shithub: opus

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dir: /silk/silk_MacroCount.h/

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/***********************************************************************
Copyright (c) 2006-2011, Skype Limited. All rights reserved.
Redistribution and use in source and binary forms, with or without
modification, (subject to the limitations in the disclaimer below)
are permitted provided that the following conditions are met:
- Redistributions of source code must retain the above copyright notice,
this list of conditions and the following disclaimer.
- Redistributions in binary form must reproduce the above copyright
notice, this list of conditions and the following disclaimer in the
documentation and/or other materials provided with the distribution.
- Neither the name of Skype Limited, nor the names of specific
contributors, may be used to endorse or promote products derived from
this software without specific prior written permission.
NO EXPRESS OR IMPLIED LICENSES TO ANY PARTY'S PATENT RIGHTS ARE GRANTED
BY THIS LICENSE. THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND
CONTRIBUTORS ''AS IS'' AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING,
BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND
FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE
COPYRIGHT OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT,
INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT
NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF
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OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
***********************************************************************/

#ifndef _SIGPROCFIX_API_MACROCOUNT_H_
#define _SIGPROCFIX_API_MACROCOUNT_H_
#include <stdio.h>

#ifdef    SKP_MACRO_COUNT
#define varDefine opus_int64 ops_count = 0;

extern opus_int64 ops_count;

static inline opus_int64 SKP_SaveCount(){
    return(ops_count);
}

static inline opus_int64 SKP_SaveResetCount(){
    opus_int64 ret;

    ret = ops_count;
    ops_count = 0;
    return(ret);
}

static inline SKP_PrintCount(){
    printf("ops_count = %d \n ", (opus_int32)ops_count);
}

#undef SKP_MUL
static inline opus_int32 SKP_MUL(opus_int32 a32, opus_int32 b32){
    opus_int32 ret;
    ops_count += 4;
    ret = a32 * b32;
    return ret;
}

#undef SKP_MUL_uint
static inline opus_uint32 SKP_MUL_uint(opus_uint32 a32, opus_uint32 b32){
    opus_uint32 ret;
    ops_count += 4;
    ret = a32 * b32;
    return ret;
}
#undef SKP_MLA
static inline opus_int32 SKP_MLA(opus_int32 a32, opus_int32 b32, opus_int32 c32){
    opus_int32 ret;
    ops_count += 4;
    ret = a32 + b32 * c32;
    return ret;
}

#undef SKP_MLA_uint
static inline opus_int32 SKP_MLA_uint(opus_uint32 a32, opus_uint32 b32, opus_uint32 c32){
    opus_uint32 ret;
    ops_count += 4;
    ret = a32 + b32 * c32;
    return ret;
}

#undef SKP_SMULWB
static inline opus_int32 SKP_SMULWB(opus_int32 a32, opus_int32 b32){
    opus_int32 ret;
    ops_count += 5;
    ret = (a32 >> 16) * (opus_int32)((opus_int16)b32) + (((a32 & 0x0000FFFF) * (opus_int32)((opus_int16)b32)) >> 16);
    return ret;
}
#undef    SKP_SMLAWB
static inline opus_int32 SKP_SMLAWB(opus_int32 a32, opus_int32 b32, opus_int32 c32){
    opus_int32 ret;
    ops_count += 5;
    ret = ((a32) + ((((b32) >> 16) * (opus_int32)((opus_int16)(c32))) + ((((b32) & 0x0000FFFF) * (opus_int32)((opus_int16)(c32))) >> 16)));
    return ret;
}

