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
147
148
149
150
151
152
153
154
155
156
157
158
159
|
/* -*- mode: C++; c-basic-offset: 2; indent-tabs-mode: nil -*- */
/*
* Main authors:
* Jip J. Dekker <jip.dekker@monash.edu>
*
* Copyright:
* Jip J. Dekker, 2023
*
* This file is part of Gecode, the generic constraint
* development environment:
* http://www.gecode.org
*
* Permission is hereby granted, free of charge, to any person obtaining
* a copy of this software and associated documentation files (the
* "Software"), to deal in the Software without restriction, including
* without limitation the rights to use, copy, modify, merge, publish,
* distribute, sublicense, and/or sell copies of the Software, and to
* permit persons to whom the Software is furnished to do so, subject to
* the following conditions:
*
* The above copyright notice and this permission notice shall be
* included in all copies or substantial portions of the Software.
*
* THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND,
* EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF
* MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND
* NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE
* LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION
* OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION
* WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE.
*
*/
#include "test/flatzinc.hh"
namespace Test { namespace FlatZinc {
namespace {
/// Helper class to create and register tests
class Create {
public:
/// Perform creation and registration
Create(void) {
(void) new FlatZincTest("on_restart::last_val_set",
R"FZN(
predicate gecode_on_restart_status(var int: s);
predicate gecode_on_restart_last_val_set(var set of int: input,var set of int: out);
predicate array_int_maximum(var int: m,array [int] of var int: x);
var -1..4: x:: output_var;
var set of 1..10: y:: output_var;
var 0..4: X_INTRODUCED_1_ ::var_is_introduced :: is_defined_var;
var 1..5: X_INTRODUCED_3_ ::var_is_introduced ;
var bool: X_INTRODUCED_4_ ::var_is_introduced :: is_defined_var;
var set of 1..10: X_INTRODUCED_5_ ::var_is_introduced ;
var bool: X_INTRODUCED_6_ ::var_is_introduced :: is_defined_var;
var 0..1: X_INTRODUCED_7_ ::var_is_introduced :: is_defined_var;
var bool: X_INTRODUCED_9_ ::var_is_introduced :: is_defined_var;
var 0..1: X_INTRODUCED_10_ ::var_is_introduced :: is_defined_var;
var 0..2: X_INTRODUCED_11_ ::var_is_introduced :: is_defined_var;
var bool: X_INTRODUCED_13_ ::var_is_introduced :: is_defined_var;
var 0..1: X_INTRODUCED_14_ ::var_is_introduced :: is_defined_var;
var 0..3: X_INTRODUCED_15_ ::var_is_introduced :: is_defined_var;
var bool: X_INTRODUCED_17_ ::var_is_introduced :: is_defined_var;
var 0..1: X_INTRODUCED_18_ ::var_is_introduced :: is_defined_var;
var 0..4: X_INTRODUCED_19_ ::var_is_introduced :: is_defined_var;
var bool: X_INTRODUCED_21_ ::var_is_introduced :: is_defined_var;
