# This software is open source software available under the BSD-3 license.
#
# Copyright (c) 2020 Triad National Security, LLC. All rights reserved.
# Copyright (c) 2020 Lawrence Livermore National Security, LLC. All rights
# reserved.
# Copyright (c) 2020 UT-Battelle, LLC. All rights reserved.
#
# Additional copyright and license information can be found in the LICENSE file
# distributed with this code, or at
# https://raw.githubusercontent.com/MPAS-Dev/MPAS-Analysis/master/LICENSE
from __future__ import absolute_import, division, print_function, \
unicode_literals
import os
import xarray
import numpy
import matplotlib.pyplot as plt
from geometric_features import FeatureCollection, read_feature_collection
from mpas_analysis.shared.analysis_task import AnalysisTask
from mpas_analysis.shared.constants import constants
from mpas_analysis.shared.plot import timeseries_analysis_plot, savefig, \
add_inset
from mpas_analysis.shared.io import open_mpas_dataset, write_netcdf
from mpas_analysis.shared.io.utility import build_config_full_path, \
get_files_year_month, decode_strings, get_region_mask
from mpas_analysis.shared.html import write_image_xml
from mpas_analysis.shared.transects import ComputeTransectMasksSubtask
from mpas_analysis.shared.regions import get_feature_list
[docs]class TimeSeriesTransport(AnalysisTask): # {{{
"""
Extract and plot time series of transport through transects on the MPAS
mesh.
"""
# Authors
# -------
# Xylar Asay-Davis, Stephen Price
[docs] def __init__(self, config, controlConfig=None):
# {{{
"""
Construct the analysis task.
Parameters
----------
config : ``MpasAnalysisConfigParser``
Configuration options
controlConfig : ``MpasAnalysisConfigParser``, optional
Configuration options for a control run (if any)
"""
# Authors
# -------
# Xylar Asay-Davis
# first, call the constructor from the base class (AnalysisTask)
super(TimeSeriesTransport, self).__init__(
config=config,
taskName='timeSeriesTransport',
componentName='ocean',
tags=['timeSeries', 'transport'])
startYear = config.getint('timeSeries', 'startYear')
endYear = config.getint('timeSeries', 'endYear')
years = [year for year in range(startYear, endYear + 1)]
transportTransectFileName = \
get_region_mask(config, 'transportTransects20200621.geojson')
transectsToPlot = config.getExpression('timeSeriesTransport',
'transectsToPlot')
if 'all' in transectsToPlot:
transectsToPlot = get_feature_list(transportTransectFileName)
masksSubtask = ComputeTransectMasksSubtask(
self, transportTransectFileName,
outFileSuffix='transportTransects20200621')
self.add_subtask(masksSubtask)
# in the end, we'll combine all the time series into one, but we
# create this task first so it's easier to tell it to run after all
# the compute tasks
combineSubtask = CombineTransportSubtask(
self, startYears=years, endYears=years)
# run one subtask per year
for year in years:
computeSubtask = ComputeTransportSubtask(
self, startYear=year, endYear=year, masksSubtask=masksSubtask,
transectsToPlot=transectsToPlot)
self.add_subtask(computeSubtask)
computeSubtask.run_after(masksSubtask)
combineSubtask.run_after(computeSubtask)
for index, transect in enumerate(transectsToPlot):
plotTransportSubtask = PlotTransportSubtask(
self, transect, index, controlConfig, transportTransectFileName)
plotTransportSubtask.run_after(combineSubtask)
self.add_subtask(plotTransportSubtask)
# }}}
# }}}
class ComputeTransportSubtask(AnalysisTask): # {{{
"""
Computes time-series of transport through transects.
Attributes
----------
startYear, endYear : int
The beginning and end of the time series to compute
masksSubtask : ``ComputeRegionMasksSubtask``
A task for creating mask files for each ice shelf to plot
transectsToPlot : list of str
A list of transects to plot
"""
# Authors
# -------
# Xylar Asay-Davis, Stephen Price
def __init__(self, parentTask, startYear, endYear,
masksSubtask, transectsToPlot): # {{{
"""
Construct the analysis task.
