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/* ------------------------------------------------------------------
* Copyright (C) 1998-2009 PacketVideo
*
* Licensed under the Apache License, Version 2.0 (the "License");
* you may not use this file except in compliance with the License.
* You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either
* express or implied.
* See the License for the specific language governing permissions
* and limitations under the License.
* -------------------------------------------------------------------
*/
/****************************************************************************************
Portions of this file are derived from the following 3GPP standard:
3GPP TS 26.073
ANSI-C code for the Adaptive Multi-Rate (AMR) speech codec
Available from http://www.3gpp.org
(C) 2004, 3GPP Organizational Partners (ARIB, ATIS, CCSA, ETSI, TTA, TTC)
Permission to distribute, modify and use this file under the standard license
terms listed above has been obtained from the copyright holder.
****************************************************************************************/
/*
------------------------------------------------------------------------------
Filename: /audio/gsm_amr/c/src/hp_max.c
Date: 02/01/2002
------------------------------------------------------------------------------
REVISION HISTORY
Description: Replaced "int" and/or "char" with OSCL defined types.
Description:
------------------------------------------------------------------------------
*/
/*----------------------------------------------------------------------------
; INCLUDES
----------------------------------------------------------------------------*/
#include "hp_max.h"
#include "basic_op.h"
#include "cnst.h"
/*----------------------------------------------------------------------------
; MACROS
; [Define module specific macros here]
----------------------------------------------------------------------------*/
/*----------------------------------------------------------------------------
; DEFINES
; [Include all pre-processor statements here. Include conditional
; compile variables also.]
----------------------------------------------------------------------------*/
/*----------------------------------------------------------------------------
; LOCAL FUNCTION DEFINITIONS
; [List function prototypes here]
----------------------------------------------------------------------------*/
/*----------------------------------------------------------------------------
; LOCAL VARIABLE DEFINITIONS
; [Variable declaration - defined here and used outside this module]
----------------------------------------------------------------------------*/
/*
------------------------------------------------------------------------------
FUNCTION NAME: hp_max
------------------------------------------------------------------------------
INPUT AND OUTPUT DEFINITIONS
Inputs:
corr[] = correlation vector (Word16)
scal_sig[] = scaled signal vector (Word16)
L_frame = length of frame to compute pitch (Word16
lag_max = maximum lag (Word16)
lag_min = minimum lag (Word16)
cor_hp_max = pointer to max high-pass filtered norm. correlation (Word16)
pOverflow = pointer to overflow (Flag)
Outputs:
cor_hp_max contains max high-pass filtered norm. correlation (Word16)
pOverflow -> 1 if the maximum correlation computation resulted in overflow
Returns:
0 (Word16)
Global Variables Used:
None
Local Variables Needed:
None
------------------------------------------------------------------------------
FUNCTION DESCRIPTION
This function finds the maximum high-pass filtered correlation of scal_sig[]
in a given delay range.
The correlation is given by
corr[t] = <scal_sig[n],scal_sig[n-t]>, t=lag_min,...,lag_max
The functions outputs the maximum high-pass filtered correlation after
normalization.
------------------------------------------------------------------------------
REQUIREMENTS
None
------------------------------------------------------------------------------
REFERENCES
[1] hp_max.c, UMTS GSM AMR speech codec, R99 - Version 3.2.0, March 2, 2001
------------------------------------------------------------------------------
PSEUDO-CODE
Word16 hp_max (
Word32 corr[], // i : correlation vector
Word16 scal_sig[], // i : scaled signal
Word16 L_frame, // i : length of frame to compute pitch
Word16 lag_max, // i : maximum lag
Word16 lag_min, // i : minimum lag
Word16 *cor_hp_max) // o : max high-pass filtered norm. correlation
{
Word16 i;
Word16 *p, *p1;
Word32 max, t0, t1;
Word16 max16, t016, cor_max;
Word16 shift, shift1, shift2;
max = MIN_32;
t0 = 0L;
* The reference ETSI code uses a global flag for Overflow inside the math functions
* saturate(). In the actual implementation a pointer to Overflow flag is passed in
* as a parameter to the function
for (i = lag_max-1; i > lag_min; i--)
{
// high-pass filtering
t0 = L_sub (L_sub(L_shl(corr[-i], 1), corr[-i-1]), corr[-i+1]);
t0 = L_abs (t0);
if (L_sub (t0, max) >= 0)
{
max = t0;
}
}
// compute energy
p = scal_sig;
p1 = &scal_sig[0];
t0 = 0L;
for (i = 0; i < L_frame; i++, p++, p1++)
{
t0 = L_mac (t0, *p, *p1);
}
p = scal_sig;
p1 = &scal_sig[-1];
t1 = 0L;
for (i = 0; i < L_frame; i++, p++, p1++)
{
t1 = L_mac (t1, *p, *p1);
}
// high-pass filtering
t0 = L_sub(L_shl(t0, 1), L_shl(t1, 1));
t0 = L_abs (t0);
// max/t0
shift1 = sub(norm_l(max), 1);
max16 = extract_h(L_shl(max, shift1));
shift2 = norm_l(t0);
t016 = extract_h(L_shl(t0, shift2));
if (t016 != 0)
{
cor_max = div_s(max16, t016);
}
else
{
cor_max = 0;
}
shift = sub(shift1, shift2);
if (shift >= 0)
{
*cor_hp_max = shr(cor_max, shift); // Q15
}
else
{
*cor_hp_max = shl(cor_max, negate(shift)); // Q15
}
return 0;
}
------------------------------------------------------------------------------
RESOURCES USED [optional]
When the code is written for a specific target processor the
the resources used should be documented below.
