Linux and UNIX Man Pages

Test Your Knowledge in Computers #880
Difficulty: Medium
SCADA systems that tie together decentralized facilities such as power, oil, gas pipelines, water distribution and wastewater collection systems were designed to be open, robust, easily operated and repaired, and highly secure.
True or False?
Linux & Unix Commands - Search Man Pages

mlib_vectorscale_s16_u8_mod(3mlib) [sunos man page]

mlib_VectorScale_U8_U8_Mod(3MLIB)			    mediaLib Library Functions				 mlib_VectorScale_U8_U8_Mod(3MLIB)

NAME
mlib_VectorScale_U8_U8_Mod, mlib_VectorScale_U8_U8_Sat, mlib_VectorScale_U8C_U8C_Mod, mlib_VectorScale_U8C_U8C_Sat, mlib_Vec- torScale_S8_S8_Mod, mlib_VectorScale_S8_S8_Sat, mlib_VectorScale_S8C_S8C_Mod, mlib_VectorScale_S8C_S8C_Sat, mlib_VectorScale_S16_U8_Mod, mlib_VectorScale_S16_U8_Sat, mlib_VectorScale_S16_S8_Mod, mlib_VectorScale_S16_S8_Sat, mlib_VectorScale_S16_S16_Mod, mlib_Vec- torScale_S16_S16_Sat, mlib_VectorScale_S16C_U8C_Mod, mlib_VectorScale_S16C_U8C_Sat, mlib_VectorScale_S16C_S8C_Mod, mlib_Vec- torScale_S16C_S8C_Sat, mlib_VectorScale_S16C_S16C_Mod, mlib_VectorScale_S16C_S16C_Sat, mlib_VectorScale_S32_S16_Mod, mlib_Vec- torScale_S32_S16_Sat, mlib_VectorScale_S32_S32_Mod, mlib_VectorScale_S32_S32_Sat, mlib_VectorScale_S32C_S16C_Mod, mlib_Vec- torScale_S32C_S16C_Sat, mlib_VectorScale_S32C_S32C_Mod, mlib_VectorScale_S32C_S32C_Sat - vector linear scaling SYNOPSIS
cc [ flag... ] file... -lmlib [ library... ] #include <mlib.h> mlib_status mlib_VectorScale_U8_U8_Mod(mlib_u8 *z, const mlib_u8 *x, const mlib_u8 *a, const mlib_u8 *b, mlib_s32 n); mlib_status mlib_VectorScale_U8_U8_Sat(mlib_u8 *z, const mlib_u8 *x, const mlib_u8 *a, const mlib_u8 *b, mlib_s32 n); mlib_status mlib_VectorScale_U8C_U8C_Mod(mlib_u8 *z, const mlib_u8 *x, const mlib_u8 *a, const mlib_u8 *b, mlib_s32 n); mlib_status mlib_VectorScale_U8C_U8C_Sat(mlib_u8 *z, const mlib_u8 *x, const mlib_u8 *a, const mlib_u8 *b, mlib_s32 n); mlib_status mlib_VectorScale_S8_S8_Mod(mlib_s8 *z, const mlib_s8 *x, const mlib_s8 *a, const mlib_s8 *b, mlib_s32 n); mlib_status mlib_VectorScale_S8_S8_Sat(mlib_s8 *z, const mlib_s8 *x, const mlib_s8 *a, const mlib_s8 *b, mlib_s32 n); mlib_status mlib_VectorScale_S8C_S8C_Mod(mlib_s8 *z, const mlib_s8 *x, const mlib_s8 *a, const mlib_s8 *b, mlib_s32 n); mlib_status mlib_VectorScale_S8C_S8C_Sat(mlib_s8 *z, const mlib_s8 *x, const mlib_s8 *a, const mlib_s8 *b, mlib_s32 n); mlib_status mlib_VectorScale_S16_U8_Mod(mlib_s16 *z, const mlib_u8 *x, const mlib_u8 *a, const mlib_u8 *b, mlib_s32 n); mlib_status mlib_VectorScale_S16_U8_Sat(mlib_s16 *z, const mlib_u8 *x, const mlib_u8 *a, const mlib_u8 *b, mlib_s32 n); mlib_status mlib_VectorScale_S16_S8_Mod(mlib_s16 *z, const mlib_s8 *x, const mlib_s8 *a, const mlib_s8 *b, mlib_s32 n); mlib_status mlib_VectorScale_S16_S8_Sat(mlib_s16 *z, const mlib_s8 *x, const mlib_s8 *a, const mlib_s8 *b, mlib_s32 n); mlib_status mlib_VectorScale_S16_S16_Mod(mlib_s16 *z, const mlib_s16 *x, const mlib_s16 *a, const mlib_s16 *b, mlib_s32 n); mlib_status mlib_VectorScale_S16_S16_Sat(mlib_s16 *z, const mlib_s16 *x, const mlib_s16 *a, const mlib_s16 *b, mlib_s32 n); mlib_status mlib_VectorScale_S16C_U8C_Mod(mlib_s16 *z, const mlib_u8 *x, const mlib_u8 *a, const mlib_u8 *b, mlib_s32 n); mlib_status mlib_VectorScale_S16C_U8C_Sat(mlib_s16 *z, const mlib_u8 *x, const mlib_u8 *a, const mlib_u8 *b, mlib_s32 n); mlib_status mlib_VectorScale_S16C_S8C_Mod(mlib_s16 *z, const mlib_s8 *x, const mlib_s8 *a, const mlib_s8 *b, mlib_s32 n); mlib_status mlib_VectorScale_S16C_S8C_Sat(mlib_s16 *z, const mlib_s8 *x, const mlib_s8 *a, const mlib_s8 *b, mlib_s32 n); mlib_status mlib_VectorScale_S16C_S16C_Mod(mlib_s16 *z, const mlib_s16 *x, const mlib_s16 *a, const mlib_s16 *b, mlib_s32 n); mlib_status mlib_VectorScale_S16C_S16C_Sat(mlib_s16 *z, const mlib_s16 *x, const mlib_s16 *a, const mlib_s16 *b, mlib_s32 n); mlib_status mlib_VectorScale_S32_S16_Mod(mlib_s32 *z, const mlib_s16 *x, const mlib_s16 *a, const mlib_s16 *b, mlib_s32 n); mlib_status mlib_VectorScale_S32_S16_Sat(mlib_s32 *z, const mlib_s16 *x, const mlib_s16 *a, const mlib_s16 *b, mlib_s32 n); mlib_status mlib_VectorScale_S32_S32_Mod(mlib_s32 *z, const mlib_s32 *x, const mlib_s32 *a, const mlib_s32 *b, mlib_s32 n); mlib_status mlib_VectorScale_S32_S32_Sat(mlib_s32 *z, const mlib_s32 *x, const mlib_s32 *a, const mlib_s32 *b, mlib_s32 n); mlib_status mlib_VectorScale_S32C_S16C_Mod(mlib_s32 *z, const mlib_s16 *x, const mlib_s16 *a, const mlib_s16 *b, mlib_s32 n); mlib_status mlib_VectorScale_S32C_S16C_Sat(mlib_s32 *z, const mlib_s16 *x, const mlib_s16 *a, const mlib_s16 *b, mlib_s32 n); mlib_status mlib_VectorScale_S32C_S32C_Mod(mlib_s32 *z, const mlib_s32 *x, const mlib_s32 *a, const mlib_s32 *b, mlib_s32 n); mlib_status mlib_VectorScale_S32C_S32C_Sat(mlib_s32 *z, const mlib_s32 *x, const mlib_s32 *a, const mlib_s32 *b, mlib_s32 n); DESCRIPTION
Each of these functions scales a vector by multiplying by a scalar and adding an offset. For real data, the following equation is used: z[i] = a[0]*x[i] + b[0] where i = 0, 1, ..., (n - 1). For complex data, the following equation is used: z[2*i] = a[0]*x[2*i] - a[1]*x[2*i + 1] + b[0] z[2*i + 1] = a[1]*x[2*i] + a[0]*x[2*i + 1] + b[1] where i = 0, 1, ..., (n - 1). PARAMETERS
Each of the functions takes the following arguments: z Pointer to the first element of the destination vector. x Pointer to the first element of the source vector. a Pointer to the source scaling factor. When the function is used with complex data types, a[0] contains the real part of the scaling factor, and a[1] contains the imaginary part of the scaling factor. b Pointer to the source offset. When the function is used with complex data types, b[0] contains the real part of the off- set, and b[1] contains the imaginary part of the offset. n Number of elements in the vectors. RETURN VALUES
Each of the functions returns MLIB_SUCCESS if successful. Otherwise it returns MLIB_FAILURE. ATTRIBUTES
See attributes(5) for descriptions of the following attributes: +-----------------------------+-----------------------------+ | ATTRIBUTE TYPE | ATTRIBUTE VALUE | +-----------------------------+-----------------------------+ |Interface Stability |Evolving | +-----------------------------+-----------------------------+ |MT-Level |MT-Safe | +-----------------------------+-----------------------------+ SEE ALSO
mlib_VectorScale_U8_Mod(3MLIB), attributes(5) SunOS 5.10 10 Nov 2004 mlib_VectorScale_U8_U8_Mod(3MLIB)

Featured Tech Videos