# Tag Info

54

While the sum of squares algorithm works fine most of the time, it can cause big trouble if you are dealing with very large numbers. You basically may end up with a negative variance... Plus, don't never, ever, ever, compute a^2 as pow(a,2), a * a is almost certainly faster. By far the best way of computing a standard deviation is Welford's method. My C is ...

44

The standard, fast exponentiation uses repeated squaring: uint_t power(uint_t base, uint_t exponent) { uint_t result = 1; for (uint_t term = base; exponent != 0; term = term * term) { if (exponent % 2 != 0) { result *= term; } exponent /= 2; } return result; } The number of steps is logarithmic in the value of ...

32

I'm drawing this answer from the MATLAB documentation for the function EPS, but it should apply universally to IEEE-754 floating point numbers. For a given floating point number X, if 2^E <= abs(X) < 2^(E+1) then the distance from X to the next largest representable floating point number (epsilon) is: epsilon = 2^(E-52) % For a 64-bit float ...

30

Quick ones: Boost is great, but not particularly 'scientific' GNU GSL is very good ... but in plain C For linear algebra and C++, I really like Armadillo For signal processing it++ is popular For anything statistical I use R with the Rcpp and RInside packages for C++ interfaces To me, the Linux distributions matters. With Debian (and Ubuntu), I get a ...

25

Sounds like you want to use Kahan Summation. According to Wikipedia, The Kahan summation algorithm (also known as compensated summation) significantly reduces the numerical error in the total obtained by adding a sequence of finite precision floating point numbers, compared to the obvious approach. This is done by keeping a separate running ...

25

In python 2.6 it is portable if the CPU supports it The float() function will now turn the string nan into an IEEE 754 Not A Number value, and +inf and -inf into positive or negative infinity. This works on any platform with IEEE 754 semantics.

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All numbers in JavaScript are 64-bit floating point numbers. Ref: http://www.hunlock.com/blogs/The_Complete_Javascript_Number_Reference http://www.crockford.com/javascript/survey.html

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There are several ways to achieve it: Using the unary plus operator: var n = +str; The Number constructor: var n = Number(str); The parseFloat function: var n = parseFloat(str);

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You're using int/int, which does everything in integer arithmetic even if you're assigning to a decimal/double/float variable. Force one of the operands to be of the type you want to use for the arithmetic. for (int i = 0; i <= 100; i++) { decimal result = i / 100m; long result2 = i / 100; double result3 = i / 100d; float result4 = i / ...

16

In situations where you are dealing with very large amounts of data, fixed point can be twice as memory efficient, e.g. a four byte long integer as opposed to an eight byte double. A technique often used in large geospatial datasets is to reduce all the data to a common origin, such that the most significant bits can be disposed of, and work with fixed ...

16

Indeed not looked hard enough: In 2.3. Character sets, item 3: In both the source and execution basic character sets, the value of each character after 0 in the above list of decimal digits shall be one greater than the value of the previous. And this is above list of decimal digits: 0 1 2 3 4 5 6 7 8 9 Therefore, an implementation must use a ...

15

Put the array into a struct. boost::array is such a package: boost::array<int, 3> array_func() { boost::array<int, 3> a = {{ 1, 1, 1 }}; return a; } int main() { boost::array<int, 3> b = array_func(); } Quick and dirty: template<typename E, size_t S> struct my_array { E data[S]; }; Notice how you can use aggregate ...

15

According to the ECMA-262 specification (ECMAScript is the specification for Javascript), section 8.5: The Number type has exactly 18437736874454810627 (that is, 264−253+3) values, representing the double-precision 64-bit format IEEE 754 values as specified in the IEEE Standard for Binary Floating-Point Arithmetic Source: ...

15

You can pull this off by turning clipping off for the relevant lines. There's probably a cleaner way to do this -- you might be able to draw lines on the main frame directly -- but the following worked for me: from matplotlib import pyplot as plt from numpy import arange, sin, cos xx = arange(100) cut = (xx > 0) & (xx % 17 == 0) y1 = sin(xx) y2 = ...

