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@ Override public ImageSource apply ( ImageSource input ) { final int [ ] [ ] pixelMatrix = new int [ 3 ] [ 3 ] ; int w = input . getWidth ( ) ; int h = input . getHeight ( ) ; int [ ] [ ] output = new int [ h ] [ w ] ; for ( int j = 1 ; j < h - 1 ; j ++ ) { for ( int i = 1 ; i < w - 1 ; i ++ ) { pixelMatrix [ 0 ] [ 0 ] = input . getR ( i - 1 , j - 1 ) ; pixelMatrix [ 0 ] [ 1 ] = input . getRGB ( i - 1 , j ) ; pixelMatrix [ 0 ] [ 2 ] = input . getRGB ( i - 1 , j + 1 ) ; pixelMatrix [ 1 ] [ 0 ] = input . getRGB ( i , j - 1 ) ; pixelMatrix [ 1 ] [ 2 ] = input . getRGB ( i , j + 1 ) ; pixelMatrix [ 2 ] [ 0 ] = input . getRGB ( i + 1 , j - 1 ) ; pixelMatrix [ 2 ] [ 1 ] = input . getRGB ( i + 1 , j ) ; pixelMatrix [ 2 ] [ 2 ] = input . getRGB ( i + 1 , j + 1 ) ; int edge = ( int ) convolution ( pixelMatrix ) ; int rgb = ( edge << 16 | edge << 8 | edge ) ; output [ j ] [ i ] = rgb ; } } MatrixSource source = new MatrixSource ( output ) ; return source ; }
Expects a height mat as input
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public < L extends Listener > void popEvent ( Event < ? , L > expected ) { synchronized ( this . stack ) { final Event < ? , ? > actual = this . stack . pop ( ) ; if ( actual != expected ) { throw new IllegalStateException ( String . format ( "Unbalanced pop: expected '%s' but encountered '%s'" , expected . getListenerClass ( ) , actual ) ) ; } } }
Pops the top event off the current event stack . This action has to be performed immediately after the event has been dispatched to all listeners .
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protected void modify ( Transaction t ) { try { this . lock . writeLock ( ) . lock ( ) ; t . perform ( ) ; } finally { this . lock . writeLock ( ) . unlock ( ) ; } }
Executes the given transaction within the context of a write lock .
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protected < E > E read ( Supplier < E > sup ) { try { this . lock . readLock ( ) . lock ( ) ; return sup . get ( ) ; } finally { this . lock . readLock ( ) . unlock ( ) ; } }
Executes the given supplier within the context of a read lock .
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protected void setOffsetAndLength ( long offset , int length ) throws IOException { this . offset = offset ; this . length = length ; this . position = 0 ; if ( subStream . position ( ) != offset ) { subStream . seek ( offset ) ; } }
This should be called from a subclass constructor if offset or length are unknown at a time when SubIIMInputStream constructor is called . This method shouldn t be called more than once .
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public static double J0 ( double x ) { double ax ; if ( ( ax = Math . abs ( x ) ) < 8.0 ) { double y = x * x ; double ans1 = 57568490574.0 + y * ( - 13362590354.0 + y * ( 651619640.7 + y * ( - 11214424.18 + y * ( 77392.33017 + y * ( - 184.9052456 ) ) ) ) ) ; double ans2 = 57568490411.0 + y * ( 1029532985.0 + y * ( 9494680.718 + y * ( 59272.64853 + y * ( 267.8532712 + y * 1.0 ) ) ) ) ; return ans1 / ans2 ; } else { double z = 8.0 / ax ; double y = z * z ; double xx = ax - 0.785398164 ; double ans1 = 1.0 + y * ( - 0.1098628627e-2 + y * ( 0.2734510407e-4 + y * ( - 0.2073370639e-5 + y * 0.2093887211e-6 ) ) ) ; double ans2 = - 0.1562499995e-1 + y * ( 0.1430488765e-3 + y * ( - 0.6911147651e-5 + y * ( 0.7621095161e-6 - y * 0.934935152e-7 ) ) ) ; return Math . sqrt ( 0.636619772 / ax ) * ( Math . cos ( xx ) * ans1 - z * Math . sin ( xx ) * ans2 ) ; } }
Bessel function of order 0 .
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public static double J ( int n , double x ) { int j , m ; double ax , bj , bjm , bjp , sum , tox , ans ; boolean jsum ; double ACC = 40.0 ; double BIGNO = 1.0e+10 ; double BIGNI = 1.0e-10 ; if ( n == 0 ) return J0 ( x ) ; if ( n == 1 ) return J ( x ) ; ax = Math . abs ( x ) ; if ( ax == 0.0 ) return 0.0 ; else if ( ax > ( double ) n ) { tox = 2.0 / ax ; bjm = J0 ( ax ) ; bj = J ( ax ) ; for ( j = 1 ; j < n ; j ++ ) { bjp = j * tox * bj - bjm ; bjm = bj ; bj = bjp ; } ans = bj ; } else { tox = 2.0 / ax ; m = 2 * ( ( n + ( int ) Math . sqrt ( ACC * n ) ) / 2 ) ; jsum = false ; bjp = ans = sum = 0.0 ; bj = 1.0 ; for ( j = m ; j > 0 ; j -- ) { bjm = j * tox * bj - bjp ; bjp = bj ; bj = bjm ; if ( Math . abs ( bj ) > BIGNO ) { bj *= BIGNI ; bjp *= BIGNI ; ans *= BIGNI ; sum *= BIGNI ; } if ( jsum ) sum += bj ; jsum = ! jsum ; if ( j == n ) ans = bjp ; } sum = 2.0 * sum - bj ; ans /= sum ; } return x < 0.0 && n % 2 == 1 ? - ans : ans ; }
Bessel function of order n .
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public static double Y0 ( double x ) { if ( x < 8.0 ) { double y = x * x ; double ans1 = - 2957821389.0 + y * ( 7062834065.0 + y * ( - 512359803.6 + y * ( 10879881.29 + y * ( - 86327.92757 + y * 228.4622733 ) ) ) ) ; double ans2 = 40076544269.0 + y * ( 745249964.8 + y * ( 7189466.438 + y * ( 47447.26470 + y * ( 226.1030244 + y * 1.0 ) ) ) ) ; return ( ans1 / ans2 ) + 0.636619772 * J0 ( x ) * Math . log ( x ) ; } else { double z = 8.0 / x ; double y = z * z ; double xx = x - 0.785398164 ; double ans1 = 1.0 + y * ( - 0.1098628627e-2 + y * ( 0.2734510407e-4 + y * ( - 0.2073370639e-5 + y * 0.2093887211e-6 ) ) ) ; double ans2 = - 0.1562499995e-1 + y * ( 0.1430488765e-3 + y * ( - 0.6911147651e-5 + y * ( 0.7621095161e-6 + y * ( - 0.934945152e-7 ) ) ) ) ; return Math . sqrt ( 0.636619772 / x ) * ( Math . sin ( xx ) * ans1 + z * Math . cos ( xx ) * ans2 ) ; } }
Bessel function of the second kind of order 0 .
