _ _ _ t6 idc6) x10 @ (@expr.Ident _ _ _ t7 idc7 @ @expr.Abs _ _ _ _ _ _))%expr_pat | (@expr.Ident _ _ _ t5 idc5 @ @expr.App _ _ _ s9 _ (@expr.Ident _ _ _ t6 idc6) x10 @ (@expr.Ident _ _ _ t7 idc7 @ (_ @ _)))%expr_pat | (@expr.Ident _ _ _ t5 idc5 @ @expr.App _ _ _ s9 _ (@expr.Ident _ _ _ t6 idc6) x10 @ (@expr.Ident _ _ _ t7 idc7 @ @expr.LetIn _ _ _ _ _ _ _))%expr_pat => Datatypes.None | (@expr.Ident _ _ _ t5 idc5 @ @expr.App _ _ _ s9 _ (@expr.Ident _ _ _ t6 idc6) x10 @ #(_))%expr_pat | (@expr.Ident _ _ _ t5 idc5 @ @expr.App _ _ _ s9 _ (@expr.Ident _ _ _ t6 idc6) x10 @ ($_)%expr)%expr_pat | (@expr.Ident _ _ _ t5 idc5 @ @expr.App _ _ _ s9 _ (@expr.Ident _ _ _ t6 idc6) x10 @ @expr.Abs _ _ _ _ _ _)%expr_pat | (@expr.Ident _ _ _ t5 idc5 @ @expr.App _ _ _ s9 _ (@expr.Ident _ _ _ t6 idc6) x10 @ (($_)%expr @ _))%expr_pat | (@expr.Ident _ _ _ t5 idc5 @ @expr.App _ _ _ s9 _ (@expr.Ident _ _ _ t6 idc6) x10 @ (@expr.Abs _ _ _ _ _ _ @ _))%expr_pat | (@expr.Ident _ _ _ t5 idc5 @ @expr.App _ _ _ s9 _ (@expr.Ident _ _ _ t6 idc6) x10 @ (_ @ _ @ _))%expr_pat | (@expr.Ident _ _ _ t5 idc5 @ @expr.App _ _ _ s9 _ (@expr.Ident _ _ _ t6 idc6) x10 @ (@expr.LetIn _ _ _ _ _ _ _ @ _))%expr_pat | (@expr.Ident _ _ _ t5 idc5 @ @expr.App _ _ _ s9 _ (@expr.Ident _ _ _ t6 idc6) x10 @ @expr.LetIn _ _ _ _ _ _ _)%expr_pat => Datatypes.None | (@expr.Ident _ _ _ t5 idc5 @ @expr.App _ _ _ s9 _ ($_)%expr _ @ _)%expr_pat | (@expr.Ident _ _ _ t5 idc5 @ @expr.App _ _ _ s9 _ (@expr.Abs _ _ _ _ _ _) _ @ _)%expr_pat | (@expr.Ident _ _ _ t5 idc5 @ @expr.App _ _ _ s9 _ (_ @ _) _ @ _)%expr_pat | (@expr.Ident _ _ _ t5 idc5 @ @expr.App _ _ _ s9 _ (@expr.LetIn _ _ _ _ _ _ _) _ @ _)%expr_pat => Datatypes.None | (@expr.Ident _ _ _ t5 idc5 @ #(_) @ _)%expr_pat | (@expr.Ident _ _ _ t5 idc5 @ ($_)%expr @ _)%expr_pat | (@expr.Ident _ _ _ t5 idc5 @ @expr.Abs _ _ _ _ _ _ @ _)%expr_pat | (@expr.Ident _ _ _ t5 idc5 @ @expr.LetIn _ _ _ _ _ _ _ @ _)%expr_pat => Datatypes.None | _ => Datatypes.None end;; match x6 with | (@expr.Ident _ _ _ t5 idc5 @ @expr.App _ _ _ s9 _ (@expr.Ident _ _ _ t6 idc6) x10 @ (@expr.Ident _ _ _ t7 idc7 @ @expr.Ident _ _ _ t8 idc8))%expr_pat => args <- invert_bind_args idc8 Raw.ident.Literal; args0 <- invert_bind_args idc7 Raw.ident.Z_cast; args1 <- invert_bind_args idc6 Raw.ident.Z_cast; _ <- invert_bind_args idc5 Raw.ident.Z_shiftr; args3 <- invert_bind_args idc4 Raw.ident.Z_cast; args4 <- invert_bind_args idc3 Raw.ident.Z_cast; args5 <- invert_bind_args idc2 Raw.ident.Z_cast; args6 <- invert_bind_args idc1 Raw.ident.Literal; args7 <- invert_bind_args idc0 Raw.ident.Z_cast; _ <- invert_bind_args idc Raw.ident.Z_add_with_get_carry; match pattern.type.unify_extracted (((ℤ -> ℤ) -> ℤ -> ℤ) -> ℤ)%ptype ((((projT1 args6) -> s4) -> s9 -> (projT1 args)) -> s6)%ptype with | Datatypes.Some (_, _, (_, _), _)%zrange => if type.type_beq base.type base.type.type_beq (((ℤ -> ℤ) -> ℤ -> ℤ) -> ℤ)%ptype ((((projT1 args6) -> s4) -> s9 -> (projT1 args)) -> s6)%ptype then xv <- ident.unify pattern.ident.Literal ##(projT2 args6); v <- type.try_make_transport_cps s4 ℤ; v0 <- type.try_make_transport_cps s9 ℤ; xv0 <- ident.unify pattern.ident.Literal ##(projT2 args); v1 <- type.try_make_transport_cps s6 ℤ; fv <- (if is_bounded_by_bool (let (x12, _) := xv in x12) (ZRange.normalize args7) && is_bounded_by_bool (let (x12, _) := xv0 in x12) (ZRange.normalize args0) && ((let (x12, _) := xv in x12) =? 2 ^ Z.log2 (let (x12, _) := xv in x12)) && (ZRange.normalize args1 >> ZRange.normalize (ZRange.constant (let (x12, _) := xv0 in x12)) <=? ZRange.normalize args4)%zrange && (ZRange.normalize args4 <=? r[0 ~> (let (x12, _) := xv in x12) - 1])%zrange then Datatypes.Some (Reify.expr_value_to_rewrite_rule_replacement (@Compile.reflect_ident_iota var) false (#(Z_cast2 range)%expr @ (#(fancy_addc (Z.log2 (let (x12, _) := xv in x12)) (- (let (x12, _) := xv0 in x12)))%expr @ (#(Z_cast args5)%expr @ ($(v (Compile.reflect x5)))%expr, #(Z_cast args3)%expr @ ($(v1 (Compile.reflect x7)))%expr, #(Z_cast args1)%expr @ ($(v0 (Compile.reflect x10)))%expr)))%expr_pat) else Datatypes.None); Datatypes.Some (fv0 <-- fv; Base fv0)%under_lets else Datatypes.None | Datatypes.None => Datatypes.None end | (@expr.Ident _ _ _ t5 idc5 @ @expr.App _ _ _ s9 _ (@expr.Ident _ _ _ t6 idc6) x10 @ (@expr.Ident _ _ _ t7 idc7 @ ($_)%expr))%expr_pat | (@expr.Ident _ _ _ t5 idc5 @ @expr.App _ _ _ s9 _ (@expr.Ident _ _ _ t6 idc6) x10 @ (@expr.Ident _ _ _ t7 idc7 @ @expr.Abs _ _ _ _ _ _))%expr_pat | (@expr.Ident _ _ _ t5 idc5 @ @expr.App _ _ _ s9 _ (@expr.Ident _ _ _ t6 idc6) x10 @ (@expr.Ident _ _ _ t7 idc7 @ (_ @ _)))%expr_pat | (@expr.Ident _ _ _ t5 idc5 @ @expr.App _ _ _ s9 _ (@expr.Ident _ _ _ t6 idc6) x10 @ (@expr.Ident _ _ _ t7 idc7 @ @expr.LetIn _ _ _ _ _ _ _))%expr_pat => Datatypes.None | (@expr.Ident _ _ _ t5 idc5 @ @expr.App _ _ _ s9 _ (@expr.Ident _ _ _ t6 idc6) x10 @ #(_))%expr_pat | (@expr.Ident _ _ _ t5 idc5 @ @expr.App _ _ _ s9 _ (@expr.Ident _ _ _ t6 idc6) x10 @ ($_)%expr)%expr_pat | (@expr.Ident _ _ _ t5 idc5 @ @expr.App _ _ _ s9 _ (@expr.Ident _ _ _ t6 idc6) x10 @ @expr.Abs _ _ _ _ _ _)%expr_pat | (@expr.Ident _ _ _ t5 idc5 @ @expr.App _ _ _ s9 _ (@expr.Ident _ _ _ t6 idc6) x10 @ (($_)%expr @ _))%expr_pat | (@expr.Ident _ _ _ t5 idc5 @ @expr.App _ _ _ s9 _ (@expr.Ident _ _ _ t6 idc6) x10 @ (@expr.Abs _ _ _ _ _ _ @ _))%expr_pat | (@expr.Ident _ _ _ t5 idc5 @ @expr.App _ _ _ s9 _ (@expr.Ident _ _ _ t6 idc6) x10 @ (_ @ _ @ _))%expr_pat | (@expr.Ident _ _ _ t5 idc5 @ @expr.App _ _ _ s9 _ (@expr.Ident _ _ _ t6 idc6) x10 @ (@expr.LetIn _ _ _ _ _ _ _ @ _))%expr_pat | (@expr.Ident _ _ _ t5 idc5 @ @expr.App _ _ _ s9 _ (@expr.Ident _ _ _ t6 idc6) x10 @ @expr.LetIn _ _ _ _ _ _ _)%expr_pat => Datatypes.None | (@expr.Ident _ _ _ t5 idc5 @ @expr.App _ _ _ s9 _ ($_)%expr _ @ _)%expr_pat | (@expr.Ident _ _ _ t5 idc5 @ @expr.App _ _ _ s9 _ (@expr.Abs _ _ _ _ _ _) _ @ _)%expr_pat | (@expr.Ident _ _ _ t5 idc5 @ @expr.App _ _ _ s9 _ (_ @ _) _ @ _)%expr_pat | (@expr.Ident _ _ _ t5 idc5 @ @expr.App _ _ _ s9 _ (@expr.LetIn _ _ _ _ _ _ _) _ @ _)%expr_pat => Datatypes.None | (@expr.Ident _ _ _ t5 idc5 @ #(_) @ _)%expr_pat | (@expr.Ident _ _ _ t5 idc5 @ ($_)%expr @ _)%expr_pat | (@expr.Ident _ _ _ t5 idc5 @ @expr.Abs _ _ _ _ _ _ @ _)%expr_pat | (@expr.Ident _ _ _ t5 idc5 @ @expr.LetIn _ _ _ _ _ _ _ @ _)%expr_pat => Datatypes.None | _ => Datatypes.None end;; args <- invert_bind_args idc4 Raw.ident.Z_cast; args0 <- invert_bind_args idc3 Raw.ident.Z_cast; args1 <- invert_bind_args idc2 Raw.ident.Z_cast; args2 <- invert_bind_args idc1 Raw.ident.Literal; args3 <- invert_bind_args idc0 Raw.ident.Z_cast; _ <- invert_bind_args idc Raw.ident.Z_add_with_get_carry; match pattern.type.unify_extracted (((ℤ -> ℤ) -> ℤ) -> ℤ)%ptype ((((projT1 args2) -> s4) -> s5) -> s6)%ptype with | Datatypes.Some (_, _, _, _)%zrange => if type.type_beq base.type base.type.type_beq (((ℤ -> ℤ) -> ℤ) -> ℤ)%ptype ((((projT1 args2) -> s4) -> s5) -> s6)%ptype then xv <- ident.unify pattern.ident.Literal ##(projT2 args2); v <- type.try_make_transport_cps s4 ℤ; v0 <- type.try_make_transport_cps s5 ℤ; v1 <- type.try_make_transport_cps s6 ℤ; fv <- (if is_bounded_by_bool (let (x8, _) := xv in x8) (ZRange.normalize args3) && ((let (x8, _) := xv in x8) =? 2 ^ Z.log2 (let (x8, _) := xv in x8)) && (ZRange.normalize args <=? r[0 ~> (let (x8, _) := xv in x8) - 1])%zrange then Datatypes.Some (Reify.expr_value_to_rewrite_rule_replacement (@Compile.reflect_ident_iota var) false (#(Z_cast2 range)%expr @ (#(fancy_addc (Z.log2 (let (x8, _) := xv in x8)) 0)%expr @ (#(Z_cast args1)%expr @ ($(v (Compile.reflect x5)))%expr, #(Z_cast args0)%expr @ ($(v0 (Compile.reflect x6)))%expr, #(Z_cast args)%expr @ ($(v1 (Compile.reflect x7)))%expr)))%expr_pat) else Datatypes.None); Datatypes.Some (fv0 <-- fv; Base fv0)%under_lets else Datatypes.None | Datatypes.None => Datatypes.None end | @expr.App _ _ _ s6 _ ($_)%expr _ | @expr.App _ _ _ s6 _ (@expr.Abs _ _ _ _ _ _) _ | @expr.App _ _ _ s6 _ (_ @ _)%expr_pat _ | @expr.App _ _ _ s6 _ (@expr.LetIn _ _ _ _ _ _ _) _ => Datatypes.None | _ => Datatypes.None end | @expr.App _ _ _ s5 _ ($_)%expr _ | @expr.App _ _ _ s5 _ (@expr.Abs _ _ _ _ _ _) _ | @expr.App _ _ _ s5 _ (_ @ _)%expr_pat _ | @expr.App _ _ _ s5 _ (@expr.LetIn _ _ _ _ _ _ _) _ => Datatypes.None | _ => Datatypes.None end | @expr.App _ _ _ s4 _ ($_)%expr _ | @expr.App _ _ _ s4 _ (@expr.Abs _ _ _ _ _ _) _ | @expr.App _ _ _ s4 _ (_ @ _)%expr_pat _ | @expr.App _ _ _ s4 _ (@expr.LetIn _ _ _ _ _ _ _) _ => Datatypes.None | _ => Datatypes.None end | (@expr.Ident _ _ _ t0 idc0 @ ($_)%expr)%expr_pat | (@expr.Ident _ _ _ t0 idc0 @ @expr.Abs _ _ _ _ _ _)%expr_pat | (@expr.Ident _ _ _ t0 idc0 @ (_ @ _))%expr_pat | (@expr.Ident _ _ _ t0 idc0 @ @expr.LetIn _ _ _ _ _ _ _)%expr_pat => Datatypes.None | _ => Datatypes.None end;; match x3 with | (@expr.Ident _ _ _ t0 idc0 @ @expr.Ident _ _ _ t1 idc1)%expr_pat => match x2 with | @expr.App _ _ _ s4 _ (@expr.Ident _ _ _ t2 idc2) x5 => match x1 with | @expr.App _ _ _ s5 _ (@expr.Ident _ _ _ t3 idc3) x6 => match x0 with | @expr.App _ _ _ s6 _ (@expr.Ident _ _ _ t4 idc4) x7 => match x7 with | (@expr.Ident _ _ _ t5 idc5 @ x9 @ x8)%expr_pat => match x9 with | (@expr.Ident _ _ _ t6 idc6 @ (@expr.Ident _ _ _ t7 idc7 @ @expr.App _ _ _ s12 _ (@expr.Ident _ _ _ t8 idc8) x13 @ (@expr.Ident _ _ _ t9 idc9 @ @expr.Ident _ _ _ t10 idc10)))%expr_pat => match x8 with | (@expr.Ident _ _ _ t11 idc11 @ @expr.Ident _ _ _ t12 idc12)%expr_pat => args <- invert_bind_args idc12 Raw.ident.Literal; args0 <- invert_bind_args idc11 Raw.ident.Z_cast; args1 <- invert_bind_args idc10 Raw.ident.Literal; args2 <- invert_bind_args idc9 Raw.ident.Z_cast; args3 <- invert_bind_args idc8 Raw.ident.Z_cast; _ <- invert_bind_args idc7 Raw.ident.Z_land; args5 <- invert_bind_args idc6 Raw.ident.Z_cast; _ <- invert_bind_args idc5 Raw.ident.Z_shiftl; args7 <- invert_bind_args idc4 Raw.ident.Z_cast; args8 <- invert_bind_args idc3 Raw.ident.Z_cast; args9 <- invert_bind_args idc2 Raw.ident.Z_cast; args10 <- invert_bind_args idc1 Raw.ident.Literal; args11 <- invert_bind_args idc0 Raw.ident.Z_cast; _ <- invert_bind_args idc Raw.ident.Z_sub_with_get_borrow; match pattern.type.unify_extracted (((ℤ -> ℤ) -> ℤ) -> (ℤ -> ℤ) -> ℤ)%ptype ((((projT1 args10) -> s4) -> s5) -> (s12 -> (projT1 args1)) -> (projT1 args))%ptype with | Datatypes.Some (_, _, _, (_, _, _))%zrange => if type.type_beq base.type base.type.type_beq (((ℤ -> ℤ) -> ℤ) -> (ℤ -> ℤ) -> ℤ)%ptype ((((projT1 args10) -> s4) -> s5) -> (s12 -> (projT1 args1)) -> (projT1 args))%ptype then xv <- ident.unify pattern.ident.Literal ##(projT2 args10); v <- type.try_make_transport_cps s4 ℤ; v0 <- type.try_make_transport_cps s5 ℤ; v1 <- type.try_make_transport_cps s12 ℤ; xv0 <- ident.unify pattern.ident.Literal ##(projT2 args1); xv1 <- ident.unify pattern.ident.Literal ##(projT2 args); fv <- (if is_bounded_by_bool (let (x16, _) := xv in x16) (ZRange.normalize args11) && is_bounded_by_bool (let (x16, _) := xv0 in x16) (ZRange.normalize args2) && is_bounded_by_bool (let (x16, _) := xv1 in x16) (ZRange.normalize args0) && ((let (x16, _) := xv in x16) =? 2 ^ Z.log2 (let (x16, _) := xv in x16)) && (ZRange.normalize args5 << ZRange.normalize (ZRange.constant (let (x16, _) := xv1 in x16)) <=? ZRange.normalize args7)%zrange && (ZRange.normalize args7 <=? r[0 ~> (let (x16, _) := xv in x16) - 1])%zrange && (ZRange.normalize args3 &' ZRange.normalize (ZRange.constant (let (x16, _) := xv0 in x16)) <=? ZRange.normalize args5)%zrange && ((let (x16, _) := xv0 in x16) =? Z.ones (Z.log2 (let (x16, _) := xv in x16) - (let (x16, _) := xv1 in x16))) && ((0 <=? (let (x16, _) := xv1 in x16)) && ((let (x16, _) := xv1 in x16) <=? Z.log2 (let (x16, _) := xv in