Generated Code

The following is matlab code generated by the CellML API from this CellML file. (Back to language selection)

The raw code is available.

function [VOI, STATES, ALGEBRAIC, CONSTANTS] = mainFunction()
    % This is the "main function".  In Matlab, things work best if you rename this function to match the filename.
   [VOI, STATES, ALGEBRAIC, CONSTANTS] = solveModel();
end

function [algebraicVariableCount] = getAlgebraicVariableCount() 
    % Used later when setting a global variable with the number of algebraic variables.
    % Note: This is not the "main method".  
    algebraicVariableCount =8;
end
% There are a total of 3 entries in each of the rate and state variable arrays.
% There are a total of 8 entries in the constant variable array.
%

function [VOI, STATES, ALGEBRAIC, CONSTANTS] = solveModel()
    % Create ALGEBRAIC of correct size
    global algebraicVariableCount;  algebraicVariableCount = getAlgebraicVariableCount();
    % Initialise constants and state variables
    [INIT_STATES, CONSTANTS] = initConsts;

    % Set timespan to solve over 
    tspan = [0, 10];

    % Set numerical accuracy options for ODE solver
    options = odeset('RelTol', 1e-06, 'AbsTol', 1e-06, 'MaxStep', 1);

    % Solve model with ODE solver
    [VOI, STATES] = ode15s(@(VOI, STATES)computeRates(VOI, STATES, CONSTANTS), tspan, INIT_STATES, options);

    % Compute algebraic variables
    [RATES, ALGEBRAIC] = computeRates(VOI, STATES, CONSTANTS);
    ALGEBRAIC = computeAlgebraic(ALGEBRAIC, CONSTANTS, STATES, VOI);

    % Plot state variables against variable of integration
    [LEGEND_STATES, LEGEND_ALGEBRAIC, LEGEND_VOI, LEGEND_CONSTANTS] = createLegends();
    figure();
    plot(VOI, STATES);
    xlabel(LEGEND_VOI);
    l = legend(LEGEND_STATES);
    set(l,'Interpreter','none');
end

function [LEGEND_STATES, LEGEND_ALGEBRAIC, LEGEND_VOI, LEGEND_CONSTANTS] = createLegends()
    LEGEND_STATES = ''; LEGEND_ALGEBRAIC = ''; LEGEND_VOI = ''; LEGEND_CONSTANTS = '';
    LEGEND_VOI = strpad('t in component environment (second)');
    LEGEND_CONSTANTS(:,1) = strpad('R in component environment (J_per_K_per_mol)');
    LEGEND_CONSTANTS(:,2) = strpad('T in component environment (kelvin)');
    LEGEND_CONSTANTS(:,3) = strpad('F in component environment (C_per_mol)');
    LEGEND_CONSTANTS(:,4) = strpad('C_m in component environment (fF)');
    LEGEND_STATES(:,1) = strpad('q_K_o in component environment (fmol)');
    LEGEND_STATES(:,2) = strpad('q_K_i in component environment (fmol)');
    LEGEND_ALGEBRAIC(:,7) = strpad('v_K_ATP in component K_ATP (fmol_per_sec)');
    LEGEND_STATES(:,3) = strpad('q_mem in component environment (fC)');
    LEGEND_ALGEBRAIC(:,8) = strpad('I_mem_K_ATP in component K_ATP (fA)');
    LEGEND_CONSTANTS(:,5) = strpad('kappa_K_ATP in component K_ATP_parameters (fmol_per_sec)');
    LEGEND_CONSTANTS(:,6) = strpad('K_K_i in component K_ATP_parameters (per_fmol)');
    LEGEND_CONSTANTS(:,7) = strpad('K_K_o in component K_ATP_parameters (per_fmol)');
    LEGEND_CONSTANTS(:,8) = strpad('zK in component K_ATP_parameters (dimensionless)');
    LEGEND_ALGEBRAIC(:,2) = strpad('mu_K_o in component K_ATP (J_per_mol)');
    LEGEND_ALGEBRAIC(:,3) = strpad('mu_K_i in component K_ATP (J_per_mol)');
    LEGEND_ALGEBRAIC(:,5) = strpad('Am_K_ATP in component K_ATP (J_per_mol)');
    LEGEND_ALGEBRAIC(:,4) = strpad('Af_K_ATP in component K_ATP (J_per_mol)');
    LEGEND_ALGEBRAIC(:,6) = strpad('Ar_K_ATP in component K_ATP (J_per_mol)');
    LEGEND_ALGEBRAIC(:,1) = strpad('V_mem in component K_ATP (volt)');
    LEGEND_RATES(:,1) = strpad('d/dt q_K_o in component environment (fmol)');
    LEGEND_RATES(:,2) = strpad('d/dt q_K_i in component environment (fmol)');
    LEGEND_RATES(:,3) = strpad('d/dt q_mem in component environment (fC)');
    LEGEND_STATES  = LEGEND_STATES';
    LEGEND_ALGEBRAIC = LEGEND_ALGEBRAIC';
    LEGEND_RATES = LEGEND_RATES';
    LEGEND_CONSTANTS = LEGEND_CONSTANTS';
end

