upstream/mercurial-mirror Commit - r38978:2b89e20c

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/*

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/*

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parsers.c - efficient content parsing

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parsers.c - efficient content parsing

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This software may be used and distributed according to the terms of

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This software may be used and distributed according to the terms of

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the GNU General Public License, incorporated herein by reference.

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the GNU General Public License, incorporated herein by reference.

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*/

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*/

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#include <Python.h>

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#include <Python.h>

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#include <assert.h>

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#include <assert.h>

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#include <ctype.h>

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#include <ctype.h>

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#include <stddef.h>

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#include <stddef.h>

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#include <string.h>

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#include <string.h>

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#include "bitmanipulation.h"

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#include "bitmanipulation.h"

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#include "charencode.h"

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#include "charencode.h"

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#include "util.h"

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#include "util.h"

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#ifdef IS_PY3K

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#ifdef IS_PY3K

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/* The mapping of Python types is meant to be temporary to get Python

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/* The mapping of Python types is meant to be temporary to get Python

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* 3 to compile. We should remove this once Python 3 support is fully

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* 3 to compile. We should remove this once Python 3 support is fully

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* supported and proper types are used in the extensions themselves. */

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* supported and proper types are used in the extensions themselves. */

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#define PyInt_Check PyLong_Check

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#define PyInt_Check PyLong_Check

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#define PyInt_FromLong PyLong_FromLong

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#define PyInt_FromLong PyLong_FromLong

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#define PyInt_FromSsize_t PyLong_FromSsize_t

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#define PyInt_FromSsize_t PyLong_FromSsize_t

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#define PyInt_AS_LONG PyLong_AS_LONG

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#define PyInt_AS_LONG PyLong_AS_LONG

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#define PyInt_AsLong PyLong_AsLong

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#define PyInt_AsLong PyLong_AsLong

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#endif

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#endif

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typedef struct indexObjectStruct indexObject;

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typedef struct indexObjectStruct indexObject;

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typedef struct {

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typedef struct {

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int children[16];

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int children[16];

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} nodetreenode;

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} nodetreenode;

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/*

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/*

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* A base-16 trie for fast node->rev mapping.

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* A base-16 trie for fast node->rev mapping.

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*

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*

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* Positive value is index of the next node in the trie

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* Positive value is index of the next node in the trie

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* Negative value is a leaf: -(rev + 2)

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* Negative value is a leaf: -(rev + 2)

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* Zero is empty

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* Zero is empty

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*/

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*/

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typedef struct {

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typedef struct {

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indexObject *index;

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indexObject *index;

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nodetreenode *nodes;

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nodetreenode *nodes;

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unsigned length; /* # nodes in use */

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unsigned length; /* # nodes in use */

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unsigned capacity; /* # nodes allocated */

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unsigned capacity; /* # nodes allocated */

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int depth; /* maximum depth of tree */

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int depth; /* maximum depth of tree */

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int splits; /* # splits performed */

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int splits; /* # splits performed */

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} nodetree;

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} nodetree;

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/*

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/*

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* This class has two behaviors.

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* This class has two behaviors.

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*

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*

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* When used in a list-like way (with integer keys), we decode an

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* When used in a list-like way (with integer keys), we decode an

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* entry in a RevlogNG index file on demand. Our last entry is a

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* entry in a RevlogNG index file on demand. Our last entry is a

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* sentinel, always a nullid. We have limited support for

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* sentinel, always a nullid. We have limited support for

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* integer-keyed insert and delete, only at elements right before the

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* integer-keyed insert and delete, only at elements right before the

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* sentinel.

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* sentinel.

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*

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*

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* With string keys, we lazily perform a reverse mapping from node to

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* With string keys, we lazily perform a reverse mapping from node to

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* rev, using a base-16 trie.

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* rev, using a base-16 trie.

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*/

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*/

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struct indexObjectStruct {

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struct indexObjectStruct {

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PyObject_HEAD

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PyObject_HEAD

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/* Type-specific fields go here. */

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/* Type-specific fields go here. */

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PyObject *data; /* raw bytes of index */

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PyObject *data; /* raw bytes of index */

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Py_buffer buf; /* buffer of data */

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Py_buffer buf; /* buffer of data */

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PyObject **cache; /* cached tuples */

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PyObject **cache; /* cached tuples */

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const char **offsets; /* populated on demand */

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const char **offsets; /* populated on demand */

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Py_ssize_t raw_length; /* original number of elements */

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Py_ssize_t raw_length; /* original number of elements */

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Py_ssize_t length; /* current number of elements */

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Py_ssize_t length; /* current number of elements */

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PyObject *added; /* populated on demand */

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PyObject *added; /* populated on demand */

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PyObject *headrevs; /* cache, invalidated on changes */

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PyObject *headrevs; /* cache, invalidated on changes */

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PyObject *filteredrevs;/* filtered revs set */

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PyObject *filteredrevs;/* filtered revs set */

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nodetree *nt; /* base-16 trie */

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nodetree *nt; /* base-16 trie */

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int ntrev; /* last rev scanned */

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int ntrev; /* last rev scanned */

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int ntlookups; /* # lookups */

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int ntlookups; /* # lookups */

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int ntmisses; /* # lookups that miss the cache */

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int ntmisses; /* # lookups that miss the cache */

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int inlined;

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int inlined;

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};

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};

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static Py_ssize_t index_length(const indexObject *self)

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static Py_ssize_t index_length(const indexObject *self)

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{

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{

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if (self->added == NULL)

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if (self->added == NULL)

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return self->length - 1;

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return self->length - 1;

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return self->length + PyList_GET_SIZE(self->added) - 1;

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return self->length + PyList_GET_SIZE(self->added) - 1;

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}

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}

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static PyObject *nullentry;

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static PyObject *nullentry;

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static const char nullid[20];

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static const char nullid[20];

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static Py_ssize_t inline_scan(indexObject *self, const char **offsets);

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static Py_ssize_t inline_scan(indexObject *self, const char **offsets);

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#if LONG_MAX == 0x7fffffffL

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#if LONG_MAX == 0x7fffffffL

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static const char *const tuple_format = PY23("Kiiiiiis#", "Kiiiiiiy#");

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static const char *const tuple_format = PY23("Kiiiiiis#", "Kiiiiiiy#");

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#else

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#else

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static const char *const tuple_format = PY23("kiiiiiis#", "kiiiiiiy#");

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static const char *const tuple_format = PY23("kiiiiiis#", "kiiiiiiy#");

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#endif

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#endif

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/* A RevlogNG v1 index entry is 64 bytes long. */

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/* A RevlogNG v1 index entry is 64 bytes long. */

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static const long v1_hdrsize = 64;

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static const long v1_hdrsize = 64;

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/*

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/*

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* Return a pointer to the beginning of a RevlogNG record.

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* Return a pointer to the beginning of a RevlogNG record.

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*/

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*/

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static const char *index_deref(indexObject *self, Py_ssize_t pos)

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static const char *index_deref(indexObject *self, Py_ssize_t pos)

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{

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{

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if (self->inlined && pos > 0) {

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if (self->inlined && pos > 0) {

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if (self->offsets == NULL) {

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if (self->offsets == NULL) {

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self->offsets = PyMem_Malloc(self->raw_length *

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self->offsets = PyMem_Malloc(self->raw_length *

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sizeof(*self->offsets));

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sizeof(*self->offsets));

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if (self->offsets == NULL)

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if (self->offsets == NULL)

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return (const char *)PyErr_NoMemory();

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return (const char *)PyErr_NoMemory();

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inline_scan(self, self->offsets);

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inline_scan(self, self->offsets);

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}

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}

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return self->offsets[pos];

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return self->offsets[pos];

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}

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}

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return (const char *)(self->buf.buf) + pos * v1_hdrsize;

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return (const char *)(self->buf.buf) + pos * v1_hdrsize;

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}

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}

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static inline int index_get_parents(indexObject *self, Py_ssize_t rev,

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static inline int index_get_parents(indexObject *self, Py_ssize_t rev,

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int *ps, int maxrev)

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int *ps, int maxrev)

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{

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{

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if (rev >= self->length - 1) {

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if (rev >= self->length - 1) {

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PyObject *tuple = PyList_GET_ITEM(self->added,

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PyObject *tuple = PyList_GET_ITEM(self->added,

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rev - self->length + 1);

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rev - self->length + 1);

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ps[0] = (int)PyInt_AS_LONG(PyTuple_GET_ITEM(tuple, 5));

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ps[0] = (int)PyInt_AS_LONG(PyTuple_GET_ITEM(tuple, 5));

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ps[1] = (int)PyInt_AS_LONG(PyTuple_GET_ITEM(tuple, 6));

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ps[1] = (int)PyInt_AS_LONG(PyTuple_GET_ITEM(tuple, 6));

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} else {

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} else {

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const char *data = index_deref(self, rev);

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const char *data = index_deref(self, rev);

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ps[0] = getbe32(data + 24);

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ps[0] = getbe32(data + 24);

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ps[1] = getbe32(data + 28);

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ps[1] = getbe32(data + 28);

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}

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}

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/* If index file is corrupted, ps[] may point to invalid revisions. So

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/* If index file is corrupted, ps[] may point to invalid revisions. So

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* there is a risk of buffer overflow to trust them unconditionally. */

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* there is a risk of buffer overflow to trust them unconditionally. */

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if (ps[0] > maxrev || ps[1] > maxrev) {

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if (ps[0] > maxrev || ps[1] > maxrev) {

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PyErr_SetString(PyExc_ValueError, "parent out of range");

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PyErr_SetString(PyExc_ValueError, "parent out of range");

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return -1;

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return -1;

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}

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}

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return 0;

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return 0;

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}

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}

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/*

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/*

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* RevlogNG format (all in big endian, data may be inlined):

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* RevlogNG format (all in big endian, data may be inlined):

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* 6 bytes: offset

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* 6 bytes: offset

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* 2 bytes: flags

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* 2 bytes: flags

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* 4 bytes: compressed length

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* 4 bytes: compressed length

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* 4 bytes: uncompressed length

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* 4 bytes: uncompressed length

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* 4 bytes: base revision

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* 4 bytes: base revision

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* 4 bytes: link revision

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* 4 bytes: link revision

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* 4 bytes: parent 1 revision

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* 4 bytes: parent 1 revision

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* 4 bytes: parent 2 revision

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* 4 bytes: parent 2 revision

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* 32 bytes: nodeid (only 20 bytes used)

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* 32 bytes: nodeid (only 20 bytes used)

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*/

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*/

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static PyObject *index_get(indexObject *self, Py_ssize_t pos)

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static PyObject *index_get(indexObject *self, Py_ssize_t pos)

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{

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{

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uint64_t offset_flags;

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uint64_t offset_flags;

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int comp_len, uncomp_len, base_rev, link_rev, parent_1, parent_2;

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int comp_len, uncomp_len, base_rev, link_rev, parent_1, parent_2;

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const char *c_node_id;

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const char *c_node_id;

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const char *data;

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const char *data;

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Py_ssize_t length = index_length(self);

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Py_ssize_t length = index_length(self);

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PyObject *entry;

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PyObject *entry;

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if (pos == -1) {

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if (pos == -1) {

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Py_INCREF(nullentry);

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Py_INCREF(nullentry);

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return nullentry;

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return nullentry;

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}

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}

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if (pos < 0 || pos >= length) {

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if (pos < 0 || pos >= length) {

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PyErr_SetString(PyExc_IndexError, "revlog index out of range");

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PyErr_SetString(PyExc_IndexError, "revlog index out of range");

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return NULL;

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return NULL;

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}

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}

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if (pos >= self->length - 1) {

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if (pos >= self->length - 1) {

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PyObject *obj;

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PyObject *obj;

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obj = PyList_GET_ITEM(self->added, pos - self->length + 1);

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obj = PyList_GET_ITEM(self->added, pos - self->length + 1);

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Py_INCREF(obj);

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Py_INCREF(obj);

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return obj;

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return obj;

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}

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}

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if (self->cache) {

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if (self->cache) {

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if (self->cache[pos]) {

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if (self->cache[pos]) {

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Py_INCREF(self->cache[pos]);

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Py_INCREF(self->cache[pos]);

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return self->cache[pos];

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return self->cache[pos];

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}

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}

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} else {

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} else {

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self->cache = calloc(self->raw_length, sizeof(PyObject *));

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self->cache = calloc(self->raw_length, sizeof(PyObject *));

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if (self->cache == NULL)

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if (self->cache == NULL)

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return PyErr_NoMemory();

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return PyErr_NoMemory();

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}

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}

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data = index_deref(self, pos);

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data = index_deref(self, pos);

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if (data == NULL)

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if (data == NULL)

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return NULL;

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return NULL;

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offset_flags = getbe32(data + 4);

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offset_flags = getbe32(data + 4);

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if (pos == 0) /* mask out version number for the first entry */

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if (pos == 0) /* mask out version number for the first entry */

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offset_flags &= 0xFFFF;

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offset_flags &= 0xFFFF;

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else {

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else {

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uint32_t offset_high = getbe32(data);

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uint32_t offset_high = getbe32(data);

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offset_flags |= ((uint64_t)offset_high) << 32;

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offset_flags |= ((uint64_t)offset_high) << 32;

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}

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}

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comp_len = getbe32(data + 8);

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comp_len = getbe32(data + 8);

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uncomp_len = getbe32(data + 12);

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uncomp_len = getbe32(data + 12);

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base_rev = getbe32(data + 16);

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base_rev = getbe32(data + 16);

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link_rev = getbe32(data + 20);

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link_rev = getbe32(data + 20);

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parent_1 = getbe32(data + 24);

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parent_1 = getbe32(data + 24);

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parent_2 = getbe32(data + 28);

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parent_2 = getbe32(data + 28);

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c_node_id = data + 32;

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c_node_id = data + 32;

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entry = Py_BuildValue(tuple_format, offset_flags, comp_len,

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entry = Py_BuildValue(tuple_format, offset_flags, comp_len,

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uncomp_len, base_rev, link_rev,

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uncomp_len, base_rev, link_rev,

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parent_1, parent_2, c_node_id, 20);

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parent_1, parent_2, c_node_id, 20);

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if (entry) {

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if (entry) {

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PyObject_GC_UnTrack(entry);

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PyObject_GC_UnTrack(entry);

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Py_INCREF(entry);

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Py_INCREF(entry);

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}

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}

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self->cache[pos] = entry;

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self->cache[pos] = entry;

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return entry;

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return entry;

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}

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}

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/*

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/*

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* Return the 20-byte SHA of the node corresponding to the given rev.

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* Return the 20-byte SHA of the node corresponding to the given rev.

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*/

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*/

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static const char *index_node(indexObject *self, Py_ssize_t pos)

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static const char *index_node(indexObject *self, Py_ssize_t pos)

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{

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{

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Py_ssize_t length = index_length(self);

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Py_ssize_t length = index_length(self);

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const char *data;

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const char *data;

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if (pos == -1)

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if (pos == -1)

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return nullid;

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return nullid;

240

241

if (pos >= length)

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if (pos >= length)

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return NULL;

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return NULL;

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if (pos >= self->length - 1) {

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if (pos >= self->length - 1) {

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PyObject *tuple, *str;

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PyObject *tuple, *str;

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tuple = PyList_GET_ITEM(self->added, pos - self->length + 1);

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tuple = PyList_GET_ITEM(self->added, pos - self->length + 1);

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str = PyTuple_GetItem(tuple, 7);

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str = PyTuple_GetItem(tuple, 7);

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return str ? PyBytes_AS_STRING(str) : NULL;

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return str ? PyBytes_AS_STRING(str) : NULL;

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}

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}

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data = index_deref(self, pos);

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data = index_deref(self, pos);

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return data ? data + 32 : NULL;

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return data ? data + 32 : NULL;

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}

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}

254

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/*

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/*

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* Return the 20-byte SHA of the node corresponding to the given rev. The

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* Return the 20-byte SHA of the node corresponding to the given rev. The

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* rev is assumed to be existing. If not, an exception is set.

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* rev is assumed to be existing. If not, an exception is set.

