parouby
/
acoused
mirror of https://forgemia.inra.fr/theophile.terraz/acoused
1
0
Fork 0
Code Issues Packages Projects Releases Activity

Sediment calibration: Re-enable compute depth 2D.

dev-parouby
Pierre-Antoine 2025-03-26 11:00:45 +01:00
parent f97241784f
commit 7a41eace33
1 changed files with 149 additions and 152 deletions
Show Stats Download Patch File Download Diff File Expand all files Collapse all files

301
View/sediment_calibration_tab.py
View File

@ -876,7 +876,7 @@ class SedimentCalibrationTab(QWidget):
return
self.update_acoustic_data()
# self.compute_depth_2D()
self.compute_depth_2D()
def update_acoustic_data(self):
self.combobox_acoustic_data_choice.clear()
@ -934,11 +934,13 @@ class SedimentCalibrationTab(QWidget):
self.compute_FCB()
def plot_acoustic_recording(self):
data_id = self.combobox_acoustic_data_choice.currentIndex()
# --- Record frequencies for calibration ---
stg.frequencies_for_calibration.clear()
stg.frequencies_for_calibration.append(
(
stg.freq[self.combobox_acoustic_data_choice.currentIndex()][
stg.freq[data_id][
self.combobox_freq1.currentIndex()
],
self.combobox_freq1.currentIndex()
@ -946,7 +948,7 @@ class SedimentCalibrationTab(QWidget):
)
stg.frequencies_for_calibration.append(
(
stg.freq[self.combobox_acoustic_data_choice.currentIndex()][
stg.freq[data_id][
self.combobox_freq2.currentIndex()
],
self.combobox_freq2.currentIndex()
@ -955,7 +957,7 @@ class SedimentCalibrationTab(QWidget):
stg.frequency_for_inversion = tuple()
stg.frequency_for_inversion = (
stg.freq[self.combobox_acoustic_data_choice.currentIndex()][
stg.freq[data_id][
self.combobox_freq2.currentIndex()
],
self.combobox_freq2.currentIndex()
@ -973,18 +975,18 @@ class SedimentCalibrationTab(QWidget):
self.verticalLayout_groupbox_data_plot.addWidget(self.canvas_BS)
if stg.BS_stream_bed_pre_process_average[
self.combobox_acoustic_data_choice.currentIndex()
data_id
].shape != (0,):
val_min = np.nanmin(
stg.BS_stream_bed_pre_process_average[
self.combobox_acoustic_data_choice.currentIndex()
data_id
][
self.combobox_freq2.currentIndex(), :, :
]
)
val_max = np.nanmax(
stg.BS_stream_bed_pre_process_average[
self.combobox_acoustic_data_choice.currentIndex()
data_id
][
self.combobox_freq2.currentIndex(), :, :
]
@ -992,346 +994,346 @@ class SedimentCalibrationTab(QWidget):
if val_min == 0:
val_min = 1e-5
if stg.time_cross_section[self.combobox_acoustic_data_choice.currentIndex()].shape != (0,):
if stg.depth_cross_section[self.combobox_acoustic_data_choice.currentIndex()].shape != (0,):
if stg.time_cross_section[data_id].shape != (0,):
if stg.depth_cross_section[data_id].shape != (0,):
self.axis_BS.pcolormesh(
stg.time_cross_section[self.combobox_acoustic_data_choice.currentIndex()][
stg.time_cross_section[data_id][
self.combobox_freq2.currentIndex(), :],
-stg.depth_cross_section[self.combobox_acoustic_data_choice.currentIndex()][
-stg.depth_cross_section[data_id][
self.combobox_freq2.currentIndex(), :],
stg.BS_stream_bed_pre_process_average[self.combobox_acoustic_data_choice.currentIndex()][
stg.BS_stream_bed_pre_process_average[data_id][
self.combobox_freq2.currentIndex(), :, :],
cmap='viridis', norm=LogNorm(vmin=val_min, vmax=val_max))
else:
self.axis_BS.pcolormesh(
stg.time_cross_section[self.combobox_acoustic_data_choice.currentIndex()][
stg.time_cross_section[data_id][
self.combobox_freq2.currentIndex(), :],
-stg.depth[self.combobox_acoustic_data_choice.currentIndex()][
-stg.depth[data_id][
self.combobox_freq2.currentIndex(), :],
