Temporarily revert "Move pg_lzcompress.c to src/common."

This reverts commit 60838df922345b26a616e49ac9fab808a35d1f85.
That change needs a bit more thought to be workable.  In view of
the potentially machine-dependent stuff that went in today,
we need all of the buildfarm to be testing those other changes.

2 files changed, 1 insertions, 788 deletions

diff --git a/src/common/Makefile b/src/common/Makefile
index bd77c1da8c..7edbaaa2c1 100644
--- a/src/common/Makefile
+++ b/src/common/Makefile
@@ -23,8 +23,7 @@ include $(top_builddir)/src/Makefile.global
 override CPPFLAGS := -DFRONTEND $(CPPFLAGS)
 LIBS += $(PTHREAD_LIBS)
 
-OBJS_COMMON = exec.o pg_lzcompress.o pgfnames.o psprintf.o relpath.o \
-	rmtree.o username.o wait_error.o
+OBJS_COMMON = exec.o pgfnames.o psprintf.o relpath.o rmtree.o username.o wait_error.o
 
 OBJS_FRONTEND = $(OBJS_COMMON) fe_memutils.o
 
diff --git a/src/common/pg_lzcompress.c b/src/common/pg_lzcompress.c
deleted file mode 100644
index 9f97c362d1..0000000000
--- a/src/common/pg_lzcompress.c
+++ /dev/null
@@ -1,786 +0,0 @@
-/* ----------
- * pg_lzcompress.c -
- *
- *		This is an implementation of LZ compression for PostgreSQL.
- *		It uses a simple history table and generates 2-3 byte tags
- *		capable of backward copy information for 3-273 bytes with
- *		a max offset of 4095.
- *
- *		Entry routines:
- *
- *			bool
- *			pglz_compress(const char *source, int32 slen, PGLZ_Header *dest,
- *						  const PGLZ_Strategy *strategy);
- *
- *				source is the input data to be compressed.
- *
- *				slen is the length of the input data.
- *
- *				dest is the output area for the compressed result.
- *					It must be at least as big as PGLZ_MAX_OUTPUT(slen).
- *
- *				strategy is a pointer to some information controlling
- *					the compression algorithm. If NULL, the compiled
- *					in default strategy is used.
- *
- *				The return value is TRUE if compression succeeded,
- *				FALSE if not; in the latter case the contents of dest
- *				are undefined.
- *
- *			bool
- *			pglz_decompress(const PGLZ_Header *source, char *dest)
- *
- *				source is the compressed input.
- *
- *				dest is the area where the uncompressed data will be
- *					written to. It is the callers responsibility to
- *					provide enough space. The required amount can be
- *					obtained with the macro PGLZ_RAW_SIZE(source).
- *
- *					The data is written to buff exactly as it was handed
- *					to pglz_compress(). No terminating zero byte is added.
- *
- *				The return value is TRUE if decompression succeeded,
- *				FALSE if not; in the latter case the contents of dest
- *				are undefined.
- *
- *		The decompression algorithm and internal data format:
- *
- *			PGLZ_Header is defined as
- *
- *				typedef struct PGLZ_Header {
- *					int32		vl_len_;
- *					int32		rawsize;
- *				}
- *
- *			The header is followed by the compressed data itself.
- *
- *			The data representation is easiest explained by describing
- *			the process of decompression.
- *
- *			If VARSIZE(x) == rawsize + sizeof(PGLZ_Header), then the data
- *			is stored uncompressed as plain bytes. Thus, the decompressor
- *			simply copies rawsize bytes from the location after the
- *			header to the destination.
- *
- *			Otherwise the first byte after the header tells what to do
- *			the next 8 times. We call this the control byte.
- *
- *			An unset bit in the control byte means, that one uncompressed
- *			byte follows, which is copied from input to output.
- *
- *			A set bit in the control byte means, that a tag of 2-3 bytes
- *			follows. A tag contains information to copy some bytes, that
- *			are already in the output buffer, to the current location in
- *			the output. Let's call the three tag bytes T1, T2 and T3. The
- *			position of the data to copy is coded as an offset from the
- *			actual output position.
