Note
Go to the end to download the full example code
EnsembleStat: Using Python Embedding
met_tool_wrapper/EnsembleStat/EnsembleStat_python _embedding.conf
Scientific Objective
To provide useful statistical information on the relationship between observation data (in both grid and point formats) to an ensemble forecast. These values can be used to help correct ensemble member deviations from observed values.
Datasets
METplus Components
This use case utilizes the METplus EnsembleStat wrapper to read in files using Python Embedding to demonstrate how to read in data this way.
METplus Workflow
EnsembleStat is the only tool called in this example. It processes a single run time with two ensemble members. The input data are simple text files with no timing information, so the list of ensembles simply duplicates the same file multiple times to demonstrate how data is read in via Python Embedding.
METplus Configuration
METplus first loads all of the configuration files found in parm/metplus_config, then it loads any configuration files passed to METplus via the command line with the -c option, i.e. -c parm/use_cases/met_tool_wrapper/EnsembleStat/EnsembleStat_python_embedding.conf
[config]
# Documentation for this use case can be found at
# https://metplus.readthedocs.io/en/latest/generated/met_tool_wrapper/EnsembleStat/EnsembleStat_python_embedding.html
# For additional information, please see the METplus Users Guide.
# https://metplus.readthedocs.io/en/latest/Users_Guide
###
# Processes to run
# https://metplus.readthedocs.io/en/latest/Users_Guide/systemconfiguration.html#process-list
###
PROCESS_LIST = EnsembleStat
###
# Time Info
# LOOP_BY options are INIT, VALID, RETRO, and REALTIME
# If set to INIT or RETRO:
# INIT_TIME_FMT, INIT_BEG, INIT_END, and INIT_INCREMENT must also be set
# If set to VALID or REALTIME:
# VALID_TIME_FMT, VALID_BEG, VALID_END, and VALID_INCREMENT must also be set
# LEAD_SEQ is the list of forecast leads to process
# https://metplus.readthedocs.io/en/latest/Users_Guide/systemconfiguration.html#timing-control
###
LOOP_BY = INIT
INIT_TIME_FMT = %Y%m%d%H
INIT_BEG=2009123112
INIT_END=2009123112
INIT_INCREMENT=3600
LEAD_SEQ = 24
###
# File I/O
# https://metplus.readthedocs.io/en/latest/Users_Guide/systemconfiguration.html#directory-and-filename-template-info
###
FCST_ENSEMBLE_STAT_INPUT_DATATYPE = PYTHON_NUMPY
OBS_ENSEMBLE_STAT_INPUT_GRID_DATATYPE = PYTHON_NUMPY
FCST_ENSEMBLE_STAT_INPUT_DIR = {INPUT_BASE}/met_test/data/python
FCST_ENSEMBLE_STAT_INPUT_TEMPLATE = fcst.txt, fcst.txt
OBS_ENSEMBLE_STAT_POINT_INPUT_DIR =
OBS_ENSEMBLE_STAT_POINT_INPUT_TEMPLATE =
OBS_ENSEMBLE_STAT_GRID_INPUT_DIR = {INPUT_BASE}/met_test/data/python
OBS_ENSEMBLE_STAT_GRID_INPUT_TEMPLATE = obs.txt
ENSEMBLE_STAT_CLIMO_MEAN_INPUT_DIR =
