Visible to Intel only — GUID: GUID-678C3302-8D47-417B-8EF2-1834E1326FE4
Visible to Intel only — GUID: GUID-678C3302-8D47-417B-8EF2-1834E1326FE4
Convert
Converts the data type of a vector and stores the results in a second vector.
Syntax
IppStatus ippsConvert_8s16s(const Ipp8s* pSrc,Ipp16s* pDst, int len);
IppStatus ippsConvert_8s32f(const Ipp8s* pSrc, Ipp32f* pDst, int len);
IppStatus ippsConvert_8u32f(const Ipp8u* pSrc, Ipp32f* pDst, int len);
IppStatus ippsConvert_8u8s_Sfs(const Ipp8u* pSrc, Ipp8s* pDst, int len, IppRoundMode rndMode, int scaleFactor);
IppStatus ippsConvert_8s8u(const Ipp8s* pSrc, Ipp8u* pDst, int len);
IppStatus ippsConvert_16s8s_Sfs(const Ipp16s* pSrc, Ipp8s* pDst, Ipp32u len, IppRoundMode rndMode, int scaleFactor);
IppStatus ippsConvert_16s32s(const Ipp16s* pSrc, Ipp32s* pDst, int len);
IppStatus ippsConvert_16s32f(const Ipp16s* pSrc, Ipp32f* pDst, int len);
IppStatus ippsConvert_16u32f(const Ipp16u* pSrc, Ipp32f* pDst, int len);
IppStatus ippsConvert_32s16s(const Ipp32s* pSrc, Ipp16s* pDst, int len);
IppStatus ippsConvert_32s32f(const Ipp32s* pSrc, Ipp32f* pDst, int len);
IppStatus ippsConvert_32s64f(const Ipp32s* pSrc, Ipp64f* pDst, int len);
IppStatus ippsConvert_32f64f(const Ipp32f* pSrc, Ipp64f* pDst, int len);
IppStatus ippsConvert_64s64f(const Ipp64s* pSrc, Ipp64f* pDst, Ipp32u len);
IppStatus ippsConvert_64f32f(const Ipp64f* pSrc, Ipp32f* pDst, int len);
IppStatus ippsConvert_16s32f_Sfs(const Ipp16s* pSrc, Ipp32f* pDst, int len, int scaleFactor);
IppStatus ippsConvert_16s64f_Sfs(const Ipp16s* pSrc, Ipp64f* pDst, int len, int scaleFactor);
IppStatus ippsConvert_32s16s_Sfs(const Ipp32s* pSrc, Ipp16s* pDst, int len, int scaleFactor);
IppStatus ippsConvert_32s32f_Sfs(const Ipp32s* pSrc, Ipp32f* pDst, int len, int scaleFactor);
IppStatus ippsConvert_32s64f_Sfs(const Ipp32s* pSrc, Ipp64f* pDst, int len, int scaleFactor);
IppStatus ippsConvert_32f8s_Sfs(const Ipp32f* pSrc, Ipp8s* pDst, int len, IppRoundMode rndMode, int scaleFactor);
IppStatus ippsConvert_32f8u_Sfs(const Ipp32f* pSrc, Ipp8u* pDst, int len, IppRoundMode rndMode, int scaleFactor);
IppStatus ippsConvert_32f16s_Sfs(const Ipp32f* pSrc, Ipp16s* pDst, int len, IppRoundMode rndMode, int scaleFactor);
IppStatus ippsConvert_32f16u_Sfs(const Ipp32f* pSrc, Ipp16u* pDst, int len, IppRoundMode rndMode, int scaleFactor);
IppStatus ippsConvert_32f32s_Sfs(const Ipp32f* pSrc, Ipp32s* pDst, int len, IppRoundMode rndMode, int scaleFactor);
IppStatus ippsConvert_64f8s_Sfs(const Ipp64f* pSrc, Ipp8s* pDst, int len, IppRoundMode rndMode, int scaleFactor);
IppStatus ippsConvert_64f8u_Sfs(const Ipp64f* pSrc, Ipp8u* pDst, int len, IppRoundMode rndMode, int scaleFactor);
IppStatus ippsConvert_64f16u_Sfs(const Ipp64f* pSrc, Ipp16u* pDst, int len, IppRoundMode rndMode, int scaleFactor);
IppStatus ippsConvert_64s32s_Sfs(const Ipp64s* pSrc, Ipp32s* pDst, int len, IppRoundMode rndMode, int scaleFactor);
IppStatus ippsConvert_64f16s_Sfs(const Ipp64f* pSrc, Ipp16s* pDst, int len, IppRoundMode rndMode, int scaleFactor);
IppStatus ippsConvert_64f32s_Sfs(const Ipp64f* pSrc, Ipp32s* pDst, int len, IppRoundMode rndMode, int scaleFactor);
IppStatus ippsConvert_64f64s_Sfs(const Ipp64f* pSrc, Ipp64s* pDst, Ipp32u len, IppRoundMode rndMode, int scaleFactor);
