def check_merge(ibs_src, ibs_dst):
aid_list1 = ibs_src.get_valid_aids()
gid_list1 = ibs_src.get_annot_gids(aid_list1)
gname_list1 = ibs_src.get_image_uris(gid_list1)
image_uuid_list1 = ibs_src.get_image_uuids(gid_list1)
gid_list2 = ibs_dst.get_image_gids_from_uuid(image_uuid_list1)
gname_list2 = ibs_dst.get_image_uris(gid_list2)
# Asserts
ut.assert_all_not_None(gid_list1, 'gid_list1')
ut.assert_all_not_None(gid_list2, 'gid_list2')
ut.assert_lists_eq(gname_list1, gname_list2, 'faild gname')
# Image UUIDS should be consistent between databases
image_uuid_list2 = ibs_dst.get_image_uuids(gid_list2)
ut.assert_lists_eq(image_uuid_list1, image_uuid_list2, 'failed uuid')
aids_list1 = ibs_src.get_image_aids(gid_list1)
aids_list2 = ibs_dst.get_image_aids(gid_list2)
avuuids_list1 = ibs_src.unflat_map(ibs_src.get_annot_visual_uuids,
aids_list1)
avuuids_list2 = ibs_dst.unflat_map(ibs_dst.get_annot_visual_uuids,
aids_list2)
issubset_list = [
set(avuuids1).issubset(set(avuuids2))
for avuuids1, avuuids2 in zip(avuuids_list1, avuuids_list2)
]
assert all(issubset_list
), 'ibs_src must be a subset of ibs_dst: issubset_list=%r' % (
issubset_list, )
# aids_depth1 = ut.depth_profile(aids_list1)
# aids_depth2 = ut.depth_profile(aids_list2)
# depth might not be true if ibs_dst is not empty
# ut.assert_lists_eq(aids_depth1, aids_depth2, 'failed depth')
logger.info('Merge seems ok...')
def _assert_self(inva, qreq_):
ibs = qreq_.ibs
assert len(inva.aids) == len(inva.wx_lists)
assert len(inva.aids) == len(inva.fxs_lists)
assert len(inva.aids) == len(inva.maws_lists)
assert len(inva.aids) == len(inva.agg_rvecs)
assert len(inva.aids) == len(inva.agg_flags)
nfeat_list1 = ibs.get_annot_num_feats(inva.aids, config2_=qreq_.qparams)
nfeat_list2 = [sum(ut.lmap(len, fx_list)) for fx_list in inva.fxs_lists]
nfeat_list3 = [sum(ut.lmap(len, maws)) for maws in inva.maws_lists]
ut.assert_lists_eq(nfeat_list1, nfeat_list2)
ut.assert_lists_eq(nfeat_list1, nfeat_list3)
def make_incremental_test_database(ibs_gt, aid_list1, reset):
"""
Makes test database. adds image and annotations but does not transfer names.
if reset is true the new database is gaurenteed to be built from a fresh
start.
Args:
ibs_gt (IBEISController):
aid_list1 (list):
reset (bool): if True the test database is completely rebuilt
Returns:
IBEISController: ibs2
"""
import ibeis
print('make_incremental_test_database. reset=%r' % (reset, ))
aids1_hashid = ut.hashstr_arr(aid_list1)
prefix = '_INCTEST_' + aids1_hashid + '_'
dbname2 = prefix + ibs_gt.get_dbname()
ibs2 = ibeis.opendb(dbname2,
allow_newdir=True,
delete_ibsdir=reset,
use_cache=False)
# reset if flag specified or no data in ibs2
if reset or len(ibs2.get_valid_gids()) == 0:
assert len(ibs2.get_valid_aids()) == 0
assert len(ibs2.get_valid_gids()) == 0
assert len(ibs2.get_valid_nids()) == 0
# Get annotations and their images from database 1
gid_list1 = ibs_gt.get_annot_gids(aid_list1)
gpath_list1 = ibs_gt.get_image_paths(gid_list1)
# Add all images from database 1 to database 2
gid_list2 = ibs2.add_images(gpath_list1, auto_localize=False)
# Image UUIDS should be consistent between databases
image_uuid_list1 = ibs_gt.get_image_uuids(gid_list1)
image_uuid_list2 = ibs2.get_image_uuids(gid_list2)
assert image_uuid_list1 == image_uuid_list2
ut.assert_lists_eq(image_uuid_list1, image_uuid_list2)
return ibs2
def make_incremental_test_database(ibs_gt, aid_list1, reset):
"""
Makes test database. adds image and annotations but does not transfer names.
if reset is true the new database is gaurenteed to be built from a fresh
start.
Args:
ibs_gt (IBEISController):
aid_list1 (list):
reset (bool): if True the test database is completely rebuilt
Returns:
IBEISController: ibs2
"""
import ibeis
print('make_incremental_test_database. reset=%r' % (reset,))
aids1_hashid = ut.hashstr_arr(aid_list1)
prefix = '_INCTEST_' + aids1_hashid + '_'
dbname2 = prefix + ibs_gt.get_dbname()
ibs2 = ibeis.opendb(dbname2, allow_newdir=True, delete_ibsdir=reset, use_cache=False)
# reset if flag specified or no data in ibs2
if reset or len(ibs2.get_valid_gids()) == 0:
assert len(ibs2.get_valid_aids()) == 0
assert len(ibs2.get_valid_gids()) == 0
assert len(ibs2.get_valid_nids()) == 0
# Get annotations and their images from database 1
gid_list1 = ibs_gt.get_annot_gids(aid_list1)
gpath_list1 = ibs_gt.get_image_paths(gid_list1)
# Add all images from database 1 to database 2
gid_list2 = ibs2.add_images(gpath_list1, auto_localize=False)
# Image UUIDS should be consistent between databases
image_uuid_list1 = ibs_gt.get_image_uuids(gid_list1)
image_uuid_list2 = ibs2.get_image_uuids(gid_list2)
assert image_uuid_list1 == image_uuid_list2
ut.assert_lists_eq(image_uuid_list1, image_uuid_list2)
return ibs2
def assert_testdb_annot_consistency(ibs_gt, ibs2, aid_list1, aid_list2):
"""
just tests uuids
if anything goes wrong this should fix it:
from ibeis.other import ibsfuncs
aid_list1 = ibs_gt.get_valid_aids()
ibs_gt.update_annot_visual_uuids(aid_list1)
ibs2.update_annot_visual_uuids(aid_list2)
ibsfuncs.fix_remove_visual_dupliate_annotations(ibs_gt)
"""
assert len(aid_list2) == len(aid_list1)
visualtup1 = ibs_gt.get_annot_visual_uuid_info(aid_list1)
visualtup2 = ibs2.get_annot_visual_uuid_info(aid_list2)
