Updating for version 0.7.11

Switch from miniconda to miniforge
Remove scripts
2025-04-08 18:19:58 +02:00 · 2025-04-08 17:57:53 +02:00 · 2025-04-08 17:33:37 +02:00 · 2025-04-08 17:03:01 +02:00 · 2025-02-12 11:43:15 +01:00 · 2025-02-11 18:12:27 +01:00
29 changed files with 354 additions and 280 deletions
--- a/.gitea/workflows/deploy.yaml
+++ b/.gitea/workflows/deploy.yaml
@ -0,0 +1,53 @@
 name: pyzebra CI/CD pipeline
 on:
  push:
    branches:
      - main
    tags:
      - '*'
 env:
  CONDA: /opt/miniforge3
 jobs:
  prepare:
    runs-on: pyzebra
    steps:
      - run: $CONDA/bin/conda config --add channels conda-forge
      - run: $CONDA/bin/conda config --set solver libmamba
  test-env:
    runs-on: pyzebra
    needs: prepare
    if: github.ref == 'refs/heads/main'
    env:
      BUILD_DIR: ${{ runner.temp }}/conda_build
    steps:
      - name: Checkout repository
        uses: actions/checkout@v4
      - run: $CONDA/bin/conda build --no-anaconda-upload --output-folder $BUILD_DIR ./conda-recipe
      - run: $CONDA/bin/conda remove --name test --all --keep-env -y
      - run: $CONDA/bin/conda install --name test --channel $BUILD_DIR python=3.8 pyzebra -y
      - run: sudo systemctl restart pyzebra-test.service
  prod-env:
    runs-on: pyzebra
    needs: prepare
    if: startsWith(github.ref, 'refs/tags/')
    env:
      BUILD_DIR: ${{ runner.temp }}/conda_build
    steps:
      - name: Checkout repository
        uses: actions/checkout@v4
      - run: $CONDA/bin/conda build --token ${{ secrets.ANACONDA_TOKEN }} --output-folder $BUILD_DIR ./conda-recipe
      - run: $CONDA/bin/conda remove --name prod --all --keep-env -y
      - run: $CONDA/bin/conda install --name prod --channel $BUILD_DIR python=3.8 pyzebra -y
      - run: sudo systemctl restart pyzebra-prod.service
  cleanup:
    runs-on: pyzebra
    needs: [test-env, prod-env]
    if: always()
    steps:
      - run: $CONDA/bin/conda build purge-all
--- a/.github/workflows/deployment.yaml
+++ b/.github/workflows/deployment.yaml
@ -1,25 +0,0 @@
 name: Deployment
 on:
  push:
    tags:
      - '*'
 jobs:
  publish-conda-package:
    runs-on: ubuntu-latest
    steps:
    - uses: actions/checkout@v2
    - name: Prepare
      run: |
        $CONDA/bin/conda install --quiet --yes conda-build anaconda-client
        $CONDA/bin/conda config --append channels conda-forge
        $CONDA/bin/conda config --set anaconda_upload yes
    - name: Build and upload
      env:
        ANACONDA_TOKEN: ${{ secrets.ANACONDA_TOKEN }}
      run: |
        $CONDA/bin/conda build --token $ANACONDA_TOKEN conda-recipe
--- a/conda-recipe/meta.yaml
+++ b/conda-recipe/meta.yaml
@ -15,10 +15,10 @@ build:
 requirements:
  build:
-    - python >=3.7
+    - python >=3.8
    - setuptools
  run:
-    - python >=3.7
+    - python >=3.8
    - numpy
    - scipy
    - h5py
@ -28,7 +28,7 @@ requirements:
 about:
-  home: https://github.com/paulscherrerinstitute/pyzebra
+  home: https://gitlab.psi.ch/zebra/pyzebra
  summary: {{ data['description'] }}
  license: GNU GPLv3
  license_file: LICENSE
--- a/make_release.py
+++ b/make_release.py
@ -7,18 +7,19 @@ import subprocess
 def main():
    default_branch = "main"
    branch = subprocess.check_output("git rev-parse --abbrev-ref HEAD", shell=True).decode().strip()
-    if branch != "master":
+    if branch != default_branch:
-        print("Aborting, not on 'master' branch.")
+        print(f"Aborting, not on '{default_branch}' branch.")
        return
-    filepath = "pyzebra/__init__.py"
+    version_filepath = os.path.join(os.path.basename(os.path.dirname(__file__)), "__init__.py")
    parser = argparse.ArgumentParser()
    parser.add_argument("level", type=str, choices=["patch", "minor", "major"])
    args = parser.parse_args()
-    with open(filepath) as f:
+    with open(version_filepath) as f:
        file_content = f.read()
    version = re.search(r'__version__ = "(.*?)"', file_content).group(1)
@ -36,11 +37,12 @@ def main():
    new_version = f"{major}.{minor}.{patch}"
-    with open(filepath, "w") as f:
+    with open(version_filepath, "w") as f:
        f.write(re.sub(r'__version__ = "(.*?)"', f'__version__ = "{new_version}"', file_content))
-    os.system(f"git commit {filepath} -m 'Updating for version {new_version}'")
+    os.system(f"git commit {version_filepath} -m 'Updating for version {new_version}'")
    os.system(f"git tag -a {new_version} -m 'Release {new_version}'")
    os.system("git push --follow-tags")
 if __name__ == "__main__":
--- a/pyzebra/init.py
+++ b/pyzebra/init.py
@ -6,4 +6,4 @@ from pyzebra.sxtal_refgen import *
 from pyzebra.utils import *
 from pyzebra.xtal import *
-__version__ = "0.7.3"
+__version__ = "0.7.11"
--- a/pyzebra/anatric.py
+++ b/pyzebra/anatric.py
@ -1,6 +1,9 @@
 import logging
 import subprocess
 import xml.etree.ElementTree as ET
 logger = logging.getLogger(__name__)
 DATA_FACTORY_IMPLEMENTATION = ["trics", "morph", "d10"]
 REFLECTION_PRINTER_FORMATS = [
@ -16,11 +19,11 @@ REFLECTION_PRINTER_FORMATS = [
    "oksana",
 ]
-ANATRIC_PATH = "/afs/psi.ch/project/sinq/rhel7/bin/anatric"
+ANATRIC_PATH = "/afs/psi.ch/project/sinq/rhel8/bin/anatric"
 ALGORITHMS = ["adaptivemaxcog", "adaptivedynamic"]
-def anatric(config_file, anatric_path=ANATRIC_PATH, cwd=None):
+def anatric(config_file, anatric_path=ANATRIC_PATH, cwd=None, log=logger):
    comp_proc = subprocess.run(
        [anatric_path, config_file],
        stdout=subprocess.PIPE,
@ -29,8 +32,8 @@ def anatric(config_file, anatric_path=ANATRIC_PATH, cwd=None):
        check=True,
        text=True,
    )
-    print(" ".join(comp_proc.args))
+    log.info(" ".join(comp_proc.args))
-    print(comp_proc.stdout)
+    log.info(comp_proc.stdout)
 class AnatricConfig:
--- a/pyzebra/app/app_hooks.py
+++ b/pyzebra/app/app_hooks.py
@ -1,17 +0,0 @@
 import logging
 import sys
 from io import StringIO
 def on_server_loaded(_server_context):
    formatter = logging.Formatter(
        fmt="%(asctime)s %(levelname)s: %(message)s", datefmt="%Y-%m-%d %H:%M:%S"
    )
    sys.stdout = StringIO()
    bokeh_handler = logging.StreamHandler(StringIO())
    bokeh_handler.setFormatter(formatter)
    bokeh_logger = logging.getLogger("bokeh")
    bokeh_logger.setLevel(logging.WARNING)
    bokeh_logger.addHandler(bokeh_handler)
--- a/pyzebra/app/cli.py
+++ b/pyzebra/app/cli.py
@ -4,7 +4,7 @@ import sys
 def main():
-    app_path = os.path.join(os.path.dirname(os.path.abspath(__file__)))
+    app_path = os.path.dirname(os.path.abspath(__file__))
    subprocess.run(["bokeh", "serve", app_path, *sys.argv[1:]], check=True)
--- a/pyzebra/app/fit_controls.py
+++ b/pyzebra/app/fit_controls.py
@ -1,5 +1,6 @@
 import types
 from bokeh.io import curdoc
 from bokeh.models import (
    Button,
    CellEditor,
@ -51,6 +52,7 @@ def _params_factory(function):
 class FitControls:
    def __init__(self):
        self.log = curdoc().logger
        self.params = {}
        def add_function_button_callback(click):
@ -145,7 +147,11 @@ class FitControls:
    def _process_scan(self, scan):
        pyzebra.fit_scan(
-            scan, self.params, fit_from=self.from_spinner.value, fit_to=self.to_spinner.value
+            scan,
            self.params,
            fit_from=self.from_spinner.value,
            fit_to=self.to_spinner.value,
            log=self.log,
        )
        pyzebra.get_area(
            scan,
--- a/pyzebra/app/input_controls.py
