(****************************************************************************)
-type name = string
-type what = Cic.annterm
-type how = bool
-type using = Cic.annterm
-type count = int
-type note = string
-type where = (name * name) option
+type name = string
+type what = Cic.annterm
+type how = bool
+type using = Cic.annterm
+type count = int
+type note = string
+type where = (name * name) option
+type inferred = Cic.annterm
+type pattern = Cic.annterm
type step = Note of note
| Theorem of name * what * note
| Intros of count option * name list * note
| Cut of name * what * note
| LetIn of name * what * note
- | Rewrite of how * what * where * note
- | Elim of what * using option * note
+ | Rewrite of how * what * where * pattern * note
+ | Elim of what * using option * pattern * note
| Apply of what * note
- | Whd of count * note
+ | Change of inferred * what * where * pattern * note
+ | ClearBody of name * note
| Branch of step list list * note
val render_steps:
- (what, 'a, [> `Whd] as 'b, what CicNotationPt.obj, name) GrafiteAst.statement list ->
+ (what, inferred, [> `Whd] as 'b, what CicNotationPt.obj, name) GrafiteAst.statement list ->
step list ->
- (what, 'a, 'b, what CicNotationPt.obj, name) GrafiteAst.statement list
+ (what, inferred, 'b, what CicNotationPt.obj, name) GrafiteAst.statement list
val count_steps:
int -> step list -> int