_visual_uuid_list1 = [ut.augment_uuid(*tup) for tup in zip(*visualtup1)]
_visual_uuid_list2 = [ut.augment_uuid(*tup) for tup in zip(*visualtup2)]
assert ut.hashstr(visualtup1) == ut.hashstr(visualtup2)
ut.assert_lists_eq(visualtup1[0], visualtup2[0])
ut.assert_lists_eq(visualtup1[1], visualtup2[1])
ut.assert_lists_eq(visualtup1[2], visualtup2[2])
#semantic_uuid_list1 = ibs_gt.get_annot_semantic_uuids(aid_list1)
#semantic_uuid_list2 = ibs2.get_annot_semantic_uuids(aid_list2)
visual_uuid_list1 = ibs_gt.get_annot_visual_uuids(aid_list1)
visual_uuid_list2 = ibs2.get_annot_visual_uuids(aid_list2)
# make sure visual uuids are still determenistic
ut.assert_lists_eq(visual_uuid_list1, visual_uuid_list2)
ut.assert_lists_eq(_visual_uuid_list1, visual_uuid_list1)
ut.assert_lists_eq(_visual_uuid_list2, visual_uuid_list2)
if ut.VERBOSE:
ibs1_dup_annots = ut.debug_duplicate_items(visual_uuid_list1)
ibs2_dup_annots = ut.debug_duplicate_items(visual_uuid_list2)
else:
ibs1_dup_annots = ut.find_duplicate_items(visual_uuid_list1)
ibs2_dup_annots = ut.find_duplicate_items(visual_uuid_list2)
# if these fail try ibsfuncs.fix_remove_visual_dupliate_annotations
assert len(ibs1_dup_annots) == 0
assert len(ibs2_dup_annots) == 0
def query_chips(ibs,
qaid_list=None,
daid_list=None,
cfgdict=None,
use_cache=None,
use_bigcache=None,
qreq_=None,
return_request=False,
verbose=pipeline.VERB_PIPELINE,
save_qcache=None,
prog_hook=None,
return_cm_dict=False,
return_cm_simple_dict=False):
r"""
Submits a query request to the hotspotter recognition pipeline. Returns
a list of QueryResult objects.
Args:
qaid_list (list): a list of annotation ids to be submitted as
queries
daid_list (list): a list of annotation ids used as the database
that will be searched
cfgdict (dict): dictionary of configuration options used to create
a new QueryRequest if not already specified
use_cache (bool): turns on/off chip match cache (default: True)
use_bigcache (bool): turns one/off chunked chip match cache (default:
True)
qreq_ (QueryRequest): optional, a QueryRequest object that
overrides all previous settings
return_request (bool): returns the request which will be created if
one is not already specified
verbose (bool): default=False, turns on verbose printing
Returns:
list: a list of ChipMatch objects containing the matching
annotations, scores, and feature matches
Returns(2):
tuple: (cm_list, qreq_) - a list of query results and optionally the
QueryRequest object used
RESTful:
Method: PUT
URL: /api/query/chips/
CommandLine:
python -m ibeis.web.apis_query --test-query_chips
# Test speed of single query
python -m ibeis --tf IBEISController.query_chips --db PZ_Master1 \
-a default:qindex=0:1,dindex=0:500 --nocache-hs
python -m ibeis --tf IBEISController.query_chips --db PZ_Master1 \
-a default:qindex=0:1,dindex=0:3000 --nocache-hs
python -m ibeis.web.apis_query --test-query_chips:1 --show
python -m ibeis.web.apis_query --test-query_chips:2 --show
Example:
>>> # SLOW_DOCTEST
>>> from ibeis.control.IBEISControl import * # NOQA
>>> import ibeis
>>> qreq_ = ibeis.testdata_qreq_()
>>> ibs = qreq_.ibs
>>> cm_list = qreq_.execute()
>>> cm = cm_list[0]
>>> ut.quit_if_noshow()
>>> cm.ishow_analysis(qreq_)
>>> ut.show_if_requested()
Example:
>>> # SLOW_DOCTEST
>>> #from ibeis.all_imports import * # NOQA
>>> import ibeis
>>> from ibeis.control.IBEISControl import * # NOQA
>>> qaid_list = [1]
>>> daid_list = [1, 2, 3, 4, 5]
>>> ibs = ibeis.test_main(db='testdb1')
>>> qreq_ = ibs.new_query_request(qaid_list, daid_list)
>>> cm = ibs.query_chips(qaid_list, daid_list, use_cache=False, qreq_=qreq_)[0]
>>> ut.quit_if_noshow()
>>> cm.ishow_analysis(qreq_)
>>> ut.show_if_requested()
Example1:
>>> # SLOW_DOCTEST
>>> #from ibeis.all_imports import * # NOQA
>>> import ibeis
>>> from ibeis.control.IBEISControl import * # NOQA
>>> qaid_list = [1]
>>> daid_list = [1, 2, 3, 4, 5]
>>> ibs = ibeis.test_main(db='testdb1')
>>> cfgdict = {'pipeline_root':'BC_DTW'}
>>> qreq_ = ibs.new_query_request(qaid_list, daid_list, cfgdict=cfgdict, verbose=True)
>>> cm = ibs.query_chips(qaid_list, daid_list, use_cache=False, qreq_=qreq_)[0]
>>> ut.quit_if_noshow()
>>> cm.ishow_analysis(qreq_)
>>> ut.show_if_requested()
"""
from ibeis.algo.hots import match_chips4 as mc4
# The qaid and daid objects are allowed to be None if qreq_ is
# specified
if qaid_list is None:
qaid_list = qreq_.qaids
if daid_list is None:
if qreq_ is not None:
daid_list = qreq_.daids
else:
daid_list = ibs.get_valid_aids()
qaid_list, was_scalar = ut.wrap_iterable(qaid_list)
# Check fo empty queries
try:
assert len(daid_list) > 0, 'there are no database chips'
assert len(qaid_list) > 0, 'there are no query chips'
except AssertionError as ex:
ut.printex(ex,
'Impossible query request',
iswarning=True,
keys=['qaid_list', 'daid_list'])
if ut.SUPER_STRICT:
raise
cm_list = [None for qaid in qaid_list]
else:
# Check for consistency
if qreq_ is not None:
ut.assert_lists_eq(qreq_.qaids,
qaid_list,
'qaids do not agree with qreq_',
verbose=True)
ut.assert_lists_eq(qreq_.daids,
daid_list,
'daids do not agree with qreq_',
verbose=True)
if qreq_ is None:
qreq_ = ibs.new_query_request(qaid_list,
daid_list,
cfgdict=cfgdict,
verbose=verbose)
if isinstance(qreq_, dtool.BaseRequest):