stg.BS_stream_bed_pre_process_average[self.combobox_acoustic_data_choice.currentIndex()][
stg.BS_stream_bed_pre_process_average[data_id][
self.combobox_freq2.currentIndex(), :, :],
cmap='viridis', norm=LogNorm(vmin=val_min, vmax=val_max))
else:
if stg.depth_cross_section[self.combobox_acoustic_data_choice.currentIndex()].shape != (0,):
if stg.depth_cross_section[data_id].shape != (0,):
self.axis_BS.pcolormesh(
stg.time[self.combobox_acoustic_data_choice.currentIndex()][
stg.time[data_id][
self.combobox_freq2.currentIndex(), :],
-stg.depth_cross_section[self.combobox_acoustic_data_choice.currentIndex()][
-stg.depth_cross_section[data_id][
self.combobox_freq2.currentIndex(), :],
stg.BS_stream_bed_pre_process_average[self.combobox_acoustic_data_choice.currentIndex()][
stg.BS_stream_bed_pre_process_average[data_id][
self.combobox_freq2.currentIndex(), :, :],
cmap='viridis', norm=LogNorm(vmin=val_min, vmax=val_max))
else:
self.axis_BS.pcolormesh(
stg.time[self.combobox_acoustic_data_choice.currentIndex()][
stg.time[data_id][
self.combobox_freq2.currentIndex(), :],
-stg.depth[self.combobox_acoustic_data_choice.currentIndex()][
-stg.depth[data_id][
self.combobox_freq2.currentIndex(), :],
stg.BS_stream_bed_pre_process_average[self.combobox_acoustic_data_choice.currentIndex()][
stg.BS_stream_bed_pre_process_average[data_id][
self.combobox_freq2.currentIndex(), :, :],
cmap='viridis', norm=LogNorm(vmin=val_min, vmax=val_max))
elif stg.BS_stream_bed_pre_process_SNR[self.combobox_acoustic_data_choice.currentIndex()].shape != (0,):
elif stg.BS_stream_bed_pre_process_SNR[data_id].shape != (0,):
val_min = np.nanmin(
stg.BS_stream_bed_pre_process_SNR[self.combobox_acoustic_data_choice.currentIndex()][
stg.BS_stream_bed_pre_process_SNR[data_id][
self.combobox_freq2.currentIndex(), :, :])
val_max = np.nanmax(
stg.BS_stream_bed_pre_process_SNR[self.combobox_acoustic_data_choice.currentIndex()][
stg.BS_stream_bed_pre_process_SNR[data_id][
self.combobox_freq2.currentIndex(), :, :])
if val_min == 0:
val_min = 1e-5
if stg.time_cross_section[self.combobox_acoustic_data_choice.currentIndex()].shape != (0,):
if stg.depth_cross_section[self.combobox_acoustic_data_choice.currentIndex()].shape != (0,):
if stg.time_cross_section[data_id].shape != (0,):
if stg.depth_cross_section[data_id].shape != (0,):
self.axis_BS.pcolormesh(
stg.time_cross_section[self.combobox_acoustic_data_choice.currentIndex()][
stg.time_cross_section[data_id][
self.combobox_freq2.currentIndex(), :],
-stg.depth_cross_section[self.combobox_acoustic_data_choice.currentIndex()][
-stg.depth_cross_section[data_id][
self.combobox_freq2.currentIndex(), :],
stg.BS_stream_bed_pre_process_SNR[self.combobox_acoustic_data_choice.currentIndex()][
stg.BS_stream_bed_pre_process_SNR[data_id][
self.combobox_freq2.currentIndex(), :, :],
cmap='viridis', norm=LogNorm(vmin=val_min, vmax=val_max))
else:
self.axis_BS.pcolormesh(
stg.time_cross_section[self.combobox_acoustic_data_choice.currentIndex()][
stg.time_cross_section[data_id][
self.combobox_freq2.currentIndex(), :],
-stg.depth[self.combobox_acoustic_data_choice.currentIndex()][
-stg.depth[data_id][
self.combobox_freq2.currentIndex(), :],
stg.BS_stream_bed_pre_process_SNR[self.combobox_acoustic_data_choice.currentIndex()][
stg.BS_stream_bed_pre_process_SNR[data_id][
self.combobox_freq2.currentIndex(), :, :],
cmap='viridis', norm=LogNorm(vmin=val_min, vmax=val_max))
else:
if stg.depth_cross_section[self.combobox_acoustic_data_choice.currentIndex()].shape != (0,):