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public static double Y ( double x ) { if ( x < 8.0 ) { double y = x * x ; double ans1 = x * ( - 0.4900604943e13 + y * ( 0.1275274390e13 + y * ( - 0.5153438139e11 + y * ( 0.7349264551e9 + y * ( - 0.4237922726e7 + y * 0.8511937935e4 ) ) ) ) ) ; double ans2 = 0.2499580570e14 + y * ( 0.4244419664e12 + y * ( 0.3733650367e10 + y * ( 0.2245904002e8 + y * ( 0.1020426050e6 + y * ( 0.3549632885e3 + y ) ) ) ) ) ; return ( ans1 / ans2 ) + 0.636619772 * ( J ( x ) * Math . log ( x ) - 1.0 / x ) ; } else { double z = 8.0 / x ; double y = z * z ; double xx = x - 2.356194491 ; double ans1 = 1.0 + y * ( 0.183105e-2 + y * ( - 0.3516396496e-4 + y * ( 0.2457520174e-5 + y * ( - 0.240337019e-6 ) ) ) ) ; double ans2 = 0.04687499995 + y * ( - 0.2002690873e-3 + y * ( 0.8449199096e-5 + y * ( - 0.88228987e-6 + y * 0.105787412e-6 ) ) ) ; return Math . sqrt ( 0.636619772 / x ) * ( Math . sin ( xx ) * ans1 + z * Math . cos ( xx ) * ans2 ) ; } }
Bessel function of the second kind of order 1 .
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public static double Y ( int n , double x ) { double by , bym , byp , tox ; if ( n == 0 ) return Y0 ( x ) ; if ( n == 1 ) return Y ( x ) ; tox = 2.0 / x ; by = Y ( x ) ; bym = Y0 ( x ) ; for ( int j = 1 ; j < n ; j ++ ) { byp = j * tox * by - bym ; bym = by ; by = byp ; } return by ; }
Bessel function of the second kind of order n .
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public static double I0 ( double x ) { double ans ; double ax = Math . abs ( x ) ; if ( ax < 3.75 ) { double y = x / 3.75 ; y = y * y ; ans = 1.0 + y * ( 3.5156229 + y * ( 3.0899424 + y * ( 1.2067492 + y * ( 0.2659732 + y * ( 0.360768e-1 + y * 0.45813e-2 ) ) ) ) ) ; } else { double y = 3.75 / ax ; ans = ( Math . exp ( ax ) / Math . sqrt ( ax ) ) * ( 0.39894228 + y * ( 0.1328592e-1 + y * ( 0.225319e-2 + y * ( - 0.157565e-2 + y * ( 0.916281e-2 + y * ( - 0.2057706e-1 + y * ( 0.2635537e-1 + y * ( - 0.1647633e-1 + y * 0.392377e-2 ) ) ) ) ) ) ) ) ; } return ans ; }
Bessel function of the first kind of order 0 .
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public static double I ( int n , double x ) { if ( n < 0 ) throw new IllegalArgumentException ( "the variable n out of range." ) ; else if ( n == 0 ) return I0 ( x ) ; else if ( n == 1 ) return I ( x ) ; if ( x == 0.0 ) return 0.0 ; double ACC = 40.0 ; double BIGNO = 1.0e+10 ; double BIGNI = 1.0e-10 ; double tox = 2.0 / Math . abs ( x ) ; double bip = 0 , ans = 0.0 ; double bi = 1.0 ; for ( int j = 2 * ( n + ( int ) Math . sqrt ( ACC * n ) ) ; j > 0 ; j -- ) { double bim = bip + j * tox * bi ; bip = bi ; bi = bim ; if ( Math . abs ( bi ) > BIGNO ) { ans *= BIGNI ; bi *= BIGNI ; bip *= BIGNI ; } if ( j == n ) ans = bip ; } ans *= I0 ( x ) / bi ; return x < 0.0 && n % 2 == 1 ? - ans : ans ; }
Bessel function of the first kind of order n .
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@ Override public ImageSource apply ( ImageSource input ) { int w = input . getWidth ( ) ; int h = input . getHeight ( ) ; MatrixSource output = new MatrixSource ( input ) ; Vector3 n = new Vector3 ( 0 , 0 , 1 ) ; for ( int y = 0 ; y < h ; y ++ ) { for ( int x = 0 ; x < w ; x ++ ) { if ( x < border || x == w - border || y < border || y == h - border ) { output . setRGB ( x , y , VectorHelper . Z_NORMAL ) ; continue ; } float s0 = input . getR ( x - 1 , y + 1 ) ; float s1 = input . getR ( x , y + 1 ) ; float s2 = input . getR ( x + 1 , y + 1 ) ; float s3 = input . getR ( x - 1 , y ) ; float s5 = input . getR ( x + 1 , y ) ; float s6 = input . getR ( x - 1 , y - 1 ) ; float s7 = input . getR ( x , y - 1 ) ; float s8 = input . getR ( x + 1 , y - 1 ) ; float nx = - ( s2 - s0 + 2 * ( s5 - s3 ) + s8 - s6 ) ; float ny = - ( s6 - s0 + 2 * ( s7 - s1 ) + s8 - s2 ) ; n . set ( nx , ny , scale ) ; n . nor ( ) ; int rgb = VectorHelper . vectorToColor ( n ) ; output . setRGB ( x , y , rgb ) ; } } return new MatrixSource ( output ) ; }
Sobel method to generate bump map from a height map
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@ Deprecated public static TraceContextHolder wrap ( TraceContext traceContext ) { return ( traceContext != null ) ? new TraceContextHolder ( traceContext ) : TraceContextHolder . EMPTY ; }
Used by TracedParallelBatch where its used to wrap a TraceContext and puts it in the registry for the forked execution . This is marked deprecated as we prefer not to expose details of the RatpackCurrentTraceContext implementation .
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public static double Sinc ( double x ) { return Math . sin ( Math . PI * x ) / ( Math . PI * x ) ; }
Sinc function .
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public static int Mod ( int x , int m ) { if ( m < 0 ) m = - m ; int r = x % m ; return r < 0 ? r + m : r ; }
Gets the proper modulus operation .
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public static int NextPowerOf2 ( int x ) { -- x ; x |= x >> 1 ; x |= x >> 2 ; x |= x >> 4 ; x |= x >> 8 ; x |= x >> 16 ; return ++ x ; }
Returns the next power of 2 after the input value x .
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public static float Sum ( float [ ] data ) { float sum = 0 ; for ( int i = 0 ; i < data . length ; i ++ ) { sum += data [ i ] ; } return sum ; }
Sum of the elements .
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public static double TruncatedPower ( double value , double degree ) { double x = Math . pow ( value , degree ) ; return ( x > 0 ) ? x : 0.0 ; }
Truncated power function .
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public static int [ ] Unique ( int [ ] values ) { HashSet < Integer > lst = new HashSet < Integer > ( ) ; for ( int i = 0 ; i < values . length ; i ++ ) { lst . add ( values [ i ] ) ; } int [ ] v = new int [ lst . size ( ) ] ; Iterator < Integer > it = lst . iterator ( ) ; for ( int i = 0 ; i < v . length ; i ++ ) { v [ i ] = it . next ( ) ; } return v ; }
Get unique values form the array .
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public void setT ( int t ) { this . t = Math . min ( ( radius * 2 + 1 ) * ( radius * 2 + 1 ) / 2 , Math . max ( 0 , t ) ) ; }
Set trimmed value .
