/** * Multiply each element by a scalar value. Both input and output images can * be the same instance. * * @param input The input image. Not modified. * @param value What each element is multiplied by. * @param output The output image. Modified. */ public static void multiply(GrayS16 input , double value , GrayS16 output ) { InputSanityCheck.checkSameShape(input,output); int columns = input.width; multiply_A(input.data,input.startIndex,input.stride,value , output.data,output.startIndex,output.stride, input.height,columns); }
/** * Multiply each element by a scalar value. Both input and output images can * be the same instance. * * @param input The input image. Not modified. * @param value What each element is multiplied by. * @param output The output image. Modified. */ public static void multiply(GrayS64 input , double value , GrayS64 output ) { InputSanityCheck.checkSameShape(input,output); int columns = input.width; multiply_A(input.data,input.startIndex,input.stride,value , output.data,output.startIndex,output.stride, input.height,columns); }
/** * Multiply each element by a scalar value. Both input and output images can * be the same instance. * * @param input The input image. Not modified. * @param value What each element is multiplied by. * @param output The output image. Modified. */ public static void multiply( InterleavedS16 input , double value , int lower , int upper , InterleavedS16 output ) { InputSanityCheck.checkSameShape(input,output); int columns = input.width*input.numBands; multiply_A(input.data,input.startIndex,input.stride,value, lower, upper , output.data,output.startIndex,output.stride, input.height,columns); }
/** * Multiply each element by a scalar value. Both input and output images can * be the same instance. * * @param input The input image. Not modified. * @param value What each element is multiplied by. * @param output The output image. Modified. */ public static void multiply(GrayF32 input , float value , float lower , float upper , GrayF32 output ) { InputSanityCheck.checkSameShape(input,output); int columns = input.width; multiply_A(input.data,input.startIndex,input.stride,value, lower, upper , output.data,output.startIndex,output.stride, input.height,columns); }
/** * Multiply each element by a scalar value. Both input and output images can * be the same instance. * * @param input The input image. Not modified. * @param value What each element is multiplied by. * @param output The output image. Modified. */ public static void multiply( InterleavedS16 input , double value , InterleavedS16 output ) { InputSanityCheck.checkSameShapeB(input,output); int columns = input.width*input.numBands; multiply_A(input.data,input.startIndex,input.stride,value , output.data,output.startIndex,output.stride, input.height,columns); }
/** * Multiply each element by a scalar value. Both input and output images can * be the same instance. * * @param input The input image. Not modified. * @param value What each element is multiplied by. * @param output The output image. Modified. */ public static void multiply(GrayS32 input , double value , GrayS32 output ) { InputSanityCheck.checkSameShape(input,output); int columns = input.width; multiply_A(input.data,input.startIndex,input.stride,value , output.data,output.startIndex,output.stride, input.height,columns); }
/** * Multiply each element by a scalar value. Both input and output images can * be the same instance. * * @param input The input image. Not modified. * @param value What each element is multiplied by. * @param output The output image. Modified. */ public static void multiply(GrayF32 input , float value , GrayF32 output ) { InputSanityCheck.checkSameShape(input,output); int columns = input.width; multiply_A(input.data,input.startIndex,input.stride,value , output.data,output.startIndex,output.stride, input.height,columns); }
/** * Multiply each element by a scalar value. Both input and output images can * be the same instance. * * @param input The input image. Not modified. * @param value What each element is multiplied by. * @param output The output image. Modified. */ public static void multiply(GrayF64 input , double value , GrayF64 output ) { InputSanityCheck.checkSameShape(input,output); int columns = input.width; multiply_A(input.data,input.startIndex,input.stride,value , output.data,output.startIndex,output.stride, input.height,columns); }
/** * Multiply each element by a scalar value. Both input and output images can * be the same instance. * * @param input The input image. Not modified. * @param value What each element is multiplied by. * @param output The output image. Modified. */ public static void multiply( InterleavedS64 input , double value , long lower , long upper , InterleavedS64 output ) { InputSanityCheck.checkSameShape(input,output); int columns = input.width*input.numBands; multiply_A(input.data,input.startIndex,input.stride,value, lower, upper , output.data,output.startIndex,output.stride, input.height,columns); }
/** * Multiply each element by a scalar value. Both input and output images can * be the same instance. * * @param input The input image. Not modified. * @param value What each element is multiplied by. * @param output The output image. Modified. */ public static void multiply(GrayF64 input , double value , double lower , double upper , GrayF64 output ) { InputSanityCheck.checkSameShape(input,output); int columns = input.width; multiply_A(input.data,input.startIndex,input.stride,value, lower, upper , output.data,output.startIndex,output.stride, input.height,columns); }