#undef SKP_SMULWT
static inline opus_int32 SKP_SMULWT(opus_int32 a32, opus_int32 b32){
    opus_int32 ret;
    ops_count += 4;
    ret = (a32 >> 16) * (b32 >> 16) + (((a32 & 0x0000FFFF) * (b32 >> 16)) >> 16);
    return ret;
}
#undef SKP_SMLAWT
static inline opus_int32 SKP_SMLAWT(opus_int32 a32, opus_int32 b32, opus_int32 c32){
    opus_int32 ret;
    ops_count += 4;
    ret = a32 + ((b32 >> 16) * (c32 >> 16)) + (((b32 & 0x0000FFFF) * ((c32 >> 16)) >> 16));
    return ret;
}

#undef SKP_SMULBB
static inline opus_int32 SKP_SMULBB(opus_int32 a32, opus_int32 b32){
    opus_int32 ret;
    ops_count += 1;
    ret = (opus_int32)((opus_int16)a32) * (opus_int32)((opus_int16)b32);
    return ret;
}
#undef SKP_SMLABB
static inline opus_int32 SKP_SMLABB(opus_int32 a32, opus_int32 b32, opus_int32 c32){
    opus_int32 ret;
    ops_count += 1;
    ret = a32 + (opus_int32)((opus_int16)b32) * (opus_int32)((opus_int16)c32);
    return ret;
}

#undef SKP_SMULBT
static inline opus_int32 SKP_SMULBT(opus_int32 a32, opus_int32 b32 ){
    opus_int32 ret;
    ops_count += 4;
    ret = ((opus_int32)((opus_int16)a32)) * (b32 >> 16);
    return ret;
}

#undef SKP_SMLABT
static inline opus_int32 SKP_SMLABT(opus_int32 a32, opus_int32 b32, opus_int32 c32){
    opus_int32 ret;
    ops_count += 1;
    ret = a32 + ((opus_int32)((opus_int16)b32)) * (c32 >> 16);
    return ret;
}

#undef SKP_SMULTT
static inline opus_int32 SKP_SMULTT(opus_int32 a32, opus_int32 b32){
    opus_int32 ret;
    ops_count += 1;
    ret = (a32 >> 16) * (b32 >> 16);
    return ret;
}

#undef    SKP_SMLATT
static inline opus_int32 SKP_SMLATT(opus_int32 a32, opus_int32 b32, opus_int32 c32){
    opus_int32 ret;
    ops_count += 1;
    ret = a32 + (b32 >> 16) * (c32 >> 16);
    return ret;
}


// multiply-accumulate macros that allow overflow in the addition (ie, no asserts in debug mode)
#undef    SKP_MLA_ovflw
#define SKP_MLA_ovflw SKP_MLA

#undef SKP_SMLABB_ovflw
#define SKP_SMLABB_ovflw SKP_SMLABB

#undef SKP_SMLABT_ovflw
#define SKP_SMLABT_ovflw SKP_SMLABT

#undef SKP_SMLATT_ovflw
#define SKP_SMLATT_ovflw SKP_SMLATT

#undef SKP_SMLAWB_ovflw
#define SKP_SMLAWB_ovflw SKP_SMLAWB

#undef SKP_SMLAWT_ovflw
#define SKP_SMLAWT_ovflw SKP_SMLAWT

#undef SKP_SMULL
static inline opus_int64 SKP_SMULL(opus_int32 a32, opus_int32 b32){
    opus_int64 ret;
    ops_count += 8;
    ret = ((opus_int64)(a32) * /*(opus_int64)*/(b32));
    return ret;
}

#undef    SKP_SMLAL
static inline opus_int64 SKP_SMLAL(opus_int64 a64, opus_int32 b32, opus_int32 c32){
    opus_int64 ret;
    ops_count += 8;
    ret = a64 + ((opus_int64)(b32) * /*(opus_int64)*/(c32));
    return ret;
}
#undef    SKP_SMLALBB
static inline opus_int64 SKP_SMLALBB(opus_int64 a64, opus_int16 b16, opus_int16 c16){
    opus_int64 ret;
    ops_count += 4;
    ret = a64 + ((opus_int64)(b16) * /*(opus_int64)*/(c16));
    return ret;
}