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public static double Sin ( double x , int nTerms ) { if ( nTerms < 2 ) return x ; if ( nTerms == 2 ) { return x - ( x * x * x ) / 6D ; } else { double mult = x * x * x ; double fact = 6 ; double sign = 1 ; int factS = 5 ; double result = x - mult / fact ; for ( int i = 3 ; i <= nTerms ; i ++ ) { mult *= x * x ; fact *= factS * ( factS - 1 ) ; factS += 2 ; result += sign * ( mult / fact ) ; sign *= - 1 ; } return result ; } }
compute Sin using Taylor Series .
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public static double Sinh ( double x , int nTerms ) { if ( nTerms < 2 ) return x ; if ( nTerms == 2 ) { return x + ( x * x * x ) / 6D ; } else { double mult = x * x * x ; double fact = 6 ; int factS = 5 ; double result = x + mult / fact ; for ( int i = 3 ; i <= nTerms ; i ++ ) { mult *= x * x ; fact *= factS * ( factS - 1 ) ; factS += 2 ; result += mult / fact ; } return result ; } }
compute Sinh using Taylor Series .
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public static double Cosh ( double x , int nTerms ) { if ( nTerms < 2 ) return x ; if ( nTerms == 2 ) { return 1 + ( x * x ) / 2D ; } else { double mult = x * x ; double fact = 2 ; int factS = 4 ; double result = 1 + mult / fact ; for ( int i = 3 ; i <= nTerms ; i ++ ) { mult *= x * x ; fact *= factS * ( factS - 1 ) ; factS += 2 ; result += mult / fact ; } return result ; } }
compute Cosh using Taylor Series .
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public static double Exp ( double x , int nTerms ) { if ( nTerms < 2 ) return 1 + x ; if ( nTerms == 2 ) { return 1 + x + ( x * x ) / 2 ; } else { double mult = x * x ; double fact = 2 ; double result = 1 + x + mult / fact ; for ( int i = 3 ; i <= nTerms ; i ++ ) { mult *= x ; fact *= i ; result += mult / fact ; } return result ; } }
compute Exp using Taylor Series .
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public double [ ] [ ] getU ( ) { double [ ] [ ] X = new double [ n ] [ n ] ; double [ ] [ ] U = X ; for ( int i = 0 ; i < n ; i ++ ) { for ( int j = 0 ; j < n ; j ++ ) { if ( i <= j ) { U [ i ] [ j ] = LU [ i ] [ j ] ; } else { U [ i ] [ j ] = 0.0 ; } } } return X ; }
Get the Upper triangular factor .
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public double determinant ( ) { if ( m != n ) { throw new IllegalArgumentException ( "Matrix must be square." ) ; } double d = ( double ) pivsign ; for ( int j = 0 ; j < n ; j ++ ) { d *= LU [ j ] [ j ] ; } return d ; }
Calculate the determinant .
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public static ComplexNumber Add ( ComplexNumber z1 , ComplexNumber z2 ) { return new ComplexNumber ( z1 . real + z2 . real , z1 . imaginary + z2 . imaginary ) ; }
Adds two complex numbers .
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public static ComplexNumber Add ( ComplexNumber z1 , double scalar ) { return new ComplexNumber ( z1 . real + scalar , z1 . imaginary ) ; }
Adds the complex number with a scalar value .
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public static ComplexNumber Subtract ( ComplexNumber z1 , ComplexNumber z2 ) { return new ComplexNumber ( z1 . real - z2 . real , z1 . imaginary - z2 . imaginary ) ; }
Subtract two complex numbers .
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public static ComplexNumber Subtract ( ComplexNumber z1 , double scalar ) { return new ComplexNumber ( z1 . real - scalar , z1 . imaginary ) ; }
Subtract a complex number .
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public static double Magnitude ( ComplexNumber z ) { return Math . sqrt ( z . real * z . real + z . imaginary * z . imaginary ) ; }
Magnitude of complex number .
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public static ComplexNumber Multiply ( ComplexNumber z1 , ComplexNumber z2 ) { double z1R = z1 . real , z1I = z1 . imaginary ; double z2R = z2 . real , z2I = z2 . imaginary ; return new ComplexNumber ( z1R * z2R - z1I * z2I , z1R * z2I + z1I * z2R ) ; }
Multiply two complex numbers .
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public static ComplexNumber Multiply ( ComplexNumber z1 , double scalar ) { return new ComplexNumber ( z1 . real * scalar , z1 . imaginary * scalar ) ; }
Multiply scalar value to a complex number .
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public static ComplexNumber Divide ( ComplexNumber z1 , ComplexNumber z2 ) { ComplexNumber conj = ComplexNumber . Conjugate ( z2 ) ; double a = z1 . real * conj . real + ( ( z1 . imaginary * conj . imaginary ) * - 1 ) ; double b = z1 . real * conj . imaginary + ( z1 . imaginary * conj . real ) ; double c = z2 . real * conj . real + ( ( z2 . imaginary * conj . imaginary ) * - 1 ) ; return new ComplexNumber ( a / c , b / c ) ; }
Divide two complex numbers .
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public static ComplexNumber Pow ( ComplexNumber z1 , double n ) { double norm = Math . pow ( z1 . getMagnitude ( ) , n ) ; double angle = 360 - Math . abs ( Math . toDegrees ( Math . atan ( z1 . imaginary / z1 . real ) ) ) ; double common = n * angle ; double r = norm * Math . cos ( Math . toRadians ( common ) ) ; double i = norm * Math . sin ( Math . toRadians ( common ) ) ; return new ComplexNumber ( r , i ) ; }
Calculate power of a complex number .
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public static ComplexNumber Sin ( ComplexNumber z1 ) { ComplexNumber result = new ComplexNumber ( ) ; if ( z1 . imaginary == 0.0 ) { result . real = Math . sin ( z1 . real ) ; result . imaginary = 0.0 ; } else { result . real = Math . sin ( z1 . real ) * Math . cosh ( z1 . imaginary ) ; result . imaginary = Math . cos ( z1 . real ) * Math . sinh ( z1 . imaginary ) ; } return result ; }
Calculates Sine value of the complex number .
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public static ComplexNumber Tan ( ComplexNumber z1 ) { ComplexNumber result = new ComplexNumber ( ) ; if ( z1 . imaginary == 0.0 ) { result . real = Math . tan ( z1 . real ) ; result . imaginary = 0.0 ; } else { double real2 = 2 * z1 . real ; double imag2 = 2 * z1 . imaginary ; double denom = Math . cos ( real2 ) + Math . cosh ( real2 ) ; result . real = Math . sin ( real2 ) / denom ; result . imaginary = Math . sinh ( imag2 ) / denom ; } return result ; }
Calculates Tangent value of the complex number .
