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lzsa
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Emmanuel Marty 2021-11-21 18:03:03 +01:00 committed by GitHub
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224
asm/6502/decompress_faster_v1.asm
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@ -7,7 +7,7 @@
;
; This code is written for the ACME assembler.
;
; The code is 169 bytes for the small version, and 193 bytes for the normal.
; The code is 167 bytes for the small version, and 192 bytes for the normal.
;
; Copyright John Brandwood 2021.
;
@ -37,16 +37,15 @@ LZSA_SMALL_SIZE = 0
; ***************************************************************************
; ***************************************************************************
;
; Data usage is last 7 bytes of zero-page.
; Data usage is last 8 bytes of zero-page.
;
lzsa_length = $F8 ; 1 byte.
lzsa_cmdbuf = $F9 ; 1 byte.
lzsa_winptr = $FA ; 1 word.
lzsa_srcptr = $FC ; 1 word.
lzsa_dstptr = $FE ; 1 word.
lzsa_offset = lzsa_winptr
LZSA_SRC_LO = $FC
LZSA_SRC_HI = $FD
LZSA_DST_LO = $FE
@ -61,6 +60,7 @@ LZSA_DST_HI = $FF
;
; Args: lzsa_srcptr = ptr to compessed data
; Args: lzsa_dstptr = ptr to output buffer
; Uses: lots!
;
DECOMPRESS_LZSA1_FAST:
@ -95,14 +95,19 @@ lzsa1_unpack: ldy #0 ; Initialize source index.
lsr
lsr
cmp #$07 ; Extended length?
bcc .cp_got_len
bcc .inc_cp_len
jsr .get_length ; X=0, CS from CMP, returns CC.
stx .cp_npages + 1 ; Hi-byte of length.
jsr .get_length ; CS from CMP, X=0.
.cp_got_len: tax ; Lo-byte of length.
ora #0 ; Check the lo-byte of length
beq .put_cp_len ; without effecting CC.
.cp_byte: lda (lzsa_srcptr),y ; CC throughout the execution of
.inc_cp_len: inx ; Increment # of pages to copy.
.put_cp_len: stx <lzsa_length
tax
.cp_page: lda (lzsa_srcptr),y ; CC throughout the execution of
sta (lzsa_dstptr),y ; of this .cp_page loop.
inc <lzsa_srcptr + 0
bne .cp_skip1
@ -111,24 +116,28 @@ lzsa1_unpack: ldy #0 ; Initialize source index.
bne .cp_skip2
inc <lzsa_dstptr + 1
.cp_skip2: dex
bne .cp_byte
.cp_npages: lda #0 ; Any full pages left to copy?
beq .lz_offset
dec .cp_npages + 1 ; Unlikely, so can be slow.
bcc .cp_byte ; Always true!
!if LZSA_SMALL_SIZE {
bne .cp_page
dec <lzsa_length ; Any full pages left to copy?
bne .cp_page
;
; Copy bytes from decompressed window.
;
; Shorter but slower version.
;
; N.B. X=0 is expected and guaranteed when we get here.
;
.lz_offset: jsr .get_byte ; Get offset-lo.
.lz_offset: !if LZSA_SMALL_SIZE {
jsr .get_byte
} else {
lda (lzsa_srcptr),y
inc <lzsa_srcptr + 0
bne .offset_lo
inc <lzsa_srcptr + 1
}
.offset_lo: adc <lzsa_dstptr + 0 ; Always CC from .cp_page loop.
sta <lzsa_winptr + 0
@ -137,105 +146,96 @@ lzsa1_unpack: ldy #0 ; Initialize source index.
bit <lzsa_cmdbuf
bpl .offset_hi
jsr .get_byte ; Get offset-hi.
.offset_hi: adc <lzsa_dstptr + 1 ; lzsa_winptr < lzsa_dstptr, so
sta <lzsa_winptr + 1 ; always leaves CS.
.lz_length: lda <lzsa_cmdbuf ; X=0 from previous loop.
and #$0F
adc #$03 - 1 ; CS from previous ADC.
cmp #$12 ; Extended length?
bcc .lz_got_len
jsr .get_length ; CS from CMP, X=0, returns CC.
stx .lz_npages + 1 ; Hi-byte of length.
