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conftest.py
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conftest.py
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import pytest
import gempy.gempy_api as gempy
import gempy as gp
import os
input_path = os.path.dirname(__file__) + '/input_data'
input_path2 = os.path.dirname(__file__) + '/../examples/data/input_data/'
import numpy as np
np.random.seed(1234)
@pytest.fixture(scope='session')
def data_path():
return os.path.abspath(os.path.dirname(__file__) + '/input_data')
@pytest.fixture(scope='session')
def interpolator():
m = gp.create_model('JustInterpolator')
return gp.set_interpolator(m, theano_optimizer='fast_run')
@pytest.fixture(scope='session')
def interpolator_gravity():
m = gp.create_model('InterpolatorGravity')
return gp.set_interpolator(m, theano_optimizer='fast_run', output=['gravity'],
gradient=False)
@pytest.fixture(scope='session')
def interpolator_magnetics():
m = gp.create_model('InterpolatorMagnetics')
return gp.set_interpolator(m, theano_optimizer='fast_run', output=['magnetics'],
gradient=False)
@pytest.fixture(scope='session')
def one_fault_model_no_interp():
"""This only makes sense for running small test fast"""
model = gp.create_data('one_fault_model', [0, 2000, 0, 2000, 0, 2000],
[50, 50, 50],
path_o=input_path2 + 'tut_chapter1/simple_fault_model_orientations.csv',
path_i=input_path2 + 'tut_chapter1/simple_fault_model_points.csv')
# Assigning series to surface as well as their order (timewise)
gp.map_stack_to_surfaces(model, {"Fault_Series": 'Main_Fault',
"Strat_Series": ('Sandstone_2', 'Siltstone',
'Shale', 'Sandstone_1')},
)
model.set_is_fault(['Fault_Series'])
return model
@pytest.fixture(scope='session')
def one_fault_model(interpolator):
"""This only makes sense for running small test fast"""
model = gp.create_data('one_fault_model', [0, 2000, 0, 2000, 0, 2000],
[50, 50, 50],
path_o=input_path2 + 'tut_chapter1/simple_fault_model_orientations.csv',
path_i=input_path2 + 'tut_chapter1/simple_fault_model_points.csv')
# Assigning series to surface as well as their order (timewise)
gp.map_stack_to_surfaces(model, {"Fault_Series": 'Main_Fault',
"Strat_Series": ('Sandstone_2', 'Siltstone',
'Shale', 'Sandstone_1')},
)
model.set_is_fault(['Fault_Series'])
model.set_theano_function(interpolator)
return model
@pytest.fixture(scope='session')
def one_fault_model_solution(one_fault_model):
gp.compute_model(one_fault_model)
return one_fault_model
@pytest.fixture(scope='session')
def one_fault_model_topo_solution(one_fault_model):
one_fault_model.update_additional_data()
one_fault_model.update_to_interpolator()
one_fault_model.set_topography(d_z=(800, 1800))
gp.compute_model(one_fault_model)
return one_fault_model
@pytest.fixture(scope='session')
def unconformity_model(interpolator):
geo_model = gp.create_data('unconformity_model',
[0, 1000, 0, 1000, 0, 1000],
resolution=[50, 42, 33],
path_o=input_path2 + "jan_models/model6_orientations.csv",
path_i=input_path2 + "jan_models/model6_surface_points.csv"
)
gp.map_stack_to_surfaces(
geo_model,
{"Strat_Series1": ('rock3'),
"Strat_Series2": ('rock2', 'rock1'),
"Basement_Series": ('basement')}
)
# with open("input_data/geomodel_jan_sol.p", "rb") as f:
# geo_model.solutions = load(f)
geo_model.set_theano_function(interpolator)
gp.compute_model(geo_model)
return geo_model
@pytest.fixture(scope='session')
def unconformity_model_topo(interpolator):
geo_model = gp.create_data('unconformity_model',
[0, 1000, 0, 1000, 0, 1000],
resolution=[50, 42, 38],
path_o=input_path2 + "jan_models/model6_orientations.csv",
path_i=input_path2 + "jan_models/model6_surface_points.csv"
)
geo_model.set_topography('random', d_z=(200, 920))
gp.map_stack_to_surfaces(
geo_model,
{"Strat_Series1": ('rock3'),
"Strat_Series2": ('rock2', 'rock1'),
"Basement_Series": ('basement')}
)
# with open("input_data/geomodel_jan_sol.p", "rb") as f:
# geo_model.solutions = load(f)
geo_model.set_theano_function(interpolator)
gp.compute_model(geo_model)
return geo_model
@pytest.fixture(scope='session')
def model_horizontal_two_layers(interpolator):
geo_model = gp.create_model('interpolator')
# Importing the data from csv files and settign extent and resolution
gp.init_data(geo_model, [0, 10, 0, 10, -10, 0], [50, 50, 50],
path_o=input_path + "/GeoModeller/test_a/test_a_Foliations.csv",
path_i=input_path + "/GeoModeller/test_a/test_a_Points.csv")
geo_model.set_theano_function(interpolator)
gp.compute_model(geo_model)
return geo_model
@pytest.fixture(scope='session')
def model_complex(interpolator):
model = gempy.create_data(extent=[0, 2500, 0, 1000, 0, 1000],
resolution=[50, 20, 20],
path_o=input_path2 + "jan_models/fixture_model_orientations.csv",
path_i=input_path2 + "jan_models/fixture_model_surfaces.csv")
# Assigning series to surface as well as their order (timewise)
gp.map_stack_to_surfaces(model,
{"Fault_Series": ('fault'), "Strat_Series1": ('rock3'),
"Strat_Series2": ('rock2', 'rock1'),
"Basement_Series": ('basement')})
model.set_is_fault(['Fault_Series'])
model.set_theano_function(interpolator)
return model