ENSEMBLE_STAT_CLIMO_MEAN_INPUT_TEMPLATE =
ENSEMBLE_STAT_CLIMO_STDEV_INPUT_DIR =
ENSEMBLE_STAT_CLIMO_STDEV_INPUT_TEMPLATE =
ENSEMBLE_STAT_OUTPUT_DIR = {OUTPUT_BASE}/met_tool_wrapper/EnsembleStat/ens_python_embedding
ENSEMBLE_STAT_OUTPUT_TEMPLATE =
OBS_FILE_WINDOW_BEGIN = 0
OBS_FILE_WINDOW_END = 0
###
# Field Info
# https://metplus.readthedocs.io/en/latest/Users_Guide/systemconfiguration.html#field-info
###
FCST_VAR1_NAME = {MET_INSTALL_DIR}/share/met/python/examples/read_ascii_numpy.py MET_PYTHON_INPUT_ARG FCST
OBS_VAR1_NAME = {MET_INSTALL_DIR}/share/met/python/examples/read_ascii_numpy.py MET_PYTHON_INPUT_ARG OBS
MODEL = FCST
OBTYPE = OBS
###
# EnsembleStat Settings
# https://metplus.readthedocs.io/en/latest/Users_Guide/wrappers.html#ensemblestat
###
ENSEMBLE_STAT_CONFIG_FILE = {PARM_BASE}/met_config/EnsembleStatConfig_wrapped
#LOG_ENSEMBLE_STAT_VERBOSITY = 2
#ENSEMBLE_STAT_DESC =
OBS_ENSEMBLE_STAT_WINDOW_BEGIN = -5400
OBS_ENSEMBLE_STAT_WINDOW_END = 5400
ENSEMBLE_STAT_N_MEMBERS = 2
ENSEMBLE_STAT_ENS_THRESH = 1.0
ENSEMBLE_STAT_VLD_THRESH = 1.0
ENSEMBLE_STAT_REGRID_TO_GRID = NONE
ENSEMBLE_STAT_OUTPUT_PREFIX = PYTHON
ENSEMBLE_STAT_OUTPUT_FLAG_ECNT = BOTH
ENSEMBLE_STAT_OUTPUT_FLAG_RPS = NONE
ENSEMBLE_STAT_OUTPUT_FLAG_RHIST = BOTH
ENSEMBLE_STAT_OUTPUT_FLAG_PHIST = BOTH
ENSEMBLE_STAT_OUTPUT_FLAG_ORANK = BOTH
ENSEMBLE_STAT_OUTPUT_FLAG_SSVAR = BOTH
ENSEMBLE_STAT_OUTPUT_FLAG_RELP = BOTH
ENSEMBLE_STAT_NC_ORANK_FLAG_LATLON = TRUE
ENSEMBLE_STAT_NC_ORANK_FLAG_MEAN = TRUE
ENSEMBLE_STAT_NC_ORANK_FLAG_RAW = TRUE
ENSEMBLE_STAT_NC_ORANK_FLAG_RANK = TRUE
ENSEMBLE_STAT_NC_ORANK_FLAG_PIT = TRUE
ENSEMBLE_STAT_NC_ORANK_FLAG_VLD_COUNT = TRUE
ENSEMBLE_STAT_NC_ORANK_FLAG_WEIGHT = FALSE
#ENSEMBLE_STAT_MET_OBS_ERR_TABLE =
ENSEMBLE_STAT_VERIFICATION_MASK_TEMPLATE =
MET_BASE/poly/HMT_masks/huc4_1605_poly.nc,
MET_BASE/poly/HMT_masks/huc4_1803_poly.nc,
MET_BASE/poly/HMT_masks/huc4_1804_poly.nc,
MET_BASE/poly/HMT_masks/huc4_1805_poly.nc,
MET_BASE/poly/HMT_masks/huc4_1806_poly.nc
MET Configuration
METplus sets environment variables based on user settings in the METplus configuration file. See How METplus controls MET config file settings for more details.
YOU SHOULD NOT SET ANY OF THESE ENVIRONMENT VARIABLES YOURSELF! THEY WILL BE OVERWRITTEN BY METPLUS WHEN IT CALLS THE MET TOOLS!
If there is a setting in the MET configuration file that is currently not supported by METplus you’d like to control, please refer to: Overriding Unsupported MET config file settings
Note
See the EnsembleStat MET Configuration section of the User’s Guide for more information on the environment variables used in the file below:
///////////////////////////////////////////////////////////////////////////////
//
// Ensemble-Stat configuration file.
