def test_minimal_piv(self):
params = WorkPIV.create_default_params()
# for a very short computation
params.piv0.shape_crop_im0 = 32
params.piv0.grid.overlap = -3
# still buggy
# params.piv0.nb_peaks_to_search = 2
params.multipass.number = 2
params.fix.displacement_max = 2
params.fix.threshold_diff_neighbour = 2
piv = WorkPIV(params=params)
with stdout_redirected():
result = piv.calcul(self.serie)
result.piv0.save(self.path_tmp)
result.save(self.path_tmp)
path_file = next(self.path_tmp.iterdir())
MultipassPIVResults(path_file)
result.save(self.path_tmp, "uvmat")
light = result.make_light_result()
light.save(self.path_tmp)
path_file = next(self.path_tmp.glob("*light*"))
LightPIVResults(str_path=str(path_file))
def test_piv_list(self):
params = WorkPIV.create_default_params()
# for a very short computation
params.piv0.shape_crop_im0 = [33, 44]
params.piv0.grid.overlap = -3
# params.piv0.nb_peaks_to_search = 2
params.multipass.use_tps = False
piv = WorkPIV(params=params)
with stdout_redirected():
result = piv.calcul(self.serie)
piv0 = result.piv0
im0, im1 = piv0.get_images()
with stdout_redirected():
DisplayPIV(im0, im1, piv0)
d = DisplayPIV(im0, im1, piv0, show_interp=True, hist=True)
d.switch()
d.select_arrow([0], artist=d.q)
d.select_arrow([0], artist=None)
event = MyObj()
event.key = "alt+h"
event.inaxes = None
d.onclick(event)
event.inaxes = d.ax1
event.key = "alt+s"
d.onclick(event)
event.key = "alt+left"
d.onclick(event)
event.key = "alt+right"
d.onclick(event)
event.artist = None
d.onpick(event)
event.artist = d.q
event.ind = [0]
d.onpick(event)
def calcul(self, tuple_image_path):
"""Compute a BOS field"""
image, name = tuple_image_path
array_couple = ArrayCoupleBOS(
names=(self.name_reference, name),
arrays=(self.image_reference, image),
params_mask=self.params.mask,
serie=self.serie,
paths=[self.path_reference, self.path_dir_src / name],
)
return WorkPIV(self.params).calcul(array_couple)
from fluidimage import SeriesOfArrays from fluidimage.works.piv import WorkPIV params = WorkPIV.create_default_params() params.multipass.number = 2 params.multipass.use_tps = True params.piv0.shape_crop_im0 = 32 params.piv0.displacement_max = 5 params.fix.correl_min = 0.2 params.fix.threshold_diff_neighbour = 8 params.mask.strcrop = '30:250, 100:' work = WorkPIV(params=params) path = '../../image_samples/Oseen/Images' # path = '../../image_samples/Karman/Images' series = SeriesOfArrays(path, 'i+1:i+3') serie = series.get_serie_from_index(0) piv = work.calcul(serie) # piv.display(show_interp=True, scale=0.3, show_error=True) piv.display(show_interp=False, scale=1, show_error=True) # result.save()
import pstats
import cProfile
from fluidimage import SeriesOfArrays
from fluidimage.works.piv import WorkPIV
params = WorkPIV.create_default_params()
# for a very short computation
params.piv0.shape_crop_im0 = 32
params.piv0.grid.overlap = 0.5
# params.piv0.method_subpix = 'centroid'
# params.piv0.method_correl = 'theano'
params.multipass.number = 2
params.multipass.use_tps = 'last'
params.multipass.coeff_zoom = [2]
piv = WorkPIV(params=params)
series = SeriesOfArrays('../../image_samples/Oseen/Images', 'i+1:i+3')
serie = series.get_serie_from_index(0)
cProfile.runctx('result = piv.calcul(serie)', globals(), locals(),
'profile.pstats')
s = pstats.Stats('profile.pstats')
s.strip_dirs().sort_stats('time').print_stats(10)
print('with gprof2dot and graphviz (command dot):\n'
def create_default_params(cls):
"""Class method returning the default parameters.
