upstream/mercurial-mirror Files · mercurial/mpatch.c

[PATCH] hgk should parse dates in the diff output...

[PATCH] hgk should parse dates in the diff output -----BEGIN PGP SIGNED MESSAGE----- Hash: SHA1 [PATCH] hgk should parse dates in the diff output hgk doesn't deal well with the difflib style diffs, it expects the filename to be the last thing on the line. This patch fixes the regexp to stop reading the filename at the first tab. Signed-off-by: Chris Mason <mason@suse.com> manifest hash: -----BEGIN PGP SIGNATURE----- Version: GnuPG v1.4.0 (GNU/Linux) iD8DBQFCpl/HywK+sNU5EO8RAgAjAKCOuZsRtJDbdurTQry+7krtLTtRQQCfXLuN LZEFkcOGS0jiAC6vci/RLJ0= =jkr1 -----END PGP SIGNATURE-----

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      /*

       mpatch.c - efficient binary patching for Mercurial

       This implements a patch algorithm that's O(m + nlog n) where m is the

       size of the output and n is the number of patches.

       Given a list of binary patches, it unpacks each into a hunk list,

       then combines the hunk lists with a treewise recursion to form a

       single hunk list. This hunk list is then applied to the original

       text.

       The text (or binary) fragments are copied directly from their source

       Python objects into a preallocated output string to avoid the

       allocation of intermediate Python objects. Working memory is about 2x

       the total number of hunks.

       Copyright 2005 Matt Mackall <mpm@selenic.com>

       This software may be used and distributed according to the terms

       of the GNU General Public License, incorporated herein by reference.

      */

      #include <Python.h>

      #include <stdlib.h>

      #include <string.h>

      #include <netinet/in.h>

      #include <sys/types.h>

      static char mpatch_doc[] = "Efficient binary patching.";

      struct frag {

      	int start, end, len;

      	char *data;

      };

      struct flist {

      	struct frag *base, *head, *tail;

      };

      static struct flist *lalloc(int size)

      {

      	struct flist *a = NULL;

      	a = malloc(sizeof(struct flist));

      	if (a) {

      		a->base = malloc(sizeof(struct frag) * size);

      		if (!a->base)

      			free(a);

      		else

      			a->head = a->tail = a->base;

      	}

      	return a;

      }

      static void lfree(struct flist *a)

      {

      	if (a) {

      		free(a->base);

      		free(a);

      	}

      }

      static int lsize(struct flist *a)

      {

      	return a->tail - a->head;

      }

      /* move hunks in source that are less cut to dest, compensating

         for changes in offset. the last hunk may be split if necessary.

      */

      static int gather(struct flist *dest, struct flist *src, int cut, int offset)

      {

      	struct frag *d = dest->tail, *s = src->head;

      	int postend, c, l;

      	while (s != src->tail) {

      		if (s->start + offset >= cut)

      			break; /* we've gone far enough */

      		postend = offset + s->start + s->len;

      		if (postend <= cut) {

      			/* save this hunk */

      			offset += s->start + s->len - s->end;

      			*d++ = *s++;

      		}

      		else {

      			/* break up this hunk */

      			c = cut - offset;

      			if (s->end < c)

      				c = s->end;

      			l = cut - offset - s->start;

      			if (s->len < l)

      				l = s->len;

      			offset += s->start + l - c;

      			d->start = s->start;

      			d->end = c;

      			d->len = l;

      			d->data = s->data;

      			d++;

      			s->start = c;

      			s->len = s->len - l;

      			s->data = s->data + l;

      			break;

      		}

      	}

      	dest->tail = d;

      	src->head = s;

      	return offset;

      }

      /* like gather, but with no output list */

      static int discard(struct flist *src, int cut, int offset)

      {

      	struct frag *s = src->head;

      	int postend, c, l;

      	while (s != src->tail) {

      		if (s->start + offset >= cut)

      			break;

      		postend = offset + s->start + s->len;

      		if (postend <= cut) {

      			offset += s->start + s->len - s->end;

      			s++;