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private void srand ( int ijkl ) { u = new double [ 97 ] ; int ij = ijkl / 30082 ; int kl = ijkl % 30082 ; // Handle the seed range errors // First random number seed must be between 0 and 31328 // Second seed must have a value between 0 and 30081 if ( ij < 0 || ij > 31328 || kl < 0 || kl > 30081 ) { ij = ij % 31329 ; kl = kl % 30082 ; } int i = ( ( ij / 177 ) % 177 ) + 2 ; int j = ( ij % 177 ) + 2 ; int k = ( ( kl / 169 ) % 178 ) + 1 ; int l = kl % 169 ; int m ; double s , t ; for ( int ii = 0 ; ii < 97 ; ii ++ ) { s = 0.0 ; t = 0.5 ; for ( int jj = 0 ; jj < 24 ; jj ++ ) { m = ( ( ( i * j ) % 179 ) * k ) % 179 ; i = j ; j = k ; k = m ; l = ( 53 * l + 1 ) % 169 ; if ( ( ( l * m ) % 64 ) >= 32 ) { s += t ; } t *= 0.5 ; } u [ ii ] = s ; } c = 362436.0 / 16777216.0 ; cd = 7654321.0 / 16777216.0 ; cm = 16777213.0 / 16777216.0 ; i97 = 96 ; j97 = 32 ; }
Initialize the random generator with a seed .
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public float DistanceTo ( IntPoint anotherPoint ) { float dx = this . x - anotherPoint . x ; float dy = this . y - anotherPoint . y ; return ( float ) Math . sqrt ( dx * dx + dy * dy ) ; }
Calculate Euclidean distance between two points .
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public static double Entropy ( int [ ] values ) { int n = values . length ; int total = 0 ; double entropy = 0 ; double p ; // calculate total amount of hits for ( int i = 0 ; i < n ; i ++ ) { total += values [ i ] ; } if ( total != 0 ) { // for all values for ( int i = 0 ; i < n ; i ++ ) { // get item's probability p = ( double ) values [ i ] / total ; // calculate entropy if ( p != 0 ) entropy += ( - p * ( Math . log10 ( p ) / Math . log10 ( 2 ) ) ) ; } } return entropy ; }
Calculate entropy value .
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public static IntRange GetRange ( int [ ] values , double percent ) { int total = 0 , n = values . length ; // for all values for ( int i = 0 ; i < n ; i ++ ) { // accumalate total total += values [ i ] ; } int min , max , hits ; int h = ( int ) ( total * ( percent + ( 1 - percent ) / 2 ) ) ; // get range min value for ( min = 0 , hits = total ; min < n ; min ++ ) { hits -= values [ min ] ; if ( hits < h ) break ; } // get range max value for ( max = n - 1 , hits = total ; max >= 0 ; max -- ) { hits -= values [ max ] ; if ( hits < h ) break ; } return new IntRange ( min , max ) ; }
Get range around median containing specified percentage of values .
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public static int Median ( int [ ] values ) { int total = 0 , n = values . length ; // for all values for ( int i = 0 ; i < n ; i ++ ) { // accumalate total total += values [ i ] ; } int halfTotal = total / 2 ; int median = 0 , v = 0 ; // find median value for ( ; median < n ; median ++ ) { v += values [ median ] ; if ( v >= halfTotal ) break ; } return median ; }
Calculate Median value .
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public static int Mode ( int [ ] values ) { int mode = 0 , curMax = 0 ; for ( int i = 0 , length = values . length ; i < length ; i ++ ) { if ( values [ i ] > curMax ) { curMax = values [ i ] ; mode = i ; } } return mode ; }
Calculate Mode value .
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public static double StdDev ( int [ ] values , double mean ) { double stddev = 0 ; double diff ; int hits ; int total = 0 ; // for all values for ( int i = 0 , n = values . length ; i < n ; i ++ ) { hits = values [ i ] ; diff = ( double ) i - mean ; // accumulate std.dev. stddev += diff * diff * hits ; // accumalate total total += hits ; } return ( total == 0 ) ? 0 : Math . sqrt ( stddev / ( total - 1 ) ) ; }
Calculate standart deviation .
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public static void Forward ( double [ ] data ) { double [ ] result = new double [ data . length ] ; double sum ; double scale = Math . sqrt ( 2.0 / data . length ) ; for ( int f = 0 ; f < data . length ; f ++ ) { sum = 0 ; for ( int t = 0 ; t < data . length ; t ++ ) { double cos = Math . cos ( ( ( 2.0 * t + 1.0 ) * f * Math . PI ) / ( 2.0 * data . length ) ) ; sum += data [ t ] * cos * alpha ( f ) ; } result [ f ] = scale * sum ; } for ( int i = 0 ; i < data . length ; i ++ ) { data [ i ] = result [ i ] ; } }
1 - D Forward Discrete Cosine Transform .
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public static void Forward ( double [ ] [ ] data ) { int rows = data . length ; int cols = data [ 0 ] . length ; double [ ] row = new double [ cols ] ; double [ ] col = new double [ rows ] ; for ( int i = 0 ; i < rows ; i ++ ) { for ( int j = 0 ; j < row . length ; j ++ ) row [ j ] = data [ i ] [ j ] ; Forward ( row ) ; for ( int j = 0 ; j < row . length ; j ++ ) data [ i ] [ j ] = row [ j ] ; } for ( int j = 0 ; j < cols ; j ++ ) { for ( int i = 0 ; i < col . length ; i ++ ) col [ i ] = data [ i ] [ j ] ; Forward ( col ) ; for ( int i = 0 ; i < col . length ; i ++ ) data [ i ] [ j ] = col [ i ] ; } }
2 - D Forward Discrete Cosine Transform .
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public static void Backward ( double [ ] data ) { double [ ] result = new double [ data . length ] ; double sum ; double scale = Math . sqrt ( 2.0 / data . length ) ; for ( int t = 0 ; t < data . length ; t ++ ) { sum = 0 ; for ( int j = 0 ; j < data . length ; j ++ ) { double cos = Math . cos ( ( ( 2 * t + 1 ) * j * Math . PI ) / ( 2 * data . length ) ) ; sum += alpha ( j ) * data [ j ] * cos ; } result [ t ] = scale * sum ; } for ( int i = 0 ; i < data . length ; i ++ ) { data [ i ] = result [ i ] ; } }
1 - D Backward Discrete Cosine Transform .
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public void setInRGB ( IntRange inRGB ) { this . inRed = inRGB ; this . inGreen = inRGB ; this . inBlue = inRGB ; CalculateMap ( inRGB , outRed , mapRed ) ; CalculateMap ( inRGB , outGreen , mapGreen ) ; CalculateMap ( inRGB , outBlue , mapBlue ) ; }
Set RGB input range .
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public void setOutRGB ( IntRange outRGB ) { this . outRed = outRGB ; this . outGreen = outRGB ; this . outBlue = outRGB ; CalculateMap ( inRed , outRGB , mapRed ) ; CalculateMap ( inGreen , outRGB , mapGreen ) ; CalculateMap ( inBlue , outRGB , mapBlue ) ; }
Set RGB output range .
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private void CalculateMap ( IntRange inRange , IntRange outRange , int [ ] map ) { double k = 0 , b = 0 ; if ( inRange . getMax ( ) != inRange . getMin ( ) ) { k = ( double ) ( outRange . getMax ( ) - outRange . getMin ( ) ) / ( double ) ( inRange . getMax ( ) - inRange . getMin ( ) ) ; b = ( double ) ( outRange . getMin ( ) ) - k * inRange . getMin ( ) ; } for ( int i = 0 ; i < 256 ; i ++ ) { int v = ( int ) i ; if ( v >= inRange . getMax ( ) ) v = outRange . getMax ( ) ; else if ( v <= inRange . getMin ( ) ) v = outRange . getMin ( ) ; else v = ( int ) ( k * v + b ) ; map [ i ] = v ; } }
Calculate conversion map .