# Dtool has a new-ish way of doing requests. Eventually requests
# will be depricated and all of this will go away though.
cm_list = qreq_.execute()
else:
# Send query to hotspotter (runs the query)
cm_list = mc4.submit_query_request(ibs,
qaid_list,
daid_list,
use_cache,
use_bigcache,
cfgdict=cfgdict,
qreq_=qreq_,
verbose=verbose,
save_qcache=save_qcache,
prog_hook=prog_hook)
assert isinstance(cm_list,
list), 'Chip matches were not returned as a list'
if return_cm_dict or return_cm_simple_dict:
# Convert to cm_list
if return_cm_simple_dict:
for cm in cm_list:
cm.qauuid = ibs.get_annot_uuids(cm.qaid)
cm.dauuid_list = ibs.get_annot_uuids(cm.daid_list)
keys = ['qauuid', 'dauuid_list']
cm_list = [cm.as_simple_dict(keys) for cm in cm_list]
elif return_cm_dict:
cm_list = [cm.as_dict() for cm in cm_list]
if was_scalar:
# hack for scalar input
assert len(cm_list) == 1
cm_list = cm_list[0]
if return_request:
return cm_list, qreq_
else:
return cm_list
def assert_testdb_annot_consistency(ibs_gt, ibs2, aid_list1, aid_list2):
"""
just tests uuids
if anything goes wrong this should fix it:
from ibeis.other import ibsfuncs
aid_list1 = ibs_gt.get_valid_aids()
ibs_gt.update_annot_visual_uuids(aid_list1)
ibs2.update_annot_visual_uuids(aid_list2)
ibsfuncs.fix_remove_visual_dupliate_annotations(ibs_gt)
"""
assert len(aid_list2) == len(aid_list1)
visualtup1 = ibs_gt.get_annot_visual_uuid_info(aid_list1)
visualtup2 = ibs2.get_annot_visual_uuid_info(aid_list2)
_visual_uuid_list1 = [ut.augment_uuid(*tup) for tup in zip(*visualtup1)]
_visual_uuid_list2 = [ut.augment_uuid(*tup) for tup in zip(*visualtup2)]
assert ut.hashstr(visualtup1) == ut.hashstr(visualtup2)
ut.assert_lists_eq(visualtup1[0], visualtup2[0])
ut.assert_lists_eq(visualtup1[1], visualtup2[1])
ut.assert_lists_eq(visualtup1[2], visualtup2[2])
#semantic_uuid_list1 = ibs_gt.get_annot_semantic_uuids(aid_list1)
#semantic_uuid_list2 = ibs2.get_annot_semantic_uuids(aid_list2)
visual_uuid_list1 = ibs_gt.get_annot_visual_uuids(aid_list1)
visual_uuid_list2 = ibs2.get_annot_visual_uuids(aid_list2)
# make sure visual uuids are still determenistic
ut.assert_lists_eq(visual_uuid_list1, visual_uuid_list2)
ut.assert_lists_eq(_visual_uuid_list1, visual_uuid_list1)
ut.assert_lists_eq(_visual_uuid_list2, visual_uuid_list2)
if ut.VERBOSE:
ibs1_dup_annots = ut.debug_duplicate_items(visual_uuid_list1)
ibs2_dup_annots = ut.debug_duplicate_items(visual_uuid_list2)
else:
ibs1_dup_annots = ut.find_duplicate_items(visual_uuid_list1)
ibs2_dup_annots = ut.find_duplicate_items(visual_uuid_list2)
# if these fail try ibsfuncs.fix_remove_visual_dupliate_annotations
assert len(ibs1_dup_annots) == 0
assert len(ibs2_dup_annots) == 0
def query_chips(ibs, qaid_list=None, daid_list=None, cfgdict=None,
use_cache=None, use_bigcache=None, qreq_=None,
return_request=False, verbose=pipeline.VERB_PIPELINE,
save_qcache=None, prog_hook=None, return_cm_dict=False,
return_cm_simple_dict=False):
r"""
Submits a query request to the hotspotter recognition pipeline. Returns
a list of QueryResult objects.
Args:
qaid_list (list): a list of annotation ids to be submitted as
queries
daid_list (list): a list of annotation ids used as the database
that will be searched
cfgdict (dict): dictionary of configuration options used to create
a new QueryRequest if not already specified
use_cache (bool): turns on/off chip match cache (default: True)
use_bigcache (bool): turns one/off chunked chip match cache (default:
True)
qreq_ (QueryRequest): optional, a QueryRequest object that
overrides all previous settings
return_request (bool): returns the request which will be created if
one is not already specified
verbose (bool): default=False, turns on verbose printing
Returns:
list: a list of ChipMatch objects containing the matching
annotations, scores, and feature matches
Returns(2):
tuple: (cm_list, qreq_) - a list of query results and optionally the
QueryRequest object used
RESTful:
Method: PUT
URL: /api/query/chips/
CommandLine:
python -m ibeis.web.apis_query --test-query_chips
# Test speed of single query
python -m ibeis --tf IBEISController.query_chips --db PZ_Master1 \
-a default:qindex=0:1,dindex=0:500 --nocache-hs
python -m ibeis --tf IBEISController.query_chips --db PZ_Master1 \
-a default:qindex=0:1,dindex=0:3000 --nocache-hs
python -m ibeis.web.apis_query --test-query_chips:1 --show
python -m ibeis.web.apis_query --test-query_chips:2 --show
Example:
>>> # SLOW_DOCTEST
>>> from ibeis.control.IBEISControl import * # NOQA
>>> import ibeis
>>> qreq_ = ibeis.testdata_qreq_()
>>> ibs = qreq_.ibs
>>> cm_list = qreq_.execute()
>>> cm = cm_list[0]
>>> ut.quit_if_noshow()
>>> cm.ishow_analysis(qreq_)
>>> ut.show_if_requested()
Example:
>>> # SLOW_DOCTEST
>>> #from ibeis.all_imports import * # NOQA
>>> import ibeis
>>> from ibeis.control.IBEISControl import * # NOQA
>>> qaid_list = [1]
>>> daid_list = [1, 2, 3, 4, 5]
>>> ibs = ibeis.test_main(db='testdb1')