      		}

      		else {

      			c = cut - offset;

      			if (s->end < c)

      				c = s->end;

      			l = cut - offset - s->start;

      			if (s->len < l)

      				l = s->len;

      			offset += s->start + l - c;

      			s->start = c;

      			s->len = s->len - l;

      			s->data = s->data + l;

      			break;

      		}

      	}

      	src->head = s;

      	return offset;

      }

      /* combine hunk lists a and b, while adjusting b for offset changes in a/

         this deletes a and b and returns the resultant list. */

      static struct flist *combine(struct flist *a, struct flist *b)

      {

      	struct flist *c = NULL;

      	struct frag *bh, *ct;

      	int offset = 0, post;

      	if (a && b)

      		c = lalloc((lsize(a) + lsize(b)) * 2);

      	if (c) {

      		for (bh = b->head; bh != b->tail; bh++) {

      			/* save old hunks */

      			offset = gather(c, a, bh->start, offset);

      			/* discard replaced hunks */

      			post = discard(a, bh->end, offset);

      			/* insert new hunk */

      			ct = c->tail;

      			ct->start = bh->start - offset;

      			ct->end = bh->end - post;

      			ct->len = bh->len;

      			ct->data = bh->data;

      			c->tail++;

      			offset = post;

      		}

      		/* hold on to tail from a */

      		memcpy(c->tail, a->head, sizeof(struct frag) * lsize(a));

      		c->tail += lsize(a);

      	}

      	lfree(a);

      	lfree(b);

      	return c;

      }

      /* decode a binary patch into a hunk list */

      static struct flist *decode(char *bin, int len)

      {

      	struct flist *l;

      	struct frag *lt;

      	char *end = bin + len;

      	/* assume worst case size, we won't have many of these lists */

      	l = lalloc(len / 12);

      	lt = l->tail;

      	while (bin < end) {

      		lt->start = ntohl(*(uint32_t *)bin);

      		lt->end = ntohl(*(uint32_t *)(bin + 4));

      		lt->len = ntohl(*(uint32_t *)(bin + 8));

      		lt->data = bin + 12;

      		bin += 12 + lt->len;

      		lt++;

      	}

      	l->tail = lt;

      	return l;

      }

      /* calculate the size of resultant text */

      static int calcsize(int len, struct flist *l)

      {

      	int outlen = 0, last = 0;

      	struct frag *f = l->head;

      	while (f != l->tail) {

      		outlen += f->start - last;

      		last = f->end;

      		outlen += f->len;

      		f++;

      	}

      	outlen += len - last;

      	return outlen;

      }

      static void apply(char *buf, char *orig, int len, struct flist *l)

      {

      	struct frag *f = l->head;

      	int last = 0;

      	char *p = buf;

      	while (f != l->tail) {

      		memcpy(p, orig + last, f->start - last);

      		p += f->start - last;

      		memcpy(p, f->data, f->len);

      		last = f->end;

      		p += f->len;

      		f++;

      	}

      	memcpy(p, orig + last, len - last);

      }

      /* recursively generate a patch of all bins between start and end */

      static struct flist *fold(PyObject *bins, int start, int end)

      {

      	int len;

      	if (start + 1 == end) {

      		/* trivial case, output a decoded list */

      		PyObject *tmp = PyList_GetItem(bins, start);

      		if (!tmp)

      			return NULL;

      		return decode(PyString_AsString(tmp), PyString_Size(tmp));

      	}

      	/* divide and conquer, memory management is elsewhere */

      	len = (end - start) / 2;

      	return combine(fold(bins, start, start + len),

      		       fold(bins, start + len, end));

      }

      static PyObject *

      patches(PyObject *self, PyObject *args)

      {

      	PyObject *text, *bins, *result;

      	struct flist *patch;

      	char *in, *out;

      	int len, outlen;

      	if (!PyArg_ParseTuple(args, "SO:mpatch", &text, &bins))

      		return NULL;

      	len = PyList_Size(bins);

      	if (!len) {

      		/* nothing to do */

      		Py_INCREF(text);

      		return text;

