1*bda690e4SXin Li /************************************************************************
2*bda690e4SXin Li * Copyright (C) 2002-2009, Xiph.org Foundation
3*bda690e4SXin Li * Copyright (C) 2010, Robin Watts for Pinknoise Productions Ltd
4*bda690e4SXin Li * All rights reserved.
5*bda690e4SXin Li *
6*bda690e4SXin Li * Redistribution and use in source and binary forms, with or without
7*bda690e4SXin Li * modification, are permitted provided that the following conditions
8*bda690e4SXin Li * are met:
9*bda690e4SXin Li *
10*bda690e4SXin Li * * Redistributions of source code must retain the above copyright
11*bda690e4SXin Li * notice, this list of conditions and the following disclaimer.
12*bda690e4SXin Li * * Redistributions in binary form must reproduce the above
13*bda690e4SXin Li * copyright notice, this list of conditions and the following disclaimer
14*bda690e4SXin Li * in the documentation and/or other materials provided with the
15*bda690e4SXin Li * distribution.
16*bda690e4SXin Li * * Neither the names of the Xiph.org Foundation nor Pinknoise
17*bda690e4SXin Li * Productions Ltd nor the names of its contributors may be used to
18*bda690e4SXin Li * endorse or promote products derived from this software without
19*bda690e4SXin Li * specific prior written permission.
20*bda690e4SXin Li *
21*bda690e4SXin Li * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
22*bda690e4SXin Li * "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
23*bda690e4SXin Li * LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR
24*bda690e4SXin Li * A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT
25*bda690e4SXin Li * OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL,
26*bda690e4SXin Li * SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT
27*bda690e4SXin Li * LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
28*bda690e4SXin Li * DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
29*bda690e4SXin Li * THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
30*bda690e4SXin Li * (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
31*bda690e4SXin Li * OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
32*bda690e4SXin Li ************************************************************************
33*bda690e4SXin Li
34*bda690e4SXin Li function: normalized modified discrete cosine transform
35*bda690e4SXin Li power of two length transform only [64 <= n ]
36*bda690e4SXin Li last mod: $Id: mdct.c,v 1.9.6.5 2003/04/29 04:03:27 xiphmont Exp $
37*bda690e4SXin Li
38*bda690e4SXin Li Original algorithm adapted long ago from _The use of multirate filter
39*bda690e4SXin Li banks for coding of high quality digital audio_, by T. Sporer,
40*bda690e4SXin Li K. Brandenburg and B. Edler, collection of the European Signal
41*bda690e4SXin Li Processing Conference (EUSIPCO), Amsterdam, June 1992, Vol.1, pp
42*bda690e4SXin Li 211-214
43*bda690e4SXin Li
44*bda690e4SXin Li The below code implements an algorithm that no longer looks much like
45*bda690e4SXin Li that presented in the paper, but the basic structure remains if you
46*bda690e4SXin Li dig deep enough to see it.
47*bda690e4SXin Li
48*bda690e4SXin Li This module DOES NOT INCLUDE code to generate/apply the window