258

*/

258

*/

259

static const char *index_node_existing(indexObject *self, Py_ssize_t pos)

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static const char *index_node_existing(indexObject *self, Py_ssize_t pos)

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{

260

{

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const char *node = index_node(self, pos);

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const char *node = index_node(self, pos);

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if (node == NULL) {

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if (node == NULL) {

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PyErr_Format(PyExc_IndexError, "could not access rev %d",

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PyErr_Format(PyExc_IndexError, "could not access rev %d",

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(int)pos);

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(int)pos);

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}

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}

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return node;

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return node;

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}

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}

268

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static int nt_insert(nodetree *self, const char *node, int rev);

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static int nt_insert(nodetree *self, const char *node, int rev);

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static int node_check(PyObject *obj, char **node)

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static int node_check(PyObject *obj, char **node)

272

{

272

{

273

Py_ssize_t nodelen;

273

Py_ssize_t nodelen;

274

if (PyBytes_AsStringAndSize(obj, node, &nodelen) == -1)

274

if (PyBytes_AsStringAndSize(obj, node, &nodelen) == -1)

275

return -1;

275

return -1;

276

if (nodelen == 20)

276

if (nodelen == 20)

277

return 0;

277

return 0;

278

PyErr_SetString(PyExc_ValueError, "20-byte hash required");

278

PyErr_SetString(PyExc_ValueError, "20-byte hash required");

279

return -1;

279

return -1;

280

}

280

}

281

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static PyObject *index_append(indexObject *self, PyObject *obj)

282

static PyObject *index_append(indexObject *self, PyObject *obj)

283

{

283

{

284

char *node;

284

char *node;

285

Py_ssize_t len;

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Py_ssize_t len;

286

287

if (!PyTuple_Check(obj) || PyTuple_GET_SIZE(obj) != 8) {

287

if (!PyTuple_Check(obj) || PyTuple_GET_SIZE(obj) != 8) {

288

PyErr_SetString(PyExc_TypeError, "8-tuple required");

288

PyErr_SetString(PyExc_TypeError, "8-tuple required");

289

return NULL;

289

return NULL;

290

}

290

}

291

292

if (node_check(PyTuple_GET_ITEM(obj, 7), &node) == -1)

292

if (node_check(PyTuple_GET_ITEM(obj, 7), &node) == -1)

293

return NULL;

293

return NULL;

294

295

len = index_length(self);

295

len = index_length(self);

296

297

if (self->added == NULL) {

297

if (self->added == NULL) {

298

self->added = PyList_New(0);

298

self->added = PyList_New(0);

299

if (self->added == NULL)

299

if (self->added == NULL)

300

return NULL;

300

return NULL;

301

}

301

}

302

303

if (PyList_Append(self->added, obj) == -1)

303

if (PyList_Append(self->added, obj) == -1)

304

return NULL;

304

return NULL;

305

306

if (self->nt)

306

if (self->nt)

307

nt_insert(self->nt, node, len);

307

nt_insert(self->nt, node, len);

308

309

Py_CLEAR(self->headrevs);

309

Py_CLEAR(self->headrevs);

310

Py_RETURN_NONE;

310

Py_RETURN_NONE;

311

}

311

}

312

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static void _index_clearcaches(indexObject *self)

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static void _index_clearcaches(indexObject *self)

314

{

314

{

315

if (self->cache) {

315

if (self->cache) {

316

Py_ssize_t i;

316

Py_ssize_t i;

317

318

for (i = 0; i < self->raw_length; i++)

318

for (i = 0; i < self->raw_length; i++)

319

Py_CLEAR(self->cache[i]);

319

Py_CLEAR(self->cache[i]);

320

free(self->cache);

320

free(self->cache);

321

self->cache = NULL;

321

self->cache = NULL;

322

}

322

}

323

if (self->offsets) {

323

if (self->offsets) {

324

PyMem_Free(self->offsets);

324

PyMem_Free(self->offsets);

325

self->offsets = NULL;

325

self->offsets = NULL;

326

}

326

}

327

if (self->nt != NULL) {

327

if (self->nt != NULL) {

328

free(self->nt->nodes);

328

free(self->nt->nodes);

329

PyMem_Free(self->nt);

329

PyMem_Free(self->nt);

330

}

330

}

331

self->nt = NULL;

331

self->nt = NULL;

332

Py_CLEAR(self->headrevs);

332

Py_CLEAR(self->headrevs);

333

}

333

}

334

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static PyObject *index_clearcaches(indexObject *self)

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static PyObject *index_clearcaches(indexObject *self)

336

{

336

{

337

_index_clearcaches(self);

337

_index_clearcaches(self);

338

self->ntrev = -1;

338

self->ntrev = -1;

339

self->ntlookups = self->ntmisses = 0;

339

self->ntlookups = self->ntmisses = 0;

340

Py_RETURN_NONE;

340

Py_RETURN_NONE;

341

}

341

}

342

343

static PyObject *index_stats(indexObject *self)

343

static PyObject *index_stats(indexObject *self)

344

{

344

{

345

PyObject *obj = PyDict_New();

345

PyObject *obj = PyDict_New();

346

PyObject *t = NULL;

346

PyObject *t = NULL;

347

348

if (obj == NULL)

348

if (obj == NULL)

349

return NULL;

349

return NULL;

350

351

#define istat(__n, __d) \

351

#define istat(__n, __d) \

352

do { \

352

do { \

353

t = PyInt_FromSsize_t(self->__n); \

353

t = PyInt_FromSsize_t(self->__n); \

354

if (!t) \

354

if (!t) \

355

goto bail; \

355

goto bail; \

356

if (PyDict_SetItemString(obj, __d, t) == -1) \

356

if (PyDict_SetItemString(obj, __d, t) == -1) \

357

goto bail; \

357

goto bail; \

358

Py_DECREF(t); \

358

Py_DECREF(t); \

359

} while (0)

359

} while (0)

360

361

if (self->added) {

361

if (self->added) {

362

Py_ssize_t len = PyList_GET_SIZE(self->added);

362

Py_ssize_t len = PyList_GET_SIZE(self->added);

363

t = PyInt_FromSsize_t(len);

363

t = PyInt_FromSsize_t(len);

364

if (!t)

364

if (!t)

365

goto bail;

365

goto bail;

366

if (PyDict_SetItemString(obj, "index entries added", t) == -1)

366

if (PyDict_SetItemString(obj, "index entries added", t) == -1)

367

goto bail;

367

goto bail;

368

Py_DECREF(t);

368

Py_DECREF(t);

369

}

369

}

370

371

if (self->raw_length != self->length - 1)

371

if (self->raw_length != self->length - 1)

372

istat(raw_length, "revs on disk");

372

istat(raw_length, "revs on disk");

373

istat(length, "revs in memory");

373

istat(length, "revs in memory");

374

istat(ntlookups, "node trie lookups");

374

istat(ntlookups, "node trie lookups");

375

istat(ntmisses, "node trie misses");

375

istat(ntmisses, "node trie misses");

376

istat(ntrev, "node trie last rev scanned");

376

istat(ntrev, "node trie last rev scanned");

377

if (self->nt) {

377

if (self->nt) {

378

istat(nt->capacity, "node trie capacity");

378

istat(nt->capacity, "node trie capacity");

379

istat(nt->depth, "node trie depth");

379

istat(nt->depth, "node trie depth");

380

istat(nt->length, "node trie count");

380

istat(nt->length, "node trie count");

381

istat(nt->splits, "node trie splits");

381

istat(nt->splits, "node trie splits");

382

}

382

}

383

384

#undef istat

384

#undef istat

385

386

return obj;

386

return obj;

387

388

bail:

388

bail:

389

Py_XDECREF(obj);

389

Py_XDECREF(obj);

390

Py_XDECREF(t);

390

Py_XDECREF(t);

391

return NULL;

391

return NULL;

392

}

392

}

393

394

/*

394

/*

395

* When we cache a list, we want to be sure the caller can't mutate

395

* When we cache a list, we want to be sure the caller can't mutate

396

* the cached copy.

396

* the cached copy.

397

*/

397

*/

398

static PyObject *list_copy(PyObject *list)

398

static PyObject *list_copy(PyObject *list)

399

{

399

{

400

Py_ssize_t len = PyList_GET_SIZE(list);

400

Py_ssize_t len = PyList_GET_SIZE(list);

401

PyObject *newlist = PyList_New(len);

401

PyObject *newlist = PyList_New(len);

402

Py_ssize_t i;

402

Py_ssize_t i;

403

404

if (newlist == NULL)

404

if (newlist == NULL)

405

return NULL;

405

return NULL;

406

407

for (i = 0; i < len; i++) {

407

for (i = 0; i < len; i++) {

408

PyObject *obj = PyList_GET_ITEM(list, i);

408

PyObject *obj = PyList_GET_ITEM(list, i);

409

Py_INCREF(obj);

409

Py_INCREF(obj);

410

PyList_SET_ITEM(newlist, i, obj);

410

PyList_SET_ITEM(newlist, i, obj);

411

}

411

}

412

413

return newlist;

413

return newlist;

414

}

414

}

415

416

static int check_filter(PyObject *filter, Py_ssize_t arg)

416

static int check_filter(PyObject *filter, Py_ssize_t arg)

417

{

417

{

418

if (filter) {

418

if (filter) {

419

PyObject *arglist, *result;

419

PyObject *arglist, *result;

420

int isfiltered;

420

int isfiltered;

421

422

arglist = Py_BuildValue("(n)", arg);

422

arglist = Py_BuildValue("(n)", arg);

423

if (!arglist) {

423

if (!arglist) {

424

return -1;

424

return -1;

425

}

425

}

426

427

result = PyEval_CallObject(filter, arglist);

427

result = PyEval_CallObject(filter, arglist);

428

Py_DECREF(arglist);

428

Py_DECREF(arglist);

429

if (!result) {

429

if (!result) {

430

return -1;

430

return -1;

431

}

431

}

432

433

/* PyObject_IsTrue returns 1 if true, 0 if false, -1 if error,

433

/* PyObject_IsTrue returns 1 if true, 0 if false, -1 if error,

434

* same as this function, so we can just return it directly.*/

434

* same as this function, so we can just return it directly.*/

435

isfiltered = PyObject_IsTrue(result);

435

isfiltered = PyObject_IsTrue(result);

436

Py_DECREF(result);

436

Py_DECREF(result);

437

return isfiltered;

437

return isfiltered;

438

} else {

438

} else {

439

return 0;

439

return 0;

440

}

440

}

441

}

441

}

442

443

static Py_ssize_t add_roots_get_min(indexObject *self, PyObject *list,

443

static Py_ssize_t add_roots_get_min(indexObject *self, PyObject *list,

444

Py_ssize_t marker, char *phases)

444

Py_ssize_t marker, char *phases)

445

{

445

{

446

PyObject *iter = NULL;

446

PyObject *iter = NULL;

447

PyObject *iter_item = NULL;

447

PyObject *iter_item = NULL;

448

Py_ssize_t min_idx = index_length(self) + 2;

448

Py_ssize_t min_idx = index_length(self) + 2;

449

long iter_item_long;

449

long iter_item_long;

450

451

if (PyList_GET_SIZE(list) != 0) {

451

if (PyList_GET_SIZE(list) != 0) {

452

iter = PyObject_GetIter(list);

452

iter = PyObject_GetIter(list);

453

if (iter == NULL)

453

if (iter == NULL)

454

return -2;

454

return -2;

455

while ((iter_item = PyIter_Next(iter))) {

455

while ((iter_item = PyIter_Next(iter))) {

456

iter_item_long = PyInt_AS_LONG(iter_item);

456

iter_item_long = PyInt_AS_LONG(iter_item);

457

Py_DECREF(iter_item);

457

Py_DECREF(iter_item);

458

if (iter_item_long < min_idx)

458

if (iter_item_long < min_idx)

459

min_idx = iter_item_long;

459

min_idx = iter_item_long;

460

phases[iter_item_long] = marker;

460

phases[iter_item_long] = marker;

461

}

461

}

462

Py_DECREF(iter);

462

Py_DECREF(iter);

463

}

463

}

464

465

return min_idx;

465

return min_idx;

466

}

466

}

467

468

static inline void set_phase_from_parents(char *phases, int parent_1,

468

static inline void set_phase_from_parents(char *phases, int parent_1,

469

int parent_2, Py_ssize_t i)

469

int parent_2, Py_ssize_t i)

470

{

470

{

471

if (parent_1 >= 0 && phases[parent_1] > phases[i])

471

if (parent_1 >= 0 && phases[parent_1] > phases[i])

472

phases[i] = phases[parent_1];

472

phases[i] = phases[parent_1];

473

if (parent_2 >= 0 && phases[parent_2] > phases[i])

473

if (parent_2 >= 0 && phases[parent_2] > phases[i])

474

phases[i] = phases[parent_2];

474

phases[i] = phases[parent_2];

475

}

475

}

476

477

static PyObject *reachableroots2(indexObject *self, PyObject *args)

477

static PyObject *reachableroots2(indexObject *self, PyObject *args)

478

{

478

{

479

480

/* Input */

480

/* Input */

481

long minroot;

481

long minroot;

482

PyObject *includepatharg = NULL;

482

PyObject *includepatharg = NULL;

483

int includepath = 0;

483

int includepath = 0;

484

/* heads and roots are lists */

484

/* heads and roots are lists */

485

PyObject *heads = NULL;

485

PyObject *heads = NULL;

486

PyObject *roots = NULL;

486

PyObject *roots = NULL;

487

PyObject *reachable = NULL;

487

PyObject *reachable = NULL;

488

489

PyObject *val;

489

PyObject *val;

490

Py_ssize_t len = index_length(self);

490

Py_ssize_t len = index_length(self);

491

long revnum;

491

long revnum;

492

Py_ssize_t k;

492

Py_ssize_t k;

493

Py_ssize_t i;

493

Py_ssize_t i;

494

Py_ssize_t l;

494

Py_ssize_t l;

495

int r;

495

int r;

496

int parents[2];

496

int parents[2];

497

498

/* Internal data structure:

498

/* Internal data structure:

499

* tovisit: array of length len+1 (all revs + nullrev), filled upto lentovisit

499

* tovisit: array of length len+1 (all revs + nullrev), filled upto lentovisit

500

* revstates: array of length len+1 (all revs + nullrev) */

500

* revstates: array of length len+1 (all revs + nullrev) */

501

int *tovisit = NULL;

501

int *tovisit = NULL;

502

long lentovisit = 0;

502

long lentovisit = 0;

503

enum { RS_SEEN = 1, RS_ROOT = 2, RS_REACHABLE = 4 };

503

enum { RS_SEEN = 1, RS_ROOT = 2, RS_REACHABLE = 4 };

504

char *revstates = NULL;

504

char *revstates = NULL;

505

506

/* Get arguments */

506

/* Get arguments */

507

if (!PyArg_ParseTuple(args, "lO!O!O!", &minroot, &PyList_Type, &heads,

507

if (!PyArg_ParseTuple(args, "lO!O!O!", &minroot, &PyList_Type, &heads,

508

&PyList_Type, &roots,

508

&PyList_Type, &roots,

509

&PyBool_Type, &includepatharg))

509

&PyBool_Type, &includepatharg))

510

goto bail;

510

goto bail;

511

512

if (includepatharg == Py_True)

512

if (includepatharg == Py_True)

513

includepath = 1;

513

includepath = 1;

514

515

/* Initialize return set */

515

/* Initialize return set */

516

reachable = PyList_New(0);

516

reachable = PyList_New(0);

517

if (reachable == NULL)

517

if (reachable == NULL)

518

goto bail;

518

goto bail;

519

520

/* Initialize internal datastructures */

520

/* Initialize internal datastructures */

521

tovisit = (int *)malloc((len + 1) * sizeof(int));

521

tovisit = (int *)malloc((len + 1) * sizeof(int));

522

if (tovisit == NULL) {

522

if (tovisit == NULL) {

523

PyErr_NoMemory();

523

PyErr_NoMemory();

524

goto bail;

524

goto bail;

525

}

525

}

526

527

revstates = (char *)calloc(len + 1, 1);

527

revstates = (char *)calloc(len + 1, 1);

528

if (revstates == NULL) {

528

if (revstates == NULL) {

529

PyErr_NoMemory();

529

PyErr_NoMemory();

530

goto bail;

530

goto bail;

531

}

531

}

532

533

l = PyList_GET_SIZE(roots);

533

l = PyList_GET_SIZE(roots);

534

for (i = 0; i < l; i++) {

534

for (i = 0; i < l; i++) {

535

revnum = PyInt_AsLong(PyList_GET_ITEM(roots, i));

535

revnum = PyInt_AsLong(PyList_GET_ITEM(roots, i));

536

if (revnum == -1 && PyErr_Occurred())

536

if (revnum == -1 && PyErr_Occurred())

537

goto bail;

537

goto bail;

538

/* If root is out of range, e.g. wdir(), it must be unreachable

538

/* If root is out of range, e.g. wdir(), it must be unreachable

539

* from heads. So we can just ignore it. */

539

* from heads. So we can just ignore it. */

540

if (revnum + 1 < 0 || revnum + 1 >= len + 1)

540

if (revnum + 1 < 0 || revnum + 1 >= len + 1)

541

continue;

541

continue;

542

revstates[revnum + 1] |= RS_ROOT;

542

revstates[revnum + 1] |= RS_ROOT;

543

}

543

}

544

545

/* Populate tovisit with all the heads */

545

/* Populate tovisit with all the heads */

546

l = PyList_GET_SIZE(heads);

546

l = PyList_GET_SIZE(heads);

547

for (i = 0; i < l; i++) {

547

for (i = 0; i < l; i++) {

548

revnum = PyInt_AsLong(PyList_GET_ITEM(heads, i));

548

revnum = PyInt_AsLong(PyList_GET_ITEM(heads, i));

549

if (revnum == -1 && PyErr_Occurred())

549

if (revnum == -1 && PyErr_Occurred())

550

goto bail;

550

goto bail;

551

if (revnum + 1 < 0 || revnum + 1 >= len + 1) {

551

if (revnum + 1 < 0 || revnum + 1 >= len + 1) {

552

PyErr_SetString(PyExc_IndexError, "head out of range");

552

PyErr_SetString(PyExc_IndexError, "head out of range");

553

goto bail;

553

goto bail;

554

}

554

}

555

if (!(revstates[revnum + 1] & RS_SEEN)) {

555

if (!(revstates[revnum + 1] & RS_SEEN)) {

556

tovisit[lentovisit++] = (int)revnum;

556

tovisit[lentovisit++] = (int)revnum;

557

revstates[revnum + 1] |= RS_SEEN;

557

revstates[revnum + 1] |= RS_SEEN;

558

}

558

}

559

}

559

}

560

561

/* Visit the tovisit list and find the reachable roots */

561

/* Visit the tovisit list and find the reachable roots */

562

k = 0;

562

k = 0;

563

while (k < lentovisit) {

563

while (k < lentovisit) {

564

/* Add the node to reachable if it is a root*/

564

/* Add the node to reachable if it is a root*/

565

revnum = tovisit[k++];

565

revnum = tovisit[k++];

566

if (revstates[revnum + 1] & RS_ROOT) {

566

if (revstates[revnum + 1] & RS_ROOT) {

567

revstates[revnum + 1] |= RS_REACHABLE;

567

revstates[revnum + 1] |= RS_REACHABLE;

568

val = PyInt_FromLong(revnum);

568

val = PyInt_FromLong(revnum);

569

if (val == NULL)

569

if (val == NULL)

570

goto bail;

570

goto bail;

571

r = PyList_Append(reachable, val);

571

r = PyList_Append(reachable, val);

572

Py_DECREF(val);

572

Py_DECREF(val);

573

if (r < 0)

573

if (r < 0)

574

goto bail;

574

goto bail;

575

if (includepath == 0)

575

if (includepath == 0)

576

continue;

576

continue;

577

}

577

}

578

579

/* Add its parents to the list of nodes to visit */

579

/* Add its parents to the list of nodes to visit */

580

if (revnum == -1)

580

if (revnum == -1)

581

continue;

581

continue;

582

r = index_get_parents(self, revnum, parents, (int)len - 1);

582

r = index_get_parents(self, revnum, parents, (int)len - 1);

583

if (r < 0)

583

if (r < 0)

584

goto bail;

584

goto bail;

585

for (i = 0; i < 2; i++) {

585

for (i = 0; i < 2; i++) {

586

if (!(revstates[parents[i] + 1] & RS_SEEN)

586

if (!(revstates[parents[i] + 1] & RS_SEEN)

587

&& parents[i] >= minroot) {

587

&& parents[i] >= minroot) {

588

tovisit[lentovisit++] = parents[i];

588

tovisit[lentovisit++] = parents[i];

589

revstates[parents[i] + 1] |= RS_SEEN;

589

revstates[parents[i] + 1] |= RS_SEEN;

590

}

590

}

591

}

591

}

592

}

592

}

593

594

/* Find all the nodes in between the roots we found and the heads

594

/* Find all the nodes in between the roots we found and the heads

595

* and add them to the reachable set */

595

* and add them to the reachable set */

596

if (includepath == 1) {

596

if (includepath == 1) {

597

long minidx = minroot;

597

long minidx = minroot;

