Generated Code
The following is c_ida code generated by the CellML API from this CellML file. (Back to language selection)
The raw code is available.
/*
There are a total of 7 entries in the algebraic variable array.
There are a total of 3 entries in each of the rate and state variable arrays.
There are a total of 16 entries in the constant variable array.
*/
/*
* VOI is time in component environment (millisecond).
* STATES[0] is V in component membrane (millivolt).
* CONSTANTS[0] is tau in component membrane (millisecond).
* ALGEBRAIC[1] is i_K in component potassium_current (picoA).
* ALGEBRAIC[5] is i_K_ATP in component ATP_sensitive_potassium_current (picoA).
* ALGEBRAIC[6] is i_Ca in component calcium_current (picoA).
* ALGEBRAIC[3] is i_s in component slow_current (picoA).
* CONSTANTS[1] is g_Ca in component calcium_current (nanoS).
* CONSTANTS[2] is V_Ca in component calcium_current (millivolt).
* ALGEBRAIC[0] is m_infinity in component calcium_current_m_gate (dimensionless).
* CONSTANTS[3] is V_m in component calcium_current_m_gate (millivolt).
* CONSTANTS[4] is theta_m in component calcium_current_m_gate (millivolt).
* CONSTANTS[5] is V_K in component potassium_current (millivolt).
* CONSTANTS[6] is g_K in component potassium_current (nanoS).
* STATES[1] is n in component potassium_current_n_gate (dimensionless).
* ALGEBRAIC[2] is n_infinity in component potassium_current_n_gate (dimensionless).
* CONSTANTS[7] is V_n in component potassium_current_n_gate (millivolt).
* CONSTANTS[8] is theta_n in component potassium_current_n_gate (millivolt).
* CONSTANTS[9] is lambda in component potassium_current_n_gate (dimensionless).
* CONSTANTS[10] is g_s in component slow_current (nanoS).
* STATES[2] is s in component slow_current_s_gate (dimensionless).
* ALGEBRAIC[4] is s_infinity in component slow_current_s_gate (dimensionless).
* CONSTANTS[11] is V_s in component slow_current_s_gate (millivolt).
* CONSTANTS[12] is theta_s in component slow_current_s_gate (millivolt).
* CONSTANTS[13] is tau_s in component slow_current_s_gate (millisecond).
* CONSTANTS[14] is g_K_ATP in component ATP_sensitive_potassium_current (nanoS).
* CONSTANTS[15] is p in component ATP_sensitive_potassium_current (dimensionless).
* RATES[0] is d/dt V in component membrane (millivolt).
* RATES[1] is d/dt n in component potassium_current_n_gate (dimensionless).
* RATES[2] is d/dt s in component slow_current_s_gate (dimensionless).
* There are a total of 0 condition variables.
*/
void
initConsts(double* CONSTANTS, double* RATES, double *STATES)
{
STATES[0] = -64.0;
CONSTANTS[0] = 20.0;
CONSTANTS[1] = 3.6;
CONSTANTS[2] = 25.0;
CONSTANTS[3] = -20.0;
CONSTANTS[4] = 12.0;
CONSTANTS[5] = -75.0;
CONSTANTS[6] = 10.0;
STATES[1] = 0.01;
CONSTANTS[7] = -17.0;
CONSTANTS[8] = 5.6;
CONSTANTS[9] = 0.9;
CONSTANTS[10] = 4.0;
STATES[2] = 0.01;
CONSTANTS[11] = -22.0;
CONSTANTS[12] = 8.0;
CONSTANTS[13] = 20000.0;
CONSTANTS[14] = 1.2;
CONSTANTS[15] = 0.5;
RATES[0] = 0.1001;
RATES[1] = 0.1001;
RATES[2] = 0.1001;
}
void
computeResiduals(double VOI, double* CONSTANTS, double* RATES, double* OLDRATES, double* STATES,
double* OLDSTATES, double* ALGEBRAIC, double* CONDVARS)
{
resid[0] = RATES[0] - - (ALGEBRAIC[6]+ALGEBRAIC[1]+ALGEBRAIC[5]+ALGEBRAIC[3])/CONSTANTS[0];
resid[1] = RATES[1] - ( CONSTANTS[9]*(ALGEBRAIC[2] - STATES[1]))/CONSTANTS[0];
resid[2] = RATES[2] - (ALGEBRAIC[4] - STATES[2])/CONSTANTS[13];
}
void
computeVariables(double VOI, double* CONSTANTS, double* RATES, double* STATES, double* ALGEBRAIC)
{
}
void
computeEssentialVariables(double VOI, double* CONSTANTS, double* RATES, double* STATES, double* ALGEBRAIC)
{
ALGEBRAIC[1] = CONSTANTS[6]*STATES[1]*(STATES[0] - CONSTANTS[5]);
ALGEBRAIC[2] = 1.00000/(1.00000+exp((CONSTANTS[7] - STATES[0])/CONSTANTS[8]));
ALGEBRAIC[3] = CONSTANTS[10]*STATES[2]*(STATES[0] - CONSTANTS[5]);
ALGEBRAIC[4] = 1.00000/(1.00000+exp((CONSTANTS[11] - STATES[0])/CONSTANTS[12]));
ALGEBRAIC[5] = CONSTANTS[14]*CONSTANTS[15]*(STATES[0] - CONSTANTS[5]);
ALGEBRAIC[0] = 1.00000/(1.00000+exp((CONSTANTS[3] - STATES[0])/CONSTANTS[4]));
ALGEBRAIC[6] = CONSTANTS[1]*ALGEBRAIC[0]*(STATES[0] - CONSTANTS[2]);
}
void
getStateInformation(double* SI)
{
SI[0] = 1.0;
SI[1] = 1.0;
SI[2] = 1.0;
}
void
computeRoots(double VOI, double* CONSTANTS, double* RATES, double* OLDRATES, double* STATES,
double* OLDSTATES, double* ALGEBRAIC, double* CONDVARS)
{
}