Added inflatemem from Piotr

git-svn-id: svn://svn.cc65.org/cc65/trunk@1117 b7a2c559-68d2-44c3-8de9-860c34a00d81

libsrc/zlib/inflatemem.s

@@ -0,0 +1,637 @@
+;
+; Piotr Fusik, 11.11.2001
+;
+; void* inflatemem (void* dest, void* src);
+;
+
+	.export		_inflatemem
+
+	.import		popax
+	.importzp	sreg, ptr1, ptr2, ptr3, ptr4, tmp1, tmp2, tmp3, tmp4
+
+; --------------------------------------------------------------------------
+;
+; Constants
+;
+
+; Maximum length of a Huffman code
+MAX_BITS      =	15
+; Index in bitsCount, bitsPointer_l and bitsPointer_h for literal tree
+LITERAL_TREE  =	0
+; Index in bitsCount, bitsPointer_l and bitsPointer_h for distance tree
+DISTANCE_TREE =	MAX_BITS
+; Size of each of bitsCount, bitsPointer_l and bitsPointer_h
+TREES_SIZE    =	2*MAX_BITS+1
+
+; --------------------------------------------------------------------------
+;
+; Page zero
+;
+
+; Pointer to compressed data
+inputPointer  =	ptr1	; 2 bytes
+; Pointer to uncompressed data
+outputPointer =	ptr2	; 2 bytes
+; Buffer for getBit
+getBitHold    =	tmp1	; 1 byte
+; Local variables. Variables from different routines use same memory.
+cnt           =	tmp2	; 1 byte
+tmp           =	sreg	; 1 byte
+ptr           =	sreg	; 2 bytes
+len           =	ptr3	; 2 bytes
+nl            =	tmp3	; 1 byte
+nd            =	tmp4	; 1 byte
+src           =	ptr4	; 2 bytes
+dest          =	ptr4	; 2 bytes
+
+; --------------------------------------------------------------------------
+;
+; Code
+;
+
+_inflatemem:
+
+; Get inputPointer and outputPointer from stack
+	jsr	popax
+	sta	inputPointer
+	stx	inputPointer+1
+	jsr	popax
+	sta	outputPointer
+	stx	outputPointer+1
+
+	ldy	#1
+	sty	getBitHold
+; Get a bit of EOF and two bits of block type
+inflatemem_1:
+	ldx	#3
+	lda	#0
+	jsr	getBits
+	lsr	a
+	tax
+; X contains block type, C contains EOF flag
+; Save EOF flag
+	php
+; Go to the routine decompressing this block
+	jsr	callExtr
+	plp
+	bcc	inflatemem_1
+	lda	outputPointer
+	ldx	outputPointer+1
+	rts
+
+; --------------------------------------------------------------------------
+; Go to the routine decompressing block type X
+
+callExtr:
+	lda	extr_h,x
+	pha
+	lda	extr_l,x
+	pha
+	rts
+
+; --------------------------------------------------------------------------
+; Decompress 'stored' data block
+
+inflateCopyBlock:
+; Ignore bits until byte boundary
+	ldy	#1
+	sty	getBitHold
+; Get 16-bit length
+	ldx	#inputPointer
+	lda	(0,x)
+	sta	len
+	lda	(inputPointer),y
+	sta	len+1
+; Skip length and one's compliment length
+	lda	#4
+	clc
+	adc	inputPointer
+	sta	inputPointer
+	bcc	moveBlock
