1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30
31
32
33
34
35
36
37
38
39
40
41
42
43
44
45
46
47
48
49
50
51
52
53
54
55
56
57
58
59
60
61
62
63
64
65
66
67
68
69
70
71
72
73
74
75
76
77
78
79
80
81
82
83
84
85
86
87
88
89
90
91
92
93
94
95
96
97
98
99
100
101
102
103
104
105
106
107
108
109
110
111
112
113
114
115
116
117
118
119
120
121
122
123
124
125
126
127
128
129
130
131
132
133
134
135
136
137
138
139
140
141
142
143
144
145
146
|
open Names
open Term
type tag = int
val id_tag : tag
val iddef_tag : tag
val ind_tag : tag
val fix_tag : tag
val switch_tag : tag
val cofix_tag : tag
val cofix_evaluated_tag : tag
type structured_constant =
| Const_sorts of sorts
| Const_ind of inductive
| Const_b0 of tag
| Const_bn of tag * structured_constant array
type reloc_table = (tag * int) array
type annot_switch =
{ci : case_info; rtbl : reloc_table; tailcall : bool}
module Label :
sig
type t = int
val no : t
val create : unit -> t
val reset_label_counter : unit -> unit
end
type instruction =
| Klabel of Label.t
| Kacc of int
| Kenvacc of int
| Koffsetclosure of int
| Kpush
| Kpop of int
| Kpush_retaddr of Label.t
| Kapply of int (* number of arguments *)
| Kappterm of int * int (* number of arguments, slot size *)
| Kreturn of int (* slot size *)
| Kjump
| Krestart
| Kgrab of int (* number of arguments *)
| Kgrabrec of int (* rec arg *)
| Kclosure of Label.t * int (* label, number of free variables *)
| Kclosurerec of int * int * Label.t array * Label.t array
(* nb fv, init, lbl types, lbl bodies *)
| Kclosurecofix of int * int * Label.t array * Label.t array
(* nb fv, init, lbl types, lbl bodies *)
| Kgetglobal of constant
| Kconst of structured_constant
| Kmakeblock of int * tag (* size, tag *)
| Kmakeprod
| Kmakeswitchblock of Label.t * Label.t * annot_switch * int
| Kswitch of Label.t array * Label.t array (* consts,blocks *)
| Kpushfields of int
| Kfield of int
| Ksetfield of int
| Kstop
| Ksequence of bytecodes * bytecodes
(* spiwack: instructions concerning integers *)
| Kbranch of Label.t (* jump to label, is it needed ? *)
| Kaddint31 (* adds the int31 in the accu
and the one ontop of the stack *)
| Kaddcint31 (* makes the sum and keeps the carry *)
| Kaddcarrycint31 (* sum +1, keeps the carry *)
| Ksubint31 (* subtraction modulo *)
| Ksubcint31 (* subtraction, keeps the carry *)
| Ksubcarrycint31 (* subtraction -1, keeps the carry *)
| Kmulint31 (* multiplication modulo *)
| Kmulcint31 (* multiplication, result in two
int31, for exact computation *)
| Kdiv21int31 (* divides a double size integer
(represented by an int31 in the
accumulator and one on the top of
the stack) by an int31. The result
is a pair of the quotient and the
rest.
If the divisor is 0, it returns
0. *)
| Kdivint31 (* euclidian division (returns a pair
quotient,rest) *)
| Kaddmuldivint31 (* generic operation for shifting and
cycling. Takes 3 int31 i j and s,
and returns x*2^s+y/(2^(31-s) *)
| Kcompareint31 (* unsigned comparison of int31
cf COMPAREINT31 in
kernel/byterun/coq_interp.c
for more info *)
| Khead0int31 (* Give the numbers of 0 in head of a in31*)
| Ktail0int31 (* Give the numbers of 0 in tail of a in31
ie low bits *)
| Kisconst of Label.t (* conditional jump *)
| Kareconst of int*Label.t (* conditional jump *)
| Kcompint31 (* dynamic compilation of int31 *)
| Kdecompint31 (* dynamix decompilation of int31 *)
(* /spiwack *)
and bytecodes = instruction list
type fv_elem = FVnamed of identifier | FVrel of int
type fv = fv_elem array
(* spiwack: this exception is expected to be raised by function expecting
closed terms. *)
exception NotClosed
(*spiwack: both type have been moved from Cbytegen because I needed then
for the retroknowledge *)
type vm_env = {
size : int; (* longueur de la liste [n] *)
fv_rev : fv_elem list (* [fvn; ... ;fv1] *)
}
type comp_env = {
nb_stack : int; (* nbre de variables sur la pile *)
in_stack : int list; (* position dans la pile *)
nb_rec : int; (* nbre de fonctions mutuellement *)
(* recursives = nbr *)
pos_rec : instruction list; (* instruction d'acces pour les variables *)
(* de point fix ou de cofix *)
offset : int;
in_env : vm_env ref
}
val draw_instr : bytecodes -> unit
(*spiwack: moved this here because I needed it for retroknowledge *)
type block =
| Bconstr of constr
| Bstrconst of structured_constant
| Bmakeblock of int * block array
| Bconstruct_app of int * int * int * block array
(* tag , nparams, arity *)
| Bspecial of (comp_env -> block array -> int -> bytecodes -> bytecodes) * block array
(* compilation function (see get_vm_constant_dynamic_info in
retroknowledge.mli for more info) , argument array *)
|