| blob | 83e3d9eb729b8602b44e68a7b45d0a822c378453 |
1 start: 83
2 end: 234
3 indent: "\t"
4 context: '[n] -> { : n <= 2147483647 and n >= -2147483648 }'
5 arrays:
6 - context: '{ : }'
7 extent: '[n] -> { __pet_test_0[x1, x2] : exists (e0 = floor((x2)/3): 3e0 = x2 and
8 x1 <= -1 + n and x1 >= 0 and x2 <= 9) }'
9 value_bounds: '{ [i0] : i0 >= 0 and i0 <= 1 }'
10 element_type: int
11 element_size: 4
12 uniquely_defined: 1
13 - context: '{ : }'
14 extent: '[n] -> { s[] }'
15 element_type: int
16 element_size: 4
17 statements:
18 - line: 12
19 domain: '[n] -> { S1[x1] : x1 <= -1 + n and x1 >= 0 }'
20 schedule: '[n] -> { S1[x1] -> [0, x1, 0] }'
21 body:
22 type: expression
23 expr:
24 type: op
25 operation: =
26 arguments:
27 - type: access
28 relation: '[n] -> { S1[x1] -> s[] }'
29 index: '[n] -> { S1[x1] -> s[] }'
30 reference: __pet_ref_0
31 read: 0
32 write: 1
33 - type: call
34 name: f
35 - line: 13
36 domain: '[n] -> { [S_1[x1, x2] -> [1]] : exists (e0 = floor((x2)/3): 3e0 = x2 and
37 x1 <= -1 + n and x1 >= 0 and x2 <= 9) }'
38 schedule: '[n] -> { S_1[x1, x2] -> [0, x1, 1, -x2, 0] }'
39 body:
40 type: expression
41 expr:
42 type: op
43 operation: =
44 arguments:
45 - type: access
46 relation: '[n] -> { S_1[x1, x2] -> __pet_test_0[x1, x2] }'
47 index: '[n] -> { S_1[x1, x2] -> __pet_test_0[(x1), (x2)] }'
48 reference: __pet_ref_2
49 read: 0
50 write: 1
51 - type: call
52 name: P
53 arguments:
54 - type: access
55 relation: '[n] -> { S_1[x1, x2] -> [x1] }'
56 index: '[n] -> { S_1[x1, x2] -> [(x1)] }'
57 reference: __pet_ref_3
58 read: 1
59 write: 0
60 - type: access
61 relation: '[n] -> { S_1[x1, x2] -> [x2] }'
62 index: '[n] -> { S_1[x1, x2] -> [(x2)] }'
63 reference: __pet_ref_4
64 read: 1
65 write: 0
66 arguments:
67 - type: access
68 relation: '[n] -> { S_1[x1, x2] -> __pet_test_0[x1, 3 + x2] : x2 <= 6 }'
69 index: '[n] -> { S_1[x1, x2] -> __pet_test_0[(x1), ((3 + x2) : x2 <= 6)] }'
70 reference: __pet_ref_1
71 read: 1
72 write: 0
73 - line: 14
74 domain: '[n] -> { [S2[x1, x2] -> [1]] : exists (e0 = floor((x2)/3): 3e0 = x2 and
75 x1 <= -1 + n and x1 >= 0 and x2 <= 9) }'
76 schedule: '[n] -> { S2[x1, x2] -> [0, x1, 1, -x2, 1, 0] }'
77 body:
78 type: expression
79 expr:
80 type: op
81 operation: =
82 arguments:
83 - type: access
84 relation: '[n] -> { S2[x1, x2] -> s[] }'
85 index: '[n] -> { S2[x1, x2] -> s[] }'
86 reference: __pet_ref_6
87 read: 0
88 write: 1
89 - type: call
90 name: g
91 arguments:
92 - type: access
93 relation: '[n] -> { S2[x1, x2] -> s[] }'
94 index: '[n] -> { S2[x1, x2] -> s[] }'
95 reference: __pet_ref_7
96 read: 1
97 write: 0
98 arguments:
99 - type: access
100 relation: '[n] -> { S2[x1, x2] -> __pet_test_0[x1, x2] }'
101 index: '[n] -> { S2[x1, x2] -> __pet_test_0[(x1), (x2)] }'
102 reference: __pet_ref_5
103 read: 1
104 write: 0
105 - line: 16
106 domain: '[n] -> { R[x1] : x1 <= -1 + n and x1 >= 0 }'
107 schedule: '[n] -> { R[x1] -> [0, x1, 2] }'
108 body:
109 type: expression
110 expr:
111 type: call
112 name: h
113 arguments:
114 - type: access
115 relation: '[n] -> { R[x1] -> s[] }'
116 index: '[n] -> { R[x1] -> s[] }'
117 reference: __pet_ref_8
118 read: 1
119 write: 0
120 implications:
121 - satisfied: 1
122 extension: '[n] -> { __pet_test_0[x1, x2] -> __pet_test_0[x1, x2''] : exists (e0
123 = floor((x2'')/3): 3e0 = x2'' and x2'' >= x2 and x1 >= 0 and x1 <= -1 + n and
124 x2'' <= 9) }'