+++ b/pyzebra/app/input_controls.py
@ -11,6 +11,7 @@ import pyzebra
 class InputControls:
    def __init__(self, dataset, dlfiles, on_file_open=lambda: None, on_monitor_change=lambda: None):
        doc = curdoc()
        log = doc.logger
        def filelist_select_update_for_proposal():
            proposal_path = proposal_textinput.name
@ -45,19 +46,19 @@ class InputControls:
                    f_name = os.path.basename(f_path)
                    base, ext = os.path.splitext(f_name)
                    try:
-                        file_data = pyzebra.parse_1D(file, ext)
+                        file_data = pyzebra.parse_1D(file, ext, log=log)
-                    except:
+                    except Exception as e:
-                        print(f"Error loading {f_name}")
+                        log.exception(e)
                        continue
                pyzebra.normalize_dataset(file_data, monitor_spinner.value)
                if not new_data:  # first file
                    new_data = file_data
-                    pyzebra.merge_duplicates(new_data)
+                    pyzebra.merge_duplicates(new_data, log=log)
                    dlfiles.set_names([base] * dlfiles.n_files)
                else:
-                    pyzebra.merge_datasets(new_data, file_data)
+                    pyzebra.merge_datasets(new_data, file_data, log=log)
            if new_data:
                dataset.clear()
@ -76,13 +77,13 @@ class InputControls:
                    f_name = os.path.basename(f_path)
                    _, ext = os.path.splitext(f_name)
                    try:
-                        file_data = pyzebra.parse_1D(file, ext)
+                        file_data = pyzebra.parse_1D(file, ext, log=log)
-                    except:
+                    except Exception as e:
-                        print(f"Error loading {f_name}")
+                        log.exception(e)
                        continue
                pyzebra.normalize_dataset(file_data, monitor_spinner.value)
-                pyzebra.merge_datasets(dataset, file_data)
+                pyzebra.merge_datasets(dataset, file_data, log=log)
            if file_data:
                on_file_open()
@ -97,19 +98,19 @@ class InputControls:
                with io.StringIO(base64.b64decode(f_str).decode()) as file:
                    base, ext = os.path.splitext(f_name)
                    try:
-                        file_data = pyzebra.parse_1D(file, ext)
+                        file_data = pyzebra.parse_1D(file, ext, log=log)
-                    except:
+                    except Exception as e:
-                        print(f"Error loading {f_name}")
+                        log.exception(e)
                        continue
                pyzebra.normalize_dataset(file_data, monitor_spinner.value)
                if not new_data:  # first file
                    new_data = file_data
-                    pyzebra.merge_duplicates(new_data)
+                    pyzebra.merge_duplicates(new_data, log=log)
                    dlfiles.set_names([base] * dlfiles.n_files)
                else:
-                    pyzebra.merge_datasets(new_data, file_data)
+                    pyzebra.merge_datasets(new_data, file_data, log=log)
            if new_data:
                dataset.clear()
@ -129,13 +130,13 @@ class InputControls:
                with io.StringIO(base64.b64decode(f_str).decode()) as file:
                    _, ext = os.path.splitext(f_name)
                    try:
-                        file_data = pyzebra.parse_1D(file, ext)
+                        file_data = pyzebra.parse_1D(file, ext, log=log)
-                    except:
+                    except Exception as e:
-                        print(f"Error loading {f_name}")
+                        log.exception(e)
                        continue
                pyzebra.normalize_dataset(file_data, monitor_spinner.value)
-                pyzebra.merge_datasets(dataset, file_data)
+                pyzebra.merge_datasets(dataset, file_data, log=log)
            if file_data:
                on_file_open()
--- a/pyzebra/app/main.py
+++ b/pyzebra/app/main.py
@ -1,6 +1,6 @@
 import argparse
 import logging
-import sys
+from io import StringIO
 from bokeh.io import curdoc
 from bokeh.layouts import column, row
@ -43,11 +43,17 @@ doc.anatric_path = args.anatric_path
 doc.spind_path = args.spind_path
 doc.sxtal_refgen_path = args.sxtal_refgen_path
-# In app_hooks.py a StreamHandler was added to "bokeh" logger
+stream = StringIO()
-bokeh_stream = logging.getLogger("bokeh").handlers[0].stream
+handler = logging.StreamHandler(stream)
 handler.setFormatter(
    logging.Formatter(fmt="%(asctime)s %(levelname)s: %(message)s", datefmt="%Y-%m-%d %H:%M:%S")
 )
 logger = logging.getLogger(str(id(doc)))
 logger.setLevel(logging.INFO)
 logger.addHandler(handler)
 doc.logger = logger
-log_textareainput = TextAreaInput(title="logging output:")
+log_textareainput = TextAreaInput(title="Logging output:")
 bokeh_log_textareainput = TextAreaInput(title="server output:")
 def proposal_textinput_callback(_attr, _old, _new):
@ -65,7 +71,7 @@ def apply_button_callback():
        try:
            proposal_path = pyzebra.find_proposal_path(proposal)
        except ValueError as e:
-            print(e)
+            logger.exception(e)
            return
        apply_button.disabled = True
    else:
@ -94,14 +100,13 @@ doc.add_root(
                panel_spind.create(),
            ]
        ),
-        row(log_textareainput, bokeh_log_textareainput, sizing_mode="scale_both"),
+        row(log_textareainput, sizing_mode="scale_both"),
    )
 )
 def update_stdout():
-    log_textareainput.value = sys.stdout.getvalue()
+    log_textareainput.value = stream.getvalue()
    bokeh_log_textareainput.value = bokeh_stream.getvalue()
 doc.add_periodic_callback(update_stdout, 1000)
--- a/pyzebra/app/panel_ccl_compare.py
+++ b/pyzebra/app/panel_ccl_compare.py
@ -33,6 +33,7 @@ from pyzebra import EXPORT_TARGETS, app
 def create():
    doc = curdoc()
    log = doc.logger
    dataset1 = []
    dataset2 = []
    app_dlfiles = app.DownloadFiles(n_files=2)
@ -94,7 +95,7 @@ def create():
    def file_open_button_callback():
        if len(file_select.value) != 2:
-            print("WARNING: Select exactly 2 .ccl files.")
+            log.warning("Select exactly 2 .ccl files.")
            return
        new_data1 = []
@ -104,13 +105,13 @@ def create():
                f_name = os.path.basename(f_path)
                base, ext = os.path.splitext(f_name)
                try:
-                    file_data = pyzebra.parse_1D(file, ext)
+                    file_data = pyzebra.parse_1D(file, ext, log=log)
-                except:
+                except Exception as e:
-                    print(f"Error loading {f_name}")
+                    log.exception(e)
                    return
            pyzebra.normalize_dataset(file_data, monitor_spinner.value)
-            pyzebra.merge_duplicates(file_data)
+            pyzebra.merge_duplicates(file_data, log=log)
            if ind == 0:
                app_dlfiles.set_names([base, base])
@ -133,7 +134,7 @@ def create():
    def upload_button_callback(_attr, _old, _new):
        if len(upload_button.filename) != 2:
-            print("WARNING: Upload exactly 2 .ccl files.")
+            log.warning("Upload exactly 2 .ccl files.")