- *
- *			The offset is in the upper nibble of T1 and in T2.
- *			The length is in the lower nibble of T1.
- *
- *			So the 16 bits of a 2 byte tag are coded as
- *
- *				7---T1--0  7---T2--0
- *				OOOO LLLL  OOOO OOOO
- *
- *			This limits the offset to 1-4095 (12 bits) and the length
- *			to 3-18 (4 bits) because 3 is always added to it. To emit
- *			a tag of 2 bytes with a length of 2 only saves one control
- *			bit. But we lose one byte in the possible length of a tag.
- *
- *			In the actual implementation, the 2 byte tag's length is
- *			limited to 3-17, because the value 0xF in the length nibble
- *			has special meaning. It means, that the next following
- *			byte (T3) has to be added to the length value of 18. That
- *			makes total limits of 1-4095 for offset and 3-273 for length.
- *
- *			Now that we have successfully decoded a tag. We simply copy
- *			the output that occurred <offset> bytes back to the current
- *			output location in the specified <length>. Thus, a
- *			sequence of 200 spaces (think about bpchar fields) could be
- *			coded in 4 bytes. One literal space and a three byte tag to
- *			copy 199 bytes with a -1 offset. Whow - that's a compression
- *			rate of 98%! Well, the implementation needs to save the
- *			original data size too, so we need another 4 bytes for it
- *			and end up with a total compression rate of 96%, what's still
- *			worth a Whow.
- *
- *		The compression algorithm
- *
- *			The following uses numbers used in the default strategy.
- *
- *			The compressor works best for attributes of a size between
- *			1K and 1M. For smaller items there's not that much chance of
- *			redundancy in the character sequence (except for large areas
- *			of identical bytes like trailing spaces) and for bigger ones
- *			our 4K maximum look-back distance is too small.
- *
- *			The compressor creates a table for lists of positions.
- *			For each input position (except the last 3), a hash key is
- *			built from the 4 next input bytes and the position remembered
- *			in the appropriate list. Thus, the table points to linked
- *			lists of likely to be at least in the first 4 characters
- *			matching strings. This is done on the fly while the input
- *			is compressed into the output area.  Table entries are only
- *			kept for the last 4096 input positions, since we cannot use
- *			back-pointers larger than that anyway.  The size of the hash
- *			table is chosen based on the size of the input - a larger table
- *			has a larger startup cost, as it needs to be initialized to
- *			zero, but reduces the number of hash collisions on long inputs.
- *
- *			For each byte in the input, its hash key (built from this
- *			byte and the next 3) is used to find the appropriate list
- *			in the table. The lists remember the positions of all bytes
- *			that had the same hash key in the past in increasing backward
- *			offset order. Now for all entries in the used lists, the
- *			match length is computed by comparing the characters from the
- *			entries position with the characters from the actual input
- *			position.
- *
- *			The compressor starts with a so called "good_match" of 128.
- *			It is a "prefer speed against compression ratio" optimizer.
- *			So if the first entry looked at already has 128 or more
- *			matching characters, the lookup stops and that position is
- *			used for the next tag in the output.
- *
- *			For each subsequent entry in the history list, the "good_match"
- *			is lowered by 10%. So the compressor will be more happy with
- *			short matches the farer it has to go back in the history.
- *			Another "speed against ratio" preference characteristic of
- *			the algorithm.
- *
- *			Thus there are 3 stop conditions for the lookup of matches:
- *
- *				- a match >= good_match is found
- *				- there are no more history entries to look at
- *				- the next history entry is already too far back
- *				  to be coded into a tag.
- *
- *			Finally the match algorithm checks that at least a match
- *			of 3 or more bytes has been found, because thats the smallest
- *			amount of copy information to code into a tag. If so, a tag
- *			is omitted and all the input bytes covered by that are just
- *			scanned for the history add's, otherwise a literal character
- *			is omitted and only his history entry added.
