Intel® Integrated Performance Primitives (Intel® IPP) Developer Guide and Reference

ID 790148
Date 10/31/2024
Public
Document Table of Contents

Modf

Computes truncated integer value and remaining fraction part for each vector element.

Syntax

IppStatus ippsModf_32f (const Ipp32f* pSrc, Ipp32f* pDst1, Ipp32f* pDst2, Ipp32s len);

IppStatus ippsModf_64f (const Ipp64f* pSrc, Ipp64f* pDst1, Ipp64f* pDst2, Ipp32s len);

Include Files

ippvm.h

Domain Dependencies

Headers: ippcore.h

Libraries: ippcore.lib

Parameters

pSrc

Pointer to the source vector.

pDst1

Pointer to the first destination vector.

pDst2

Pointer to the second destination vector.

len

Number of elements in the vectors.

Description

This function computes a truncated value and a remainder of each element of the vector pSrc. The truncated integer value is stored in the corresponding element of the pDst1 vector and the remainder is stored in the corresponding element of the pDst2 vector.

Return Values

ippStsNoErr

Indicates no error.

ippStsNullPtrErr

Indicates an error when pSrc or pDst1 or pDst2 pointer is NULL.

ippStsSizeErr

Indicates an error when len is less than or equal to 0.

Example

The example below shows how to use the function ippsModf.

IppStatus ippsModf_32f_sample(void) {
	const Ipp32f x[4] = {-1.883, -0.265, 0.176, 1.752};
	Ipp32f y1[4], y2[4];
	IppStatus st = ippsModf_32f ( x, y1, y2, 4 );
	
	printf(" ippsModf_32f:\n");
	printf(" x = %.3f %.3f %.3f %.3f \n", x[0], x[1], x[2], x[3]);
	printf(" y1 = %.3f %.3f %.3f %.3f \n", y1[0], y1[1], y1[2], y1[3]);
	printf(" y2 = %.3f %.3f %.3f %.3f \n", y2[0], y2[1], y2[2], y2[3]);
	return st;
}

Output results:

ippsModf_32f:
x = -1.883 -0.265 0.176 1.752
y1 = -1.000 0.000 0.000 1.000
y2 = -0.883 -0.265 0.176 0.752