            return
        new_data1 = []
@ -142,13 +143,13 @@ def create():
            with io.StringIO(base64.b64decode(f_str).decode()) as file:
                base, ext = os.path.splitext(f_name)
                try:
-                    file_data = pyzebra.parse_1D(file, ext)
+                    file_data = pyzebra.parse_1D(file, ext, log=log)
-                except:
+                except Exception as e:
-                    print(f"Error loading {f_name}")
+                    log.exception(e)
                    return
            pyzebra.normalize_dataset(file_data, monitor_spinner.value)
-            pyzebra.merge_duplicates(file_data)
+            pyzebra.merge_duplicates(file_data, log=log)
            if ind == 0:
                app_dlfiles.set_names([base, base])
@ -243,8 +244,8 @@ def create():
    plot = figure(
        x_axis_label="Scan motor",
        y_axis_label="Counts",
-        plot_height=470,
+        height=470,
-        plot_width=700,
+        width=700,
        tools="pan,wheel_zoom,reset",
    )
@ -377,11 +378,11 @@ def create():
        scan_from2 = dataset2[int(merge_from_select.value)]
        if scan_into1 is scan_from1:
-            print("WARNING: Selected scans for merging are identical")
+            log.warning("Selected scans for merging are identical")
            return
-        pyzebra.merge_scans(scan_into1, scan_from1)
+        pyzebra.merge_scans(scan_into1, scan_from1, log=log)
-        pyzebra.merge_scans(scan_into2, scan_from2)
+        pyzebra.merge_scans(scan_into2, scan_from2, log=log)
        _update_table()
        _update_plot()
--- a/pyzebra/app/panel_ccl_integrate.py
+++ b/pyzebra/app/panel_ccl_integrate.py
@ -2,6 +2,7 @@ import os
 import tempfile
 import numpy as np
 from bokeh.io import curdoc
 from bokeh.layouts import column, row
 from bokeh.models import (
    Button,
@ -25,6 +26,8 @@ from pyzebra import EXPORT_TARGETS, app
 def create():
    doc = curdoc()
    log = doc.logger
    dataset = []
    app_dlfiles = app.DownloadFiles(n_files=2)
@ -112,8 +115,8 @@ def create():
    plot = figure(
        x_axis_label="Scan motor",
        y_axis_label="Counts",
-        plot_height=470,
+        height=470,
-        plot_width=700,
+        width=700,
        tools="pan,wheel_zoom,reset",
    )
@ -214,10 +217,10 @@ def create():
        scan_from = dataset[int(merge_from_select.value)]
        if scan_into is scan_from:
-            print("WARNING: Selected scans for merging are identical")
+            log.warning("Selected scans for merging are identical")
            return
-        pyzebra.merge_scans(scan_into, scan_from)
+        pyzebra.merge_scans(scan_into, scan_from, log=log)
        _update_table()
        _update_plot()
--- a/pyzebra/app/panel_ccl_prepare.py
+++ b/pyzebra/app/panel_ccl_prepare.py
@ -5,6 +5,7 @@ import subprocess
 import tempfile
 import numpy as np
 from bokeh.io import curdoc
 from bokeh.layouts import column, row
 from bokeh.models import (
    Arrow,
@ -39,6 +40,8 @@ SORT_OPT_NB = ["gamma", "nu", "omega"]
 def create():
    doc = curdoc()
    log = doc.logger
    ang_lims = {}
    cif_data = {}
    params = {}
@ -132,7 +135,11 @@ def create():
        params = dict()
        params["SPGR"] = cryst_space_group.value
        params["CELL"] = cryst_cell.value
-        ub = pyzebra.calc_ub_matrix(params)
+        try:
            ub = pyzebra.calc_ub_matrix(params, log=log)
        except Exception as e:
            log.exception(e)
            return
        ub_matrix.value = " ".join(ub)
    ub_matrix_calc = Button(label="UB matrix:", button_type="primary", width=100)
@ -221,9 +228,9 @@ def create():
                geom_template = None
            pyzebra.export_geom_file(geom_path, ang_lims, geom_template)
-            print(f"Content of {geom_path}:")
+            log.info(f"Content of {geom_path}:")
            with open(geom_path) as f:
-                print(f.read())
+                log.info(f.read())
            priority = [sorting_0.value, sorting_1.value, sorting_2.value]
            chunks = [sorting_0_dt.value, sorting_1_dt.value, sorting_2_dt.value]
@ -248,9 +255,9 @@ def create():
                    cfl_template = None
                pyzebra.export_cfl_file(cfl_path, params, cfl_template)
-                print(f"Content of {cfl_path}:")
+                log.info(f"Content of {cfl_path}:")
                with open(cfl_path) as f:
-                    print(f.read())
+                    log.info(f.read())
                comp_proc = subprocess.run(
                    [pyzebra.SXTAL_REFGEN_PATH, cfl_path],
@ -260,8 +267,8 @@ def create():
                    stderr=subprocess.STDOUT,
                    text=True,
                )
-                print(" ".join(comp_proc.args))
+                log.info(" ".join(comp_proc.args))
-                print(comp_proc.stdout)
+                log.info(comp_proc.stdout)
                if i == 1:  # all hkl files are identical, so keep only one
                    hkl_fname = base_fname + ".hkl"
@ -591,8 +598,8 @@ def create():
                _, ext = os.path.splitext(fname)
                try:
                    file_data = pyzebra.parse_hkl(file, ext)
-                except:
+                except Exception as e:
-                    print(f"Error loading {fname}")
+                    log.exception(e)
                    return
            fnames.append(fname)
@ -604,7 +611,7 @@ def create():
    plot_file = Button(label="Plot selected file(s)", button_type="primary", width=200)
    plot_file.on_click(plot_file_callback)
-    plot = figure(plot_height=550, plot_width=550 + 32, tools="pan,wheel_zoom,reset")
+    plot = figure(height=550, width=550 + 32, tools="pan,wheel_zoom,reset")
    plot.toolbar.logo = None
    plot.xaxis.visible = False
--- a/pyzebra/app/panel_hdf_anatric.py
+++ b/pyzebra/app/panel_hdf_anatric.py
@ -24,6 +24,7 @@ from pyzebra import DATA_FACTORY_IMPLEMENTATION, REFLECTION_PRINTER_FORMATS
 def create():
    doc = curdoc()
    log = doc.logger
    config = pyzebra.AnatricConfig()
    def _load_config_file(file):
@ -347,7 +348,11 @@ def create():
        with tempfile.TemporaryDirectory() as temp_dir:
            temp_file = temp_dir + "/config.xml"
            config.save_as(temp_file)
-            pyzebra.anatric(temp_file, anatric_path=doc.anatric_path, cwd=temp_dir)
+            try:
                pyzebra.anatric(temp_file, anatric_path=doc.anatric_path, cwd=temp_dir, log=log)
            except Exception as e:
                log.exception(e)
                return
            with open(os.path.join(temp_dir, config.logfile)) as f_log:
                output_log.value = f_log.read()
--- a/pyzebra/app/panel_hdf_param_study.py
+++ b/pyzebra/app/panel_hdf_param_study.py
@ -36,6 +36,7 @@ IMAGE_PLOT_H = int(IMAGE_H * 2.4) + 27
 def create():
    doc = curdoc()
    log = doc.logger
    dataset = []
    cami_meta = {}
@ -133,8 +134,8 @@ def create():
        for f_name in file_select.value:
            try:
                new_data.append(pyzebra.read_detector_data(f_name))
-            except KeyError:
+            except KeyError as e:
-                print("Could not read data from the file.")
+                log.exception(e)
                return
        dataset.extend(new_data)
@ -275,7 +276,7 @@ def create():
        frame_range.bounds = (0, n_im)
        scan_motor = scan["scan_motor"]
-        proj_y_plot.axis[1].axis_label = f"Scanning motor, {scan_motor}"
+        proj_y_plot.yaxis.axis_label = f"Scanning motor, {scan_motor}"
        var = scan[scan_motor]
        var_start = var[0]
@ -301,8 +302,8 @@ def create():
        x_range=det_x_range,
        y_range=frame_range,
        extra_y_ranges={"scanning_motor": scanning_motor_range},
-        plot_height=540,
+        height=540,
-        plot_width=IMAGE_PLOT_W - 3,
+        width=IMAGE_PLOT_W - 3,
        tools="pan,box_zoom,wheel_zoom,reset",
        active_scroll="wheel_zoom",
    )
@ -325,8 +326,8 @@ def create():
        x_range=det_y_range,
        y_range=frame_range,
        extra_y_ranges={"scanning_motor": scanning_motor_range},
-        plot_height=540,
+        height=540,
-        plot_width=IMAGE_PLOT_H + 22,
+        width=IMAGE_PLOT_H + 22,
        tools="pan,box_zoom,wheel_zoom,reset",
        active_scroll="wheel_zoom",
    )
@ -352,8 +353,8 @@ def create():
    colormap_select.on_change("value", colormap_select_callback)
    colormap_select.value = "Plasma256"
-    def proj_auto_checkbox_callback(state):
+    def proj_auto_checkbox_callback(_attr, _old, new):
-        if state:
+        if 0 in new:
            proj_display_min_spinner.disabled = True
            proj_display_max_spinner.disabled = True
        else:
@ -365,7 +366,7 @@ def create():
    proj_auto_checkbox = CheckboxGroup(
        labels=["Projections Intensity Range"], active=[0], width=145, margin=[10, 5, 0, 5]
    )
-    proj_auto_checkbox.on_click(proj_auto_checkbox_callback)
+    proj_auto_checkbox.on_change("active", proj_auto_checkbox_callback)
    def proj_display_max_spinner_callback(_attr, _old, new):
        color_mapper_proj.high = new
@ -411,8 +412,8 @@ def create():
    param_plot = figure(
        x_axis_label="Parameter",
        y_axis_label="Fit parameter",
-        plot_height=400,
+        height=400,
-        plot_width=700,
+        width=700,
        tools="pan,wheel_zoom,reset",
    )
--- a/pyzebra/app/panel_hdf_viewer.py
+++ b/pyzebra/app/panel_hdf_viewer.py
@ -43,6 +43,7 @@ IMAGE_PLOT_H = int(IMAGE_H * 2.4) + 27
 def create():
    doc = curdoc()
    log = doc.logger
    dataset = []
    cami_meta = {}
@ -102,8 +103,8 @@ def create():
        nonlocal dataset
        try:
            scan = pyzebra.read_detector_data(io.BytesIO(base64.b64decode(new)), None)
-        except KeyError:
+        except Exception as e:
-            print("Could not read data from the file.")