Parameters
----------
parentTask : ``AnalysisTask``
The parent task, used to get the ``taskName``, ``config`` and
``componentName``
startYear, endYear : int
The beginning and end of the time series to compute
masksSubtask : ``ComputeRegionMasksSubtask``
A task for creating mask files for each ice shelf to plot
transectsToPlot : list of str
A list of transects to plot
"""
# Authors
# -------
# Xylar Asay-Davis
# first, call the constructor from the base class (AnalysisTask)
super(ComputeTransportSubtask, self).__init__(
config=parentTask.config,
taskName=parentTask.taskName,
componentName=parentTask.componentName,
tags=parentTask.tags,
subtaskName='computeTransport_{:04d}-{:04d}'.format(startYear,
endYear))
self.startYear = startYear
self.endYear = endYear
self.masksSubtask = masksSubtask
self.run_after(masksSubtask)
self.transectsToPlot = transectsToPlot
self.restartFileName = None
# }}}
def setup_and_check(self): # {{{
"""
Perform steps to set up the analysis and check for errors in the setup.
Raises
------
IOError
If a restart file is not present
ValueError
If ``config_land_ice_flux_mode`` is not one of ``standalone`` or
``coupled``
"""
# Authors
# -------
# Xylar Asay-Davis
# first, call setup_and_check from the base class (AnalysisTask),
# which will perform some common setup, including storing:
# self.inDirectory, self.plotsDirectory, self.namelist, self.streams
# self.calendar
super(ComputeTransportSubtask, self).setup_and_check()
self.check_analysis_enabled(
analysisOptionName='config_am_timeseriesstatsmonthly_enable',
raiseException=True)
# Load mesh related variables
try:
self.restartFileName = self.runStreams.readpath('restart')[0]
except ValueError:
raise IOError('No MPAS-O restart file found: need at least one '
'restart file for transport calculations')
# }}}
def run_task(self): # {{{
"""
Computes time-series of transport through transects.
"""
# Authors
# -------
# Xylar Asay-Davis, Stephen Price
self.logger.info("Computing time series of transport through "
"transects...")
config = self.config
startDate = '{:04d}-01-01_00:00:00'.format(self.startYear)
endDate = '{:04d}-12-31_23:59:59'.format(self.endYear)
outputDirectory = '{}/transport/'.format(
build_config_full_path(config, 'output', 'timeseriesSubdirectory'))
try:
os.makedirs(outputDirectory)
except OSError:
pass
outFileName = '{}/transport_{:04d}-{:04d}.nc'.format(
outputDirectory, self.startYear, self.endYear)
inputFiles = sorted(self.historyStreams.readpath(
'timeSeriesStatsMonthlyOutput', startDate=startDate,
endDate=endDate, calendar=self.calendar))
years, months = get_files_year_month(inputFiles,
self.historyStreams,
'timeSeriesStatsMonthlyOutput')
variableList = ['timeMonthly_avg_layerThickness']
with open_mpas_dataset(fileName=inputFiles[0],
calendar=self.calendar,
startDate=startDate,
endDate=endDate) as dsIn:
if 'timeMonthly_avg_normalTransportVelocity' in dsIn:
variableList.append('timeMonthly_avg_normalTransportVelocity')
elif 'timeMonthly_avg_normalGMBolusVelocity' in dsIn:
variableList = variableList + \
['timeMonthly_avg_normalVelocity',
'timeMonthly_avg_normalGMBolusVelocity']
else:
self.logger.warning('Cannot compute transport velocity. '
'Using advection velocity.')
variableList.append('timeMonthly_avg_normalVelocity')
outputExists = os.path.exists(outFileName)
outputValid = outputExists
if outputExists:
with open_mpas_dataset(fileName=outFileName,
calendar=self.calendar,
timeVariableNames=None,
variableList=None,
startDate=startDate,
endDate=endDate) as dsOut:
for inIndex in range(dsOut.dims['Time']):
mask = numpy.logical_and(
dsOut.year[inIndex].values == years,
dsOut.month[inIndex].values == months)
if numpy.count_nonzero(mask) == 0:
outputValid = False
break
if outputValid:
self.logger.info(' Time series exists -- Done.')