HEAP MEMORY USED: x bytes
STACK MEMORY USED: x bytes
CLOCK CYCLES: (cycle count equation for this function) + (variable
used to represent cycle count for each subroutine
called)
where: (cycle count variable) = cycle count for [subroutine
name]
------------------------------------------------------------------------------
CAUTION [optional]
[State any special notes, constraints or cautions for users of this function]
------------------------------------------------------------------------------
*/
/*----------------------------------------------------------------------------
; FUNCTION CODE
----------------------------------------------------------------------------*/
Word16 hp_max(
Word32 corr[], /* i : correlation vector. */
Word16 scal_sig[], /* i : scaled signal. */
Word16 L_frame, /* i : length of frame to compute pitch */
Word16 lag_max, /* i : maximum lag */
Word16 lag_min, /* i : minimum lag */
Word16 *cor_hp_max, /* o : max high-pass filtered norm. correlation */
Flag *pOverflow /* i/o : overflow Flag */
)
{
Word16 i;
Word16 *p, *p1;
Word32 max, t0, t1;
Word16 max16, t016, cor_max;
Word16 shift, shift1, shift2;
Word32 L_temp;
max = MIN_32;
t0 = 0L;
for (i = lag_max - 1; i > lag_min; i--)
{
/* high-pass filtering */
t0 = L_shl(corr[-i], 1, pOverflow);
L_temp = L_sub(t0, corr[-i-1], pOverflow);
t0 = L_sub(L_temp, corr[-i+1], pOverflow);
t0 = L_abs(t0);
if (t0 >= max)
{
max = t0;
}
}
/* compute energy */
p = scal_sig;
p1 = &scal_sig[0];
t0 = 0L;
for (i = 0; i < L_frame; i++, p++, p1++)
{
t0 = L_mac(t0, *p, *p1, pOverflow);
}
p = scal_sig;
p1 = &scal_sig[-1];
t1 = 0L;
for (i = 0; i < L_frame; i++, p++, p1++)
{
t1 = L_mac(t1, *p, *p1, pOverflow);
}
/* high-pass filtering */
L_temp = L_shl(t0, 1, pOverflow);
t1 = L_shl(t1, 1, pOverflow);
t0 = L_sub(L_temp, t1, pOverflow);
t0 = L_abs(t0);
/* max/t0 */
/* shift1 = sub(norm_l(max), 1);
max16 = extract_h(L_shl(max, shift1));
shift2 = norm_l(t0);
t016 = extract_h(L_shl(t0, shift2)); */
t016 = norm_l(max);
shift1 = sub(t016, 1, pOverflow);
L_temp = L_shl(max, shift1, pOverflow);
max16 = (Word16)(L_temp >> 16);
shift2 = norm_l(t0);
L_temp = L_shl(t0, shift2, pOverflow);
t016 = (Word16)(L_temp >> 16);
if (t016 != 0)
{
cor_max = div_s(max16, t016);
}
else
{
cor_max = 0;
}
shift = sub(shift1, shift2, pOverflow);
if (shift >= 0)
{
*cor_hp_max = shr(cor_max, shift, pOverflow); /* Q15 */
}
else
{
*cor_hp_max = shl(cor_max, negate(shift), pOverflow); /* Q15 */
}
return 0;
}
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