- *
- *		Acknowledgements:
- *
- *			Many thanks to Adisak Pochanayon, who's article about SLZ
- *			inspired me to write the PostgreSQL compression this way.
- *
- *			Jan Wieck
- *
- * Copyright (c) 1999-2014, PostgreSQL Global Development Group
- *
- * src/common/pg_lzcompress.c
- * ----------
- */
-#include "postgres.h"
-
-#include <limits.h>
-
-#include "common/pg_lzcompress.h"
-
-
-/* ----------
- * Local definitions
- * ----------
- */
-#define PGLZ_MAX_HISTORY_LISTS	8192	/* must be power of 2 */
-#define PGLZ_HISTORY_SIZE		4096
-#define PGLZ_MAX_MATCH			273
-
-
-/* ----------
- * PGLZ_HistEntry -
- *
- *		Linked list for the backward history lookup
- *
- * All the entries sharing a hash key are linked in a doubly linked list.
- * This makes it easy to remove an entry when it's time to recycle it
- * (because it's more than 4K positions old).
- * ----------
- */
-typedef struct PGLZ_HistEntry
-{
-	struct PGLZ_HistEntry *next;	/* links for my hash key's list */
-	struct PGLZ_HistEntry *prev;
-	int			hindex;			/* my current hash key */
-	const char *pos;			/* my input position */
-} PGLZ_HistEntry;
-
-
-/* ----------
- * The provided standard strategies
- * ----------
- */
-static const PGLZ_Strategy strategy_default_data = {
-	32,							/* Data chunks less than 32 bytes are not
-								 * compressed */
-	INT_MAX,					/* No upper limit on what we'll try to
-								 * compress */
-	25,							/* Require 25% compression rate, or not worth
-								 * it */
-	1024,						/* Give up if no compression in the first 1KB */
-	128,						/* Stop history lookup if a match of 128 bytes
-								 * is found */
-	10							/* Lower good match size by 10% at every loop
-								 * iteration */
-};
-const PGLZ_Strategy *const PGLZ_strategy_default = &strategy_default_data;
-
-
-static const PGLZ_Strategy strategy_always_data = {
-	0,							/* Chunks of any size are compressed */
-	INT_MAX,
-	0,							/* It's enough to save one single byte */
-	INT_MAX,					/* Never give up early */
-	128,						/* Stop history lookup if a match of 128 bytes
-								 * is found */
-	6							/* Look harder for a good match */
-};
-const PGLZ_Strategy *const PGLZ_strategy_always = &strategy_always_data;
-
-
-/* ----------
- * Statically allocated work arrays for history
- * ----------
- */
-static int16 hist_start[PGLZ_MAX_HISTORY_LISTS];
-static PGLZ_HistEntry hist_entries[PGLZ_HISTORY_SIZE + 1];
-
-/*
- * Element 0 in hist_entries is unused, and means 'invalid'. Likewise,
- * INVALID_ENTRY_PTR in next/prev pointers mean 'invalid'.
- */
-#define INVALID_ENTRY			0
-#define INVALID_ENTRY_PTR		(&hist_entries[INVALID_ENTRY])
-
-/* ----------
- * pglz_hist_idx -
- *
- *		Computes the history table slot for the lookup by the next 4
- *		characters in the input.
- *
- * NB: because we use the next 4 characters, we are not guaranteed to
- * find 3-character matches; they very possibly will be in the wrong
- * hash list.  This seems an acceptable tradeoff for spreading out the
- * hash keys more.
- * ----------
- */
-#define pglz_hist_idx(_s,_e, _mask) (										\
-			((((_e) - (_s)) < 4) ? (int) (_s)[0] :							\
-			 (((_s)[0] << 6) ^ ((_s)[1] << 4) ^								\
-			  ((_s)[2] << 2) ^ (_s)[3])) & (_mask)				\
-		)
-
-
-/* ----------
- * pglz_hist_add -
- *
- *		Adds a new entry to the history table.