+            log.exception(e)
            return
        dataset = [scan]
@ -137,8 +138,8 @@ def create():
            f_name = os.path.basename(f_path)
            try:
                file_data = [pyzebra.read_detector_data(f_path, cm)]
-            except:
+            except Exception as e:
-                print(f"Error loading {f_name}")
+                log.exception(e)
                continue
            pyzebra.normalize_dataset(file_data, monitor_spinner.value)
@ -146,7 +147,7 @@ def create():
            if not new_data:  # first file
                new_data = file_data
            else:
-                pyzebra.merge_datasets(new_data, file_data)
+                pyzebra.merge_datasets(new_data, file_data, log=log)
        if new_data:
            dataset = new_data
@ -161,12 +162,12 @@ def create():
            f_name = os.path.basename(f_path)
            try:
                file_data = [pyzebra.read_detector_data(f_path, None)]
-            except:
+            except Exception as e:
-                print(f"Error loading {f_name}")
+                log.exception(e)
                continue
            pyzebra.normalize_dataset(file_data, monitor_spinner.value)
-            pyzebra.merge_datasets(dataset, file_data)
+            pyzebra.merge_datasets(dataset, file_data, log=log)
        if file_data:
            _init_datatable()
@ -292,10 +293,10 @@ def create():
        scan_from = dataset[int(merge_from_select.value)]
        if scan_into is scan_from:
-            print("WARNING: Selected scans for merging are identical")
+            log.warning("Selected scans for merging are identical")
            return
-        pyzebra.merge_h5_scans(scan_into, scan_from)
+        pyzebra.merge_h5_scans(scan_into, scan_from, log=log)
        _update_table()
        _update_image()
        _update_proj_plots()
@ -356,8 +357,8 @@ def create():
            gamma_c = gamma[det_c_y, det_c_x]
            nu_c = nu[det_c_y, det_c_x]
            omega_c = omega[det_c_y, det_c_x]
-            chi_c = None
+            chi_c = scan["chi"][index]
-            phi_c = None
+            phi_c = scan["phi"][index]
        else:  # zebra_mode == "bi"
            wave = scan["wave"]
@ -406,7 +407,7 @@ def create():
        frame_range.bounds = (0, n_im)
        scan_motor = scan["scan_motor"]
-        proj_y_plot.axis[1].axis_label = f"Scanning motor, {scan_motor}"
+        proj_y_plot.yaxis.axis_label = f"Scanning motor, {scan_motor}"
        var = scan[scan_motor]
        var_start = var[0]
@ -458,8 +459,8 @@ def create():
        y_range=Range1d(0, IMAGE_H, bounds=(0, IMAGE_H)),
        x_axis_location="above",
        y_axis_location="right",
-        plot_height=IMAGE_PLOT_H,
+        height=IMAGE_PLOT_H,
-        plot_width=IMAGE_PLOT_W,
+        width=IMAGE_PLOT_W,
        toolbar_location="left",
        tools="pan,box_zoom,wheel_zoom,reset",
        active_scroll="wheel_zoom",
@ -509,8 +510,8 @@ def create():
    proj_v = figure(
        x_range=plot.x_range,
        y_axis_location="right",
-        plot_height=150,
+        height=150,
-        plot_width=IMAGE_PLOT_W,
+        width=IMAGE_PLOT_W,
        tools="",
        toolbar_location=None,
    )
@ -524,8 +525,8 @@ def create():
    proj_h = figure(
        x_axis_location="above",
        y_range=plot.y_range,
-        plot_height=IMAGE_PLOT_H,
+        height=IMAGE_PLOT_H,
-        plot_width=150,
+        width=150,
        tools="",
        toolbar_location=None,
    )
@ -589,8 +590,8 @@ def create():
        y_range=frame_range,
        extra_x_ranges={"gamma": gamma_range},
        extra_y_ranges={"scanning_motor": scanning_motor_range},
-        plot_height=540,
+        height=540,
-        plot_width=IMAGE_PLOT_W - 3,
+        width=IMAGE_PLOT_W - 3,
        tools="pan,box_zoom,wheel_zoom,reset",
        active_scroll="wheel_zoom",
    )
@ -617,8 +618,8 @@ def create():
        y_range=frame_range,
        extra_x_ranges={"nu": nu_range},
        extra_y_ranges={"scanning_motor": scanning_motor_range},
-        plot_height=540,
+        height=540,
-        plot_width=IMAGE_PLOT_H + 22,
+        width=IMAGE_PLOT_H + 22,
        tools="pan,box_zoom,wheel_zoom,reset",
        active_scroll="wheel_zoom",
    )
@ -636,7 +637,7 @@ def create():
    proj_y_image = proj_y_plot.image(source=proj_y_image_source, color_mapper=lin_color_mapper_proj)
    # ROI slice plot
-    roi_avg_plot = figure(plot_height=150, plot_width=IMAGE_PLOT_W, tools="", toolbar_location=None)
+    roi_avg_plot = figure(height=150, width=IMAGE_PLOT_W, tools="", toolbar_location=None)
    roi_avg_plot_line_source = ColumnDataSource(dict(x=[], y=[]))
    roi_avg_plot.line(source=roi_avg_plot_line_source, line_color="steelblue")
@ -655,8 +656,8 @@ def create():
    colormap_select.on_change("value", colormap_select_callback)
    colormap_select.value = "Plasma256"
-    def colormap_scale_rg_callback(selection):
+    def colormap_scale_rg_callback(_attr, _old, new):
-        if selection == 0:  # Linear
+        if new == 0:  # Linear
            plot_image.glyph.color_mapper = lin_color_mapper
            proj_x_image.glyph.color_mapper = lin_color_mapper_proj
            proj_y_image.glyph.color_mapper = lin_color_mapper_proj
@ -675,10 +676,10 @@ def create():
                colormap_scale_rg.active = 0
    colormap_scale_rg = RadioGroup(labels=["Linear", "Logarithmic"], active=0, width=100)
-    colormap_scale_rg.on_click(colormap_scale_rg_callback)
+    colormap_scale_rg.on_change("active", colormap_scale_rg_callback)
-    def main_auto_checkbox_callback(state):
+    def main_auto_checkbox_callback(_attr, _old, new):
-        if state:
+        if 0 in new:
            display_min_spinner.disabled = True
            display_max_spinner.disabled = True
        else:
@ -690,7 +691,7 @@ def create():
    main_auto_checkbox = CheckboxGroup(
        labels=["Frame Intensity Range"], active=[0], width=145, margin=[10, 5, 0, 5]
    )
-    main_auto_checkbox.on_click(main_auto_checkbox_callback)
+    main_auto_checkbox.on_change("active", main_auto_checkbox_callback)
    def display_max_spinner_callback(_attr, _old, new):
        lin_color_mapper.high = new
@ -709,8 +710,8 @@ def create():
    display_min_spinner = Spinner(value=0, disabled=bool(main_auto_checkbox.active), width=100)
    display_min_spinner.on_change("value", display_min_spinner_callback)
-    def proj_auto_checkbox_callback(state):
+    def proj_auto_checkbox_callback(_attr, _old, new):
-        if state:
+        if 0 in new:
            proj_display_min_spinner.disabled = True
            proj_display_max_spinner.disabled = True
        else:
@ -722,7 +723,7 @@ def create():
    proj_auto_checkbox = CheckboxGroup(
        labels=["Projections Intensity Range"], active=[0], width=145, margin=[10, 5, 0, 5]
    )
-    proj_auto_checkbox.on_click(proj_auto_checkbox_callback)
+    proj_auto_checkbox.on_change("active", proj_auto_checkbox_callback)
    def proj_display_max_spinner_callback(_attr, _old, new):
        lin_color_mapper_proj.high = new
@ -811,7 +812,7 @@ def create():
        gamma = scan["gamma"][0]
        omega = scan["omega"][0]
-        nu = scan["nu"][0]
+        nu = scan["nu"]
        chi = scan["chi"][0]
        phi = scan["phi"][0]
@ -842,10 +843,6 @@ def create():
        x_pos = scan["fit"]["x_pos"]
        y_pos = scan["fit"]["y_pos"]
        if scan["zebra_mode"] == "nb":
            chi = None
            phi = None
        events_data["wave"].append(wave)
        events_data["ddist"].append(ddist)
        events_data["cell"].append(cell)