if stg.depth_cross_section[data_id].shape != (0,):
self.axis_BS.pcolormesh(
stg.time[self.combobox_acoustic_data_choice.currentIndex()][
stg.time[data_id][
self.combobox_freq2.currentIndex(), :],
-stg.depth_cross_section[self.combobox_acoustic_data_choice.currentIndex()][
-stg.depth_cross_section[data_id][
self.combobox_freq2.currentIndex(), :],
stg.BS_stream_bed_pre_process_SNR[self.combobox_acoustic_data_choice.currentIndex()][
stg.BS_stream_bed_pre_process_SNR[data_id][
self.combobox_freq2.currentIndex(), :, :],
cmap='viridis', norm=LogNorm(vmin=val_min, vmax=val_max))
else:
self.axis_BS.pcolormesh(
stg.time[self.combobox_acoustic_data_choice.currentIndex()][
stg.time[data_id][
self.combobox_freq2.currentIndex(), :],
-stg.depth[self.combobox_acoustic_data_choice.currentIndex()][
-stg.depth[data_id][
self.combobox_freq2.currentIndex(), :],
stg.BS_stream_bed_pre_process_SNR[self.combobox_acoustic_data_choice.currentIndex()][
stg.BS_stream_bed_pre_process_SNR[data_id][
self.combobox_freq2.currentIndex(), :, :],
cmap='viridis', norm=LogNorm(vmin=val_min, vmax=val_max))
elif stg.BS_stream_bed[self.combobox_acoustic_data_choice.currentIndex()].shape != (0,):
elif stg.BS_stream_bed[data_id].shape != (0,):
val_min = np.nanmin(
stg.BS_stream_bed[self.combobox_acoustic_data_choice.currentIndex()][self.combobox_freq2.currentIndex(),
stg.BS_stream_bed[data_id][self.combobox_freq2.currentIndex(),
:, :])
val_max = np.nanmax(
stg.BS_stream_bed[self.combobox_acoustic_data_choice.currentIndex()][self.combobox_freq2.currentIndex(),
stg.BS_stream_bed[data_id][self.combobox_freq2.currentIndex(),
:, :])
if val_min == 0:
val_min = 1e-5
if stg.time_cross_section[self.combobox_acoustic_data_choice.currentIndex()].shape != (0,):
if stg.depth_cross_section[self.combobox_acoustic_data_choice.currentIndex()].shape != (0,):
if stg.time_cross_section[data_id].shape != (0,):
if stg.depth_cross_section[data_id].shape != (0,):
self.axis_BS.pcolormesh(
stg.time_cross_section[self.combobox_acoustic_data_choice.currentIndex()][
stg.time_cross_section[data_id][
self.combobox_freq2.currentIndex(), :],
-stg.depth_cross_section[self.combobox_acoustic_data_choice.currentIndex()][
-stg.depth_cross_section[data_id][
self.combobox_freq2.currentIndex(), :],
stg.BS_stream_bed[self.combobox_acoustic_data_choice.currentIndex()][self.combobox_freq2.currentIndex(),
stg.BS_stream_bed[data_id][self.combobox_freq2.currentIndex(),
:, :],
cmap='viridis', norm=LogNorm(vmin=val_min, vmax=val_max))
else:
self.axis_BS.pcolormesh(
stg.time_cross_section[self.combobox_acoustic_data_choice.currentIndex()][
stg.time_cross_section[data_id][
self.combobox_freq2.currentIndex(), :],
-stg.depth[self.combobox_acoustic_data_choice.currentIndex()][
-stg.depth[data_id][
self.combobox_freq2.currentIndex(), :],
stg.BS_stream_bed[self.combobox_acoustic_data_choice.currentIndex()][self.combobox_freq2.currentIndex(),
stg.BS_stream_bed[data_id][self.combobox_freq2.currentIndex(),
:, :],
cmap='viridis', norm=LogNorm(vmin=val_min, vmax=val_max))
else:
if stg.depth_cross_section[self.combobox_acoustic_data_choice.currentIndex()].shape != (0,):
if stg.depth_cross_section[data_id].shape != (0,):
self.axis_BS.pcolormesh(
stg.time[self.combobox_acoustic_data_choice.currentIndex()][
stg.time[data_id][
self.combobox_freq2.currentIndex(), :],
-stg.depth_cross_section[self.combobox_acoustic_data_choice.currentIndex()][
-stg.depth_cross_section[data_id][
self.combobox_freq2.currentIndex(), :],
