##### defines data for handcrafted database with history
[maptable_001]
data=<<DATA
type_001/a_001 type_002/a_001
type_001/a_011 type_002/a_011
type_001/a_101 type_002/a_101
type_001/a_111 type_002/a_111
DATA
[maptable_002]
data=<<DATA
type_002/a_010 type_003/a_010
type_002/a_011 type_003/a_011
type_002/a_110 type_003/a_110
type_002/a_111 type_003/a_111
DATA
[maptable_003]
data=<<DATA
type_003/a_100 type_004/a_100
type_003/a_101 type_004/a_101
type_003/a_110 type_004/a_110
type_003/a_111 type_004/a_111
DATA
### these guys are deliberately simple - 1:1 histories
[type_001_master]
data=<<DATA
type_001/x_000 type_001/a_000
type_001/x_001 type_001/a_001
type_001/x_010 type_001/a_010
type_001/x_011 type_001/a_011
type_001/x_100 type_001/a_100
type_001/x_101 type_001/a_101
type_001/x_110 type_001/a_110
type_001/x_111 type_001/a_111
DATA
[type_002_master]
data=<<DATA
type_002/x_000 type_002/a_000
type_002/x_001 type_002/a_001
type_002/x_010 type_002/a_010
type_002/x_011 type_002/a_011
type_002/x_100 type_002/a_100
type_002/x_101 type_002/a_101
type_002/x_110 type_002/a_110
type_002/x_111 type_002/a_111
DATA
# type_003_master & type_004_master are for testing load_implicit_masters
[type_003_master]
data=<<DATA
type_003/a_010
type_003/a_011
type_003/a_100
type_003/a_101
type_003/a_110
type_003/a_111
DATA
[type_004_master]
data=<<DATA
type_004/a_100
type_004/a_101
type_004/a_110
type_004/a_111
DATA
# correct ur
[ur]
data=<<DATA
type_001/a_001 type_002/a_001 NULL NULL type_001/x_001 type_002/x_001
type_001/a_011 type_002/a_011 type_003/a_011 NULL type_001/x_011 type_002/x_011
type_001/a_101 type_002/a_101 NULL NULL type_001/x_101 type_002/x_101
type_001/a_111 type_002/a_111 type_003/a_111 type_004/a_111 type_001/x_111 type_002/x_111
NULL type_002/a_010 type_003/a_010 NULL NULL type_002/x_010
NULL type_002/a_110 type_003/a_110 type_004/a_110 NULL type_002/x_110
NULL NULL type_003/a_100 type_004/a_100 NULL NULL
NULL NULL type_003/a_101 type_004/a_101 NULL NULL
type_001/a_000 NULL NULL NULL type_001/x_000 NULL
type_001/a_010 NULL NULL NULL type_001/x_010 NULL
type_001/a_100 NULL NULL NULL type_001/x_100 NULL
type_001/a_110 NULL NULL NULL type_001/x_110 NULL
NULL type_002/a_000 NULL NULL NULL type_002/x_000
NULL type_002/a_100 NULL NULL NULL type_002/x_100
DATA
# correct ur selection for 040.translate
# NG 10-11-10: removed NULL row (below) 'cuz translate now skips these
# NULL NULL
[ur_selection]
data=<<DATA
type_001/a_000 NULL
type_001/a_001 NULL
type_001/a_010 NULL
type_001/a_011 NULL
type_001/a_100 NULL
NULL type_004/a_100
type_001/a_101 NULL
NULL type_004/a_101
type_001/a_110 NULL
NULL type_004/a_110
type_001/a_111 type_004/a_111
DATA
# correct result of query in 010.basics
# NG 10-11-10: removed 1st row (below) 'cuz translate now skips these
# type_001/a_000 NULL NULL NULL
[basics]
data=<<DATA
type_001/x_001 type_002/a_001 NULL NULL
type_001/x_111 type_002/a_111 type_003/a_111 type_004/a_111
DATA
# NG 12-11-23: added validate
[basics_validate]
data=<<DATA
type_001/x_invalid 0 NULL
type_001/x_000 1 NULL
type_001/x_001 1 NULL
type_001/x_011 1 type_003/a_011
type_001/x_110 1 NULL
type_001/x_111 1 type_003/a_111
DATA
# correct result of 'filter' query in 010.basics
[basics_filter]
data=<<DATA
type_001/x_111 type_002/a_111 type_003/a_111 type_004/a_111
DATA
# NG 11-01-21: added 'translate all'
# correct result of 'translate all' query in 010.basics
[basics_all]
data=<<DATA
type_001/x_001 type_002/a_001 NULL NULL
type_001/x_011 type_002/a_011 type_003/a_011 NULL
type_001/x_101 type_002/a_101 NULL NULL
type_001/x_111 type_002/a_111 type_003/a_111 type_004/a_111
DATA
# NG 12-11-20: test one row for each input type
[type_001]
data=<<DATA
type_001/x_111 type_001/a_111 type_002/a_111 type_003/a_111 type_004/a_111
DATA
[type_002]
data=<<DATA
type_002/x_111 type_001/a_111 type_002/a_111 type_003/a_111 type_004/a_111
DATA
[type_003]
data=<<DATA
type_003/a_111 type_001/a_111 type_002/a_111 type_003/a_111 type_004/a_111
DATA
[type_004]
data=<<DATA
type_004/a_111 type_001/a_111 type_002/a_111 type_003/a_111 type_004/a_111
DATA