- *
- * If _recycle is true, then we are recycling a previously used entry,
- * and must first delink it from its old hashcode's linked list.
- *
- * NOTE: beware of multiple evaluations of macro's arguments, and note that
- * _hn and _recycle are modified in the macro.
- * ----------
- */
-#define pglz_hist_add(_hs,_he,_hn,_recycle,_s,_e, _mask)	\
-do {									\
-			int __hindex = pglz_hist_idx((_s),(_e), (_mask));				\
-			int16 *__myhsp = &(_hs)[__hindex];								\
-			PGLZ_HistEntry *__myhe = &(_he)[_hn];							\
-			if (_recycle) {													\
-				if (__myhe->prev == NULL)									\
-					(_hs)[__myhe->hindex] = __myhe->next - (_he);			\
-				else														\
-					__myhe->prev->next = __myhe->next;						\
-				if (__myhe->next != NULL)									\
-					__myhe->next->prev = __myhe->prev;						\
-			}																\
-			__myhe->next = &(_he)[*__myhsp];								\
-			__myhe->prev = NULL;											\
-			__myhe->hindex = __hindex;										\
-			__myhe->pos  = (_s);											\
-			/* If there was an existing entry in this hash slot, link */	\
-			/* this new entry to it. However, the 0th entry in the */		\
-			/* entries table is unused, so we can freely scribble on it. */ \
-			/* So don't bother checking if the slot was used - we'll */		\
-			/* scribble on the unused entry if it was not, but that's */	\
-			/* harmless. Avoiding the branch in this critical path */		\
-			/* speeds this up a little bit. */								\
-			/* if (*__myhsp != INVALID_ENTRY) */							\
-				(_he)[(*__myhsp)].prev = __myhe;							\
-			*__myhsp = _hn;													\
-			if (++(_hn) >= PGLZ_HISTORY_SIZE + 1) {							\
-				(_hn) = 1;													\
-				(_recycle) = true;											\
-			}																\
-} while (0)
-
-
-/* ----------
- * pglz_out_ctrl -
- *
- *		Outputs the last and allocates a new control byte if needed.
- * ----------
- */
-#define pglz_out_ctrl(__ctrlp,__ctrlb,__ctrl,__buf) \
-do { \
-	if ((__ctrl & 0xff) == 0)												\
-	{																		\
-		*(__ctrlp) = __ctrlb;												\
-		__ctrlp = (__buf)++;												\
-		__ctrlb = 0;														\
-		__ctrl = 1;															\
-	}																		\
-} while (0)
-
-
-/* ----------
- * pglz_out_literal -
- *
- *		Outputs a literal byte to the destination buffer including the
- *		appropriate control bit.
- * ----------
- */
-#define pglz_out_literal(_ctrlp,_ctrlb,_ctrl,_buf,_byte) \
-do { \
-	pglz_out_ctrl(_ctrlp,_ctrlb,_ctrl,_buf);								\
-	*(_buf)++ = (unsigned char)(_byte);										\
-	_ctrl <<= 1;															\
-} while (0)
-
-
-/* ----------
- * pglz_out_tag -
- *
- *		Outputs a backward reference tag of 2-4 bytes (depending on
- *		offset and length) to the destination buffer including the
- *		appropriate control bit.
- * ----------
- */
-#define pglz_out_tag(_ctrlp,_ctrlb,_ctrl,_buf,_len,_off) \
-do { \
-	pglz_out_ctrl(_ctrlp,_ctrlb,_ctrl,_buf);								\
-	_ctrlb |= _ctrl;														\
-	_ctrl <<= 1;															\
-	if (_len > 17)															\
-	{																		\
-		(_buf)[0] = (unsigned char)((((_off) & 0xf00) >> 4) | 0x0f);		\
-		(_buf)[1] = (unsigned char)(((_off) & 0xff));						\
-		(_buf)[2] = (unsigned char)((_len) - 18);							\
-		(_buf) += 3;														\
-	} else {																\
-		(_buf)[0] = (unsigned char)((((_off) & 0xf00) >> 4) | ((_len) - 3)); \
-		(_buf)[1] = (unsigned char)((_off) & 0xff);							\
-		(_buf) += 2;														\
-	}																		\
-} while (0)
-
-
-/* ----------
- * pglz_find_match -
- *
- *		Lookup the history table if the actual input stream matches
- *		another sequence of characters, starting somewhere earlier
- *		in the input buffer.
