# General C++ class for the “predictor - corrector” version of Euler’s method

I'm creating a C++ class to implement the "predictor - corrector" version of Euler’s method.

This is a homework question.

A shortened extract from the spec follows.

The construction of an abstract class EulerPC to encapsulate the solution of an initial value problem with the following form [so vector v is known at some time tinitial and the problem is to find v subsequently given the equation below]:

dv / dt = f(v, t)

For any particular initial value problem a subclass will be written that actually does the computation. The EulerPC class should provide opportunities to set the initial velocity and start time for the problem and it should allow setting of the step length. It should be possible to access the value of v at times that are not integral multiples of the step length but which are arbitrary time values (but of course not less than tinitial). A possible header for the EulerPC class has been provided for clarification. You may assume in your coding that that access to the value of v via the evaluateAt(double t) function will be requested only at increasing values of t.

It seems as if I am calculating the a slope of a given function.

This is also called differentiation?

As I understand it, the base class should do more than hold values and provide an interface for subclasses, it also performs some of the calculation, with only half of an equation needing to be provided to the subclass because the other half is calculated generically by the base class.

I've done some of what I think is being asked and I've got this far:

``````#ifndef EULERPC_H
#define EULERPC_H
#include "vector3D/rabVector3D.h"

/*The EulerPC class is to ecapsulate the solution of
an initial value problem of the form dv/dt=f(v,t)
where v (usually but not exclusively velocity) is a
vector dependent on variable t (usually but not
exclusively time). The inital value of v is vInitial
which is taken at time tInitial. The class uses the
predictor-corrector version of the Euler method.
This code does no error handling and depends on being
used correctly.*/

class EulerPC
{
public:
EulerPC()
{
tInitial = 0;
vInitial = rab::vector3D(0, 0, 0);
step = 1;
}

void setStep(double s)
{
step = s;
}

void setInitialV(rab::vector3D& vZero)
{
vInitial = vZero;
}

void setInitialT(double tZero)
{
tInitial = tZero;
}

rab::vector3D evaluateAt(double t)
{
if (t > tInital)
{
//return the estimated value of v at time t
}
}

protected:
double step;
//the interval at which the v values will be calculated

double tInitial;
//the initial independent variable
//(time - normally 0 but can be any value)

rab::vector3D vInitial;
//the initial dependent vector (velocity)

rab::vector3D virtual eff(rab::vector3D v, double t)=0;
//to be supplied by the subclass when an actual problem is contructed.

double maxMeshValue;
//the mesh value we have computed up to
//i.e. tInitial + n * step for some n

rab::vector3D vMaxMesh;
//the v value to match with t=maxMeshValue
};

class BulletModel : public EulerPC
{
};
#endif
``````

However, now I'm stuck. Particularly 'evaluateAt' and possibly how the two classes work together.

I've tried looking up more information online but it didn't help. Does anyone know of a site that describes the algorythm required and applied to this or a similar problem in plain English, as opposed to mathematics?

I'm not after finished code. I'm looking for some direction and perhaps very basic pseudo-code.

edit:

This seems right. It's the "predictor - corrector" part?

``````rab::vector3D evaluateAt(double t)
{
if (t > tInital)
{
double time = tInitial;
rab::vector3D v;
while (time < t)
{
time += step;
v = eff(v, time);
}
return v;
}
}
``````
-
I guess that's too general - it's basically "write the code for me". If you ask a question here, you should specify the narrowest possible description of problem on which you're stuck - "writing a class" certainly isn't one. –  Bartek Banachewicz May 19 '12 at 15:28
If you're after explanation of the general method involved, I guess the mathematics site would be more adequate. –  Bartek Banachewicz May 19 '12 at 15:32
Thanks. I need to understand it in the context of this C++ example too. Also a lot of the information I have but can't understand and so can't use is described in mathematics. –  alan2here May 19 '12 at 15:38
If you don't understand the mathematics, you probably won't be able to code the solution anyway. So i would start at the problem itself with the sheet of paper, and then make the computer to understand it ;) –  Bartek Banachewicz May 19 '12 at 16:16

This is what I'm getting from the problem statement:

v is velocity, or some conceptually similar value.

f(v,t) gives the acceleration (dv/dt) at a particular time.

Your objective is to provide a way to determine the velocity at an arbitrary time t using Euler's trapezoidal predictor-corrector method. To do this you are to be provided an initial time t0, and the velocity at at time t0. You are also going to be provided a way to determine f(v,t), which is required by Euler's trapezoidal method. To calculate f(v,t), a virtual function is used called eff. The user of your EulerPC class will create a derived class and implement the eff method, and you will call the eff method when you need the value of f(v,t). When calling eff, v will be your estimate of the velocity and not the true velocity, since the true velocity isn't actually known (it is what you are trying to determine).

Euler's trapezoidal predictor-corrector method involves two main loops:

1. An outer loop that steps through time at a particular rate.
2. An inner loop that updates the velocity estimate at the current time until convergence.

I'll extend this answer with more explanation if you can be more specific about what you don't understand.

-
So BulletModel gets it's own 'eff' that is used instead of EulerPC's default implementation. Presumably eff calls eff and either eff or evaluateAt contain a loop, steping though a local numeric variable 'time', incrementing it from tInitial by 'step' until it reaches the 't' that is passed into evaluateAt before returning a vector that is the result of the whole calculation. What sort of things should the loop be doing? How else should the inside of evalulateAt and eff work? –  alan2here May 19 '12 at 16:31
@alan2here: Have you looked at this? en.wikipedia.org/wiki/… –  Vaughn Cato May 19 '12 at 17:03
Yes. I've looked at 'Euler method' as well. I've updated the question, I think I have the "predictor - corrector" part complete. It's the Euler that I cant work out, all I can find about it is that it's an equation and what the equation is. –  alan2here May 19 '12 at 19:07
@alan2here: I'm not sure what you mean by that. Euler's predictor-corrector method is a predictor-corrector because it makes a prediction and then corrects it, creating a better prediction. Once the prediction is good enough, then you move to the next time step. –  Vaughn Cato May 20 '12 at 5:11
It's gone beyond the time when I can work on it now, but thanks for your help. I was trying to get my head around it myself. Maybe I should delete this question as well, it probbably won't be helpfull to others. –  alan2here May 22 '12 at 15:26