598

if (minidx < 0)

598

if (minidx < 0)

599

minidx = 0;

599

minidx = 0;

600

for (i = minidx; i < len; i++) {

600

for (i = minidx; i < len; i++) {

601

if (!(revstates[i + 1] & RS_SEEN))

601

if (!(revstates[i + 1] & RS_SEEN))

602

continue;

602

continue;

603

r = index_get_parents(self, i, parents, (int)len - 1);

603

r = index_get_parents(self, i, parents, (int)len - 1);

604

/* Corrupted index file, error is set from

604

/* Corrupted index file, error is set from

605

* index_get_parents */

605

* index_get_parents */

606

if (r < 0)

606

if (r < 0)

607

goto bail;

607

goto bail;

608

if (((revstates[parents[0] + 1] |

608

if (((revstates[parents[0] + 1] |

609

revstates[parents[1] + 1]) & RS_REACHABLE)

609

revstates[parents[1] + 1]) & RS_REACHABLE)

610

&& !(revstates[i + 1] & RS_REACHABLE)) {

610

&& !(revstates[i + 1] & RS_REACHABLE)) {

611

revstates[i + 1] |= RS_REACHABLE;

611

revstates[i + 1] |= RS_REACHABLE;

612

val = PyInt_FromLong(i);

612

val = PyInt_FromLong(i);

613

if (val == NULL)

613

if (val == NULL)

614

goto bail;

614

goto bail;

615

r = PyList_Append(reachable, val);

615

r = PyList_Append(reachable, val);

616

Py_DECREF(val);

616

Py_DECREF(val);

617

if (r < 0)

617

if (r < 0)

618

goto bail;

618

goto bail;

619

}

619

}

620

}

620

}

621

}

621

}

622

623

free(revstates);

623

free(revstates);

624

free(tovisit);

624

free(tovisit);

625

return reachable;

625

return reachable;

626

bail:

626

bail:

627

Py_XDECREF(reachable);

627

Py_XDECREF(reachable);

628

free(revstates);

628

free(revstates);

629

free(tovisit);

629

free(tovisit);

630

return NULL;

630

return NULL;

631

}

631

}

632

633

static PyObject *compute_phases_map_sets(indexObject *self, PyObject *args)

633

static PyObject *compute_phases_map_sets(indexObject *self, PyObject *args)

634

{

634

{

635

PyObject *roots = Py_None;

635

PyObject *roots = Py_None;

636

PyObject *ret = NULL;

636

PyObject *ret = NULL;

637

PyObject *phasessize = NULL;

637

PyObject *phasessize = NULL;

638

PyObject *phaseroots = NULL;

638

PyObject *phaseroots = NULL;

639

PyObject *phaseset = NULL;

639

PyObject *phaseset = NULL;

640

PyObject *phasessetlist = NULL;

640

PyObject *phasessetlist = NULL;

641

PyObject *rev = NULL;

641

PyObject *rev = NULL;

642

Py_ssize_t len = index_length(self);

642

Py_ssize_t len = index_length(self);

643

Py_ssize_t numphase = 0;

643

Py_ssize_t numphase = 0;

644

Py_ssize_t minrevallphases = 0;

644

Py_ssize_t minrevallphases = 0;

645

Py_ssize_t minrevphase = 0;

645

Py_ssize_t minrevphase = 0;

646

Py_ssize_t i = 0;

646

Py_ssize_t i = 0;

647

char *phases = NULL;

647

char *phases = NULL;

648

long phase;

648

long phase;

649

650

if (!PyArg_ParseTuple(args, "O", &roots))

650

if (!PyArg_ParseTuple(args, "O", &roots))

651

goto done;

651

goto done;

652

if (roots == NULL || !PyList_Check(roots)) {

652

if (roots == NULL || !PyList_Check(roots)) {

653

PyErr_SetString(PyExc_TypeError, "roots must be a list");

653

PyErr_SetString(PyExc_TypeError, "roots must be a list");

654

goto done;

654

goto done;

655

}

655

}

656

657

phases = calloc(len, 1); /* phase per rev: {0: public, 1: draft, 2: secret} */

657

phases = calloc(len, 1); /* phase per rev: {0: public, 1: draft, 2: secret} */

658

if (phases == NULL) {

658

if (phases == NULL) {

659

PyErr_NoMemory();

659

PyErr_NoMemory();

660

goto done;

660

goto done;

661

}

661

}

662

/* Put the phase information of all the roots in phases */

662

/* Put the phase information of all the roots in phases */

663

numphase = PyList_GET_SIZE(roots)+1;

663

numphase = PyList_GET_SIZE(roots)+1;

664

minrevallphases = len + 1;

664

minrevallphases = len + 1;

665

phasessetlist = PyList_New(numphase);

665

phasessetlist = PyList_New(numphase);

666

if (phasessetlist == NULL)

666

if (phasessetlist == NULL)

667

goto done;

667

goto done;

668

669

PyList_SET_ITEM(phasessetlist, 0, Py_None);

669

PyList_SET_ITEM(phasessetlist, 0, Py_None);

670

Py_INCREF(Py_None);

670

Py_INCREF(Py_None);

671

672

for (i = 0; i < numphase-1; i++) {

672

for (i = 0; i < numphase-1; i++) {

673

phaseroots = PyList_GET_ITEM(roots, i);

673

phaseroots = PyList_GET_ITEM(roots, i);

674

phaseset = PySet_New(NULL);

674

phaseset = PySet_New(NULL);

675

if (phaseset == NULL)

675

if (phaseset == NULL)

676

goto release;

676

goto release;

677

PyList_SET_ITEM(phasessetlist, i+1, phaseset);

677

PyList_SET_ITEM(phasessetlist, i+1, phaseset);

678

if (!PyList_Check(phaseroots)) {

678

if (!PyList_Check(phaseroots)) {

679

PyErr_SetString(PyExc_TypeError,

679

PyErr_SetString(PyExc_TypeError,

680

"roots item must be a list");

680

"roots item must be a list");

681

goto release;

681

goto release;

682

}

682

}

683

minrevphase = add_roots_get_min(self, phaseroots, i+1, phases);

683

minrevphase = add_roots_get_min(self, phaseroots, i+1, phases);

684

if (minrevphase == -2) /* Error from add_roots_get_min */

684

if (minrevphase == -2) /* Error from add_roots_get_min */

685

goto release;

685

goto release;

686

minrevallphases = MIN(minrevallphases, minrevphase);

686

minrevallphases = MIN(minrevallphases, minrevphase);

687

}

687

}

688

/* Propagate the phase information from the roots to the revs */

688

/* Propagate the phase information from the roots to the revs */

689

if (minrevallphases != -1) {

689

if (minrevallphases != -1) {

690

int parents[2];

690

int parents[2];

691

for (i = minrevallphases; i < len; i++) {

691

for (i = minrevallphases; i < len; i++) {

692

if (index_get_parents(self, i, parents,

692

if (index_get_parents(self, i, parents,

693

(int)len - 1) < 0)

693

(int)len - 1) < 0)

694

goto release;

694

goto release;

695

set_phase_from_parents(phases, parents[0], parents[1], i);

695

set_phase_from_parents(phases, parents[0], parents[1], i);

696

}

696

}

697

}

697

}

698

/* Transform phase list to a python list */

698

/* Transform phase list to a python list */

699

phasessize = PyInt_FromLong(len);

699

phasessize = PyInt_FromLong(len);

700

if (phasessize == NULL)

700

if (phasessize == NULL)

701

goto release;

701

goto release;

702

for (i = 0; i < len; i++) {

702

for (i = 0; i < len; i++) {

703

phase = phases[i];

703

phase = phases[i];

704

/* We only store the sets of phase for non public phase, the public phase

704

/* We only store the sets of phase for non public phase, the public phase

705

* is computed as a difference */

705

* is computed as a difference */

706

if (phase != 0) {

706

if (phase != 0) {

707

phaseset = PyList_GET_ITEM(phasessetlist, phase);

707

phaseset = PyList_GET_ITEM(phasessetlist, phase);

708

rev = PyInt_FromLong(i);

708

rev = PyInt_FromLong(i);

709

if (rev == NULL)

709

if (rev == NULL)

710

goto release;

710

goto release;

711

PySet_Add(phaseset, rev);

711

PySet_Add(phaseset, rev);

712

Py_XDECREF(rev);

712

Py_XDECREF(rev);

713

}

713

}

714

}

714

}

715

ret = PyTuple_Pack(2, phasessize, phasessetlist);

715

ret = PyTuple_Pack(2, phasessize, phasessetlist);

716

717

release:

717

release:

718

Py_XDECREF(phasessize);

718

Py_XDECREF(phasessize);

719

Py_XDECREF(phasessetlist);

719

Py_XDECREF(phasessetlist);

720

done:

720

done:

721

free(phases);

721

free(phases);

722

return ret;

722

return ret;

723

}

723

}

724

725

static PyObject *index_headrevs(indexObject *self, PyObject *args)

725

static PyObject *index_headrevs(indexObject *self, PyObject *args)

726

{

726

{

727

Py_ssize_t i, j, len;

727

Py_ssize_t i, j, len;

728

char *nothead = NULL;

728

char *nothead = NULL;

729

PyObject *heads = NULL;

729

PyObject *heads = NULL;

730

PyObject *filter = NULL;

730

PyObject *filter = NULL;

731

PyObject *filteredrevs = Py_None;

731

PyObject *filteredrevs = Py_None;

732

733

if (!PyArg_ParseTuple(args, "|O", &filteredrevs)) {

733

if (!PyArg_ParseTuple(args, "|O", &filteredrevs)) {

734

return NULL;

734

return NULL;

735

}

735

}

736

737

if (self->headrevs && filteredrevs == self->filteredrevs)

737

if (self->headrevs && filteredrevs == self->filteredrevs)

738

return list_copy(self->headrevs);

738

return list_copy(self->headrevs);

739

740

Py_DECREF(self->filteredrevs);

740

Py_DECREF(self->filteredrevs);

741

self->filteredrevs = filteredrevs;

741

self->filteredrevs = filteredrevs;

742

Py_INCREF(filteredrevs);

742

Py_INCREF(filteredrevs);

743

744

if (filteredrevs != Py_None) {

744

if (filteredrevs != Py_None) {

745

filter = PyObject_GetAttrString(filteredrevs, "__contains__");

745

filter = PyObject_GetAttrString(filteredrevs, "__contains__");

746

if (!filter) {

746

if (!filter) {

747

PyErr_SetString(PyExc_TypeError,

747

PyErr_SetString(PyExc_TypeError,

748

"filteredrevs has no attribute __contains__");

748

"filteredrevs has no attribute __contains__");

749

goto bail;

749

goto bail;

750

}

750

}

751

}

751

}

752

753

len = index_length(self);

753

len = index_length(self);

754

heads = PyList_New(0);

754

heads = PyList_New(0);

755

if (heads == NULL)

755

if (heads == NULL)

756

goto bail;

756

goto bail;

757

if (len == 0) {

757

if (len == 0) {

758

PyObject *nullid = PyInt_FromLong(-1);

758

PyObject *nullid = PyInt_FromLong(-1);

759

if (nullid == NULL || PyList_Append(heads, nullid) == -1) {

759

if (nullid == NULL || PyList_Append(heads, nullid) == -1) {

760

Py_XDECREF(nullid);

760

Py_XDECREF(nullid);

761

goto bail;

761

goto bail;

762

}

762

}

763

goto done;

763

goto done;

764

}

764

}

765

766

nothead = calloc(len, 1);

766

nothead = calloc(len, 1);

767

if (nothead == NULL) {

767

if (nothead == NULL) {

768

PyErr_NoMemory();

768

PyErr_NoMemory();

769

goto bail;

769

goto bail;

770

}

770

}

771

772

for (i = len - 1; i >= 0; i--) {

772

for (i = len - 1; i >= 0; i--) {

773

int isfiltered;

773

int isfiltered;

774

int parents[2];

774

int parents[2];

775

776

/* If nothead[i] == 1, it means we've seen an unfiltered child of this

776

/* If nothead[i] == 1, it means we've seen an unfiltered child of this

777

* node already, and therefore this node is not filtered. So we can skip

777

* node already, and therefore this node is not filtered. So we can skip

778

* the expensive check_filter step.

778

* the expensive check_filter step.

779

*/

779

*/

780

if (nothead[i] != 1) {

780

if (nothead[i] != 1) {

781

isfiltered = check_filter(filter, i);

781

isfiltered = check_filter(filter, i);

782

if (isfiltered == -1) {

782

if (isfiltered == -1) {

783

PyErr_SetString(PyExc_TypeError,

783

PyErr_SetString(PyExc_TypeError,

784

"unable to check filter");

784

"unable to check filter");

785

goto bail;

785

goto bail;

786

}

786

}

787

788

if (isfiltered) {

788

if (isfiltered) {

789

nothead[i] = 1;

789

nothead[i] = 1;

790

continue;

790

continue;

791

}

791

}

792

}

792

}

793

794

if (index_get_parents(self, i, parents, (int)len - 1) < 0)

794

if (index_get_parents(self, i, parents, (int)len - 1) < 0)

795

goto bail;

795

goto bail;

796

for (j = 0; j < 2; j++) {

796

for (j = 0; j < 2; j++) {

797

if (parents[j] >= 0)

797

if (parents[j] >= 0)

798

nothead[parents[j]] = 1;

798

nothead[parents[j]] = 1;

799

}

799

}

800

}

800

}

801

802

for (i = 0; i < len; i++) {

802

for (i = 0; i < len; i++) {

803

PyObject *head;

803

PyObject *head;

804

805

if (nothead[i])

805

if (nothead[i])

806

continue;

806

continue;

807

head = PyInt_FromSsize_t(i);

807

head = PyInt_FromSsize_t(i);

808

if (head == NULL || PyList_Append(heads, head) == -1) {

808

if (head == NULL || PyList_Append(heads, head) == -1) {

809

Py_XDECREF(head);

809

Py_XDECREF(head);

810

goto bail;

810

goto bail;

811

}

811

}

812

}

812

}

813

814

done:

814

done:

815

self->headrevs = heads;

815

self->headrevs = heads;

816

Py_XDECREF(filter);

816

Py_XDECREF(filter);

817

free(nothead);

817

free(nothead);

818

return list_copy(self->headrevs);

818

return list_copy(self->headrevs);

819

bail:

819

bail:

820

Py_XDECREF(filter);

820

Py_XDECREF(filter);

821

Py_XDECREF(heads);

821

Py_XDECREF(heads);

822

free(nothead);

822

free(nothead);

823

return NULL;

823

return NULL;

824

}

824

}

825

826

/**

826

/**

827

* Obtain the base revision index entry.

827

* Obtain the base revision index entry.

828

*

828

*

829

* Callers must ensure that rev >= 0 or illegal memory access may occur.

829

* Callers must ensure that rev >= 0 or illegal memory access may occur.

830

*/

830

*/

831

static inline int index_baserev(indexObject *self, int rev)

831

static inline int index_baserev(indexObject *self, int rev)

832

{

832

{

833

const char *data;

833

const char *data;

834

835

if (rev >= self->length - 1) {

835

if (rev >= self->length - 1) {

836

PyObject *tuple = PyList_GET_ITEM(self->added,

836

PyObject *tuple = PyList_GET_ITEM(self->added,

837

rev - self->length + 1);

837

rev - self->length + 1);

838

return (int)PyInt_AS_LONG(PyTuple_GET_ITEM(tuple, 3));

838

return (int)PyInt_AS_LONG(PyTuple_GET_ITEM(tuple, 3));

839

}

839

}

840

else {

840

else {

841

data = index_deref(self, rev);

841

data = index_deref(self, rev);

842

if (data == NULL) {

842

if (data == NULL) {

843

return -2;

843

return -2;

844

}

844

}

845

846

return getbe32(data + 16);

846

return getbe32(data + 16);

847

}

847

}

848

}

848

}

849

850

static PyObject *index_deltachain(indexObject *self, PyObject *args)

850

static PyObject *index_deltachain(indexObject *self, PyObject *args)

851

{

851

{

852

int rev, generaldelta;

852

int rev, generaldelta;

853

PyObject *stoparg;

853

PyObject *stoparg;

854

int stoprev, iterrev, baserev = -1;

854

int stoprev, iterrev, baserev = -1;

855

int stopped;

855

int stopped;

856

PyObject *chain = NULL, *result = NULL;

856

PyObject *chain = NULL, *result = NULL;

857

const Py_ssize_t length = index_length(self);

857

const Py_ssize_t length = index_length(self);

858

859

if (!PyArg_ParseTuple(args, "iOi", &rev, &stoparg, &generaldelta)) {

859

if (!PyArg_ParseTuple(args, "iOi", &rev, &stoparg, &generaldelta)) {

860

return NULL;

860

return NULL;

861

}

861

}

862

863

if (PyInt_Check(stoparg)) {

863

if (PyInt_Check(stoparg)) {

864

stoprev = (int)PyInt_AsLong(stoparg);

864

stoprev = (int)PyInt_AsLong(stoparg);

865

if (stoprev == -1 && PyErr_Occurred()) {

865

if (stoprev == -1 && PyErr_Occurred()) {

866

return NULL;

866

return NULL;

867

}

867

}

868

}

868

}

869

else if (stoparg == Py_None) {

869

else if (stoparg == Py_None) {

870

stoprev = -2;

870

stoprev = -2;

871

}

871

}

872

else {

872

else {

873

PyErr_SetString(PyExc_ValueError,

873

PyErr_SetString(PyExc_ValueError,

874

"stoprev must be integer or None");

874

"stoprev must be integer or None");

875

return NULL;

875

return NULL;

876

}

876

}

877

878

if (rev < 0 || rev >= length) {

878

if (rev < 0 || rev >= length) {

879

PyErr_SetString(PyExc_ValueError, "revlog index out of range");

879

PyErr_SetString(PyExc_ValueError, "revlog index out of range");

880

return NULL;

880

return NULL;

881

}

881

}

882

883

chain = PyList_New(0);

883

chain = PyList_New(0);

884

if (chain == NULL) {

884

if (chain == NULL) {

885

return NULL;

885

return NULL;

886

}

886

}

887

888

baserev = index_baserev(self, rev);

888

baserev = index_baserev(self, rev);

889

890

/* This should never happen. */

890

/* This should never happen. */

891

if (baserev <= -2) {

891

if (baserev <= -2) {

892

/* Error should be set by index_deref() */

892

/* Error should be set by index_deref() */

893

assert(PyErr_Occurred());

893

assert(PyErr_Occurred());

894

goto bail;

894

goto bail;

895

}

895

}

896

897

iterrev = rev;

897

iterrev = rev;