49*bda690e4SXin Li function. Everybody has their own weird favorite including me... I
50*bda690e4SXin Li happen to like the properties of y=sin(.5PI*sin^2(x)), but others may
51*bda690e4SXin Li vehemently disagree.
52*bda690e4SXin Li
53*bda690e4SXin Li ************************************************************************/
54*bda690e4SXin Li
55*bda690e4SXin Li #include "ivorbiscodec.h"
56*bda690e4SXin Li #include "os.h"
57*bda690e4SXin Li #include "misc.h"
58*bda690e4SXin Li #include "mdct.h"
59*bda690e4SXin Li #include "mdct_lookup.h"
60*bda690e4SXin Li
61*bda690e4SXin Li #include <stdio.h>
62*bda690e4SXin Li
63*bda690e4SXin Li #if defined(ONLY_C)
presymmetry(DATA_TYPE * in,int n2,int step)64*bda690e4SXin Li STIN void presymmetry(DATA_TYPE *in,int n2,int step){
65*bda690e4SXin Li DATA_TYPE *aX;
66*bda690e4SXin Li DATA_TYPE *bX;
67*bda690e4SXin Li LOOKUP_T *T;
68*bda690e4SXin Li int n4=n2>>1;
69*bda690e4SXin Li
70*bda690e4SXin Li aX = in+n2-3;
71*bda690e4SXin Li T = sincos_lookup0;
72*bda690e4SXin Li
73*bda690e4SXin Li do{
74*bda690e4SXin Li REG_TYPE s0= aX[0];
75*bda690e4SXin Li REG_TYPE s2= aX[2];
76*bda690e4SXin Li XPROD31( s0, s2, T[0], T[1], &aX[0], &aX[2] ); T+=step;
77*bda690e4SXin Li aX-=4;
78*bda690e4SXin Li }while(aX>=in+n4);
79*bda690e4SXin Li do{
80*bda690e4SXin Li REG_TYPE s0= aX[0];
81*bda690e4SXin Li REG_TYPE s2= aX[2];
82*bda690e4SXin Li XPROD31( s0, s2, T[1], T[0], &aX[0], &aX[2] ); T-=step;
83*bda690e4SXin Li aX-=4;
84*bda690e4SXin Li }while(aX>=in);
85*bda690e4SXin Li
86*bda690e4SXin Li aX = in+n2-4;
87*bda690e4SXin Li bX = in;
88*bda690e4SXin Li T = sincos_lookup0;
89*bda690e4SXin Li do{
90*bda690e4SXin Li REG_TYPE ri0= aX[0];
91*bda690e4SXin Li REG_TYPE ri2= aX[2];
92*bda690e4SXin Li REG_TYPE ro0= bX[0];
93*bda690e4SXin Li REG_TYPE ro2= bX[2];
94*bda690e4SXin Li
95*bda690e4SXin Li XNPROD31( ro2, ro0, T[1], T[0], &aX[0], &aX[2] ); T+=step;
96*bda690e4SXin Li XNPROD31( ri2, ri0, T[0], T[1], &bX[0], &bX[2] );
97*bda690e4SXin Li
98*bda690e4SXin Li aX-=4;
99*bda690e4SXin Li bX+=4;
100*bda690e4SXin Li }while(aX>=bX);
101*bda690e4SXin Li }
102*bda690e4SXin Li
103*bda690e4SXin Li __attribute__((no_sanitize("signed-integer-overflow")))
104*bda690e4SXin Li /* 8 point butterfly (in place) */
mdct_butterfly_8(DATA_TYPE * x)105*bda690e4SXin Li STIN void mdct_butterfly_8(DATA_TYPE *x){
106*bda690e4SXin Li
107*bda690e4SXin Li REG_TYPE s0 = x[0] + x[1];
108*bda690e4SXin Li REG_TYPE s1 = x[0] - x[1];
109*bda690e4SXin Li REG_TYPE s2 = x[2] + x[3];
110*bda690e4SXin Li REG_TYPE s3 = x[2] - x[3];
111*bda690e4SXin Li REG_TYPE s4 = x[4] + x[5];
112*bda690e4SXin Li REG_TYPE s5 = x[4] - x[5];
113*bda690e4SXin Li REG_TYPE s6 = x[6] + x[7];
114*bda690e4SXin Li REG_TYPE s7 = x[6] - x[7];
115*bda690e4SXin Li
116*bda690e4SXin Li x[0] = s5 + s3;
117*bda690e4SXin Li x[1] = s7 - s1;
118*bda690e4SXin Li x[2] = s5 - s3;
119*bda690e4SXin Li x[3] = s7 + s1;
120*bda690e4SXin Li x[4] = s4 - s0;
121*bda690e4SXin Li x[5] = s6 - s2;
122*bda690e4SXin Li x[6] = s4 + s0;
123*bda690e4SXin Li x[7] = s6 + s2;
124*bda690e4SXin Li MB();
125*bda690e4SXin Li }
126*bda690e4SXin Li
127*bda690e4SXin Li __attribute__((no_sanitize("signed-integer-overflow")))
