def get_ilastik(version="1.3.3post2"):
url = "https://files.ilastik.org/"
file = f"ilastik-{version}-Linux.tar.bz2"
os.makedirs(cfg.args.external_lib_dir, exist_ok=True)
log.info("Downloading ilastik archive.")
download_file(url + file, pjoin(cfg.args.external_lib_dir, file))
# download_file(url + file + ".sha256", pjoin(cfg.args.external_lib_dir, file) + ".sha256")
# f"sha256sum -c {url + file + '.sha256'}"
log.info("Extracting ilastik archive.")
tar = tarfile.open(pjoin(cfg.args.external_lib_dir, file), "r:bz2")
tar.extractall(cfg.args.external_lib_dir)
tar.close()
def train() -> int:
"""
Train an ilastik pixel classification model.
Inputs are the files in ilastik/*.h5
"""
if cfg.args.step == "all" and cfg.args.ilastik_model is not None:
log.info("Pre-trained model provided. Skipping training step.")
return 0
else:
log.info("No model provided. Launching interactive ilastik session.")
cmd = f"""{cfg.args.ilastik_sh_path}"""
return run_shell_command(cmd)
def download_test_model(output_dir, overwrite=False) -> None:
os.makedirs(os.path.abspath(output_dir), exist_ok=True)
urls = [
("demo_ilastik_model.zip", "demo.ilp", DEMO_ILASTIK_MODEL),
]
for zipfln, fln, url in urls:
zipfln = pjoin(output_dir, zipfln)
fln = pjoin(output_dir, fln)
if os.path.exists(fln) and not overwrite:
log.debug("File exists, skipping: '%s'", url)
continue
log.info("Downloading test model: '%s'", url)
request.urlretrieve(url, zipfln)
log.info("Unzipping test model: '%s'", url)
run_shell_command(f"unzip -d {output_dir} {zipfln}")
def download_test_data(output_dir, overwrite=False) -> None:
os.makedirs(os.path.abspath(output_dir), exist_ok=True)
urls = [
("imcpipeline-example_pannel.csv", DEMO_CSV),
("imcpipeline-demo_data.zip", DEMO_DATA),
]
for fln, url in urls:
fln = pjoin(output_dir, fln)
if os.path.exists(fln) and not overwrite:
log.debug("File exists, skipping: '%s'", url)
continue
log.info("Downloading test file: '%s'", url)
if not os.path.exists(fln):
request.urlretrieve(url, fln)
def export_acquisition() -> None:
re_fn = re.compile(cfg.args.file_regexp)
for fol in cfg.args.dirs["input"]:
for fln in os.listdir(fol):
if re_fn.match(fln):
fn_full = pjoin(fol, fln)
log.info("Extracting MCD file '%s'.", fn_full)
if cfg.args.dry_run:
continue
convertfolder2imcfolder.convert_folder2imcfolder(
fn_full, out_folder=cfg.args.dirs["ome"], dozip=False)
if cfg.args.dry_run:
return
exportacquisitioncsv.export_acquisition_csv(
cfg.args.dirs["ome"], fol_out=cfg.args.dirs["cp"])
def segment() -> int:
"""
Segment a TIFF with class probabilities into nuclei and cells using cellprofiler.
"""
# Check if step should be skipped:
# for each "_s2_Probabilities.tiff" file there is a "_s2_Probabilities_mask.tiff".
exists = [
os.path.exists(
f.replace("_s2_Probabilities.tiff", "_s2_Probabilities_mask.tiff"))
for f in glob(f"{cfg.args.dirs['analysis']}/*_s2_Probabilities.tiff")
]
if all(exists) and not cfg.args.overwrite:
log.info(
"Segmentations already exist for all images. Skipping segment step."