return
transectMaskFileName = self.masksSubtask.maskFileName
dsTransectMask = xarray.open_dataset(transectMaskFileName)
# figure out the indices of the transects to plot
maskTransectNames = decode_strings(dsTransectMask.transectNames)
dsMesh = xarray.open_dataset(self.restartFileName)
dvEdge = dsMesh.dvEdge
cellsOnEdge = dsMesh.cellsOnEdge - 1
timeDatasets = []
self.logger.info(' Computing transport...')
for fileName in inputFiles:
self.logger.info(' input file: {}'.format(fileName))
dsTimeSlice = open_mpas_dataset(
fileName=fileName,
calendar=self.calendar,
variableList=variableList,
startDate=startDate,
endDate=endDate)
transectDatasets = []
transectIndices = []
for transect in self.transectsToPlot:
self.logger.info(' transect: {}'.format(transect))
try:
transectIndex = maskTransectNames.index(transect)
except ValueError:
self.logger.warning(' Not found in masks. '
'Skipping.')
continue
transectIndices.append(transectIndex)
# select the current transect
dsMask = dsTransectMask.isel(nTransects=[transectIndex])
edgeIndices = dsMask.transectEdgeGlobalIDs - 1
edgeIndices = edgeIndices.where(edgeIndices >= 0,
drop=True).astype(int)
edgeSign = dsMask.transectEdgeMaskSigns.isel(
nEdges=edgeIndices)
dsIn = dsTimeSlice.isel(nEdges=edgeIndices)
dv = dvEdge.isel(nEdges=edgeIndices)
coe = cellsOnEdge.isel(nEdges=edgeIndices)
# work on data from simulations
if 'timeMonthly_avg_normalTransportVelocity' in dsIn:
vel = dsIn.timeMonthly_avg_normalTransportVelocity
elif 'timeMonthly_avg_normalGMBolusVelocity' in dsIn:
vel = (dsIn.timeMonthly_avg_normalVelocity +
dsIn.timeMonthly_avg_normalGMBolusVelocity)
else:
vel = dsIn.timeMonthly_avg_normalVelocity
# get layer thickness on edges by averaging adjacent cells
h = 0.5 * dsIn.timeMonthly_avg_layerThickness.isel(
nCells=coe).sum(dim='TWO')
edgeTransport = edgeSign * vel * h * dv
# convert from m^3/s to Sv
transport = (constants.m3ps_to_Sv * edgeTransport.sum(
dim=['maxEdgesInTransect', 'nVertLevels']))
dsOut = xarray.Dataset()
dsOut['transport'] = transport
dsOut.transport.attrs['units'] = 'Sv'
dsOut.transport.attrs['description'] = \
'Transport through transects'
transectDatasets.append(dsOut)
dsOut = xarray.concat(transectDatasets, 'nTransects')
timeDatasets.append(dsOut)
# combine data sets into a single data set
dsOut = xarray.concat(timeDatasets, 'Time')
dsOut.coords['transectNames'] = dsTransectMask.transectNames.isel(
nTransects=transectIndices)
dsOut.coords['year'] = (('Time'), years)
dsOut['year'].attrs['units'] = 'years'
dsOut.coords['month'] = (('Time'), months)
dsOut['month'].attrs['units'] = 'months'
write_netcdf(dsOut, outFileName)
# }}}
# }}}
class CombineTransportSubtask(AnalysisTask): # {{{
"""
Combine individual time series into a single data set
"""
# Authors
# -------
# Xylar Asay-Davis
def __init__(self, parentTask, startYears, endYears): # {{{
"""
Construct the analysis task.