898

899

while (iterrev != baserev && iterrev != stoprev) {

899

while (iterrev != baserev && iterrev != stoprev) {

900

PyObject *value = PyInt_FromLong(iterrev);

900

PyObject *value = PyInt_FromLong(iterrev);

901

if (value == NULL) {

901

if (value == NULL) {

902

goto bail;

902

goto bail;

903

}

903

}

904

if (PyList_Append(chain, value)) {

904

if (PyList_Append(chain, value)) {

905

Py_DECREF(value);

905

Py_DECREF(value);

906

goto bail;

906

goto bail;

907

}

907

}

908

Py_DECREF(value);

908

Py_DECREF(value);

909

910

if (generaldelta) {

910

if (generaldelta) {

911

iterrev = baserev;

911

iterrev = baserev;

912

}

912

}

913

else {

913

else {

914

iterrev--;

914

iterrev--;

915

}

915

}

916

917

if (iterrev < 0) {

917

if (iterrev < 0) {

918

break;

918

break;

919

}

919

}

920

921

if (iterrev >= length) {

921

if (iterrev >= length) {

922

PyErr_SetString(PyExc_IndexError, "revision outside index");

922

PyErr_SetString(PyExc_IndexError, "revision outside index");

923

return NULL;

923

return NULL;

924

}

924

}

925

926

baserev = index_baserev(self, iterrev);

926

baserev = index_baserev(self, iterrev);

927

928

/* This should never happen. */

928

/* This should never happen. */

929

if (baserev <= -2) {

929

if (baserev <= -2) {

930

/* Error should be set by index_deref() */

930

/* Error should be set by index_deref() */

931

assert(PyErr_Occurred());

931

assert(PyErr_Occurred());

932

goto bail;

932

goto bail;

933

}

933

}

934

}

934

}

935

936

if (iterrev == stoprev) {

936

if (iterrev == stoprev) {

937

stopped = 1;

937

stopped = 1;

938

}

938

}

939

else {

939

else {

940

PyObject *value = PyInt_FromLong(iterrev);

940

PyObject *value = PyInt_FromLong(iterrev);

941

if (value == NULL) {

941

if (value == NULL) {

942

goto bail;

942

goto bail;

943

}

943

}

944

if (PyList_Append(chain, value)) {

944

if (PyList_Append(chain, value)) {

945

Py_DECREF(value);

945

Py_DECREF(value);

946

goto bail;

946

goto bail;

947

}

947

}

948

Py_DECREF(value);

948

Py_DECREF(value);

949

950

stopped = 0;

950

stopped = 0;

951

}

951

}

952

953

if (PyList_Reverse(chain)) {

953

if (PyList_Reverse(chain)) {

954

goto bail;

954

goto bail;

955

}

955

}

956

957

result = Py_BuildValue("OO", chain, stopped ? Py_True : Py_False);

957

result = Py_BuildValue("OO", chain, stopped ? Py_True : Py_False);

958

Py_DECREF(chain);

958

Py_DECREF(chain);

959

return result;

959

return result;

960

961

bail:

961

bail:

962

Py_DECREF(chain);

962

Py_DECREF(chain);

963

return NULL;

963

return NULL;

964

}

964

}

965

966

static inline int nt_level(const char *node, Py_ssize_t level)

966

static inline int nt_level(const char *node, Py_ssize_t level)

967

{

967

{

968

int v = node[level>>1];

968

int v = node[level>>1];

969

if (!(level & 1))

969

if (!(level & 1))

970

v >>= 4;

970

v >>= 4;

971

return v & 0xf;

971

return v & 0xf;

972

}

972

}

973

974

/*

974

/*

975

* Return values:

975

* Return values:

976

*

976

*

977

* -4: match is ambiguous (multiple candidates)

977

* -4: match is ambiguous (multiple candidates)

978

* -2: not found

978

* -2: not found

979

* rest: valid rev

979

* rest: valid rev

980

*/

980

*/

981

static int nt_find(nodetree *self, const char *node, Py_ssize_t nodelen,

981

static int nt_find(nodetree *self, const char *node, Py_ssize_t nodelen,

982

int hex)

982

int hex)

983

{

983

{

984

int (*getnybble)(const char *, Py_ssize_t) = hex ? hexdigit : nt_level;

984

int (*getnybble)(const char *, Py_ssize_t) = hex ? hexdigit : nt_level;

985

int level, maxlevel, off;

985

int level, maxlevel, off;

986

987

if (nodelen == 20 && node[0] == '\0' && memcmp(node, nullid, 20) == 0)

987

if (nodelen == 20 && node[0] == '\0' && memcmp(node, nullid, 20) == 0)

988

return -1;

988

return -1;

989

990

if (hex)

990

if (hex)

991

maxlevel = nodelen > 40 ? 40 : (int)nodelen;

991

maxlevel = nodelen > 40 ? 40 : (int)nodelen;

992

else

992

else

993

maxlevel = nodelen > 20 ? 40 : ((int)nodelen * 2);

993

maxlevel = nodelen > 20 ? 40 : ((int)nodelen * 2);

994

995

for (level = off = 0; level < maxlevel; level++) {

995

for (level = off = 0; level < maxlevel; level++) {

996

int k = getnybble(node, level);

996

int k = getnybble(node, level);

997

nodetreenode *n = &self->nodes[off];

997

nodetreenode *n = &self->nodes[off];

998

int v = n->children[k];

998

int v = n->children[k];

999

1000

if (v < 0) {

1000

if (v < 0) {

1001

const char *n;

1001

const char *n;

1002

Py_ssize_t i;

1002

Py_ssize_t i;

1003

1004

v = -(v + 2);

1004

v = -(v + 2);

1005

n = index_node(self->index, v);

1005

n = index_node(self->index, v);

1006

if (n == NULL)

1006

if (n == NULL)

1007

return -2;

1007

return -2;

1008

for (i = level; i < maxlevel; i++)

1008

for (i = level; i < maxlevel; i++)

1009

if (getnybble(node, i) != nt_level(n, i))

1009

if (getnybble(node, i) != nt_level(n, i))

1010

return -2;

1010

return -2;

1011

return v;

1011

return v;

1012

}

1012

}

1013

if (v == 0)

1013

if (v == 0)

1014

return -2;

1014

return -2;

1015

off = v;

1015

off = v;

1016

}

1016

}

1017

/* multiple matches against an ambiguous prefix */

1017

/* multiple matches against an ambiguous prefix */

1018

return -4;

1018

return -4;

1019

}

1019

}

1020

1021

static int nt_new(nodetree *self)

1021

static int nt_new(nodetree *self)

1022

{

1022

{

1023

if (self->length == self->capacity) {

1023

if (self->length == self->capacity) {

1024

unsigned newcapacity;

1024

unsigned newcapacity;

1025

nodetreenode *newnodes;

1025

nodetreenode *newnodes;

1026

if (self->capacity >= INT_MAX / (sizeof(nodetreenode) * 2)) {

1026

if (self->capacity >= INT_MAX / (sizeof(nodetreenode) * 2)) {

1027

PyErr_SetString(PyExc_MemoryError,

1027

PyErr_SetString(PyExc_MemoryError,

1028

"overflow in nt_new");

1028

"overflow in nt_new");

1029

return -1;

1029

return -1;

1030

}

1030

}

1031

newcapacity = self->capacity * 2;

1031

newcapacity = self->capacity * 2;

1032

newnodes = realloc(self->nodes, newcapacity * sizeof(nodetreenode));

1032

newnodes = realloc(self->nodes, newcapacity * sizeof(nodetreenode));

1033

if (newnodes == NULL) {

1033

if (newnodes == NULL) {

1034

PyErr_SetString(PyExc_MemoryError, "out of memory");

1034

PyErr_SetString(PyExc_MemoryError, "out of memory");

1035

return -1;

1035

return -1;

1036

}

1036

}

1037

self->capacity = newcapacity;

1037

self->capacity = newcapacity;

1038

self->nodes = newnodes;

1038

self->nodes = newnodes;

1039

memset(&self->nodes[self->length], 0,

1039

memset(&self->nodes[self->length], 0,

1040

sizeof(nodetreenode) * (self->capacity - self->length));

1040

sizeof(nodetreenode) * (self->capacity - self->length));

1041

}

1041

}

1042

return self->length++;

1042

return self->length++;

1043

}

1043

}

1044

1045

static int nt_insert(nodetree *self, const char *node, int rev)

1045

static int nt_insert(nodetree *self, const char *node, int rev)

1046

{

1046

{

1047

int level = 0;

1047

int level = 0;

1048

int off = 0;

1048

int off = 0;

1049

1050

while (level < 40) {

1050

while (level < 40) {

1051

int k = nt_level(node, level);

1051

int k = nt_level(node, level);

1052

nodetreenode *n;

1052

nodetreenode *n;

1053

int v;

1053

int v;

1054

1055

n = &self->nodes[off];

1055

n = &self->nodes[off];

1056

v = n->children[k];

1056

v = n->children[k];

1057

1058

if (v == 0) {

1058

if (v == 0) {

1059

n->children[k] = -rev - 2;

1059

n->children[k] = -rev - 2;

1060

return 0;

1060

return 0;

1061

}

1061

}

1062

if (v < 0) {

1062

if (v < 0) {

1063

const char *oldnode = index_node_existing(self->index, -(v + 2));

1063

const char *oldnode = index_node_existing(self->index, -(v + 2));

1064

int noff;

1064

int noff;

1065

1066

if (oldnode == NULL)

1066

if (oldnode == NULL)

1067

return -1;

1067

return -1;

1068

if (!memcmp(oldnode, node, 20)) {

1068

if (!memcmp(oldnode, node, 20)) {

1069

n->children[k] = -rev - 2;

1069

n->children[k] = -rev - 2;

1070

return 0;

1070

return 0;

1071

}

1071

}

1072

noff = nt_new(self);

1072

noff = nt_new(self);

1073

if (noff == -1)

1073

if (noff == -1)

1074

return -1;

1074

return -1;

1075

/* self->nodes may have been changed by realloc */

1075

/* self->nodes may have been changed by realloc */

1076

self->nodes[off].children[k] = noff;

1076

self->nodes[off].children[k] = noff;

1077

off = noff;

1077

off = noff;

1078

n = &self->nodes[off];

1078

n = &self->nodes[off];

1079

n->children[nt_level(oldnode, ++level)] = v;

1079

n->children[nt_level(oldnode, ++level)] = v;

1080

if (level > self->depth)

1080

if (level > self->depth)

1081

self->depth = level;

1081

self->depth = level;

1082

self->splits += 1;

1082

self->splits += 1;

1083

} else {

1083

} else {

1084

level += 1;

1084

level += 1;

1085

off = v;

1085

off = v;

1086

}

1086

}

1087

}

1087

}

1088

1089

return -1;

1089

return -1;

1090

}

1090

}

1091

1092

static int nt_delete_node(nodetree *self, const char *node)

1092

static int nt_delete_node(nodetree *self, const char *node)

1093

{

1093

{

1094

/* rev==-2 happens to get encoded as 0, which is interpreted as not set */

1094

/* rev==-2 happens to get encoded as 0, which is interpreted as not set */

1095

return nt_insert(self, node, -2);

1095

return nt_insert(self, node, -2);

1096

}

1096

}

1097

1098

static int nt_init(nodetree *self, indexObject *index, unsigned capacity)

1098

static int nt_init(nodetree *self, indexObject *index, unsigned capacity)

1099

{

1099

{

1100

self->index = index;

1100

self->index = index;

1101

self->capacity = capacity;

1101

self->capacity = capacity;

1102

self->depth = 0;

1102

self->depth = 0;

1103

self->splits = 0;

1103

self->splits = 0;

1104

self->nodes = calloc(self->capacity, sizeof(nodetreenode));

1104

self->nodes = calloc(self->capacity, sizeof(nodetreenode));

1105

if (self->nodes == NULL) {

1105

if (self->nodes == NULL) {

1106

PyErr_NoMemory();

1106

PyErr_NoMemory();

1107

return -1;

1107

return -1;

1108

}

1108

}

1109

self->length = 1;

1109

self->length = 1;

1110

if (nt_insert(self, nullid, -1) == -1) {

1110

if (nt_insert(self, nullid, -1) == -1) {

1111

free(self->nodes);

1111

free(self->nodes);

1112

return -1;

1112

return -1;

1113

}

1113

}

1114

return 0;

1114

return 0;

1115

}

1115

}

1116

1117

static int nt_partialmatch(nodetree *self, const char *node,

1118

Py_ssize_t nodelen)

1119

{

1120

return nt_find(self, node, nodelen, 1);

1121

}

1122

1123

/*

1124

* Find the length of the shortest unique prefix of node.

1125

*

1126

* Return values:

1127

*

1128

* -3: error (exception set)

1129

* -2: not found (no exception set)

1130

* rest: length of shortest prefix

1131

*/

1132

static int nt_shortest(nodetree *self, const char *node)

1133

{

1134

int level, off;

1135

1136

for (level = off = 0; level < 40; level++) {

1137

int k, v;

1138

nodetreenode *n = &self->nodes[off];

1139

k = nt_level(node, level);

1140

v = n->children[k];

1141

if (v < 0) {

1142

const char *n;

1143

v = -(v + 2);

1144

n = index_node_existing(self->index, v);

1145

if (n == NULL)

1146

return -3;

1147

if (memcmp(node, n, 20) != 0)

1148

/*

1149

* Found a unique prefix, but it wasn't for the

1150

* requested node (i.e the requested node does

1151

* not exist).

1152

*/

1153

return -2;

1154

return level + 1;

1155

}

1156

if (v == 0)

1157

return -2;

1158

off = v;

1159

}

1160

/*

1161

* The node was still not unique after 40 hex digits, so this won't

1162

* happen. Also, if we get here, then there's a programming error in

1163

* this file that made us insert a node longer than 40 hex digits.

1164

*/

1165

PyErr_SetString(PyExc_Exception, "broken node tree");

1166

return -3;

1167

}

1168

1117

static int index_init_nt(indexObject *self)

1169

static int index_init_nt(indexObject *self)

1118

{

1170

{

1119

if (self->nt == NULL) {

1171

if (self->nt == NULL) {

1120

if ((size_t)self->raw_length > INT_MAX / sizeof(nodetreenode)) {

1172

if ((size_t)self->raw_length > INT_MAX / sizeof(nodetreenode)) {

1121

PyErr_SetString(PyExc_ValueError, "overflow in index_init_nt");

1173

PyErr_SetString(PyExc_ValueError, "overflow in index_init_nt");

1122

return -1;

1174

return -1;

1123

}

1175

}

1124

self->nt = PyMem_Malloc(sizeof(nodetree));

1176

self->nt = PyMem_Malloc(sizeof(nodetree));

1125

if (self->nt == NULL) {

1177

if (self->nt == NULL) {

1126

PyErr_NoMemory();

1178

PyErr_NoMemory();

1127

return -1;

1179

return -1;

1128

}

1180

}

1129

unsigned capacity = (self->raw_length < 4 ? 4 : (int)self->raw_length / 2);

1181

unsigned capacity = (self->raw_length < 4 ? 4 : (int)self->raw_length / 2);

1130

if (nt_init(self->nt, self, capacity) == -1) {

1182

if (nt_init(self->nt, self, capacity) == -1) {

1131

PyMem_Free(self->nt);

1183

PyMem_Free(self->nt);

1132

self->nt = NULL;

1184

self->nt = NULL;

1133

return -1;

1185

return -1;

1134

}

1186

}

1135

self->ntrev = (int)index_length(self);

1187

self->ntrev = (int)index_length(self);

1136

self->ntlookups = 1;

1188

self->ntlookups = 1;

1137

self->ntmisses = 0;

1189

self->ntmisses = 0;

1138

}

1190

}

1139

return 0;

1191

return 0;

1140

}

1192

}

1141

1193

1142

/*

1194

/*

1143

* Return values:

1195

* Return values:

1144

*

1196

*

1145

* -3: error (exception set)

1197

* -3: error (exception set)

1146

* -2: not found (no exception set)

1198

* -2: not found (no exception set)

1147

* rest: valid rev

1199

* rest: valid rev

1148

*/

1200

*/

1149

static int index_find_node(indexObject *self,

1201

static int index_find_node(indexObject *self,

1150

const char *node, Py_ssize_t nodelen)

1202

const char *node, Py_ssize_t nodelen)

1151

{

1203

{

1152

int rev;

1204

int rev;

1153

1205

1154

if (index_init_nt(self) == -1)

1206

if (index_init_nt(self) == -1)

1155

return -3;

1207

return -3;

1156

1208

1157

self->ntlookups++;

1209

self->ntlookups++;

1158

rev = nt_find(self->nt, node, nodelen, 0);

1210

rev = nt_find(self->nt, node, nodelen, 0);

1159

if (rev >= -1)

1211

if (rev >= -1)

1160

return rev;

1212

return rev;

1161

1213

1162

/*

1214

/*

1163

* For the first handful of lookups, we scan the entire index,

1215

* For the first handful of lookups, we scan the entire index,

1164

* and cache only the matching nodes. This optimizes for cases

1216

* and cache only the matching nodes. This optimizes for cases

1165

* like "hg tip", where only a few nodes are accessed.

1217

* like "hg tip", where only a few nodes are accessed.

1166

*

1218

*

1167

* After that, we cache every node we visit, using a single

1219

* After that, we cache every node we visit, using a single

1168

* scan amortized over multiple lookups. This gives the best

1220

* scan amortized over multiple lookups. This gives the best

1169

* bulk performance, e.g. for "hg log".

1221

* bulk performance, e.g. for "hg log".