- * ----------
- */
-static inline int
-pglz_find_match(int16 *hstart, const char *input, const char *end,
-				int *lenp, int *offp, int good_match, int good_drop, int mask)
-{
-	PGLZ_HistEntry *hent;
-	int16		hentno;
-	int32		len = 0;
-	int32		off = 0;
-
-	/*
-	 * Traverse the linked history list until a good enough match is found.
-	 */
-	hentno = hstart[pglz_hist_idx(input, end, mask)];
-	hent = &hist_entries[hentno];
-	while (hent != INVALID_ENTRY_PTR)
-	{
-		const char *ip = input;
-		const char *hp = hent->pos;
-		int32		thisoff;
-		int32		thislen;
-
-		/*
-		 * Stop if the offset does not fit into our tag anymore.
-		 */
-		thisoff = ip - hp;
-		if (thisoff >= 0x0fff)
-			break;
-
-		/*
-		 * Determine length of match. A better match must be larger than the
-		 * best so far. And if we already have a match of 16 or more bytes,
-		 * it's worth the call overhead to use memcmp() to check if this match
-		 * is equal for the same size. After that we must fallback to
-		 * character by character comparison to know the exact position where
-		 * the diff occurred.
-		 */
-		thislen = 0;
-		if (len >= 16)
-		{
-			if (memcmp(ip, hp, len) == 0)
-			{
-				thislen = len;
-				ip += len;
-				hp += len;
-				while (ip < end && *ip == *hp && thislen < PGLZ_MAX_MATCH)
-				{
-					thislen++;
-					ip++;
-					hp++;
-				}
-			}
-		}
-		else
-		{
-			while (ip < end && *ip == *hp && thislen < PGLZ_MAX_MATCH)
-			{
-				thislen++;
-				ip++;
-				hp++;
-			}
-		}
-
-		/*
-		 * Remember this match as the best (if it is)
-		 */
-		if (thislen > len)
-		{
-			len = thislen;
-			off = thisoff;
-		}
-
-		/*
-		 * Advance to the next history entry
-		 */
-		hent = hent->next;
-
-		/*
-		 * Be happy with lesser good matches the more entries we visited. But
-		 * no point in doing calculation if we're at end of list.
-		 */
-		if (hent != INVALID_ENTRY_PTR)
-		{
-			if (len >= good_match)
-				break;
-			good_match -= (good_match * good_drop) / 100;
-		}
-	}
-
-	/*
-	 * Return match information only if it results at least in one byte
-	 * reduction.
-	 */
-	if (len > 2)
-	{
-		*lenp = len;
-		*offp = off;
-		return 1;
-	}
-
-	return 0;
-}
-
-
-/* ----------
- * pglz_compress -
- *
- *		Compresses source into dest using strategy. Returns false if a failure
- *		occurred, true in case of success.
- * ----------
- */
-bool
-pglz_compress(const char *source, int32 slen, PGLZ_Header *dest,
-			  const PGLZ_Strategy *strategy)
-{
-	unsigned char *bp = ((unsigned char *) dest) + sizeof(PGLZ_Header);
-	unsigned char *bstart = bp;
-	int			hist_next = 1;
-	bool		hist_recycle = false;
-	const char *dp = source;
-	const char *dend = source + slen;
-	unsigned char ctrl_dummy = 0;
-	unsigned char *ctrlp = &ctrl_dummy;
-	unsigned char ctrlb = 0;
-	unsigned char ctrl = 0;
-	bool		found_match = false;
-	int32		match_len;
-	int32		match_off;
-	int32		good_match;
-	int32		good_drop;
-	int32		result_size;
-	int32		result_max;
-	int32		need_rate;
-	int			hashsz;
-	int			mask;
-
-	/*
-	 * Our fallback strategy is the default.