Parameters
----------
parentTask : ``TimeSeriesOceanRegions``
The main task of which this is a subtask
startYears, endYears : list of int
The beginning and end of each time series to combine
"""
# Authors
# -------
# Xylar Asay-Davis
# first, call the constructor from the base class (AnalysisTask)
super(CombineTransportSubtask, self).__init__(
config=parentTask.config,
taskName=parentTask.taskName,
componentName=parentTask.componentName,
tags=parentTask.tags,
subtaskName='combineTimeSeries')
self.startYears = startYears
self.endYears = endYears
# }}}
def run_task(self): # {{{
"""
Combine the time series
"""
# Authors
# -------
# Xylar Asay-Davis
outputDirectory = '{}/transport/'.format(
build_config_full_path(self.config, 'output',
'timeseriesSubdirectory'))
outFileName = '{}/transport_{:04d}-{:04d}.nc'.format(
outputDirectory, self.startYears[0], self.endYears[-1])
if not os.path.exists(outFileName):
inFileNames = []
for startYear, endYear in zip(self.startYears, self.endYears):
inFileName = '{}/transport_{:04d}-{:04d}.nc'.format(
outputDirectory, startYear, endYear)
inFileNames.append(inFileName)
ds = xarray.open_mfdataset(inFileNames, combine='nested',
concat_dim='Time', decode_times=False)
ds.load()
write_netcdf(ds, outFileName)
# }}}
# }}}
class PlotTransportSubtask(AnalysisTask):
"""
Plots time-series output of transport through transects.
Attributes
----------
transect : str
Name of the transect to plot
transectIndex : int
The index into the dimension ``nTransects`` of the transect to plot
controlConfig : ``MpasAnalysisConfigParser``
The configuration options for the control run (if any)
"""
# Authors
# -------
# Xylar Asay-Davis, Stephen Price
def __init__(self, parentTask, transect, transectIndex, controlConfig,
transportTransectFileName):
# {{{
"""
Construct the analysis task.
Parameters
----------
parentTask : ``AnalysisTask``
The parent task, used to get the ``taskName``, ``config`` and
``componentName``
transect : str
Name of the transect to plot
transectIndex : int
The index into the dimension ``nTransects`` of the transect to plot
controlConfig : ``MpasAnalysisConfigParser``, optional
Configuration options for a control run (if any)
"""
# Authors
# -------
# Xylar Asay-Davis
# first, call the constructor from the base class (AnalysisTask)
super(PlotTransportSubtask, self).__init__(
config=parentTask.config,
taskName=parentTask.taskName,
componentName=parentTask.componentName,
tags=parentTask.tags,
subtaskName='plotTransport_{}'.format(transect.replace(' ', '_')))
self.transportTransectFileName = transportTransectFileName
self.transect = transect
self.transectIndex = transectIndex
self.controlConfig = controlConfig
# }}}
def setup_and_check(self): # {{{
"""
Perform steps to set up the analysis and check for errors in the setup.
Raises
------
IOError
If files are not present
"""
# Authors
# -------
# Xylar Asay-Davis
# first, call setup_and_check from the base class (AnalysisTask),
# which will perform some common setup, including storing:
# self.inDirectory, self.plotsDirectory, self.namelist, self.streams
# self.calendar
super(PlotTransportSubtask, self).setup_and_check()
self.xmlFileNames = ['{}/transport_{}.xml'.format(
self.plotsDirectory, self.transect.replace(' ', '_'))]
# }}}
def run_task(self): # {{{
"""
Plots time-series output of transport through transects.
"""
# Authors
# -------
# Xylar Asay-Davis, Stephen Price
self.logger.info("\nPlotting time series of transport through "
"{}...".format(self.transect))
self.logger.info(' Load transport data...')
obsDict = {'Drake Passage': [120, 175],
'Tasmania-Ant': [147, 167],
'Africa-Ant': None,
'Antilles Inflow': [-23.1, -13.7],
'Mona Passage': [-3.8, -1.4],
'Windward Passage': [-7.2, -6.8],
'Florida-Cuba': [30, 33],
'Florida-Bahamas': [30, 33],
'Indonesian Throughflow': [-21, -11],
'Agulhas': [-90, -50],
'Mozambique Channel': [-20, -8],
'Bering Strait': [0.6, 1.0],
'Lancaster Sound': [-1.0, -0.5],
'Fram Strait': [-4.7, 0.7],
'Davis Strait': [-1.6, -3.6],
'Barents Sea Opening': [1.4, 2.6],
'Nares Strait': [-1.8, 0.2]}
config = self.config
calendar = self.calendar
fcAll = read_feature_collection(self.transportTransectFileName)
fc = FeatureCollection()
for feature in fcAll.features:
if feature['properties']['name'] == self.transect:
fc.add_feature(feature)
break
transport, trans_mean, trans_std = self._load_transport(config)
if self.transect in obsDict:
bounds = obsDict[self.transect]
else:
bounds = None
plotControl = self.controlConfig is not None
mainRunName = config.get('runs', 'mainRunName')
movingAverageMonths = config.getint('timeSeriesTransport',
'movingAverageMonths')
self.logger.info(' Plotting...')
