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203 lines
5.5 KiB
203 lines
5.5 KiB
/*
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wrapper for dcts
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Copyright (C) 2001 Martin Vogt
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This program is free software; you can redistribute it and/or modify
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it under the terms of the GNU Library General Public License as published by
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the Free Software Foundation.
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For more information look at the file COPYRIGHT in this package
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*/
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#include "dct.h"
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#include "common.h"
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ATTR_ALIGN(64) static REAL hcos_64[16];
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ATTR_ALIGN(64) static REAL hcos_32[8];
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ATTR_ALIGN(64) static REAL hcos_16[4];
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ATTR_ALIGN(64) static REAL hcos_8[2];
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ATTR_ALIGN(64) static REAL hcos_4;
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/**
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This was some time ago a standalone dct class,
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but to get more speed I made it an inline dct
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int the filter classes
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*/
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static int dct64Init=false;
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void initialize_dct64() {
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if (dct64Init==true) {
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return;
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}
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dct64Init=true;
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int i;
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for(i=0;i<16;i++) {
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hcos_64[i]=1.0/(2.0*cos(MY_PI*double(i*2+1)/64.0));
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}
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for(i=0;i< 8;i++) {
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hcos_32[i]=1.0/(2.0*cos(MY_PI*double(i*2+1)/32.0));
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}
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for(i=0;i< 4;i++) {
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hcos_16[i]=1.0/(2.0*cos(MY_PI*double(i*2+1)/16.0));
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}
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for(i=0;i< 2;i++) {
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hcos_8[i]=1.0/(2.0*cos(MY_PI*double(i*2+1)/ 8.0));
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}
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hcos_4=1.0/(2.0*cos(MY_PI*1.0/4.0));
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}
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//
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// splay dct64 , faster than mpeg123 dct. (from decode.c)
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//
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inline void dct64(REAL* out1,REAL* out2,REAL *fraction) {
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ATTR_ALIGN(64) REAL p0,p1,p2,p3,p4,p5,p6,p7,p8,p9,pa,pb,pc,pd,pe,pf;
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ATTR_ALIGN(64) REAL q0,q1,q2,q3,q4,q5,q6,q7,q8,q9,qa,qb,qc,qd,qe,qf;
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#define OUT1(v,t) out1[(32-(v))*16] =(-(out1[(v)*16]=t))
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#define OUT2(v) out2[(96-(v)-32)*16]=out2[((v)-32)*16]
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// compute new values via a fast cosine transform:
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{
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// put to buffer 0..15
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REAL* x=fraction;
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p0=x[ 0]+x[31];p1=x[ 1]+x[30];p2=x[ 2]+x[29];p3=x[ 3]+x[28];
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p4=x[ 4]+x[27];p5=x[ 5]+x[26];p6=x[ 6]+x[25];p7=x[ 7]+x[24];
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p8=x[ 8]+x[23];p9=x[ 9]+x[22];pa=x[10]+x[21];pb=x[11]+x[20];
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pc=x[12]+x[19];pd=x[13]+x[18];pe=x[14]+x[17];pf=x[15]+x[16];
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}
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// put to buffer 32..39
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q0=p0+pf;q1=p1+pe;q2=p2+pd;q3=p3+pc;
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q4=p4+pb;q5=p5+pa;q6=p6+p9;q7=p7+p8;
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// put to buffer 40..47
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q8=hcos_32[0]*(p0-pf);q9=hcos_32[1]*(p1-pe);
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qa=hcos_32[2]*(p2-pd);qb=hcos_32[3]*(p3-pc);
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qc=hcos_32[4]*(p4-pb);qd=hcos_32[5]*(p5-pa);
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qe=hcos_32[6]*(p6-p9);qf=hcos_32[7]*(p7-p8);
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p0=q0+q7;p1=q1+q6;p2=q2+q5;p3=q3+q4;
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p4=hcos_16[0]*(q0-q7);p5=hcos_16[1]*(q1-q6);
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p6=hcos_16[2]*(q2-q5);p7=hcos_16[3]*(q3-q4);
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p8=q8+qf;p9=q9+qe;pa=qa+qd;pb=qb+qc;
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pc=hcos_16[0]*(q8-qf);pd=hcos_16[1]*(q9-qe);
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pe=hcos_16[2]*(qa-qd);pf=hcos_16[3]*(qb-qc);
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q0=p0+p3;q1=p1+p2;q2=hcos_8[0]*(p0-p3);q3=hcos_8[1]*(p1-p2);
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q4=p4+p7;q5=p5+p6;q6=hcos_8[0]*(p4-p7);q7=hcos_8[1]*(p5-p6);
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q8=p8+pb;q9=p9+pa;qa=hcos_8[0]*(p8-pb);qb=hcos_8[1]*(p9-pa);
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qc=pc+pf;qd=pd+pe;qe=hcos_8[0]*(pc-pf);qf=hcos_8[1]*(pd-pe);
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p0=q0+q1;p1=hcos_4*(q0-q1);p2=q2+q3;p3=hcos_4*(q2-q3);
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p4=q4+q5;p5=hcos_4*(q4-q5);p6=q6+q7;p7=hcos_4*(q6-q7);
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p8=q8+q9;p9=hcos_4*(q8-q9);pa=qa+qb;pb=hcos_4*(qa-qb);
