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The raw code is available. 

# Size of variable arrays:
sizeAlgebraic = 31
sizeStates = 6
sizeConstants = 23
from math import *
from numpy import *

def createLegends():
    legend_states = [""] * sizeStates
    legend_rates = [""] * sizeStates
    legend_algebraic = [""] * sizeAlgebraic
    legend_voi = ""
    legend_constants = [""] * sizeConstants
    legend_voi = "time in component environment (second)"
    legend_constants[0] = "C_m in component environment (fF)"
    legend_states[0] = "q_Ca_o in component environment (fmol)"
    legend_states[1] = "q_Ca_i in component environment (fmol)"
    legend_states[2] = "q_s00_TCC in component environment (fmol)"
    legend_states[3] = "q_s10_TCC in component environment (fmol)"
    legend_states[4] = "q_s01_TCC in component environment (fmol)"
    legend_states[5] = "q_s11_TCC in component environment (fmol)"
    legend_algebraic[2] = "q_mem in component environment (fC)"
    legend_algebraic[1] = "V_mem in component environment (volt)"
    legend_constants[1] = "R in component environment (J_per_K_per_mol)"
    legend_constants[2] = "T in component environment (kelvin)"
    legend_constants[3] = "F in component environment (C_per_mol)"
    legend_algebraic[22] = "v_TCC in component TCC (fmol_per_sec)"
    legend_algebraic[28] = "I_mem_TCC in component TCC (fA)"
    legend_constants[22] = "I_stim in component environment (fA)"
    legend_constants[4] = "stimPeriod in component environment (second)"
    legend_constants[5] = "stimDuration in component environment (second)"
    legend_algebraic[0] = "tPeriod in component environment (second)"
    legend_constants[6] = "kappa_TCC in component TCC_parameters (fmol_per_sec)"
    legend_constants[7] = "kappa_R1_TCC in component TCC_parameters (fmol_per_sec)"
    legend_constants[8] = "kappa_R2_TCC in component TCC_parameters (fmol_per_sec)"
    legend_constants[9] = "kappa_R3_TCC in component TCC_parameters (fmol_per_sec)"
    legend_constants[10] = "kappa_R4_TCC in component TCC_parameters (fmol_per_sec)"
    legend_constants[11] = "K_Ca_i in component TCC_parameters (per_fmol)"
    legend_constants[12] = "K_Ca_o in component TCC_parameters (per_fmol)"
    legend_constants[13] = "K_S00_TCC in component TCC_parameters (per_fmol)"
    legend_constants[14] = "K_S10_TCC in component TCC_parameters (per_fmol)"
    legend_constants[15] = "K_S01_TCC in component TCC_parameters (per_fmol)"
    legend_constants[16] = "K_S11_TCC in component TCC_parameters (per_fmol)"
    legend_constants[17] = "zCa in component TCC_parameters (dimensionless)"