stg.BS_stream_bed[self.combobox_acoustic_data_choice.currentIndex()][self.combobox_freq2.currentIndex(),
stg.BS_stream_bed[data_id][self.combobox_freq2.currentIndex(),
:, :],
cmap='viridis', norm=LogNorm(vmin=val_min, vmax=val_max))
else:
self.axis_BS.pcolormesh(
stg.time[self.combobox_acoustic_data_choice.currentIndex()][
stg.time[data_id][
self.combobox_freq2.currentIndex(), :],
-stg.depth[self.combobox_acoustic_data_choice.currentIndex()][
-stg.depth[data_id][
self.combobox_freq2.currentIndex(), :],
stg.BS_stream_bed[self.combobox_acoustic_data_choice.currentIndex()][self.combobox_freq2.currentIndex(),
stg.BS_stream_bed[data_id][self.combobox_freq2.currentIndex(),
:, :],
cmap='viridis', norm=LogNorm(vmin=val_min, vmax=val_max))
elif stg.BS_cross_section_pre_process_average[self.combobox_acoustic_data_choice.currentIndex()].shape != (0,):
elif stg.BS_cross_section_pre_process_average[data_id].shape != (0,):
val_min = np.nanmin(
stg.BS_cross_section_pre_process_average[self.combobox_acoustic_data_choice.currentIndex()][
stg.BS_cross_section_pre_process_average[data_id][
self.combobox_freq2.currentIndex(), :, :])
val_max = np.nanmax(
stg.BS_cross_section_pre_process_average[self.combobox_acoustic_data_choice.currentIndex()][
stg.BS_cross_section_pre_process_average[data_id][
self.combobox_freq2.currentIndex(), :, :])
if val_min == 0:
val_min = 1e-5
if stg.time_cross_section[self.combobox_acoustic_data_choice.currentIndex()].shape != (0,):
if stg.depth_cross_section[self.combobox_acoustic_data_choice.currentIndex()].shape != (0,):
if stg.time_cross_section[data_id].shape != (0,):
if stg.depth_cross_section[data_id].shape != (0,):
self.axis_BS.pcolormesh(
stg.time_cross_section[self.combobox_acoustic_data_choice.currentIndex()][
stg.time_cross_section[data_id][
self.combobox_freq2.currentIndex(), :],
-stg.depth_cross_section[self.combobox_acoustic_data_choice.currentIndex()][
-stg.depth_cross_section[data_id][
self.combobox_freq2.currentIndex(), :],
stg.BS_cross_section_pre_process_average[self.combobox_acoustic_data_choice.currentIndex()][
stg.BS_cross_section_pre_process_average[data_id][
self.combobox_freq2.currentIndex(), :, :],
cmap='viridis', norm=LogNorm(vmin=val_min, vmax=val_max))
else:
self.axis_BS.pcolormesh(
stg.time_cross_section[self.combobox_acoustic_data_choice.currentIndex()][
stg.time_cross_section[data_id][
self.combobox_freq2.currentIndex(), :],
-stg.depth[self.combobox_acoustic_data_choice.currentIndex()][
-stg.depth[data_id][
self.combobox_freq2.currentIndex(), :],
stg.BS_cross_section_pre_process_average[self.combobox_acoustic_data_choice.currentIndex()][
stg.BS_cross_section_pre_process_average[data_id][
self.combobox_freq2.currentIndex(), :, :],
cmap='viridis', norm=LogNorm(vmin=val_min, vmax=val_max))
else:
if stg.depth_cross_section[self.combobox_acoustic_data_choice.currentIndex()].shape != (0,):
if stg.depth_cross_section[data_id].shape != (0,):
self.axis_BS.pcolormesh(
stg.time[self.combobox_acoustic_data_choice.currentIndex()][
stg.time[data_id][
self.combobox_freq2.currentIndex(), :],
-stg.depth_cross_section[self.combobox_acoustic_data_choice.currentIndex()][
-stg.depth_cross_section[data_id][
self.combobox_freq2.currentIndex(), :],
stg.BS_cross_section_pre_process_average[self.combobox_acoustic_data_choice.currentIndex()][
stg.BS_cross_section_pre_process_average[data_id][
self.combobox_freq2.currentIndex(), :, :],
cmap='viridis', norm=LogNorm(vmin=val_min, vmax=val_max))
else:
self.axis_BS.pcolormesh(
stg.time[self.combobox_acoustic_data_choice.currentIndex()][
