Esempio n. 1
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def TPI_masks(domain, region_nr):

    file = example_file(domain)
    TLAT = xr.open_dataset(file, decode_times=False).TLAT
    TLONG = xr.open_dataset(file, decode_times=False).TLONG
    MASK = boolean_mask(domain, mask_nr=0)
    if region_nr == 1:
        # (25N-45N, 140E-145W)
        MASK = np.where(TLAT > 25, MASK, 0)
        MASK = np.where(TLAT < 45, MASK, 0)
        MASK = np.where(TLONG > 140, MASK, 0)
        MASK = np.where(TLONG > 215, MASK, 0)
    elif region_nr == 2:
        # (10S-10N, 170E-90W)
        MASK = np.where(TLAT > -10, MASK, 0)
        MASK = np.where(TLAT < 10, MASK, 0)
        MASK = np.where(TLONG > 170, MASK, 0)
        MASK = np.where(TLONG > 270, MASK, 0)
    elif region_nr == 3:
        # (50S-15S, 150E-160W)
        MASK = np.where(TLAT > -50, MASK, 0)
        MASK = np.where(TLAT < -15, MASK, 0)
        MASK = np.where(TLONG > 150, MASK, 0)
        MASK = np.where(TLONG > 200, MASK, 0)
    return MASK
Esempio n. 2
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def TexT_mask(domain):
    file = example_file(domain)
    TLAT = xr.open_dataset(file, decode_times=False).TLAT
    MASK = boolean_mask(domain, mask_nr=0)
    MASK = np.where(TLAT > -60, MASK, 0)
    MASK = np.where(TLAT < 60, MASK, 0)
    return MASK
Esempio n. 3
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def Atlantic_mask(domain):
    assert domain in ['ocn', 'ocn_low']

    ds = xr.open_dataset(example_file(domain), decode_times=False)
    ATLANTIC_MASK = combine_mask(ds.REGION_MASK, [6, 8, 9])

    return ATLANTIC_MASK
Esempio n. 4
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def AMO_mask(domain):
    file = example_file(domain)
    TLAT = xr.open_dataset(file, decode_times=False).TLAT
    if domain == 'ocn_low':
        MASK = boolean_mask(domain, mask_nr=6)
    elif domain == 'ocn':
        MASK = Atlantic_mask(domain)
    MASK = np.where(TLAT > 0, MASK, 0)
    MASK = np.where(TLAT < 60, MASK, 0)
    return MASK
Esempio n. 5
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# high res ocean regions

import numpy as np
import xarray as xr

from xr_DataArrays import example_file, depth_lat_lon_names
from paths import path_samoc
from paths import file_ex_ocn_rect, file_RMASK_ocn, file_RMASK_ocn_rect, file_RMASK_ocn_low

ocn_file = example_file('ocn')

bll_AMO = ((0, 60), (-80, 0))  # (0-60N, 0-80W)
bll_N34 = ((-5, 5), (-170, -120))  # (5N-5S, 170W-120W)
bll_SOM = ((-50, -35), (-50, 0)
           )  # (50S-35S, 50W-0W)    `SOM` region in Le Bars et al. (2016)
bll_SMV = ((-80, -50), (-30, 80)
           )  # (80S-50S, 30W-80E)   `WGKP` region in Jüling et al. (2018)
bll_TPI1 = ((25, 40), (140, -145))  # (25N-45N, 140E-145W)
bll_TPI2 = ((-10, 10), (170, -90))  # (10S-10N, 170E-90W)
bll_TPI3 = ((-50, -15), (150, -160))  # (50S-15S, 150E-160W)

# 'ocn'
# AMO_area      = {'nlat':slice(1081,1858), 'nlon':slice( 500,1100)}  # North Atlantic (0-60N, 0-80W)
Drake_Passage = {'nlat': slice(268, 513), 'nlon': 410}
DP_North = {'nlat': 512, 'nlon': 410}
global_ocean = {'nlat': slice(0, 2400), 'nlon': slice(0, 3600)}  # global ocean
Nino12 = {
    'nlat': slice(1081, 1181),
    'nlon': slice(200, 300)
}  # Niño 1+2 (0-10S, 90W-80W)
Nino34 = {