mirror of
https://github.com/deater/dos33fsprogs.git
synced 2024-12-29 00:31:52 +00:00
379 lines
7.4 KiB
C
379 lines
7.4 KiB
C
#include <stdio.h>
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#include <string.h>
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#include "6502_emulate.h"
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#define MAX_INPUT 65536
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static unsigned char input[MAX_INPUT];
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#define LZ4_BUFFER 0x2000
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#define ORGOFFSET 0x6000
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#define end 0x4
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#define LZ4_SRC 0x00
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#define LZ4_DST 0x02
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#define LZ4_END 0x04
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#define COUNT 0x06
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#define DELTA 0x08
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#define CH 0x24
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#define CV 0x25
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#define OUTL 0xFE
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#define OUTH 0xFF
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static int cycles;
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static void getsrc(void) {
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//getsrc:
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a=ram[y_indirect(LZ4_SRC,y)]; cycles+=5; // lda (LZ4_SRC), y
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ram[LZ4_SRC]++; cycles+=5; //inc LZ4_SRC
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cycles+=2;
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if (ram[LZ4_SRC]!=0) {
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cycles+=1;
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goto done_getsrc; //bne +
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}
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ram[LZ4_SRC+1]++; cycles+=5; //inc LZ4_SRC+1
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done_getsrc:
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cycles+=6;
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//+ rts
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}
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void buildcount(void) {
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//buildcount:
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x=1; cycles+=2; // ?? // ldx #1
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ram[COUNT+1]=x; cycles+=3; // ?? // stx COUNT+1
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cmp(0xf); cycles+=2; // if 15, more complicated // cmp #$0f
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cycles+=2;
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if (z==0) {
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cycles+=1;
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goto done_buildcount; // otherwise A is count // bne ++
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}
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buildcount_loop:
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ram[COUNT]=a; cycles+=3; //- sta count
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getsrc(); cycles+=6; //jsr getsrc
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x=a; cycles+=2; //tax
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c=0; cycles+=2; //clc
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adc(ram[COUNT]);cycles+=3; //adc COUNT
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cycles+=2;
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if (c==0) {
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cycles+=1;
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goto skip_buildcount; // bcc +
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}
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ram[COUNT+1]++; cycles+=5; //inc COUNT+1
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skip_buildcount:
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x++; cycles+=2; // check if x is 255 //+ inx
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if (x==0) {
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cycles+=1;
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goto buildcount_loop; // if so, add in next byte //beq -
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}
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done_buildcount:
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cycles+=6; //++ rts
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}
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static void putdst(void) {
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// putdst:
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ram[y_indirect(LZ4_DST,y)]=a; cycles+=6; // sta (LZ4_DST), y
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ram[LZ4_DST]++; cycles+=5; // inc LZ4_DST
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cycles+=2;
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if (ram[LZ4_DST]!=0) {
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cycles+=1;
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goto putdst_end; // bne +
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}
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ram[LZ4_DST+1]++; cycles+=5; // inc LZ4_DST+1
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putdst_end:;
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cycles+=6; //+ rts
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}
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static void getput(void) {
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// getput:
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getsrc(); // jsr getsrc
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cycles+=6;
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putdst(); // ; fallthrough
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}
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static void docopy(void) {
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// docopy:
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docopy_label:
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getput(); cycles+=6; // jsr getput
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x--; cycles+=2; // dex
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cycles+=2;
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if (x!=0) {
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cycles+=1;
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goto docopy_label; // bne docopy
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}
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ram[COUNT+1]--; cycles+=5; // dec COUNT+1
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cycles+=2;
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if (ram[COUNT+1]!=0) {
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cycles++;
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goto docopy_label; //bne docopy
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}
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cycles+=6;
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//rts
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}
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#define orgoff 0x6000