function [STATES, CONSTANTS] = initConsts()
    VOI = 0; CONSTANTS = []; STATES = []; ALGEBRAIC = [];
    CONSTANTS(:,1) = 8.314;
    CONSTANTS(:,2) = 310;
    CONSTANTS(:,3) = 96485;
    CONSTANTS(:,4) = 153400;
    STATES(:,1) = 27.9828;
    STATES(:,2) = 5510;
    STATES(:,3) = -13039;
    CONSTANTS(:,5) = 1.1812e-05;
    CONSTANTS(:,6) = 9.99086e-05;
    CONSTANTS(:,7) = 0.000663229;
    CONSTANTS(:,8) = 1;
    if (isempty(STATES)), warning('Initial values for states not set');, end
end

function [RATES, ALGEBRAIC] = computeRates(VOI, STATES, CONSTANTS)
    global algebraicVariableCount;
    statesSize = size(STATES);
    statesColumnCount = statesSize(2);
    if ( statesColumnCount == 1)
        STATES = STATES';
        ALGEBRAIC = zeros(1, algebraicVariableCount);
        utilOnes = 1;
    else
        statesRowCount = statesSize(1);
        ALGEBRAIC = zeros(statesRowCount, algebraicVariableCount);
        RATES = zeros(statesRowCount, statesColumnCount);
        utilOnes = ones(statesRowCount, 1);
    end
    ALGEBRAIC(:,1) = STATES(:,3)./CONSTANTS(:,4);
    ALGEBRAIC(:,5) =  CONSTANTS(:,8).*CONSTANTS(:,3).*ALGEBRAIC(:,1);
    ALGEBRAIC(:,3) =  CONSTANTS(:,1).*CONSTANTS(:,2).*log( CONSTANTS(:,6).*STATES(:,2));
    ALGEBRAIC(:,4) = ALGEBRAIC(:,3)+ CONSTANTS(:,8).*CONSTANTS(:,3).*ALGEBRAIC(:,1);
    ALGEBRAIC(:,2) =  CONSTANTS(:,1).*CONSTANTS(:,2).*log( CONSTANTS(:,7).*STATES(:,1));
    ALGEBRAIC(:,6) = ALGEBRAIC(:,2);
    ALGEBRAIC(:,7) = piecewise({ALGEBRAIC(:,5)==0.00000,  CONSTANTS(:,5).*(exp(ALGEBRAIC(:,4)./( CONSTANTS(:,1).*CONSTANTS(:,2))) - exp(ALGEBRAIC(:,6)./( CONSTANTS(:,1).*CONSTANTS(:,2)))) },  ((( CONSTANTS(:,5).*ALGEBRAIC(:,5))./( CONSTANTS(:,1).*CONSTANTS(:,2)))./(exp(ALGEBRAIC(:,5)./( CONSTANTS(:,1).*CONSTANTS(:,2))) - 1.00000)).*(exp(ALGEBRAIC(:,4)./( CONSTANTS(:,1).*CONSTANTS(:,2))) - exp(ALGEBRAIC(:,6)./( CONSTANTS(:,1).*CONSTANTS(:,2)))));
    RATES(:,1) = ALGEBRAIC(:,7);
    RATES(:,2) =  - ALGEBRAIC(:,7);
    ALGEBRAIC(:,8) =  CONSTANTS(:,3).* - CONSTANTS(:,8).*ALGEBRAIC(:,7);
    RATES(:,3) = ALGEBRAIC(:,8);
   RATES = RATES';
end