IppStatus ippsConvert_24u32u(const Ipp8u* pSrc, Ipp32u* pDst, int len);
IppStatus ippsConvert_24u32f(const Ipp8u* pSrc, Ipp32f* pDst, int len);
IppStatus ippsConvert_32u24u_Sfs(const Ipp32u* pSrc, Ipp8u* pDst, int len, int scaleFactor);
IppStatus ippsConvert_32f24u_Sfs(const Ipp32f* pSrc, Ipp8u* pDst, int len, int scaleFactor);
IppStatus ippsConvert_24s32s(const Ipp8u* pSrc, Ipp32s* pDst, int len);
IppStatus ippsConvert_24s32f(const Ipp8u* pSrc, Ipp32f* pDst, int len);
IppStatus ippsConvert_32s24s_Sfs(const Ipp32s* pSrc, Ipp8u* pDst, int len, int scaleFactor);
IppStatus ippsConvert_32f24s_Sfs(const Ipp32f* pSrc, Ipp8u* pDst, int len, int scaleFactor);
IppStatus ippsConvert_16s16f(const Ipp16s* pSrc, Ipp16f* pDst, int len, IppRoundMode rndMode);
IppStatus ippsConvert_32f16f(const Ipp32f* pSrc, Ipp16f* pDst, int len, IppRoundMode rndMode);
IppStatus ippsConvert_16f16s_Sfs(const Ipp16f* pSrc, Ipp16s* pDst, int len, IppRoundMode rndMode, int scaleFactor);
IppStatus ippsConvert_16f32f(const Ipp16f* pSrc, Ipp32f* pDst, int len);
Include Files
ipps.h
Domain Dependencies
Headers: ippcore.h, ippvm.h
Libraries: ippcore.lib, ippvm.lib
Parameters
pSrc |
Pointer to the source vector. |
pDst |
Pointer to the destination vector. |
rndMode |
Rounding mode, the following values are possible: |
ippRndZero floating-point values are truncated to zero |
|
ippRndNear floating-point values are rounded to the nearest even integer when the fractional part equals 0.5; otherwise they are rounded to the nearest integer |
|
ippRndFinancial floating-point values are rounded down to the nearest integer when the fractional part is less than 0.5, or rounded up to the nearest integer if the fractional part is equal or greater than 0.5. |
|
len |
Number of elements in the vector. |
scaleFactor |
Scale factor, refer to Integer Scaling. |
Description
This function converts the type of data contained in the vector pSrc and stores the results in pDst.
Functions with the Sfs suffix perform scaling of the result value in accordance with the scaleFactor value. The converted result is saturated if it exceeds the output data range.
Functions that operate with 16f data do not support the ippRndFinancial rounding mode.
Return Values
ippStsNoErr |
Indicates no error. |
ippStsNullPtrErr |
Indicates an error when the pDst or pSrc pointer is NULL. |
ippStsSizeErr |
Indicates an error when len is less than or equal to 0. |
ippStsRoundModeNotSupportedErr |
Indicates an error when the specified rounding mode is not supported. |
Example
/*******************************************************************************
* Copyright 2015 Intel Corporation.
*
*
* This software and the related documents are Intel copyrighted materials, and your use of them is governed by
* the express license under which they were provided to you ('License'). Unless the License provides otherwise,
* you may not use, modify, copy, publish, distribute, disclose or transmit this software or the related
* documents without Intel's prior written permission.
* This software and the related documents are provided as is, with no express or implied warranties, other than
* those that are expressly stated in the License.