#undef    SigProcFIX_CLZ16
static inline opus_int32 SigProcFIX_CLZ16(opus_int16 in16)
{
    opus_int32 out32 = 0;
    ops_count += 10;
    if( in16 == 0 ) {
        return 16;
    }
    /* test nibbles */
    if( in16 & 0xFF00 ) {
        if( in16 & 0xF000 ) {
            in16 >>= 12;
        } else {
            out32 += 4;
            in16 >>= 8;
        }
    } else {
        if( in16 & 0xFFF0 ) {
            out32 += 8;
            in16 >>= 4;
        } else {
            out32 += 12;
        }
    }
    /* test bits and return */
    if( in16 & 0xC ) {
        if( in16 & 0x8 )
            return out32 + 0;
        else
            return out32 + 1;
    } else {
        if( in16 & 0xE )
            return out32 + 2;
        else
            return out32 + 3;
    }
}

#undef SigProcFIX_CLZ32
static inline opus_int32 SigProcFIX_CLZ32(opus_int32 in32)
{
    /* test highest 16 bits and convert to opus_int16 */
    ops_count += 2;
    if( in32 & 0xFFFF0000 ) {
        return SigProcFIX_CLZ16((opus_int16)(in32 >> 16));
    } else {
        return SigProcFIX_CLZ16((opus_int16)in32) + 16;
    }
}

#undef SKP_DIV32
static inline opus_int32 SKP_DIV32(opus_int32 a32, opus_int32 b32){
    ops_count += 64;
    return a32 / b32;
}

#undef SKP_DIV32_16
static inline opus_int32 SKP_DIV32_16(opus_int32 a32, opus_int32 b32){
    ops_count += 32;
    return a32 / b32;
}

#undef SKP_SAT8
static inline opus_int8 SKP_SAT8(opus_int64 a){
    opus_int8 tmp;
    ops_count += 1;
    tmp = (opus_int8)((a) > SKP_int8_MAX ? SKP_int8_MAX  : \
                    ((a) < SKP_int8_MIN ? SKP_int8_MIN  : (a)));
    return(tmp);
}

#undef SKP_SAT16
static inline opus_int16 SKP_SAT16(opus_int64 a){
    opus_int16 tmp;
    ops_count += 1;
    tmp = (opus_int16)((a) > SKP_int16_MAX ? SKP_int16_MAX  : \
                     ((a) < SKP_int16_MIN ? SKP_int16_MIN  : (a)));
    return(tmp);
}
#undef SKP_SAT32
static inline opus_int32 SKP_SAT32(opus_int64 a){
    opus_int32 tmp;
    ops_count += 1;
    tmp = (opus_int32)((a) > SKP_int32_MAX ? SKP_int32_MAX  : \
                     ((a) < SKP_int32_MIN ? SKP_int32_MIN  : (a)));
    return(tmp);
}
#undef SKP_POS_SAT32
static inline opus_int32 SKP_POS_SAT32(opus_int64 a){
    opus_int32 tmp;
    ops_count += 1;
    tmp = (opus_int32)((a) > SKP_int32_MAX ? SKP_int32_MAX : (a));
    return(tmp);
}

#undef SKP_ADD_POS_SAT8
static inline opus_int8 SKP_ADD_POS_SAT8(opus_int64 a, opus_int64 b){
    opus_int8 tmp;
    ops_count += 1;
    tmp = (opus_int8)((((a)+(b)) & 0x80) ? SKP_int8_MAX  : ((a)+(b)));
    return(tmp);
}
#undef SKP_ADD_POS_SAT16
static inline opus_int16 SKP_ADD_POS_SAT16(opus_int64 a, opus_int64 b){
    opus_int16 tmp;
    ops_count += 1;
    tmp = (opus_int16)((((a)+(b)) & 0x8000) ? SKP_int16_MAX : ((a)+(b)));
    return(tmp);
}