stg.time[data_id][
self.combobox_freq2.currentIndex(), :],
-stg.depth[self.combobox_acoustic_data_choice.currentIndex()][
-stg.depth[data_id][
self.combobox_freq2.currentIndex(), :],
stg.BS_cross_section_pre_process_average[self.combobox_acoustic_data_choice.currentIndex()][
stg.BS_cross_section_pre_process_average[data_id][
self.combobox_freq2.currentIndex(), :, :],
cmap='viridis', norm=LogNorm(vmin=val_min, vmax=val_max))
elif stg.BS_cross_section_pre_process_SNR[self.combobox_acoustic_data_choice.currentIndex()].shape != (0,):
elif stg.BS_cross_section_pre_process_SNR[data_id].shape != (0,):
val_min = np.nanmin(
stg.BS_cross_section_pre_process_SNR[self.combobox_acoustic_data_choice.currentIndex()][
stg.BS_cross_section_pre_process_SNR[data_id][
self.combobox_freq2.currentIndex(), :, :])
val_max = np.nanmax(
stg.BS_cross_section_pre_process_SNR[self.combobox_acoustic_data_choice.currentIndex()][
stg.BS_cross_section_pre_process_SNR[data_id][
self.combobox_freq2.currentIndex(), :, :])
if val_min == 0:
val_min = 1e-5
if stg.time_cross_section[self.combobox_acoustic_data_choice.currentIndex()].shape != (0,):
if stg.depth_cross_section[self.combobox_acoustic_data_choice.currentIndex()].shape != (0):
if stg.time_cross_section[data_id].shape != (0,):
if stg.depth_cross_section[data_id].shape != (0):
self.axis_BS.pcolormesh(
stg.time_cross_section[self.combobox_acoustic_data_choice.currentIndex()][
stg.time_cross_section[data_id][
self.combobox_freq2.currentIndex(), :],
-stg.depth_cross_section[self.combobox_acoustic_data_choice.currentIndex()][
-stg.depth_cross_section[data_id][
self.combobox_freq2.currentIndex(), :],
stg.BS_cross_section_pre_process_SNR[self.combobox_acoustic_data_choice.currentIndex()][
stg.BS_cross_section_pre_process_SNR[data_id][
self.combobox_freq2.currentIndex(), :, :],
cmap='viridis', norm=LogNorm(vmin=val_min, vmax=val_max))
else:
self.axis_BS.pcolormesh(
stg.time_cross_section[self.combobox_acoustic_data_choice.currentIndex()][
stg.time_cross_section[data_id][
self.combobox_freq2.currentIndex(), :],
-stg.depth[self.combobox_acoustic_data_choice.currentIndex()][
-stg.depth[data_id][
self.combobox_freq2.currentIndex(), :],
stg.BS_cross_section_pre_process_SNR[self.combobox_acoustic_data_choice.currentIndex()][
stg.BS_cross_section_pre_process_SNR[data_id][
self.combobox_freq2.currentIndex(), :, :],
cmap='viridis', norm=LogNorm(vmin=val_min, vmax=val_max))
else:
if stg.depth_cross_section[self.combobox_acoustic_data_choice.currentIndex()].shape != (0):
if stg.depth_cross_section[data_id].shape != (0):
self.axis_BS.pcolormesh(
stg.time[self.combobox_acoustic_data_choice.currentIndex()][
stg.time[data_id][
self.combobox_freq2.currentIndex(), :],
-stg.depth_cross_section[self.combobox_acoustic_data_choice.currentIndex()][
-stg.depth_cross_section[data_id][
self.combobox_freq2.currentIndex(), :],
stg.BS_cross_section_pre_process_SNR[self.combobox_acoustic_data_choice.currentIndex()][
stg.BS_cross_section_pre_process_SNR[data_id][
self.combobox_freq2.currentIndex(), :, :],
cmap='viridis', norm=LogNorm(vmin=val_min, vmax=val_max))
else:
self.axis_BS.pcolormesh(
stg.time[self.combobox_acoustic_data_choice.currentIndex()][
stg.time[data_id][
self.combobox_freq2.currentIndex(), :],
-stg.depth[self.combobox_acoustic_data_choice.currentIndex()][
-stg.depth[data_id][
self.combobox_freq2.currentIndex(), :],
stg.BS_cross_section_pre_process_SNR[self.combobox_acoustic_data_choice.currentIndex()][