*******************************************************************************/
#include <stdio.h>
#include "ipp.h"
/* Next two defines are created to simplify code reading and understanding */
#define EXIT_MAIN exitLine: /* Label for Exit */
#define check_sts(st) if((st) != ippStsNoErr) goto exitLine; /* Go to Exit if Intel(R) Integrated Performance Primitives(Intel(R) IPP) function returned status different from ippStsNoErr */
/* Results of ippMalloc() are not validated because Intel(R) IPP functions perform bad arguments check and will return an appropriate status */
int main()
{
IppStatus status;
Ipp32s src32s[2] = { 33000, -33000 };
Ipp32f src32f[2] = { 126.6, -125.4 };
Ipp32f src_32f[2] = { 113.12, -113.6 };
Ipp32f src1_32f[5] = { -2.5, -2.4, 1.4, 1.5, 1.6 };
Ipp8s src_8s[2] = { 125, -125 };
Ipp8u src8[1] = { 255 };
Ipp32f dst32f[1];
Ipp16s dst16[2];
Ipp16s dst_16s[2];
Ipp8u dst8u[2];
Ipp8s dstN8[2];
Ipp8s dstZ8[2];
Ipp8s dstF8[5];
int scaleFactor = 0; // no scaling
check_sts(status = ippsConvert_8s16s(src_8s, dst_16s, 2));
printf("\n ippsConvert_8s16s Source: %d %d; Result: %d %d\n", src_8s[0], src_8s[1], dst_16s[0], dst_16s[1]);
check_sts(status = ippsConvert_8u32f(src8, dst32f, 1));
printf("\n ippsConvert_8u32f Source: %d; Result: %.1f\n", src8[0], dst32f[0]);
check_sts(status = ippsConvert_32s16s(src32s, dst16, 2));
printf("\n ippsConvert_32s16s Source: %d %d; Result: %d %d\n", src32s[0], src32s[1], dst16[0], dst16[1]);
check_sts(status = ippsConvert_32f8s_Sfs(src32f, dstN8, 2, ippRndNear, scaleFactor));
printf("\n ippsConvert_32f8s_Sfs : ippRndNear\n Source: %.1f %.1f; Result: %d %d\n", src32f[0], src32f[1], dstN8[0], dstN8[1]);
check_sts(status = ippsConvert_32f8s_Sfs(src32f, dstZ8, 2, ippRndZero, scaleFactor));
printf("\n ippsConvert_32f8s_Sfs : ippRndZero\n Source: %.1f %.1f; Result: %d %d\n", src32f[0], src32f[1], dstZ8[0], dstZ8[1]);
check_sts(status = ippsConvert_32f8u_Sfs(src_32f, dst8u, 2, ippRndNear, scaleFactor));
printf("\n ippsConvert_32f8u_Sfs : ippRndNear\n Source: %.1f %.1f; Result: %d %d\n", src_32f[0], src_32f[1], dst8u[0], dst8u[1]);
check_sts(status = ippsConvert_32f8s_Sfs(src1_32f, dstF8, 5, ippRndFinancial, scaleFactor));
printf("\n ippsConvert_32f8u_Sfs : ippRndFinancial\n Source: %.1f %.1f %.1f %.1f %.1f; Result: %d %d %d %d %d\n", src1_32f[0], src1_32f[1], src1_32f[2], src1_32f[3], src1_32f[4], dstF8[0], dstF8[1], dstF8[2], dstF8[3], dstF8[4]);
EXIT_MAIN
printf("\nExit status %d (%s)\n", (int)status, ippGetStatusString(status));
return (int)status;
}
/*
The function ippsConvert_32f16f has the following specific when it processes the number that are not in the range [MinVal16f..MaxVal16f]:
If x > MaxVal16f then{
If(rndMode == IppRndNear) then{
y = Convert_32f16f(x) = +INF
}
If(rndMode == IppRndZero) then{
If(x == +INF) then{
y = Convert_32f16f(x) = +INF
}else {
y = Convert_32f16f(x) = MaxVal16f
}
}
}
If x < MinVal16f then{
If(rndMode == IppRndNear) then{
y = Convert_32f16f(x) = -INF
}
If(rndMode == IppRndZero) then{
If(x == -INF) then{
y = Convert_32f16f(x) = -INF
}else {
y = Convert_32f16f(x) = M in Val16f
}
}
}
*/