1170

*/

1222

*/

1171

if (self->ntmisses++ < 4) {

1223

if (self->ntmisses++ < 4) {

1172

for (rev = self->ntrev - 1; rev >= 0; rev--) {

1224

for (rev = self->ntrev - 1; rev >= 0; rev--) {

1173

const char *n = index_node_existing(self, rev);

1225

const char *n = index_node_existing(self, rev);

1174

if (n == NULL)

1226

if (n == NULL)

1175

return -3;

1227

return -3;

1176

if (memcmp(node, n, nodelen > 20 ? 20 : nodelen) == 0) {

1228

if (memcmp(node, n, nodelen > 20 ? 20 : nodelen) == 0) {

1177

if (nt_insert(self->nt, n, rev) == -1)

1229

if (nt_insert(self->nt, n, rev) == -1)

1178

return -3;

1230

return -3;

1179

break;

1231

break;

1180

}

1232

}

1181

}

1233

}

1182

} else {

1234

} else {

1183

for (rev = self->ntrev - 1; rev >= 0; rev--) {

1235

for (rev = self->ntrev - 1; rev >= 0; rev--) {

1184

const char *n = index_node_existing(self, rev);

1236

const char *n = index_node_existing(self, rev);

1185

if (n == NULL)

1237

if (n == NULL)

1186

return -3;

1238

return -3;

1187

if (nt_insert(self->nt, n, rev) == -1) {

1239

if (nt_insert(self->nt, n, rev) == -1) {

1188

self->ntrev = rev + 1;

1240

self->ntrev = rev + 1;

1189

return -3;

1241

return -3;

1190

}

1242

}

1191

if (memcmp(node, n, nodelen > 20 ? 20 : nodelen) == 0) {

1243

if (memcmp(node, n, nodelen > 20 ? 20 : nodelen) == 0) {

1192

break;

1244

break;

1193

}

1245

}

1194

}

1246

}

1195

self->ntrev = rev;

1247

self->ntrev = rev;

1196

}

1248

}

1197

1249

1198

if (rev >= 0)

1250

if (rev >= 0)

1199

return rev;

1251

return rev;

1200

return -2;

1252

return -2;

1201

}

1253

}

1202

1254

1203

static void raise_revlog_error(void)

1255

static void raise_revlog_error(void)

1204

{

1256

{

1205

PyObject *mod = NULL, *dict = NULL, *errclass = NULL;

1257

PyObject *mod = NULL, *dict = NULL, *errclass = NULL;

1206

1258

1207

mod = PyImport_ImportModule("mercurial.error");

1259

mod = PyImport_ImportModule("mercurial.error");

1208

if (mod == NULL) {

1260

if (mod == NULL) {

1209

goto cleanup;

1261

goto cleanup;

1210

}

1262

}

1211

1263

1212

dict = PyModule_GetDict(mod);

1264

dict = PyModule_GetDict(mod);

1213

if (dict == NULL) {

1265

if (dict == NULL) {

1214

goto cleanup;

1266

goto cleanup;

1215

}

1267

}

1216

Py_INCREF(dict);

1268

Py_INCREF(dict);

1217

1269

1218

errclass = PyDict_GetItemString(dict, "RevlogError");

1270

errclass = PyDict_GetItemString(dict, "RevlogError");

1219

if (errclass == NULL) {

1271

if (errclass == NULL) {

1220

PyErr_SetString(PyExc_SystemError,

1272

PyErr_SetString(PyExc_SystemError,

1221

"could not find RevlogError");

1273

"could not find RevlogError");

1222

goto cleanup;

1274

goto cleanup;

1223

}

1275

}

1224

1276

1225

/* value of exception is ignored by callers */

1277

/* value of exception is ignored by callers */

1226

PyErr_SetString(errclass, "RevlogError");

1278

PyErr_SetString(errclass, "RevlogError");

1227

1279

1228

cleanup:

1280

cleanup:

1229

Py_XDECREF(dict);

1281

Py_XDECREF(dict);

1230

Py_XDECREF(mod);

1282

Py_XDECREF(mod);

1231

}

1283

}

1232

1284

1233

static PyObject *index_getitem(indexObject *self, PyObject *value)

1285

static PyObject *index_getitem(indexObject *self, PyObject *value)

1234

{

1286

{

1235

char *node;

1287

char *node;

1236

int rev;

1288

int rev;

1237

1289

1238

if (PyInt_Check(value))

1290

if (PyInt_Check(value))

1239

return index_get(self, PyInt_AS_LONG(value));

1291

return index_get(self, PyInt_AS_LONG(value));

1240

1292

1241

if (node_check(value, &node) == -1)

1293

if (node_check(value, &node) == -1)

1242

return NULL;

1294

return NULL;

1243

rev = index_find_node(self, node, 20);

1295

rev = index_find_node(self, node, 20);

1244

if (rev >= -1)

1296

if (rev >= -1)

1245

return PyInt_FromLong(rev);

1297

return PyInt_FromLong(rev);

1246

if (rev == -2)

1298

if (rev == -2)

1247

raise_revlog_error();

1299

raise_revlog_error();

1248

return NULL;

1300

return NULL;

1249

}

1301

}

1250

1302

1251

/*

1303

/*

1252

* Fully populate the radix tree.

1304

* Fully populate the radix tree.

1253

*/

1305

*/

1254

static int index_populate_nt(indexObject *self) {

1306

static int index_populate_nt(indexObject *self) {

1255

int rev;

1307

int rev;

1256

if (self->ntrev > 0) {

1308

if (self->ntrev > 0) {

1257

for (rev = self->ntrev - 1; rev >= 0; rev--) {

1309

for (rev = self->ntrev - 1; rev >= 0; rev--) {

1258

const char *n = index_node_existing(self, rev);

1310

const char *n = index_node_existing(self, rev);

1259

if (n == NULL)

1311

if (n == NULL)

1260

return -1;

1312

return -1;

1261

if (nt_insert(self->nt, n, rev) == -1)

1313

if (nt_insert(self->nt, n, rev) == -1)

1262

return -1;

1314

return -1;

1263

}

1315

}

1264

self->ntrev = -1;

1316

self->ntrev = -1;

1265

}

1317

}

1266

return 0;

1318

return 0;

1267

}

1319

}

1268

1320

1269

static int nt_partialmatch(nodetree *self, const char *node,

1270

Py_ssize_t nodelen)

1271

{

1272

return nt_find(self, node, nodelen, 1);

1273

}

1274

1275

/*

1276

* Find the length of the shortest unique prefix of node.

1277

*

1278

* Return values:

1279

*

1280

* -3: error (exception set)

1281

* -2: not found (no exception set)

1282

* rest: length of shortest prefix

1283

*/

1284

static int nt_shortest(nodetree *self, const char *node)

1285

{

1286

int level, off;

1287

1288

for (level = off = 0; level < 40; level++) {

1289

int k, v;

1290

nodetreenode *n = &self->nodes[off];

1291

k = nt_level(node, level);

1292

v = n->children[k];

1293

if (v < 0) {

1294

const char *n;

1295

v = -(v + 2);

1296

n = index_node_existing(self->index, v);

1297

if (n == NULL)

1298

return -3;

1299

if (memcmp(node, n, 20) != 0)

1300

/*

1301

* Found a unique prefix, but it wasn't for the

1302

* requested node (i.e the requested node does

1303

* not exist).

1304

*/

1305

return -2;

1306

return level + 1;

1307

}

1308

if (v == 0)

1309

return -2;

1310

off = v;

1311

}

1312

/*

1313

* The node was still not unique after 40 hex digits, so this won't

1314

* happen. Also, if we get here, then there's a programming error in

1315

* this file that made us insert a node longer than 40 hex digits.

1316

*/

1317

PyErr_SetString(PyExc_Exception, "broken node tree");

1318

return -3;

1319

}

1320

1321

static PyObject *index_partialmatch(indexObject *self, PyObject *args)

1321

static PyObject *index_partialmatch(indexObject *self, PyObject *args)

1322

{

1322

{

1323

const char *fullnode;

1323

const char *fullnode;

1324

int nodelen;

1324

int nodelen;

1325

char *node;

1325

char *node;

1326

int rev, i;

1326

int rev, i;

1327

1328

if (!PyArg_ParseTuple(args, PY23("s#", "y#"), &node, &nodelen))

1328

if (!PyArg_ParseTuple(args, PY23("s#", "y#"), &node, &nodelen))

1329

return NULL;

1329

return NULL;

1330

1331

if (nodelen < 1) {

1331

if (nodelen < 1) {

1332

PyErr_SetString(PyExc_ValueError, "key too short");

1332

PyErr_SetString(PyExc_ValueError, "key too short");

1333

return NULL;

1333

return NULL;

1334

}

1334

}

1335

1336

if (nodelen > 40) {

1336

if (nodelen > 40) {

1337

PyErr_SetString(PyExc_ValueError, "key too long");

1337

PyErr_SetString(PyExc_ValueError, "key too long");

1338

return NULL;

1338

return NULL;

1339

}

1339

}

1340

1341

for (i = 0; i < nodelen; i++)

1341

for (i = 0; i < nodelen; i++)

1342

hexdigit(node, i);

1342

hexdigit(node, i);

1343

if (PyErr_Occurred()) {

1343

if (PyErr_Occurred()) {

1344

/* input contains non-hex characters */

1344

/* input contains non-hex characters */

1345

PyErr_Clear();

1345

PyErr_Clear();

1346

Py_RETURN_NONE;

1346

Py_RETURN_NONE;

1347

}

1347

}

1348

1349

if (index_init_nt(self) == -1)

1349

if (index_init_nt(self) == -1)

1350

return NULL;

1350

return NULL;

1351

if (index_populate_nt(self) == -1)

1351

if (index_populate_nt(self) == -1)

1352

return NULL;

1352

return NULL;

1353

rev = nt_partialmatch(self->nt, node, nodelen);

1353

rev = nt_partialmatch(self->nt, node, nodelen);

1354

1355

switch (rev) {

1355

switch (rev) {

1356

case -4:

1356

case -4:

1357

raise_revlog_error();

1357

raise_revlog_error();

1358

return NULL;

1358

return NULL;

1359

case -2:

1359

case -2:

1360

Py_RETURN_NONE;

1360

Py_RETURN_NONE;

1361

case -1:

1361

case -1:

1362

return PyBytes_FromStringAndSize(nullid, 20);

1362

return PyBytes_FromStringAndSize(nullid, 20);

1363

}

1363

}

1364

1365

fullnode = index_node_existing(self, rev);

1365

fullnode = index_node_existing(self, rev);

1366

if (fullnode == NULL) {

1366

if (fullnode == NULL) {

1367

return NULL;

1367

return NULL;

1368

}

1368

}

1369

return PyBytes_FromStringAndSize(fullnode, 20);

1369

return PyBytes_FromStringAndSize(fullnode, 20);

1370

}

1370

}

1371

1372

static PyObject *index_shortest(indexObject *self, PyObject *args)

1372

static PyObject *index_shortest(indexObject *self, PyObject *args)

1373

{

1373

{

1374

PyObject *val;

1374

PyObject *val;

1375

char *node;

1375

char *node;

1376

int length;

1376

int length;

1377

1378

if (!PyArg_ParseTuple(args, "O", &val))

1378

if (!PyArg_ParseTuple(args, "O", &val))

1379

return NULL;

1379

return NULL;

1380

if (node_check(val, &node) == -1)

1380

if (node_check(val, &node) == -1)

1381

return NULL;

1381

return NULL;

1382

1383

self->ntlookups++;

1383

self->ntlookups++;

1384

if (index_init_nt(self) == -1)

1384

if (index_init_nt(self) == -1)

1385

return NULL;

1385

return NULL;

1386

if (index_populate_nt(self) == -1)

1386

if (index_populate_nt(self) == -1)

1387

return NULL;

1387

return NULL;

1388

length = nt_shortest(self->nt, node);

1388

length = nt_shortest(self->nt, node);

1389

if (length == -3)

1389

if (length == -3)

1390

return NULL;

1390

return NULL;

1391

if (length == -2) {

1391

if (length == -2) {

1392

raise_revlog_error();

1392

raise_revlog_error();

1393

return NULL;

1393

return NULL;

1394

}

1394

}

1395

return PyInt_FromLong(length);

1395

return PyInt_FromLong(length);

1396

}

1396

}

1397

1398

static PyObject *index_m_get(indexObject *self, PyObject *args)

1398

static PyObject *index_m_get(indexObject *self, PyObject *args)

1399

{

1399

{

1400

PyObject *val;

1400

PyObject *val;

1401

char *node;

1401

char *node;

1402

int rev;

1402

int rev;

1403

1404

if (!PyArg_ParseTuple(args, "O", &val))

1404

if (!PyArg_ParseTuple(args, "O", &val))

1405

return NULL;

1405

return NULL;

1406

if (node_check(val, &node) == -1)

1406

if (node_check(val, &node) == -1)

1407

return NULL;

1407

return NULL;

1408

rev = index_find_node(self, node, 20);

1408

rev = index_find_node(self, node, 20);

1409

if (rev == -3)

1409

if (rev == -3)

1410

return NULL;

1410

return NULL;

1411

if (rev == -2)

1411

if (rev == -2)

1412

Py_RETURN_NONE;

1412

Py_RETURN_NONE;

1413

return PyInt_FromLong(rev);

1413

return PyInt_FromLong(rev);

1414

}

1414

}

1415

1416

static int index_contains(indexObject *self, PyObject *value)

1416

static int index_contains(indexObject *self, PyObject *value)

1417

{

1417

{

1418

char *node;

1418

char *node;

1419

1420

if (PyInt_Check(value)) {

1420

if (PyInt_Check(value)) {

1421

long rev = PyInt_AS_LONG(value);

1421

long rev = PyInt_AS_LONG(value);

1422

return rev >= -1 && rev < index_length(self);

1422

return rev >= -1 && rev < index_length(self);

1423

}

1423

}

1424

1425

if (node_check(value, &node) == -1)

1425

if (node_check(value, &node) == -1)

1426

return -1;

1426

return -1;

1427

1428

switch (index_find_node(self, node, 20)) {

1428

switch (index_find_node(self, node, 20)) {

1429

case -3:

1429

case -3:

1430

return -1;

1430

return -1;

1431

case -2:

1431

case -2:

1432

return 0;

1432

return 0;

1433

default:

1433

default:

1434

return 1;

1434

return 1;

1435

}

1435

}

1436

}

1436

}

1437

1438

typedef uint64_t bitmask;

1438

typedef uint64_t bitmask;

1439

1440

/*

1440

/*

1441

* Given a disjoint set of revs, return all candidates for the

1441

* Given a disjoint set of revs, return all candidates for the

1442

* greatest common ancestor. In revset notation, this is the set

1442

* greatest common ancestor. In revset notation, this is the set

1443

* "heads(::a and ::b and ...)"

1443

* "heads(::a and ::b and ...)"

1444

*/

1444

*/

1445

static PyObject *find_gca_candidates(indexObject *self, const int *revs,

1445

static PyObject *find_gca_candidates(indexObject *self, const int *revs,

1446

int revcount)

1446

int revcount)

1447

{

1447

{

1448

const bitmask allseen = (1ull << revcount) - 1;

1448

const bitmask allseen = (1ull << revcount) - 1;

1449

const bitmask poison = 1ull << revcount;

1449

const bitmask poison = 1ull << revcount;

1450

PyObject *gca = PyList_New(0);

1450

PyObject *gca = PyList_New(0);

1451

int i, v, interesting;

1451

int i, v, interesting;

1452

int maxrev = -1;

1452

int maxrev = -1;

1453

bitmask sp;

1453

bitmask sp;

1454

bitmask *seen;

1454

bitmask *seen;

1455

1456

if (gca == NULL)

1456

if (gca == NULL)

1457

return PyErr_NoMemory();

1457

return PyErr_NoMemory();

1458

1459

for (i = 0; i < revcount; i++) {

1459

for (i = 0; i < revcount; i++) {

1460

if (revs[i] > maxrev)

1460

if (revs[i] > maxrev)

1461

maxrev = revs[i];

1461

maxrev = revs[i];

1462

}

1462

}

1463

1464

seen = calloc(sizeof(*seen), maxrev + 1);

1464

seen = calloc(sizeof(*seen), maxrev + 1);

1465

if (seen == NULL) {

1465

if (seen == NULL) {

1466

Py_DECREF(gca);

1466

Py_DECREF(gca);

1467

return PyErr_NoMemory();

1467

return PyErr_NoMemory();

1468

}

1468

}

1469

1470

for (i = 0; i < revcount; i++)

1470

for (i = 0; i < revcount; i++)

1471

seen[revs[i]] = 1ull << i;

1471

seen[revs[i]] = 1ull << i;

1472

1473

interesting = revcount;

1473

interesting = revcount;

1474

1475

for (v = maxrev; v >= 0 && interesting; v--) {

1475

for (v = maxrev; v >= 0 && interesting; v--) {

1476

bitmask sv = seen[v];

1476

bitmask sv = seen[v];

1477

int parents[2];

1477

int parents[2];

1478

1479

if (!sv)

1479

if (!sv)

1480

continue;

1480

continue;

1481

1482

if (sv < poison) {

1482

if (sv < poison) {

1483

interesting -= 1;

1483

interesting -= 1;

1484

if (sv == allseen) {

1484

if (sv == allseen) {

1485

PyObject *obj = PyInt_FromLong(v);

1485

PyObject *obj = PyInt_FromLong(v);

1486

if (obj == NULL)

1486

if (obj == NULL)

1487

goto bail;

1487

goto bail;

1488

if (PyList_Append(gca, obj) == -1) {

1488

if (PyList_Append(gca, obj) == -1) {

1489

Py_DECREF(obj);

1489

Py_DECREF(obj);

1490

goto bail;

1490

goto bail;

1491

}

1491

}

1492

sv |= poison;

1492

sv |= poison;

1493

for (i = 0; i < revcount; i++) {

1493

for (i = 0; i < revcount; i++) {

1494

if (revs[i] == v)

1494

if (revs[i] == v)

1495

goto done;

1495

goto done;

1496

}

1496

}

1497

}

1497

}

1498

}

1498

}

1499

if (index_get_parents(self, v, parents, maxrev) < 0)

1499

if (index_get_parents(self, v, parents, maxrev) < 0)

1500

goto bail;

1500

goto bail;

1501

1502

for (i = 0; i < 2; i++) {

1502

for (i = 0; i < 2; i++) {

1503

int p = parents[i];

1503

int p = parents[i];

1504

if (p == -1)

1504

if (p == -1)

1505

continue;

1505

continue;

1506

sp = seen[p];

1506

sp = seen[p];

1507

if (sv < poison) {

1507

if (sv < poison) {

1508

if (sp == 0) {

1508

if (sp == 0) {

1509

seen[p] = sv;

1509

seen[p] = sv;

1510

interesting++;

1510

interesting++;

1511

}

1511

}

1512

else if (sp != sv)

1512

else if (sp != sv)

1513

seen[p] |= sv;

1513

seen[p] |= sv;

1514

} else {

1514

} else {

1515

if (sp && sp < poison)

1515

if (sp && sp < poison)

1516

interesting--;

1516

interesting--;

1517

seen[p] = sv;

1517

seen[p] = sv;

1518

}

1518

}

1519

}

1519

}

1520

}

1520

}

1521

1522

done:

1522

done:

1523

free(seen);

1523

free(seen);

1524

return gca;

1524

return gca;

1525

bail:

1525

bail:

1526

free(seen);

1526

free(seen);

1527

Py_XDECREF(gca);

1527

Py_XDECREF(gca);

1528

return NULL;

1528

return NULL;

1529

}

1529

}

1530

1531

/*

1531

/*

1532

* Given a disjoint set of revs, return the subset with the longest

1532

* Given a disjoint set of revs, return the subset with the longest

1533

* path to the root.