>>> qreq_ = ibs.new_query_request(qaid_list, daid_list)
>>> cm = ibs.query_chips(qaid_list, daid_list, use_cache=False, qreq_=qreq_)[0]
>>> ut.quit_if_noshow()
>>> cm.ishow_analysis(qreq_)
>>> ut.show_if_requested()
Example1:
>>> # SLOW_DOCTEST
>>> #from ibeis.all_imports import * # NOQA
>>> import ibeis
>>> from ibeis.control.IBEISControl import * # NOQA
>>> qaid_list = [1]
>>> daid_list = [1, 2, 3, 4, 5]
>>> ibs = ibeis.test_main(db='testdb1')
>>> cfgdict = {'pipeline_root':'BC_DTW'}
>>> qreq_ = ibs.new_query_request(qaid_list, daid_list, cfgdict=cfgdict, verbose=True)
>>> cm = ibs.query_chips(qaid_list, daid_list, use_cache=False, qreq_=qreq_)[0]
>>> ut.quit_if_noshow()
>>> cm.ishow_analysis(qreq_)
>>> ut.show_if_requested()
"""
from ibeis.algo.hots import match_chips4 as mc4
# The qaid and daid objects are allowed to be None if qreq_ is
# specified
if qaid_list is None:
qaid_list = qreq_.qaids
if daid_list is None:
if qreq_ is not None:
daid_list = qreq_.daids
else:
daid_list = ibs.get_valid_aids()
qaid_list, was_scalar = ut.wrap_iterable(qaid_list)
# Check fo empty queries
try:
assert len(daid_list) > 0, 'there are no database chips'
assert len(qaid_list) > 0, 'there are no query chips'
except AssertionError as ex:
ut.printex(ex, 'Impossible query request', iswarning=True,
keys=['qaid_list', 'daid_list'])
if ut.SUPER_STRICT:
raise
cm_list = [None for qaid in qaid_list]
else:
# Check for consistency
if qreq_ is not None:
ut.assert_lists_eq(qreq_.qaids, qaid_list,
'qaids do not agree with qreq_', verbose=True)
ut.assert_lists_eq(qreq_.daids, daid_list,
'daids do not agree with qreq_', verbose=True)
if qreq_ is None:
qreq_ = ibs.new_query_request(qaid_list, daid_list,
cfgdict=cfgdict, verbose=verbose)
if isinstance(qreq_, dtool.BaseRequest):
# Dtool has a new-ish way of doing requests. Eventually requests
# will be depricated and all of this will go away though.
cm_list = qreq_.execute()
else:
# Send query to hotspotter (runs the query)
cm_list = mc4.submit_query_request(
ibs, qaid_list, daid_list, use_cache, use_bigcache,
cfgdict=cfgdict, qreq_=qreq_,
verbose=verbose, save_qcache=save_qcache, prog_hook=prog_hook)
assert isinstance(cm_list, list), 'Chip matches were not returned as a list'
if return_cm_dict or return_cm_simple_dict:
# Convert to cm_list
if return_cm_simple_dict:
for cm in cm_list:
cm.qauuid = ibs.get_annot_uuids(cm.qaid)
cm.dauuid_list = ibs.get_annot_uuids(cm.daid_list)
keys = ['qauuid', 'dauuid_list']
cm_list = [cm.as_simple_dict(keys) for cm in cm_list]
elif return_cm_dict:
cm_list = [cm.as_dict() for cm in cm_list]
if was_scalar:
# hack for scalar input
assert len(cm_list) == 1
cm_list = cm_list[0]
if return_request:
return cm_list, qreq_
else:
return cm_list
def TEST_IBS_CONTROL(ibs):
ibs.delete_all_imagesets()
ibs.compute_occurrences()
""" get_image_imgsetids / get_imageset_gids """
imgsetid_list = ibs.get_valid_imgsetids()
assert imgsetid_list, 'imgsetid_list is empty'
gids_list = ibs.get_imageset_gids(imgsetid_list)
# print('[TEST] gids_list = %r' % gids_list)
assert gids_list, 'gids_list is empty'
for gids, imgsetid in zip(gids_list, imgsetid_list):
imgsetid_list2 = ibs.get_image_imgsetids(gids)
try:
assert ([[imgsetid]] * len(imgsetid_list2)) == imgsetid_list2
except AssertionError as ex:
utool.printex(ex, key_list=['imgsetid_list2', 'imgsetid'])
raise
""" set_annot_notes / get_annot_notes """
aid_list = ibs.get_valid_aids()
annotation_notes_list = len(aid_list) * ["test text"]
assert aid_list, 'aid_list is empty'
ibs.set_annot_notes(aid_list, annotation_notes_list)
annotation_notes_list2 = ibs.get_annot_notes(aid_list)
assert annotation_notes_list2, 'get_annot_notes returned an empty list'
#print('[TEST] annotation_notes_list = %r' % annotation_notes_list)
#print('[TEST] annotation_notes_list2 = %r' % annotation_notes_list2)
assert annotation_notes_list == annotation_notes_list2, 'annotation notes lists do not match'
""" set_name_notes / get_name_notes """
nid_list = ibs.get_valid_nids()
assert nid_list, 'nid_list is empty'
nid_notes_list = len(nid_list) * ['nid notes test']
ibs.set_name_notes(nid_list, nid_notes_list)
nid_notes_list2 = ibs.get_name_notes(nid_list)
print('[TEST] nid_notes_list = %r' % nid_notes_list)
print('[TEST] nid_notes_list2 = %r' % nid_notes_list2)
utool.assert_lists_eq(nid_notes_list,
nid_notes_list2,
'nid notes lists do not match',
verbose=True)
assert nid_notes_list == nid_notes_list2, 'nid notes lists do not match'
""" set_image_notes / get_image_notes """
gid_list = ibs.get_valid_gids()
assert gid_list, 'gid_list is empty'
gid_notes_list = len(gid_list) * ['image note test']
ibs.set_image_notes(gid_list, gid_notes_list)
gid_notes_list2 = ibs.get_image_notes(gid_list)
print('[TEST] gid_notes_list = %r' % gid_notes_list)
print('[TEST] gid_notes_list2 = %r' % gid_notes_list2)
assert gid_notes_list == gid_notes_list2, 'images notes lists do not match'
