Source code for pymordemos.thermalblock_gui

#!/usr/bin/env python
# This file is part of the pyMOR project (
# Copyright 2013-2018 pyMOR developers and contributors. All rights reserved.
# License: BSD 2-Clause License (

"""Thermalblock with GUI demo

Usage: [-h] [--product=PROD] [--grid=NI] [--testing]
                  [--help] XBLOCKS YBLOCKS SNAPSHOTS RBSIZE

  XBLOCKS    Number of blocks in x direction.

  YBLOCKS    Number of blocks in y direction.

  SNAPSHOTS  Number of snapshots for basis generation per component.
             In total SNAPSHOTS^(XBLOCKS * YBLOCKS).

  RBSIZE     Size of the reduced basis

  --grid=NI              Use grid with 2*NI*NI elements [default: 60].

  --product=PROD         Product (euclidean, h1) w.r.t. which to orthonormalize
                         and calculate Riesz representatives [default: h1].

  --testing              load the gui and exit right away (for functional testing)

  -h, --help             Show this message.

import sys
from docopt import docopt
import time
import numpy as np
import OpenGL

from pymor.core.config import is_windows_platform
from pymor.gui.matplotlib import MatplotlibPatchWidget


from pymor.core.exceptions import QtMissing
    from Qt import QtWidgets
except ImportError as e:
    raise QtMissing()
from pymor.algorithms.greedy import greedy
from pymor.analyticalproblems.thermalblock import thermal_block_problem
from import discretize_stationary_cg
from import ColorBarWidget, GLPatchWidget
from pymor.reductors.coercive import CoerciveRBReductor
from pymor import gui


[docs]class ParamRuler(QtWidgets.QWidget): def __init__(self, parent, sim): super().__init__(parent) self.sim = sim self.setMinimumSize(200, 100) box = QtWidgets.QGridLayout() self.spins = [] for j in range(args['YBLOCKS']): for i in range(args['XBLOCKS']): spin = QtWidgets.QDoubleSpinBox() spin.setRange(PARAM_MIN, PARAM_MAX) spin.setSingleStep((PARAM_MAX - PARAM_MIN) / PARAM_STEPS) spin.setValue(PARAM_MIN) self.spins.append(spin) box.addWidget(spin, j, i) spin.valueChanged.connect(parent.solve_update) self.setLayout(box) def enable(self, enable=True): for spin in self.spins: spin.isEnabled = enable
# noinspection PyShadowingNames
[docs]class SimPanel(QtWidgets.QWidget): def __init__(self, parent, sim): super().__init__(parent) self.sim = sim box = QtWidgets.QHBoxLayout() if is_windows_platform(): self.solution = MatplotlibPatchWidget(self, self.sim.grid, vmin=0., vmax=0.8) box.addWidget(self.solution, 2) else: self.solution = GLPatchWidget(self, self.sim.grid, vmin=0., vmax=0.8) = ColorBarWidget(self, vmin=0., vmax=0.8) box.addWidget(self.solution, 2) box.addWidget(, 2) self.param_panel = ParamRuler(self, sim) box.addWidget(self.param_panel) self.setLayout(box) def solve_update(self): tic = time.time() self.param_panel.enable(False) args = self.sim.args shape = (args['YBLOCKS'], args['XBLOCKS']) mu = {'diffusion': np.array([s.value() for s in self.param_panel.spins]).reshape(shape)} U = self.sim.solve(mu) print('Simtime {}'.format(time.time() - tic)) tic = time.time() self.solution.set(U.to_numpy().ravel()) self.param_panel.enable(True) print('Drawtime {}'.format(time.time() - tic))
[docs]class AllPanel(QtWidgets.QWidget): def __init__(self, parent, reduced_sim, detailed_sim): super().__init__(parent) box = QtWidgets.QVBoxLayout() self.reduced_panel = SimPanel(self, reduced_sim) self.detailed_panel = SimPanel(self, detailed_sim) box.addWidget(self.reduced_panel) box.addWidget(self.detailed_panel) self.setLayout(box)
# noinspection PyShadowingNames
[docs]class RBGui(QtWidgets.QMainWindow): def __init__(self, args): super().__init__() args['XBLOCKS'] = int(args['XBLOCKS']) args['YBLOCKS'] = int(args['YBLOCKS']) args['--grid'] = int(args['--grid']) args['SNAPSHOTS'] = int(args['SNAPSHOTS']) args['RBSIZE'] = int(args['RBSIZE']) args['--product'] = args['--product'].lower() assert args['--product'] in {'trivial', 'h1'} reduced = ReducedSim(args) detailed = DetailedSim(args) self.panel = AllPanel(self, reduced, detailed) self.setCentralWidget(self.panel)
# noinspection PyShadowingNames
[docs]class SimBase(object): def __init__(self, args): self.args = args self.first = True self.problem = thermal_block_problem(num_blocks=(args['XBLOCKS'], args['YBLOCKS']), parameter_range=(PARAM_MIN, PARAM_MAX)) self.d, pack = discretize_stationary_cg(self.problem, diameter=1. / args['--grid']) self.grid = pack['grid']
# noinspection PyShadowingNames,PyShadowingNames
[docs]class ReducedSim(SimBase): def __init__(self, args): super().__init__(args) def _first(self): args = self.args product = self.d.h1_0_semi_product if args['--product'] == 'h1' else None reductor = CoerciveRBReductor(self.d, product=product) greedy_data = greedy(self.d, reductor, self.d.parameter_space.sample_uniformly(args['SNAPSHOTS']), use_estimator=True, error_norm=self.d.h1_0_semi_norm, max_extensions=args['RBSIZE']) self.rd, self.reductor = greedy_data['rd'], reductor self.first = False def solve(self, mu): if self.first: self._first() return self.reductor.reconstruct(self.rd.solve(mu))
# noinspection PyShadowingNames
[docs]class DetailedSim(SimBase): def __init__(self, args): super().__init__(args) self.d.disable_caching() def solve(self, mu): return self.d.solve(mu)
if __name__ == '__main__': args = docopt(__doc__) testing = args['--testing'] if not testing: app = QtWidgets.QApplication(sys.argv) win = RBGui(args) sys.exit(app.exec_()) gui.qt._launch_qt_app(lambda _: RBGui(args), block=False)