)
return 0
extra = ("--name cellprofiler_segment --rm"
if cfg.args.containerized == "docker" else "")
if cfg.args.containerized:
cmd = f"""{cfg.args.containerized} run \\
{extra} \\
{cfg.args.dirbind} {cfg.args.dirs['base']}:/data:rw \\
{cfg.args.dirbind} {cfg.args.cellprofiler_plugin_path}:/ImcPluginsCP:ro \\
{cfg.args.dirbind} {cfg.args.cellprofiler_pipeline_path}:/ImcSegmentationPipeline:ro \\
{cfg.args.container_image} \\
--run-headless --run \\
--plugins-directory /ImcPluginsCP/plugins/ \\
--pipeline /ImcSegmentationPipeline/cp3_pipelines/2_segment_ilastik.cppipe \\
-i /{cfg.args.dirs['analysis'].replace(cfg.args.dirs['base'], 'data')}/ \\
-o /{cfg.args.dirs['analysis'].replace(cfg.args.dirs['base'], 'data')}/"""
else:
cmd = f"""
{cfg.args.cellprofiler_exec} \\
--run-headless --run \\
--plugins-directory {cfg.args.cellprofiler_plugin_path}/plugins/ \\
--pipeline {cfg.args.cellprofiler_pipeline_path}/cp3_pipelines/2_segment_ilastik.cppipe \\
-i {cfg.args.dirs['analysis']}/ \\
-o {cfg.args.dirs['analysis']}/"""
return run_shell_command(cmd)
def predict() -> int:
"""
Use a trained ilastik model to classify pixels in an IMC image.
"""
# Check if step should be skipped:
# for each "_s2.h5" file there is a "_s2_Probabilities.tiff".
inputs = glob(f"{cfg.args.dirs['analysis']}/*_s2.h5")
exists = [
os.path.exists(f.replace("_s2.h5", "_s2_Probabilities.tiff"))
for f in inputs
]
if all(exists) and not cfg.args.overwrite:
log.info("All output predictions exist. Skipping prediction step.")
return 0
cmd = f"""{cfg.args.ilastik_sh_path} \\
--headless \\
--readonly \\
--export_source probabilities \\
--project {cfg.args.ilastik_model} \\
"""
# Shell expansion of input files won't happen in subprocess call
cmd += " ".join([x.replace(" ", r"\ ") for x in inputs])
return run_shell_command(cmd)
def prepare_histocat() -> None:
if not os.path.exists(cfg.args.dirs["histocat"]):
os.makedirs(cfg.args.dirs["histocat"])
for fol in os.listdir(cfg.args.dirs["ome"]):
if cfg.args.dry_run:
continue
ome2micat.omefolder2micatfolder(
pjoin(cfg.args.dirs["ome"], fol),
cfg.args.dirs["histocat"],
dtype="uint16",
)
pannel = (cfg.args.parsed_csv_pannel if os.path.exists(
cfg.args.parsed_csv_pannel) else cfg.args.csv_pannel)
for fol in os.listdir(cfg.args.dirs["ome"]):
sub_fol = pjoin(cfg.args.dirs["ome"], fol)
for img in os.listdir(sub_fol):
if not img.endswith(".ome.tiff"):
continue
basename = img.rstrip(".ome.tiff")
log.info("Preparing OME-tiff directory '%s'.", img)
for (col, suffix, addsum) in cfg.args.list_analysis_stacks:
if cfg.args.dry_run:
continue
ometiff2analysis.ometiff_2_analysis(
pjoin(sub_fol, img),
cfg.args.dirs["analysis"],
basename + suffix,
pannelcsv=pannel,
metalcolumn=cfg.args.csv_pannel_metal,
usedcolumn=col,
addsum=addsum,
bigtiff=False,
pixeltype="uint16",
)
def uncertainty() -> int:
"""
Produce maps of model uncertainty.
This step requires LZW decompression which is given by the `imagecodecs`
Python library (has extensive system-level dependencies in Ubuntu).
"""
# Check if step should be skipped:
# for each "tiffs/*_s2_Probabilities.tiff" file there is
# a "uncertainty/*_s2_Probabilities_uncertainty.tiff".
exists = [
os.path.exists(
pjoin(
cfg.args.dirs["uncertainty"],
os.path.basename(f).replace(".tiff", "_uncertainty.tiff"),
))
for f in glob(f"{cfg.args.dirs['analysis']}/*_s2_Probabilities.tiff")
]
if all(exists) and not cfg.args.overwrite:
log.info(
"Segmentations already exist for all images. Skipping segment step."