stg.BS_cross_section_pre_process_SNR[data_id][
self.combobox_freq2.currentIndex(), :, :],
cmap='viridis', norm=LogNorm(vmin=val_min, vmax=val_max))
elif stg.BS_cross_section[self.combobox_acoustic_data_choice.currentIndex()].shape != (0,):
elif stg.BS_cross_section[data_id].shape != (0,):
val_min = np.nanmin(
stg.BS_cross_section[self.combobox_acoustic_data_choice.currentIndex()][
stg.BS_cross_section[data_id][
self.combobox_freq2.currentIndex(), :, :])
val_max = np.nanmax(
stg.BS_cross_section[self.combobox_acoustic_data_choice.currentIndex()][
stg.BS_cross_section[data_id][
self.combobox_freq2.currentIndex(), :, :])
if val_min == 0:
val_min = 1e-5
if stg.time_cross_section[self.combobox_acoustic_data_choice.currentIndex()].shape != (0,):
if stg.depth_cross_section[self.combobox_acoustic_data_choice.currentIndex()].shape != (0,):
if stg.time_cross_section[data_id].shape != (0,):
if stg.depth_cross_section[data_id].shape != (0,):
self.axis_BS.pcolormesh(
stg.time_cross_section[self.combobox_acoustic_data_choice.currentIndex()][
stg.time_cross_section[data_id][
self.combobox_freq2.currentIndex(), :],
-stg.depth_cross_section[self.combobox_acoustic_data_choice.currentIndex()][
-stg.depth_cross_section[data_id][
self.combobox_freq2.currentIndex(), :],
stg.BS_cross_section[self.combobox_acoustic_data_choice.currentIndex()][
stg.BS_cross_section[data_id][
self.combobox_freq2.currentIndex(), :, :],
cmap='viridis', norm=LogNorm(vmin=val_min, vmax=val_max))
else:
self.axis_BS.pcolormesh(
stg.time_cross_section[self.combobox_acoustic_data_choice.currentIndex()][
stg.time_cross_section[data_id][
self.combobox_freq2.currentIndex(), :],
-stg.depth[self.combobox_acoustic_data_choice.currentIndex()][
-stg.depth[data_id][
self.combobox_freq2.currentIndex(), :],
stg.BS_cross_section[self.combobox_acoustic_data_choice.currentIndex()][
stg.BS_cross_section[data_id][
self.combobox_freq2.currentIndex(), :, :],
cmap='viridis', norm=LogNorm(vmin=val_min, vmax=val_max))
else:
if stg.depth_cross_section[self.combobox_acoustic_data_choice.currentIndex()].shape != (0,):
if stg.depth_cross_section[data_id].shape != (0,):
self.axis_BS.pcolormesh(
stg.time[self.combobox_acoustic_data_choice.currentIndex()][
stg.time[data_id][
self.combobox_freq2.currentIndex(), :],
-stg.depth_cross_section[self.combobox_acoustic_data_choice.currentIndex()][
-stg.depth_cross_section[data_id][
self.combobox_freq2.currentIndex(), :],
stg.BS_cross_section[self.combobox_acoustic_data_choice.currentIndex()][
stg.BS_cross_section[data_id][
self.combobox_freq2.currentIndex(), :, :],
cmap='viridis', norm=LogNorm(vmin=val_min, vmax=val_max))
else:
self.axis_BS.pcolormesh(
stg.time[self.combobox_acoustic_data_choice.currentIndex()][
stg.time[data_id][
self.combobox_freq2.currentIndex(), :],
-stg.depth[self.combobox_acoustic_data_choice.currentIndex()][
-stg.depth[data_id][
self.combobox_freq2.currentIndex(), :],
stg.BS_cross_section[self.combobox_acoustic_data_choice.currentIndex()][
stg.BS_cross_section[data_id][
self.combobox_freq2.currentIndex(), :, :],
cmap='viridis', norm=LogNorm(vmin=val_min, vmax=val_max))
elif stg.BS_raw_data_pre_process_average[self.combobox_acoustic_data_choice.currentIndex()].shape != (0,):
elif stg.BS_raw_data_pre_process_average[data_id].shape != (0,):
val_min = np.nanmin(stg.BS_raw_data_pre_process_average[self.combobox_acoustic_data_choice.currentIndex()][
val_min = np.nanmin(stg.BS_raw_data_pre_process_average[data_id][
self.combobox_freq2.currentIndex(), :, :])