-	 */
-	if (strategy == NULL)
-		strategy = PGLZ_strategy_default;
-
-	/*
-	 * If the strategy forbids compression (at all or if source chunk size out
-	 * of range), fail.
-	 */
-	if (strategy->match_size_good <= 0 ||
-		slen < strategy->min_input_size ||
-		slen > strategy->max_input_size)
-		return false;
-
-	/*
-	 * Save the original source size in the header.
-	 */
-	dest->rawsize = slen;
-
-	/*
-	 * Limit the match parameters to the supported range.
-	 */
-	good_match = strategy->match_size_good;
-	if (good_match > PGLZ_MAX_MATCH)
-		good_match = PGLZ_MAX_MATCH;
-	else if (good_match < 17)
-		good_match = 17;
-
-	good_drop = strategy->match_size_drop;
-	if (good_drop < 0)
-		good_drop = 0;
-	else if (good_drop > 100)
-		good_drop = 100;
-
-	need_rate = strategy->min_comp_rate;
-	if (need_rate < 0)
-		need_rate = 0;
-	else if (need_rate > 99)
-		need_rate = 99;
-
-	/*
-	 * Compute the maximum result size allowed by the strategy, namely the
-	 * input size minus the minimum wanted compression rate.  This had better
-	 * be <= slen, else we might overrun the provided output buffer.
-	 */
-	if (slen > (INT_MAX / 100))
-	{
-		/* Approximate to avoid overflow */
-		result_max = (slen / 100) * (100 - need_rate);
-	}
-	else
-		result_max = (slen * (100 - need_rate)) / 100;
-
-	/*
-	 * Experiments suggest that these hash sizes work pretty well. A large
-	 * hash table minimizes collision, but has a higher startup cost. For a
-	 * small input, the startup cost dominates. The table size must be a power
-	 * of two.
-	 */
-	if (slen < 128)
-		hashsz = 512;
-	else if (slen < 256)
-		hashsz = 1024;
-	else if (slen < 512)
-		hashsz = 2048;
-	else if (slen < 1024)
-		hashsz = 4096;
-	else
-		hashsz = 8192;
-	mask = hashsz - 1;
-
-	/*
-	 * Initialize the history lists to empty.  We do not need to zero the
-	 * hist_entries[] array; its entries are initialized as they are used.
-	 */
-	memset(hist_start, 0, hashsz * sizeof(int16));
-
-	/*
-	 * Compress the source directly into the output buffer.
-	 */
-	while (dp < dend)
-	{
-		/*
-		 * If we already exceeded the maximum result size, fail.
-		 *
-		 * We check once per loop; since the loop body could emit as many as 4
-		 * bytes (a control byte and 3-byte tag), PGLZ_MAX_OUTPUT() had better
-		 * allow 4 slop bytes.
-		 */
-		if (bp - bstart >= result_max)
-			return false;
-
-		/*
-		 * If we've emitted more than first_success_by bytes without finding
-		 * anything compressible at all, fail.  This lets us fall out
-		 * reasonably quickly when looking at incompressible input (such as
-		 * pre-compressed data).
-		 */
-		if (!found_match && bp - bstart >= strategy->first_success_by)
-			return false;
-
-		/*
-		 * Try to find a match in the history
-		 */
-		if (pglz_find_match(hist_start, dp, dend, &match_len,
-							&match_off, good_match, good_drop, mask))
-		{
-			/*
-			 * Create the tag and add history entries for all matched
-			 * characters.
-			 */
-			pglz_out_tag(ctrlp, ctrlb, ctrl, bp, match_len, match_off);
-			while (match_len--)
-			{
-				pglz_hist_add(hist_start, hist_entries,
-							  hist_next, hist_recycle,
-							  dp, dend, mask);
-				dp++;			/* Do not do this ++ in the line above! */
-				/* The macro would do it four times - Jan.  */
-			}
-			found_match = true;
-		}
-		else
-		{
-			/*
-			 * No match found. Copy one literal byte.