    legend_constants[18] = "z_df in component TCC_parameters (dimensionless)"
    legend_constants[19] = "z_ff in component TCC_parameters (dimensionless)"
    legend_constants[20] = "z_dr in component TCC_parameters (dimensionless)"
    legend_constants[21] = "z_fr in component TCC_parameters (dimensionless)"
    legend_algebraic[3] = "u_Ca_i in component TCC (J_per_mol)"
    legend_algebraic[4] = "u_Ca_o in component TCC (J_per_mol)"
    legend_algebraic[5] = "V_mem in component TCC (J_per_C)"
    legend_algebraic[6] = "Am_TCC in component TCC (J_per_mol)"
    legend_algebraic[20] = "Af_Ca in component TCC (J_per_mol)"
    legend_algebraic[21] = "Ar_Ca in component TCC (J_per_mol)"
    legend_algebraic[18] = "v_s00_TCC in component TCC (fmol_per_sec)"
    legend_algebraic[29] = "v_s10_TCC in component TCC (fmol_per_sec)"
    legend_algebraic[26] = "v_s01_TCC in component TCC (fmol_per_sec)"
    legend_algebraic[30] = "v_s11_TCC in component TCC (fmol_per_sec)"
    legend_algebraic[13] = "v_R1_TCC in component TCC (fmol_per_sec)"
    legend_algebraic[25] = "v_R2_TCC in component TCC (fmol_per_sec)"
    legend_algebraic[17] = "v_R3_TCC in component TCC (fmol_per_sec)"
    legend_algebraic[27] = "v_R4_TCC in component TCC (fmol_per_sec)"
    legend_algebraic[7] = "mu_s00_TCC in component TCC (J_per_mol)"
    legend_algebraic[10] = "mu_s10_TCC in component TCC (J_per_mol)"
    legend_algebraic[14] = "mu_s01_TCC in component TCC (J_per_mol)"
    legend_algebraic[19] = "mu_s11_TCC in component TCC (J_per_mol)"
    legend_algebraic[8] = "Af_R1_TCC in component TCC (J_per_mol)"
    legend_algebraic[11] = "Ar_R1_TCC in component TCC (J_per_mol)"
    legend_algebraic[15] = "Af_R2_TCC in component TCC (J_per_mol)"
    legend_algebraic[23] = "Ar_R2_TCC in component TCC (J_per_mol)"
    legend_algebraic[9] = "Af_R3_TCC in component TCC (J_per_mol)"
    legend_algebraic[16] = "Ar_R3_TCC in component TCC (J_per_mol)"
    legend_algebraic[12] = "Af_R4_TCC in component TCC (J_per_mol)"
    legend_algebraic[24] = "Ar_R4_TCC in component TCC (J_per_mol)"
    legend_rates[1] = "d/dt q_Ca_i in component environment (fmol)"
    legend_rates[0] = "d/dt q_Ca_o in component environment (fmol)"
    legend_rates[2] = "d/dt q_s00_TCC in component environment (fmol)"
    legend_rates[3] = "d/dt q_s10_TCC in component environment (fmol)"
    legend_rates[4] = "d/dt q_s01_TCC in component environment (fmol)"
    legend_rates[5] = "d/dt q_s11_TCC in component environment (fmol)"
    return (legend_states, legend_algebraic, legend_voi, legend_constants)