14

You can wrap it in a struct, to make it returnable by value: struct Vec3 { float x[3]; } Vec3 array_func() { Vec3 x = { 1.f, 1.f, 1.f }; return x; } I don't think you can use the array initializer syntax directly in the return statement. Of course you could introduce a constructor (structs are just classes with all members public, after all): ...

12

Is your problem convex? Linear? Non-linear? I agree that SciPy.optimize will probably do the job, but fmincon is a sort of bazooka for solving optimization problems, and you'll be better off if you can confine it to one of the categories below (in increasing level of difficulty to solve efficiently) Linear Program (LP) Quadratic Program (QP) Convex ...

12

The precision quoted form Peter R's link to the MSDN ref is probably a good rule of thumb, but of course reality is more complicated. The fact that the "point" in "floating point" is a binary point and not decimal point has a way of defeating our intuitions. The classic example is 0.1, which needs a precision of only one digit in decimal but isn't ...

12

You should use InputScope for the textBox <TextBox Name="myTextBox" InputScope="Digits"/> Here is the full list of InputScopes that are expected to be supported, based on the current enum names for InputScopeNameValue: [NOTE] Even if you don't get the keyboard you want, you can still use it because it is highly possible to be supported in the ...

11

Floating point numbers are an approximation, they cannot store decimal numbers exactly. Because they try to represent a very large range of numbers in only 64 bits, they must approximate to some extent. It is very important to be aware of this, because it results in some weird side-effects. For example, you might very reasonably think that the sum of ten ...

11

For matrix operations, Eigen is an extremely low-overhead C++ library that also scales to large matrices fairly well. For scientific computing, you may need to process a lot of matrices, so have a look at their getting started sample - documentation is excellent, BTW.

11

You can't. C++ operator overloads must involve at least one user-defined type. And even if you could, it would probably be a bad idea. Users expect equality to be transitive, i.e. if a == b and b == c, then a == c. It sounds like your fuzzy comparison would not be transitive.

10

This all comes down to knowing your roots. Yes, this is technically an old technique and I would probably do what other people suggested in that question and use the modulo (%) operator to determine odd or even. But understanding what a 1s compliment (or 2s compliment) is always a good thing to know. Whether or not you ever use them, your CPU is dealing ...

10

According to perldoc perlnumber, Perl uses the native floating point format where native is defined as whatever the C compiler that was used to compile it used. If you are more worried about precision/accuracy than speed, take a look at bignum.

10

Please make sure use \A and \Z rather than ^ and \$, to match the entire string rather than just a single line in the string. If you want to avoid matching a string with an ending newline, use '\z' at the end. For more issues, see The Regex Tutorial on anchors. For example, /^[0-9]+\$/ successfully matches the following: foo 1234 bar but /\A[0-9]+\Z/ ...

10

Here is a link for C# code on to do exactly this: http://www.trentfguidry.net/post/2009/08/01/Linear-Regression-of-Polynomial-Coefficients.aspx Good luck! Edit: Apparently the above link is broken. I made another solution awhile back: http://procbits.com/2011/05/02/linear-regression-in-c-sharp-least-squares/

10

You didn't mention your platform / portability requirements. If you are willing to use gcc or clang, on 64 bit platforms they have a builtin 128 bit types that come for free, __uint128_t and __int128_t. Maybe other platforms have similar type extensions. In any case it should be possible to find the corresponding generic code in the gcc sources that ...

10

This is a linear algebra problem rather than a programming one. Recall the formula for the PDF of a k-dimensional multivariate normal distribution: When your matrix is not strictly positive definite (i.e., it is singular), the determinant in the denominator is zero and the inverse in the exponent is not defined, which is why you're getting the errors. ...

10

In short: Your function must be in the form of y=ax+0, which makes polyfit useless. But you can use the least squares method: a = x(:)\y(:); Explanation: You have n equations and one variable a that is needed to be found: a*x1 = y1; a*x2 = y2; ... a*xn = yn; The operator \ finds the least squares solution. Alternatively, you can find the ...

10

Something like this: int quick_pow10(int n) { static int pow10[10] = { 1, 10, 100, 1000, 10000, 100000, 1000000, 10000000, 100000000, 1000000000 }; return pow10[n]; } Obviously, can do the same thing for long long. This should be several times faster than any competing method. However, it is quite limited if you have lots ...

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