+	inc	inputPointer+1
+; fall into moveBlock
+
+; --------------------------------------------------------------------------
+; Copy block of length len from (0,x) to output
+
+moveBlock:
+	ldy	len
+	beq	moveBlock_1
+	ldy	#0
+	inc	len+1
+moveBlock_1:
+	lda	(0,x)
+	sta	(outputPointer),y
+	inc	0,x
+	bne	moveBlock_2
+	inc	1,x
+moveBlock_2:
+	inc	outputPointer
+	bne	moveBlock_3
+	inc	outputPointer+1
+moveBlock_3:
+	dec	len
+	bne	moveBlock_1
+	dec	len+1
+	bne	moveBlock_1
+	rts
+
+; --------------------------------------------------------------------------
+; Decompress Huffman-coded data block with default Huffman trees:
+; literalCodeLength:  144 times 8, 112 times 9
+; endCodeLength:      24 times 7, 6 times 8
+; distanceCodeLength: 30 times 5, 2 times 8
+;                     (2 last codes from literal tree are not used)
+
+inflateFixedBlock:
+	ldx	#159
+	stx	distanceCodeLength+32
+	lda	#8
+inflateFixedBlock_1:
+	sta	literalCodeLength-1,x
+	sta	literalCodeLength+159-1,x
+	dex
+	bne	inflateFixedBlock_1
+	ldx	#112
+	lda	#9
+inflateFixedBlock_2:
+	sta	literalCodeLength+144-1,x
+	dex
+	bne	inflateFixedBlock_2
+	ldx	#24
+	lda	#7
+inflateFixedBlock_3:
+	sta	endCodeLength-1,x
+	dex
+	bne	inflateFixedBlock_3
+	ldx	#30
+	lda	#5+DISTANCE_TREE
+inflateFixedBlock_4:
+	sta	distanceCodeLength-1,x
+	dex
+	bne	inflateFixedBlock_4
+	jmp	inflateCodes
+
+; --------------------------------------------------------------------------
+; Decompress Huffman-coded data block, reading Huffman trees first
+
+inflateDynamicBlock:
+; numberOfLiteralCodes = getBits(5) + 257;
+	ldx	#5
+	lda	#<(lengthCodeLength-1)
+	jsr	getBits
+	sta	nl
+; numberOfDistanceCodes = getBits(5) + 1;
+	ldx	#5
+	lda	#1
+	jsr	getBits
+	sta	nd
+	clc
+	adc	nl
+	sta	nl
+; numberOfTemporaryCodes = getBits(4) + 4;
+	lda	#4
+	tax
+	jsr	getBits
+	sta	cnt
+; Clear lengths of temporary codes (there're 19 temp codes max),
+; clear literalCodeLength-1 (it may be used by temporary code 16)
+; and leave #0 in Y
+	ldy	#20
+	lda	#0
+inflateDynamicBlock_1:
+	sta	literalCodeLength-2,y
+	dey
+	bne	inflateDynamicBlock_1
+; Get lengths of temporary codes in order stored in bll
+inflateDynamicBlock_2:
+	ldx	#3
+	lda	#0
+	jsr	getBits	; does not change Y
+	ldx	bll,y
+	sta	literalCodeLength,x
+	iny
+	cpy	cnt
+	bcc	inflateDynamicBlock_2
+	ror	literalCodeLength+19	; C flag is set, so it will set b7
+; Build tree for temporary codes
+	jsr	buildHuffmanTree
+
+; Use temporary codes to get lengths for literal and distance codes
+; dest is target-1, so we can access last written byte by (dest,0)
+	lda	#<(literalCodeLength-1)