""" set_annot_bboxes / get_annot_bboxes """
aid_list = ibs.get_valid_aids()
assert aid_list, 'aid_list is empty'
bbox_list_orig = ibs.get_annot_bboxes(aid_list)
bbox_list = [(1, 2, 3, 4)] * len(aid_list)
ibs.set_annot_bboxes(aid_list, bbox_list)
bbox_list2 = ibs.get_annot_bboxes(aid_list)
print('[TEST] aid_list = %r' % (aid_list, ))
print('[TEST] bbox_list = %r' % (bbox_list, ))
print('[TEST] bbox_list2 = %r' % (bbox_list2, ))
assert bbox_list == bbox_list2, 'bbox lists do not match'
# put bboxes back to original state
# (otherwise other tests will fail on the second run of run_tests.sh)
ibs.set_annot_bboxes(aid_list, bbox_list_orig)
""" set_annot_verts / get_annot_verts """
aid_list = ibs.get_valid_aids()
assert aid_list, 'aid_list is empty'
bbox_list_orig = ibs.get_annot_bboxes(aid_list)
vert_list_orig = ibs.get_annot_verts(aid_list)
vert_list = [((1, 2), (3, 4), (5, 6), (7, 8))] * len(aid_list)
print('[TEST] vert_list = %r' % vert_list)
assert len(aid_list) == len(
vert_list), 'lengths do not match, malformed input'
ibs.set_annot_verts(aid_list, vert_list)
vert_list2 = ibs.get_annot_verts(aid_list)
assert vert_list == vert_list2, 'vert lists do not match'
""" set_annot_verts / get_annot_bboxes """
bbox_list = ibs.get_annot_bboxes(aid_list)
bbox_list2 = geometry.bboxes_from_vert_list(vert_list2)
assert bbox_list == bbox_list2, 'bbox lists do not match'
vert_list = [((10, 10), (120, 10), (120, 120), (10, 120))] * len(aid_list)
ibs.set_annot_verts(aid_list, vert_list)
bbox_list3 = [(10, 10, 110, 110)] * len(aid_list)
bbox_list4 = ibs.get_annot_bboxes(aid_list)
assert bbox_list3 == bbox_list4, 'bbox lists do not match'
# finish this test here
""" set_annot_bboxes / get_annot_verts """
bbox_list = [(10, 10, 110, 110)] * len(aid_list)
ibs.set_annot_bboxes(aid_list, bbox_list)
# test that setting the bounding boxes overrides the vertices
vert_list = [((10, 10), (120, 10), (120, 120), (10, 120))] * len(aid_list)
vert_list2 = ibs.get_annot_verts(aid_list)
assert vert_list == vert_list2, 'vert lists do not match'
# put verts back to original state
# (otherwise other tests will fail on the second run of run_tests.sh)
ibs.set_annot_verts(aid_list, vert_list_orig)
assert vert_list_orig == ibs.get_annot_verts(
aid_list), 'Verts were not reset to original state'
assert bbox_list_orig == ibs.get_annot_bboxes(
aid_list), 'Bboxes were not reset to original state'
""" set_image_gps / get_image_gps """
gid_list = ibs.get_valid_gids()
assert gids, 'gid_list is empty'
gps_list_orig = ibs.get_image_gps(gid_list)
gps_list = [(x, y)
for (x, y) in zip(range(len(gid_list)), range(len(gid_list)))]
ibs.set_image_gps(gid_list, gps_list)
gps_list2 = ibs.get_image_gps(gid_list)
assert gps_list == gps_list2, 'gps lists do not match'
ibs.set_image_gps(gid_list, gps_list_orig)
assert gps_list_orig == ibs.get_image_gps(
gid_list), 'gps was not reset to original state'
""" set imageset imagesettext / get imageset imagesettext """
imgsetid_list = ibs.get_valid_imgsetids()
enc_text_list_orig = ibs.get_imageset_text(imgsetid_list)
enc_text_list = [str(x) for x in range(len(imgsetid_list))]
assert imgsetid_list, 'imgsetid_list is empty'
print('len imgsetid_list: %d' % len(imgsetid_list))
ibs.set_imageset_text(imgsetid_list, enc_text_list)
enc_text_list2 = ibs.get_imageset_text(imgsetid_list)
print('enc_text_list = %r' % enc_text_list)
print('enc_text_list2 = %r' % enc_text_list2)
assert enc_text_list == enc_text_list2, 'imageset text lists do not match'
ibs.set_imageset_text(imgsetid_list, enc_text_list_orig)
assert enc_text_list_orig == ibs.get_imageset_text(
imgsetid_list), 'enc text was not reset'
""" set annotation names / get_annot_names """
aid_list = ibs.get_valid_aids()
assert aid_list, 'aid_list is empty'
orig_names = ibs.get_annot_names(aid_list)
new_names = ['TESTNAME_' + str(x) for x in range(len(aid_list))]
ibs.set_annot_names(aid_list, new_names)
new_names2 = ibs.get_annot_names(aid_list)
try:
assert new_names == new_names2, 'new_names == new_names2 failed!'
except AssertionError as ex:
utool.printex(ex, key_list=['new_names', 'new_names2'])
raise
ibs.set_annot_names(aid_list, orig_names)
try:
test_names = ibs.get_annot_names(aid_list)
assert orig_names == test_names
except AssertionError as ex:
utool.printex(ex, key_list=['orig_names', 'test_names'])
raise
""" set annotation species / get annotation species """
aid_list = ibs.get_valid_aids()
assert aid_list, 'aid_list is empty'
orig_species = ibs.get_annot_species_texts(aid_list)
print('orig_species = %r' % (orig_species, ))
valid_species = ibs.get_all_species_texts()
new_species = [
valid_species[x % len(valid_species)] for x in range(len(aid_list))
]
print('new_species = %r' % (new_species, ))
ibs.set_annot_species(aid_list, new_species)
try:
new_species2 = ibs.get_annot_species_texts(aid_list)
assert new_species == new_species2, 'new_species == new_species2 failed!'