Typical usage::
params = TopologyPIV.create_default_params()
# modify parameters here
...
topo = TopologyPIV(params)
"""
params = ParamContainer(tag="params")
params._set_child(
"series",
attribs={
"path": "",
"strcouple": "i:i+2",
"ind_start": 0,
"ind_stop": None,
"ind_step": 1,
},
)
params.series._set_doc("""
Parameters indicating the input series of images.
path : str, {''}
String indicating the input images (can be a full path towards an image
file or a string given to `glob`).
strcouple : 'i:i+2'
String indicating as a Python slicing how couples of images are formed.
There is one couple per value of `i`. The values of `i` are set with the
other parameters `ind_start`, `ind_step` and `ind_stop` approximately with
the function range (`range(ind_start, ind_stop, ind_step)`).
Python slicing is a very powerful notation to define subset from a
(possibly multidimensional) set of images. For a user, an alternative is to
understand how Python slicing works. See for example this page:
http://stackoverflow.com/questions/509211/explain-pythons-slice-notation.
Another possibility is to follow simple examples:
For single-frame images (im0, im1, im2, im3, ...), we keep the default
value 'i:i+2' to form the couples (im0, im1), (im1, im2), ...
To see what it gives, one can use IPython and range:
>>> i = 0
>>> list(range(10))[i:i+2]
[0, 1]
>>> list(range(10))[i:i+4:2]
[0, 2]
We see that we can also use the value 'i:i+4:2' to form the couples (im0,
im2), (im1, im3), ...
For double-frame images (im1a, im1b, im2a, im2b, ...) you can write
>>> params.series.strcouple = 'i, 0:2'
In this case, the first couple will be (im1a, im1b).
To get the first couple (im1a, im1a), we would have to write
>>> params.series.strcouple = 'i:i+2, 0'
ind_start : int, {0}
ind_step : int, {1}
int_stop : None
""")
params._set_child("saving",
attribs={
"path": None,
"how": "ask",
"postfix": "piv"
})
params.saving._set_doc("""Saving of the results.
path : None or str
Path of the directory where the data will be saved. If None, the path is
obtained from the input path and the parameter `postfix`.
how : str {'ask'}
'ask', 'new_dir', 'complete' or 'recompute'.
postfix : str
Postfix from which the output file is computed.
""")
WorkPIV._complete_params_with_default(params)
params._set_internal_attr(
"_value_text",
json.dumps({
"program": "fluidimage",
"module": "fluidimage.topologies.piv",
"class": "TopologyPIV",
}),
)
params._set_child("preproc")
image2image.complete_im2im_params_with_default(params.preproc)
return params
def __init__(self, params, logging_level="info", nb_max_workers=None):
self.params = params
self.series = SeriesOfArrays(
params.series.path,
params.series.strcouple,
ind_start=params.series.ind_start,
ind_stop=params.series.ind_stop,
ind_step=params.series.ind_step,
)
path_dir = self.series.serie.path_dir
path_dir_result, self.how_saving = prepare_path_dir_result(
path_dir, params.saving.path, params.saving.postfix,
params.saving.how)
super().__init__(
path_dir_result=path_dir_result,
logging_level=logging_level,
nb_max_workers=nb_max_workers,
)
queue_couples_of_names = self.add_queue("couples of names")
queue_paths = self.add_queue("paths")
queue_arrays = queue_arrays1 = self.add_queue("arrays")
queue_couples_of_arrays = self.add_queue("couples of arrays")
queue_piv = self.add_queue("piv")
if params.preproc.im2im is not None:
queue_arrays1 = self.add_queue("arrays1")
self.add_work(
"fill (couples of names, paths)",
func_or_cls=self.fill_couples_of_names_and_paths,
output_queue=(queue_couples_of_names, queue_paths),
kind=("global", "one shot"),
)
self.add_work(
"read array",
func_or_cls=imread,
input_queue=queue_paths,
output_queue=queue_arrays,
kind="io",
)
if params.preproc.im2im is not None:
im2im_func = image2image.TopologyImage2Image.init_im2im(
self, params.preproc)
self.add_work(
"image2image",
func_or_cls=im2im_func,
input_queue=queue_arrays,
output_queue=queue_arrays1,
)
self.add_work(
"make couples of arrays",
func_or_cls=self.make_couples,
params_cls=None,
input_queue=(queue_couples_of_names, queue_arrays),
output_queue=queue_couples_of_arrays,
kind="global",
)
self.work_piv = WorkPIV(self.params)
self.add_work(
"compute piv",
func_or_cls=self.work_piv.calcul,
params_cls=params,
input_queue=queue_couples_of_arrays,
output_queue=queue_piv,
)
self.add_work(
"save piv",
func_or_cls=self.save_piv_object,
input_queue=queue_piv,
kind="io",
)
self.results = []
from fluidimage.works.piv import WorkPIV
import params_piv
try:
reload
except NameError:
from importlib import reload
reload(params_piv)
iexp = 0
params = params_piv.make_params_piv(iexp)
work = WorkPIV(params=params)
pathin = params.series.path
series = SeriesOfArrays(pathin,
params.series.strcouple,
ind_start=params.series.ind_start)
# c060a.png and c060b.png
serie = series.get_serie_from_index(params.series.ind_start)
piv = work.calcul(serie)
# piv.piv0.display(show_interp=True, scale=0.05, show_error=True)
piv.display(show_interp=False, scale=0.05, show_error=True)
class TopologyPIV(TopologyBase):
"""Topology for PIV.