+	sta	dest
+	lda	#>(literalCodeLength-1)
+	sta	dest+1
+inflateDynamicBlock_3:
+	jsr	fetchLiteralCode
+; Temporary code 0..15: put this length
+	ldy	#1
+	cmp	#16
+	bcc	inflateDynamicBlock_6
+	bne	inflateDynamicBlock_4
+; Temporary code 16: repeat last length 3..6 times
+	ldx	#2
+	lda	#3
+	jsr	getBits
+	tay
+	lda	(dest,x)	; X == 0
+	bpl	inflateDynamicBlock_6	; branch always
+inflateDynamicBlock_4:
+	lsr	a
+; Temporary code 17: put zero length 3..10 times
+	lda	#3
+	tax
+	bcs	inflateDynamicBlock_5
+; Temporary code 18: put zero length 11..138 times
+	ldx	#7
+	lda	#11
+inflateDynamicBlock_5:
+	jsr	getBits
+	tay
+	lda	#0
+; Write A length Y times
+inflateDynamicBlock_6:
+	sty	cnt
+inflateDynamicBlock_7:
+	sta	(dest),y
+	dey
+	bne	inflateDynamicBlock_7
+	lda	cnt
+	clc
+	adc	dest
+	sta	dest
+	bcc	inflateDynamicBlock_8
+	inc	dest+1
+inflateDynamicBlock_8:
+	cmp	nl
+	bne	inflateDynamicBlock_3
+	ldy	dest+1
+	sbc	#<endCodeLength	; C flag is set
+	bcs	inflateDynamicBlock_11
+	dey
+inflateDynamicBlock_11:
+	cpy	#>endCodeLength
+	bcc	inflateDynamicBlock_3
+; Mark end of distance lengths
+	ldx	nd
+	tay
+	ror	distanceCodeLength,x	; C flag is set, so it will set b7
+; Move distance lengths to distanceCodeLength table
+inflateDynamicBlock_9:
+	dex
+	lda	endCodeLength,y
+; Mark existing codes (of non-zero length) as distance tree codes
+	beq	inflateDynamicBlock_10
+	pha
+	lda	#0
+	sta	endCodeLength,y
+	pla
+	clc
+	adc	#DISTANCE_TREE
+	sta	distanceCodeLength,x
+inflateDynamicBlock_10:
+	dey
+	txa
+	bne	inflateDynamicBlock_9
+; fall into inflateCodes
+
+; --------------------------------------------------------------------------
+; Decompress data block basing on given Huffman trees
+
+inflateCodes:
+	jsr	buildHuffmanTree
+inflateCodes_1:
+	jsr	fetchLiteralCode
+	bcc	inflateCodes_2
+; Literal code
+	ldy	#0
+	sta	(outputPointer),y
+	inc	outputPointer
+	bne	inflateCodes_1
+	inc	outputPointer+1
+	bcs	inflateCodes_1	; branch always
+; End of block
+inflateCodes_ret:
+	rts
+inflateCodes_2:
+	beq	inflateCodes_ret
+; Repeat block
+	jsr	getValue
+	sta	len
+	tya
+	jsr	getBits
+	sta	len+1
+	ldx	#DISTANCE_TREE
+	jsr	fetchCode
+	jsr	getValue
+	sta	src
+	tya
+	jsr	getBits
+	sta	src+1
+	lda	outputPointer
+	sec
+	sbc	src
+	sta	src
+	lda	outputPointer+1
+	sbc	src+1
+	sta	src+1
+	ldx	#src
+	jsr	moveBlock
+	beq	inflateCodes_1	; branch always
+
+; --------------------------------------------------------------------------
+; Build Huffman trees basing on code lengths.
+; Lengths (in bits) are stored in literalCodeLength.
+; A byte with highest bit set marks end of length table.