x16))) then Datatypes.Some (Reify.expr_value_to_rewrite_rule_replacement (@Compile.reflect_ident_iota var) false (#(Z_cast2 range)%expr @ (#(fancy_subb (Z.log2 (let (x16, _) := xv in x16)) (let (x16, _) := xv1 in x16))%expr @ (#(Z_cast args9)%expr @ ($(v (Compile.reflect x5)))%expr, #(Z_cast args8)%expr @ ($(v0 (Compile.reflect x6)))%expr, #(Z_cast args3)%expr @ ($(v1 (Compile.reflect x13)))%expr)))%expr_pat) else Datatypes.None); Datatypes.Some (fv0 <-- fv; Base fv0)%under_lets else Datatypes.None | Datatypes.None => Datatypes.None end | (@expr.Ident _ _ _ t11 idc11 @ ($_)%expr)%expr_pat | (@expr.Ident _ _ _ t11 idc11 @ @expr.Abs _ _ _ _ _ _)%expr_pat | (@expr.Ident _ _ _ t11 idc11 @ (_ @ _))%expr_pat | (@expr.Ident _ _ _ t11 idc11 @ @expr.LetIn _ _ _ _ _ _ _)%expr_pat => Datatypes.None | _ => Datatypes.None end | (@expr.Ident _ _ _ t6 idc6 @ (@expr.Ident _ _ _ t7 idc7 @ @expr.App _ _ _ s12 _ (@expr.Ident _ _ _ t8 idc8) x13 @ (@expr.Ident _ _ _ t9 idc9 @ ($_)%expr)))%expr_pat | (@expr.Ident _ _ _ t6 idc6 @ (@expr.Ident _ _ _ t7 idc7 @ @expr.App _ _ _ s12 _ (@expr.Ident _ _ _ t8 idc8) x13 @ (@expr.Ident _ _ _ t9 idc9 @ @expr.Abs _ _ _ _ _ _)))%expr_pat | (@expr.Ident _ _ _ t6 idc6 @ (@expr.Ident _ _ _ t7 idc7 @ @expr.App _ _ _ s12 _ (@expr.Ident _ _ _ t8 idc8) x13 @ (@expr.Ident _ _ _ t9 idc9 @ (_ @ _))))%expr_pat | (@expr.Ident _ _ _ t6 idc6 @ (@expr.Ident _ _ _ t7 idc7 @ @expr.App _ _ _ s12 _ (@expr.Ident _ _ _ t8 idc8) x13 @ (@expr.Ident _ _ _ t9 idc9 @ @expr.LetIn _ _ _ _ _ _ _)))%expr_pat => Datatypes.None | (@expr.Ident _ _ _ t6 idc6 @ (@expr.Ident _ _ _ t7 idc7 @ @expr.App _ _ _ s12 _ (@expr.Ident _ _ _ t8 idc8) x13 @ #(_)))%expr_pat | (@expr.Ident _ _ _ t6 idc6 @ (@expr.Ident _ _ _ t7 idc7 @ @expr.App _ _ _ s12 _ (@expr.Ident _ _ _ t8 idc8) x13 @ ($_)%expr))%expr_pat | (@expr.Ident _ _ _ t6 idc6 @ (@expr.Ident _ _ _ t7 idc7 @ @expr.App _ _ _ s12 _ (@expr.Ident _ _ _ t8 idc8) x13 @ @expr.Abs _ _ _ _ _ _))%expr_pat | (@expr.Ident _ _ _ t6 idc6 @ (@expr.Ident _ _ _ t7 idc7 @ @expr.App _ _ _ s12 _ (@expr.Ident _ _ _ t8 idc8) x13 @ (($_)%expr @ _)))%expr_pat | (@expr.Ident _ _ _ t6 idc6 @ (@expr.Ident _ _ _ t7 idc7 @ @expr.App _ _ _ s12 _ (@expr.Ident _ _ _ t8 idc8) x13 @ (@expr.Abs _ _ _ _ _ _ @ _)))%expr_pat | (@expr.Ident _ _ _ t6 idc6 @ (@expr.Ident _ _ _ t7 idc7 @ @expr.App _ _ _ s12 _ (@expr.Ident _ _ _ t8 idc8) x13 @ (_ @ _ @ _)))%expr_pat | (@expr.Ident _ _ _ t6 idc6 @ (@expr.Ident _ _ _ t7 idc7 @ @expr.App _ _ _ s12 _ (@expr.Ident _ _ _ t8 idc8) x13 @ (@expr.LetIn _ _ _ _ _ _ _ @ _)))%expr_pat | (@expr.Ident _ _ _ t6 idc6 @ (@expr.Ident _ _ _ t7 idc7 @ @expr.App _ _ _ s12 _ (@expr.Ident _ _ _ t8 idc8) x13 @ @expr.LetIn _ _ _ _ _ _ _))%expr_pat => Datatypes.None | (@expr.Ident _ _ _ t6 idc6 @ (@expr.Ident _ _ _ t7 idc7 @ @expr.App _ _ _ s12 _ ($_)%expr _ @ _))%expr_pat | (@expr.Ident _ _ _ t6 idc6 @ (@expr.Ident _ _ _ t7 idc7 @ @expr.App _ _ _ s12 _ (@expr.Abs _ _ _ _ _ _) _ @ _))%expr_pat | (@expr.Ident _ _ _ t6 idc6 @ (@expr.Ident _ _ _ t7 idc7 @ @expr.App _ _ _ s12 _ (_ @ _) _ @ _))%expr_pat | (@expr.Ident _ _ _ t6 idc6 @ (@expr.Ident _ _ _ t7 idc7 @ @expr.App _ _ _ s12 _ (@expr.LetIn _ _ _ _ _ _ _) _ @ _))%expr_pat => Datatypes.None | (@expr.Ident _ _ _ t6 idc6 @ (@expr.Ident _ _ _ t7 idc7 @ #(_) @ _))%expr_pat | (@expr.Ident _ _ _ t6 idc6 @ (@expr.Ident _ _ _ t7 idc7 @ ($_)%expr @ _))%expr_pat | (@expr.Ident _ _ _ t6 idc6 @ (@expr.Ident _ _ _ t7 idc7 @ @expr.Abs _ _ _ _ _ _ @ _))%expr_pat | (@expr.Ident _ _ _ t6 idc6 @ (@expr.Ident _ _ _ t7 idc7 @ @expr.LetIn _ _ _ _ _ _ _ @ _))%expr_pat => Datatypes.None | (@expr.Ident _ _ _ t6 idc6 @ #(_))%expr_pat | (@expr.Ident _ _ _ t6 idc6 @ ($_)%expr)%expr_pat | (@expr.Ident _ _ _ t6 idc6 @ @expr.Abs _ _ _ _ _ _)%expr_pat | (@expr.Ident _ _ _ t6 idc6 @ (#(_) @ _))%expr_pat | (@expr.Ident _ _ _ t6 idc6 @ (($_)%expr @ _))%expr_pat | (@expr.Ident _ _ _ t6 idc6 @ (@expr.Abs _ _ _ _ _ _ @ _))%expr_pat | (@expr.Ident _ _ _ t6 idc6 @ (($_)%expr @ _ @ _))%expr_pat | (@expr.Ident _ _ _ t6 idc6 @ (@expr.Abs _ _ _ _ _ _ @ _ @ _))%expr_pat | (@expr.Ident _ _ _ t6 idc6 @ (_ @ _ @ _ @ _))%expr_pat | (@expr.Ident _ _ _ t6 idc6 @ (@expr.LetIn _ _ _ _ _ _ _ @ _ @ _))%expr_pat | (@expr.Ident _ _ _ t6 idc6 @ (@expr.LetIn _ _ _ _ _ _ _ @ _))%expr_pat | (@expr.Ident _ _ _ t6 idc6 @ @expr.LetIn _ _ _ _ _ _ _)%expr_pat => Datatypes.None | _ => Datatypes.None end;; match x9 with | @expr.App _ _ _ s9 _ (@expr.Ident _ _ _ t6 idc6) x10 => match x8 with | (@expr.Ident _ _ _ t7 idc7 @ @expr.Ident _ _ _ t8 idc8)%expr_pat => args <- invert_bind_args idc8 Raw.ident.Literal; args0 <- invert_bind_args idc7 Raw.ident.Z_cast; args1 <- invert_bind_args idc6 Raw.ident.Z_cast; _ <- invert_bind_args idc5 Raw.ident.Z_shiftr; args3 <- invert_bind_args idc4 Raw.ident.Z_cast; args4 <- invert_bind_args idc3 Raw.ident.Z_cast; args5 <- invert_bind_args idc2 Raw.ident.Z_cast; args6 <- invert_bind_args idc1 Raw.ident.Literal; args7 <- invert_bind_args idc0 Raw.ident.Z_cast; _ <- invert_bind_args idc Raw.ident.Z_sub_with_get_borrow; match pattern.type.unify_extracted (((ℤ -> ℤ) -> ℤ) -> ℤ -> ℤ)%ptype ((((projT1 args6) -> s4) -> s5) -> s9 -> (projT1 args))%ptype with | Datatypes.Some (_, _, _, (_, _))%zrange => if type.type_beq base.type base.type.type_beq (((ℤ -> ℤ) -> ℤ) -> ℤ -> ℤ)%ptype ((((projT1 args6) -> s4) -> s5) -> s9 -> (projT1 args))%ptype then xv <- ident.unify pattern.ident.Literal ##(projT2 args6); v <- type.try_make_transport_cps s4 ℤ; v0 <- type.try_make_transport_cps s5 ℤ; v1 <- type.try_make_transport_cps s9 ℤ; xv0 <- ident.unify pattern.ident.Literal ##(projT2 args); fv <- (if is_bounded_by_bool (let (x12, _) := xv in x12) (ZRange.normalize args7) && is_bounded_by_bool (let (x12, _) := xv0 in x12) (ZRange.normalize args0) && ((let (x12, _) := xv in x12) =? 