Parameters
----------
params : None
A ParamContainer containing the parameters for the computation.
logging_level : str, {'warning', 'info', 'debug', ...}
Logging level.
nb_max_workers : None, int
Maximum numbers of "workers". If None, a number is computed from the
number of cores detected. If there are memory errors, you can try to
decrease the number of workers.
"""
@classmethod
def create_default_params(cls):
"""Class method returning the default parameters.
For developers: cf. fluidsim.base.params
"""
params = ParamContainer(tag="params")
params._set_child(
"series",
attribs={
"path": "",
"strcouple": "i:i+2",
"ind_start": 0,
"ind_stop": None,
"ind_step": 1,
},
)
params.series._set_doc("""
Parameters indicating the input series of images.
path : str, {''}
String indicating the input images (can be a full path towards an image
file or a string given to `glob`).
strcouple : 'i:i+2'
String indicating as a Python slicing how couples of images are formed.
There is one couple per value of `i`. The values of `i` are set with the
other parameters `ind_start`, `ind_step` and `ind_stop` approximately with
the function range (`range(ind_start, ind_stop, ind_step)`).
Python slicing is a very powerful notation to define subset from a
(possibly multidimensional) set of images. For a user, an alternative is to
understand how Python slicing works. See for example this page:
http://stackoverflow.com/questions/509211/explain-pythons-slice-notation.
Another possibility is to follow simple examples:
For single-frame images (im0, im1, im2, im3, ...), we keep the default
value 'i:i+2' to form the couples (im0, im1), (im1, im2), ...
To see what it gives, one can use ipython and range:
>>> i = 0
>>> list(range(10))[i:i+2]
[0, 1]
>>> list(range(10))[i:i+4:2]
[0, 2]
We see that we can also use the value 'i:i+4:2' to form the couples (im0,
im2), (im1, im3), ...
For double-frame images (im1a, im1b, im2a, im2b, ...) you can write
>>> params.series.strcouple = 'i, 0:2'
In this case, the first couple will be (im1a, im1b).
To get the first couple (im1a, im1a), we would have to write
>>> params.series.strcouple = 'i:i+2, 0'
ind_start : int, {0}
ind_step : int, {1}
int_stop : None
""")
params._set_child("saving",
attribs={
"path": None,
"how": "ask",
"postfix": "piv"
})
params.saving._set_doc("""Saving of the results.
path : None or str
Path of the directory where the data will be saved. If None, the path is
obtained from the input path and the parameter `postfix`.
how : str {'ask'}
'ask', 'new_dir', 'complete' or 'recompute'.
postfix : str
Postfix from which the output file is computed.