128*bda690e4SXin Li /* 16 point butterfly (in place, 4 register) */
mdct_butterfly_16(DATA_TYPE * x)129*bda690e4SXin Li STIN void mdct_butterfly_16(DATA_TYPE *x){
130*bda690e4SXin Li
131*bda690e4SXin Li REG_TYPE s0, s1, s2, s3;
132*bda690e4SXin Li
133*bda690e4SXin Li s0 = x[ 8] - x[ 9]; x[ 8] += x[ 9];
134*bda690e4SXin Li s1 = x[10] - x[11]; x[10] += x[11];
135*bda690e4SXin Li s2 = x[ 1] - x[ 0]; x[ 9] = x[ 1] + x[0];
136*bda690e4SXin Li s3 = x[ 3] - x[ 2]; x[11] = x[ 3] + x[2];
137*bda690e4SXin Li x[ 0] = MULT31((s0 - s1) , cPI2_8);
138*bda690e4SXin Li x[ 1] = MULT31((s2 + s3) , cPI2_8);
139*bda690e4SXin Li x[ 2] = MULT31((s0 + s1) , cPI2_8);
140*bda690e4SXin Li x[ 3] = MULT31((s3 - s2) , cPI2_8);
141*bda690e4SXin Li MB();
142*bda690e4SXin Li
143*bda690e4SXin Li s2 = x[12] - x[13]; x[12] += x[13];
144*bda690e4SXin Li s3 = x[14] - x[15]; x[14] += x[15];
145*bda690e4SXin Li s0 = x[ 4] - x[ 5]; x[13] = x[ 5] + x[ 4];
146*bda690e4SXin Li s1 = x[ 7] - x[ 6]; x[15] = x[ 7] + x[ 6];
147*bda690e4SXin Li x[ 4] = s2; x[ 5] = s1;
148*bda690e4SXin Li x[ 6] = s3; x[ 7] = s0;
149*bda690e4SXin Li MB();
150*bda690e4SXin Li
151*bda690e4SXin Li mdct_butterfly_8(x);
152*bda690e4SXin Li mdct_butterfly_8(x+8);
153*bda690e4SXin Li }
154*bda690e4SXin Li
155*bda690e4SXin Li __attribute__((no_sanitize("signed-integer-overflow")))
156*bda690e4SXin Li /* 32 point butterfly (in place, 4 register) */
mdct_butterfly_32(DATA_TYPE * x)157*bda690e4SXin Li STIN void mdct_butterfly_32(DATA_TYPE *x){
158*bda690e4SXin Li
159*bda690e4SXin Li REG_TYPE s0, s1, s2, s3;
160*bda690e4SXin Li
161*bda690e4SXin Li s0 = x[16] - x[17]; x[16] += x[17];
162*bda690e4SXin Li s1 = x[18] - x[19]; x[18] += x[19];
163*bda690e4SXin Li s2 = x[ 1] - x[ 0]; x[17] = x[ 1] + x[ 0];
164*bda690e4SXin Li s3 = x[ 3] - x[ 2]; x[19] = x[ 3] + x[ 2];
165*bda690e4SXin Li XNPROD31( s0, s1, cPI3_8, cPI1_8, &x[ 0], &x[ 2] );
166*bda690e4SXin Li XPROD31 ( s2, s3, cPI1_8, cPI3_8, &x[ 1], &x[ 3] );
167*bda690e4SXin Li MB();
168*bda690e4SXin Li
169*bda690e4SXin Li s0 = x[20] - x[21]; x[20] += x[21];
170*bda690e4SXin Li s1 = x[22] - x[23]; x[22] += x[23];
171*bda690e4SXin Li s2 = x[ 5] - x[ 4]; x[21] = x[ 5] + x[ 4];
172*bda690e4SXin Li s3 = x[ 7] - x[ 6]; x[23] = x[ 7] + x[ 6];
173*bda690e4SXin Li x[ 4] = MULT31((s0 - s1) , cPI2_8);
174*bda690e4SXin Li x[ 5] = MULT31((s3 + s2) , cPI2_8);
175*bda690e4SXin Li x[ 6] = MULT31((s0 + s1) , cPI2_8);
176*bda690e4SXin Li x[ 7] = MULT31((s3 - s2) , cPI2_8);
177*bda690e4SXin Li MB();
178*bda690e4SXin Li
179*bda690e4SXin Li s0 = x[24] - x[25]; x[24] += x[25];
180*bda690e4SXin Li s1 = x[26] - x[27]; x[26] += x[27];
181*bda690e4SXin Li s2 = x[ 9] - x[ 8]; x[25] = x[ 9] + x[ 8];
182*bda690e4SXin Li s3 = x[11] - x[10]; x[27] = x[11] + x[10];
183*bda690e4SXin Li XNPROD31( s0, s1, cPI1_8, cPI3_8, &x[ 8], &x[10] );
184*bda690e4SXin Li XPROD31 ( s2, s3, cPI3_8, cPI1_8, &x[ 9], &x[11] );
185*bda690e4SXin Li MB();
186*bda690e4SXin Li
187*bda690e4SXin Li s0 = x[28] - x[29]; x[28] += x[29];
188*bda690e4SXin Li s1 = x[30] - x[31]; x[30] += x[31];
189*bda690e4SXin Li s2 = x[12] - x[13]; x[29] = x[13] + x[12];
190*bda690e4SXin Li s3 = x[15] - x[14]; x[31] = x[15] + x[14];