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int lz4_decode(void) {
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FILE *fff;
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cycles=0;
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//LZ4 data decompressor for Apple II
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//Peter Ferrie (peter.ferrie@gmail.com)
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// lz4_decode:
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a=ram[LZ4_SRC]; cycles+=3; // lda LZ4_SRC
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c=0; cycles+=2; // clc
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adc(ram[LZ4_END]); cycles+=3; // adc LZ4_END
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ram[LZ4_END]=a; cycles+=3; // sta LZ4_END
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a=ram[LZ4_SRC+1]; cycles+=3; // lda LZ4_SRC+1
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adc(ram[LZ4_END+1]); cycles+=3; // adc LZ4_END+1
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ram[LZ4_END+1]=a; cycles+=3; // sta LZ4_END+1
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a=high(orgoff); cycles+=2; // lda #>orgoff ; original unpacked data offset
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ram[LZ4_DST+1]=a; cycles+=3; // sta LZ4_DST+1
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a=low(orgoff); cycles+=2; // lda #<orgoff
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ram[LZ4_DST]=a; cycles+=3; // sta LZ4_DST
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// printf("packed size: raw=%x, adj=%x\n",size,paksize);
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printf("packed addr: %02X%02X\n",ram[LZ4_SRC+1],ram[LZ4_SRC]);
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printf("packed end : %02X%02X\n",ram[end+1],ram[end]);
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printf("dest addr : %02X%02X\n",ram[LZ4_DST+1],ram[LZ4_DST]);
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//unpmain:
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y=0; cycles+=2; // used for offset //ldy #0
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parsetoken:
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getsrc(); cycles+=6; // jsr getsrc
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// get token
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pha(); cycles+=3; // save for later // pha
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lsr(); cycles+=2; // num literals in top 4// lsr
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lsr(); cycles+=2; // lsr
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lsr(); cycles+=2; // lsr
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lsr(); cycles+=2; // lsr
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cycles+=2;
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if (a==0) {
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cycles+=1;
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goto copymatches; // if zero, no literals // beq copymatches
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}
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buildcount(); cycles+=6; // otherwise, build the count // jsr buildcount
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x=a; cycles+=2; // tax
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docopy(); cycles+=6; // jsr docopy
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a=ram[LZ4_SRC]; cycles+=3; // lda LZ4_SRC
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cmp(ram[end]); cycles+=3; // cmp end
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a=ram[LZ4_SRC+1]; cycles+=3; // lda LZ4_SRC+1
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sbc(ram[end+1]); cycles+=3; // sbc end+1
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cycles+=2;
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if (c) {
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printf("Done!\n");
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printf("src : %02X%02X\n",ram[LZ4_SRC+1],ram[LZ4_SRC]);
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printf("packed end : %02X%02X\n",ram[end+1],ram[end]);
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cycles+=1;
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goto done; // bcs done
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}
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copymatches:
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getsrc(); cycles+=6; // jsr getsrc
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ram[DELTA]=a; cycles+=3; // sta DELTA
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getsrc(); cycles+=6; // jsr getsrc
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ram[DELTA+1]=a; cycles+=3; // sta DELTA+1
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pla(); cycles+=3; // restore token // pla
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a=a&0xf; cycles+=2; // get bottom 4 bits // and #$0f
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buildcount(); cycles+=6; // jsr buildcount
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c=0; cycles+=2; // clc
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adc(4); cycles+=2; // adc #4
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x=a; cycles+=2; // tax
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cycles+=2;
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if (x==0) {
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cycles+=1;
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goto copy_skip; //BUGFIX // beq +
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}
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cycles+=2;
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if (c==0) {
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cycles+=1;
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goto copy_skip; // bcc +
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}
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ram[COUNT+1]++; cycles+=5; // inc count+1
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copy_skip:
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a=ram[LZ4_SRC+1]; cycles+=3; //+ lda src+1
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pha(); cycles+=3; // pha
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a=ram[LZ4_SRC]; cycles+=3; // lda src
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pha(); cycles+=3; // pha
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c=1; cycles+=2; // sec
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a=ram[LZ4_DST]; cycles+=3; // lda LZ4_DST
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sbc(ram[DELTA]); cycles+=3; // sbc DELTA
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ram[LZ4_SRC]=a; cycles+=3; // sta LZ4_SRC
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a=ram[LZ4_DST+1]; cycles+=3; // lda LZ4_DST+1
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sbc(ram[DELTA+1]); cycles+=3; // sbc DELTA+1
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ram[LZ4_SRC+1]=a; cycles+=3; // sta LZ4_SRC+1
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docopy(); cycles+=6; // jsr docopy
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pla(); cycles+=3; // pla
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ram[LZ4_SRC]=a; cycles+=3; // sta LZ4_SRC
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pla(); cycles+=3; // pla
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ram[LZ4_SRC+1]=a; cycles+=3; // sta LZ4_SRC+1
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cycles+=3;