""")
WorkPIV._complete_params_with_default(params)
params._set_internal_attr(
"_value_text",
json.dumps({
"program": "fluidimage",
"module": "fluidimage.topologies.piv",
"class": "TopologyPIV",
}),
)
params._set_child("preproc")
image2image.complete_im2im_params_with_default(params.preproc)
return params
def __init__(self, params=None, logging_level="info", nb_max_workers=None):
if params is None:
params = self.__class__.create_default_params()
self.params = params
self.piv_work = WorkPIV(params)
serie_arrays = SerieOfArraysFromFiles(params.series.path)
self.series = SeriesOfArrays(
serie_arrays,
params.series.strcouple,
ind_start=params.series.ind_start,
ind_stop=params.series.ind_stop,
ind_step=params.series.ind_step,
)
path_dir = self.series.serie.path_dir
path_dir_result, self.how_saving = prepare_path_dir_result(
path_dir, params.saving.path, params.saving.postfix,
params.saving.how)
self.path_dir_result = path_dir_result
self.results = {}
def save_piv_object(o):
ret = o.save(path_dir_result)
return ret
self.wq_piv = WaitingQueueThreading("delta",
save_piv_object,
self.results,
topology=self)
self.wq_couples = WaitingQueueMultiprocessing("couple",
self.piv_work.calcul,
self.wq_piv,
topology=self)
self.wq_images = WaitingQueueMakeCouple("array image",
self.wq_couples,
topology=self)
if params.preproc.im2im is not None:
self.im2im_func = image2image.TopologyImage2Image.init_im2im(
self, params.preproc)
self.wq_images0 = WaitingQueueMultiprocessing("image ",
self.im2im_func,
self.wq_images,
topology=self)
wq_after_load = self.wq_images0
else:
wq_after_load = self.wq_images
self.wq0 = WaitingQueueLoadImage(destination=wq_after_load,
path_dir=path_dir,
topology=self)
if params.preproc.im2im is not None:
waiting_queues = [
self.wq0,
self.wq_images0,
self.wq_images,
self.wq_couples,
self.wq_piv,
]
else:
waiting_queues = [
self.wq0,
self.wq_images,
self.wq_couples,
self.wq_piv,
]
super().__init__(
waiting_queues,
path_output=path_dir_result,
logging_level=logging_level,
nb_max_workers=nb_max_workers,
)
self.add_series(self.series)
def add_series(self, series):
if len(series) == 0:
logger.warning("add 0 couple. No PIV to compute.")
return
if self.how_saving == "complete":
names = []
index_series = []
for i, serie in enumerate(series):
name_piv = get_name_piv(serie, prefix="piv")
if os.path.exists(os.path.join(self.path_dir_result,
name_piv)):
continue
for name in serie.get_name_arrays():
if name not in names:
names.append(name)
index_series.append(i * series.ind_step + series.ind_start)
if len(index_series) == 0:
logger.warning(
'topology in mode "complete" and work already done.')
return
series.set_index_series(index_series)
logger.debug(repr(names))
logger.debug(repr([serie.get_name_arrays() for serie in series]))
else:
names = series.get_name_all_arrays()
nb_series = len(series)
print("Add {} PIV fields to compute.".format(nb_series))
for i, serie in enumerate(series):
if i > 1:
break
print("Files of serie {}: {}".format(i, serie.get_name_arrays()))
self.wq0.add_name_files(names)
self.wq_images.add_series(series)
k, o = self.wq0.popitem()
im = self.wq0.work(o)
self.wq0.fill_destination(k, im)
# a little bit strange, to apply mask...
try:
params_mask = self.params.mask
except AttributeError:
params_mask = None
couple = ArrayCouple(names=("", ""),
arrays=(im, im),
params_mask=params_mask)
im, _ = couple.get_arrays()
self.piv_work._prepare_with_image(im)
def print_at_exit(self, time_since_start):
txt = "Stop compute after t = {:.2f} s".format(time_since_start)
try:
nb_results = len(self.results)
except AttributeError:
nb_results = None
if nb_results is not None and nb_results > 0:
txt += " ({} piv fields, {:.2f} s/field).".format(
nb_results, time_since_start / nb_results)
else:
txt += "."
