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cc65/libsrc/zlib/inflatemem.s

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;
; 2017-11-07, Piotr Fusik
;
; unsigned __fastcall__ inflatemem (char* dest, const char* source);
;
; NOTE: Be extremely careful with modifications, because this code is heavily
; optimized for size (for example assumes certain register and flag values
; when its internal routines return). Test with the gunzip65 sample.
;
.export _inflatemem
.import incsp2
.importzp sp, sreg, ptr1, ptr2, ptr3, ptr4
; --------------------------------------------------------------------------
;
; Constants
;
; Argument values for getBits.
GET_1_BIT = $81
GET_2_BITS = $82
GET_3_BITS = $84
GET_4_BITS = $88
GET_5_BITS = $90
GET_6_BITS = $a0
GET_7_BITS = $c0
; Huffman trees.
TREE_SIZE = 16
PRIMARY_TREE = 0
DISTANCE_TREE = TREE_SIZE
; Alphabet.
LENGTH_SYMBOLS = 1+29+2 ; EOF, 29 length symbols, two unused symbols
DISTANCE_SYMBOLS = 30
CONTROL_SYMBOLS = LENGTH_SYMBOLS+DISTANCE_SYMBOLS
; --------------------------------------------------------------------------
;
; Page zero
;
; Pointer to the compressed data.
inputPointer := ptr1 ; 2 bytes
; Pointer to the uncompressed data.
outputPointer := ptr2 ; 2 bytes
; Local variables.
; As far as there is no conflict, same memory locations are used
; for different variables.
inflateStored_pageCounter := ptr3 ; 1 byte
inflateDynamic_symbol := ptr3 ; 1 byte
inflateDynamic_lastLength := ptr3+1 ; 1 byte
.assert ptr4 = ptr3 + 2, error, "Need three bytes for inflateDynamic_tempCodes"
inflateDynamic_tempCodes := ptr3+1 ; 3 bytes
inflateDynamic_allCodes := inflateDynamic_tempCodes+1 ; 1 byte
inflateDynamic_primaryCodes := inflateDynamic_tempCodes+2 ; 1 byte
inflateCodes_sourcePointer := ptr3 ; 2 bytes
inflateCodes_lengthMinus2 := ptr4 ; 1 byte
getBits_base := sreg ; 1 byte
getBit_buffer := sreg+1 ; 1 byte
; --------------------------------------------------------------------------
;
; Code
;
_inflatemem:
; inputPointer = source
sta inputPointer
stx inputPointer+1
; outputPointer = dest
ldy #1
lda (sp),y
sta outputPointer+1
dey
lda (sp),y
sta outputPointer
; ldy #0
sty getBit_buffer
inflate_blockLoop:
; Get a bit of EOF and two bits of block type
; ldy #0
sty getBits_base
lda #GET_3_BITS
jsr getBits
lsr a
; A and Z contain block type, C contains EOF flag
; Save EOF flag
php
bne inflateCompressed
; Decompress a 'stored' data block.
; ldy #0
sty getBit_buffer ; ignore bits until byte boundary
jsr getWord ; skip the length we don't need
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jsr getWord ; get the one's complement length
sta inflateStored_pageCounter
bcs inflateStored_firstByte ; jmp
inflateStored_copyByte:
jsr getByte
; sec
inflateStoreByte:
jsr storeByte
bcc inflateCodes_loop
inflateStored_firstByte:
inx
bne inflateStored_copyByte
inc inflateStored_pageCounter
bne inflateStored_copyByte
; Block decompressed.
inflate_nextBlock:
plp
bcc inflate_blockLoop
; Decompression complete.