      	}

      	patch = fold(bins, 0, len);

      	if (!patch)

      		return PyErr_NoMemory();

      	outlen = calcsize(PyString_Size(text), patch);

      	result = PyString_FromStringAndSize(NULL, outlen);

      	if (result) {

      		in = PyString_AsString(text);

      		out = PyString_AsString(result);

      		apply(out, in, PyString_Size(text), patch);

      	}

      	lfree(patch);

      	return result;

      }

      static PyMethodDef methods[] = {

      	{"patches", patches, METH_VARARGS, "apply a series of patches\n"},

      	{NULL, NULL}

      };

      PyMODINIT_FUNC

      initmpatch(void)

      {

      	Py_InitModule3("mpatch", methods, mpatch_doc);

      }

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				/*
				mpatch.c - efficient binary patching for Mercurial

				This implements a patch algorithm that's O(m + nlog n) where m is the
				size of the output and n is the number of patches.

				Given a list of binary patches, it unpacks each into a hunk list,
				then combines the hunk lists with a treewise recursion to form a
				single hunk list. This hunk list is then applied to the original
				text.

				The text (or binary) fragments are copied directly from their source
				Python objects into a preallocated output string to avoid the
				allocation of intermediate Python objects. Working memory is about 2x
				the total number of hunks.

				Copyright 2005 Matt Mackall <mpm@selenic.com>

				This software may be used and distributed according to the terms
				of the GNU General Public License, incorporated herein by reference.
				*/

				#include <Python.h>
				#include <stdlib.h>
				#include <string.h>
				#include <netinet/in.h>
				#include <sys/types.h>

				static char mpatch_doc[] = "Efficient binary patching.";

				struct frag {
				int start, end, len;
				char *data;
				};

				struct flist {
				struct frag base, head, *tail;
				};

				static struct flist *lalloc(int size)
				{
				struct flist *a = NULL;

				a = malloc(sizeof(struct flist));
				if (a) {
				a->base = malloc(sizeof(struct frag) * size);
				if (!a->base)
				free(a);
				else
				a->head = a->tail = a->base;
				}
				return a;
				}

				static void lfree(struct flist *a)
				{
				if (a) {
				free(a->base);
				free(a);
				}
				}

				static int lsize(struct flist *a)
				{
				return a->tail - a->head;
				}

				/* move hunks in source that are less cut to dest, compensating
				for changes in offset. the last hunk may be split if necessary.
				*/
				static int gather(struct flist dest, struct flist src, int cut, int offset)
				{
				struct frag d = dest->tail, s = src->head;
				int postend, c, l;

				while (s != src->tail) {
				if (s->start + offset >= cut)
				break; /* we've gone far enough */

				postend = offset + s->start + s->len;
				if (postend <= cut) {
				/* save this hunk */
				offset += s->start + s->len - s->end;
				d++ = s++;
				}
				else {
				/* break up this hunk */
				c = cut - offset;
				if (s->end < c)
				c = s->end;
				l = cut - offset - s->start;
				if (s->len < l)
				l = s->len;

				offset += s->start + l - c;

				d->start = s->start;
				d->end = c;
				d->len = l;
				d->data = s->data;
				d++;
				s->start = c;
				s->len = s->len - l;
				s->data = s->data + l;

				break;
				}
				}

				dest->tail = d;
				src->head = s;
				return offset;
				}

				/* like gather, but with no output list */
				static int discard(struct flist *src, int cut, int offset)
				{
				struct frag *s = src->head;
				int postend, c, l;

				while (s != src->tail) {
				if (s->start + offset >= cut)
				break;

				postend = offset + s->start + s->len;
				if (postend <= cut) {
				offset += s->start + s->len - s->end;
				s++;
				}
				else {
				c = cut - offset;
				if (s->end < c)
				c = s->end;
				l = cut - offset - s->start;
				if (s->len < l)
				l = s->len;

				offset += s->start + l - c;
				s->start = c;
				s->len = s->len - l;
				s->data = s->data + l;

				break;
				}
				}

				src->head = s;
				return offset;
				}

				/* combine hunk lists a and b, while adjusting b for offset changes in a/
				this deletes a and b and returns the resultant list. */
				static struct flist combine(struct flist a, struct flist *b)
				{
				struct flist *c = NULL;
				struct frag bh, ct;
				int offset = 0, post;

				if (a && b)
				c = lalloc((lsize(a) + lsize(b)) * 2);

				if (c) {

				for (bh = b->head; bh != b->tail; bh++) {
				/* save old hunks */
				offset = gather(c, a, bh->start, offset);