//
// For additional information, see the MET_BASE/config/README file.
//
////////////////////////////////////////////////////////////////////////////////
//
// Output model name to be written
//
${METPLUS_MODEL}
//
// Output description to be written
// May be set separately in each "obs.field" entry
//
${METPLUS_DESC}
//
// Output observation type to be written
//
${METPLUS_OBTYPE}
////////////////////////////////////////////////////////////////////////////////
//
// Verification grid
//
${METPLUS_REGRID_DICT}
////////////////////////////////////////////////////////////////////////////////
//
// May be set separately in each "field" entry
//
${METPLUS_CENSOR_THRESH}
${METPLUS_CENSOR_VAL}
cat_thresh = [];
nc_var_str = "";
//ens_member_ids =
${METPLUS_ENS_MEMBER_IDS}
//control_id =
${METPLUS_CONTROL_ID}
////////////////////////////////////////////////////////////////////////////////
//prob_cat_thresh =
${METPLUS_PROB_CAT_THRESH}
//prob_pct_thresh =
${METPLUS_PROB_PCT_THRESH}
//eclv_points =
${METPLUS_ECLV_POINTS}
////////////////////////////////////////////////////////////////////////////////
//
// Forecast and observation fields to be verified
//
fcst = {
${METPLUS_FCST_FILE_TYPE}
${METPLUS_ENS_THRESH}
${METPLUS_VLD_THRESH}
${METPLUS_FCST_FIELD}
}
obs = {
${METPLUS_OBS_FILE_TYPE}
${METPLUS_OBS_FIELD}
}
////////////////////////////////////////////////////////////////////////////////
//
// Point observation filtering options
// May be set separately in each "obs.field" entry
//
//message_type =
${METPLUS_MESSAGE_TYPE}
sid_exc = [];
//obs_thresh =
${METPLUS_OBS_THRESH}
//obs_quality_inc =
${METPLUS_OBS_QUALITY_INC}
//obs_quality_exc =
${METPLUS_OBS_QUALITY_EXC}
//duplicate_flag =
${METPLUS_DUPLICATE_FLAG}
obs_summary = NONE;
obs_perc_value = 50;
//skip_const =
${METPLUS_SKIP_CONST}
//
// Observation error options
// Set dist_type to NONE to use the observation error table instead
// May be set separately in each "obs.field" entry
//
obs_error = {
//flag =
${METPLUS_OBS_ERROR_FLAG}
dist_type = NONE;
dist_parm = [];
inst_bias_scale = 1.0;
inst_bias_offset = 0.0;
min = NA; // Valid range of data
max = NA;
}
//
// Mapping of message type group name to comma-separated list of values.
//
message_type_group_map = [
{ key = "SURFACE"; val = "ADPSFC,SFCSHP,MSONET"; },
{ key = "ANYAIR"; val = "AIRCAR,AIRCFT"; },
{ key = "ANYSFC"; val = "ADPSFC,SFCSHP,ADPUPA,PROFLR,MSONET"; },
{ key = "ONLYSF"; val = "ADPSFC,SFCSHP"; }
];
//
// Ensemble bin sizes
// May be set separately in each "obs.field" entry
//
//ens_ssvar_bin_size =
${METPLUS_ENS_SSVAR_BIN_SIZE}
//ens_phist_bin_size =
${METPLUS_ENS_PHIST_BIN_SIZE}
////////////////////////////////////////////////////////////////////////////////
//
// Climatology data
//
//climo_mean = {
${METPLUS_CLIMO_MEAN_DICT}
//climo_stdev = {
${METPLUS_CLIMO_STDEV_DICT}
//
// May be set separately in each "obs.field" entry
//
//climo_cdf = {
${METPLUS_CLIMO_CDF_DICT}
////////////////////////////////////////////////////////////////////////////////
//
// Point observation time window
//
//obs_window = {
${METPLUS_OBS_WINDOW_DICT}
////////////////////////////////////////////////////////////////////////////////
//
// Verification masking regions
//
mask = {
//grid =
${METPLUS_MASK_GRID}
//poly =
${METPLUS_MASK_POLY}
sid = [];
llpnt = [];
}