)
return 0
for fn in os.listdir(cfg.args.dirs["ilastik"]):
if fn.endswith(cfg.args.suffix_probablities + ".tiff"):
log.info("Exporting uncertainties for image '%s'.", fn)
probablity2uncertainty.probability2uncertainty(
pjoin(cfg.args.dirs["ilastik"], fn),
cfg.args.dirs["uncertainty"],
)
for fn in os.listdir(cfg.args.dirs["analysis"]):
if fn.endswith(cfg.args.suffix_probablities + ".tiff"):
log.info("Exporting uncertainties for image '%s'.", fn)
probablity2uncertainty.probability2uncertainty(
pjoin(cfg.args.dirs["analysis"], fn),
cfg.args.dirs["uncertainty"],
)
for fol in os.listdir(cfg.args.dirs["ome"]):
ome2micat.omefolder2micatfolder(
pjoin(cfg.args.dirs["ome"], fol),
cfg.args.dirs["histocat"],
fol_masks=cfg.args.dirs["analysis"],
mask_suffix=cfg.args.suffix_mask,
dtype="uint16",
)
return 0
def main(cli=None) -> int:
log.info("IMCpipeline runner")
parser = parse_arguments()
args, unknown = parser.parse_known_args(cli)
# the extra arguments will be passed to the pipeline and
# compounded arguments (mostly the --cellprofiler-exec argument)
# should be quoted again
args.cli = ["'" + x + "'" if " " in x else x for x in unknown]
log.info("Generating project from given CSV annotation.")
annot = pd.read_csv(args.metadata).set_index(args.sample_file_attribute)
if args.toggle:
log.info("Subsampling samples based on the `toggle` column.")
annot = annot.loc[annot["toggle"].isin([1, "1", True, "TRUE", "True"]), :]
log.info("Setting compute settings using divvy.")
compute = divvy.ComputingConfiguration()
compute.activate_package(args.compute)
# Now prepare job submission
jobs = list()
cli_args = " ".join(args.cli)
# the '--' is to separate the nargs from the positional in case there aren't more args
if cli_args == "":
cli_args = "--"
for sample, _ in annot.iterrows():
log.info("Processing sample %s", sample)
input_dir = pjoin(args.input_dir, sample)
output_dir = pjoin(args.output_dir, sample)
cmd = f"imcpipeline {cli_args} -i {input_dir} -o {output_dir}"
job_name = f"imcpipeline_{sample}"
output_prefix = pjoin("submission", job_name)
job_file = output_prefix + ".sh"
data = {
"jobname": job_name,
"logfile": output_prefix + ".log",
"mem": args.mem,
"cores": args.cores,
"time": args.time,
"partition": args.partition,
"code": cmd,
}
compute.write_script(job_file, data)
jobs.append(job_file)
log.info("Submitting jobs.")
cmd = compute.get_active_package()["submission_command"]
if not args.dry_run:
for job in jobs:
print(cmd, job)
subprocess.call([cmd, job])
log.info("Finished with all samples.")
return 0
def get_cli_arguments() -> argparse.Namespace:
epilog = (
"Read all the documentation at: https://imcpipeline.readthedocs.io\n"
"Issues/feature requests at: https://github.com/elementolab/imcpipeline"
)
parser = argparse.ArgumentParser(prog="imcpipeline", epilog=epilog)
# Demo mode
parser.add_argument("--demo", dest="demo", action="store_true")
# Software
choices = ["docker", "singularity"]
msg = (f"The container engine to use, one of {''.join(choices)}."
"Default is not using any but CellProfiler must be in PATH.")
parser.add_argument(
"--container",
dest="containerized",
default=None,
choices=choices,
help=msg,
)
msg = f"The container image to use. Defaults to {DOCKER_IMAGE}"
parser.add_argument("--image",
dest="container_image",
default=DOCKER_IMAGE,
help=msg)
msg = "Location to store external libraries if needed."
parser.add_argument(
"--external-lib-dir",
dest="external_lib_dir",
default=pjoin("lib", "external"),
help=msg,
)
# # if cellprofiler locations do not exist, clone to some default location
msg = ("In case a containerized version of cellprofiler is not used, "
"this is a string with the executable for cellprofiler. "
"Supports UNIX pipes and bash builtins - use with caution. "
"This could be used for example to activate an environment prior "
"to execution. Defaults to 'cellprofiler'.")