.lz_got_len: tax ; Lo-byte of length.
.lz_byte: lda (lzsa_winptr),y ; CC throughout the execution of
sta (lzsa_dstptr),y ; of this .lz_page loop.
inc <lzsa_winptr + 0
bne .lz_skip1
inc <lzsa_winptr + 1
.lz_skip1: inc <lzsa_dstptr + 0
bne .lz_skip2
inc <lzsa_dstptr + 1
.lz_skip2: dex
bne .lz_byte
.lz_npages: lda #0 ; Any full pages left to copy?
beq .cp_length
dec .lz_npages + 1 ; Unlikely, so can be slow.
bcc .lz_byte ; Always true!
!if LZSA_SMALL_SIZE {
jsr .get_byte
} else {
;
; Copy bytes from decompressed window.
;
; Longer but faster.
;
; N.B. X=0 is expected and guaranteed when we get here.
;
.lz_offset: lda (lzsa_srcptr),y ; Get offset-lo.
inc <lzsa_srcptr + 0
bne .offset_lo
inc <lzsa_srcptr + 1
.offset_lo: sta <lzsa_offset + 0
lda #$FF ; Get offset-hi.
bit <lzsa_cmdbuf
bpl .offset_hi
lda (lzsa_srcptr),y
inc <lzsa_srcptr + 0
bne .offset_hi
inc <lzsa_srcptr + 1
.offset_hi: sta <lzsa_offset + 1
}
.offset_hi: adc <lzsa_dstptr + 1 ; lzsa_winptr < lzsa_dstptr, so
sta <lzsa_winptr + 1 ; always leaves CS.
!if LZSA_SMALL_SIZE {
.lz_length: lda <lzsa_cmdbuf ; X=0 from previous loop.
and #$0F
adc #$03 ; Always CC from .cp_page loop.
adc #$03 - 1 ; CS from previous ADC.
cmp #$12 ; Extended length?
bcc .got_lz_len
bcc .inc_lz_len
jsr .get_length ; X=0, CS from CMP, returns CC.
jsr .get_length ; CS from CMP, X=0, returns CC.
.got_lz_len: inx ; Hi-byte of length+256.
ora #0 ; Check the lo-byte of length
beq .put_lz_len ; without effecting CC.
eor #$FF ; Negate the lo-byte of length
tay ; and check for zero.
iny
eor #$FF
.inc_lz_len: inx ; Increment # of pages to copy.
.get_lz_dst: adc <lzsa_dstptr + 0 ; Calc address of partial page.
sta <lzsa_dstptr + 0 ; Always CC from .cp_page loop.
bcs .get_lz_win
dec <lzsa_dstptr + 1
.put_lz_len: stx <lzsa_length
tax
.get_lz_win: clc ; Calc address of match.
adc <lzsa_offset + 0 ; N.B. Offset is negative!
sta <lzsa_winptr + 0
lda <lzsa_dstptr + 1
adc <lzsa_offset + 1
sta <lzsa_winptr + 1
.lz_byte: lda (lzsa_winptr),y
sta (lzsa_dstptr),y
iny
bne .lz_byte
.lz_page: lda (lzsa_winptr),y ; CC throughout the execution of
sta (lzsa_dstptr),y ; of this .lz_page loop.
inc <lzsa_winptr + 0
bne .skip3
inc <lzsa_winptr + 1
.skip3: inc <lzsa_dstptr + 0
bne .skip4
inc <lzsa_dstptr + 1
dex ; Any full pages left to copy?
bne .lz_more
.skip4: dex
bne .lz_page
dec <lzsa_length ; Any full pages left to copy?
bne .lz_page
jmp .cp_length ; Loop around to the beginning.
.lz_more: inc <lzsa_winptr + 1 ; Unlikely, so can be slow.
bne .lz_byte ; Always true!
} else {
.lz_length: lda <lzsa_cmdbuf ; X=0 from previous loop.
and #$0F
adc #$03 - 1 ; CS from previous ADC.
cmp #$12 ; Extended length?
bcc .got_lz_len
jsr .get_length ; CS from CMP, X=0, returns CC.