txt += "\npath results:\n" + str(self.path_dir_result)
print(txt)
def __init__(self, params=None, logging_level="info", nb_max_workers=None):
if params is None:
params = self.__class__.create_default_params()
self.params = params
self.piv_work = WorkPIV(params)
serie_arrays = SerieOfArraysFromFiles(params.series.path)
self.series = SeriesOfArrays(
serie_arrays,
params.series.strcouple,
ind_start=params.series.ind_start,
ind_stop=params.series.ind_stop,
ind_step=params.series.ind_step,
)
path_dir = self.series.serie.path_dir
path_dir_result, self.how_saving = prepare_path_dir_result(
path_dir, params.saving.path, params.saving.postfix,
params.saving.how)
self.path_dir_result = path_dir_result
self.results = {}
def save_piv_object(o):
ret = o.save(path_dir_result)
return ret
self.wq_piv = WaitingQueueThreading("delta",
save_piv_object,
self.results,
topology=self)
self.wq_couples = WaitingQueueMultiprocessing("couple",
self.piv_work.calcul,
self.wq_piv,
topology=self)
self.wq_images = WaitingQueueMakeCouple("array image",
self.wq_couples,
topology=self)
if params.preproc.im2im is not None:
self.im2im_func = image2image.TopologyImage2Image.init_im2im(
self, params.preproc)
self.wq_images0 = WaitingQueueMultiprocessing("image ",
self.im2im_func,
self.wq_images,
topology=self)
wq_after_load = self.wq_images0
else:
wq_after_load = self.wq_images
self.wq0 = WaitingQueueLoadImage(destination=wq_after_load,
path_dir=path_dir,
topology=self)
if params.preproc.im2im is not None:
waiting_queues = [
self.wq0,
self.wq_images0,
self.wq_images,
self.wq_couples,
self.wq_piv,
]
else:
waiting_queues = [
self.wq0,
self.wq_images,
self.wq_couples,
self.wq_piv,
]
super().__init__(
waiting_queues,
path_output=path_dir_result,
logging_level=logging_level,
nb_max_workers=nb_max_workers,
)
self.add_series(self.series)
# import h5py
from fluidimage import SeriesOfArrays
from fluidimage.works.piv import WorkPIV
from fluidimage.data_objects.piv import LightPIVResults
params = WorkPIV.create_default_params()
# # for a very short computation
# params.piv0.shape_crop_im0 = 128
# params.piv0.grid.overlap = 0.
# params.piv0.method_subpix = 'centroid'
# params.piv0.method_correl = 'pythran'
params.multipass.number = 1
params.multipass.use_tps = False
# params.multipass.coeff_zoom = [2, 2]
# bug params.piv0.shape_crop_im0 = 128 # !!
params.piv0.shape_crop_im0 = 64 # (80, 90)
# params.piv0.shape_crop_im1 = (38, 36)
params.fix.correl_min = 0.2
params.fix.threshold_diff_neighbour = 4
# params.piv0.grid.overlap = 10
piv = WorkPIV(params=params)
series = SeriesOfArrays("../../../image_samples/Oseen/Images", "i+1:i+3")
serie = series.get_serie_from_index(0)
def create_default_params(cls):
"""Class method returning the default parameters.
Typical usage::
params = TopologyPIV.create_default_params()
# modify parameters here
...
topo = TopologyPIV(params)
"""
params = ParamContainer(tag="params")
params._set_child("images", attribs={"path": "", "str_slice": None})
params.images._set_doc(
"""
Parameters indicating the input image set.
path : str, {''}
String indicating the input images (can be a full path towards an image
file or a string given to `glob`).
str_slice : None
String indicating as a Python slicing how to select images from the serie of
images on the disk. If None, no selection so all images are going to be
processed.
"""
)
params._set_attrib("reference", 0)
params._set_doc(
"""
reference : str or int, {0}
Reference file (from which the displacements will be computed). Can be an
absolute file path, a file name or the index in the list of files found
from the parameters in ``params.images``.
"""
)
params._set_child(
"saving", attribs={"path": None, "how": "ask", "postfix": "bos"}
)
params.saving._set_doc(
"""Saving of the results.
path : None or str
Path of the directory where the data will be saved. If None, the path is
obtained from the input path and the parameter `postfix`.
how : str {'ask'}
'ask', 'new_dir', 'complete' or 'recompute'.
postfix : str
Postfix from which the output file is computed.
"""
)
WorkPIV._complete_params_with_default(params)
params._set_internal_attr(
"_value_text",
json.dumps(
{
"program": "fluidimage",
"module": "fluidimage.topologies.bos",
"class": "TopologyBOS",
}
),
)
params._set_child("preproc")
image2image.complete_im2im_params_with_default(params.preproc)
return params