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public static int Maximum ( ImageSource fastBitmap , int startX , int startY , int width , int height ) { int max = 0 ; if ( fastBitmap . isGrayscale ( ) ) { for ( int i = startX ; i < height ; i ++ ) { for ( int j = startY ; j < width ; j ++ ) { int gray = fastBitmap . getRGB ( j , i ) ; if ( gray > max ) { max = gray ; } } } } else { for ( int i = startX ; i < height ; i ++ ) { for ( int j = startY ; j < width ; j ++ ) { int gray = fastBitmap . getG ( j , i ) ; if ( gray > max ) { max = gray ; } } } } return max ; }
Get maximum gray value in the image .
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public static int Minimum ( ImageSource fastBitmap , int startX , int startY , int width , int height ) { int min = 255 ; if ( fastBitmap . isGrayscale ( ) ) { for ( int i = startX ; i < height ; i ++ ) { for ( int j = startY ; j < width ; j ++ ) { int gray = fastBitmap . getRGB ( j , i ) ; if ( gray < min ) { min = gray ; } } } } else { for ( int i = startX ; i < height ; i ++ ) { for ( int j = startY ; j < width ; j ++ ) { int gray = fastBitmap . getG ( j , i ) ; if ( gray < min ) { min = gray ; } } } } return min ; }
Get minimum gray value in the image .
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public static double Bhattacharyya ( double [ ] histogram1 , double [ ] histogram2 ) { int bins = histogram1 . length ; // histogram bins double b = 0 ; // Bhattacharyya's coefficient for ( int i = 0 ; i < bins ; i ++ ) b += Math . sqrt ( histogram1 [ i ] ) * Math . sqrt ( histogram2 [ i ] ) ; // Bhattacharyya distance between the two distributions return Math . sqrt ( 1.0 - b ) ; }
Bhattacharyya distance between two normalized histograms .
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public static double ChiSquare ( double [ ] histogram1 , double [ ] histogram2 ) { double r = 0 ; for ( int i = 0 ; i < histogram1 . length ; i ++ ) { double t = histogram1 [ i ] + histogram2 [ i ] ; if ( t != 0 ) r += Math . pow ( histogram1 [ i ] - histogram2 [ i ] , 2 ) / t ; } return 0.5 * r ; }
Gets the Chi Square distance between two normalized histograms .
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public static double Correlation ( double [ ] p , double [ ] q ) { double x = 0 ; double y = 0 ; for ( int i = 0 ; i < p . length ; i ++ ) { x += - p [ i ] ; y += - q [ i ] ; } x /= p . length ; y /= q . length ; double num = 0 ; double den1 = 0 ; double den2 = 0 ; for ( int i = 0 ; i < p . length ; i ++ ) { num += ( p [ i ] + x ) * ( q [ i ] + y ) ; den1 += Math . abs ( Math . pow ( p [ i ] + x , 2 ) ) ; den2 += Math . abs ( Math . pow ( q [ i ] + x , 2 ) ) ; } return 1 - ( num / ( Math . sqrt ( den1 ) * Math . sqrt ( den2 ) ) ) ; }
Gets the Correlation distance between two points .
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public static int Hamming ( String first , String second ) { if ( first . length ( ) != second . length ( ) ) throw new IllegalArgumentException ( "The size of string must be the same." ) ; int diff = 0 ; for ( int i = 0 ; i < first . length ( ) ; i ++ ) if ( first . charAt ( i ) != second . charAt ( i ) ) diff ++ ; return diff ; }
Gets the Hamming distance between two strings .
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public static double JaccardDistance ( double [ ] p , double [ ] q ) { double distance = 0 ; int intersection = 0 , union = 0 ; for ( int x = 0 ; x < p . length ; x ++ ) { if ( ( p [ x ] != 0 ) || ( q [ x ] != 0 ) ) { if ( p [ x ] == q [ x ] ) { intersection ++ ; } union ++ ; } } if ( union != 0 ) distance = 1.0 - ( ( double ) intersection / ( double ) union ) ; else distance = 0 ; return distance ; }
Gets the Jaccard distance between two points .
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public static double JensenShannonDivergence ( double [ ] p , double [ ] q ) { double [ ] m = new double [ p . length ] ; for ( int i = 0 ; i < m . length ; i ++ ) { m [ i ] = ( p [ i ] + q [ i ] ) / 2 ; } return ( KullbackLeiblerDivergence ( p , m ) + KullbackLeiblerDivergence ( q , m ) ) / 2 ; }
Gets the Jensen Shannon divergence .
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public static double KumarJohnsonDivergence ( double [ ] p , double [ ] q ) { double r = 0 ; for ( int i = 0 ; i < p . length ; i ++ ) { if ( p [ i ] != 0 && q [ i ] != 0 ) { r += Math . pow ( p [ i ] * p [ i ] - q [ i ] * q [ i ] , 2 ) / 2 * Math . pow ( p [ i ] * q [ i ] , 1.5 ) ; } } return r ; }
Gets the Kumar - Johnson divergence .
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public static double KullbackLeiblerDivergence ( double [ ] p , double [ ] q ) { boolean intersection = false ; double k = 0 ; for ( int i = 0 ; i < p . length ; i ++ ) { if ( p [ i ] != 0 && q [ i ] != 0 ) { intersection = true ; k += p [ i ] * Math . log ( p [ i ] / q [ i ] ) ; } } if ( intersection ) return k ; else return Double . POSITIVE_INFINITY ; }
Gets the Kullback Leibler divergence .
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public static double SquaredEuclidean ( double [ ] x , double [ ] y ) { double d = 0.0 , u ; for ( int i = 0 ; i < x . length ; i ++ ) { u = x [ i ] - y [ i ] ; d += u * u ; } return d ; }
Gets the Square Euclidean distance between two points .
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public static double SymmetricChiSquareDivergence ( double [ ] p , double [ ] q ) { double r = 0 ; for ( int i = 0 ; i < p . length ; i ++ ) { double den = p [ i ] * q [ i ] ; if ( den != 0 ) { double p1 = p [ i ] - q [ i ] ; double p2 = p [ i ] + q [ i ] ; r += ( p1 * p1 * p2 ) / den ; } } return r ; }
Gets the Symmetric Chi - square divergence .
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public static double SymmetricKullbackLeibler ( double [ ] p , double [ ] q ) { double dist = 0 ; for ( int i = 0 ; i < p . length ; i ++ ) { dist += ( p [ i ] - q [ i ] ) * ( Math . log ( p [ i ] ) - Math . log ( q [ i ] ) ) ; } return dist ; }
Gets the Symmetric Kullback - Leibler distance . This metric is valid only for real and positive P and Q .
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public static double Taneja ( double [ ] p , double [ ] q ) { double r = 0 ; for ( int i = 0 ; i < p . length ; i ++ ) { if ( p [ i ] != 0 && q [ i ] != 0 ) { double pq = p [ i ] + q [ i ] ; r += ( pq / 2 ) * Math . log ( pq / ( 2 * Math . sqrt ( p [ i ] * q [ i ] ) ) ) ; } } return r ; }
Gets the Taneja divergence .
