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view +time/Timestepper.m @ 1031:2ef20d00b386 feature/advectionRV

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For easier comparison, return both the first order and residual viscosity when evaluating the residual. Add the first order and residual viscosity to the state of the RungekuttaRV time steppers
author Vidar Stiernström <vidar.stiernstrom@it.uu.se>
date Thu, 17 Jan 2019 10:25:06 +0100
parents 64a9a8a27858
children 8894e9c49e40
line wrap: on
line source

classdef Timestepper < handle
    properties (Abstract)
        t
        k
        n
    end

    methods (Abstract)
         [v,t] = getV(obj)
         obj = step(obj)
    end


    methods
        function [v,t] = stepN(obj,n,progress_bar)
            default_arg('progress_bar',false);

            if ~progress_bar
                obj.stepN_without_progress(n);
            else
                obj.stepN_with_progress(n);
            end

            v = obj.getV;
            t = obj.t;
        end

        function stepN_without_progress(obj, n)
            for i=1:n
                obj.step();
            end
        end

        function stepN_with_progress(obj, n)
            FRAME_RATE = 20;

            steps_to_update = 1;
            steps_since_update = 0;
            last_update = tic();
            s = util.replace_string('','   %d %%',0);
            for i=1:n
                obj.step();

                steps_since_update = steps_since_update + 1;

                if steps_since_update >= steps_to_update
                    s = util.replace_string(s,'   %.2f %%',i/n*100);

                    time_since_update = toc(last_update);
                    time_error = time_since_update - 1/FRAME_RATE;
                    time_per_step = time_since_update/steps_since_update;

                    steps_to_update = max(steps_to_update - 0.9*time_error/time_per_step ,1);

                    steps_since_update = 0;
                    last_update = tic();
                end
            end

            s = util.replace_string(s,'');
        end


        function [v, t] = stepTo(obj, n, progress_bar)
            assertScalar(n);
            default_arg('progress_bar',false);

            [v, t] = obj.stepN(n-obj.n, progress_bar);
        end

        function [v,t] = evolve(obj, tend, progress_bar)
            default_arg('progress_bar',false)
            if ~progress_bar
                obj.evolve_without_progress(tend);
            else
                obj.evolve_with_progress(tend);
            end
            v = obj.getV;
            t = obj.t;
        end

        function evolve_without_progress(obj, tend)
            while obj.t < tend - obj.k/2
                obj.step();
            end
        end

        function evolve_with_progress(obj, tend)
            FRAME_RATE = 20;

            steps_to_update = 1;
            steps_since_update = 0;
            last_update = tic();
            s = util.replace_string('','   %d %%',0);
            while obj.t < tend - obj.k/2
                obj.step();

                steps_since_update = steps_since_update + 1;

                if steps_since_update >= steps_to_update
                    s = util.replace_string(s,'   %.2f %%',obj.t/tend*100);

                    time_since_update = toc(last_update);
                    time_error = time_since_update - 1/FRAME_RATE;
                    time_per_step = time_since_update/steps_since_update;

                    steps_to_update = max(steps_to_update - 0.9*time_error/time_per_step ,1);

                    steps_since_update = 0;
                    last_update = tic();
                end
            end

            s = util.replace_string(s,'');
        end


    end
end