var 0..1: X_INTRODUCED_22_ ::var_is_introduced :: is_defined_var;
var 0..5: X_INTRODUCED_23_ ::var_is_introduced :: is_defined_var;
var bool: X_INTRODUCED_25_ ::var_is_introduced :: is_defined_var;
var 0..1: X_INTRODUCED_26_ ::var_is_introduced :: is_defined_var;
var 0..6: X_INTRODUCED_27_ ::var_is_introduced :: is_defined_var;
var bool: X_INTRODUCED_29_ ::var_is_introduced :: is_defined_var;
var 0..1: X_INTRODUCED_30_ ::var_is_introduced :: is_defined_var;
var 0..7: X_INTRODUCED_31_ ::var_is_introduced :: is_defined_var;
var bool: X_INTRODUCED_33_ ::var_is_introduced :: is_defined_var;
var 0..1: X_INTRODUCED_34_ ::var_is_introduced :: is_defined_var;
var 0..8: X_INTRODUCED_35_ ::var_is_introduced :: is_defined_var;
var bool: X_INTRODUCED_37_ ::var_is_introduced :: is_defined_var;
var 0..1: X_INTRODUCED_38_ ::var_is_introduced :: is_defined_var;
var 0..9: X_INTRODUCED_39_ ::var_is_introduced :: is_defined_var;
var bool: X_INTRODUCED_41_ ::var_is_introduced :: is_defined_var;
var 0..1: X_INTRODUCED_42_ ::var_is_introduced :: is_defined_var;
var 0..10: X_INTRODUCED_43_ ::var_is_introduced :: is_defined_var;
var 0..10: X_INTRODUCED_45_ ::var_is_introduced :: is_defined_var;
var 0..20: X_INTRODUCED_47_ ::var_is_introduced :: is_defined_var;
var set of 0..20: X_INTRODUCED_50_ ::var_is_introduced ;
var set of 0..20: X_INTRODUCED_53_ ::var_is_introduced :: is_defined_var;
var bool: X_INTRODUCED_60_ ::var_is_introduced :: is_defined_var;
var bool: X_INTRODUCED_61_ ::var_is_introduced :: is_defined_var;
array [1..1] of var int: X_INTRODUCED_2_ ::var_is_introduced = [x];
array [1..10] of var int: X_INTRODUCED_44_ ::var_is_introduced = [X_INTRODUCED_7_,X_INTRODUCED_11_,X_INTRODUCED_15_,X_INTRODUCED_19_,X_INTRODUCED_23_,X_INTRODUCED_27_,X_INTRODUCED_31_,X_INTRODUCED_35_,X_INTRODUCED_39_,X_INTRODUCED_43_];
constraint int_abs(x,X_INTRODUCED_1_):: ctx_pos:: defines_var(X_INTRODUCED_1_);
constraint gecode_on_restart_status(X_INTRODUCED_3_);
constraint gecode_on_restart_last_val_set(y,X_INTRODUCED_5_);
constraint array_int_maximum(X_INTRODUCED_45_,X_INTRODUCED_44_):: defines_var(X_INTRODUCED_45_);
constraint set_in(X_INTRODUCED_47_,X_INTRODUCED_50_);
constraint set_card(X_INTRODUCED_50_,1);
constraint bool_clause([X_INTRODUCED_60_],[X_INTRODUCED_4_]);
constraint bool_clause([X_INTRODUCED_4_,X_INTRODUCED_61_],[]);
constraint int_eq_reif(X_INTRODUCED_3_,1,X_INTRODUCED_4_):: defines_var(X_INTRODUCED_4_);
constraint set_in_reif(1,X_INTRODUCED_5_,X_INTRODUCED_6_):: defines_var(X_INTRODUCED_6_);
constraint bool2int(X_INTRODUCED_6_,X_INTRODUCED_7_):: defines_var(X_INTRODUCED_7_);
constraint set_in_reif(2,X_INTRODUCED_5_,X_INTRODUCED_9_):: defines_var(X_INTRODUCED_9_);
constraint bool2int(X_INTRODUCED_9_,X_INTRODUCED_10_):: defines_var(X_INTRODUCED_10_);
constraint int_lin_eq([2,-1],[X_INTRODUCED_10_,X_INTRODUCED_11_],0):: defines_var(X_INTRODUCED_11_);
constraint set_in_reif(3,X_INTRODUCED_5_,X_INTRODUCED_13_):: defines_var(X_INTRODUCED_13_);