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public static double TopsoeDivergence ( double [ ] p , double [ ] q ) { double r = 0 ; for ( int i = 0 ; i < p . length ; i ++ ) { if ( p [ i ] != 0 && q [ i ] != 0 ) { double den = p [ i ] + q [ i ] ; r += p [ i ] * Math . log ( 2 * p [ i ] / den ) + q [ i ] * Math . log ( 2 * q [ i ] / den ) ; } } return r ; }
Gets the Topsoe divergence .
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public boolean contains ( Vector3 p ) { boolean ans = false ; if ( this . halfplane || p == null ) return false ; if ( isCorner ( p ) ) { return true ; } PointLinePosition a12 = PointLineTest . pointLineTest ( a , b , p ) ; PointLinePosition a23 = PointLineTest . pointLineTest ( b , c , p ) ; PointLinePosition a31 = PointLineTest . pointLineTest ( c , a , p ) ; if ( ( a12 == PointLinePosition . LEFT && a23 == PointLinePosition . LEFT && a31 == PointLinePosition . LEFT ) || ( a12 == PointLinePosition . RIGHT && a23 == PointLinePosition . RIGHT && a31 == PointLinePosition . RIGHT ) || ( a12 == PointLinePosition . ON_SEGMENT || a23 == PointLinePosition . ON_SEGMENT || a31 == PointLinePosition . ON_SEGMENT ) ) { ans = true ; } return ans ; }
determinates if this triangle contains the point p .
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public static float calcDet ( Vector3 a , Vector3 b , Vector3 c ) { return ( a . x * ( b . y - c . y ) ) - ( a . y * ( b . x - c . x ) ) + ( b . x * c . y - b . y * c . x ) ; }
checks if the triangle is not re - entrant
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public int sharedSegments ( Triangle t2 ) { int counter = 0 ; if ( a . equals ( t2 . a ) ) { counter ++ ; } if ( a . equals ( t2 . b ) ) { counter ++ ; } if ( a . equals ( t2 . c ) ) { counter ++ ; } if ( b . equals ( t2 . a ) ) { counter ++ ; } if ( b . equals ( t2 . b ) ) { counter ++ ; } if ( b . equals ( t2 . c ) ) { counter ++ ; } if ( c . equals ( t2 . a ) ) { counter ++ ; } if ( c . equals ( t2 . b ) ) { counter ++ ; } if ( c . equals ( t2 . c ) ) { counter ++ ; } return counter ; }
checks if the 2 triangles shares a segment
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@ Override public ImageSource apply ( ImageSource source ) { if ( radius != 0 ) { if ( source . isGrayscale ( ) ) { return applyGrayscale ( source , radius ) ; } else { return applyRGB ( source , radius ) ; } } else { if ( source . isGrayscale ( ) ) { return applyGrayscale ( source , kernel ) ; } else { return applyRGB ( source , kernel ) ; } } }
Apply filter to an image .
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public < T > T handleResponse ( Response response , Type returnType ) throws ApiException { if ( response . isSuccessful ( ) ) { if ( returnType == null || response . code ( ) == 204 ) { // returning null if the returnType is not defined, // or the status code is 204 (No Content) return null ; } else { return deserialize ( response , returnType ) ; } } else { String respBody = null ; if ( response . body ( ) != null ) { try { respBody = response . body ( ) . string ( ) ; } catch ( IOException e ) { throw new ApiException ( response . message ( ) , e , response . code ( ) , response . headers ( ) . toMultimap ( ) ) ; } } throw new ApiException ( response . message ( ) , response . code ( ) , response . headers ( ) . toMultimap ( ) , respBody ) ; } }
Handle the given response return the deserialized object when the response is successful .
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public void add ( int ds , Object value ) throws SerializationException , InvalidDataSetException { if ( value == null ) { return ; } DataSetInfo dsi = dsiFactory . create ( ds ) ; byte [ ] data = dsi . getSerializer ( ) . serialize ( value , activeSerializationContext ) ; DataSet dataSet = new DefaultDataSet ( dsi , data ) ; dataSets . add ( dataSet ) ; }
Adds a data set to IIM file .
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public void addDateTimeHelper ( int ds , Date date ) throws SerializationException , InvalidDataSetException { if ( date == null ) { return ; } DataSetInfo dsi = dsiFactory . create ( ds ) ; SimpleDateFormat df = new SimpleDateFormat ( dsi . getSerializer ( ) . toString ( ) ) ; String value = df . format ( date ) ; byte [ ] data = dsi . getSerializer ( ) . serialize ( value , activeSerializationContext ) ; DataSet dataSet = new DefaultDataSet ( dsi , data ) ; add ( dataSet ) ; }
Adds a data set with date - time value to IIM file .
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public Object get ( int dataSet ) throws SerializationException { Object result = null ; for ( Iterator < DataSet > i = dataSets . iterator ( ) ; i . hasNext ( ) ; ) { DataSet ds = i . next ( ) ; DataSetInfo info = ds . getInfo ( ) ; if ( info . getDataSetNumber ( ) == dataSet ) { result = getData ( ds ) ; break ; } } return result ; }
Gets a first data set value .
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public List < Object > getAll ( int dataSet ) throws SerializationException { List < Object > result = new ArrayList < Object > ( ) ; for ( Iterator < DataSet > i = dataSets . iterator ( ) ; i . hasNext ( ) ; ) { DataSet ds = i . next ( ) ; DataSetInfo info = ds . getInfo ( ) ; if ( info . getDataSetNumber ( ) == dataSet ) { result . add ( getData ( ds ) ) ; } } return result ; }
Gets all data set values .
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public void readFrom ( IIMReader reader , int recover ) throws IOException , InvalidDataSetException { final boolean doLog = log != null ; for ( ; ; ) { try { DataSet ds = reader . read ( ) ; if ( ds == null ) { break ; } if ( doLog ) { log . debug ( "Read data set " + ds ) ; } DataSetInfo info = ds . getInfo ( ) ; Serializer s = info . getSerializer ( ) ; if ( s != null ) { if ( info . getDataSetNumber ( ) == IIM . DS ( 1 , 90 ) ) { setCharacterSet ( ( String ) s . deserialize ( ds . getData ( ) , activeSerializationContext ) ) ; } } dataSets . add ( ds ) ; if ( stopAfter9_10 && info . getDataSetNumber ( ) == IIM . DS ( 9 , 10 ) ) break ; } catch ( IIMFormatException e ) { if ( recoverFromIIMFormat && recover -- > 0 ) { boolean r = reader . recover ( ) ; if ( doLog ) { log . debug ( r ? "Recoved from " + e : "Failed to recover from " + e ) ; } if ( ! r ) break ; } else { throw e ; } } catch ( UnsupportedDataSetException e ) { if ( recoverFromUnsupportedDataSet && recover -- > 0 ) { boolean r = reader . recover ( ) ; if ( doLog ) { log . debug ( r ? "Recoved from " + e : "Failed to recover from " + e ) ; } if ( ! r ) break ; } else { throw e ; } } catch ( InvalidDataSetException e ) { if ( recoverFromInvalidDataSet && recover -- > 0 ) { boolean r = reader . recover ( ) ; if ( doLog ) { log . debug ( r ? "Recoved from " + e : "Failed to recover from " + e ) ; } if ( ! r ) break ; } else { throw e ; } } catch ( IOException e ) { if ( recover -- > 0 && ! dataSets . isEmpty ( ) ) { if ( doLog ) { log . error ( "IOException while reading, however some data sets where recovered, " + e ) ; } return ; } else { throw e ; } } } }
Reads data sets from a passed reader .