parser.add_argument(
"--cellprofiler-exec",
dest="cellprofiler_exec",
default=None,
help=msg,
)
msg = "Path to CellProfiler pipeline. If not given will be cloned."
parser.add_argument(
"--cellprofiler-pipeline-path",
dest="cellprofiler_pipeline_path",
default=None, # "lib/external/ImcSegmentationPipeline/"
help=msg,
type=os.path.abspath,
)
msg = "Path to CellProfiler plugins. If not given will be cloned."
parser.add_argument(
"--cellprofiler-plugin-path",
dest="cellprofiler_plugin_path",
default=None, # "lib/external/ImcPluginsCP"
help=msg,
)
msg = "Path to Ilastik. If not given will be downloaded."
parser.add_argument(
"--ilastik-path",
dest="ilastik_sh_path",
default=None, # "lib/external/ilastik-1.3.3post2-Linux/run_ilastik.sh",
help=msg,
)
# Input
parser.add_argument("--file-regexp", dest="file_regexp", default=".*.zip")
msg = "Path to CSV annotation with pannel information."
parser.add_argument("--csv-pannel",
dest="csv_pannel",
default=None,
help=msg)
msg = "Column in CSV with metal tag annotation."
parser.add_argument(
"--csv-pannel-metal",
dest="csv_pannel_metal",
default="Metal Tag",
help=msg,
)
msg = "Column in CSV with boolean annotation of whether the channel be used for ilastik model."
parser.add_argument(
"--csv-pannel-ilastik",
dest="csv_pannel_ilastik",
default="ilastik",
help=msg,
)
parser.add_argument("--csv-pannel-full",
dest="csv_pannel_full",
default="full")
msg = (
"Directory with input files. More than one value is possible "
" -just make sure this option is not immediately before the positional argument."
)
parser.add_argument(
"-i",
"--input-dirs",
nargs="+",
dest="input_dirs",
default=None,
help=msg,
)
# Pre-trained model for classification (ilastik)
msg = "Path to pre-trained ilastik model. If not given will start interactive session."
parser.add_argument("-m",
"--ilastik-model",
dest="ilastik_model",
default=None,
help=msg)
msg = "Whether existing files should be overwritten."
parser.add_argument("--overwrite", dest="overwrite", action="store_true")
# Pipeline steps
msg = (
"Step of the pipeline to perform. 'all' will perform all in sequence."
f"Options: {', '.join(STEPS + [str(x) for x in range(len(STEPS))])}")
parser.add_argument("-s", "--step", dest="step", default="all", help=msg)
msg = "Whether to not actually run any command. Useful for testing."
parser.add_argument("-d",
"--dry-run",
dest="dry_run",
action="store_true",
help=msg)
msg = "Directory for output files."
parser.add_argument("-o",
"--output-dir",
dest="output_dir",
default=None,
help=msg)
# Parse and complete with derived info
args = parser.parse_args()
if not args.demo and args.output_dir is None:
parser.error("'-o/--output-dir' must be given if not in demo mode.")
if args.demo:
args.input_dirs = [os.path.abspath("imcpipeline_demo_data")]
args.output_dir = "imcpipeline_demo_data"
args.csv_pannel = pjoin("imcpipeline_demo_data",
"imcpipeline-example_pannel.csv")
args.ilastik_model = pjoin("imcpipeline_demo_data", "ilastik",
"demo.ilp")
args.step = "all"
dirs = dict()
args.output_dir = os.path.abspath(args.output_dir)
dirs["base"] = args.output_dir
dirs["input"] = args.input_dirs or [pjoin(args.output_dir, "input_data")]
dirs["analysis"] = pjoin(dirs["base"], "tiffs")
dirs["ilastik"] = pjoin(dirs["base"], "ilastik")
dirs["ome"] = pjoin(dirs["base"], "ometiff")
dirs["cp"] = pjoin(dirs["base"], "cpout")
dirs["histocat"] = pjoin(dirs["base"], "histocat")
dirs["uncertainty"] = pjoin(dirs["base"], "uncertainty")
args.dirs = dirs
dirbind = {"docker": "-v", "singularity": "-B"}
if args.containerized is not None:
args.dirbind = dirbind[args.containerized]
elif args.containerized is None and args.cellprofiler_exec is not None:
pass
elif args.containerized is None and args.cellprofiler_exec is None:
if shutil.which("cellprofiler"):
args.cellprofiler_exec = "cellprofiler"
else:
log.info(
"Neither a container engine was given nor a cellprofiler executable was found."