#undef SKP_ADD_POS_SAT32
static inline opus_int32 SKP_ADD_POS_SAT32(opus_int64 a, opus_int64 b){
    opus_int32 tmp;
    ops_count += 1;
    tmp = (opus_int32)((((a)+(b)) & 0x80000000) ? SKP_int32_MAX : ((a)+(b)));
    return(tmp);
}

#undef SKP_ADD_POS_SAT64
static inline opus_int64 SKP_ADD_POS_SAT64(opus_int64 a, opus_int64 b){
    opus_int64 tmp;
    ops_count += 1;
    tmp = ((((a)+(b)) & 0x8000000000000000LL) ? SKP_int64_MAX : ((a)+(b)));
    return(tmp);
}

#undef    SKP_LSHIFT8
static inline opus_int8 SKP_LSHIFT8(opus_int8 a, opus_int32 shift){
    opus_int8 ret;
    ops_count += 1;
    ret = a << shift;
    return ret;
}
#undef    SKP_LSHIFT16
static inline opus_int16 SKP_LSHIFT16(opus_int16 a, opus_int32 shift){
    opus_int16 ret;
    ops_count += 1;
    ret = a << shift;
    return ret;
}
#undef    SKP_LSHIFT32
static inline opus_int32 SKP_LSHIFT32(opus_int32 a, opus_int32 shift){
    opus_int32 ret;
    ops_count += 1;
    ret = a << shift;
    return ret;
}
#undef    SKP_LSHIFT64
static inline opus_int64 SKP_LSHIFT64(opus_int64 a, opus_int shift){
    ops_count += 1;
    return a << shift;
}

#undef    SKP_LSHIFT_ovflw
static inline opus_int32 SKP_LSHIFT_ovflw(opus_int32 a, opus_int32 shift){
    ops_count += 1;
    return a << shift;
}

#undef    SKP_LSHIFT_uint
static inline opus_uint32 SKP_LSHIFT_uint(opus_uint32 a, opus_int32 shift){
    opus_uint32 ret;
    ops_count += 1;
    ret = a << shift;
    return ret;
}

#undef    SKP_RSHIFT8
static inline opus_int8 SKP_RSHIFT8(opus_int8 a, opus_int32 shift){
    ops_count += 1;
    return a >> shift;
}
#undef    SKP_RSHIFT16
static inline opus_int16 SKP_RSHIFT16(opus_int16 a, opus_int32 shift){
    ops_count += 1;
    return a >> shift;
}
#undef    SKP_RSHIFT32
static inline opus_int32 SKP_RSHIFT32(opus_int32 a, opus_int32 shift){
    ops_count += 1;
    return a >> shift;
}
#undef    SKP_RSHIFT64
static inline opus_int64 SKP_RSHIFT64(opus_int64 a, opus_int64 shift){
    ops_count += 1;
    return a >> shift;
}

#undef    SKP_RSHIFT_uint
static inline opus_uint32 SKP_RSHIFT_uint(opus_uint32 a, opus_int32 shift){
    ops_count += 1;
    return a >> shift;
}