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public void writeTo ( IIMWriter writer ) throws IOException { final boolean doLog = log != null ; for ( Iterator < DataSet > i = dataSets . iterator ( ) ; i . hasNext ( ) ; ) { DataSet ds = i . next ( ) ; writer . write ( ds ) ; if ( doLog ) { log . debug ( "Wrote data set " + ds ) ; } } }
Writes this IIMFile to writer .
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public Set < ConstraintViolation > validate ( DataSetInfo info ) { Set < ConstraintViolation > errors = new LinkedHashSet < ConstraintViolation > ( ) ; try { if ( info . isMandatory ( ) && get ( info . getDataSetNumber ( ) ) == null ) { errors . add ( new ConstraintViolation ( info , ConstraintViolation . MANDATORY_MISSING ) ) ; } if ( ! info . isRepeatable ( ) && getAll ( info . getDataSetNumber ( ) ) . size ( ) > 1 ) { errors . add ( new ConstraintViolation ( info , ConstraintViolation . REPEATABLE_REPEATED ) ) ; } } catch ( SerializationException e ) { errors . add ( new ConstraintViolation ( info , ConstraintViolation . INVALID_VALUE ) ) ; } return errors ; }
Checks if data set is mandatory but missing or non repeatable but having multiple values in this IIM instance .
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public Set < ConstraintViolation > validate ( int record ) { Set < ConstraintViolation > errors = new LinkedHashSet < ConstraintViolation > ( ) ; for ( int ds = 0 ; ds < 250 ; ++ ds ) { try { DataSetInfo dataSetInfo = dsiFactory . create ( IIM . DS ( record , ds ) ) ; errors . addAll ( validate ( dataSetInfo ) ) ; } catch ( InvalidDataSetException ignored ) { // DataSetFactory doesn't know about this ds, so will skip it } } return errors ; }
Checks all data sets in a given record for constraint violations .
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public Set < ConstraintViolation > validate ( ) { Set < ConstraintViolation > errors = new LinkedHashSet < ConstraintViolation > ( ) ; for ( int record = 1 ; record <= 3 ; ++ record ) { errors . addAll ( validate ( record ) ) ; } return errors ; }
Checks all data sets in IIM records 1 2 and 3 for constraint violations .
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public int compare ( Vector3 o1 , Vector3 o2 ) { int ans = 0 ; if ( o1 != null && o2 != null ) { Vector3 d1 = o1 ; Vector3 d2 = o2 ; if ( d1 . x > d2 . x ) return 1 ; if ( d1 . x < d2 . x ) return - 1 ; // x1 == x2 if ( d1 . y > d2 . y ) return 1 ; if ( d1 . y < d2 . y ) return - 1 ; } else { if ( o1 == null && o2 == null ) return 0 ; if ( o1 == null && o2 != null ) return 1 ; if ( o1 != null && o2 == null ) return - 1 ; } return ans ; }
compare between two points .
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public double nextDouble ( double lo , double hi ) { if ( lo < 0 ) { if ( nextInt ( 2 ) == 0 ) return - nextDouble ( 0 , - lo ) ; else return nextDouble ( 0 , hi ) ; } else { return ( lo + ( hi - lo ) * nextDouble ( ) ) ; } }
Generate a uniform random number in the range [ lo hi )
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public ApiResponse < TagsEnvelope > getTagCategoriesWithHttpInfo ( ) throws ApiException { com . squareup . okhttp . Call call = getTagCategoriesValidateBeforeCall ( null , null ) ; Type localVarReturnType = new TypeToken < TagsEnvelope > ( ) { } . getType ( ) ; return apiClient . execute ( call , localVarReturnType ) ; }
Get all categories Get all tags marked as categories
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public RuleEnvelope getRule ( String ruleId ) throws ApiException { ApiResponse < RuleEnvelope > resp = getRuleWithHttpInfo ( ruleId ) ; return resp . getData ( ) ; }
Get Rule Get a rule using the Rule ID
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protected void addNeighbor ( Queue < ColorPoint > queue , int px , int py , int color , Feature component ) { if ( ! inBoundary ( px , py , component ) ) { return ; } if ( ! mask . isTouched ( px , py ) ) { queue . add ( new ColorPoint ( px , py , color ) ) ; } }
May have to be changed to let multiple touch
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public double Function1D ( double x ) { return Math . exp ( x * x / ( - 2 * sqrSigma ) ) / ( Math . sqrt ( 2 * Math . PI ) * sigma ) ; }
1 - D Gaussian function .
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public double Function2D ( double x , double y ) { return Math . exp ( - ( x * x + y * y ) / ( 2 * sqrSigma ) ) / ( 2 * Math . PI * sqrSigma ) ; }
2 - D Gaussian function .
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public double [ ] Kernel1D ( int size ) { if ( ( ( size % 2 ) == 0 ) || ( size < 3 ) || ( size > 101 ) ) { try { throw new Exception ( "Wrong size" ) ; } catch ( Exception e ) { e . printStackTrace ( ) ; } } int r = size / 2 ; // kernel double [ ] kernel = new double [ size ] ; // compute kernel for ( int x = - r , i = 0 ; i < size ; x ++ , i ++ ) { kernel [ i ] = Function1D ( x ) ; } return kernel ; }
1 - D Gaussian kernel .
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public double [ ] [ ] Kernel2D ( int size ) { if ( ( ( size % 2 ) == 0 ) || ( size < 3 ) || ( size > 101 ) ) { try { throw new Exception ( "Wrong size" ) ; } catch ( Exception e ) { e . printStackTrace ( ) ; } } int r = size / 2 ; double [ ] [ ] kernel = new double [ size ] [ size ] ; // compute kernel double sum = 0 ; for ( int y = - r , i = 0 ; i < size ; y ++ , i ++ ) { for ( int x = - r , j = 0 ; j < size ; x ++ , j ++ ) { kernel [ i ] [ j ] = Function2D ( x , y ) ; sum += kernel [ i ] [ j ] ; } } for ( int i = 0 ; i < kernel . length ; i ++ ) { for ( int j = 0 ; j < kernel [ 0 ] . length ; j ++ ) { kernel [ i ] [ j ] /= sum ; } } return kernel ; }
2 - D Gaussian kernel .
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public ArrayList < IntPoint > process ( ImageSource fastBitmap ) { //FastBitmap l = new FastBitmap(fastBitmap); if ( points == null ) { apply ( fastBitmap ) ; } int width = fastBitmap . getWidth ( ) ; int height = fastBitmap . getHeight ( ) ; points = new ArrayList < IntPoint > ( ) ; if ( fastBitmap . isGrayscale ( ) ) { for ( int x = 0 ; x < height ; x ++ ) { for ( int y = 0 ; y < width ; y ++ ) { if ( fastBitmap . getRGB ( y , x ) == 255 ) points . add ( new IntPoint ( y , x ) ) ; } } } else { for ( int x = 0 ; x < height ; x ++ ) { for ( int y = 0 ; y < width ; y ++ ) { // TODO Check for green and blue? if ( fastBitmap . getR ( y , x ) == 255 ) points . add ( new IntPoint ( y , x ) ) ; } } } return points ; }
Get points after extract boundary .