/** * Multiply each element by a scalar value. Both input and output images can * be the same instance. * * @param input The input image. Not modified. * @param value What each element is multiplied by. * @param output The output image. Modified. */ public static void multiply( InterleavedF32 input , float value , InterleavedF32 output ) { InputSanityCheck.checkSameShapeB(input,output); int columns = input.width*input.numBands; multiply_A(input.data,input.startIndex,input.stride,value , output.data,output.startIndex,output.stride, input.height,columns); }
/** * Multiply each element by a scalar value. Both input and output images can * be the same instance. * * @param input The input image. Not modified. * @param value What each element is multiplied by. * @param output The output image. Modified. */ public static void multiply( InterleavedF64 input , double value , InterleavedF64 output ) { InputSanityCheck.checkSameShapeB(input,output); int columns = input.width*input.numBands; multiply_A(input.data,input.startIndex,input.stride,value , output.data,output.startIndex,output.stride, input.height,columns); }
/** * Multiply each element by a scalar value. Both input and output images can * be the same instance. * * @param input The input image. Not modified. * @param value What each element is multiplied by. * @param output The output image. Modified. */ public static void multiply( InterleavedS8 input , double value , int lower , int upper , InterleavedS8 output ) { InputSanityCheck.checkSameShape(input,output); int columns = input.width*input.numBands; multiply_A(input.data,input.startIndex,input.stride,value, lower, upper , output.data,output.startIndex,output.stride, input.height,columns); }
/** * Multiply each element by a scalar value. Both input and output images can * be the same instance. * * @param input The input image. Not modified. * @param value What each element is multiplied by. * @param output The output image. Modified. */ public static void multiply( InterleavedF32 input , float value , float lower , float upper , InterleavedF32 output ) { InputSanityCheck.checkSameShape(input,output); int columns = input.width*input.numBands; multiply_A(input.data,input.startIndex,input.stride,value, lower, upper , output.data,output.startIndex,output.stride, input.height,columns); }
/** * Multiply each element by a scalar value. Both input and output images can * be the same instance. * * @param input The input image. Not modified. * @param value What each element is multiplied by. * @param output The output image. Modified. */ public static void multiply(GrayS8 input , double value , GrayS8 output ) { InputSanityCheck.checkSameShape(input,output); int columns = input.width; multiply_A(input.data,input.startIndex,input.stride,value , output.data,output.startIndex,output.stride, input.height,columns); }
/** * Multiply each element by a scalar value. Both input and output images can * be the same instance. * * @param input The input image. Not modified. * @param value What each element is multiplied by. * @param output The output image. Modified. */ public static void multiply( InterleavedS32 input , double value , InterleavedS32 output ) { InputSanityCheck.checkSameShapeB(input,output); int columns = input.width*input.numBands; multiply_A(input.data,input.startIndex,input.stride,value , output.data,output.startIndex,output.stride, input.height,columns); }
/** * Multiply each element by a scalar value. Both input and output images can * be the same instance. * * @param input The input image. Not modified. * @param value What each element is multiplied by. * @param output The output image. Modified. */ public static void multiply( InterleavedS64 input , double value , InterleavedS64 output ) { InputSanityCheck.checkSameShapeB(input,output); int columns = input.width*input.numBands; multiply_A(input.data,input.startIndex,input.stride,value , output.data,output.startIndex,output.stride, input.height,columns); }
/** * Multiply each element by a scalar value. Both input and output images can * be the same instance. * * @param input The input image. Not modified. * @param value What each element is multiplied by. * @param output The output image. Modified. */ public static void multiply( InterleavedF64 input , double value , double lower , double upper , InterleavedF64 output ) { InputSanityCheck.checkSameShape(input,output); int columns = input.width*input.numBands; multiply_A(input.data,input.startIndex,input.stride,value, lower, upper , output.data,output.startIndex,output.stride, input.height,columns); }
/** * Multiply each element by a scalar value. Both input and output images can * be the same instance. * * @param input The input image. Not modified. * @param value What each element is multiplied by. * @param output The output image. Modified. */ public static void multiply(GrayS8 input , double value , int lower , int upper , GrayS8 output ) { InputSanityCheck.checkSameShape(input,output); int columns = input.width; multiply_A(input.data,input.startIndex,input.stride,value, lower, upper , output.data,output.startIndex,output.stride, input.height,columns); }
/** * Multiply each element by a scalar value. Both input and output images can * be the same instance. * * @param input The input image. Not modified. * @param value What each element is multiplied by. * @param output The output image. Modified. */ public static void multiply(GrayS16 input , double value , int lower , int upper , GrayS16 output ) { InputSanityCheck.checkSameShape(input,output); int columns = input.width; multiply_A(input.data,input.startIndex,input.stride,value, lower, upper , output.data,output.startIndex,output.stride, input.height,columns); }