#undef    SKP_ADD_LSHIFT
static inline opus_int32 SKP_ADD_LSHIFT(opus_int32 a, opus_int32 b, opus_int32 shift){
    opus_int32 ret;
    ops_count += 1;
    ret = a + (b << shift);
    return ret;                // shift >= 0
}
#undef    SKP_ADD_LSHIFT32
static inline opus_int32 SKP_ADD_LSHIFT32(opus_int32 a, opus_int32 b, opus_int32 shift){
    opus_int32 ret;
    ops_count += 1;
    ret = a + (b << shift);
    return ret;                // shift >= 0
}
#undef    SKP_ADD_LSHIFT_uint
static inline opus_uint32 SKP_ADD_LSHIFT_uint(opus_uint32 a, opus_uint32 b, opus_int32 shift){
    opus_uint32 ret;
    ops_count += 1;
    ret = a + (b << shift);
    return ret;                // shift >= 0
}
#undef    SKP_ADD_RSHIFT
static inline opus_int32 SKP_ADD_RSHIFT(opus_int32 a, opus_int32 b, opus_int32 shift){
    opus_int32 ret;
    ops_count += 1;
    ret = a + (b >> shift);
    return ret;                // shift  > 0
}
#undef    SKP_ADD_RSHIFT32
static inline opus_int32 SKP_ADD_RSHIFT32(opus_int32 a, opus_int32 b, opus_int32 shift){
    opus_int32 ret;
    ops_count += 1;
    ret = a + (b >> shift);
    return ret;                // shift  > 0
}
#undef    SKP_ADD_RSHIFT_uint
static inline opus_uint32 SKP_ADD_RSHIFT_uint(opus_uint32 a, opus_uint32 b, opus_int32 shift){
    opus_uint32 ret;
    ops_count += 1;
    ret = a + (b >> shift);
    return ret;                // shift  > 0
}
#undef    SKP_SUB_LSHIFT32
static inline opus_int32 SKP_SUB_LSHIFT32(opus_int32 a, opus_int32 b, opus_int32 shift){
    opus_int32 ret;
    ops_count += 1;
    ret = a - (b << shift);
    return ret;                // shift >= 0
}
#undef    SKP_SUB_RSHIFT32
static inline opus_int32 SKP_SUB_RSHIFT32(opus_int32 a, opus_int32 b, opus_int32 shift){
    opus_int32 ret;
    ops_count += 1;
    ret = a - (b >> shift);
    return ret;                // shift  > 0
}

#undef    SKP_RSHIFT_ROUND
static inline opus_int32 SKP_RSHIFT_ROUND(opus_int32 a, opus_int32 shift){
    opus_int32 ret;
    ops_count += 3;
    ret = shift == 1 ? (a >> 1) + (a & 1) : ((a >> (shift - 1)) + 1) >> 1;
    return ret;
}

#undef    SKP_RSHIFT_ROUND64
static inline opus_int64 SKP_RSHIFT_ROUND64(opus_int64 a, opus_int32 shift){
    opus_int64 ret;
    ops_count += 6;
    ret = shift == 1 ? (a >> 1) + (a & 1) : ((a >> (shift - 1)) + 1) >> 1;
    return ret;
}

#undef    SKP_abs_int64
static inline opus_int64 SKP_abs_int64(opus_int64 a){
    ops_count += 1;
    return (((a) >  0)  ? (a) : -(a));            // Be careful, SKP_abs returns wrong when input equals to SKP_intXX_MIN
}

#undef    SKP_abs_int32
static inline opus_int32 SKP_abs_int32(opus_int32 a){
    ops_count += 1;
    return abs(a);
}


#undef SKP_min
static SKP_min(a, b){
    ops_count += 1;
    return (((a) < (b)) ? (a) :  (b));
}
#undef SKP_max
static SKP_max(a, b){
    ops_count += 1;
    return (((a) > (b)) ? (a) :  (b));
}
#undef SKP_sign
static SKP_sign(a){
    ops_count += 1;
    return ((a) > 0 ? 1 : ( (a) < 0 ? -1 : 0 ));
}

#undef    SKP_ADD16
static inline opus_int16 SKP_ADD16(opus_int16 a, opus_int16 b){
    opus_int16 ret;
    ops_count += 1;
    ret = a + b;
    return ret;
}

#undef    SKP_ADD32
static inline opus_int32 SKP_ADD32(opus_int32 a, opus_int32 b){
    opus_int32 ret;
    ops_count += 1;
    ret = a + b;
    return ret;
}

#undef    SKP_ADD64
static inline opus_int64 SKP_ADD64(opus_int64 a, opus_int64 b){
    opus_int64 ret;
    ops_count += 2;
    ret = a + b;
    return ret;
}

