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
|
(** * Push-Button Synthesis Examples *)
Require Import Coq.Strings.String.
Require Import Coq.ZArith.ZArith.
Require Import Coq.Lists.List.
Require Import Crypto.Util.ZRange.
Require Import Crypto.Language.
Require Import Crypto.CStringification.
Require Import Crypto.Arithmetic.
Require Import Crypto.BoundsPipeline.
Import ListNotations.
Local Open Scope Z_scope. Local Open Scope list_scope.
Import
Language.Compilers
CStringification.Compilers.
Import Compilers.defaults.
Import Associational Positional.
Time Compute
(Pipeline.BoundsPipeline
true None [64; 128]
ltac:(let r := Reify (to_associational (weight 51 1) 5) in
exact r)
(Some (repeat (@None _) 5), tt)
ZRange.type.base.option.None).
Time Compute
(Pipeline.BoundsPipeline
true None [64; 128]
ltac:(let r := Reify (scmul (weight 51 1) 5) in
exact r)
(None, (Some (repeat (@None _) 5), tt))
ZRange.type.base.option.None).
Compute
(Pipeline.BoundsPipeline
true None [64; 128]
ltac:(let r := Reify (fun f => carry_mulmod 51 1 (2^255) [(1,19)] 5 (seq 0 5 ++ [0; 1])%list%nat f f) in
exact r)
(Some (repeat (@None _) 5), tt)
ZRange.type.base.option.None).
Compute
(Pipeline.BoundsPipelineToString
true "fiat_" "fiat_mulx_u64"
true None [64; 128]
ltac:(let r := Reify (Arithmetic.mulx 64) in
exact r)
(fun _ _ => [])
(Some r[0~>2^64-1], (Some r[0~>2^64-1], tt))%zrange
(Some r[0~>2^64-1], Some r[0~>2^64-1])%zrange).
Compute
(Pipeline.BoundsPipelineToString
true "fiat_" "fiat_addcarryx_u64"
true None [1; 64; 128]
ltac:(let r := Reify (Arithmetic.addcarryx 64) in
exact r)
(fun _ _ => [])
(Some r[0~>1], (Some r[0~>2^64-1], (Some r[0~>2^64-1], tt)))%zrange
(Some r[0~>2^64-1], Some r[0~>1])%zrange).
Compute
(Pipeline.BoundsPipelineToString
true "fiat_" "fiat_addcarryx_u51"
true None [1; 64; 128]
ltac:(let r := Reify (Arithmetic.addcarryx 51) in
exact r)
(fun _ _ => [])
(Some r[0~>1], (Some r[0~>2^51-1], (Some r[0~>2^51-1], tt)))%zrange
(Some r[0~>2^51-1], Some r[0~>1])%zrange).
Compute
(Pipeline.BoundsPipelineToString
true "fiat_" "fiat_subborrowx_u64"
true None [1; 64; 128]
ltac:(let r := Reify (Arithmetic.subborrowx 64) in
exact r)
(fun _ _ => [])
(Some r[0~>1], (Some r[0~>2^64-1], (Some r[0~>2^64-1], tt)))%zrange
(Some r[0~>2^64-1], Some r[0~>1])%zrange).
Compute
(Pipeline.BoundsPipelineToString
true "fiat_" "fiat_subborrowx_u51"
true None [1; 64; 128]
ltac:(let r := Reify (Arithmetic.subborrowx 51) in
exact r)
(fun _ _ => [])
(Some r[0~>1], (Some r[0~>2^51-1], (Some r[0~>2^51-1], tt)))%zrange
(Some r[0~>2^51-1], Some r[0~>1])%zrange).
Compute
(Pipeline.BoundsPipelineToString
true "fiat_" "fiat_cmovznz64"
true None [1; 64; 128]
ltac:(let r := Reify (Arithmetic.cmovznz 64) in
exact r)
(fun _ _ => [])
(Some r[0~>1], (Some r[0~>2^64-1], (Some r[0~>2^64-1], tt)))%zrange
(Some r[0~>2^64-1])%zrange).
|