--- a/pyzebra/app/panel_param_study.py
+++ b/pyzebra/app/panel_param_study.py
@ -3,6 +3,7 @@ import os
 import tempfile
 import numpy as np
 from bokeh.io import curdoc
 from bokeh.layouts import column, row
 from bokeh.models import (
    Button,
@ -38,6 +39,8 @@ def color_palette(n_colors):
 def create():
    doc = curdoc()
    log = doc.logger
    dataset = []
    app_dlfiles = app.DownloadFiles(n_files=1)
@ -209,8 +212,8 @@ def create():
    plot = figure(
        x_axis_label="Scan motor",
        y_axis_label="Counts",
-        plot_height=450,
+        height=450,
-        plot_width=700,
+        width=700,
        tools="pan,wheel_zoom,reset",
    )
@ -243,8 +246,8 @@ def create():
    ov_plot = figure(
        x_axis_label="Scan motor",
        y_axis_label="Counts",
-        plot_height=450,
+        height=450,
-        plot_width=700,
+        width=700,
        tools="pan,wheel_zoom,reset",
    )
@ -261,8 +264,8 @@ def create():
        y_axis_label="Param",
        x_range=Range1d(),
        y_range=Range1d(),
-        plot_height=450,
+        height=450,
-        plot_width=700,
+        width=700,
        tools="pan,wheel_zoom,reset",
    )
@ -279,8 +282,8 @@ def create():
    param_plot = figure(
        x_axis_label="Parameter",
        y_axis_label="Fit parameter",
-        plot_height=400,
+        height=400,
-        plot_width=700,
+        width=700,
        tools="pan,wheel_zoom,reset",
    )
@ -361,10 +364,10 @@ def create():
        scan_from = dataset[int(merge_from_select.value)]
        if scan_into is scan_from:
-            print("WARNING: Selected scans for merging are identical")
+            log.warning("Selected scans for merging are identical")
            return
-        pyzebra.merge_scans(scan_into, scan_from)
+        pyzebra.merge_scans(scan_into, scan_from, log=log)
        _update_table()
        _update_single_scan_plot()
        _update_overview()
--- a/pyzebra/app/panel_plot_data.py
+++ b/pyzebra/app/panel_plot_data.py
@ -3,6 +3,7 @@ import io
 import os
 import numpy as np
 from bokeh.io import curdoc
 from bokeh.layouts import column, row
 from bokeh.models import (
    Button,
@ -31,6 +32,8 @@ from pyzebra.app.panel_hdf_viewer import calculate_hkl
 def create():
    doc = curdoc()
    log = doc.logger
    _update_slice = None
    measured_data_div = Div(text="Measured <b>HDF</b> data:")
    measured_data = FileInput(accept=".hdf", multiple=True, width=200)
@ -59,8 +62,8 @@ def create():
            # Read data
            try:
                det_data = pyzebra.read_detector_data(io.BytesIO(base64.b64decode(fdata)))
-            except:
+            except Exception as e:
-                print(f"Error loading {fname}")
+                log.exception(e)
                return None
            if ind == 0:
@ -179,8 +182,8 @@ def create():
                _, ext = os.path.splitext(fname)
                try:
                    fdata = pyzebra.parse_hkl(file, ext)
-                except:
+                except Exception as e:
-                    print(f"Error loading {fname}")
+                    log.exception(e)
                    return
            for ind in range(len(fdata["counts"])):
@ -290,8 +293,8 @@ def create():
    plot = figure(
        x_range=DataRange1d(),
        y_range=DataRange1d(),
-        plot_height=550 + 27,
+        height=550 + 27,
-        plot_width=550 + 117,
+        width=550 + 117,
        tools="pan,wheel_zoom,reset",
    )
    plot.toolbar.logo = None
@ -324,7 +327,7 @@ def create():
    hkl_in_plane_y = TextInput(title="in-plane Y", value="", width=100, disabled=True)
    def redef_lattice_cb_callback(_attr, _old, new):
-        if new:
+        if 0 in new:
            redef_lattice_ti.disabled = False
        else:
            redef_lattice_ti.disabled = True
@ -334,7 +337,7 @@ def create():
    redef_lattice_ti = TextInput(width=490, disabled=True)
    def redef_ub_cb_callback(_attr, _old, new):
-        if new:
+        if 0 in new:
            redef_ub_ti.disabled = False
        else:
            redef_ub_ti.disabled = True
@ -369,8 +372,8 @@ def create():
    display_max_ni = NumericInput(title="max:", value=1, mode="float", width=70)
    display_max_ni.on_change("value", display_max_ni_callback)
-    def colormap_scale_rg_callback(selection):
+    def colormap_scale_rg_callback(_attr, _old, new):
-        if selection == 0:  # Linear
+        if new == 0:  # Linear
            plot_image.glyph.color_mapper = lin_color_mapper
            lin_color_bar.visible = True
            log_color_bar.visible = False
@ -384,7 +387,7 @@ def create():
                colormap_scale_rg.active = 0
    colormap_scale_rg = RadioGroup(labels=["Linear", "Logarithmic"], active=0, width=100)
-    colormap_scale_rg.on_click(colormap_scale_rg_callback)
+    colormap_scale_rg.on_change("active", colormap_scale_rg_callback)
    xrange_min_ni = NumericInput(title="x range min:", value=0, mode="float", width=70)
    xrange_max_ni = NumericInput(title="max:", value=1, mode="float", width=70)
@ -395,7 +398,7 @@ def create():
    yrange_step_ni = NumericInput(title="y mesh:", value=0.01, mode="float", width=70)
    def auto_range_cb_callback(_attr, _old, new):
-        if new:
+        if 0 in new:
            xrange_min_ni.disabled = True
            xrange_max_ni.disabled = True
            yrange_min_ni.disabled = True
--- a/pyzebra/app/panel_spind.py
+++ b/pyzebra/app/panel_spind.py
@ -21,6 +21,7 @@ import pyzebra
 def create():
    doc = curdoc()
    log = doc.logger
    events_data = doc.events_data
    npeaks_spinner = Spinner(title="Number of peaks from hdf_view panel:", disabled=True)
@ -63,8 +64,8 @@ def create():
                stderr=subprocess.STDOUT,
                text=True,
            )
-            print(" ".join(comp_proc.args))
+            log.info(" ".join(comp_proc.args))
-            print(comp_proc.stdout)
+            log.info(comp_proc.stdout)
            # prepare an event file
            diff_vec = []
@ -94,9 +95,9 @@ def create():
                        f"{x_pos} {y_pos} {intensity} {snr_cnts} {dv1} {dv2} {dv3} {d_spacing}\n"
                    )
-            print(f"Content of {temp_event_file}:")
+            log.info(f"Content of {temp_event_file}:")
            with open(temp_event_file) as f:
-                print(f.read())
+                log.info(f.read())
            comp_proc = subprocess.run(
                [
@ -123,8 +124,8 @@ def create():
                stderr=subprocess.STDOUT,
                text=True,
            )
-            print(" ".join(comp_proc.args))
+            log.info(" ".join(comp_proc.args))
-            print(comp_proc.stdout)
+            log.info(comp_proc.stdout)
            spind_out_file = os.path.join(temp_dir, "spind.txt")
            spind_res = dict(
@ -146,12 +147,12 @@ def create():
                        ub_matrices.append(ub_matrix_spind)
                        spind_res["ub_matrix"].append(str(ub_matrix_spind * 1e-10))
-                print(f"Content of {spind_out_file}:")
+                log.info(f"Content of {spind_out_file}:")
                with open(spind_out_file) as f:
-                    print(f.read())
+                    log.info(f.read())
            except FileNotFoundError:
-                print("No results from spind")
+                log.warning("No results from spind")
            results_table_source.data.update(spind_res)
--- a/pyzebra/app/plot_hkl.py
+++ b/pyzebra/app/plot_hkl.py
@ -3,6 +3,7 @@ import io
 import os
 import numpy as np
 from bokeh.io import curdoc
 from bokeh.layouts import column, row