)
try:
args.containerized = docker_or_singularity()
args.dirbind = dirbind[args.containerized]
except ValueError:
parser.error(
"Neither docker, singularity or a cellprofiler executable were found!"
)
log.info("Found '%s', will use that.", args.containerized)
if args.csv_pannel is None:
if args.input_dirs is not None:
args.csv_pannel = pjoin(args.input_dirs[0],
"imcpipeline-example_pannel.csv")
args.parsed_csv_pannel = pjoin(args.dirs["base"],
"pannel_data.acquired_channels.csv")
args.suffix_mask = "_mask.tiff"
args.suffix_probablities = "_Probabilities"
args.list_analysis_stacks = [
(args.csv_pannel_ilastik, "_ilastik", 1),
(args.csv_pannel_full, "_full", 0),
]
return args
def quantify() -> int:
"""
Quantify the intensity of each channel in each single cell.
"""
# Check if step should be skipped:
exists = os.path.exists(pjoin(cfg.args.dirs["cp"], "cell.csv"))
if exists and not cfg.args.overwrite:
log.info("Quantifications already exist. Skipping quantify step.")
return 0
# For this step, the number of channels should be updated
# in the pipeline file (line 126 and 137).
pipeline_file = pjoin(
cfg.args.cellprofiler_pipeline_path,
"cp3_pipelines",
"3_measure_mask_basic.cppipe",
)
new_pipeline_file = tempfile.NamedTemporaryFile(dir=".",
suffix=".cppipe").name
# Update channel number with pannel for quantification step
pannel = (cfg.args.parsed_csv_pannel if os.path.exists(
cfg.args.parsed_csv_pannel) else cfg.args.csv_pannel)
cfg.args.channel_number = pd.read_csv(pannel).query("full == 1").shape[0]
default_channel_number = r"\xff\xfe2\x004\x00"
new_channel_number = (str(str(
cfg.args.channel_number).encode("utf-16")).replace("b'", "").replace(
"'", ""))
log.info("Changing the channel number to %i.", cfg.args.channel_number)
with open(pipeline_file, "r") as ihandle:
with open(new_pipeline_file, "w") as ohandle:
c = ihandle.read()
cc = c.replace(default_channel_number, new_channel_number)
ohandle.write(cc)
if cfg.args.containerized:
extra = ("--name cellprofiler_quantify --rm"
if cfg.args.containerized == "docker" else "")
cmd = f"""{cfg.args.containerized} run \\
{extra} \\
{cfg.args.dirbind} {cfg.args.dirs['base']}:/data:rw \\
{cfg.args.dirbind} {cfg.args.cellprofiler_plugin_path}:/ImcPluginsCP:ro \\
{cfg.args.dirbind} {os.path.abspath(".")}:/ImcSegmentationPipeline:ro \\
{cfg.args.container_image} \\
--run-headless --run \\
--plugins-directory /ImcPluginsCP/plugins/ \\
--pipeline /ImcSegmentationPipeline/{os.path.basename(new_pipeline_file)} \\
-i /{cfg.args.dirs['analysis'].replace(cfg.args.dirs['base'], 'data')}/ \\
-o /{cfg.args.dirs['cp'].replace(cfg.args.dirs['base'], 'data')}"""
else:
cmd = f"""
{cfg.args.cellprofiler_exec} \\
--run-headless --run \\
--plugins-directory {cfg.args.cellprofiler_plugin_path}/plugins/ \\
--pipeline {new_pipeline_file} \\
-i {cfg.args.dirs['analysis']}/ \\
-o {cfg.args.dirs['cp']}"""
code = run_shell_command(cmd)
os.remove(new_pipeline_file)
return code
def main() -> int:
log.info("Starting pipeline")
cfg.args = get_cli_arguments()
if cfg.args.demo:
log.info(
"Running demo data. Output will be in '%s'.",
cfg.args.dirs["input"][0],
)
prep_demo()
for name, path in cfg.args.dirs.items():
if name not in ["input"]:
os.makedirs(path, exist_ok=True)
try:
cfg.args.step = STEPS_INDEX[int(cfg.args.step)]
except (ValueError, IndexError):
pass
finally:
if cfg.args.step == "all":
for step in STEPS[:-1]:
log.info("Doing '%s' step.", step)
code = globals()[step]()
log.info("Done with '%s' step.", step)
else:
for step in cfg.args.step.split(","):
print(step)
log.info("Doing '%s' step.", step)
code = globals()[step]()
log.info("Done with '%s' step.", step)
log.info("Pipeline run completed!")
return code
def prepare() -> int:
"""
Extract MCD files and prepare input for ilastik.