1533

* path to the root.

1534

*/

1534

*/

1535

static PyObject *find_deepest(indexObject *self, PyObject *revs)

1535

static PyObject *find_deepest(indexObject *self, PyObject *revs)

1536

{

1536

{

1537

const Py_ssize_t revcount = PyList_GET_SIZE(revs);

1537

const Py_ssize_t revcount = PyList_GET_SIZE(revs);

1538

static const Py_ssize_t capacity = 24;

1538

static const Py_ssize_t capacity = 24;

1539

int *depth, *interesting = NULL;

1539

int *depth, *interesting = NULL;

1540

int i, j, v, ninteresting;

1540

int i, j, v, ninteresting;

1541

PyObject *dict = NULL, *keys = NULL;

1541

PyObject *dict = NULL, *keys = NULL;

1542

long *seen = NULL;

1542

long *seen = NULL;

1543

int maxrev = -1;

1543

int maxrev = -1;

1544

long final;

1544

long final;

1545

1546

if (revcount > capacity) {

1546

if (revcount > capacity) {

1547

PyErr_Format(PyExc_OverflowError,

1547

PyErr_Format(PyExc_OverflowError,

1548

"bitset size (%ld) > capacity (%ld)",

1548

"bitset size (%ld) > capacity (%ld)",

1549

(long)revcount, (long)capacity);

1549

(long)revcount, (long)capacity);

1550

return NULL;

1550

return NULL;

1551

}

1551

}

1552

1553

for (i = 0; i < revcount; i++) {

1553

for (i = 0; i < revcount; i++) {

1554

int n = (int)PyInt_AsLong(PyList_GET_ITEM(revs, i));

1554

int n = (int)PyInt_AsLong(PyList_GET_ITEM(revs, i));

1555

if (n > maxrev)

1555

if (n > maxrev)

1556

maxrev = n;

1556

maxrev = n;

1557

}

1557

}

1558

1559

depth = calloc(sizeof(*depth), maxrev + 1);

1559

depth = calloc(sizeof(*depth), maxrev + 1);

1560

if (depth == NULL)

1560

if (depth == NULL)

1561

return PyErr_NoMemory();

1561

return PyErr_NoMemory();

1562

1563

seen = calloc(sizeof(*seen), maxrev + 1);

1563

seen = calloc(sizeof(*seen), maxrev + 1);

1564

if (seen == NULL) {

1564

if (seen == NULL) {

1565

PyErr_NoMemory();

1565

PyErr_NoMemory();

1566

goto bail;

1566

goto bail;

1567

}

1567

}

1568

1569

interesting = calloc(sizeof(*interesting), 1 << revcount);

1569

interesting = calloc(sizeof(*interesting), 1 << revcount);

1570

if (interesting == NULL) {

1570

if (interesting == NULL) {

1571

PyErr_NoMemory();

1571

PyErr_NoMemory();

1572

goto bail;

1572

goto bail;

1573

}

1573

}

1574

1575

if (PyList_Sort(revs) == -1)

1575

if (PyList_Sort(revs) == -1)

1576

goto bail;

1576

goto bail;

1577

1578

for (i = 0; i < revcount; i++) {

1578

for (i = 0; i < revcount; i++) {

1579

int n = (int)PyInt_AsLong(PyList_GET_ITEM(revs, i));

1579

int n = (int)PyInt_AsLong(PyList_GET_ITEM(revs, i));

1580

long b = 1l << i;

1580

long b = 1l << i;

1581

depth[n] = 1;

1581

depth[n] = 1;

1582

seen[n] = b;

1582

seen[n] = b;

1583

interesting[b] = 1;

1583

interesting[b] = 1;

1584

}

1584

}

1585

1586

/* invariant: ninteresting is the number of non-zero entries in

1586

/* invariant: ninteresting is the number of non-zero entries in

1587

* interesting. */

1587

* interesting. */

1588

ninteresting = (int)revcount;

1588

ninteresting = (int)revcount;

1589

1590

for (v = maxrev; v >= 0 && ninteresting > 1; v--) {

1590

for (v = maxrev; v >= 0 && ninteresting > 1; v--) {

1591

int dv = depth[v];

1591

int dv = depth[v];

1592

int parents[2];

1592

int parents[2];

1593

long sv;

1593

long sv;

1594

1595

if (dv == 0)

1595

if (dv == 0)

1596

continue;

1596

continue;

1597

1598

sv = seen[v];

1598

sv = seen[v];

1599

if (index_get_parents(self, v, parents, maxrev) < 0)

1599

if (index_get_parents(self, v, parents, maxrev) < 0)

1600

goto bail;

1600

goto bail;

1601

1602

for (i = 0; i < 2; i++) {

1602

for (i = 0; i < 2; i++) {

1603

int p = parents[i];

1603

int p = parents[i];

1604

long sp;

1604

long sp;

1605

int dp;

1605

int dp;

1606

1607

if (p == -1)

1607

if (p == -1)

1608

continue;

1608

continue;

1609

1610

dp = depth[p];

1610

dp = depth[p];

1611

sp = seen[p];

1611

sp = seen[p];

1612

if (dp <= dv) {

1612

if (dp <= dv) {

1613

depth[p] = dv + 1;

1613

depth[p] = dv + 1;

1614

if (sp != sv) {

1614

if (sp != sv) {

1615

interesting[sv] += 1;

1615

interesting[sv] += 1;

1616

seen[p] = sv;

1616

seen[p] = sv;

1617

if (sp) {

1617

if (sp) {

1618

interesting[sp] -= 1;

1618

interesting[sp] -= 1;

1619

if (interesting[sp] == 0)

1619

if (interesting[sp] == 0)

1620

ninteresting -= 1;

1620

ninteresting -= 1;

1621

}

1621

}

1622

}

1622

}

1623

}

1623

}

1624

else if (dv == dp - 1) {

1624

else if (dv == dp - 1) {

1625

long nsp = sp | sv;

1625

long nsp = sp | sv;

1626

if (nsp == sp)

1626

if (nsp == sp)

1627

continue;

1627

continue;

1628

seen[p] = nsp;

1628

seen[p] = nsp;

1629

interesting[sp] -= 1;

1629

interesting[sp] -= 1;

1630

if (interesting[sp] == 0)

1630

if (interesting[sp] == 0)

1631

ninteresting -= 1;

1631

ninteresting -= 1;

1632

if (interesting[nsp] == 0)

1632

if (interesting[nsp] == 0)

1633

ninteresting += 1;

1633

ninteresting += 1;

1634

interesting[nsp] += 1;

1634

interesting[nsp] += 1;

1635

}

1635

}

1636

}

1636

}

1637

interesting[sv] -= 1;

1637

interesting[sv] -= 1;

1638

if (interesting[sv] == 0)

1638

if (interesting[sv] == 0)

1639

ninteresting -= 1;

1639

ninteresting -= 1;

1640

}

1640

}

1641

1642

final = 0;

1642

final = 0;

1643

j = ninteresting;

1643

j = ninteresting;

1644

for (i = 0; i < (int)(2 << revcount) && j > 0; i++) {

1644

for (i = 0; i < (int)(2 << revcount) && j > 0; i++) {

1645

if (interesting[i] == 0)

1645

if (interesting[i] == 0)

1646

continue;

1646

continue;

1647

final |= i;

1647

final |= i;

1648

j -= 1;

1648

j -= 1;

1649

}

1649

}

1650

if (final == 0) {

1650

if (final == 0) {

1651

keys = PyList_New(0);

1651

keys = PyList_New(0);

1652

goto bail;

1652

goto bail;

1653

}

1653

}

1654

1655

dict = PyDict_New();

1655

dict = PyDict_New();

1656

if (dict == NULL)

1656

if (dict == NULL)

1657

goto bail;

1657

goto bail;

1658

1659

for (i = 0; i < revcount; i++) {

1659

for (i = 0; i < revcount; i++) {

1660

PyObject *key;

1660

PyObject *key;

1661

1662

if ((final & (1 << i)) == 0)

1662

if ((final & (1 << i)) == 0)

1663

continue;

1663

continue;

1664

1665

key = PyList_GET_ITEM(revs, i);

1665

key = PyList_GET_ITEM(revs, i);

1666

Py_INCREF(key);

1666

Py_INCREF(key);

1667

Py_INCREF(Py_None);

1667

Py_INCREF(Py_None);

1668

if (PyDict_SetItem(dict, key, Py_None) == -1) {

1668

if (PyDict_SetItem(dict, key, Py_None) == -1) {

1669

Py_DECREF(key);

1669

Py_DECREF(key);

1670

Py_DECREF(Py_None);

1670

Py_DECREF(Py_None);

1671

goto bail;

1671

goto bail;

1672

}

1672

}

1673

}

1673

}

1674

1675

keys = PyDict_Keys(dict);

1675

keys = PyDict_Keys(dict);

1676

1677

bail:

1677

bail:

1678

free(depth);

1678

free(depth);

1679

free(seen);

1679

free(seen);

1680

free(interesting);

1680

free(interesting);

1681

Py_XDECREF(dict);

1681

Py_XDECREF(dict);

1682

1683

return keys;

1683

return keys;

1684

}

1684

}

1685

1686

/*

1686

/*

1687

* Given a (possibly overlapping) set of revs, return all the

1687

* Given a (possibly overlapping) set of revs, return all the

1688

* common ancestors heads: heads(::args[0] and ::a[1] and ...)

1688

* common ancestors heads: heads(::args[0] and ::a[1] and ...)

1689

*/

1689

*/

1690

static PyObject *index_commonancestorsheads(indexObject *self, PyObject *args)

1690

static PyObject *index_commonancestorsheads(indexObject *self, PyObject *args)

1691

{

1691

{

1692

PyObject *ret = NULL;

1692

PyObject *ret = NULL;

1693

Py_ssize_t argcount, i, len;

1693

Py_ssize_t argcount, i, len;

1694

bitmask repeat = 0;

1694

bitmask repeat = 0;

1695

int revcount = 0;

1695

int revcount = 0;

1696

int *revs;

1696

int *revs;

1697

1698

argcount = PySequence_Length(args);

1698

argcount = PySequence_Length(args);

1699

revs = PyMem_Malloc(argcount * sizeof(*revs));

1699

revs = PyMem_Malloc(argcount * sizeof(*revs));

1700

if (argcount > 0 && revs == NULL)

1700

if (argcount > 0 && revs == NULL)

1701

return PyErr_NoMemory();

1701

return PyErr_NoMemory();

1702

len = index_length(self);

1702

len = index_length(self);

1703

1704

for (i = 0; i < argcount; i++) {

1704

for (i = 0; i < argcount; i++) {

1705

static const int capacity = 24;

1705

static const int capacity = 24;

1706

PyObject *obj = PySequence_GetItem(args, i);

1706

PyObject *obj = PySequence_GetItem(args, i);

1707

bitmask x;

1707

bitmask x;

1708

long val;

1708

long val;

1709

1710

if (!PyInt_Check(obj)) {

1710

if (!PyInt_Check(obj)) {

1711

PyErr_SetString(PyExc_TypeError,

1711

PyErr_SetString(PyExc_TypeError,

1712

"arguments must all be ints");

1712

"arguments must all be ints");

1713

Py_DECREF(obj);

1713

Py_DECREF(obj);

1714

goto bail;

1714

goto bail;

1715

}

1715

}

1716

val = PyInt_AsLong(obj);

1716

val = PyInt_AsLong(obj);

1717

Py_DECREF(obj);

1717

Py_DECREF(obj);

1718

if (val == -1) {

1718

if (val == -1) {

1719

ret = PyList_New(0);

1719

ret = PyList_New(0);

1720

goto done;

1720

goto done;

1721

}

1721

}

1722

if (val < 0 || val >= len) {

1722

if (val < 0 || val >= len) {

1723

PyErr_SetString(PyExc_IndexError,

1723

PyErr_SetString(PyExc_IndexError,

1724

"index out of range");

1724

"index out of range");

1725

goto bail;

1725

goto bail;

1726

}

1726

}

1727

/* this cheesy bloom filter lets us avoid some more

1727

/* this cheesy bloom filter lets us avoid some more

1728

* expensive duplicate checks in the common set-is-disjoint

1728

* expensive duplicate checks in the common set-is-disjoint

1729

* case */

1729

* case */

1730

x = 1ull << (val & 0x3f);

1730

x = 1ull << (val & 0x3f);

1731

if (repeat & x) {

1731

if (repeat & x) {

1732

int k;

1732

int k;

1733

for (k = 0; k < revcount; k++) {

1733

for (k = 0; k < revcount; k++) {

1734

if (val == revs[k])

1734

if (val == revs[k])

1735

goto duplicate;

1735

goto duplicate;

1736

}

1736

}

1737

}

1737

}

1738

else repeat |= x;

1738

else repeat |= x;

1739

if (revcount >= capacity) {

1739

if (revcount >= capacity) {

1740

PyErr_Format(PyExc_OverflowError,

1740

PyErr_Format(PyExc_OverflowError,

1741

"bitset size (%d) > capacity (%d)",

1741

"bitset size (%d) > capacity (%d)",

1742

revcount, capacity);

1742

revcount, capacity);

1743

goto bail;

1743

goto bail;

1744

}

1744

}

1745

revs[revcount++] = (int)val;

1745

revs[revcount++] = (int)val;

1746

duplicate:;

1746

duplicate:;

1747

}

1747

}

1748

1749

if (revcount == 0) {

1749

if (revcount == 0) {

1750

ret = PyList_New(0);

1750

ret = PyList_New(0);

1751

goto done;

1751

goto done;

1752

}

1752

}

1753

if (revcount == 1) {

1753

if (revcount == 1) {

1754

PyObject *obj;

1754

PyObject *obj;

1755

ret = PyList_New(1);

1755

ret = PyList_New(1);

1756

if (ret == NULL)

1756

if (ret == NULL)

1757

goto bail;

1757

goto bail;

1758

obj = PyInt_FromLong(revs[0]);

1758

obj = PyInt_FromLong(revs[0]);

1759

if (obj == NULL)

1759

if (obj == NULL)

1760

goto bail;

1760

goto bail;

1761

PyList_SET_ITEM(ret, 0, obj);

1761

PyList_SET_ITEM(ret, 0, obj);

1762

goto done;

1762

goto done;

1763

}

1763

}

1764

1765

ret = find_gca_candidates(self, revs, revcount);

1765

ret = find_gca_candidates(self, revs, revcount);

1766

if (ret == NULL)

1766

if (ret == NULL)

1767

goto bail;

1767

goto bail;

1768

1769

done:

1769

done:

1770

PyMem_Free(revs);

1770

PyMem_Free(revs);

1771

return ret;

1771

return ret;

1772

1773

bail:

1773

bail:

1774

PyMem_Free(revs);

1774

PyMem_Free(revs);

1775

Py_XDECREF(ret);

1775

Py_XDECREF(ret);

1776

return NULL;

1776

return NULL;

1777

}

1777

}

1778

1779

/*

1779

/*

1780

* Given a (possibly overlapping) set of revs, return the greatest

1780

* Given a (possibly overlapping) set of revs, return the greatest

1781

* common ancestors: those with the longest path to the root.

1781

* common ancestors: those with the longest path to the root.

1782

*/

1782

*/

1783

static PyObject *index_ancestors(indexObject *self, PyObject *args)

1783

static PyObject *index_ancestors(indexObject *self, PyObject *args)

1784

{

1784

{

1785

PyObject *ret;

1785

PyObject *ret;

1786

PyObject *gca = index_commonancestorsheads(self, args);

1786

PyObject *gca = index_commonancestorsheads(self, args);

1787

if (gca == NULL)

1787

if (gca == NULL)

1788

return NULL;

1788

return NULL;

1789

1790

if (PyList_GET_SIZE(gca) <= 1) {

1790

if (PyList_GET_SIZE(gca) <= 1) {

1791

return gca;

1791

return gca;

1792

}

1792

}

1793

1794

ret = find_deepest(self, gca);

1794

ret = find_deepest(self, gca);

1795

Py_DECREF(gca);

1795

Py_DECREF(gca);

1796

return ret;

1796

return ret;

1797

}

1797

}

1798

1799

/*

1799

/*

1800

* Invalidate any trie entries introduced by added revs.

1800

* Invalidate any trie entries introduced by added revs.

1801

*/

1801

*/

1802

static void index_invalidate_added(indexObject *self, Py_ssize_t start)

1802

static void index_invalidate_added(indexObject *self, Py_ssize_t start)

1803

{

1803

{

1804

Py_ssize_t i, len = PyList_GET_SIZE(self->added);

1804

Py_ssize_t i, len = PyList_GET_SIZE(self->added);

1805

1806

for (i = start; i < len; i++) {

1806

for (i = start; i < len; i++) {

1807

PyObject *tuple = PyList_GET_ITEM(self->added, i);

1807

PyObject *tuple = PyList_GET_ITEM(self->added, i);

1808

PyObject *node = PyTuple_GET_ITEM(tuple, 7);

1808

PyObject *node = PyTuple_GET_ITEM(tuple, 7);

1809

1810

nt_delete_node(self->nt, PyBytes_AS_STRING(node));

1810

nt_delete_node(self->nt, PyBytes_AS_STRING(node));

1811

}

1811

}

1812

1813

if (start == 0)

1813

if (start == 0)

1814

Py_CLEAR(self->added);

1814

Py_CLEAR(self->added);

1815

}

1815

}

1816

1817

/*

1817

/*

1818

* Delete a numeric range of revs, which must be at the end of the

1818

* Delete a numeric range of revs, which must be at the end of the

1819

* range, but exclude the sentinel nullid entry.

1819

* range, but exclude the sentinel nullid entry.