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pc=qc+qd;pd=hcos_4*(qc-qd);pe=qe+qf;pf=hcos_4*(qe-qf);
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{
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REAL tmp;
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tmp=p6+p7;
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OUT2(36)=-(p5+tmp);
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OUT2(44)=-(p4+tmp);
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tmp=pb+pf;
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OUT1(10,tmp);
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OUT1(6,pd+tmp);
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tmp=pe+pf;
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OUT2(46)=-(p8+pc+tmp);
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OUT2(34)=-(p9+pd+tmp);
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tmp+=pa+pb;
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OUT2(38)=-(pd+tmp);
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OUT2(42)=-(pc+tmp);
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OUT1(2,p9+pd+pf);
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OUT1(4,p5+p7);
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OUT2(48)=-p0;
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out2[0]=-(out1[0]=p1);
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OUT1( 8,p3);
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OUT1(12,p7);
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OUT1(14,pf);
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OUT2(40)=-(p2+p3);
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}
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{
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// put to buffer 16..31
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REAL *x=fraction;
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p0=hcos_64[ 0]*(x[ 0]-x[31]);p1=hcos_64[ 1]*(x[ 1]-x[30]);
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p2=hcos_64[ 2]*(x[ 2]-x[29]);p3=hcos_64[ 3]*(x[ 3]-x[28]);
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p4=hcos_64[ 4]*(x[ 4]-x[27]);p5=hcos_64[ 5]*(x[ 5]-x[26]);
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p6=hcos_64[ 6]*(x[ 6]-x[25]);p7=hcos_64[ 7]*(x[ 7]-x[24]);
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p8=hcos_64[ 8]*(x[ 8]-x[23]);p9=hcos_64[ 9]*(x[ 9]-x[22]);
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pa=hcos_64[10]*(x[10]-x[21]);pb=hcos_64[11]*(x[11]-x[20]);
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pc=hcos_64[12]*(x[12]-x[19]);pd=hcos_64[13]*(x[13]-x[18]);
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pe=hcos_64[14]*(x[14]-x[17]);pf=hcos_64[15]*(x[15]-x[16]);
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}
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// put to 48..63
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q0=p0+pf;q1=p1+pe;q2=p2+pd;q3=p3+pc;
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q4=p4+pb;q5=p5+pa;q6=p6+p9;q7=p7+p8;
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q8=hcos_32[0]*(p0-pf);q9=hcos_32[1]*(p1-pe);
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qa=hcos_32[2]*(p2-pd);qb=hcos_32[3]*(p3-pc);
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qc=hcos_32[4]*(p4-pb);qd=hcos_32[5]*(p5-pa);
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qe=hcos_32[6]*(p6-p9);qf=hcos_32[7]*(p7-p8);
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p0=q0+q7;p1=q1+q6;p2=q2+q5;p3=q3+q4;
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p4=hcos_16[0]*(q0-q7);p5=hcos_16[1]*(q1-q6);
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p6=hcos_16[2]*(q2-q5);p7=hcos_16[3]*(q3-q4);
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p8=q8+qf;p9=q9+qe;pa=qa+qd;pb=qb+qc;
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pc=hcos_16[0]*(q8-qf);pd=hcos_16[1]*(q9-qe);
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pe=hcos_16[2]*(qa-qd);pf=hcos_16[3]*(qb-qc);
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q0=p0+p3;q1=p1+p2;q2=hcos_8[0]*(p0-p3);q3=hcos_8[1]*(p1-p2);
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q4=p4+p7;q5=p5+p6;q6=hcos_8[0]*(p4-p7);q7=hcos_8[1]*(p5-p6);
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q8=p8+pb;q9=p9+pa;qa=hcos_8[0]*(p8-pb);qb=hcos_8[1]*(p9-pa);
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qc=pc+pf;qd=pd+pe;qe=hcos_8[0]*(pc-pf);qf=hcos_8[1]*(pd-pe);
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p0=q0+q1;p1=hcos_4*(q0-q1);
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p2=q2+q3;p3=hcos_4*(q2-q3);
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p4=q4+q5;p5=hcos_4*(q4-q5);
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p6=q6+q7;p7=hcos_4*(q6-q7);
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p8=q8+q9;p9=hcos_4*(q8-q9);
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pa=qa+qb;pb=hcos_4*(qa-qb);
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pc=qc+qd;pd=hcos_4*(qc-qd);
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pe=qe+qf;pf=hcos_4*(qe-qf);
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{
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REAL tmp;
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tmp=pd+pf;
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OUT1(5,p5+p7+pb+tmp);
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tmp+=p9;
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OUT1(1,p1+tmp);
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OUT2(33)=-(p1+pe+tmp);
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tmp+=p5+p7;
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OUT1(3,tmp);
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OUT2(35)=-(p6+pe+tmp);
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tmp=pa+pb+pc+pd+pe+pf;
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OUT2(39)=-(p2+p3+tmp-pc);
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OUT2(43)=-(p4+p6+p7+tmp-pd);
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OUT2(37)=-(p5+p6+p7+tmp-pc);
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OUT2(41)=-(p2+p3+tmp-pd);
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tmp=p8+pc+pe+pf;
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OUT2(47)=-(p0+tmp);
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OUT2(45)=-(p4+p6+p7+tmp);
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tmp=pb+pf;
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OUT1(11,p7+tmp);
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tmp+=p3;
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OUT1( 9,tmp);
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OUT1( 7,pd+tmp);
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OUT1(13,p7+pf);
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OUT1(15,pf);
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}
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}
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