transectName = self.transect.replace('_', ' ')
title = transectName
thumbnailDescription = transectName
xLabel = 'Time (yr)'
yLabel = 'Transport (Sv)'
filePrefix = 'transport_{}'.format(self.transect.replace(' ', '_'))
outFileName = '{}/{}.png'.format(self.plotsDirectory, filePrefix)
fields = [transport]
lineColors = ['k']
lineWidths = [2.5]
meanString = 'mean={:.2f} $\pm$ {:.2f}'.format(trans_mean, trans_std)
if plotControl:
controlRunName = self.controlConfig.get('runs', 'mainRunName')
ref_transport, ref_mean, ref_std = \
self._load_transport(self.controlConfig)
refMeanString = 'mean={:.2f} $\pm$ {:.2f}'.format(ref_mean, ref_std)
fields.append(ref_transport)
lineColors.append('r')
lineWidths.append(1.2)
legendText = ['{} ({})'.format(mainRunName, meanString),
'{} ({})'.format(controlRunName, refMeanString)]
else:
legendText = [mainRunName]
title = '{} ({})'.format(title, meanString)
if config.has_option(self.taskName, 'firstYearXTicks'):
firstYearXTicks = config.getint(self.taskName,
'firstYearXTicks')
else:
firstYearXTicks = None
if config.has_option(self.taskName, 'yearStrideXTicks'):
yearStrideXTicks = config.getint(self.taskName,
'yearStrideXTicks')
else:
yearStrideXTicks = None
fig = timeseries_analysis_plot(config, fields, calendar=calendar,
title=title, xlabel=xLabel,
ylabel=yLabel,
movingAveragePoints=movingAverageMonths,
lineColors=lineColors,
lineWidths=lineWidths,
legendText=legendText,
firstYearXTicks=firstYearXTicks,
yearStrideXTicks=yearStrideXTicks)
if bounds is not None:
t = transport.Time.values
plt.gca().fill_between(t, bounds[0]*numpy.ones_like(t),
bounds[1]*numpy.ones_like(t), alpha=0.3,
label='observations')
plt.legend(loc='lower left')
# do this before the inset because otherwise it moves the inset
# and cartopy doesn't play too well with tight_layout anyway
plt.tight_layout()
add_inset(fig, fc, width=2.0, height=2.0)
savefig(outFileName)
caption = 'Transport through the {} Transect'.format(transectName)
write_image_xml(
config=config,
filePrefix=filePrefix,
componentName='Ocean',
componentSubdirectory='ocean',
galleryGroup='Transport Time Series',
groupLink='transporttime',
thumbnailDescription=thumbnailDescription,
imageDescription=caption,
imageCaption=caption)
# }}}
def _load_transport(self, config): # {{{
"""
Reads transport time series for this transect
"""
# Authors
# -------
# Xylar Asay-Davis
baseDirectory = build_config_full_path(
config, 'output', 'timeSeriesSubdirectory')
startYear = config.getint('timeSeries', 'startYear')
endYear = config.getint('timeSeries', 'endYear')
inFileName = '{}/transport/transport_{:04d}-{:04d}.nc'.format(
baseDirectory, startYear, endYear)
dsIn = xarray.open_dataset(inFileName)
transport = dsIn.transport.isel(nTransects=self.transectIndex)
mean = transport.mean().values
std = transport.std().values
return transport, mean, std # }}}
# }}}
# vim: foldmethod=marker ai ts=4 sts=4 et sw=4 ft=python