191*bda690e4SXin Li x[12] = s0; x[13] = s3;
192*bda690e4SXin Li x[14] = s1; x[15] = s2;
193*bda690e4SXin Li MB();
194*bda690e4SXin Li
195*bda690e4SXin Li mdct_butterfly_16(x);
196*bda690e4SXin Li mdct_butterfly_16(x+16);
197*bda690e4SXin Li }
198*bda690e4SXin Li
199*bda690e4SXin Li /* Ignoring overflows as the butterfly dct function expects and uses the overflows */
200*bda690e4SXin Li __attribute__((no_sanitize("signed-integer-overflow")))
201*bda690e4SXin Li /* N/stage point generic N stage butterfly (in place, 2 register) */
mdct_butterfly_generic(DATA_TYPE * x,int points,int step)202*bda690e4SXin Li STIN void mdct_butterfly_generic(DATA_TYPE *x,int points,int step){
203*bda690e4SXin Li LOOKUP_T *T = sincos_lookup0;
204*bda690e4SXin Li DATA_TYPE *x1 = x + points - 4;
205*bda690e4SXin Li DATA_TYPE *x2 = x + (points>>1) - 4;
206*bda690e4SXin Li REG_TYPE s0, s1, s2, s3;
207*bda690e4SXin Li
208*bda690e4SXin Li do{
209*bda690e4SXin Li s0 = x1[0] - x1[1]; x1[0] += x1[1];
210*bda690e4SXin Li s1 = x1[3] - x1[2]; x1[2] += x1[3];
211*bda690e4SXin Li s2 = x2[1] - x2[0]; x1[1] = x2[1] + x2[0];
212*bda690e4SXin Li s3 = x2[3] - x2[2]; x1[3] = x2[3] + x2[2];
213*bda690e4SXin Li XPROD31( s1, s0, T[0], T[1], &x2[0], &x2[2] );
214*bda690e4SXin Li XPROD31( s2, s3, T[0], T[1], &x2[1], &x2[3] ); T+=step;
215*bda690e4SXin Li x1-=4;
216*bda690e4SXin Li x2-=4;
217*bda690e4SXin Li }while(T<sincos_lookup0+1024);
218*bda690e4SXin Li x1 = x + (points>>1) + (points>>2) - 4;
219*bda690e4SXin Li x2 = x + (points>>2) - 4;
220*bda690e4SXin Li T = sincos_lookup0+1024;
221*bda690e4SXin Li do{
222*bda690e4SXin Li s0 = x1[0] - x1[1]; x1[0] += x1[1];
223*bda690e4SXin Li s1 = x1[2] - x1[3]; x1[2] += x1[3];
224*bda690e4SXin Li s2 = x2[0] - x2[1]; x1[1] = x2[1] + x2[0];
225*bda690e4SXin Li s3 = x2[3] - x2[2]; x1[3] = x2[3] + x2[2];
226*bda690e4SXin Li XNPROD31( s0, s1, T[0], T[1], &x2[0], &x2[2] );
227*bda690e4SXin Li XNPROD31( s3, s2, T[0], T[1], &x2[1], &x2[3] ); T-=step;
228*bda690e4SXin Li x1-=4;
229*bda690e4SXin Li x2-=4;
230*bda690e4SXin Li }while(T>sincos_lookup0);
231*bda690e4SXin Li }
232*bda690e4SXin Li
mdct_butterflies(DATA_TYPE * x,int points,int shift)233*bda690e4SXin Li STIN void mdct_butterflies(DATA_TYPE *x,int points,int shift){
234*bda690e4SXin Li
235*bda690e4SXin Li int stages=7-shift;
236*bda690e4SXin Li int i,j;
237*bda690e4SXin Li
238*bda690e4SXin Li for(i=0;--stages>=0;i++){
239*bda690e4SXin Li for(j=0;j<(1<<i);j++)
240*bda690e4SXin Li {
241*bda690e4SXin Li mdct_butterfly_generic(x+(points>>i)*j,points>>i,4<<(i+shift));
242*bda690e4SXin Li }
243*bda690e4SXin Li }
244*bda690e4SXin Li
245*bda690e4SXin Li for(j=0;j<points;j+=32)
246*bda690e4SXin Li mdct_butterfly_32(x+j);
247*bda690e4SXin Li }
248*bda690e4SXin Li
249*bda690e4SXin Li static unsigned char bitrev[16]={0,8,4,12,2,10,6,14,1,9,5,13,3,11,7,15};
250*bda690e4SXin Li
bitrev12(int x)251*bda690e4SXin Li STIN int bitrev12(int x){
252*bda690e4SXin Li return bitrev[x>>8]|(bitrev[(x&0x0f0)>>4]<<4)|(((int)bitrev[x&0x00f])<<8);
253*bda690e4SXin Li }
254*bda690e4SXin Li
mdct_bitreverse(DATA_TYPE * x,int n,int shift)255*bda690e4SXin Li STIN void mdct_bitreverse(DATA_TYPE *x,int n,int shift){