#undef    SKP_SUB16
static inline opus_int16 SKP_SUB16(opus_int16 a, opus_int16 b){
    opus_int16 ret;
    ops_count += 1;
    ret = a - b;
    return ret;
}

#undef    SKP_SUB32
static inline opus_int32 SKP_SUB32(opus_int32 a, opus_int32 b){
    opus_int32 ret;
    ops_count += 1;
    ret = a - b;
    return ret;
}

#undef    SKP_SUB64
static inline opus_int64 SKP_SUB64(opus_int64 a, opus_int64 b){
    opus_int64 ret;
    ops_count += 2;
    ret = a - b;
    return ret;
}

#undef SKP_ADD_SAT16
static inline opus_int16 SKP_ADD_SAT16( opus_int16 a16, opus_int16 b16 ) {
    opus_int16 res;
    // Nb will be counted in AKP_add32 and SKP_SAT16
    res = (opus_int16)SKP_SAT16( SKP_ADD32( (opus_int32)(a16), (b16) ) );
    return res;
}

#undef SKP_ADD_SAT32
static inline opus_int32 SKP_ADD_SAT32(opus_int32 a32, opus_int32 b32){
    opus_int32 res;
    ops_count += 1;
    res =    ((((a32) + (b32)) & 0x80000000) == 0 ?                                    \
            ((((a32) & (b32)) & 0x80000000) != 0 ? SKP_int32_MIN : (a32)+(b32)) :    \
            ((((a32) | (b32)) & 0x80000000) == 0 ? SKP_int32_MAX : (a32)+(b32)) );
    return res;
}

#undef SKP_ADD_SAT64
static inline opus_int64 SKP_ADD_SAT64( opus_int64 a64, opus_int64 b64 ) {
    opus_int64 res;
    ops_count += 1;
    res =    ((((a64) + (b64)) & 0x8000000000000000LL) == 0 ?                                \
            ((((a64) & (b64)) & 0x8000000000000000LL) != 0 ? SKP_int64_MIN : (a64)+(b64)) :    \
            ((((a64) | (b64)) & 0x8000000000000000LL) == 0 ? SKP_int64_MAX : (a64)+(b64)) );
    return res;
}

#undef SKP_SUB_SAT16
static inline opus_int16 SKP_SUB_SAT16( opus_int16 a16, opus_int16 b16 ) {
    opus_int16 res;
    SKP_assert(0);
    // Nb will be counted in sub-macros
    res = (opus_int16)SKP_SAT16( SKP_SUB32( (opus_int32)(a16), (b16) ) );
    return res;
}

#undef SKP_SUB_SAT32
static inline opus_int32 SKP_SUB_SAT32( opus_int32 a32, opus_int32 b32 ) {
    opus_int32 res;
    ops_count += 1;
    res =     ((((a32)-(b32)) & 0x80000000) == 0 ?                                            \
            (( (a32) & ((b32)^0x80000000) & 0x80000000) ? SKP_int32_MIN : (a32)-(b32)) :    \
            ((((a32)^0x80000000) & (b32)  & 0x80000000) ? SKP_int32_MAX : (a32)-(b32)) );
    return res;
}

#undef SKP_SUB_SAT64
static inline opus_int64 SKP_SUB_SAT64( opus_int64 a64, opus_int64 b64 ) {
    opus_int64 res;
    ops_count += 1;
    res =    ((((a64)-(b64)) & 0x8000000000000000LL) == 0 ?                                                        \
            (( (a64) & ((b64)^0x8000000000000000LL) & 0x8000000000000000LL) ? SKP_int64_MIN : (a64)-(b64)) :    \
            ((((a64)^0x8000000000000000LL) & (b64)  & 0x8000000000000000LL) ? SKP_int64_MAX : (a64)-(b64)) );

    return res;
}

#undef    SKP_SMULWW
static inline opus_int32 SKP_SMULWW(opus_int32 a32, opus_int32 b32){
    opus_int32 ret;
    // Nb will be counted in sub-macros
    ret = SKP_MLA(SKP_SMULWB((a32), (b32)), (a32), SKP_RSHIFT_ROUND((b32), 16));
    return ret;
}

