# Typecast to an int in Octave/Matlab

I need to call the index of a matrix made using the linspace command, and based on somde data taken from an oscilloscope. Because of this, the data inputed is a double. However, I can't really call:

``````Time[V0Found]
``````

where V0Found is something like 5.2 however, taking index 5 is close enough, so I need to drop the decimal. I used this equation to drop the decimal:

``````V0FoundDec = V0Found - mod(V0Found,1)
Time[V0FoundDec]
``````

However, eve though that drops the decimal, octave still complains about it.

So, what can I do to typecast it to an int?

Thank you.

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In MATLAB, it should be `int8(x)` or `int16(x)` or one of the other integer casts.

But I'm surprised you need to do that for an index. Try

``````myarray(floor(indexlist))
``````

or

``````myarray(round(indexlist))
``````

where `myarray` is your array and `indexlist` is your vector of noninteger indices.

example:

``````octave-3.2.3:8> v=rand(1,8)*10+1
v =

3.1769   1.4397   8.7504   1.7424   6.9413   3.1663   8.4085   9.0179

octave-3.2.3:9> a = (1:1:20).^2
a =

Columns 1 through 15:

1     4     9    16    25    36    49    64    81   100   121   144   169   196   225

Columns 16 through 20:

256   289   324   361   400

octave-3.2.3:10> a(floor(v))
ans =

9    1   64    1   36    9   64   81
``````
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You're idea does work, although it didn't work in the script, I'm guessing I must have just had a really small value for X. –  Leif Andersen Mar 31 '10 at 22:36

You could use round, floor, ceil functions instead of your formula to do the rounding.

By the way, indexing is done using parenthesis instead of brackets so:

``````V0FoundDec = round(V0Found);
Time(V0FoundDec) % not Time[V0FoundDec]
``````

In case that was your problem

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In matlab, the right way to do this is to use the interp1 command to interpolate. The format of this command is

yout = interp1 (xdata, ydata, xin, ...) or yout = interp1 (ydata, xin, ...) where xdata is then assumed to be 1:length(ydata)

If you want to produce the result you would get from calling

V0FoundDec = Time(round(V0found))

you would say

V0FoundDec = interp1(Time, V0found, 'nearest')

but you can just as easily get linear interpolation (this is the default) with

V0FoundDec = interp1(Time, V0found)

or

V0FoundDec = interp1(Time,V0found,'linear')

and you can also extrapolate outside the limits (using 'extrap' or providing an extrap value), where

Time(round(V0found))

will crash if round(V0found) < 1 or > length(Time)

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