+
+buildHuffmanTree:
+	lda	#<literalCodeLength
+	sta	buildHuffmanTree_3+1
+	sta	buildHuffmanTree_9+1
+	lda	#>literalCodeLength
+	sta	buildHuffmanTree_3+2
+	sta	buildHuffmanTree_9+2
+; Clear counts
+	ldx	#TREES_SIZE-1
+	lda	#0
+buildHuffmanTree_1:
+	sta	bitsCount,x
+	dex
+	bpl	buildHuffmanTree_1
+	bmi	buildHuffmanTree_3	; branch always
+; Count number of codes of each length
+buildHuffmanTree_2:
+	inc	bitsCount,x
+	inc	buildHuffmanTree_3+1
+	bne	buildHuffmanTree_3
+	inc	buildHuffmanTree_3+2
+buildHuffmanTree_3:
+	ldx	$ffff	; patched at runtime
+	bpl	buildHuffmanTree_2
+; Calculate pointer for each length
+	tax		; ldx #0
+	stx	bitsCount
+	lda	#<sortedCodes
+	ldy	#>sortedCodes
+buildHuffmanTree_4:
+	sta	bitsPointer_l,x
+	tya
+	sta	bitsPointer_h,x
+	lda	bitsCount,x
+	asl	a
+	bcc	buildHuffmanTree_5
+	iny
+	clc
+buildHuffmanTree_5:
+	adc	bitsPointer_l,x
+	bcc	buildHuffmanTree_6
+	iny
+buildHuffmanTree_6:
+	inx
+	cpx	#TREES_SIZE
+	bcc	buildHuffmanTree_4
+	bcs	buildHuffmanTree_9	; branch always
+; Put codes into their place in sorted table
+buildHuffmanTree_7:
+	beq	buildHuffmanTree_8
+	lda	bitsPointer_l,x
+	sta	ptr
+	clc
+	adc	#2
+	sta	bitsPointer_l,x
+	lda	bitsPointer_h,x
+	sta	ptr+1
+	adc	#0
+	sta	bitsPointer_h,x
+	lda	buildHuffmanTree_9+1
+	sbc	#<(endCodeLength-1)	; C flag is zero
+	ldy	#1
+	sta	(ptr),y
+	lda	buildHuffmanTree_9+2
+	sbc	#>(endCodeLength-1)
+.ifpc02
+	sta	(ptr)
+.else
+	dey
+	sta	(ptr),y
+.endif
+buildHuffmanTree_8:
+	inc	buildHuffmanTree_9+1
+	bne	buildHuffmanTree_9
+	inc	buildHuffmanTree_9+2
+buildHuffmanTree_9:
+	ldx	$ffff	; patched at runtime
+	bpl	buildHuffmanTree_7
+	rts
+
+; --------------------------------------------------------------------------
+; Read code basing on literal tree
+
+fetchLiteralCode:
+	ldx	#LITERAL_TREE
+; fall into fetchCode
+
+; --------------------------------------------------------------------------
+; Read code from input stream basing on tree given in X.
+; Return code in A, C is set if non-literal code.
+
+fetchCode:
+	lda	#0
+fetchCode_1:
+	jsr	getBit
+	rol	a
+	cmp	bitsCount+1,x
+	bcc	fetchCode_2
+	sbc	bitsCount+1,x
+	inx
+	bcs	fetchCode_1	; branch always
+fetchCode_2:
+	ldy	bitsPointer_l,x
+	sty	ptr
+	ldy	bitsPointer_h,x
+	asl	a
+	bcc	fetchCode_3
+	iny
+fetchCode_3:
+	sty	ptr+1
+	tay
+	lda	(ptr),y
+	asl	a
+	iny
+	lda	(ptr),y
+	rts
+
+; --------------------------------------------------------------------------
+; Read low byte of value (length or distance), basing on code A
+
+getValue:
+	tay
+	ldx	lengthExtraBits-1,y
+	lda	lengthCode_l-1,y
+	pha
+	lda	lengthCode_h-1,y
+	tay
+	pla
+; fall into getBits
+
+; --------------------------------------------------------------------------
+; Read X-bit number from input stream and adds it to A.
+; In case of carry, Y is incremented.
+; If X > 8, only 8 bits are read.