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goto parsetoken; // jmp parsetoken
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done:
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cycles+=3;
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pla(); // pla
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cycles+=6; // rts
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int out_size=(ram[LZ4_DST+1]<<8)+ram[LZ4_DST];
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out_size-=ORGOFFSET;
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printf("dest addr : %02X%02X\n",ram[LZ4_DST+1],ram[LZ4_DST]);
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fff=fopen("out.out","w");
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if (fff==NULL) {
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fprintf(stderr,"Error opening!\n");
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return -1;
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}
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printf("Out size=%d\n",out_size);
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fwrite(&ram[ORGOFFSET],1,out_size,fff);
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fclose(fff);
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printf("Cycles: %d\t %lfs\n",cycles,(double)cycles/1023000.0);
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printf("\t50Hz\t %lfs\n",(double)1/50.0);
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return 0;
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}
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static void print_both_pages(void) {
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int i;
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for(i=0;i<ram[CH];i++) printf(" ");
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y=0;
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while(1) {
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a=ram[y_indirect(OUTL,y)];
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if (a==0) break;
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printf("%c",a);
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y++;
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}
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printf("\n");
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}
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static void print_header_info(void) {
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ram[CV]=a;
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y++;
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a=y;
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y=0;
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c=0;
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adc(ram[OUTL]);
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ram[OUTL]=a;
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a=ram[OUTH];
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adc(0);
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ram[OUTH]=a;
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a=ram[y_indirect(OUTL,y)];
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ram[CH]=a;
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ram[OUTL]++;
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if (ram[OUTL]==0) ram[OUTH]++;
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print_both_pages();
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}
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int main(int argc, char **argv) {
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FILE *fff;
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int size;
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init_6502();
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if (argc<2) {
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fprintf(stderr,"\nUsage: %s filename\n\n",argv[0]);
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}
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fff=fopen(argv[1],"r");
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if (fff==NULL) {
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fprintf(stderr,"Error opening %s!\n",argv[1]);
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return -1;
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}
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size=fread(input,sizeof(unsigned char),MAX_INPUT,fff);
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printf("Read %d bytes\n",size);
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fclose(fff);
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memcpy(&ram[LZ4_BUFFER],input,size);
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a=high(LZ4_BUFFER);
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ram[OUTH]=a;
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a=low(LZ4_BUFFER);
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ram[OUTL]=a;
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y=3;
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a=20;
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print_header_info();
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a=21;
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print_header_info();
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printf("\n");
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a=23;
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print_header_info();
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y=0;
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a=high(LZ4_BUFFER+3);
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ram[LZ4_SRC+1]=a;
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a=low(LZ4_BUFFER+3);
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ram[LZ4_SRC]=a;
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a=ram[y_indirect(LZ4_SRC,y)];
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c=0;
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adc(ram[LZ4_SRC]);
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ram[LZ4_SRC]=a;
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a=ram[LZ4_SRC+1];
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adc(0);
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ram[LZ4_SRC+1]=a;
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// next_subsong:
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y=0;
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a=ram[y_indirect(LZ4_SRC,y)];
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ram[LZ4_END]=a;
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y++;
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a=ram[y_indirect(LZ4_SRC,y)];
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ram[LZ4_END+1]=a;
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y++;
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a=2;
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c=0;
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adc(ram[LZ4_SRC]);
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ram[LZ4_SRC]=a;
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a=(ram[LZ4_SRC+1]);
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adc(0);
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ram[LZ4_SRC+1]=a;
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lz4_decode();
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return 0;
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}
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