1e2e838afcf03e603a41a0455846eaf9614537c16Mans Rullgard/*
2e2e838afcf03e603a41a0455846eaf9614537c16Mans Rullgard ** Copyright 2003-2010, VisualOn, Inc.
3e2e838afcf03e603a41a0455846eaf9614537c16Mans Rullgard **
4e2e838afcf03e603a41a0455846eaf9614537c16Mans Rullgard ** Licensed under the Apache License, Version 2.0 (the "License");
5e2e838afcf03e603a41a0455846eaf9614537c16Mans Rullgard ** you may not use this file except in compliance with the License.
6e2e838afcf03e603a41a0455846eaf9614537c16Mans Rullgard ** You may obtain a copy of the License at
7e2e838afcf03e603a41a0455846eaf9614537c16Mans Rullgard **
8e2e838afcf03e603a41a0455846eaf9614537c16Mans Rullgard **     http://www.apache.org/licenses/LICENSE-2.0
9e2e838afcf03e603a41a0455846eaf9614537c16Mans Rullgard **
10e2e838afcf03e603a41a0455846eaf9614537c16Mans Rullgard ** Unless required by applicable law or agreed to in writing, software
11e2e838afcf03e603a41a0455846eaf9614537c16Mans Rullgard ** distributed under the License is distributed on an "AS IS" BASIS,
12e2e838afcf03e603a41a0455846eaf9614537c16Mans Rullgard ** WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
13e2e838afcf03e603a41a0455846eaf9614537c16Mans Rullgard ** See the License for the specific language governing permissions and
14e2e838afcf03e603a41a0455846eaf9614537c16Mans Rullgard ** limitations under the License.
15e2e838afcf03e603a41a0455846eaf9614537c16Mans Rullgard */
16e2e838afcf03e603a41a0455846eaf9614537c16Mans Rullgard
17e2e838afcf03e603a41a0455846eaf9614537c16Mans Rullgard/***********************************************************************
18e2e838afcf03e603a41a0455846eaf9614537c16Mans Rullgard*      File: g_pitch.c                                                 *
19e2e838afcf03e603a41a0455846eaf9614537c16Mans Rullgard*                                                                      *
20e2e838afcf03e603a41a0455846eaf9614537c16Mans Rullgard*	   Description:Compute the gain of pitch. Result in Q12        *
21e2e838afcf03e603a41a0455846eaf9614537c16Mans Rullgard*	               if(gain < 0) gain = 0                           *
22e2e838afcf03e603a41a0455846eaf9614537c16Mans Rullgard*				   if(gain > 1.2) gain = 1.2           *
23e2e838afcf03e603a41a0455846eaf9614537c16Mans Rullgard************************************************************************/
24e2e838afcf03e603a41a0455846eaf9614537c16Mans Rullgard
25e2e838afcf03e603a41a0455846eaf9614537c16Mans Rullgard#include "typedef.h"
26e2e838afcf03e603a41a0455846eaf9614537c16Mans Rullgard#include "basic_op.h"
27e2e838afcf03e603a41a0455846eaf9614537c16Mans Rullgard#include "math_op.h"
28e2e838afcf03e603a41a0455846eaf9614537c16Mans Rullgard
29e2e838afcf03e603a41a0455846eaf9614537c16Mans RullgardWord16 G_pitch(                            /* (o) Q14 : Gain of pitch lag saturated to 1.2   */
30e2e838afcf03e603a41a0455846eaf9614537c16Mans Rullgard		Word16 xn[],                          /* (i)     : Pitch target.                        */
31e2e838afcf03e603a41a0455846eaf9614537c16Mans Rullgard		Word16 y1[],                          /* (i)     : filtered adaptive codebook.          */
32e2e838afcf03e603a41a0455846eaf9614537c16Mans Rullgard		Word16 g_coeff[],                     /* : Correlations need for gain quantization.     */
33e2e838afcf03e603a41a0455846eaf9614537c16Mans Rullgard		Word16 L_subfr                        /* : Length of subframe.                          */
34e2e838afcf03e603a41a0455846eaf9614537c16Mans Rullgard	      )