; return outputPointer - dest
lda outputPointer
; ldy #0
; sec
sbc (sp),y
iny
pha
lda outputPointer+1
sbc (sp),y
tax
pla
; pop dest
jmp incsp2
inflateCompressed:
; Decompress a Huffman-coded data block
; A=1: fixed block, initialize with fixed codes
; A=2: dynamic block, start by clearing all code lengths
; A=3: invalid compressed data, not handled in this routine
eor #2
; ldy #0
inflateCompressed_setCodeLengths:
tax
beq inflateCompressed_setLiteralCodeLength
; fixed Huffman literal codes:
; 144 8-bit codes
; 112 9-bit codes
lda #4
cpy #144
rol a
inflateCompressed_setLiteralCodeLength:
sta literalSymbolCodeLength,y
beq inflateCompressed_setControlCodeLength
; fixed Huffman control codes:
; 24 7-bit codes
; 6 8-bit codes
; 2 meaningless 8-bit codes
; 30 5-bit distance codes
lda #5+DISTANCE_TREE
cpy #LENGTH_SYMBOLS
bcs inflateCompressed_setControlCodeLength
cpy #24
adc #$100+2-DISTANCE_TREE
inflateCompressed_setControlCodeLength:
cpy #CONTROL_SYMBOLS
bcs inflateCompressed_noControlSymbol
sta controlSymbolCodeLength,y
inflateCompressed_noControlSymbol:
iny
bne inflateCompressed_setCodeLengths
tax
beq inflateDynamic
; Decompress a block
inflateCodes:
jsr buildHuffmanTree
inflateCodes_loop:
jsr fetchPrimaryCode
bcc inflateStoreByte
beq inflate_nextBlock
; Copy sequence from look-behind buffer
; ldy #0
sty getBits_base
cmp #9
bcc inflateCodes_setSequenceLength
tya
; lda #0
cpx #1+28
bcs inflateCodes_setSequenceLength
dex
txa
lsr a
ror getBits_base
inc getBits_base
lsr a
rol getBits_base
jsr getAMinus1BitsMax8
; sec
adc #0
inflateCodes_setSequenceLength:
sta inflateCodes_lengthMinus2
ldx #DISTANCE_TREE
jsr fetchCode
cmp #4
bcc inflateCodes_setOffsetLowByte
inc getBits_base
lsr a
jsr getAMinus1BitsMax8
inflateCodes_setOffsetLowByte:
eor #$ff
sta inflateCodes_sourcePointer
lda getBits_base
cpx #10
bcc inflateCodes_setOffsetHighByte
lda getNPlus1Bits_mask-10,x
jsr getBits
clc
inflateCodes_setOffsetHighByte:
eor #$ff
; clc
adc outputPointer+1
sta inflateCodes_sourcePointer+1
jsr copyByte
jsr copyByte
inflateCodes_copyByte:
jsr copyByte
dec inflateCodes_lengthMinus2
bne inflateCodes_copyByte
beq inflateCodes_loop ; jmp
inflateDynamic:
; Decompress a block reading Huffman trees first
; ldy #0
; numberOfPrimaryCodes = 257 + getBits(5)
; numberOfDistanceCodes = 1 + getBits(5)
; numberOfTemporaryCodes = 4 + getBits(4)
ldx #3
inflateDynamic_getHeader:
lda inflateDynamic_headerBits-1,x
jsr getBits
; sec
adc inflateDynamic_headerBase-1,x
sta inflateDynamic_tempCodes-1,x
dex
bne inflateDynamic_getHeader
; Get lengths of temporary codes in the order stored in inflateDynamic_tempSymbols
; ldx #0
inflateDynamic_getTempCodeLengths:
lda #GET_3_BITS
jsr getBits
ldy inflateDynamic_tempSymbols,x
sta literalSymbolCodeLength,y
ldy #0
inx
cpx inflateDynamic_tempCodes
bcc inflateDynamic_getTempCodeLengths
; Build the tree for temporary codes
jsr buildHuffmanTree
; Use temporary codes to get lengths of literal/length and distance codes
; ldx #0
; sec
inflateDynamic_decodeLength:
; C=1: literal codes
; C=0: control codes
stx inflateDynamic_symbol
php
; Fetch a temporary code
jsr fetchPrimaryCode
; Temporary code 0..15: put this length
bpl inflateDynamic_storeLengths
; Temporary code 16: repeat last length 3 + getBits(2) times
; Temporary code 17: put zero length 3 + getBits(3) times
; Temporary code 18: put zero length 11 + getBits(7) times
tax
jsr getBits
cpx #GET_3_BITS
bcc inflateDynamic_code16
beq inflateDynamic_code17
; sec
adc #7
inflateDynamic_code17:
; ldy #0
sty inflateDynamic_lastLength
inflateDynamic_code16:
tay
lda inflateDynamic_lastLength
iny
iny
inflateDynamic_storeLengths:
iny
plp
ldx inflateDynamic_symbol
inflateDynamic_storeLength:
bcc inflateDynamic_controlSymbolCodeLength
sta literalSymbolCodeLength,x
inx
cpx #1
inflateDynamic_storeNext:
dey
bne inflateDynamic_storeLength
sta inflateDynamic_lastLength
beq inflateDynamic_decodeLength ; jmp
inflateDynamic_controlSymbolCodeLength:
cpx inflateDynamic_primaryCodes
bcc inflateDynamic_storeControl
; the code lengths we skip here were zero-initialized
; in inflateCompressed_setControlCodeLength
bne inflateDynamic_noStartDistanceTree
ldx #LENGTH_SYMBOLS
inflateDynamic_noStartDistanceTree:
ora #DISTANCE_TREE
inflateDynamic_storeControl:
sta controlSymbolCodeLength,x
inx
cpx inflateDynamic_allCodes
bcc inflateDynamic_storeNext
dey
; ldy #0
jmp inflateCodes
; Build Huffman trees basing on code lengths (in bits)
; stored in the *SymbolCodeLength arrays
buildHuffmanTree:
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; Clear nBitCode_literalCount, nBitCode_controlCount
tya
; lda #0
buildHuffmanTree_clear:
sta nBitCode_clearFrom,y
iny
bne buildHuffmanTree_clear
; Count number of codes of each length
; ldy #0
buildHuffmanTree_countCodeLengths:
ldx literalSymbolCodeLength,y
inc nBitCode_literalCount,x
bne buildHuffmanTree_notAllLiterals
stx allLiteralsCodeLength
buildHuffmanTree_notAllLiterals:
cpy #CONTROL_SYMBOLS
bcs buildHuffmanTree_noControlSymbol
ldx controlSymbolCodeLength,y
inc nBitCode_controlCount,x
buildHuffmanTree_noControlSymbol:
iny
bne buildHuffmanTree_countCodeLengths
; Calculate offsets of symbols sorted by code length
; lda #0
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ldx #$100-4*TREE_SIZE
buildHuffmanTree_calculateOffsets:
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sta nBitCode_literalOffset+4*TREE_SIZE-$100,x
clc
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adc nBitCode_literalCount+4*TREE_SIZE-$100,x
inx
bne buildHuffmanTree_calculateOffsets
; Put symbols in their place in the sorted array
; ldy #0
buildHuffmanTree_assignCode:
tya
ldx literalSymbolCodeLength,y
ldy nBitCode_literalOffset,x
inc nBitCode_literalOffset,x
sta codeToLiteralSymbol,y
tay
cpy #CONTROL_SYMBOLS
bcs buildHuffmanTree_noControlSymbol2
ldx controlSymbolCodeLength,y
ldy nBitCode_controlOffset,x
inc nBitCode_controlOffset,x
sta codeToControlSymbol,y
tay
buildHuffmanTree_noControlSymbol2:
iny
bne buildHuffmanTree_assignCode
rts
; Read Huffman code using the primary tree
fetchPrimaryCode:
ldx #PRIMARY_TREE
; Read a code from input using the tree specified in X.