.got_lz_len: tay ; Check the lo-byte of length.
beq .lz_page
inx ; Increment # of pages to copy.
.get_lz_win: adc <lzsa_winptr + 0 ; Calc address of partial page.
sta <lzsa_winptr + 0 ; Always CC from previous CMP.
bcs .get_lz_dst
dec <lzsa_winptr + 1
.get_lz_dst: tya ; Calc address of partial page.
clc
adc <lzsa_dstptr + 0
sta <lzsa_dstptr + 0
bcs .get_lz_idx
dec <lzsa_dstptr + 1
.get_lz_idx: tya ; Negate the lo-byte of length.
eor #$FF
tay
iny
.lz_page: lda (lzsa_winptr),y
sta (lzsa_dstptr),y
iny
bne .lz_page
inc <lzsa_winptr + 1
inc <lzsa_dstptr + 1
dex ; Any full pages left to copy?
bne .lz_page
jmp .cp_length ; Loop around to the beginning.
}
@ -252,32 +252,30 @@ lzsa1_unpack: ldy #0 ; Initialize source index.
inc <lzsa_srcptr + 1
.skip_inc: bcc .got_length ; No overflow means done.
clc ; MUST return CC!
tax ; Overflow to 256 or 257?
beq .extra_word
cmp #$01 ; Overflow to 256 or 257?
bcc .extra_word
.extra_byte: jsr .get_byte ; So rare, this can be slow!
pha
.check_length: pla ; Length-lo.
bne .got_length ; Check for zero.
dex ; Do one less page loop if so.
.got_length: rts
.extra_byte: clc ; MUST return CC!
inx
bne .get_byte ; Always NZ from previous INX.
.extra_word: jsr .get_byte ; So rare, this can be slow!
pha
jsr .get_byte ; So rare, this can be slow!
tax
bne .check_length ; Length-hi == 0 at EOF.
.finished: pla ; Length-lo.
pla ; Decompression completed, pop
pla ; return address.
beq .finished ; Length-hi == 0 at EOF.
pla ; Length-lo.
rts
.get_byte: lda (lzsa_srcptr),y ; Subroutine version for when
inc <lzsa_srcptr + 0 ; inlining isn't advantageous.
beq .next_page
rts
.got_length: rts
.next_page: inc <lzsa_srcptr + 1 ; Inc & test for bank overflow.
rts
.finished: pla ; Length-lo.
pla ; Decompression completed, pop
pla ; return address.
rts

68
asm/6502/decompress_faster_v2.asm
View File

@ -7,7 +7,7 @@
;
; This code is written for the ACME assembler.
;
; The code is 241 bytes for the small version, and 256 bytes for the normal.
; The code is 240 bytes for the small version, and 255 bytes for the normal.
;
; Copyright John Brandwood 2021.
;
@ -66,6 +66,7 @@ LZSA_DST_HI = $FF
;
; Args: lzsa_srcptr = ptr to compessed data
; Args: lzsa_dstptr = ptr to output buffer
; Uses: lots!
;
DECOMPRESS_LZSA2_FAST:
@ -100,28 +101,34 @@ lzsa2_unpack: ldx #$00 ; Hi-byte of length or offset.
lsr
lsr
cmp #$03 ; Extended length?
bcc .cp_got_len
bcc .inc_cp_len
jsr .get_length ; X=0 for literals, returns CC.
stx .cp_npages + 1 ; Hi-byte of length.
inx
jsr .get_length ; X=1 for literals, returns CC.
.cp_got_len: tax ; Lo-byte of length.
ora #0 ; Check the lo-byte of length
beq .put_cp_len ; without effecting CC.
.cp_byte: lda (lzsa_srcptr),y ; CC throughout the execution of
.inc_cp_len: inx ; Increment # of pages to copy.