2 ^ Z.log2 (let (x12, _) := xv in x12)) && (ZRange.normalize args1 >> ZRange.normalize (ZRange.constant (let (x12, _) := xv0 in x12)) <=? ZRange.normalize args3)%zrange && (ZRange.normalize args3 <=? r[0 ~> (let (x12, _) := xv in x12) - 1])%zrange then Datatypes.Some (Reify.expr_value_to_rewrite_rule_replacement (@Compile.reflect_ident_iota var) false (#(Z_cast2 range)%expr @ (#(fancy_subb (Z.log2 (let (x12, _) := xv in x12)) (- (let (x12, _) := xv0 in x12)))%expr @ (#(Z_cast args5)%expr @ ($(v (Compile.reflect x5)))%expr, #(Z_cast args4)%expr @ ($(v0 (Compile.reflect x6)))%expr, #(Z_cast args1)%expr @ ($(v1 (Compile.reflect x10)))%expr)))%expr_pat) else Datatypes.None); Datatypes.Some (fv0 <-- fv; Base fv0)%under_lets else Datatypes.None | Datatypes.None => Datatypes.None end | (@expr.Ident _ _ _ t7 idc7 @ ($_)%expr)%expr_pat | (@expr.Ident _ _ _ t7 idc7 @ @expr.Abs _ _ _ _ _ _)%expr_pat | (@expr.Ident _ _ _ t7 idc7 @ (_ @ _))%expr_pat | (@expr.Ident _ _ _ t7 idc7 @ @expr.LetIn _ _ _ _ _ _ _)%expr_pat => Datatypes.None | _ => Datatypes.None end | @expr.App _ _ _ s9 _ ($_)%expr _ | @expr.App _ _ _ s9 _ (@expr.Abs _ _ _ _ _ _) _ | @expr.App _ _ _ s9 _ (_ @ _)%expr_pat _ | @expr.App _ _ _ s9 _ (@expr.LetIn _ _ _ _ _ _ _) _ => Datatypes.None | _ => Datatypes.None end | _ => Datatypes.None end;; args <- invert_bind_args idc4 Raw.ident.Z_cast; args0 <- invert_bind_args idc3 Raw.ident.Z_cast; args1 <- invert_bind_args idc2 Raw.ident.Z_cast; args2 <- invert_bind_args idc1 Raw.ident.Literal; args3 <- invert_bind_args idc0 Raw.ident.Z_cast; _ <- invert_bind_args idc Raw.ident.Z_sub_with_get_borrow; match pattern.type.unify_extracted (((ℤ -> ℤ) -> ℤ) -> ℤ)%ptype ((((projT1 args2) -> s4) -> s5) -> s6)%ptype with | Datatypes.Some (_, _, _, _)%zrange => if type.type_beq base.type base.type.type_beq (((ℤ -> ℤ) -> ℤ) -> ℤ)%ptype ((((projT1 args2) -> s4) -> s5) -> s6)%ptype then xv <- ident.unify pattern.ident.Literal ##(projT2 args2); v <- type.try_make_transport_cps s4 ℤ; v0 <- type.try_make_transport_cps s5 ℤ; v1 <- type.try_make_transport_cps s6 ℤ; fv <- (if is_bounded_by_bool (let (x8, _) := xv in x8) (ZRange.normalize args3) && ((let (x8, _) := xv in x8) =? 2 ^ Z.log2 (let (x8, _) := xv in x8)) && (ZRange.normalize args <=? r[0 ~> (let (x8, _) := xv in x8) - 1])%zrange then Datatypes.Some (Reify.expr_value_to_rewrite_rule_replacement (@Compile.reflect_ident_iota var) false (#(Z_cast2 range)%expr @ (#(fancy_subb (Z.log2 (let (x8, _) := xv in x8)) 0)%expr @ (#(Z_cast args1)%expr @ ($(v (Compile.reflect x5)))%expr, #(Z_cast args0)%expr @ ($(v0 (Compile.reflect x6)))%expr, #(Z_cast args)%expr @ ($(v1 (Compile.reflect x7)))%expr)))%expr_pat) else Datatypes.None); Datatypes.Some (fv0 <-- fv; Base fv0)%under_lets else Datatypes.None | Datatypes.None => Datatypes.None end | @expr.App _ _ _ s6 _ ($_)%expr _ | @expr.App _ _ _ s6 _ (@expr.Abs _ _ _ _ _ _) _ | @expr.App _ _ _ s6 _ (_ @ _)%expr_pat _ | @expr.App _ _ _ s6 _ (@expr.LetIn _ _ _ _ _ _ _) _ => Datatypes.None | _ => Datatypes.None end | @expr.App _ _ _ s5 _ ($_)%expr _ | @expr.App _ _ _ s5 _ (@expr.Abs _ _ _ _ _ _) _ | @expr.App _ _ _ s5 _ (_ @ _)%expr_pat _ | @expr.App _ _ _ s5 _ (@expr.LetIn _ _ _ _ _ _ _) _ => Datatypes.None | _ => Datatypes.None end | @expr.App _ _ _ s4 _ ($_)%expr _ | @expr.App _ _ _ s4 _ (@expr.Abs _ _ _ _ _ _) _ | @expr.App _ _ _ s4 _ (_ @ _)%expr_pat _ | @expr.App _ _ _ s4 _ (@expr.LetIn _ _ _ _ _ _ _) _ => Datatypes.None | _ => Datatypes.None end | (@expr.Ident _ _ _ t0 idc0 @ ($_)%expr)%expr_pat | (@expr.Ident _ _ _ t0 idc0 @ @expr.Abs _ _ _ _ _ _)%expr_pat | (@expr.Ident _ _ _ t0 idc0 @ (_ @ _))%expr_pat | (@expr.Ident _ _ _ t0 idc0 @ @expr.LetIn _ _ _ _ _ _ _)%expr_pat => Datatypes.None | _ => Datatypes.None end | _ => Datatypes.None end;; Datatypes.None);;; Base (#(Z_cast2 range)%expr @ x)%expr_pat)%option | Some A => fun x : expr A => Base (#(Some)%expr @ x)%expr_pat | None A => Base #(None)%expr | @option_rect A P => fun (x : expr A -> UnderLets (expr P)) (x0 : expr unit -> UnderLets (expr P)) (x1 : expr (base.type.option A)) => Base (#(option_rect)%expr @ (λ x2 : var A, to_expr (x ($x2)))%expr @ (λ x2 : var unit, to_expr (x0 ($x2)))%expr @ x1)%expr_pat | Build_zrange => fun x x0 : expr ℤ => Base (#(Build_zrange)%expr @ x @ x0)%expr_pat | @zrange_rect P => fun (x : expr ℤ -> expr ℤ -> UnderLets (expr P)) (x0 : expr base.type.zrange) => Base (#(zrange_rect)%expr @ (λ x1 x2 : var ℤ, to_expr (x ($x1) ($x2)))%expr @ x0)%expr_pat | fancy_add log2wordmax imm => fun x : expr (ℤ * ℤ)%etype => Base (#(fancy_add log2wordmax imm)%expr @ x)%expr_pat | fancy_addc log2wordmax imm => fun x : expr (ℤ * ℤ * ℤ)%etype => Base (#(fancy_addc log2wordmax imm)%expr @ x)%expr_pat | fancy_sub log2wordmax imm => fun x : expr (ℤ * ℤ)%etype => Base (#(fancy_sub log2wordmax imm)%expr @ x)%expr_pat | fancy_subb log2wordmax imm => fun x : expr (ℤ * ℤ * ℤ)%etype => Base (#(fancy_subb log2wordmax imm)%expr @ x)%expr_pat | fancy_mulll log2wordmax => fun x : expr (ℤ * ℤ)%etype => Base (#(fancy_mulll log2wordmax)%expr @ x)%expr_pat | fancy_mullh log2wordmax => fun x : expr (ℤ * ℤ)%etype => Base (#(fancy_mullh log2wordmax)%expr @ x)%expr_pat | fancy_mulhl log2wordmax => fun x : expr (ℤ * ℤ)%etype => Base (#(fancy_mulhl log2wordmax)%expr @ x)%expr_pat | fancy_mulhh log2wordmax => fun x : expr (ℤ * ℤ)%etype => Base (#(fancy_mulhh log2wordmax)%expr @ x)%expr_pat | fancy_rshi log2wordmax x => fun x0 : expr (ℤ * ℤ)%etype => Base (#(fancy_rshi log2wordmax x)%expr @ x0)%expr_pat | fancy_selc => fun x : expr (ℤ * ℤ * ℤ)%etype => Base (#(fancy_selc)%expr @ x)%expr_pat | fancy_selm log2wordmax => fun x : expr (ℤ * ℤ * ℤ)%etype => Base (#(fancy_selm log2wordmax)%expr @ x)%expr_pat | fancy_sell => fun x : expr (ℤ * ℤ * ℤ)%etype => Base (#(fancy_sell)%expr @ x)%expr_pat | fancy_addm => fun x : expr (ℤ * ℤ * ℤ)%etype => Base (#(fancy_addm)%expr @ x)%expr_pat end : Compile.value' true t