def initConsts():
    constants = [0.0] * sizeConstants; states = [0.0] * sizeStates;
    constants[0] = 60000
    states[0] = 0.04653
    states[1] = 0.000001551
    states[2] = 3.653271338425772e-07
    states[3] = 1e-16
    states[4] = 1e-16
    states[5] = 1e-16
    constants[1] = 8.31
    constants[2] = 310
    constants[3] = 96500
    constants[4] = 1
    constants[5] = 0.0001
    constants[6] = 11414.6
    constants[7] = 1266.14
    constants[8] = 4.33488
    constants[9] = 1.34962
    constants[10] = 7.44777
    constants[11] = 28.7976
    constants[12] = 211.182
    constants[13] = 2.10659
    constants[14] = 0.381738
    constants[15] = 615.294
    constants[16] = 111.498
    constants[17] = 2
    constants[18] = 0.876568910405296
    constants[19] = -0.576510778245838
    constants[20] = -0.872117216889333
    constants[21] = 1.73582739545622
    constants[22] = 0.00000
    return (states, constants)

def computeRates(voi, states, constants):
    rates = [0.0] * sizeStates; algebraic = [0.0] * sizeAlgebraic
    algebraic[1] = custom_piecewise([greater_equal(voi , 0.00000) & less(voi , 0.400000), -0.0900000 , greater(voi , 1.10000) & less(voi , 2.10000), -0.0600000 , greater(voi , 2.20000) & less(voi , 3.10000), 0.0400000 , greater(voi , 3.50000), -0.0900000 , True, -0.0800000])
    algebraic[2] = algebraic[1]*constants[0]
    algebraic[5] = algebraic[2]/constants[0]
    algebraic[7] = constants[1]*constants[2]*log(constants[13]*states[2])
    algebraic[8] = algebraic[7]+constants[18]*constants[3]*algebraic[5]
    algebraic[10] = constants[1]*constants[2]*log(constants[14]*states[3])
    algebraic[11] = algebraic[10]+constants[20]*constants[3]*algebraic[5]
    algebraic[13] = constants[7]*(exp(algebraic[8]/(constants[1]*constants[2]))-exp(algebraic[11]/(constants[1]*constants[2])))
    algebraic[9] = algebraic[7]+constants[19]*constants[3]*algebraic[5]
    algebraic[14] = constants[1]*constants[2]*log(constants[15]*states[4])
    algebraic[16] = algebraic[14]+constants[21]*constants[3]*algebraic[5]
    algebraic[17] = constants[9]*(exp(algebraic[9]/(constants[1]*constants[2]))-exp(algebraic[16]/(constants[1]*constants[2])))
    algebraic[18] = -algebraic[13]-algebraic[17]
    rates[2] = algebraic[18]
    algebraic[6] = constants[17]*constants[3]*algebraic[5]
    algebraic[3] = constants[1]*constants[2]*log(constants[11]*states[1])
    algebraic[19] = constants[1]*constants[2]*log(constants[16]*states[5])
    algebraic[20] = algebraic[19]+algebraic[3]+algebraic[6]
    algebraic[4] = constants[1]*constants[2]*log(constants[12]*states[0])
    algebraic[21] = algebraic[19]+algebraic[4]
    algebraic[22] = custom_piecewise([equal(algebraic[6] , 0.00000), constants[6]*(exp(algebraic[20]/(constants[1]*constants[2]))-exp(algebraic[21]/(constants[1]*constants[2]))) , True, (((constants[6]*algebraic[6])/(constants[1]*constants[2]))/(exp(algebraic[6]/(constants[1]*constants[2]))-1.00000))*(exp(algebraic[20]/(constants[1]*constants[2]))-exp(algebraic[21]/(constants[1]*constants[2])))])
    rates[1] = -algebraic[22]
    rates[0] = algebraic[22]
    algebraic[15] = algebraic[14]+constants[18]*constants[3]*algebraic[5]
    algebraic[23] = algebraic[19]+constants[20]*constants[3]*algebraic[5]
    algebraic[25] = constants[8]*(exp(algebraic[15]/(constants[1]*constants[2]))-exp(algebraic[23]/(constants[1]*constants[2])))
    algebraic[26] = algebraic[17]-algebraic[25]
    rates[4] = algebraic[26]
    algebraic[12] = algebraic[10]+constants[19]*constants[3]*algebraic[5]
    algebraic[24] = algebraic[19]+constants[21]*constants[3]*algebraic[5]
    algebraic[27] = constants[10]*(exp(algebraic[12]/(constants[1]*constants[2]))-exp(algebraic[24]/(constants[1]*constants[2])))
    algebraic[29] = algebraic[13]-algebraic[27]
    rates[3] = algebraic[29]
    algebraic[30] = algebraic[25]+algebraic[27]
    rates[5] = algebraic[30]
    return(rates)