except AssertionError as ex:
utool.printex(ex, key_list=['new_species', 'new_species2'])
raise
ibs.set_annot_species(aid_list, orig_species)
assert orig_species == ibs.get_annot_species_texts(
aid_list), 'species were not reset'
""" set alr confidence / get alr confidence """
if False:
# NOT USING ALR TABLE CURRENTLY
aid_list = ibs.get_valid_aids()
assert aid_list, 'aid_list is empty'
alrids_list = ibs.get_annot_alrids(aid_list)
assert alrids_list, 'alrids_list is empty'
alrid_list = utool.flatten(alrids_list)
orig_confidences = ibs.get_alr_confidence(alrid_list)
new_confidences = list(range(len(alrid_list)))
#ibs.print_alr_table()
ibs.set_alr_confidence(alrid_list, new_confidences)
#ibs.print_alr_table()
new_confidences2 = ibs.get_alr_confidence(alrid_list)
assert new_confidences == new_confidences2, 'new_confidences == new_confidences2 failed'
ibs.set_alr_confidence(alrid_list, orig_confidences)
assert orig_confidences == ibs.get_alr_confidence(
alrid_list), 'alr confidences were not reset'
""" test metadata """
#ibs.print_tables()
#ibs.print_lblannot_table()
#ibs.print_alr_table()
return locals()
def TEST_IBS_CONTROL(ibs):
ibs.delete_all_imagesets()
ibs.compute_occurrences()
""" get_image_imgsetids / get_imageset_gids """
imgsetid_list = ibs.get_valid_imgsetids()
assert imgsetid_list, "imgsetid_list is empty"
gids_list = ibs.get_imageset_gids(imgsetid_list)
# print('[TEST] gids_list = %r' % gids_list)
assert gids_list, "gids_list is empty"
for gids, imgsetid in zip(gids_list, imgsetid_list):
imgsetid_list2 = ibs.get_image_imgsetids(gids)
try:
assert ([[imgsetid]] * len(imgsetid_list2)) == imgsetid_list2
except AssertionError as ex:
utool.printex(ex, key_list=["imgsetid_list2", "imgsetid"])
raise
""" set_annot_notes / get_annot_notes """
aid_list = ibs.get_valid_aids()
annotation_notes_list = len(aid_list) * ["test text"]
assert aid_list, "aid_list is empty"
ibs.set_annot_notes(aid_list, annotation_notes_list)
annotation_notes_list2 = ibs.get_annot_notes(aid_list)
assert annotation_notes_list2, "get_annot_notes returned an empty list"
# print('[TEST] annotation_notes_list = %r' % annotation_notes_list)
# print('[TEST] annotation_notes_list2 = %r' % annotation_notes_list2)
assert annotation_notes_list == annotation_notes_list2, "annotation notes lists do not match"
""" set_name_notes / get_name_notes """
nid_list = ibs.get_valid_nids()
assert nid_list, "nid_list is empty"
nid_notes_list = len(nid_list) * ["nid notes test"]
ibs.set_name_notes(nid_list, nid_notes_list)
nid_notes_list2 = ibs.get_name_notes(nid_list)
print("[TEST] nid_notes_list = %r" % nid_notes_list)
print("[TEST] nid_notes_list2 = %r" % nid_notes_list2)
utool.assert_lists_eq(nid_notes_list, nid_notes_list2, "nid notes lists do not match", verbose=True)
assert nid_notes_list == nid_notes_list2, "nid notes lists do not match"
""" set_image_notes / get_image_notes """
gid_list = ibs.get_valid_gids()
assert gid_list, "gid_list is empty"
gid_notes_list = len(gid_list) * ["image note test"]
ibs.set_image_notes(gid_list, gid_notes_list)
gid_notes_list2 = ibs.get_image_notes(gid_list)
print("[TEST] gid_notes_list = %r" % gid_notes_list)
print("[TEST] gid_notes_list2 = %r" % gid_notes_list2)
assert gid_notes_list == gid_notes_list2, "images notes lists do not match"
""" set_annot_bboxes / get_annot_bboxes """
aid_list = ibs.get_valid_aids()
assert aid_list, "aid_list is empty"
bbox_list_orig = ibs.get_annot_bboxes(aid_list)
bbox_list = [(1, 2, 3, 4)] * len(aid_list)
ibs.set_annot_bboxes(aid_list, bbox_list)
bbox_list2 = ibs.get_annot_bboxes(aid_list)
print("[TEST] aid_list = %r" % (aid_list,))
print("[TEST] bbox_list = %r" % (bbox_list,))
print("[TEST] bbox_list2 = %r" % (bbox_list2,))
assert bbox_list == bbox_list2, "bbox lists do not match"
# put bboxes back to original state
# (otherwise other tests will fail on the second run of run_tests.sh)
ibs.set_annot_bboxes(aid_list, bbox_list_orig)
""" set_annot_verts / get_annot_verts """
aid_list = ibs.get_valid_aids()
assert aid_list, "aid_list is empty"
bbox_list_orig = ibs.get_annot_bboxes(aid_list)
vert_list_orig = ibs.get_annot_verts(aid_list)
vert_list = [((1, 2), (3, 4), (5, 6), (7, 8))] * len(aid_list)
print("[TEST] vert_list = %r" % vert_list)
assert len(aid_list) == len(vert_list), "lengths do not match, malformed input"
ibs.set_annot_verts(aid_list, vert_list)
vert_list2 = ibs.get_annot_verts(aid_list)
assert vert_list == vert_list2, "vert lists do not match"
""" set_annot_verts / get_annot_bboxes """
bbox_list = ibs.get_annot_bboxes(aid_list)
bbox_list2 = geometry.bboxes_from_vert_list(vert_list2)
assert bbox_list == bbox_list2, "bbox lists do not match"
vert_list = [((10, 10), (120, 10), (120, 120), (10, 120))] * len(aid_list)
ibs.set_annot_verts(aid_list, vert_list)
bbox_list3 = [(10, 10, 110, 110)] * len(aid_list)
bbox_list4 = ibs.get_annot_bboxes(aid_list)
assert bbox_list3 == bbox_list4, "bbox lists do not match"
# finish this test here
""" set_annot_bboxes / get_annot_verts """
bbox_list = [(10, 10, 110, 110)] * len(aid_list)
ibs.set_annot_bboxes(aid_list, bbox_list)
# test that setting the bounding boxes overrides the vertices
vert_list = [((10, 10), (120, 10), (120, 120), (10, 120))] * len(aid_list)
vert_list2 = ibs.get_annot_verts(aid_list)
assert vert_list == vert_list2, "vert lists do not match"
# put verts back to original state
# (otherwise other tests will fail on the second run of run_tests.sh)
ibs.set_annot_verts(aid_list, vert_list_orig)
assert vert_list_orig == ibs.get_annot_verts(aid_list), "Verts were not reset to original state"
assert bbox_list_orig == ibs.get_annot_bboxes(aid_list), "Bboxes were not reset to original state"
""" set_image_gps / get_image_gps """
gid_list = ibs.get_valid_gids()
assert gids, "gid_list is empty"
gps_list_orig = ibs.get_image_gps(gid_list)
gps_list = [(x, y) for (x, y) in zip(range(len(gid_list)), range(len(gid_list)))]
ibs.set_image_gps(gid_list, gps_list)
gps_list2 = ibs.get_image_gps(gid_list)
assert gps_list == gps_list2, "gps lists do not match"
ibs.set_image_gps(gid_list, gps_list_orig)
assert gps_list_orig == ibs.get_image_gps(gid_list), "gps was not reset to original state"
""" set imageset imagesettext / get imageset imagesettext """
imgsetid_list = ibs.get_valid_imgsetids()
enc_text_list_orig = ibs.get_imageset_text(imgsetid_list)
enc_text_list = [str(x) for x in range(len(imgsetid_list))]
assert imgsetid_list, "imgsetid_list is empty"
print("len imgsetid_list: %d" % len(imgsetid_list))
ibs.set_imageset_text(imgsetid_list, enc_text_list)
enc_text_list2 = ibs.get_imageset_text(imgsetid_list)
print("enc_text_list = %r" % enc_text_list)
print("enc_text_list2 = %r" % enc_text_list2)
assert enc_text_list == enc_text_list2, "imageset text lists do not match"
ibs.set_imageset_text(imgsetid_list, enc_text_list_orig)
assert enc_text_list_orig == ibs.get_imageset_text(imgsetid_list), "enc text was not reset"
""" set annotation names / get_annot_names """
aid_list = ibs.get_valid_aids()
assert aid_list, "aid_list is empty"
orig_names = ibs.get_annot_names(aid_list)
new_names = ["TESTNAME_" + str(x) for x in range(len(aid_list))]
ibs.set_annot_names(aid_list, new_names)
new_names2 = ibs.get_annot_names(aid_list)
try:
assert new_names == new_names2, "new_names == new_names2 failed!"