256*bda690e4SXin Li int bit = 0;
257*bda690e4SXin Li DATA_TYPE *w = x+(n>>1);
258*bda690e4SXin Li
259*bda690e4SXin Li do{
260*bda690e4SXin Li DATA_TYPE b = bitrev12(bit++);
261*bda690e4SXin Li DATA_TYPE *xx = x + (b>>shift);
262*bda690e4SXin Li REG_TYPE r;
263*bda690e4SXin Li
264*bda690e4SXin Li w -= 2;
265*bda690e4SXin Li
266*bda690e4SXin Li if(w>xx){
267*bda690e4SXin Li
268*bda690e4SXin Li r = xx[0];
269*bda690e4SXin Li xx[0] = w[0];
270*bda690e4SXin Li w[0] = r;
271*bda690e4SXin Li
272*bda690e4SXin Li r = xx[1];
273*bda690e4SXin Li xx[1] = w[1];
274*bda690e4SXin Li w[1] = r;
275*bda690e4SXin Li }
276*bda690e4SXin Li }while(w>x);
277*bda690e4SXin Li }
278*bda690e4SXin Li
279*bda690e4SXin Li __attribute__((no_sanitize("signed-integer-overflow")))
mdct_step7(DATA_TYPE * x,int n,int step)280*bda690e4SXin Li STIN void mdct_step7(DATA_TYPE *x,int n,int step){
281*bda690e4SXin Li DATA_TYPE *w0 = x;
282*bda690e4SXin Li DATA_TYPE *w1 = x+(n>>1);
283*bda690e4SXin Li LOOKUP_T *T = (step>=4)?(sincos_lookup0+(step>>1)):sincos_lookup1;
284*bda690e4SXin Li LOOKUP_T *Ttop = T+1024;
285*bda690e4SXin Li REG_TYPE s0, s1, s2, s3;
286*bda690e4SXin Li
287*bda690e4SXin Li do{
288*bda690e4SXin Li w1 -= 2;
289*bda690e4SXin Li
290*bda690e4SXin Li s0 = w0[0] + w1[0];
291*bda690e4SXin Li s1 = w1[1] - w0[1];
292*bda690e4SXin Li s2 = MULT32(s0, T[1]) + MULT32(s1, T[0]);
293*bda690e4SXin Li s3 = MULT32(s1, T[1]) - MULT32(s0, T[0]);
294*bda690e4SXin Li T+=step;
295*bda690e4SXin Li
296*bda690e4SXin Li s0 = (w0[1] + w1[1])>>1;
297*bda690e4SXin Li s1 = (w0[0] - w1[0])>>1;
298*bda690e4SXin Li w0[0] = s0 + s2;
299*bda690e4SXin Li w0[1] = s1 + s3;
300*bda690e4SXin Li w1[0] = s0 - s2;
301*bda690e4SXin Li w1[1] = s3 - s1;
302*bda690e4SXin Li
303*bda690e4SXin Li w0 += 2;
304*bda690e4SXin Li }while(T<Ttop);
305*bda690e4SXin Li do{
306*bda690e4SXin Li w1 -= 2;
307*bda690e4SXin Li
308*bda690e4SXin Li s0 = w0[0] + w1[0];
309*bda690e4SXin Li s1 = w1[1] - w0[1];
310*bda690e4SXin Li T-=step;
311*bda690e4SXin Li s2 = MULT32(s0, T[0]) + MULT32(s1, T[1]);
312*bda690e4SXin Li s3 = MULT32(s1, T[0]) - MULT32(s0, T[1]);
313*bda690e4SXin Li
314*bda690e4SXin Li s0 = (w0[1] + w1[1])>>1;
315*bda690e4SXin Li s1 = (w0[0] - w1[0])>>1;
316*bda690e4SXin Li w0[0] = s0 + s2;
317*bda690e4SXin Li w0[1] = s1 + s3;
318*bda690e4SXin Li w1[0] = s0 - s2;
319*bda690e4SXin Li w1[1] = s3 - s1;
320*bda690e4SXin Li
321*bda690e4SXin Li w0 += 2;
322*bda690e4SXin Li }while(w0<w1);
323*bda690e4SXin Li }
324*bda690e4SXin Li #endif
325*bda690e4SXin Li
326*bda690e4SXin Li __attribute__((no_sanitize("signed-integer-overflow")))
mdct_step8(DATA_TYPE * x,int n,int step)327*bda690e4SXin Li STIN void mdct_step8(DATA_TYPE *x, int n, int step){
328*bda690e4SXin Li LOOKUP_T *T;
329*bda690e4SXin Li LOOKUP_T *V;
330*bda690e4SXin Li DATA_TYPE *iX =x+(n>>1);
331*bda690e4SXin Li
332*bda690e4SXin Li switch(step) {
333*bda690e4SXin Li #if defined(ONLY_C)
334*bda690e4SXin Li default:
335*bda690e4SXin Li T=(step>=4)?(sincos_lookup0+(step>>1)):sincos_lookup1;
336*bda690e4SXin Li do{
337*bda690e4SXin Li REG_TYPE s0 = x[0];
338*bda690e4SXin Li REG_TYPE s1 = -x[1];
339*bda690e4SXin Li XPROD31( s0, s1, T[0], T[1], x, x+1); T+=step;