1820

*/

1820

*/

1821

static int index_slice_del(indexObject *self, PyObject *item)

1821

static int index_slice_del(indexObject *self, PyObject *item)

1822

{

1822

{

1823

Py_ssize_t start, stop, step, slicelength;

1823

Py_ssize_t start, stop, step, slicelength;

1824

Py_ssize_t length = index_length(self) + 1;

1824

Py_ssize_t length = index_length(self) + 1;

1825

int ret = 0;

1825

int ret = 0;

1826

1827

/* Argument changed from PySliceObject* to PyObject* in Python 3. */

1827

/* Argument changed from PySliceObject* to PyObject* in Python 3. */

1828

#ifdef IS_PY3K

1828

#ifdef IS_PY3K

1829

if (PySlice_GetIndicesEx(item, length,

1829

if (PySlice_GetIndicesEx(item, length,

1830

#else

1830

#else

1831

if (PySlice_GetIndicesEx((PySliceObject*)item, length,

1831

if (PySlice_GetIndicesEx((PySliceObject*)item, length,

1832

#endif

1832

#endif

1833

&start, &stop, &step, &slicelength) < 0)

1833

&start, &stop, &step, &slicelength) < 0)

1834

return -1;

1834

return -1;

1835

1836

if (slicelength <= 0)

1836

if (slicelength <= 0)

1837

return 0;

1837

return 0;

1838

1839

if ((step < 0 && start < stop) || (step > 0 && start > stop))

1839

if ((step < 0 && start < stop) || (step > 0 && start > stop))

1840

stop = start;

1840

stop = start;

1841

1842

if (step < 0) {

1842

if (step < 0) {

1843

stop = start + 1;

1843

stop = start + 1;

1844

start = stop + step*(slicelength - 1) - 1;

1844

start = stop + step*(slicelength - 1) - 1;

1845

step = -step;

1845

step = -step;

1846

}

1846

}

1847

1848

if (step != 1) {

1848

if (step != 1) {

1849

PyErr_SetString(PyExc_ValueError,

1849

PyErr_SetString(PyExc_ValueError,

1850

"revlog index delete requires step size of 1");

1850

"revlog index delete requires step size of 1");

1851

return -1;

1851

return -1;

1852

}

1852

}

1853

1854

if (stop != length - 1) {

1854

if (stop != length - 1) {

1855

PyErr_SetString(PyExc_IndexError,

1855

PyErr_SetString(PyExc_IndexError,

1856

"revlog index deletion indices are invalid");

1856

"revlog index deletion indices are invalid");

1857

return -1;

1857

return -1;

1858

}

1858

}

1859

1860

if (start < self->length - 1) {

1860

if (start < self->length - 1) {

1861

if (self->nt) {

1861

if (self->nt) {

1862

Py_ssize_t i;

1862

Py_ssize_t i;

1863

1864

for (i = start + 1; i < self->length - 1; i++) {

1864

for (i = start + 1; i < self->length - 1; i++) {

1865

const char *node = index_node_existing(self, i);

1865

const char *node = index_node_existing(self, i);

1866

if (node == NULL)

1866

if (node == NULL)

1867

return -1;

1867

return -1;

1868

1869

nt_delete_node(self->nt, node);

1869

nt_delete_node(self->nt, node);

1870

}

1870

}

1871

if (self->added)

1871

if (self->added)

1872

index_invalidate_added(self, 0);

1872

index_invalidate_added(self, 0);

1873

if (self->ntrev > start)

1873

if (self->ntrev > start)

1874

self->ntrev = (int)start;

1874

self->ntrev = (int)start;

1875

}

1875

}

1876

self->length = start + 1;

1876

self->length = start + 1;

1877

if (start < self->raw_length) {

1877

if (start < self->raw_length) {

1878

if (self->cache) {

1878

if (self->cache) {

1879

Py_ssize_t i;

1879

Py_ssize_t i;

1880

for (i = start; i < self->raw_length; i++)

1880

for (i = start; i < self->raw_length; i++)

1881

Py_CLEAR(self->cache[i]);

1881

Py_CLEAR(self->cache[i]);

1882

}

1882

}

1883

self->raw_length = start;

1883

self->raw_length = start;

1884

}

1884

}

1885

goto done;

1885

goto done;

1886

}

1886

}

1887

1888

if (self->nt) {

1888

if (self->nt) {

1889

index_invalidate_added(self, start - self->length + 1);

1889

index_invalidate_added(self, start - self->length + 1);

1890

if (self->ntrev > start)

1890

if (self->ntrev > start)

1891

self->ntrev = (int)start;

1891

self->ntrev = (int)start;

1892

}

1892

}

1893

if (self->added)

1893

if (self->added)

1894

ret = PyList_SetSlice(self->added, start - self->length + 1,

1894

ret = PyList_SetSlice(self->added, start - self->length + 1,

1895

PyList_GET_SIZE(self->added), NULL);

1895

PyList_GET_SIZE(self->added), NULL);

1896

done:

1896

done:

1897

Py_CLEAR(self->headrevs);

1897

Py_CLEAR(self->headrevs);

1898

return ret;

1898

return ret;

1899

}

1899

}

1900

1901

/*

1901

/*

1902

* Supported ops:

1902

* Supported ops:

1903

*

1903

*

1904

* slice deletion

1904

* slice deletion

1905

* string assignment (extend node->rev mapping)

1905

* string assignment (extend node->rev mapping)

1906

* string deletion (shrink node->rev mapping)

1906

* string deletion (shrink node->rev mapping)

1907

*/

1907

*/

1908

static int index_assign_subscript(indexObject *self, PyObject *item,

1908

static int index_assign_subscript(indexObject *self, PyObject *item,

1909

PyObject *value)

1909

PyObject *value)

1910

{

1910

{

1911

char *node;

1911

char *node;

1912

long rev;

1912

long rev;

1913

1914

if (PySlice_Check(item) && value == NULL)

1914

if (PySlice_Check(item) && value == NULL)

1915

return index_slice_del(self, item);

1915

return index_slice_del(self, item);

1916

1917

if (node_check(item, &node) == -1)

1917

if (node_check(item, &node) == -1)

1918

return -1;

1918

return -1;

1919

1920

if (value == NULL)

1920

if (value == NULL)

1921

return self->nt ? nt_delete_node(self->nt, node) : 0;

1921

return self->nt ? nt_delete_node(self->nt, node) : 0;

1922

rev = PyInt_AsLong(value);

1922

rev = PyInt_AsLong(value);

1923

if (rev > INT_MAX || rev < 0) {

1923

if (rev > INT_MAX || rev < 0) {

1924

if (!PyErr_Occurred())

1924

if (!PyErr_Occurred())

1925

PyErr_SetString(PyExc_ValueError, "rev out of range");

1925

PyErr_SetString(PyExc_ValueError, "rev out of range");

1926

return -1;

1926

return -1;

1927

}

1927

}

1928

1929

if (index_init_nt(self) == -1)

1929

if (index_init_nt(self) == -1)

1930

return -1;

1930

return -1;

1931

return nt_insert(self->nt, node, (int)rev);

1931

return nt_insert(self->nt, node, (int)rev);

1932

}

1932

}

1933

1934

/*

1934

/*

1935

* Find all RevlogNG entries in an index that has inline data. Update

1935

* Find all RevlogNG entries in an index that has inline data. Update

1936

* the optional "offsets" table with those entries.

1936

* the optional "offsets" table with those entries.

1937

*/

1937

*/

1938

static Py_ssize_t inline_scan(indexObject *self, const char **offsets)

1938

static Py_ssize_t inline_scan(indexObject *self, const char **offsets)

1939

{

1939

{

1940

const char *data = (const char *)self->buf.buf;

1940

const char *data = (const char *)self->buf.buf;

1941

Py_ssize_t pos = 0;

1941

Py_ssize_t pos = 0;

1942

Py_ssize_t end = self->buf.len;

1942

Py_ssize_t end = self->buf.len;

1943

long incr = v1_hdrsize;

1943

long incr = v1_hdrsize;

1944

Py_ssize_t len = 0;

1944

Py_ssize_t len = 0;

1945

1946

while (pos + v1_hdrsize <= end && pos >= 0) {

1946

while (pos + v1_hdrsize <= end && pos >= 0) {

1947

uint32_t comp_len;

1947

uint32_t comp_len;

1948

/* 3rd element of header is length of compressed inline data */

1948

/* 3rd element of header is length of compressed inline data */

1949

comp_len = getbe32(data + pos + 8);

1949

comp_len = getbe32(data + pos + 8);

1950

incr = v1_hdrsize + comp_len;

1950

incr = v1_hdrsize + comp_len;

1951

if (offsets)

1951

if (offsets)

1952

offsets[len] = data + pos;

1952

offsets[len] = data + pos;

1953

len++;

1953

len++;

1954

pos += incr;

1954

pos += incr;

1955

}

1955

}

1956

1957

if (pos != end) {

1957

if (pos != end) {

1958

if (!PyErr_Occurred())

1958

if (!PyErr_Occurred())

1959

PyErr_SetString(PyExc_ValueError, "corrupt index file");

1959

PyErr_SetString(PyExc_ValueError, "corrupt index file");

1960

return -1;

1960

return -1;

1961

}

1961

}

1962

1963

return len;

1963

return len;

1964

}

1964

}

1965

1966

static int index_init(indexObject *self, PyObject *args)

1966

static int index_init(indexObject *self, PyObject *args)

1967

{

1967

{

1968

PyObject *data_obj, *inlined_obj;

1968

PyObject *data_obj, *inlined_obj;

1969

Py_ssize_t size;

1969

Py_ssize_t size;

1970

1971

/* Initialize before argument-checking to avoid index_dealloc() crash. */

1971

/* Initialize before argument-checking to avoid index_dealloc() crash. */

1972

self->raw_length = 0;

1972

self->raw_length = 0;

1973

self->added = NULL;

1973

self->added = NULL;

1974

self->cache = NULL;

1974

self->cache = NULL;

1975

self->data = NULL;

1975

self->data = NULL;

1976

memset(&self->buf, 0, sizeof(self->buf));

1976

memset(&self->buf, 0, sizeof(self->buf));

1977

self->headrevs = NULL;

1977

self->headrevs = NULL;

1978

self->filteredrevs = Py_None;

1978

self->filteredrevs = Py_None;

1979

Py_INCREF(Py_None);

1979

Py_INCREF(Py_None);

1980

self->nt = NULL;

1980

self->nt = NULL;

1981

self->offsets = NULL;

1981

self->offsets = NULL;

1982

1983

if (!PyArg_ParseTuple(args, "OO", &data_obj, &inlined_obj))

1983

if (!PyArg_ParseTuple(args, "OO", &data_obj, &inlined_obj))

1984

return -1;

1984

return -1;

1985

if (!PyObject_CheckBuffer(data_obj)) {

1985

if (!PyObject_CheckBuffer(data_obj)) {

1986

PyErr_SetString(PyExc_TypeError,

1986

PyErr_SetString(PyExc_TypeError,

1987

"data does not support buffer interface");

1987

"data does not support buffer interface");

1988

return -1;

1988

return -1;

1989

}

1989

}

1990

1991

if (PyObject_GetBuffer(data_obj, &self->buf, PyBUF_SIMPLE) == -1)

1991

if (PyObject_GetBuffer(data_obj, &self->buf, PyBUF_SIMPLE) == -1)

1992

return -1;

1992

return -1;

1993

size = self->buf.len;

1993

size = self->buf.len;

1994

1995

self->inlined = inlined_obj && PyObject_IsTrue(inlined_obj);

1995

self->inlined = inlined_obj && PyObject_IsTrue(inlined_obj);

1996

self->data = data_obj;

1996

self->data = data_obj;

1997

1998

self->ntlookups = self->ntmisses = 0;

1998

self->ntlookups = self->ntmisses = 0;

1999

self->ntrev = -1;

1999

self->ntrev = -1;

2000

Py_INCREF(self->data);

2000

Py_INCREF(self->data);

2001

2002

if (self->inlined) {

2002

if (self->inlined) {

2003

Py_ssize_t len = inline_scan(self, NULL);

2003

Py_ssize_t len = inline_scan(self, NULL);

2004

if (len == -1)

2004

if (len == -1)

2005

goto bail;

2005

goto bail;

2006

self->raw_length = len;

2006

self->raw_length = len;

2007

self->length = len + 1;

2007

self->length = len + 1;

2008

} else {

2008

} else {

2009

if (size % v1_hdrsize) {

2009

if (size % v1_hdrsize) {

2010

PyErr_SetString(PyExc_ValueError, "corrupt index file");

2010

PyErr_SetString(PyExc_ValueError, "corrupt index file");

2011

goto bail;

2011

goto bail;

2012

}

2012

}

2013

self->raw_length = size / v1_hdrsize;

2013

self->raw_length = size / v1_hdrsize;

2014

self->length = self->raw_length + 1;

2014

self->length = self->raw_length + 1;

2015

}

2015

}

2016

2017

return 0;

2017

return 0;

2018

bail:

2018

bail:

2019

return -1;

2019

return -1;

2020

}

2020

}

2021

2022

static PyObject *index_nodemap(indexObject *self)

2022

static PyObject *index_nodemap(indexObject *self)

2023

{

2023

{

2024

Py_INCREF(self);

2024

Py_INCREF(self);

2025

return (PyObject *)self;

2025

return (PyObject *)self;

2026

}

2026

}

2027

2028

static void index_dealloc(indexObject *self)

2028

static void index_dealloc(indexObject *self)

2029

{

2029

{

2030

_index_clearcaches(self);

2030

_index_clearcaches(self);

2031

Py_XDECREF(self->filteredrevs);

2031

Py_XDECREF(self->filteredrevs);

2032

if (self->buf.buf) {

2032

if (self->buf.buf) {

2033

PyBuffer_Release(&self->buf);

2033

PyBuffer_Release(&self->buf);

2034

memset(&self->buf, 0, sizeof(self->buf));

2034

memset(&self->buf, 0, sizeof(self->buf));

2035

}

2035

}

2036

Py_XDECREF(self->data);

2036

Py_XDECREF(self->data);

2037

Py_XDECREF(self->added);

2037

Py_XDECREF(self->added);

2038

PyObject_Del(self);

2038

PyObject_Del(self);

2039

}

2039

}

2040

2041

static PySequenceMethods index_sequence_methods = {

2041

static PySequenceMethods index_sequence_methods = {

2042

(lenfunc)index_length, /* sq_length */

2042

(lenfunc)index_length, /* sq_length */

2043

0, /* sq_concat */

2043

0, /* sq_concat */

2044

0, /* sq_repeat */

2044

0, /* sq_repeat */

2045

(ssizeargfunc)index_get, /* sq_item */

2045

(ssizeargfunc)index_get, /* sq_item */

2046

0, /* sq_slice */

2046

0, /* sq_slice */

2047

0, /* sq_ass_item */

2047

0, /* sq_ass_item */

2048

0, /* sq_ass_slice */

2048

0, /* sq_ass_slice */

2049

(objobjproc)index_contains, /* sq_contains */

2049

(objobjproc)index_contains, /* sq_contains */

2050

};

2050

};

2051

2052

static PyMappingMethods index_mapping_methods = {

2052

static PyMappingMethods index_mapping_methods = {

2053

(lenfunc)index_length, /* mp_length */

2053

(lenfunc)index_length, /* mp_length */

2054

(binaryfunc)index_getitem, /* mp_subscript */

2054

(binaryfunc)index_getitem, /* mp_subscript */

2055

(objobjargproc)index_assign_subscript, /* mp_ass_subscript */

2055

(objobjargproc)index_assign_subscript, /* mp_ass_subscript */

2056

};

2056

};

2057

2058

static PyMethodDef index_methods[] = {

2058

static PyMethodDef index_methods[] = {

2059

{"ancestors", (PyCFunction)index_ancestors, METH_VARARGS,

2059

{"ancestors", (PyCFunction)index_ancestors, METH_VARARGS,

2060

"return the gca set of the given revs"},

2060

"return the gca set of the given revs"},

2061

{"commonancestorsheads", (PyCFunction)index_commonancestorsheads,

2061

{"commonancestorsheads", (PyCFunction)index_commonancestorsheads,

2062

METH_VARARGS,

2062

METH_VARARGS,

2063

"return the heads of the common ancestors of the given revs"},

2063

"return the heads of the common ancestors of the given revs"},

2064

{"clearcaches", (PyCFunction)index_clearcaches, METH_NOARGS,

2064

{"clearcaches", (PyCFunction)index_clearcaches, METH_NOARGS,

2065

"clear the index caches"},

2065

"clear the index caches"},

2066

{"get", (PyCFunction)index_m_get, METH_VARARGS,

2066

{"get", (PyCFunction)index_m_get, METH_VARARGS,

2067

"get an index entry"},

2067

"get an index entry"},

2068

{"computephasesmapsets", (PyCFunction)compute_phases_map_sets,

2068

{"computephasesmapsets", (PyCFunction)compute_phases_map_sets,

2069

METH_VARARGS, "compute phases"},

2069

METH_VARARGS, "compute phases"},

2070

{"reachableroots2", (PyCFunction)reachableroots2, METH_VARARGS,

2070

{"reachableroots2", (PyCFunction)reachableroots2, METH_VARARGS,

2071

"reachableroots"},

2071

"reachableroots"},

2072

{"headrevs", (PyCFunction)index_headrevs, METH_VARARGS,

2072

{"headrevs", (PyCFunction)index_headrevs, METH_VARARGS,

2073

"get head revisions"}, /* Can do filtering since 3.2 */

2073

"get head revisions"}, /* Can do filtering since 3.2 */

2074

{"headrevsfiltered", (PyCFunction)index_headrevs, METH_VARARGS,

2074

{"headrevsfiltered", (PyCFunction)index_headrevs, METH_VARARGS,

2075

"get filtered head revisions"}, /* Can always do filtering */

2075

"get filtered head revisions"}, /* Can always do filtering */

2076

{"deltachain", (PyCFunction)index_deltachain, METH_VARARGS,

2076

{"deltachain", (PyCFunction)index_deltachain, METH_VARARGS,

2077

"determine revisions with deltas to reconstruct fulltext"},

2077

"determine revisions with deltas to reconstruct fulltext"},

2078

{"append", (PyCFunction)index_append, METH_O,

2078

{"append", (PyCFunction)index_append, METH_O,

2079

"append an index entry"},

2079

"append an index entry"},

2080

{"partialmatch", (PyCFunction)index_partialmatch, METH_VARARGS,

2080

{"partialmatch", (PyCFunction)index_partialmatch, METH_VARARGS,

2081

"match a potentially ambiguous node ID"},

2081

"match a potentially ambiguous node ID"},

2082

{"shortest", (PyCFunction)index_shortest, METH_VARARGS,

2082

{"shortest", (PyCFunction)index_shortest, METH_VARARGS,

2083

"find length of shortest hex nodeid of a binary ID"},

2083

"find length of shortest hex nodeid of a binary ID"},

2084

{"stats", (PyCFunction)index_stats, METH_NOARGS,

2084

{"stats", (PyCFunction)index_stats, METH_NOARGS,

2085

"stats for the index"},

2085

"stats for the index"},

2086

{NULL} /* Sentinel */

2086

{NULL} /* Sentinel */

2087

};

2087

};

2088

2089

static PyGetSetDef index_getset[] = {

2089

static PyGetSetDef index_getset[] = {

2090

{"nodemap", (getter)index_nodemap, NULL, "nodemap", NULL},

2090

{"nodemap", (getter)index_nodemap, NULL, "nodemap", NULL},

2091

{NULL} /* Sentinel */

2091

{NULL} /* Sentinel */

2092

};