except AssertionError as ex:
utool.printex(ex, key_list=["new_names", "new_names2"])
raise
ibs.set_annot_names(aid_list, orig_names)
try:
test_names = ibs.get_annot_names(aid_list)
assert orig_names == test_names
except AssertionError as ex:
utool.printex(ex, key_list=["orig_names", "test_names"])
raise
""" set annotation species / get annotation species """
aid_list = ibs.get_valid_aids()
assert aid_list, "aid_list is empty"
orig_species = ibs.get_annot_species_texts(aid_list)
print("orig_species = %r" % (orig_species,))
valid_species = ibs.get_all_species_texts()
new_species = [valid_species[x % len(valid_species)] for x in range(len(aid_list))]
print("new_species = %r" % (new_species,))
ibs.set_annot_species(aid_list, new_species)
try:
new_species2 = ibs.get_annot_species_texts(aid_list)
assert new_species == new_species2, "new_species == new_species2 failed!"
except AssertionError as ex:
utool.printex(ex, key_list=["new_species", "new_species2"])
raise
ibs.set_annot_species(aid_list, orig_species)
assert orig_species == ibs.get_annot_species_texts(aid_list), "species were not reset"
""" set alr confidence / get alr confidence """
if False:
# NOT USING ALR TABLE CURRENTLY
aid_list = ibs.get_valid_aids()
assert aid_list, "aid_list is empty"
alrids_list = ibs.get_annot_alrids(aid_list)
assert alrids_list, "alrids_list is empty"
alrid_list = utool.flatten(alrids_list)
orig_confidences = ibs.get_alr_confidence(alrid_list)
new_confidences = list(range(len(alrid_list)))
# ibs.print_alr_table()
ibs.set_alr_confidence(alrid_list, new_confidences)
# ibs.print_alr_table()
new_confidences2 = ibs.get_alr_confidence(alrid_list)
assert new_confidences == new_confidences2, "new_confidences == new_confidences2 failed"
ibs.set_alr_confidence(alrid_list, orig_confidences)
assert orig_confidences == ibs.get_alr_confidence(alrid_list), "alr confidences were not reset"
""" test metadata """
# ibs.print_tables()
# ibs.print_lblannot_table()
# ibs.print_alr_table()
return locals()
def TEST_IBS_CONTROL(ibs):
ibs.delete_all_encounters()
ibs.compute_encounters()
""" get_image_eids / get_encounter_gids """
eid_list = ibs.get_valid_eids()
assert eid_list, 'eid_list is empty'
gids_list = ibs.get_encounter_gids(eid_list)
# print('[TEST] gids_list = %r' % gids_list)
assert gids_list, 'gids_list is empty'
for gids, eid in zip(gids_list, eid_list):
eid_list2 = ibs.get_image_eids(gids)
try:
assert ([[eid]] * len(eid_list2)) == eid_list2
except AssertionError as ex:
utool.printex(ex, key_list=['eid_list2', 'eid'])
raise
""" set_annot_notes / get_annot_notes """
aid_list = ibs.get_valid_aids()
annotation_notes_list = len(aid_list) * ["test text"]
assert aid_list, 'aid_list is empty'
ibs.set_annot_notes(aid_list, annotation_notes_list)
annotation_notes_list2 = ibs.get_annot_notes(aid_list)
assert annotation_notes_list2, 'get_annot_notes returned an empty list'
#print('[TEST] annotation_notes_list = %r' % annotation_notes_list)
#print('[TEST] annotation_notes_list2 = %r' % annotation_notes_list2)
assert annotation_notes_list == annotation_notes_list2, 'annotation notes lists do not match'
""" set_name_notes / get_name_notes """
nid_list = ibs.get_valid_nids()
assert nid_list, 'nid_list is empty'
nid_notes_list = len(nid_list) * ['nid notes test']
ibs.set_name_notes(nid_list, nid_notes_list)
nid_notes_list2 = ibs.get_name_notes(nid_list)
print('[TEST] nid_notes_list = %r' % nid_notes_list)
print('[TEST] nid_notes_list2 = %r' % nid_notes_list2)
utool.assert_lists_eq(nid_notes_list, nid_notes_list2, 'nid notes lists do not match', verbose=True)
assert nid_notes_list == nid_notes_list2, 'nid notes lists do not match'
""" set_image_notes / get_image_notes """
gid_list = ibs.get_valid_gids()
assert gid_list, 'gid_list is empty'
gid_notes_list = len(gid_list) * ['image note test']
ibs.set_image_notes(gid_list, gid_notes_list)
gid_notes_list2 = ibs.get_image_notes(gid_list)
print('[TEST] gid_notes_list = %r' % gid_notes_list)
print('[TEST] gid_notes_list2 = %r' % gid_notes_list2)
assert gid_notes_list == gid_notes_list2, 'images notes lists do not match'
""" set_annot_bboxes / get_annot_bboxes """
aid_list = ibs.get_valid_aids()
assert aid_list, 'aid_list is empty'
bbox_list_orig = ibs.get_annot_bboxes(aid_list)
bbox_list = [(1, 2, 3, 4)] * len(aid_list)
ibs.set_annot_bboxes(aid_list, bbox_list)
bbox_list2 = ibs.get_annot_bboxes(aid_list)
print('[TEST] aid_list = %r' % (aid_list,))
print('[TEST] bbox_list = %r' % (bbox_list,))
print('[TEST] bbox_list2 = %r' % (bbox_list2,))
assert bbox_list == bbox_list2, 'bbox lists do not match'
# put bboxes back to original state
# (otherwise other tests will fail on the second run of run_tests.sh)
ibs.set_annot_bboxes(aid_list, bbox_list_orig)
""" set_annot_verts / get_annot_verts """
aid_list = ibs.get_valid_aids()
assert aid_list, 'aid_list is empty'
bbox_list_orig = ibs.get_annot_bboxes(aid_list)
vert_list_orig = ibs.get_annot_verts(aid_list)
vert_list = [((1, 2), (3, 4), (5, 6), (7, 8))] * len(aid_list)