340*bda690e4SXin Li x +=2;
341*bda690e4SXin Li }while(x<iX);
342*bda690e4SXin Li break;
343*bda690e4SXin Li #endif
344*bda690e4SXin Li
345*bda690e4SXin Li case 1:
346*bda690e4SXin Li {
347*bda690e4SXin Li /* linear interpolation between table values: offset=0.5, step=1 */
348*bda690e4SXin Li REG_TYPE t0,t1,v0,v1,s0,s1;
349*bda690e4SXin Li T = sincos_lookup0;
350*bda690e4SXin Li V = sincos_lookup1;
351*bda690e4SXin Li t0 = (*T++)>>1;
352*bda690e4SXin Li t1 = (*T++)>>1;
353*bda690e4SXin Li do{
354*bda690e4SXin Li s0 = x[0];
355*bda690e4SXin Li s1 = -x[1];
356*bda690e4SXin Li t0 += (v0 = (*V++)>>1);
357*bda690e4SXin Li t1 += (v1 = (*V++)>>1);
358*bda690e4SXin Li XPROD31( s0, s1, t0, t1, x, x+1 );
359*bda690e4SXin Li
360*bda690e4SXin Li s0 = x[2];
361*bda690e4SXin Li s1 = -x[3];
362*bda690e4SXin Li v0 += (t0 = (*T++)>>1);
363*bda690e4SXin Li v1 += (t1 = (*T++)>>1);
364*bda690e4SXin Li XPROD31( s0, s1, v0, v1, x+2, x+3 );
365*bda690e4SXin Li
366*bda690e4SXin Li x += 4;
367*bda690e4SXin Li }while(x<iX);
368*bda690e4SXin Li break;
369*bda690e4SXin Li }
370*bda690e4SXin Li
371*bda690e4SXin Li case 0:
372*bda690e4SXin Li {
373*bda690e4SXin Li /* linear interpolation between table values: offset=0.25, step=0.5 */
374*bda690e4SXin Li REG_TYPE t0,t1,v0,v1,q0,q1,s0,s1;
375*bda690e4SXin Li T = sincos_lookup0;
376*bda690e4SXin Li V = sincos_lookup1;
377*bda690e4SXin Li t0 = *T++;
378*bda690e4SXin Li t1 = *T++;
379*bda690e4SXin Li do{
380*bda690e4SXin Li
381*bda690e4SXin Li
382*bda690e4SXin Li v0 = *V++;
383*bda690e4SXin Li v1 = *V++;
384*bda690e4SXin Li t0 += (q0 = (v0-t0)>>2);
385*bda690e4SXin Li t1 += (q1 = (v1-t1)>>2);
386*bda690e4SXin Li s0 = x[0];
387*bda690e4SXin Li s1 = -x[1];
388*bda690e4SXin Li XPROD31( s0, s1, t0, t1, x, x+1 );
389*bda690e4SXin Li t0 = v0-q0;
390*bda690e4SXin Li t1 = v1-q1;
391*bda690e4SXin Li s0 = x[2];
392*bda690e4SXin Li s1 = -x[3];
393*bda690e4SXin Li XPROD31( s0, s1, t0, t1, x+2, x+3 );
394*bda690e4SXin Li
395*bda690e4SXin Li t0 = *T++;
396*bda690e4SXin Li t1 = *T++;
397*bda690e4SXin Li v0 += (q0 = (t0-v0)>>2);
398*bda690e4SXin Li v1 += (q1 = (t1-v1)>>2);
399*bda690e4SXin Li s0 = x[4];
400*bda690e4SXin Li s1 = -x[5];
401*bda690e4SXin Li XPROD31( s0, s1, v0, v1, x+4, x+5 );
402*bda690e4SXin Li v0 = t0-q0;
403*bda690e4SXin Li v1 = t1-q1;
404*bda690e4SXin Li s0 = x[6];
405*bda690e4SXin Li s1 = -x[7];
406*bda690e4SXin Li XPROD31( s0, s1, v0, v1, x+5, x+6 );
407*bda690e4SXin Li
408*bda690e4SXin Li x+=8;
409*bda690e4SXin Li }while(x<iX);
410*bda690e4SXin Li break;
411*bda690e4SXin Li }
412*bda690e4SXin Li }
413*bda690e4SXin Li }
414*bda690e4SXin Li
415*bda690e4SXin Li extern int mdct_backwardARM(int n, DATA_TYPE *in);
416*bda690e4SXin Li
417*bda690e4SXin Li /* partial; doesn't perform last-step deinterleave/unrolling. That
418*bda690e4SXin Li can be done more efficiently during pcm output */
mdct_backward(int n,DATA_TYPE * in)419*bda690e4SXin Li void mdct_backward(int n, DATA_TYPE *in){
420*bda690e4SXin Li int step;
421*bda690e4SXin Li
422*bda690e4SXin Li #if defined(ONLY_C)
423*bda690e4SXin Li int shift;
424*bda690e4SXin Li
425*bda690e4SXin Li for (shift=4;!(n&(1<<shift));shift++);
426*bda690e4SXin Li shift=13-shift;