.put_cp_len: stx <lzsa_length
tax
.cp_page: lda (lzsa_srcptr),y ; CC throughout the execution of
sta (lzsa_dstptr),y ; of this .cp_page loop.
inc <lzsa_srcptr + 0
bne .cp_skip1
inc <lzsa_srcptr + 1
.cp_skip1: inc <lzsa_dstptr + 0
bne .cp_skip2
inc <lzsa_dstptr + 1
.cp_skip2: dex
bne .cp_byte
.cp_npages: lda #0 ; Any full pages left to copy?
beq .lz_offset
dec .cp_npages + 1 ; Unlikely, so can be slow.
bcc .cp_byte ; Always true!
.cp_skip2: dex
bne .cp_page
dec <lzsa_length ; Any full pages left to copy?
bne .cp_page
;
; Copy bytes from decompressed window.
@ -186,7 +193,7 @@ lzsa2_unpack: ldx #$00 ; Hi-byte of length or offset.
.set_offset: stx <lzsa_offset + 1 ; Save new offset.
sta <lzsa_offset + 0
.lz_length: ldx #1 ; Hi-byte of length+256.
.lz_length: ldx #$00 ; Hi-byte of length.
lda <lzsa_cmdbuf
and #$07
@ -195,48 +202,49 @@ lzsa2_unpack: ldx #$00 ; Hi-byte of length or offset.
cmp #$09 ; Extended length?
bcc .got_lz_len
jsr .get_length ; X=1 for match, returns CC.
inx ; Hi-byte of length+256.
jsr .get_length ; X=0 for match, returns CC.
.got_lz_len: eor #$FF ; Negate the lo-byte of length
tay ; and check for zero.
iny
beq .get_lz_win
eor #$FF
inx ; Increment # of pages to copy.
.get_lz_dst: adc <lzsa_dstptr + 0 ; Calc address of partial page.
sta <lzsa_dstptr + 0 ; Always CC from previous CMP.
bcs .get_lz_win
dec <lzsa_dstptr + 1
.get_lz_win: clc ; Calc address of match.
adc <lzsa_offset + 0 ; N.B. Offset is negative!
lda <lzsa_dstptr + 0 ; N.B. Offset is negative!
adc <lzsa_offset + 0
sta <lzsa_winptr + 0
lda <lzsa_dstptr + 1
adc <lzsa_offset + 1
sta <lzsa_winptr + 1
.lz_byte: lda (lzsa_winptr),y
.lz_page: lda (lzsa_winptr),y
sta (lzsa_dstptr),y
iny
bne .lz_byte
bne .lz_page
inc <lzsa_winptr + 1
inc <lzsa_dstptr + 1
dex ; Any full pages left to copy?
bne .lz_more
bne .lz_page
jmp .cp_length ; Loop around to the beginning.
.lz_more: inc <lzsa_winptr + 1 ; Unlikely, so can be slow.
bne .lz_byte ; Always true!
;
; Lookup tables to differentiate literal and match lengths.
;
.nibl_len_tbl: !byte 3 ; 0+3 (for literal).
!byte 9 ; 2+7 (for match).
.nibl_len_tbl: !byte 9 ; 2+7 (for match).
!byte 3 ; 0+3 (for literal).
.byte_len_tbl: !byte 18 - 1 ; 0+3+15 - CS (for literal).
!byte 24 - 1 ; 2+7+15 - CS (for match).
.byte_len_tbl: !byte 24 - 1 ; 2+7+15 - CS (for match).
!byte 18 - 1 ; 0+3+15 - CS (for literal).
;
; Get 16-bit length in X:A register pair, return with CC.
@ -255,15 +263,13 @@ lzsa2_unpack: ldx #$00 ; Hi-byte of length or offset.
bcc .got_length
beq .finished
.word_length: clc ; MUST return CC!
jsr .get_byte ; So rare, this can be slow!
.word_length: jsr .get_byte ; So rare, this can be slow!
pha
jsr .get_byte ; So rare, this can be slow!
tax
pla
bne .got_word ; Check for zero lo-byte.
dex ; Do one less page loop if so.
.got_word: rts
clc ; MUST return CC!
rts
.get_byte: lda (lzsa_srcptr),y ; Subroutine version for when
inc <lzsa_srcptr + 0 ; inlining isn't advantageous.