////////////////////////////////////////////////////////////////////////////////
//
// Confidence interval settings
//
//ci_alpha =
${METPLUS_CI_ALPHA}
////////////////////////////////////////////////////////////////////////////////
//
// Interpolation methods
//
//interp = {
${METPLUS_INTERP_DICT}
////////////////////////////////////////////////////////////////////////////////
//
// Statistical output types
//
//output_flag = {
${METPLUS_OUTPUT_FLAG_DICT}
////////////////////////////////////////////////////////////////////////////////
//
// Gridded verification output types
// May be set separately in each "obs.field" entry
//
//nc_orank_flag = {
${METPLUS_NC_ORANK_FLAG_DICT}
////////////////////////////////////////////////////////////////////////////////
//
// Random number generator
//
rng = {
type = "mt19937";
seed = "1";
}
////////////////////////////////////////////////////////////////////////////////
//grid_weight_flag =
${METPLUS_GRID_WEIGHT_FLAG}
//output_prefix =
${METPLUS_OUTPUT_PREFIX}
//version = "V9.0";
////////////////////////////////////////////////////////////////////////////////
tmp_dir = "${MET_TMP_DIR}";
${METPLUS_MET_CONFIG_OVERRIDES}
Python Embedding
This use case calls a Python script to read the input data. The Python script is stored in the MET repository: /path/to/MET/installation/share/met/python/read_ascii_numpy.py
Running METplus
It is recommended to run this use case by:
Passing in EnsembleStat_python_embedding.conf then a user-specific system configuration file:
run_metplus.py -c /path/to/METplus/parm/use_cases/met_tool_wrapper/EnsembleStat/EnsembleStat_python_embedding.conf -c /path/to/user_system.conf
The following METplus configuration variables must be set correctly to run this example.:
INPUT_BASE - Path to directory where sample data tarballs are unpacked (See Datasets section to obtain tarballs).
OUTPUT_BASE - Path where METplus output will be written. This must be in a location where you have write permissions
MET_INSTALL_DIR - Path to location where MET is installed locally
Example User Configuration File:
[dir]
INPUT_BASE = /path/to/sample/input/data
OUTPUT_BASE = /path/to/output/dir
MET_INSTALL_DIR = /path/to/met-X.Y
NOTE: All of these items must be found under the [dir] section.
Expected Output
A successful run will output the following both to the screen and to the logfile:
INFO: METplus has successfully finished running.
Refer to the value set for OUTPUT_BASE to find where the output data was generated. Output for this use case will be found in met_tool_wrapper/EnsembleStat/ens_python_embedding (relative to OUTPUT_BASE) and will contain the following files:
ensemble_stat_PYTHON_20050807_120000V_ecnt.txt
ensemble_stat_PYTHON_20050807_120000V_ens.nc
ensemble_stat_PYTHON_20050807_120000V_orank.nc
ensemble_stat_PYTHON_20050807_120000V_phist.txt
ensemble_stat_PYTHON_20050807_120000V_relp.txt
ensemble_stat_PYTHON_20050807_120000V_rhist.txt
ensemble_stat_PYTHON_20050807_120000V_ssvar.txt
ensemble_stat_PYTHON_20050807_120000V.stat
Keywords
Note
EnsembleStatToolUseCase
PythonEmbeddingFileUseCase
EnsembleAppUseCase
ProbabilityGenerationAppUseCase
Navigate to the METplus Quick Search for Use Cases page to discover other similar use cases.
sphinx_gallery_thumbnail_path = ‘_static/met_tool_wrapper-EnsembleStat.png’
Total running time of the script: (0 minutes 0.000 seconds)