35e2e838afcf03e603a41a0455846eaf9614537c16Mans Rullgard{
36e2e838afcf03e603a41a0455846eaf9614537c16Mans Rullgard	Word32 i;
37e2e838afcf03e603a41a0455846eaf9614537c16Mans Rullgard	Word16 xy, yy, exp_xy, exp_yy, gain;
38e2e838afcf03e603a41a0455846eaf9614537c16Mans Rullgard	/* Compute scalar product <y1[],y1[]> */
39e2e838afcf03e603a41a0455846eaf9614537c16Mans Rullgard#ifdef ASM_OPT                  /* asm optimization branch */
40e2e838afcf03e603a41a0455846eaf9614537c16Mans Rullgard	/* Compute scalar product <xn[],y1[]> */
41e2e838afcf03e603a41a0455846eaf9614537c16Mans Rullgard	xy = extract_h(Dot_product12_asm(xn, y1, L_subfr, &exp_xy));
42e2e838afcf03e603a41a0455846eaf9614537c16Mans Rullgard	yy = extract_h(Dot_product12_asm(y1, y1, L_subfr, &exp_yy));
43e2e838afcf03e603a41a0455846eaf9614537c16Mans Rullgard
44e2e838afcf03e603a41a0455846eaf9614537c16Mans Rullgard#else
45e2e838afcf03e603a41a0455846eaf9614537c16Mans Rullgard	/* Compute scalar product <xn[],y1[]> */
46e2e838afcf03e603a41a0455846eaf9614537c16Mans Rullgard	xy = extract_h(Dot_product12(xn, y1, L_subfr, &exp_xy));
47e2e838afcf03e603a41a0455846eaf9614537c16Mans Rullgard	yy = extract_h(Dot_product12(y1, y1, L_subfr, &exp_yy));
48e2e838afcf03e603a41a0455846eaf9614537c16Mans Rullgard
49e2e838afcf03e603a41a0455846eaf9614537c16Mans Rullgard#endif
50e2e838afcf03e603a41a0455846eaf9614537c16Mans Rullgard
51b676a05348e4c516fa8b57e33b10548e6142c3f8Mans Rullgard	g_coeff[0] = yy;
52b676a05348e4c516fa8b57e33b10548e6142c3f8Mans Rullgard	g_coeff[1] = exp_yy;
53b676a05348e4c516fa8b57e33b10548e6142c3f8Mans Rullgard	g_coeff[2] = xy;
54b676a05348e4c516fa8b57e33b10548e6142c3f8Mans Rullgard	g_coeff[3] = exp_xy;
55e2e838afcf03e603a41a0455846eaf9614537c16Mans Rullgard
56e2e838afcf03e603a41a0455846eaf9614537c16Mans Rullgard	/* If (xy < 0) gain = 0 */
57e2e838afcf03e603a41a0455846eaf9614537c16Mans Rullgard	if (xy < 0)
58e2e838afcf03e603a41a0455846eaf9614537c16Mans Rullgard		return ((Word16) 0);
59e2e838afcf03e603a41a0455846eaf9614537c16Mans Rullgard
60e2e838afcf03e603a41a0455846eaf9614537c16Mans Rullgard	/* compute gain = xy/yy */
61e2e838afcf03e603a41a0455846eaf9614537c16Mans Rullgard
62e2e838afcf03e603a41a0455846eaf9614537c16Mans Rullgard	xy >>= 1;                       /* Be sure xy < yy */
63e2e838afcf03e603a41a0455846eaf9614537c16Mans Rullgard	gain = div_s(xy, yy);
64e2e838afcf03e603a41a0455846eaf9614537c16Mans Rullgard
65e2e838afcf03e603a41a0455846eaf9614537c16Mans Rullgard	i = exp_xy;
66e2e838afcf03e603a41a0455846eaf9614537c16Mans Rullgard	i -= exp_yy;
67e2e838afcf03e603a41a0455846eaf9614537c16Mans Rullgard
68b676a05348e4c516fa8b57e33b10548e6142c3f8Mans Rullgard	gain = shl(gain, i);
69e2e838afcf03e603a41a0455846eaf9614537c16Mans Rullgard
70e2e838afcf03e603a41a0455846eaf9614537c16Mans Rullgard	/* if (gain > 1.2) gain = 1.2  in Q14 */
71e2e838afcf03e603a41a0455846eaf9614537c16Mans Rullgard	if(gain > 19661)
72e2e838afcf03e603a41a0455846eaf9614537c16Mans Rullgard	{
73b676a05348e4c516fa8b57e33b10548e6142c3f8Mans Rullgard		gain = 19661;
74e2e838afcf03e603a41a0455846eaf9614537c16Mans Rullgard	}
75e2e838afcf03e603a41a0455846eaf9614537c16Mans Rullgard	return (gain);
76e2e838afcf03e603a41a0455846eaf9614537c16Mans Rullgard}
77e2e838afcf03e603a41a0455846eaf9614537c16Mans Rullgard
78e2e838afcf03e603a41a0455846eaf9614537c16Mans Rullgard
79e2e838afcf03e603a41a0455846eaf9614537c16Mans Rullgard
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