val_max = np.nanmax(stg.BS_raw_data_pre_process_average[self.combobox_acoustic_data_choice.currentIndex()][
val_max = np.nanmax(stg.BS_raw_data_pre_process_average[data_id][
self.combobox_freq2.currentIndex(), :, :])
if val_min == 0:
val_min = 1e-5
self.axis_BS.pcolormesh(
stg.time[self.combobox_acoustic_data_choice.currentIndex()][self.combobox_freq2.currentIndex(), :],
-stg.depth[self.combobox_acoustic_data_choice.currentIndex()][self.combobox_freq2.currentIndex(), :],
stg.BS_raw_data_pre_process_average[self.combobox_acoustic_data_choice.currentIndex()][
stg.time[data_id][self.combobox_freq2.currentIndex(), :],
-stg.depth[data_id][self.combobox_freq2.currentIndex(), :],
stg.BS_raw_data_pre_process_average[data_id][
self.combobox_freq2.currentIndex(), :, :],
cmap='viridis', norm=LogNorm(vmin=val_min, vmax=val_max))
elif stg.BS_raw_data_pre_process_SNR[self.combobox_acoustic_data_choice.currentIndex()].shape != (0,):
elif stg.BS_raw_data_pre_process_SNR[data_id].shape != (0,):
val_min = np.nanmin(stg.BS_raw_data_pre_process_SNR[self.combobox_acoustic_data_choice.currentIndex()][
val_min = np.nanmin(stg.BS_raw_data_pre_process_SNR[data_id][
self.combobox_freq2.currentIndex(), :, :])
val_max = np.nanmax(stg.BS_raw_data_pre_process_SNR[self.combobox_acoustic_data_choice.currentIndex()][
val_max = np.nanmax(stg.BS_raw_data_pre_process_SNR[data_id][
self.combobox_freq2.currentIndex(), :, :])
if val_min == 0:
val_min = 1e-5
self.axis_BS.pcolormesh(
stg.time[self.combobox_acoustic_data_choice.currentIndex()][self.combobox_freq2.currentIndex(), :],
-stg.depth[self.combobox_acoustic_data_choice.currentIndex()][self.combobox_freq2.currentIndex(), :],
stg.BS_raw_data_pre_process_SNR[self.combobox_acoustic_data_choice.currentIndex()][
stg.time[data_id][self.combobox_freq2.currentIndex(), :],
-stg.depth[data_id][self.combobox_freq2.currentIndex(), :],
stg.BS_raw_data_pre_process_SNR[data_id][
self.combobox_freq2.currentIndex(), :, :],
cmap='viridis', norm=LogNorm(vmin=val_min, vmax=val_max))
elif stg.BS_raw_data[self.combobox_acoustic_data_choice.currentIndex()].shape != (0,):
elif stg.BS_raw_data[data_id].shape != (0,):
val_min = np.nanmin(stg.BS_raw_data[self.combobox_acoustic_data_choice.currentIndex()][
val_min = np.nanmin(stg.BS_raw_data[data_id][
self.combobox_freq2.currentIndex(), :, :])
val_max = np.nanmax(stg.BS_raw_data[self.combobox_acoustic_data_choice.currentIndex()][
val_max = np.nanmax(stg.BS_raw_data[data_id][
self.combobox_freq2.currentIndex(), :, :])
if val_min == 0:
val_min = 1e-5
self.axis_BS.pcolormesh(
stg.time[self.combobox_acoustic_data_choice.currentIndex()][self.combobox_freq2.currentIndex(), :],
-stg.depth[self.combobox_acoustic_data_choice.currentIndex()][self.combobox_freq2.currentIndex(), :],
stg.BS_raw_data[self.combobox_acoustic_data_choice.currentIndex()][
stg.time[data_id][self.combobox_freq2.currentIndex(), :],
-stg.depth[data_id][self.combobox_freq2.currentIndex(), :],
stg.BS_raw_data[data_id][
self.combobox_freq2.currentIndex(), :, :],
cmap='viridis', norm=LogNorm(vmin=val_min, vmax=val_max))
@ -1370,16 +1372,16 @@ class SedimentCalibrationTab(QWidget):
# --- Plot vertical red line for position of FCB profile ---
if stg.sand_sample_target_indice:
if stg.depth_cross_section[self.combobox_acoustic_data_choice.currentIndex()].shape != (0,):
if stg.depth_cross_section[data_id].shape != (0,):
if stg.time_cross_section[self.combobox_acoustic_data_choice.currentIndex()].shape != (0,):
if stg.time_cross_section[data_id].shape != (0,):