#undef    SKP_SMLAWW
static inline opus_int32 SKP_SMLAWW(opus_int32 a32, opus_int32 b32, opus_int32 c32){
    opus_int32 ret;
    // Nb will be counted in sub-macros
    ret = SKP_MLA(SKP_SMLAWB((a32), (b32), (c32)), (b32), SKP_RSHIFT_ROUND((c32), 16));
    return ret;
}

#undef    SKP_min_int
static inline opus_int SKP_min_int(opus_int a, opus_int b)
{
    ops_count += 1;
    return (((a) < (b)) ? (a) : (b));
}

#undef    SKP_min_16
static inline opus_int16 SKP_min_16(opus_int16 a, opus_int16 b)
{
    ops_count += 1;
    return (((a) < (b)) ? (a) : (b));
}
#undef    SKP_min_32
static inline opus_int32 SKP_min_32(opus_int32 a, opus_int32 b)
{
    ops_count += 1;
    return (((a) < (b)) ? (a) : (b));
}
#undef    SKP_min_64
static inline opus_int64 SKP_min_64(opus_int64 a, opus_int64 b)
{
    ops_count += 1;
    return (((a) < (b)) ? (a) : (b));
}

/* SKP_min() versions with typecast in the function call */
#undef    SKP_max_int
static inline opus_int SKP_max_int(opus_int a, opus_int b)
{
    ops_count += 1;
    return (((a) > (b)) ? (a) : (b));
}
#undef    SKP_max_16
static inline opus_int16 SKP_max_16(opus_int16 a, opus_int16 b)
{
    ops_count += 1;
    return (((a) > (b)) ? (a) : (b));
}
#undef    SKP_max_32
static inline opus_int32 SKP_max_32(opus_int32 a, opus_int32 b)
{
    ops_count += 1;
    return (((a) > (b)) ? (a) : (b));
}

#undef    SKP_max_64
static inline opus_int64 SKP_max_64(opus_int64 a, opus_int64 b)
{
    ops_count += 1;
    return (((a) > (b)) ? (a) : (b));
}


#undef SKP_LIMIT_int
static inline opus_int SKP_LIMIT_int(opus_int a, opus_int limit1, opus_int limit2)
{
    opus_int ret;
    ops_count += 6;

    ret = ((limit1) > (limit2) ? ((a) > (limit1) ? (limit1) : ((a) < (limit2) ? (limit2) : (a))) \
        : ((a) > (limit2) ? (limit2) : ((a) < (limit1) ? (limit1) : (a))));

    return(ret);
}

#undef SKP_LIMIT_16
static inline opus_int16 SKP_LIMIT_16(opus_int16 a, opus_int16 limit1, opus_int16 limit2)
{
    opus_int16 ret;
    ops_count += 6;

    ret = ((limit1) > (limit2) ? ((a) > (limit1) ? (limit1) : ((a) < (limit2) ? (limit2) : (a))) \
        : ((a) > (limit2) ? (limit2) : ((a) < (limit1) ? (limit1) : (a))));

return(ret);
}


#undef SKP_LIMIT_32
static inline opus_int SKP_LIMIT_32(opus_int32 a, opus_int32 limit1, opus_int32 limit2)
{
    opus_int32 ret;
    ops_count += 6;

    ret = ((limit1) > (limit2) ? ((a) > (limit1) ? (limit1) : ((a) < (limit2) ? (limit2) : (a))) \
        : ((a) > (limit2) ? (limit2) : ((a) < (limit1) ? (limit1) : (a))));
    return(ret);
}

#else
#define exVarDefine
#define varDefine
#define SKP_SaveCount()

#endif
#endif