"""
def export_acquisition() -> None:
re_fn = re.compile(cfg.args.file_regexp)
for fol in cfg.args.dirs["input"]:
for fln in os.listdir(fol):
if re_fn.match(fln):
fn_full = pjoin(fol, fln)
log.info("Extracting MCD file '%s'.", fn_full)
if cfg.args.dry_run:
continue
convertfolder2imcfolder.convert_folder2imcfolder(
fn_full, out_folder=cfg.args.dirs["ome"], dozip=False)
if cfg.args.dry_run:
return
exportacquisitioncsv.export_acquisition_csv(
cfg.args.dirs["ome"], fol_out=cfg.args.dirs["cp"])
def join_pannel_with_acquired_channels(directory=None) -> None:
to_replace = [
("-", ""),
("_", ""),
(" ", ""),
]
# read pannel
pannel = pd.read_csv(cfg.args.csv_pannel, index_col=0)
# read acquisition metadata
if directory is None:
pattern = pjoin(cfg.args.dirs["ome"], "*",
"*_AcquisitionChannel_meta.csv")
else:
pattern = pjoin(directory, "*_AcquisitionChannel_meta.csv")
metas = glob(pattern)
if not metas:
raise ValueError(f"No '{pattern}' files found!")
if len(metas) != 1:
raise ValueError(f"More than one '{pattern}' files found!")
acquired = pd.read_csv(metas[0])
acquired = acquired[["ChannelLabel", "ChannelName", "OrderNumber"]]
# remove parenthesis from metal column
acquired["ChannelName"] = (acquired["ChannelName"].str.replace(
"(", "").str.replace(")", ""))
# clean up the channel name
for __k, __v in to_replace:
acquired["ChannelLabel"] = acquired["ChannelLabel"].str.replace(
__k, __v)
acquired["ChannelLabel"] = acquired["ChannelLabel"].fillna("<EMPTY>")
acquired = acquired.loc[~acquired["ChannelLabel"].
isin(["X", "Y", "Z"]), :].drop_duplicates()
acquired.index = (acquired["ChannelLabel"] + "(" +
acquired["ChannelName"] + ")")
# Check matches, report missing
__c = acquired.index.isin(pannel.index)
if not __c.all():
miss = "\n - ".join(acquired.loc[~__c, "ChannelLabel"])
raise ValueError(
f"Given reference pannel '{cfg.args.csv_pannel}'"
f" is missing the following channels: \n - {miss}")
# align and sort by acquisition
joint_pannel = acquired.join(pannel).sort_values("OrderNumber")
# make sure order of ilastik channels is same as the original pannel
# this important in order for the channels to always be the same
# and the ilastik models to be reusable
assert all(
pannel.query("ilastik == True").index == joint_pannel.query(
"ilastik == True").index)
# If all is fine, save annotation with acquired channels and their order
joint_pannel.to_csv(cfg.args.parsed_csv_pannel, index=True)
def prepare_histocat() -> None:
if not os.path.exists(cfg.args.dirs["histocat"]):
os.makedirs(cfg.args.dirs["histocat"])
for fol in os.listdir(cfg.args.dirs["ome"]):
if cfg.args.dry_run:
continue
ome2micat.omefolder2micatfolder(
pjoin(cfg.args.dirs["ome"], fol),
cfg.args.dirs["histocat"],
dtype="uint16",
)
pannel = (cfg.args.parsed_csv_pannel if os.path.exists(
cfg.args.parsed_csv_pannel) else cfg.args.csv_pannel)
for fol in os.listdir(cfg.args.dirs["ome"]):
sub_fol = pjoin(cfg.args.dirs["ome"], fol)
for img in os.listdir(sub_fol):
if not img.endswith(".ome.tiff"):
continue
basename = img.rstrip(".ome.tiff")
log.info("Preparing OME-tiff directory '%s'.", img)