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public static void Forward ( double [ ] data ) { double [ ] result = new double [ data . length ] ; for ( int k = 0 ; k < result . length ; k ++ ) { double sum = 0 ; for ( int n = 0 ; n < data . length ; n ++ ) { double theta = ( ( 2.0 * Math . PI ) / data . length ) * k * n ; sum += data [ n ] * cas ( theta ) ; } result [ k ] = ( 1.0 / Math . sqrt ( data . length ) ) * sum ; } for ( int i = 0 ; i < result . length ; i ++ ) { data [ i ] = result [ i ] ; } }
1 - D Forward Discrete Hartley Transform .
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public static void Forward ( double [ ] [ ] data ) { double [ ] [ ] result = new double [ data . length ] [ data [ 0 ] . length ] ; for ( int m = 0 ; m < data . length ; m ++ ) { for ( int n = 0 ; n < data [ 0 ] . length ; n ++ ) { double sum = 0 ; for ( int i = 0 ; i < result . length ; i ++ ) { for ( int k = 0 ; k < data . length ; k ++ ) { sum += data [ i ] [ k ] * cas ( ( ( 2.0 * Math . PI ) / data . length ) * ( i * m + k * n ) ) ; } result [ m ] [ n ] = ( 1.0 / data . length ) * sum ; } } } for ( int i = 0 ; i < data . length ; i ++ ) { for ( int j = 0 ; j < data [ 0 ] . length ; j ++ ) { data [ i ] [ j ] = result [ i ] [ j ] ; } } }
2 - D Forward Discrete Hartley Transform .
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public PropertiesEnvelope createUserProperties ( String userId , AppProperties properties , String aid ) throws ApiException { ApiResponse < PropertiesEnvelope > resp = createUserPropertiesWithHttpInfo ( userId , properties , aid ) ; return resp . getData ( ) ; }
Create User Application Properties Create application properties for a user
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public PropertiesEnvelope getUserProperties ( String userId , String aid ) throws ApiException { ApiResponse < PropertiesEnvelope > resp = getUserPropertiesWithHttpInfo ( userId , aid ) ; return resp . getData ( ) ; }
Get User application properties Get application properties of a user
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protected < T extends Listener > Collection < T > copyList ( Class < T > listenerClass , Stream < Object > listeners , int sizeHint ) { if ( sizeHint == 0 ) { return Collections . emptyList ( ) ; } return listeners . map ( listenerClass :: cast ) . collect ( Collectors . toCollection ( ( ) -> new ArrayList <> ( sizeHint ) ) ) ; }
Creates a collection from the given stream casting each object to the provided listener class . The returned collection must not necessarily be mutable .
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public List < Cluster > cluster ( final Collection < Point2D > points ) { final List < Cluster > clusters = new ArrayList < Cluster > ( ) ; final Map < Point2D , PointStatus > visited = new HashMap < Point2D , DBScan . PointStatus > ( ) ; KDTree < Point2D > tree = new KDTree < Point2D > ( 2 ) ; // Populate the kdTree for ( final Point2D point : points ) { double [ ] key = { point . x , point . y } ; tree . insert ( key , point ) ; } for ( final Point2D point : points ) { if ( visited . get ( point ) != null ) { continue ; } final List < Point2D > neighbors = getNeighbors ( point , tree ) ; if ( neighbors . size ( ) >= minPoints ) { // DBSCAN does not care about center points final Cluster cluster = new Cluster ( clusters . size ( ) ) ; clusters . add ( expandCluster ( cluster , point , neighbors , tree , visited ) ) ; } else { visited . put ( point , PointStatus . NOISE ) ; } } for ( Cluster cluster : clusters ) { cluster . calculateCentroid ( ) ; } return clusters ; }
Performs DBSCAN cluster analysis .
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private Cluster expandCluster ( final Cluster cluster , final Point2D point , final List < Point2D > neighbors , final KDTree < Point2D > points , final Map < Point2D , PointStatus > visited ) { cluster . addPoint ( point ) ; visited . put ( point , PointStatus . PART_OF_CLUSTER ) ; List < Point2D > seeds = new ArrayList < Point2D > ( neighbors ) ; int index = 0 ; while ( index < seeds . size ( ) ) { Point2D current = seeds . get ( index ) ; PointStatus pStatus = visited . get ( current ) ; // only check non-visited points if ( pStatus == null ) { final List < Point2D > currentNeighbors = getNeighbors ( current , points ) ; if ( currentNeighbors . size ( ) >= minPoints ) { seeds = merge ( seeds , currentNeighbors ) ; } } if ( pStatus != PointStatus . PART_OF_CLUSTER ) { visited . put ( current , PointStatus . PART_OF_CLUSTER ) ; cluster . addPoint ( current ) ; } index ++ ; } return cluster ; }
Expands the cluster to include density - reachable items .
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private List < Point2D > merge ( final List < Point2D > one , final List < Point2D > two ) { final Set < Point2D > oneSet = new HashSet < Point2D > ( one ) ; for ( Point2D item : two ) { if ( ! oneSet . contains ( item ) ) { one . add ( item ) ; } } return one ; }
Merges two lists together .
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public ImageSource apply ( ImageSource input ) { ImageSource originalImage = input ; int width = originalImage . getWidth ( ) ; int height = originalImage . getHeight ( ) ; boolean [ ] [ ] matrix = new boolean [ width ] [ height ] ; // black n white boolean matrix; true = blck, false = white // Copy ImageSource filteredImage = new MatrixSource ( input ) ; int [ ] histogram = OtsuBinarize . imageHistogram ( originalImage ) ; int totalNumberOfpixels = height * width ; int threshold = OtsuBinarize . threshold ( histogram , totalNumberOfpixels ) ; int black = 0 ; int white = 255 ; int gray ; int alpha ; int newColor ; for ( int i = 0 ; i < width ; i ++ ) { for ( int j = 0 ; j < height ; j ++ ) { gray = originalImage . getGray ( i , j ) ; if ( gray > threshold ) { matrix [ i ] [ j ] = false ; } else { matrix [ i ] [ j ] = true ; } } } int blackTreshold = letterThreshold ( originalImage , matrix ) ; for ( int i = 0 ; i < width ; i ++ ) { for ( int j = 0 ; j < height ; j ++ ) { gray = originalImage . getGray ( i , j ) ; alpha = originalImage . getA ( i , j ) ; if ( gray > blackTreshold ) { newColor = white ; } else { newColor = black ; } newColor = ColorHelper . getARGB ( newColor , newColor , newColor , alpha ) ; filteredImage . setRGB ( i , j , newColor ) ; } } return filteredImage ; }
radi otsu da dobije spojena crna slova i ra
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public static int [ ] Argsort ( final float [ ] array , final boolean ascending ) { Integer [ ] indexes = new Integer [ array . length ] ; for ( int i = 0 ; i < indexes . length ; i ++ ) { indexes [ i ] = i ; } Arrays . sort ( indexes , new Comparator < Integer > ( ) { @ Override public int compare ( final Integer i1 , final Integer i2 ) { return ( ascending ? 1 : - 1 ) * Float . compare ( array [ i1 ] , array [ i2 ] ) ; } } ) ; return asArray ( indexes ) ; }
Returns the indices that would sort an array .
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