self.red_line_plot_return, = (
self.axis_BS.plot(
stg.time_cross_section[self.combobox_acoustic_data_choice.currentIndex()][
stg.time_cross_section[data_id][
self.combobox_freq2.currentIndex(), stg.sand_sample_target_indice[0][1]] *
np.ones(stg.depth_cross_section[self.combobox_acoustic_data_choice.currentIndex()].shape[1]),
-stg.depth_cross_section[self.combobox_acoustic_data_choice.currentIndex()][
np.ones(stg.depth_cross_section[data_id].shape[1]),
-stg.depth_cross_section[data_id][
self.combobox_freq2.currentIndex(), :],
color='red', linestyle="solid", linewidth=2))
@ -1387,23 +1389,23 @@ class SedimentCalibrationTab(QWidget):
self.red_line_plot_return, = (
self.axis_BS.plot(
stg.time[self.combobox_acoustic_data_choice.currentIndex()][
stg.time[data_id][
self.combobox_freq2.currentIndex(), stg.sand_sample_target_indice[0][1]] *
np.ones(stg.depth_cross_section[self.combobox_acoustic_data_choice.currentIndex()].shape[1]),
-stg.depth_cross_section[self.combobox_acoustic_data_choice.currentIndex()][
np.ones(stg.depth_cross_section[data_id].shape[1]),
-stg.depth_cross_section[data_id][
self.combobox_freq2.currentIndex(), :],
color='red', linestyle="solid", linewidth=2))
else:
if stg.time_cross_section[self.combobox_acoustic_data_choice.currentIndex()].shape != (0,):
if stg.time_cross_section[data_id].shape != (0,):
self.red_line_plot_return, = (
self.axis_BS.plot(
stg.time_cross_section[self.combobox_acoustic_data_choice.currentIndex()][
stg.time_cross_section[data_id][
self.combobox_freq2.currentIndex(), stg.sand_sample_target_indice[0][1]] *
np.ones(stg.depth[self.combobox_acoustic_data_choice.currentIndex()].shape[1]),
-stg.depth[self.combobox_acoustic_data_choice.currentIndex()][
np.ones(stg.depth[data_id].shape[1]),
-stg.depth[data_id][
self.combobox_freq2.currentIndex(), :],
color='red', linestyle="solid", linewidth=2))
@ -1411,10 +1413,10 @@ class SedimentCalibrationTab(QWidget):
self.red_line_plot_return, = (
self.axis_BS.plot(
stg.time[self.combobox_acoustic_data_choice.currentIndex()][
stg.time[data_id][
self.combobox_freq2.currentIndex(), stg.sand_sample_target_indice[0][1]] *
np.ones(stg.depth[self.combobox_acoustic_data_choice.currentIndex()].shape[1]),
-stg.depth[self.combobox_acoustic_data_choice.currentIndex()][
np.ones(stg.depth[data_id].shape[1]),
-stg.depth[data_id][
self.combobox_freq2.currentIndex(), :],
color='red', linestyle="solid", linewidth=2))
@ -1944,13 +1946,12 @@ class SedimentCalibrationTab(QWidget):
def compute_depth_2D(self):
if self.combobox_acoustic_data_choice.count() > 0:
for k in range(self.combobox_acoustic_data_choice.count()):
while len(stg.depth_2D) <= k:
stg.depth_2D.append(np.array([]))
if stg.depth_cross_section[k].shape != (0,):
if stg.time_cross_section[k].shape != (0,):
stg.depth_2D[k] = (
np.zeros((stg.freq[k].shape[0],
stg.depth_cross_section[k].shape[1],
@ -1964,7 +1965,6 @@ class SedimentCalibrationTab(QWidget):
axis=1))
elif stg.time[k].shape != (0,):
stg.depth_2D[k] = (
np.zeros((stg.freq[k].shape[0],
stg.depth_cross_section[k].shape[1],
@ -1979,9 +1979,7 @@ class SedimentCalibrationTab(QWidget):
axis=1))
elif stg.depth[k].shape != (0,):
if stg.time_cross_section[k].shape != (0,):
stg.depth_2D[k] = (
np.zeros((stg.freq[k].shape[0],
stg.depth[k].shape[1],
@ -1996,7 +1994,6 @@ class SedimentCalibrationTab(QWidget):
axis=1))
elif stg.time[self.combobox_acoustic_data_choice.currentIndex()].shape != (0,):
stg.depth_2D[k] = (
np.zeros((stg.freq[k].shape[0],
stg.depth[k].shape[1],