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view +anim/animate.m @ 958:72cd29107a9a feature/poroelastic

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Temporary changes in multiblock.DiffOp. Change traction operators in Elastic2dvariable to be true boundary operators. But adjoint FD conv test fails for dirichlet BC so need to debug!
author Martin Almquist <malmquist@stanford.edu>
date Wed, 05 Dec 2018 18:58:10 -0800
parents 2fe13db674da
children
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% Calls F(t) repeatedly
% Should there be a Fsetup and a F, two function, to allow creating a plot and then updating it?
% F takes the time to generate the frame for and returns the actual time for the generated frame.
% t = F(t_r) is a function that paints a frame for time t. t is the closest time <=t_r
% it will be called for increasnig t.

%Todo: make it catch up and produce warnings if it lags behind? Instead of just requesting the next target time


% If adapt is true time_modifier is treated as an upper bound
function animate(F, tstart, tend, time_modifier, target_frame_rate)
    default_arg('time_modifier', 1);
    default_arg('target_frame_rate',30);

    % t is simulation time
    % tau is real time

    time_modifier_bound = time_modifier;
    dTau_target = 1/target_frame_rate; % Real time between frames

    rs = util.ReplaceableString();
    rs.appendFormat('                   t: %d\n');
    rs.appendFormat('                 tau: %d\n');
    rs.appendFormat('          target tau: %d\n');
    rs.appendFormat('          Target fps: %.2f\n');
    rs.appendFormat('          Actual fps: %.2f\n');
    rs.appendFormat('Target time_modifier: %d\n');
    rs.appendFormat('actual time_modifier: %d\n');

    animation_start = tic();
    prevTau = 0;
    targetTau = 0;
    tauFrameStart = -dTau_target;
    t = F(tstart);

    while t < tend
        % Sleep until the frame should start
        pause(targetTau-toc(animation_start));
        tau = toc(animation_start);
        dTau = tau - tauFrameStart;

        % Calculate error in tau
        e_Tau = tau - targetTau;

        % Regulate time_modifier based on e_Tau
        % time_modifier = min(time_modifier_bound, max(0.5, abs(1-e_Tau/dTau)) * time_modifier);

        % Mark the start of the frame
        tauFrameStart = tau;

        dt_target = dTau_target*time_modifier; % Targeted simulation time between frames

        t_prev = t;
        t = F(t + dt_target); % Run simulation

        % Calculate when this frame should end and the next start. (this depends on what simulation time we ended up on)
        dt = t-t_prev;
        % targetTau = targetTau + dt/time_modifier;
        targetTau = targetTau + dTau_target;

        % Update information about this frame
        tau = toc(animation_start);
        rs.updateParam(t, tau, targetTau, 1/dTau_target, 1/dTau, time_modifier_bound, time_modifier);
    end


    % Final time reporting
    time_to_animate = toc(animation_start);
    expected_time = tend/time_modifier;
    fprintf('\n');
    fprintf('Time to animate: %.3f\n', time_to_animate)
    fprintf('Expected time  : %.3f\n', expected_time)
end