 from bokeh.models import (
    Arrow,
@ -30,6 +31,9 @@ import pyzebra
 class PlotHKL:
    def __init__(self):
        doc = curdoc()
        log = doc.logger
        _update_slice = None
        measured_data_div = Div(text="Measured <b>CCL</b> data:")
        measured_data = FileInput(accept=".ccl", multiple=True, width=200)
@ -62,9 +66,9 @@ class PlotHKL:
            with io.StringIO(base64.b64decode(md_fdata[0]).decode()) as file:
                _, ext = os.path.splitext(md_fnames[0])
                try:
-                    file_data = pyzebra.parse_1D(file, ext)
+                    file_data = pyzebra.parse_1D(file, ext, log=log)
-                except:
+                except Exception as e:
-                    print(f"Error loading {md_fnames[0]}")
+                    log.exception(e)
                    return None
            alpha = file_data[0]["alpha_cell"] * np.pi / 180.0
@ -144,9 +148,9 @@ class PlotHKL:
                with io.StringIO(base64.b64decode(md_fdata[j]).decode()) as file:
                    _, ext = os.path.splitext(md_fname)
                    try:
-                        file_data = pyzebra.parse_1D(file, ext)
+                        file_data = pyzebra.parse_1D(file, ext, log=log)
-                    except:
+                    except Exception as e:
-                        print(f"Error loading {md_fname}")
+                        log.exception(e)
                        return None
                pyzebra.normalize_dataset(file_data)
@ -291,8 +295,8 @@ class PlotHKL:
                    _, ext = os.path.splitext(fname)
                    try:
                        fdata = pyzebra.parse_hkl(file, ext)
-                    except:
+                    except Exception as e:
-                        print(f"Error loading {fname}")
+                        log.exception(e)
                        return
                for ind in range(len(fdata["counts"])):
@ -441,7 +445,7 @@ class PlotHKL:
        plot_file = Button(label="Plot selected file(s)", button_type="primary", width=200)
        plot_file.on_click(plot_file_callback)
-        plot = figure(plot_height=550, plot_width=550 + 32, tools="pan,wheel_zoom,reset")
+        plot = figure(height=550, width=550 + 32, tools="pan,wheel_zoom,reset")
        plot.toolbar.logo = None
        plot.xaxis.visible = False
@ -517,7 +521,7 @@ class PlotHKL:
        tol_k_ni = NumericInput(title="k tolerance:", value=0.01, mode="float", width=100)
        def show_legend_cb_callback(_attr, _old, new):
-            plot.legend.visible = bool(new)
+            plot.legend.visible = 0 in new
        show_legend_cb = CheckboxGroup(labels=["Show legend"], active=[0])
        show_legend_cb.on_change("active", show_legend_cb_callback)
--- a/pyzebra/ccl_io.py
+++ b/pyzebra/ccl_io.py
@ -1,3 +1,4 @@
 import logging
 import os
 import re
 from ast import literal_eval
@ -5,44 +6,51 @@ from collections import defaultdict
 import numpy as np
 logger = logging.getLogger(__name__)
 META_VARS_STR = (
    "instrument",
    "title",
-    "sample",
+    "comment",
    "user",
-    "ProposalID",
+    "proposal_id",
    "original_filename",
    "date",
    "zebra_mode",
-    "proposal",
+    "zebramode",
-    "proposal_user",
+    "sample_name",
    "proposal_title",
    "proposal_email",
    "detectorDistance",
 )
 META_VARS_FLOAT = (
    "omega",
    "mf",
    "2-theta",
    "chi",
    "phi",
    "nu",
    "temp",
    "wavelength",
    "a",
    "b",
    "c",
    "alpha",
    "beta",
    "gamma",
    "omega",
    "chi",
    "phi",
    "temp",
    "mf",
    "temperature",
    "magnetic_field",
    "cex1",
    "cex2",
    "wavelength",
    "mexz",
    "moml",
    "mcvl",
    "momu",
    "mcvu",
    "2-theta",
    "twotheta",
    "nu",
    "gamma_angle",
    "polar_angle",
    "tilt_angle",
    "distance",
    "distance_an",
    "snv",
    "snh",
    "snvm",
@ -55,6 +63,13 @@ META_VARS_FLOAT = (
    "s2vb",
    "s2hr",
    "s2hl",
    "a5",
    "a6",
    "a4t",
    "s2ant",
    "s2anb",
    "s2anl",
    "s2anr",
 )
 META_UB_MATRIX = ("ub1j", "ub2j", "ub3j", "UB")
@ -99,7 +114,7 @@ def load_1D(filepath):
    return dataset
-def parse_1D(fileobj, data_type):
+def parse_1D(fileobj, data_type, log=logger):
    metadata = {"data_type": data_type}
    # read metadata
@ -116,13 +131,23 @@ def parse_1D(fileobj, data_type):
        var_name = var_name.strip()
        value = value.strip()
        if value == "UNKNOWN":
            metadata[var_name] = None
            continue
        try:
            if var_name in META_VARS_STR:
                if var_name == "zebramode":
                    var_name = "zebra_mode"
                metadata[var_name] = value
            elif var_name in META_VARS_FLOAT:
                if var_name == "2-theta":  # fix that angle name not to be an expression
                    var_name = "twotheta"
                if var_name == "temperature":
                    var_name = "temp"
                if var_name == "magnetic_field":
                    var_name = "mf"
                if var_name in ("a", "b", "c", "alpha", "beta", "gamma"):
                    var_name += "_cell"
                metadata[var_name] = float(value)
@ -137,7 +162,7 @@ def parse_1D(fileobj, data_type):
                    metadata["ub"][row, :] = list(map(float, value.split()))
        except Exception:
-            print(f"Error reading {var_name} with value '{value}'")
+            log.error(f"Error reading {var_name} with value '{value}'")
            metadata[var_name] = 0
    # handle older files that don't contain "zebra_mode" metadata
@ -202,15 +227,18 @@ def parse_1D(fileobj, data_type):
            dataset.append({**metadata, **scan})
    elif data_type == ".dat":
        # TODO: this might need to be adapted in the future, when "gamma" will be added to dat files
        if metadata["zebra_mode"] == "nb":
-            metadata["gamma"] = metadata["twotheta"]
+            if "gamma_angle" in metadata:
                # support for the new format
                metadata["gamma"] = metadata["gamma_angle"]
            else:
                metadata["gamma"] = metadata["twotheta"]
        scan = defaultdict(list)
        scan["export"] = True
        match = re.search("Scanning Variables: (.*), Steps: (.*)", next(fileobj))
-        motors = [motor.lower() for motor in match.group(1).split(", ")]
+        motors = [motor.strip().lower() for motor in match.group(1).split(",")]
        # Steps can be separated by " " or ", "
        steps = [float(step.strip(",")) for step in match.group(2).split()]
@ -272,7 +300,7 @@ def parse_1D(fileobj, data_type):
        dataset.append({**metadata, **scan})
    else:
-        print("Unknown file extention")
+        log.error("Unknown file extention")
    return dataset
--- a/pyzebra/ccl_process.py
+++ b/pyzebra/ccl_process.py
@ -1,3 +1,4 @@
 import logging
 import os
 import numpy as np
@ -6,6 +7,8 @@ from scipy.integrate import simpson, trapezoid
 from pyzebra import CCL_ANGLES
 logger = logging.getLogger(__name__)
 PARAM_PRECISIONS = {
    "twotheta": 0.1,
    "chi": 0.1,
@ -33,12 +36,12 @@ def normalize_dataset(dataset, monitor=100_000):
        scan["monitor"] = monitor
-def merge_duplicates(dataset):
+def merge_duplicates(dataset, log=logger):
-    merged = np.zeros(len(dataset), dtype=np.bool)
+    merged = np.zeros(len(dataset), dtype=bool)
    for ind_into, scan_into in enumerate(dataset):
        for ind_from, scan_from in enumerate(dataset[ind_into + 1 :], start=ind_into + 1):
            if _parameters_match(scan_into, scan_from) and not merged[ind_from]:
-                merge_scans(scan_into, scan_from)
+                merge_scans(scan_into, scan_from, log=log)
                merged[ind_from] = True
@ -75,28 +78,30 @@ def _parameters_match(scan1, scan2):
    return True
-def merge_datasets(dataset_into, dataset_from):
+def merge_datasets(dataset_into, dataset_from, log=logger):
    scan_motors_into = dataset_into[0]["scan_motors"]
    scan_motors_from = dataset_from[0]["scan_motors"]
    if scan_motors_into != scan_motors_from:
-        print(f"Scan motors mismatch between datasets: {scan_motors_into} vs {scan_motors_from}")
+        log.warning(
            f"Scan motors mismatch between datasets: {scan_motors_into} vs {scan_motors_from}"
        )
        return
-    merged = np.zeros(len(dataset_from), dtype=np.bool)
+    merged = np.zeros(len(dataset_from), dtype=bool)
    for scan_into in dataset_into:
        for ind, scan_from in enumerate(dataset_from):
            if _parameters_match(scan_into, scan_from) and not merged[ind]:
                if scan_into["counts"].ndim == 3:
-                    merge_h5_scans(scan_into, scan_from)
+                    merge_h5_scans(scan_into, scan_from, log=log)
                else:  # scan_into["counts"].ndim == 1
-                    merge_scans(scan_into, scan_from)
+                    merge_scans(scan_into, scan_from, log=log)
                merged[ind] = True
    for scan_from in dataset_from:
        dataset_into.append(scan_from)
-def merge_scans(scan_into, scan_from):
+def merge_scans(scan_into, scan_from, log=logger):
    if "init_scan" not in scan_into:
        scan_into["init_scan"] = scan_into.copy()
@ -148,10 +153,10 @@ def merge_scans(scan_into, scan_from):
    fname1 = os.path.basename(scan_into["original_filename"])
    fname2 = os.path.basename(scan_from["original_filename"])
-    print(f'Merging scans: {scan_into["idx"]} ({fname1}) <-- {scan_from["idx"]} ({fname2})')
+    log.info(f'Merging scans: {scan_into["idx"]} ({fname1}) <-- {scan_from["idx"]} ({fname2})')
-def merge_h5_scans(scan_into, scan_from):
+def merge_h5_scans(scan_into, scan_from, log=logger):
    if "init_scan" not in scan_into:
        scan_into["init_scan"] = scan_into.copy()
@ -160,7 +165,7 @@ def merge_h5_scans(scan_into, scan_from):
    for scan in scan_into["merged_scans"]:
        if scan_from is scan:
-            print("Already merged scan")
+            log.warning("Already merged scan")
            return
    scan_into["merged_scans"].append(scan_from)
@ -212,7 +217,7 @@ def merge_h5_scans(scan_into, scan_from):
    fname1 = os.path.basename(scan_into["original_filename"])
    fname2 = os.path.basename(scan_from["original_filename"])
-    print(f'Merging scans: {scan_into["idx"]} ({fname1}) <-- {scan_from["idx"]} ({fname2})')
+    log.info(f'Merging scans: {scan_into["idx"]} ({fname1}) <-- {scan_from["idx"]} ({fname2})')
 def restore_scan(scan):
@ -230,7 +235,7 @@ def restore_scan(scan):
        scan["export"] = True
-def fit_scan(scan, model_dict, fit_from=None, fit_to=None):
+def fit_scan(scan, model_dict, fit_from=None, fit_to=None, log=logger):
    if fit_from is None:
        fit_from = -np.inf
    if fit_to is None:
@ -243,7 +248,7 @@ def fit_scan(scan, model_dict, fit_from=None, fit_to=None):
    # apply fitting range
    fit_ind = (fit_from <= x_fit) & (x_fit <= fit_to)
    if not np.any(fit_ind):
-        print(f"No data in fit range for scan {scan['idx']}")
+        log.warning(f"No data in fit range for scan {scan['idx']}")
        return
    y_fit = y_fit[fit_ind]
--- a/pyzebra/h5.py
+++ b/pyzebra/h5.py
@ -47,9 +47,9 @@ def parse_h5meta(file):
                    if variable in META_STR:
                        pass
                    elif variable in META_CELL:
-                        value = np.array(value.split(",")[:6], dtype=np.float)
+                        value = np.array(value.split(",")[:6], dtype=float)
                    elif variable in META_MATRIX:
-                        value = np.array(value.split(",")[:9], dtype=np.float).reshape(3, 3)
+                        value = np.array(value.split(",")[:9], dtype=float).reshape(3, 3)
                    else:  # default is a single float number
                        value = float(value)
                    content[section][variable] = value
@ -69,7 +69,7 @@ def read_detector_data(filepath, cami_meta=None):
        ndarray: A 3D array of data, omega, gamma, nu.
    """
    with h5py.File(filepath, "r") as h5f:
-        counts = h5f["/entry1/area_detector2/data"][:].astype(np.float64)
+        counts = h5f["/entry1/area_detector2/data"][:].astype(float)
        n, cols, rows = counts.shape
        if "/entry1/experiment_identifier" in h5f:  # old format
@ -114,10 +114,14 @@ def read_detector_data(filepath, cami_meta=None):
        scan["nu"] = h5f["/entry1/ZEBRA/area_detector2/tilt_angle"][0]
        scan["ddist"] = h5f["/entry1/ZEBRA/area_detector2/distance"][0]
        scan["wave"] = h5f["/entry1/ZEBRA/monochromator/wavelength"][0]
-        scan["chi"] = h5f["/entry1/sample/chi"][:]
+        if scan["zebra_mode"] == "nb":
            scan["chi"] = np.array([180])
            scan["phi"] = np.array([0])
        elif scan["zebra_mode"] == "bi":
            scan["chi"] = h5f["/entry1/sample/chi"][:]
            scan["phi"] = h5f["/entry1/sample/phi"][:]
        if len(scan["chi"]) == 1:
            scan["chi"] = np.ones(n) * scan["chi"]
        scan["phi"] = h5f["/entry1/sample/phi"][:]
        if len(scan["phi"]) == 1:
            scan["phi"] = np.ones(n) * scan["phi"]
        if h5f["/entry1/sample/UB"].size == 0:
@ -144,11 +148,21 @@ def read_detector_data(filepath, cami_meta=None):
        if "/entry1/sample/magnetic_field" in h5f:
            scan["mf"] = h5f["/entry1/sample/magnetic_field"][:]
        if "mf" in scan:
            # TODO: NaNs are not JSON compliant, so replace them with None
            # this is not a great solution, but makes it safe to use the array in bokeh
            scan["mf"] = np.where(np.isnan(scan["mf"]), None, scan["mf"])
        if "/entry1/sample/temperature" in h5f:
            scan["temp"] = h5f["/entry1/sample/temperature"][:]
        elif "/entry1/sample/Ts/value" in h5f:
            scan["temp"] = h5f["/entry1/sample/Ts/value"][:]
        if "temp" in scan:
            # TODO: NaNs are not JSON compliant, so replace them with None
            # this is not a great solution, but makes it safe to use the array in bokeh
            scan["temp"] = np.where(np.isnan(scan["temp"]), None, scan["temp"])
        # overwrite metadata from .cami
        if cami_meta is not None:
            if "crystal" in cami_meta:
--- a/pyzebra/sxtal_refgen.py
+++ b/pyzebra/sxtal_refgen.py
@ -1,4 +1,5 @@
 import io
 import logging
 import os
 import subprocess
 import tempfile
@ -6,7 +7,9 @@ from math import ceil, floor
 import numpy as np
-SXTAL_REFGEN_PATH = "/afs/psi.ch/project/sinq/rhel7/bin/Sxtal_Refgen"
+logger = logging.getLogger(__name__)
 SXTAL_REFGEN_PATH = "/afs/psi.ch/project/sinq/rhel8/bin/Sxtal_Refgen"
 _zebraBI_default_geom = """GEOM          2 Bissecting - HiCHI
 BLFR          z-up
@ -144,7 +147,7 @@ def export_geom_file(path, ang_lims, template=None):
                    out_file.write(f"{'':<8}{ang:<10}{vals[0]:<10}{vals[1]:<10}{vals[2]:<10}\n")
-def calc_ub_matrix(params):
+def calc_ub_matrix(params, log=logger):
    with tempfile.TemporaryDirectory() as temp_dir:
        cfl_file = os.path.join(temp_dir, "ub_matrix.cfl")
@ -160,8 +163,8 @@ def calc_ub_matrix(params):
            stderr=subprocess.STDOUT,
            text=True,
        )
-        print(" ".join(comp_proc.args))