% Calculate algebraic variables
function ALGEBRAIC = computeAlgebraic(ALGEBRAIC, CONSTANTS, STATES, VOI)
    statesSize = size(STATES);
    statesColumnCount = statesSize(2);
    if ( statesColumnCount == 1)
        STATES = STATES';
        utilOnes = 1;
    else
        statesRowCount = statesSize(1);
        utilOnes = ones(statesRowCount, 1);
    end
    ALGEBRAIC(:,1) = STATES(:,3)./CONSTANTS(:,4);
    ALGEBRAIC(:,5) =  CONSTANTS(:,8).*CONSTANTS(:,3).*ALGEBRAIC(:,1);
    ALGEBRAIC(:,3) =  CONSTANTS(:,1).*CONSTANTS(:,2).*log( CONSTANTS(:,6).*STATES(:,2));
    ALGEBRAIC(:,4) = ALGEBRAIC(:,3)+ CONSTANTS(:,8).*CONSTANTS(:,3).*ALGEBRAIC(:,1);
    ALGEBRAIC(:,2) =  CONSTANTS(:,1).*CONSTANTS(:,2).*log( CONSTANTS(:,7).*STATES(:,1));
    ALGEBRAIC(:,6) = ALGEBRAIC(:,2);
    ALGEBRAIC(:,7) = piecewise({ALGEBRAIC(:,5)==0.00000,  CONSTANTS(:,5).*(exp(ALGEBRAIC(:,4)./( CONSTANTS(:,1).*CONSTANTS(:,2))) - exp(ALGEBRAIC(:,6)./( CONSTANTS(:,1).*CONSTANTS(:,2)))) },  ((( CONSTANTS(:,5).*ALGEBRAIC(:,5))./( CONSTANTS(:,1).*CONSTANTS(:,2)))./(exp(ALGEBRAIC(:,5)./( CONSTANTS(:,1).*CONSTANTS(:,2))) - 1.00000)).*(exp(ALGEBRAIC(:,4)./( CONSTANTS(:,1).*CONSTANTS(:,2))) - exp(ALGEBRAIC(:,6)./( CONSTANTS(:,1).*CONSTANTS(:,2)))));
    ALGEBRAIC(:,8) =  CONSTANTS(:,3).* - CONSTANTS(:,8).*ALGEBRAIC(:,7);
end

% Compute result of a piecewise function
function x = piecewise(cases, default)
    set = [0];
    for i = 1:2:length(cases)
        if (length(cases{i+1}) == 1)
            x(cases{i} & ~set,:) = cases{i+1};
        else
            x(cases{i} & ~set,:) = cases{i+1}(cases{i} & ~set);
        end
        set = set | cases{i};
        if(set), break, end
    end
    if (length(default) == 1)
        x(~set,:) = default;
    else
        x(~set,:) = default(~set);
    end
end

% Pad out or shorten strings to a set length
function strout = strpad(strin)
    req_length = 160;
    insize = size(strin,2);
    if insize > req_length
        strout = strin(1:req_length);
    else
        strout = [strin, blanks(req_length - insize)];
    end
end

Source
Derived from workspace BG_K_ATP at changeset 2486d4f8ecc2.
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