427*bda690e4SXin Li step=2<<shift;
428*bda690e4SXin Li
429*bda690e4SXin Li presymmetry(in,n>>1,step);
430*bda690e4SXin Li mdct_butterflies(in,n>>1,shift);
431*bda690e4SXin Li mdct_bitreverse(in,n,shift);
432*bda690e4SXin Li mdct_step7(in,n,step);
433*bda690e4SXin Li mdct_step8(in,n,step>>2);
434*bda690e4SXin Li #else
435*bda690e4SXin Li step = mdct_backwardARM(n, in);
436*bda690e4SXin Li if (step <= 1)
437*bda690e4SXin Li mdct_step8(in,n,step);
438*bda690e4SXin Li #endif
439*bda690e4SXin Li }
440*bda690e4SXin Li
441*bda690e4SXin Li #if defined(ONLY_C)
mdct_shift_right(int n,DATA_TYPE * in,DATA_TYPE * right)442*bda690e4SXin Li void mdct_shift_right(int n, DATA_TYPE *in, DATA_TYPE *right){
443*bda690e4SXin Li int i;
444*bda690e4SXin Li n>>=2;
445*bda690e4SXin Li in+=1;
446*bda690e4SXin Li
447*bda690e4SXin Li for(i=0;i<n;i++)
448*bda690e4SXin Li right[i]=in[i<<1];
449*bda690e4SXin Li }
450*bda690e4SXin Li #endif
451*bda690e4SXin Li
452*bda690e4SXin Li extern ogg_int16_t *mdct_unroll_prelap(ogg_int16_t *out,
453*bda690e4SXin Li DATA_TYPE *post,
454*bda690e4SXin Li DATA_TYPE *l,
455*bda690e4SXin Li int step);
456*bda690e4SXin Li extern ogg_int16_t *mdct_unroll_part2(ogg_int16_t *out,
457*bda690e4SXin Li DATA_TYPE *post,
458*bda690e4SXin Li DATA_TYPE *l,
459*bda690e4SXin Li DATA_TYPE *r,
460*bda690e4SXin Li int step,
461*bda690e4SXin Li LOOKUP_T *wL,
462*bda690e4SXin Li LOOKUP_T *wR);
463*bda690e4SXin Li extern ogg_int16_t *mdct_unroll_part3(ogg_int16_t *out,
464*bda690e4SXin Li DATA_TYPE *post,
465*bda690e4SXin Li DATA_TYPE *l,
466*bda690e4SXin Li DATA_TYPE *r,
467*bda690e4SXin Li int step,
468*bda690e4SXin Li LOOKUP_T *wL,
469*bda690e4SXin Li LOOKUP_T *wR);
470*bda690e4SXin Li extern ogg_int16_t *mdct_unroll_postlap(ogg_int16_t *out,
471*bda690e4SXin Li DATA_TYPE *post,
472*bda690e4SXin Li DATA_TYPE *l,
473*bda690e4SXin Li int step);
474*bda690e4SXin Li
mdct_unroll_lap(int n0,int n1,int lW,int W,DATA_TYPE * in,DATA_TYPE * right,LOOKUP_T * w0,LOOKUP_T * w1,ogg_int16_t * out,int step,int start,int end)475*bda690e4SXin Li void mdct_unroll_lap(int n0,int n1,
476*bda690e4SXin Li int lW,int W,
477*bda690e4SXin Li DATA_TYPE *in,
478*bda690e4SXin Li DATA_TYPE *right,
479*bda690e4SXin Li LOOKUP_T *w0,
480*bda690e4SXin Li LOOKUP_T *w1,
481*bda690e4SXin Li ogg_int16_t *out,
482*bda690e4SXin Li int step,
483*bda690e4SXin Li int start, /* samples, this frame */
484*bda690e4SXin Li int end /* samples, this frame */){
485*bda690e4SXin Li
486*bda690e4SXin Li DATA_TYPE *l=in+(W&&lW ? n1>>1 : n0>>1);
487*bda690e4SXin Li DATA_TYPE *r=right+(lW ? n1>>2 : n0>>2);
488*bda690e4SXin Li DATA_TYPE *post;
489*bda690e4SXin Li LOOKUP_T *wR=(W && lW ? w1+(n1>>1) : w0+(n0>>1));
490*bda690e4SXin Li LOOKUP_T *wL=(W && lW ? w1 : w0 );
491*bda690e4SXin Li
492*bda690e4SXin Li int preLap=(lW && !W ? (n1>>2)-(n0>>2) : 0 );
493*bda690e4SXin Li int halfLap=(lW && W ? (n1>>2) : (n0>>2) );
494*bda690e4SXin Li int postLap=(!lW && W ? (n1>>2)-(n0>>2) : 0 );
495*bda690e4SXin Li int n,off;
496*bda690e4SXin Li
497*bda690e4SXin Li /* preceeding direct-copy lapping from previous frame, if any */
498*bda690e4SXin Li if(preLap){
499*bda690e4SXin Li n = (end<preLap?end:preLap);