+        log.info(" ".join(comp_proc.args))
-        print(comp_proc.stdout)
+        log.info(comp_proc.stdout)
        sfa_file = os.path.join(temp_dir, "ub_matrix.sfa")
        ub_matrix = []
--- a/scripts/pyzebra-test.service
+++ b/scripts/pyzebra-test.service
@ -1,11 +0,0 @@
 [Unit]
 Description=pyzebra-test web server
 [Service]
 Type=simple
 User=pyzebra
 ExecStart=/bin/bash /usr/local/sbin/pyzebra-test.sh
 Restart=always
 [Install]
 WantedBy=multi-user.target
--- a/scripts/pyzebra-test.sh
+++ b/scripts/pyzebra-test.sh
@ -1,4 +0,0 @@
 source /opt/miniconda3/etc/profile.d/conda.sh
 conda activate test
 python /opt/pyzebra/pyzebra/app/cli.py --port=5010 --allow-websocket-origin=pyzebra.psi.ch:5010 --args --spind-path=/opt/spind
--- a/scripts/pyzebra.service
+++ b/scripts/pyzebra.service
@ -1,10 +0,0 @@
 [Unit]
 Description=pyzebra web server
 [Service]
 Type=simple
 ExecStart=/bin/bash /usr/local/sbin/pyzebra.sh
 Restart=always
 [Install]
 WantedBy=multi-user.target
--- a/scripts/pyzebra.sh
+++ b/scripts/pyzebra.sh
@ -1,4 +0,0 @@
 source /opt/miniconda3/etc/profile.d/conda.sh
 conda activate prod
 pyzebra --port=80 --allow-websocket-origin=pyzebra.psi.ch:80 --args --spind-path=/opt/spind
Author	SHA1	Message	Date
Ivan Usov	108c1aae2f	Updating for version 0.7.11 All checks were successful pyzebra CI/CD pipeline / prepare (push) Successful in 1s Details pyzebra CI/CD pipeline / prod-env (push) Successful in 1m30s Details pyzebra CI/CD pipeline / test-env (push) Has been skipped Details pyzebra CI/CD pipeline / cleanup (push) Successful in 1s Details	2025-04-08 18:19:58 +02:00
Ivan Usov	b82184b9e7	Switch from miniconda to miniforge All checks were successful pyzebra CI/CD pipeline / prepare (push) Successful in 0s Details pyzebra CI/CD pipeline / test-env (push) Successful in 1m28s Details pyzebra CI/CD pipeline / prod-env (push) Has been skipped Details pyzebra CI/CD pipeline / cleanup (push) Successful in 1s Details	2025-04-08 17:57:53 +02:00
Ivan Usov	b6a43c3f3b	Remove scripts All checks were successful pyzebra CI/CD pipeline / prepare (push) Successful in 1s Details pyzebra CI/CD pipeline / test-env (push) Successful in 1m42s Details pyzebra CI/CD pipeline / prod-env (push) Has been skipped Details pyzebra CI/CD pipeline / cleanup (push) Successful in 0s Details This is an outdated way of pyzebra deployment	2025-04-08 17:33:37 +02:00
Ivan Usov	18b692a62e	Replace gitlab with gitea workflow All checks were successful pyzebra CI/CD pipeline / prepare (push) Successful in 1s Details pyzebra CI/CD pipeline / test-env (push) Successful in 1m41s Details pyzebra CI/CD pipeline / prod-env (push) Has been skipped Details pyzebra CI/CD pipeline / cleanup (push) Successful in 0s Details	2025-04-08 17:03:01 +02:00
Ivan Usov	c2d6f6b259	Revert "Install via a direct package path" This reverts commit dfa6bfe926ef99f9650b7d1d3e99c8373d9c9415.	2025-02-12 11:43:15 +01:00
Ivan Usov	60b90ec9e5	Always run cleanup job [skip ci]	2025-02-11 18:12:27 +01:00
Ivan Usov	1fc30ae3e1	Build conda packages in CI_BUILDS_DIR	2025-02-11 18:10:13 +01:00
Ivan Usov	dfa6bfe926	Install via a direct package path	2025-02-11 18:07:57 +01:00
Ivan Usov	ed3f58436b	Push release commit and tag [skip ci]	2024-11-19 16:25:10 +01:00
Ivan Usov	68f7b429f7	Extract default branch name	2024-11-19 15:29:51 +01:00
Ivan Usov	e5030902c7	Infer path of file with version from path of release script	2024-11-19 15:26:56 +01:00
Ivan Usov	60f01d9dd8	Revert "Utility style fix" This reverts commit dc1f2a92cc454aa045da38210c2b26382dc80264.	2024-09-09 00:06:28 +02:00
Ivan Usov	bd429393a5	Clean build folder [skip ci]	2024-09-08 23:50:46 +02:00
Ivan Usov	9e3ffd6230	Updating for version 0.7.10	2024-09-08 23:40:15 +02:00
Ivan Usov	bdc71f15c1	Build in separate folders for prod and test envs	2024-09-08 23:39:08 +02:00
Ivan Usov	c3398ef4e5	Fix anaconda upload	2024-09-08 22:32:51 +02:00
Ivan Usov	9b33f1152b	Fix tagged prod deployments	2024-09-08 22:32:51 +02:00
Ivan Usov	dc1f2a92cc	Utility style fix	2024-09-05 17:26:47 +02:00
Ivan Usov	e9ae52bb60	Use locally built package in deployment [skip ci]	2024-09-05 15:00:04 +02:00
Ivan Usov	982887ab85	Split build-and-publish job [skip ci]	2024-09-05 14:58:01 +02:00
Ivan Usov	19e934e873	Run pipeline only on default branch changes	2024-09-05 13:21:11 +02:00
Ivan Usov	8604d695c6	Extract conda activation into before_script [skip ci]	2024-09-05 11:11:40 +02:00
Ivan Usov	a55295829f	Add cleanup stage [skip ci]	2024-09-05 11:05:13 +02:00
Ivan Usov	4181d597a8	Fix home link [skip ci]	2024-07-12 11:34:53 +02:00
Ivan Usov	c4869fb0cd	Delay deploy-prod job by 1 min conda doesn't show a newly uploaded package after only 5 sec	2024-07-12 11:04:54 +02:00
Ivan Usov	80e75d9ef9	Updating for version 0.7.9	2024-07-12 10:52:07 +02:00
Ivan Usov	eb2177215b	Fix make_release script	2024-07-12 10:52:01 +02:00
Ivan Usov	89fb4f054f	Translate metadata entry zebramode -> zebra_mode	2024-07-11 16:39:37 +02:00
Ivan Usov	019a36bbb7	Split motors on comma with any whitespace around	2024-06-07 15:57:27 +02:00
Ivan Usov	58a704764a	Fix KeyError if 'mf' or 'temp' not in data	2024-06-04 14:17:34 +02:00
Ivan Usov	144b37ba09	Use rhel8 builds of anatric and Sxtal_Refgen	2024-05-22 16:34:56 +02:00
usov_i	48114a0dd9	Rename master -> main in .gitlab-ci.yml	2024-05-22 16:26:55 +02:00
usov_i	0fee06f2d6	Update .gitlab-ci.yml	2024-05-21 13:34:20 +02:00
Ivan Usov	31b4b0bb5f	Remove github workflow	2024-03-01 10:26:25 +01:00
Ivan Usov	a6611976e1	Fix missing log args	2023-11-29 14:10:35 +01:00
Ivan Usov	9b48fb7a24	Isolate loggers per document	2023-11-21 18:54:59 +01:00
Ivan Usov	14d122b947	Simplify path assembly to app folder	2023-11-21 15:09:51 +01:00
Ivan Usov	bff44a7461	Don't show server output	2023-11-21 15:09:39 +01:00
Ivan Usov	eae8a1bde4	Handle NaNs in magnetic_field/temp for hdf data Fix #58	2023-09-29 17:17:14 +02:00
OZaharko	a1c1de4adf	Change Titles	2023-08-16 17:35:58 +02:00
Romain Sibille	9e6fc04d63	Updating for version 0.7.8	2023-08-16 17:15:16 +02:00
Romain Sibille	779426f4bb	add bokeh word to server output	2023-08-16 16:59:44 +02:00
Ivan Usov	1a5d61a9f7	Update .gitlab-ci.yml	2023-08-16 14:18:59 +02:00
Ivan Usov	b41ab102b1	Updating for version 0.7.7	2023-08-03 14:24:39 +02:00
Ivan Usov	bc791b1028	fix y axis label in projection plot of hdf_param_study similar to 6164be16f0f3356d22d6195b39a59b08282c36f0	2023-08-03 14:24:06 +02:00
Ivan Usov	3ab4420912	Update .gitlab-ci.yml	2023-08-02 16:04:53 +02:00
Romain Sibille	90552cee2c	Updating for version 0.7.6	2023-08-02 15:17:06 +02:00
Romain Sibille	6164be16f0	fix y axis label in projection plot	2023-08-02 14:41:49 +02:00
Ivan Usov	07f03a2a04	Add .gitlab-ci.yml	2023-07-27 15:17:31 +02:00
Ivan Usov	f89267b5ec	Updating for version 0.7.5	2023-07-02 22:59:36 +02:00
Ivan Usov	8e6cef32b5	Use libmamba solver	2023-07-02 22:59:11 +02:00
Ivan Usov	e318055304	Replace depricated dtype aliases For numpy>=1.20	2023-07-02 22:32:43 +02:00
Ivan Usov	015eb095a4	Prepare for transition to bokeh/3 * Rename plot_height -> height * Rename plot_width -> width * Replace on_click callbacks of RadioGroup and CheckboxGroup	2023-06-20 15:54:47 +02:00
Ivan Usov	d145f9107d	Drop python/3.7 support	2023-06-20 14:52:26 +02:00
Ivan Usov	d1a0ba6fec	Fix for gamma with the new data format Fix #57	2023-06-06 13:53:10 +02:00
Ivan Usov	2e2677d856	Set chi=180, phi=0 for nb geometry	2023-06-01 16:18:50 +02:00
Ivan Usov	a165167902	Updating for version 0.7.4	2023-05-25 13:51:29 +02:00
Ivan Usov	0b88ab0c7f	Use scan["nu"] as a scalar Fix #53	2023-05-23 08:56:18 +02:00
Ivan Usov	59d392c9ec	Update to a new data format in ccl/dat files	2023-05-16 11:26:08 +02:00