; Return low byte of this code in A.
; Return C flag reset for literal code, set for length code.
fetchCode:
; ldy #0
tya
fetchCode_nextBit:
jsr getBit
rol a
inx
bcs fetchCode_ge256
; are all 256 literal codes of this length?
cpx allLiteralsCodeLength
beq fetchCode_allLiterals
; is it literal code of length X?
sec
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sbc nBitCode_literalCount,x
bcs fetchCode_notLiteral
; literal code
; clc
adc nBitCode_literalOffset,x
tax
lda codeToLiteralSymbol,x
fetchCode_allLiterals:
clc
rts
; code >= 256, must be control
fetchCode_ge256:
; sec
sbc nBitCode_literalCount,x
sec
; is it control code of length X?
fetchCode_notLiteral:
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; sec
sbc nBitCode_controlCount,x
bcs fetchCode_nextBit
; control code
; clc
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adc nBitCode_controlOffset,x
tax
lda codeToControlSymbol,x
and #$1f ; make distance symbols zero-based
tax
; sec
rts
; Read A minus 1 bits, but no more than 8
getAMinus1BitsMax8:
rol getBits_base
tax
cmp #9
bcs getByte
lda getNPlus1Bits_mask-2,x
getBits:
jsr getBits_loop
getBits_normalizeLoop:
lsr getBits_base
ror a
bcc getBits_normalizeLoop
rts
; Read 16 bits
getWord:
jsr getByte
tax
; Read 8 bits
getByte:
lda #$80
getBits_loop:
jsr getBit
ror a
bcc getBits_loop
rts
; Read one bit, return in the C flag
getBit:
lsr getBit_buffer
bne getBit_return
pha
; ldy #0
lda (inputPointer),y
inc inputPointer
bne getBit_samePage
inc inputPointer+1
getBit_samePage:
sec
ror a
sta getBit_buffer
pla
getBit_return:
rts
; Copy a previously written byte
copyByte:
ldy outputPointer
lda (inflateCodes_sourcePointer),y
ldy #0
; Write a byte
storeByte:
; ldy #0
sta (outputPointer),y
inc outputPointer
bne storeByte_return
inc outputPointer+1
inc inflateCodes_sourcePointer+1
storeByte_return:
rts
; --------------------------------------------------------------------------
;
; Constant data
;
.rodata
getNPlus1Bits_mask:
.byte GET_1_BIT,GET_2_BITS,GET_3_BITS,GET_4_BITS,GET_5_BITS,GET_6_BITS,GET_7_BITS
inflateDynamic_tempSymbols:
.byte GET_2_BITS,GET_3_BITS,GET_7_BITS,0,8,7,9,6,10,5,11,4,12,3,13,2,14,1,15
inflateDynamic_headerBits:
.byte GET_4_BITS,GET_5_BITS,GET_5_BITS
inflateDynamic_headerBase:
.byte 3,LENGTH_SYMBOLS,0
; --------------------------------------------------------------------------
;
; Uninitialised data
;
.bss
; Data for building trees.
literalSymbolCodeLength:
.res 256
controlSymbolCodeLength:
.res CONTROL_SYMBOLS
; Huffman trees.
nBitCode_clearFrom:
nBitCode_literalCount:
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.res 2*TREE_SIZE
nBitCode_controlCount:
.res 2*TREE_SIZE
nBitCode_literalOffset:
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.res 2*TREE_SIZE
nBitCode_controlOffset:
.res 2*TREE_SIZE
allLiteralsCodeLength:
.res 1
codeToLiteralSymbol:
.res 256
codeToControlSymbol:
.res CONTROL_SYMBOLS