print('[TEST] vert_list = %r' % vert_list)
assert len(aid_list) == len(vert_list), 'lengths do not match, malformed input'
ibs.set_annot_verts(aid_list, vert_list)
vert_list2 = ibs.get_annot_verts(aid_list)
assert vert_list == vert_list2, 'vert lists do not match'
""" set_annot_verts / get_annot_bboxes """
bbox_list = ibs.get_annot_bboxes(aid_list)
bbox_list2 = geometry.bboxes_from_vert_list(vert_list2)
assert bbox_list == bbox_list2, 'bbox lists do not match'
vert_list = [((10, 10), (120, 10), (120, 120), (10, 120))] * len(aid_list)
ibs.set_annot_verts(aid_list, vert_list)
bbox_list3 = [(10, 10, 110, 110)] * len(aid_list)
bbox_list4 = ibs.get_annot_bboxes(aid_list)
assert bbox_list3 == bbox_list4, 'bbox lists do not match'
# finish this test here
""" set_annot_bboxes / get_annot_verts """
bbox_list = [(10, 10, 110, 110)] * len(aid_list)
ibs.set_annot_bboxes(aid_list, bbox_list)
# test that setting the bounding boxes overrides the vertices
vert_list = [((10, 10), (120, 10), (120, 120), (10, 120))] * len(aid_list)
vert_list2 = ibs.get_annot_verts(aid_list)
assert vert_list == vert_list2, 'vert lists do not match'
# put verts back to original state
# (otherwise other tests will fail on the second run of run_tests.sh)
ibs.set_annot_verts(aid_list, vert_list_orig)
assert vert_list_orig == ibs.get_annot_verts(aid_list), 'Verts were not reset to original state'
assert bbox_list_orig == ibs.get_annot_bboxes(aid_list), 'Bboxes were not reset to original state'
""" set_image_gps / get_image_gps """
gid_list = ibs.get_valid_gids()
assert gids, 'gid_list is empty'
gps_list_orig = ibs.get_image_gps(gid_list)
gps_list = [(x, y) for (x, y) in zip(range(len(gid_list)), range(len(gid_list)))]
ibs.set_image_gps(gid_list, gps_list)
gps_list2 = ibs.get_image_gps(gid_list)
assert gps_list == gps_list2, 'gps lists do not match'
ibs.set_image_gps(gid_list, gps_list_orig)
assert gps_list_orig == ibs.get_image_gps(gid_list), 'gps was not reset to original state'
""" set encounter enctext / get encounter enctext """
eid_list = ibs.get_valid_eids()
enc_text_list_orig = ibs.get_encounter_text(eid_list)
enc_text_list = [str(x) for x in range(len(eid_list))]
assert eid_list, 'eid_list is empty'
print('len eid_list: %d' % len(eid_list))
ibs.set_encounter_text(eid_list, enc_text_list)
enc_text_list2 = ibs.get_encounter_text(eid_list)
print('enc_text_list = %r' % enc_text_list)
print('enc_text_list2 = %r' % enc_text_list2)
assert enc_text_list == enc_text_list2, 'encounter text lists do not match'
ibs.set_encounter_text(eid_list, enc_text_list_orig)
assert enc_text_list_orig == ibs.get_encounter_text(eid_list), 'enc text was not reset'
""" set annotation names / get_annot_names """
aid_list = ibs.get_valid_aids()
assert aid_list, 'aid_list is empty'
orig_names = ibs.get_annot_names(aid_list)
new_names = ['TESTNAME_' + str(x) for x in range(len(aid_list))]
ibs.set_annot_names(aid_list, new_names)
new_names2 = ibs.get_annot_names(aid_list)
try:
assert new_names == new_names2, 'new_names == new_names2 failed!'
except AssertionError as ex:
utool.printex(ex, key_list=['new_names', 'new_names2'])
raise
ibs.set_annot_names(aid_list, orig_names)
try:
test_names = ibs.get_annot_names(aid_list)
assert orig_names == test_names
except AssertionError as ex:
utool.printex(ex, key_list=['orig_names', 'test_names'])
raise
""" set annotation species / get annotation species """
aid_list = ibs.get_valid_aids()
assert aid_list, 'aid_list is empty'
orig_species = ibs.get_annot_species_texts(aid_list)
print('orig_species = %r' % (orig_species,))
valid_species = ibs.get_all_species_texts()
new_species = [valid_species[x % len(valid_species)] for x in range(len(aid_list))]
print('new_species = %r' % (new_species,))
ibs.set_annot_species(aid_list, new_species)
try:
new_species2 = ibs.get_annot_species_texts(aid_list)
assert new_species == new_species2, 'new_species == new_species2 failed!'
except AssertionError as ex:
utool.printex(ex, key_list=['new_species', 'new_species2'])
raise
ibs.set_annot_species(aid_list, orig_species)
assert orig_species == ibs.get_annot_species_texts(aid_list), 'species were not reset'
""" set alr confidence / get alr confidence """
if False:
# NOT USING ALR TABLE CURRENTLY
aid_list = ibs.get_valid_aids()
assert aid_list, 'aid_list is empty'
alrids_list = ibs.get_annot_alrids(aid_list)
assert alrids_list, 'alrids_list is empty'
alrid_list = utool.flatten(alrids_list)
orig_confidences = ibs.get_alr_confidence(alrid_list)
new_confidences = list(range(len(alrid_list)))
#ibs.print_alr_table()
ibs.set_alr_confidence(alrid_list, new_confidences)
#ibs.print_alr_table()
new_confidences2 = ibs.get_alr_confidence(alrid_list)
assert new_confidences == new_confidences2, 'new_confidences == new_confidences2 failed'
ibs.set_alr_confidence(alrid_list, orig_confidences)
assert orig_confidences == ibs.get_alr_confidence(alrid_list), 'alr confidences were not reset'
""" test metadata """
#ibs.print_tables()
#ibs.print_lblannot_table()
#ibs.print_alr_table()
return locals()