for (col, suffix, addsum) in cfg.args.list_analysis_stacks:
if cfg.args.dry_run:
continue
ometiff2analysis.ometiff_2_analysis(
pjoin(sub_fol, img),
cfg.args.dirs["analysis"],
basename + suffix,
pannelcsv=pannel,
metalcolumn=cfg.args.csv_pannel_metal,
usedcolumn=col,
addsum=addsum,
bigtiff=False,
pixeltype="uint16",
)
@check_requirements
def prepare_ilastik() -> None:
if cfg.args.containerized:
extra = ("--name cellprofiler_prepare_ilastik --rm"
if cfg.args.containerized == "docker" else "")
cmd = f"""
{cfg.args.containerized} run \\
{extra} \\
{cfg.args.dirbind} {cfg.args.dirs['base']}:/data:rw \\
{cfg.args.dirbind} {cfg.args.cellprofiler_plugin_path}:/ImcPluginsCP:ro \\
{cfg.args.dirbind} {cfg.args.cellprofiler_pipeline_path}:/ImcSegmentationPipeline:ro \\
{cfg.args.container_image} \\
--run-headless --run \\
--plugins-directory /ImcPluginsCP/plugins/ \\
--pipeline /ImcSegmentationPipeline/cp3_pipelines/1_prepare_ilastik.cppipe \\
-i /{cfg.args.dirs['analysis'].replace(cfg.args.dirs['base'], 'data')}/ \\
-o /{cfg.args.dirs['ilastik'].replace(cfg.args.dirs['base'], 'data')}/"""
else:
cmd = f"""
{cfg.args.cellprofiler_exec} \\
--run-headless --run \\
--plugins-directory {cfg.args.cellprofiler_plugin_path}/plugins/ \\
--pipeline {cfg.args.cellprofiler_pipeline_path}/cp3_pipelines/1_prepare_ilastik.cppipe \\
-i {cfg.args.dirs['analysis']}/ \\
-o {cfg.args.dirs['ilastik']}/"""
# {cfg.args.dirbind} /tmp/.X11-unix:/tmp/.X11-unix:ro \\
# -e DISPLAY=$DISPLAY \\
run_shell_command(cmd)
def fix_spaces_in_folders_files(directory):
for path, folders, files in os.walk(directory):
for f in files:
os.rename(
pjoin(path, f),
pjoin(path, f.replace(" ", "_")),
)
for i, _ in enumerate(folders):
new_name = folders[i].replace(" ", "_")
os.rename(pjoin(path, folders[i]), pjoin(path, new_name))
folders[i] = new_name
e = os.path.exists(pjoin(cfg.args.dirs["cp"], "acquisition_metadata.csv"))
if cfg.args.overwrite or (not cfg.args.overwrite and not e):
log.info("Expanding directories from MCD files.")
export_acquisition()
else:
log.info(
"Overwrite is false and files exist. Skipping export from MCD.")
e = len(glob(pjoin(cfg.args.dirs["analysis"], "*_full.tiff"))) > 0
if cfg.args.overwrite or (not cfg.args.overwrite and not e):
if not cfg.args.dry_run:
try:
join_pannel_with_acquired_channels()
except ValueError:
log.error(
"Failed formatting channel names with provided pannel CSV metadata."
)
prepare_histocat()
else:
log.info(
"Overwrite is false and files exist. Skipping conversion to OME-tiff."
)
e = len(glob(pjoin(cfg.args.dirs["ilastik"], "*_w500_h500.h5"))) > 0
if cfg.args.overwrite or (not cfg.args.overwrite and not e):
prepare_ilastik()
else:
log.info(
"Overwrite is false and files exist. Skipping preparing ilastik files."
)
fix_spaces_in_folders_files(cfg.args.dirs["base"])
return 0
def docker_or_singularity() -> str:
for runner in ["docker", "singularity"]:
if shutil.which(runner):
log.info("Selecting '%s' as container runner.", runner)
return runner
raise ValueError("Neither docker or singularity are available!")