				/* discard replaced hunks */
				post = discard(a, bh->end, offset);

				/* insert new hunk */
				ct = c->tail;
				ct->start = bh->start - offset;
				ct->end = bh->end - post;
				ct->len = bh->len;
				ct->data = bh->data;
				c->tail++;
				offset = post;
				}

				/* hold on to tail from a */
				memcpy(c->tail, a->head, sizeof(struct frag) * lsize(a));
				c->tail += lsize(a);
				}

				lfree(a);
				lfree(b);
				return c;
				}

				/* decode a binary patch into a hunk list */
				static struct flist decode(char bin, int len)
				{
				struct flist *l;
				struct frag *lt;
				char *end = bin + len;

				/* assume worst case size, we won't have many of these lists */
				l = lalloc(len / 12);
				lt = l->tail;

				while (bin < end) {
				lt->start = ntohl((uint32_t )bin);
				lt->end = ntohl((uint32_t )(bin + 4));
				lt->len = ntohl((uint32_t )(bin + 8));
				lt->data = bin + 12;
				bin += 12 + lt->len;
				lt++;
				}

				l->tail = lt;
				return l;
				}

				/* calculate the size of resultant text */
				static int calcsize(int len, struct flist *l)
				{
				int outlen = 0, last = 0;
				struct frag *f = l->head;

				while (f != l->tail) {
				outlen += f->start - last;
				last = f->end;
				outlen += f->len;
				f++;
				}

				outlen += len - last;
				return outlen;
				}

				static void apply(char buf, char orig, int len, struct flist *l)
				{
				struct frag *f = l->head;
				int last = 0;
				char *p = buf;

				while (f != l->tail) {
				memcpy(p, orig + last, f->start - last);
				p += f->start - last;
				memcpy(p, f->data, f->len);
				last = f->end;
				p += f->len;
				f++;
				}
				memcpy(p, orig + last, len - last);
				}

				/* recursively generate a patch of all bins between start and end */
				static struct flist fold(PyObject bins, int start, int end)
				{
				int len;

				if (start + 1 == end) {
				/* trivial case, output a decoded list */
				PyObject *tmp = PyList_GetItem(bins, start);
				if (!tmp)
				return NULL;
				return decode(PyString_AsString(tmp), PyString_Size(tmp));
				}

				/* divide and conquer, memory management is elsewhere */
				len = (end - start) / 2;
				return combine(fold(bins, start, start + len),
				fold(bins, start + len, end));
				}

				static PyObject *
				patches(PyObject self, PyObject args)
				{
				PyObject text, bins, *result;
				struct flist *patch;
				char in, out;
				int len, outlen;

				if (!PyArg_ParseTuple(args, "SO:mpatch", &text, &bins))
				return NULL;

				len = PyList_Size(bins);
				if (!len) {
				/* nothing to do */
				Py_INCREF(text);
				return text;
				}

				patch = fold(bins, 0, len);
				if (!patch)
				return PyErr_NoMemory();

				outlen = calcsize(PyString_Size(text), patch);
				result = PyString_FromStringAndSize(NULL, outlen);
				if (result) {
				in = PyString_AsString(text);
				out = PyString_AsString(result);
				apply(out, in, PyString_Size(text), patch);
				}

				lfree(patch);
				return result;
				}

				static PyMethodDef methods[] = {
				{"patches", patches, METH_VARARGS, "apply a series of patches\n"},
				{NULL, NULL}
				};

				PyMODINIT_FUNC
				initmpatch(void)
				{
				Py_InitModule3("mpatch", methods, mpatch_doc);
				}