500*bda690e4SXin Li off = (start<preLap?start:preLap);
501*bda690e4SXin Li post = r-n;
502*bda690e4SXin Li r -= off;
503*bda690e4SXin Li start -= off;
504*bda690e4SXin Li end -= n;
505*bda690e4SXin Li #if defined(ONLY_C)
506*bda690e4SXin Li while(r>post){
507*bda690e4SXin Li *out = CLIP_TO_15((*--r)>>9);
508*bda690e4SXin Li out+=step;
509*bda690e4SXin Li }
510*bda690e4SXin Li #else
511*bda690e4SXin Li out = mdct_unroll_prelap(out,post,r,step);
512*bda690e4SXin Li n -= off;
513*bda690e4SXin Li if (n < 0)
514*bda690e4SXin Li n = 0;
515*bda690e4SXin Li r -= n;
516*bda690e4SXin Li #endif
517*bda690e4SXin Li }
518*bda690e4SXin Li
519*bda690e4SXin Li /* cross-lap; two halves due to wrap-around */
520*bda690e4SXin Li n = (end<halfLap?end:halfLap);
521*bda690e4SXin Li off = (start<halfLap?start:halfLap);
522*bda690e4SXin Li post = r-n;
523*bda690e4SXin Li r -= off;
524*bda690e4SXin Li l -= off*2;
525*bda690e4SXin Li start -= off;
526*bda690e4SXin Li wR -= off;
527*bda690e4SXin Li wL += off;
528*bda690e4SXin Li end -= n;
529*bda690e4SXin Li #if defined(ONLY_C)
530*bda690e4SXin Li while(r>post){
531*bda690e4SXin Li l-=2;
532*bda690e4SXin Li *out = CLIP_TO_15((MULT31(*--r,*--wR) + MULT31(*l,*wL++))>>9);
533*bda690e4SXin Li out+=step;
534*bda690e4SXin Li }
535*bda690e4SXin Li #else
536*bda690e4SXin Li out = mdct_unroll_part2(out, post, l, r, step, wL, wR);
537*bda690e4SXin Li n -= off;
538*bda690e4SXin Li if (n < 0)
539*bda690e4SXin Li n = 0;
540*bda690e4SXin Li l -= 2*n;
541*bda690e4SXin Li r -= n;
542*bda690e4SXin Li wR -= n;
543*bda690e4SXin Li wL += n;
544*bda690e4SXin Li #endif
545*bda690e4SXin Li
546*bda690e4SXin Li n = (end<halfLap?end:halfLap);
547*bda690e4SXin Li off = (start<halfLap?start:halfLap);
548*bda690e4SXin Li post = r+n;
549*bda690e4SXin Li r += off;
550*bda690e4SXin Li l += off*2;
551*bda690e4SXin Li start -= off;
552*bda690e4SXin Li end -= n;
553*bda690e4SXin Li wR -= off;
554*bda690e4SXin Li wL += off;
555*bda690e4SXin Li #if defined(ONLY_C)
556*bda690e4SXin Li while(r<post){
557*bda690e4SXin Li *out = CLIP_TO_15((MULT31(*r++,*--wR) - MULT31(*l,*wL++))>>9);
558*bda690e4SXin Li out+=step;
559*bda690e4SXin Li l+=2;
560*bda690e4SXin Li }
561*bda690e4SXin Li #else
562*bda690e4SXin Li out = mdct_unroll_part3(out, post, l, r, step, wL, wR);
563*bda690e4SXin Li n -= off;
564*bda690e4SXin Li if (n < 0)
565*bda690e4SXin Li n = 0;
566*bda690e4SXin Li l += 2*n;
567*bda690e4SXin Li r += n;
568*bda690e4SXin Li wR -= n;
569*bda690e4SXin Li wL += n;
570*bda690e4SXin Li #endif
571*bda690e4SXin Li
572*bda690e4SXin Li /* preceeding direct-copy lapping from previous frame, if any */
573*bda690e4SXin Li if(postLap){
574*bda690e4SXin Li n = (end<postLap?end:postLap);
575*bda690e4SXin Li off = (start<postLap?start:postLap);
576*bda690e4SXin Li post = l+n*2;
577*bda690e4SXin Li l += off*2;
578*bda690e4SXin Li #if defined(ONLY_C)
579*bda690e4SXin Li while(l<post){
580*bda690e4SXin Li *out = CLIP_TO_15((-*l)>>9);
581*bda690e4SXin Li out+=step;
582*bda690e4SXin Li l+=2;
583*bda690e4SXin Li }
584*bda690e4SXin Li #else
585*bda690e4SXin Li out = mdct_unroll_postlap(out,post,l,step);
586*bda690e4SXin Li #endif
587*bda690e4SXin Li }
588*bda690e4SXin Li }
589*bda690e4SXin Li
590