def computeAlgebraic(constants, states, voi):
    algebraic = array([[0.0] * len(voi)] * sizeAlgebraic)
    states = array(states)
    voi = array(voi)
    algebraic[1] = custom_piecewise([greater_equal(voi , 0.00000) & less(voi , 0.400000), -0.0900000 , greater(voi , 1.10000) & less(voi , 2.10000), -0.0600000 , greater(voi , 2.20000) & less(voi , 3.10000), 0.0400000 , greater(voi , 3.50000), -0.0900000 , True, -0.0800000])
    algebraic[2] = algebraic[1]*constants[0]
    algebraic[5] = algebraic[2]/constants[0]
    algebraic[7] = constants[1]*constants[2]*log(constants[13]*states[2])
    algebraic[8] = algebraic[7]+constants[18]*constants[3]*algebraic[5]
    algebraic[10] = constants[1]*constants[2]*log(constants[14]*states[3])
    algebraic[11] = algebraic[10]+constants[20]*constants[3]*algebraic[5]
    algebraic[13] = constants[7]*(exp(algebraic[8]/(constants[1]*constants[2]))-exp(algebraic[11]/(constants[1]*constants[2])))
    algebraic[9] = algebraic[7]+constants[19]*constants[3]*algebraic[5]
    algebraic[14] = constants[1]*constants[2]*log(constants[15]*states[4])
    algebraic[16] = algebraic[14]+constants[21]*constants[3]*algebraic[5]
    algebraic[17] = constants[9]*(exp(algebraic[9]/(constants[1]*constants[2]))-exp(algebraic[16]/(constants[1]*constants[2])))
    algebraic[18] = -algebraic[13]-algebraic[17]
    algebraic[6] = constants[17]*constants[3]*algebraic[5]
    algebraic[3] = constants[1]*constants[2]*log(constants[11]*states[1])
    algebraic[19] = constants[1]*constants[2]*log(constants[16]*states[5])
    algebraic[20] = algebraic[19]+algebraic[3]+algebraic[6]
    algebraic[4] = constants[1]*constants[2]*log(constants[12]*states[0])
    algebraic[21] = algebraic[19]+algebraic[4]
    algebraic[22] = custom_piecewise([equal(algebraic[6] , 0.00000), constants[6]*(exp(algebraic[20]/(constants[1]*constants[2]))-exp(algebraic[21]/(constants[1]*constants[2]))) , True, (((constants[6]*algebraic[6])/(constants[1]*constants[2]))/(exp(algebraic[6]/(constants[1]*constants[2]))-1.00000))*(exp(algebraic[20]/(constants[1]*constants[2]))-exp(algebraic[21]/(constants[1]*constants[2])))])
    algebraic[15] = algebraic[14]+constants[18]*constants[3]*algebraic[5]
    algebraic[23] = algebraic[19]+constants[20]*constants[3]*algebraic[5]
    algebraic[25] = constants[8]*(exp(algebraic[15]/(constants[1]*constants[2]))-exp(algebraic[23]/(constants[1]*constants[2])))
    algebraic[26] = algebraic[17]-algebraic[25]
    algebraic[12] = algebraic[10]+constants[19]*constants[3]*algebraic[5]
    algebraic[24] = algebraic[19]+constants[21]*constants[3]*algebraic[5]
    algebraic[27] = constants[10]*(exp(algebraic[12]/(constants[1]*constants[2]))-exp(algebraic[24]/(constants[1]*constants[2])))
    algebraic[29] = algebraic[13]-algebraic[27]
    algebraic[30] = algebraic[25]+algebraic[27]
    algebraic[0] = voi-floor(voi/constants[4])*constants[4]
    algebraic[28] = constants[3]*(-constants[17]*algebraic[22]+algebraic[13]*(constants[20]-constants[18])+algebraic[25]*(constants[20]-constants[18])+algebraic[17]*(constants[21]-constants[19])+algebraic[27]*(constants[21]-constants[19]))
    return algebraic

def custom_piecewise(cases):
    """Compute result of a piecewise function"""
    return select(cases[0::2],cases[1::2])

def solve_model():
    """Solve model with ODE solver"""
    from scipy.integrate import ode
    # Initialise constants and state variables
    (init_states, constants) = initConsts()

    # Set timespan to solve over
    voi = linspace(0, 10, 500)

    # Construct ODE object to solve
    r = ode(computeRates)
    r.set_integrator('vode', method='bdf', atol=1e-06, rtol=1e-06, max_step=1)
    r.set_initial_value(init_states, voi[0])
    r.set_f_params(constants)

    # Solve model
    states = array([[0.0] * len(voi)] * sizeStates)
    states[:,0] = init_states
    for (i,t) in enumerate(voi[1:]):
        if r.successful():
            r.integrate(t)
            states[:,i+1] = r.y
        else:
            break

    # Compute algebraic variables
    algebraic = computeAlgebraic(constants, states, voi)
    return (voi, states, algebraic)

def plot_model(voi, states, algebraic):
    """Plot variables against variable of integration"""
    import pylab
    (legend_states, legend_algebraic, legend_voi, legend_constants) = createLegends()
    pylab.figure(1)
    pylab.plot(voi,vstack((states,algebraic)).T)
    pylab.xlabel(legend_voi)
    pylab.legend(legend_states + legend_algebraic, loc='best')
    pylab.show()

if __name__ == "__main__":
    (voi, states, algebraic) = solve_model()
    plot_model(voi, states, algebraic)
Source
Derived from workspace CaT protein knowledge page at changeset b7e7f45db3c7.
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