+; On return X holds number of unread bits: X = (X > 8 ? X - 8 : 0);
+
+getBits:
+	cpx	#0
+	beq	getBits_ret
+	pha
+	lda	#1
+	sta	tmp
+	pla
+getBits_1:
+	jsr	getBit
+	bcc	getBits_2
+	clc
+	adc	tmp
+	bcc	getBits_2
+	iny
+getBits_2:
+	dex
+	beq	getBits_ret
+	asl	tmp
+	bcc	getBits_1
+getBits_ret:
+	rts
+
+; --------------------------------------------------------------------------
+; Read single bit from input stream, return it in C flag
+
+getBit:
+	lsr	getBitHold
+	bne	getBit_ret
+	pha
+.ifpc02
+	lda	(inputPointer)
+.else
+	tya
+	pha
+	ldy	#0
+	lda	(inputPointer),y
+.endif
+	inc	inputPointer
+	bne	getBit_1
+	inc	inputPointer+1
+getBit_1:
+	ror	a	; C flag set
+	sta	getBitHold
+.ifpc02
+.else
+	pla
+	tay
+.endif
+	pla
+getBit_ret:
+	rts
+
+; --------------------------------------------------------------------------
+; Addresses of functions extracting different blocks
+extr_l:
+	.byte	<(inflateCopyBlock-1)
+	.byte	<(inflateFixedBlock-1)
+	.byte	<(inflateDynamicBlock-1)
+extr_h:
+	.byte	>(inflateCopyBlock-1)
+	.byte	>(inflateFixedBlock-1)
+	.byte	>(inflateDynamicBlock-1)
+
+; --------------------------------------------------------------------------
+; Order, in which lengths of temporary codes are stored
+bll:
+	.byte	16,17,18,0,8,7,9,6,10,5,11,4,12,3,13,2,14,1,15
+
+; --------------------------------------------------------------------------
+; Tables for length and distance codes
+; Value is Code + getBits(ExtraBits)
+
+; Base values
+lengthCode_l:
+	.byte	<3,<4,<5,<6,<7,<8,<9,<10
+	.byte	<11,<13,<15,<17,<19,<23,<27,<31
+	.byte	<35,<43,<51,<59,<67,<83,<99,<115
+	.byte	<131,<163,<195,<227,<258
+distanceCode_l:
+	.byte	<1,<2,<3,<4,<5,<7,<9,<13
+	.byte	<17,<25,<33,<49,<65,<97,<129,<193
+	.byte	<257,<385,<513,<769,<1025,<1537,<2049,<3073
+	.byte	<4097,<6145,<8193,<12289,<16385,<24577
+lengthCode_h:
+	.byte	>3,>4,>5,>6,>7,>8,>9,>10
+	.byte	>11,>13,>15,>17,>19,>23,>27,>31
+	.byte	>35,>43,>51,>59,>67,>83,>99,>115
+	.byte	>131,>163,>195,>227,>258
+distanceCode_h:
+	.byte	>1,>2,>3,>4,>5,>7,>9,>13
+	.byte	>17,>25,>33,>49,>65,>97,>129,>193
+	.byte	>257,>385,>513,>769,>1025,>1537,>2049,>3073
+	.byte	>4097,>6145,>8193,>12289,>16385,>24577
+
+; Number of extra bits to read
+lengthExtraBits:
+	.byte	0,0,0,0,0,0,0,0
+	.byte	1,1,1,1,2,2,2,2
+	.byte	3,3,3,3,4,4,4,4
+	.byte	5,5,5,5,0
+distanceExtraBits:
+	.byte	0,0,0,0,1,1,2,2
+	.byte	3,3,4,4,5,5,6,6
+	.byte	7,7,8,8,9,9,10,10
+	.byte	11,11,12,12,13,13
+
+; --------------------------------------------------------------------------
+;
+; Uninitialised data
+;
+
+	.bss
+
+; --------------------------------------------------------------------------
+; Data for building literal tree
+
+	.res	1
+; Length of literal codes
+literalCodeLength:
+	.res	256
+; Length of 'end' code
+endCodeLength:
+	.res	1
+; Length of 'length' codes
+lengthCodeLength:
+	.res	29
+
+; --------------------------------------------------------------------------
+; Data for building distance tree
+
+distanceCodeLength:
+	.res	30
+; For two unused codes in fixed trees and an end flag
+	.res	3
+
+; --------------------------------------------------------------------------
+; Huffman tree structure
+
+; Number of codes of each length
+bitsCount:
+	.res	TREES_SIZE
+
+; Pointer to sorted codes of each length
+bitsPointer_l:
+	.res	TREES_SIZE
+bitsPointer_h:
+	.res	TREES_SIZE
+
+; Sorted codes
+sortedCodes:
+	.res	2*(256+1+29+30+2)
+
+
+