constraint bool2int(X_INTRODUCED_13_,X_INTRODUCED_14_):: defines_var(X_INTRODUCED_14_);
constraint int_lin_eq([3,-1],[X_INTRODUCED_14_,X_INTRODUCED_15_],0):: defines_var(X_INTRODUCED_15_);
constraint set_in_reif(4,X_INTRODUCED_5_,X_INTRODUCED_17_):: defines_var(X_INTRODUCED_17_);
constraint bool2int(X_INTRODUCED_17_,X_INTRODUCED_18_):: defines_var(X_INTRODUCED_18_);
constraint int_lin_eq([4,-1],[X_INTRODUCED_18_,X_INTRODUCED_19_],0):: defines_var(X_INTRODUCED_19_);
constraint set_in_reif(5,X_INTRODUCED_5_,X_INTRODUCED_21_):: defines_var(X_INTRODUCED_21_);
constraint bool2int(X_INTRODUCED_21_,X_INTRODUCED_22_):: defines_var(X_INTRODUCED_22_);
constraint int_lin_eq([5,-1],[X_INTRODUCED_22_,X_INTRODUCED_23_],0):: defines_var(X_INTRODUCED_23_);
constraint set_in_reif(6,X_INTRODUCED_5_,X_INTRODUCED_25_):: defines_var(X_INTRODUCED_25_);
constraint bool2int(X_INTRODUCED_25_,X_INTRODUCED_26_):: defines_var(X_INTRODUCED_26_);
constraint int_lin_eq([6,-1],[X_INTRODUCED_26_,X_INTRODUCED_27_],0):: defines_var(X_INTRODUCED_27_);
constraint set_in_reif(7,X_INTRODUCED_5_,X_INTRODUCED_29_):: defines_var(X_INTRODUCED_29_);
constraint bool2int(X_INTRODUCED_29_,X_INTRODUCED_30_):: defines_var(X_INTRODUCED_30_);
constraint int_lin_eq([7,-1],[X_INTRODUCED_30_,X_INTRODUCED_31_],0):: defines_var(X_INTRODUCED_31_);
constraint set_in_reif(8,X_INTRODUCED_5_,X_INTRODUCED_33_):: defines_var(X_INTRODUCED_33_);
constraint bool2int(X_INTRODUCED_33_,X_INTRODUCED_34_):: defines_var(X_INTRODUCED_34_);
constraint int_lin_eq([8,-1],[X_INTRODUCED_34_,X_INTRODUCED_35_],0):: defines_var(X_INTRODUCED_35_);
constraint set_in_reif(9,X_INTRODUCED_5_,X_INTRODUCED_37_):: defines_var(X_INTRODUCED_37_);
constraint bool2int(X_INTRODUCED_37_,X_INTRODUCED_38_):: defines_var(X_INTRODUCED_38_);
constraint int_lin_eq([9,-1],[X_INTRODUCED_38_,X_INTRODUCED_39_],0):: defines_var(X_INTRODUCED_39_);
constraint set_in_reif(10,X_INTRODUCED_5_,X_INTRODUCED_41_):: defines_var(X_INTRODUCED_41_);
constraint bool2int(X_INTRODUCED_41_,X_INTRODUCED_42_):: defines_var(X_INTRODUCED_42_);
constraint int_lin_eq([10,-1],[X_INTRODUCED_42_,X_INTRODUCED_43_],0):: defines_var(X_INTRODUCED_43_);
constraint int_lin_eq([2,-1],[X_INTRODUCED_45_,X_INTRODUCED_47_],0):: defines_var(X_INTRODUCED_47_);
constraint set_union(X_INTRODUCED_5_,X_INTRODUCED_50_,X_INTRODUCED_53_):: defines_var(X_INTRODUCED_53_);
constraint set_eq_reif(y,1..1,X_INTRODUCED_60_):: defines_var(X_INTRODUCED_60_);
constraint set_eq_reif(y,X_INTRODUCED_53_,X_INTRODUCED_61_):: defines_var(X_INTRODUCED_61_);
solve :: int_search(X_INTRODUCED_2_,input_order,indomain_min,complete) maximize X_INTRODUCED_1_;
)FZN",
R"OUT(x = -1;
y = 1..1;
----------
x = 2;
y = 1..2;
----------
x = 3;
y = {1, 2, 4};
----------
x = 4;
y = {1, 2, 4, 8};
----------
==========
)OUT", true, {"--restart", "constant", "--restart-base", "100"});
}
};
Create c;
}
}}
// STATISTICS: test-flatzinc
|