-			 */
-			pglz_out_literal(ctrlp, ctrlb, ctrl, bp, *dp);
-			pglz_hist_add(hist_start, hist_entries,
-						  hist_next, hist_recycle,
-						  dp, dend, mask);
-			dp++;				/* Do not do this ++ in the line above! */
-			/* The macro would do it four times - Jan.  */
-		}
-	}
-
-	/*
-	 * Write out the last control byte and check that we haven't overrun the
-	 * output size allowed by the strategy.
-	 */
-	*ctrlp = ctrlb;
-	result_size = bp - bstart;
-	if (result_size >= result_max)
-		return false;
-
-	/*
-	 * Success - need only fill in the actual length of the compressed datum.
-	 */
-	SET_VARSIZE_COMPRESSED(dest, result_size + sizeof(PGLZ_Header));
-
-	return true;
-}
-
-
-/* ----------
- * pglz_decompress -
- *
- *		Decompresses source into dest. Returns false if a failure
- *		occurred, true in case of success.
- * ----------
- */
-bool
-pglz_decompress(const PGLZ_Header *source, char *dest)
-{
-	const unsigned char *sp;
-	const unsigned char *srcend;
-	unsigned char *dp;
-	unsigned char *destend;
-
-	sp = ((const unsigned char *) source) + sizeof(PGLZ_Header);
-	srcend = ((const unsigned char *) source) + VARSIZE(source);
-	dp = (unsigned char *) dest;
-	destend = dp + source->rawsize;
-
-	while (sp < srcend && dp < destend)
-	{
-		/*
-		 * Read one control byte and process the next 8 items (or as many as
-		 * remain in the compressed input).
-		 */
-		unsigned char ctrl = *sp++;
-		int			ctrlc;
-
-		for (ctrlc = 0; ctrlc < 8 && sp < srcend; ctrlc++)
-		{
-			if (ctrl & 1)
-			{
-				/*
-				 * Otherwise it contains the match length minus 3 and the
-				 * upper 4 bits of the offset. The next following byte
-				 * contains the lower 8 bits of the offset. If the length is
-				 * coded as 18, another extension tag byte tells how much
-				 * longer the match really was (0-255).
-				 */
-				int32		len;
-				int32		off;
-
-				len = (sp[0] & 0x0f) + 3;
-				off = ((sp[0] & 0xf0) << 4) | sp[1];
-				sp += 2;
-				if (len == 18)
-					len += *sp++;
-
-				/*
-				 * Check for output buffer overrun, to ensure we don't clobber
-				 * memory in case of corrupt input.  Note: we must advance dp
-				 * here to ensure the error is detected below the loop.  We
-				 * don't simply put the elog inside the loop since that will
-				 * probably interfere with optimization.
-				 */
-				if (dp + len > destend)
-				{
-					dp += len;
-					break;
-				}
-
-				/*
-				 * Now we copy the bytes specified by the tag from OUTPUT to
-				 * OUTPUT. It is dangerous and platform dependent to use
-				 * memcpy() here, because the copied areas could overlap
-				 * extremely!
-				 */
-				while (len--)
-				{
-					*dp = dp[-off];
-					dp++;
-				}
-			}
-			else
-			{
-				/*
-				 * An unset control bit means LITERAL BYTE. So we just copy
-				 * one from INPUT to OUTPUT.
-				 */
-				if (dp >= destend)		/* check for buffer overrun */
-					break;		/* do not clobber memory */
-
-				*dp++ = *sp++;
-			}
-
-			/*
-			 * Advance the control bit
-			 */
-			ctrl >>= 1;
-		}
-	}
-
-	/*
-	 * Check we decompressed the right amount.
-	 */
-	if (dp != destend || sp != srcend)
-		return false;
-
-	/*
-	 * That's it.
-	 */
-	return true;
-}