2092

};

2093

2094

static PyTypeObject indexType = {

2094

static PyTypeObject indexType = {

2095

PyVarObject_HEAD_INIT(NULL, 0) /* header */

2095

PyVarObject_HEAD_INIT(NULL, 0) /* header */

2096

"parsers.index", /* tp_name */

2096

"parsers.index", /* tp_name */

2097

sizeof(indexObject), /* tp_basicsize */

2097

sizeof(indexObject), /* tp_basicsize */

2098

0, /* tp_itemsize */

2098

0, /* tp_itemsize */

2099

(destructor)index_dealloc, /* tp_dealloc */

2099

(destructor)index_dealloc, /* tp_dealloc */

2100

0, /* tp_print */

2100

0, /* tp_print */

2101

0, /* tp_getattr */

2101

0, /* tp_getattr */

2102

0, /* tp_setattr */

2102

0, /* tp_setattr */

2103

0, /* tp_compare */

2103

0, /* tp_compare */

2104

0, /* tp_repr */

2104

0, /* tp_repr */

2105

0, /* tp_as_number */

2105

0, /* tp_as_number */

2106

&index_sequence_methods, /* tp_as_sequence */

2106

&index_sequence_methods, /* tp_as_sequence */

2107

&index_mapping_methods, /* tp_as_mapping */

2107

&index_mapping_methods, /* tp_as_mapping */

2108

0, /* tp_hash */

2108

0, /* tp_hash */

2109

0, /* tp_call */

2109

0, /* tp_call */

2110

0, /* tp_str */

2110

0, /* tp_str */

2111

0, /* tp_getattro */

2111

0, /* tp_getattro */

2112

0, /* tp_setattro */

2112

0, /* tp_setattro */

2113

0, /* tp_as_buffer */

2113

0, /* tp_as_buffer */

2114

Py_TPFLAGS_DEFAULT, /* tp_flags */

2114

Py_TPFLAGS_DEFAULT, /* tp_flags */

2115

"revlog index", /* tp_doc */

2115

"revlog index", /* tp_doc */

2116

0, /* tp_traverse */

2116

0, /* tp_traverse */

2117

0, /* tp_clear */

2117

0, /* tp_clear */

2118

0, /* tp_richcompare */

2118

0, /* tp_richcompare */

2119

0, /* tp_weaklistoffset */

2119

0, /* tp_weaklistoffset */

2120

0, /* tp_iter */

2120

0, /* tp_iter */

2121

0, /* tp_iternext */

2121

0, /* tp_iternext */

2122

index_methods, /* tp_methods */

2122

index_methods, /* tp_methods */

2123

0, /* tp_members */

2123

0, /* tp_members */

2124

index_getset, /* tp_getset */

2124

index_getset, /* tp_getset */

2125

0, /* tp_base */

2125

0, /* tp_base */

2126

0, /* tp_dict */

2126

0, /* tp_dict */

2127

0, /* tp_descr_get */

2127

0, /* tp_descr_get */

2128

0, /* tp_descr_set */

2128

0, /* tp_descr_set */

2129

0, /* tp_dictoffset */

2129

0, /* tp_dictoffset */

2130

(initproc)index_init, /* tp_init */

2130

(initproc)index_init, /* tp_init */

2131

0, /* tp_alloc */

2131

0, /* tp_alloc */

2132

};

2132

};

2133

2134

/*

2134

/*

2135

* returns a tuple of the form (index, index, cache) with elements as

2135

* returns a tuple of the form (index, index, cache) with elements as

2136

* follows:

2136

* follows:

2137

*

2137

*

2138

* index: an index object that lazily parses RevlogNG records

2138

* index: an index object that lazily parses RevlogNG records

2139

* cache: if data is inlined, a tuple (0, index_file_content), else None

2139

* cache: if data is inlined, a tuple (0, index_file_content), else None

2140

* index_file_content could be a string, or a buffer

2140

* index_file_content could be a string, or a buffer

2141

*

2141

*

2142

* added complications are for backwards compatibility

2142

* added complications are for backwards compatibility

2143

*/

2143

*/

2144

PyObject *parse_index2(PyObject *self, PyObject *args)

2144

PyObject *parse_index2(PyObject *self, PyObject *args)

2145

{

2145

{

2146

PyObject *tuple = NULL, *cache = NULL;

2146

PyObject *tuple = NULL, *cache = NULL;

2147

indexObject *idx;

2147

indexObject *idx;

2148

int ret;

2148

int ret;

2149

2150

idx = PyObject_New(indexObject, &indexType);

2150

idx = PyObject_New(indexObject, &indexType);

2151

if (idx == NULL)

2151

if (idx == NULL)

2152

goto bail;

2152

goto bail;

2153

2154

ret = index_init(idx, args);

2154

ret = index_init(idx, args);

2155

if (ret == -1)

2155

if (ret == -1)

2156

goto bail;

2156

goto bail;

2157

2158

if (idx->inlined) {

2158

if (idx->inlined) {

2159

cache = Py_BuildValue("iO", 0, idx->data);

2159

cache = Py_BuildValue("iO", 0, idx->data);

2160

if (cache == NULL)

2160

if (cache == NULL)

2161

goto bail;

2161

goto bail;

2162

} else {

2162

} else {

2163

cache = Py_None;

2163

cache = Py_None;

2164

Py_INCREF(cache);

2164

Py_INCREF(cache);

2165

}

2165

}

2166

2167

tuple = Py_BuildValue("NN", idx, cache);

2167

tuple = Py_BuildValue("NN", idx, cache);

2168

if (!tuple)

2168

if (!tuple)

2169

goto bail;

2169

goto bail;

2170

return tuple;

2170

return tuple;

2171

2172

bail:

2172

bail:

2173

Py_XDECREF(idx);

2173

Py_XDECREF(idx);

2174

Py_XDECREF(cache);

2174

Py_XDECREF(cache);

2175

Py_XDECREF(tuple);

2175

Py_XDECREF(tuple);

2176

return NULL;

2176

return NULL;

2177

}

2177

}

2178

2179

void revlog_module_init(PyObject *mod)

2179

void revlog_module_init(PyObject *mod)

2180

{

2180

{

2181

indexType.tp_new = PyType_GenericNew;

2181

indexType.tp_new = PyType_GenericNew;

2182

if (PyType_Ready(&indexType) < 0)

2182

if (PyType_Ready(&indexType) < 0)

2183

return;

2183

return;

2184

Py_INCREF(&indexType);

2184

Py_INCREF(&indexType);

2185

PyModule_AddObject(mod, "index", (PyObject *)&indexType);

2185

PyModule_AddObject(mod, "index", (PyObject *)&indexType);

2186

2187

nullentry = Py_BuildValue(PY23("iiiiiiis#", "iiiiiiiy#"), 0, 0, 0,

2187

nullentry = Py_BuildValue(PY23("iiiiiiis#", "iiiiiiiy#"), 0, 0, 0,

2188

-1, -1, -1, -1, nullid, 20);

2188

-1, -1, -1, -1, nullid, 20);

2189

if (nullentry)

2189

if (nullentry)

2190

PyObject_GC_UnTrack(nullentry);

2190

PyObject_GC_UnTrack(nullentry);

2191

}

2191

}

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             /*
              parsers.c - efficient content parsing
              Copyright 2008 Matt Mackall <mpm@selenic.com> and others
              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 <assert.h>
             #include <ctype.h>
             #include <stddef.h>
             #include <string.h>
             #include "bitmanipulation.h"
             #include "charencode.h"
             #include "util.h"
             #ifdef IS_PY3K
             /* The mapping of Python types is meant to be temporary to get Python
              * 3 to compile. We should remove this once Python 3 support is fully
              * supported and proper types are used in the extensions themselves. */
             #define PyInt_Check PyLong_Check
             #define PyInt_FromLong PyLong_FromLong
             #define PyInt_FromSsize_t PyLong_FromSsize_t
             #define PyInt_AS_LONG PyLong_AS_LONG
             #define PyInt_AsLong PyLong_AsLong
             #endif
             typedef struct indexObjectStruct indexObject;
             typedef struct {
             	int children[16];
             } nodetreenode;
             /*
              * A base-16 trie for fast node->rev mapping.
              *
              * Positive value is index of the next node in the trie
              * Negative value is a leaf: -(rev + 2)
              * Zero is empty
              */
             typedef struct {
             	indexObject *index;
             	nodetreenode *nodes;
             	unsigned length;     /* # nodes in use */
             	unsigned capacity;   /* # nodes allocated */
             	int depth;           /* maximum depth of tree */
             	int splits;          /* # splits performed */
             } nodetree;
             /*
              * This class has two behaviors.
              *
              * When used in a list-like way (with integer keys), we decode an
              * entry in a RevlogNG index file on demand. Our last entry is a
              * sentinel, always a nullid.  We have limited support for
              * integer-keyed insert and delete, only at elements right before the
              * sentinel.
              *
              * With string keys, we lazily perform a reverse mapping from node to
              * rev, using a base-16 trie.
              */
             struct indexObjectStruct {
             	PyObject_HEAD
             	/* Type-specific fields go here. */
             	PyObject *data;        /* raw bytes of index */
             	Py_buffer buf;         /* buffer of data */
             	PyObject **cache;      /* cached tuples */
             	const char **offsets;  /* populated on demand */
             	Py_ssize_t raw_length; /* original number of elements */
             	Py_ssize_t length;     /* current number of elements */
             	PyObject *added;       /* populated on demand */
             	PyObject *headrevs;    /* cache, invalidated on changes */
             	PyObject *filteredrevs;/* filtered revs set */
             	nodetree *nt;          /* base-16 trie */
             	int ntrev;             /* last rev scanned */
             	int ntlookups;         /* # lookups */
             	int ntmisses;          /* # lookups that miss the cache */
             	int inlined;
             };
             static Py_ssize_t index_length(const indexObject *self)
             {
             	if (self->added == NULL)
             		return self->length - 1;
             	return self->length + PyList_GET_SIZE(self->added) - 1;
             }
             static PyObject *nullentry;
             static const char nullid[20];
             static Py_ssize_t inline_scan(indexObject *self, const char **offsets);
             #if LONG_MAX == 0x7fffffffL
             static const char *const tuple_format = PY23("Kiiiiiis#", "Kiiiiiiy#");
             #else
             static const char *const tuple_format = PY23("kiiiiiis#", "kiiiiiiy#");
             #endif
             /* A RevlogNG v1 index entry is 64 bytes long. */
             static const long v1_hdrsize = 64;
             /*
              * Return a pointer to the beginning of a RevlogNG record.
              */
             static const char *index_deref(indexObject *self, Py_ssize_t pos)
             {
             	if (self->inlined && pos > 0) {
             		if (self->offsets == NULL) {
             			self->offsets = PyMem_Malloc(self->raw_length *
             					             sizeof(*self->offsets));
             			if (self->offsets == NULL)
             				return (const char *)PyErr_NoMemory();
             			inline_scan(self, self->offsets);
             		}
             		return self->offsets[pos];
             	}
             	return (const char *)(self->buf.buf) + pos * v1_hdrsize;
             }
             static inline int index_get_parents(indexObject *self, Py_ssize_t rev,
             				    int *ps, int maxrev)
             {
             	if (rev >= self->length - 1) {
             		PyObject *tuple = PyList_GET_ITEM(self->added,
             						  rev - self->length + 1);
             		ps[0] = (int)PyInt_AS_LONG(PyTuple_GET_ITEM(tuple, 5));
             		ps[1] = (int)PyInt_AS_LONG(PyTuple_GET_ITEM(tuple, 6));
             	} else {
             		const char *data = index_deref(self, rev);
             		ps[0] = getbe32(data + 24);
             		ps[1] = getbe32(data + 28);
             	}
             	/* If index file is corrupted, ps[] may point to invalid revisions. So
             	 * there is a risk of buffer overflow to trust them unconditionally. */
             	if (ps[0] > maxrev || ps[1] > maxrev) {
             		PyErr_SetString(PyExc_ValueError, "parent out of range");
             		return -1;
             	}
             	return 0;
             }
             /*
              * RevlogNG format (all in big endian, data may be inlined):
              *    6 bytes: offset
              *    2 bytes: flags
              *    4 bytes: compressed length
              *    4 bytes: uncompressed length
              *    4 bytes: base revision
              *    4 bytes: link revision
              *    4 bytes: parent 1 revision
              *    4 bytes: parent 2 revision
              *   32 bytes: nodeid (only 20 bytes used)
              */
             static PyObject *index_get(indexObject *self, Py_ssize_t pos)
             {
             	uint64_t offset_flags;
             	int comp_len, uncomp_len, base_rev, link_rev, parent_1, parent_2;
             	const char *c_node_id;
             	const char *data;
             	Py_ssize_t length = index_length(self);
             	PyObject *entry;
             	if (pos == -1) {
             		Py_INCREF(nullentry);
             		return nullentry;
             	}
             	if (pos < 0 || pos >= length) {
             		PyErr_SetString(PyExc_IndexError, "revlog index out of range");
             		return NULL;
             	}
             	if (pos >= self->length - 1) {
             		PyObject *obj;
             		obj = PyList_GET_ITEM(self->added, pos - self->length + 1);
             		Py_INCREF(obj);
             		return obj;
             	}
             	if (self->cache) {
             		if (self->cache[pos]) {
             			Py_INCREF(self->cache[pos]);
             			return self->cache[pos];
             		}
             	} else {
             		self->cache = calloc(self->raw_length, sizeof(PyObject *));
             		if (self->cache == NULL)
             			return PyErr_NoMemory();
             	}
             	data = index_deref(self, pos);
             	if (data == NULL)
             		return NULL;
             	offset_flags = getbe32(data + 4);
             	if (pos == 0) /* mask out version number for the first entry */
             		offset_flags &= 0xFFFF;
             	else {
             		uint32_t offset_high = getbe32(data);
             		offset_flags |= ((uint64_t)offset_high) << 32;
             	}
             	comp_len = getbe32(data + 8);
             	uncomp_len = getbe32(data + 12);
             	base_rev = getbe32(data + 16);
             	link_rev = getbe32(data + 20);
             	parent_1 = getbe32(data + 24);
             	parent_2 = getbe32(data + 28);
             	c_node_id = data + 32;
             	entry = Py_BuildValue(tuple_format, offset_flags, comp_len,
             			      uncomp_len, base_rev, link_rev,
             			      parent_1, parent_2, c_node_id, 20);
             	if (entry) {
             		PyObject_GC_UnTrack(entry);
             		Py_INCREF(entry);
             	}
             	self->cache[pos] = entry;
             	return entry;
             }
             /*
              * Return the 20-byte SHA of the node corresponding to the given rev.
              */
             static const char *index_node(indexObject *self, Py_ssize_t pos)
             {
             	Py_ssize_t length = index_length(self);
             	const char *data;
             	if (pos == -1)
             		return nullid;
             	if (pos >= length)
             		return NULL;
             	if (pos >= self->length - 1) {
             		PyObject *tuple, *str;
             		tuple = PyList_GET_ITEM(self->added, pos - self->length + 1);
             		str = PyTuple_GetItem(tuple, 7);
             		return str ? PyBytes_AS_STRING(str) : NULL;
             	}
             	data = index_deref(self, pos);
             	return data ? data + 32 : NULL;
             }
             /*
              * Return the 20-byte SHA of the node corresponding to the given rev. The
              * rev is assumed to be existing. If not, an exception is set.
              */
             static const char *index_node_existing(indexObject *self, Py_ssize_t pos)
             {
             	const char *node = index_node(self, pos);
             	if (node == NULL) {
             		PyErr_Format(PyExc_IndexError, "could not access rev %d",
             		             (int)pos);
             	}
             	return node;
             }
             static int nt_insert(nodetree *self, const char *node, int rev);
             static int node_check(PyObject *obj, char **node)
             {
             	Py_ssize_t nodelen;
             	if (PyBytes_AsStringAndSize(obj, node, &nodelen) == -1)
             		return -1;
             	if (nodelen == 20)
             		return 0;
             	PyErr_SetString(PyExc_ValueError, "20-byte hash required");
             	return -1;
             }
             static PyObject *index_append(indexObject *self, PyObject *obj)
             {
             	char *node;
             	Py_ssize_t len;
             	if (!PyTuple_Check(obj) || PyTuple_GET_SIZE(obj) != 8) {
             		PyErr_SetString(PyExc_TypeError, "8-tuple required");
             		return NULL;
             	}
             	if (node_check(PyTuple_GET_ITEM(obj, 7), &node) == -1)
             		return NULL;
             	len = index_length(self);
             	if (self->added == NULL) {
             		self->added = PyList_New(0);
             		if (self->added == NULL)
             			return NULL;
             	}
             	if (PyList_Append(self->added, obj) == -1)
             		return NULL;
             	if (self->nt)
             		nt_insert(self->nt, node, len);
             	Py_CLEAR(self->headrevs);
             	Py_RETURN_NONE;
             }
             static void _index_clearcaches(indexObject *self)
             {
             	if (self->cache) {
             		Py_ssize_t i;
             		for (i = 0; i < self->raw_length; i++)
             			Py_CLEAR(self->cache[i]);
             		free(self->cache);
             		self->cache = NULL;
             	}
             	if (self->offsets) {
             		PyMem_Free(self->offsets);
             		self->offsets = NULL;
             	}
             	if (self->nt != NULL) {
             		free(self->nt->nodes);
             		PyMem_Free(self->nt);
             	}
             	self->nt = NULL;
             	Py_CLEAR(self->headrevs);
             }
             static PyObject *index_clearcaches(indexObject *self)
             {
             	_index_clearcaches(self);
             	self->ntrev = -1;
             	self->ntlookups = self->ntmisses = 0;
             	Py_RETURN_NONE;
             }
             static PyObject *index_stats(indexObject *self)
             {
             	PyObject *obj = PyDict_New();
             	PyObject *t = NULL;
             	if (obj == NULL)
             		return NULL;
             #define istat(__n, __d) \
             	do { \
             		t = PyInt_FromSsize_t(self->__n); \
             		if (!t) \
             			goto bail; \
             		if (PyDict_SetItemString(obj, __d, t) == -1) \
             			goto bail; \
             		Py_DECREF(t); \
             	} while (0)
             	if (self->added) {
             		Py_ssize_t len = PyList_GET_SIZE(self->added);
             		t = PyInt_FromSsize_t(len);
             		if (!t)
             			goto bail;
             		if (PyDict_SetItemString(obj, "index entries added", t) == -1)
             			goto bail;
             		Py_DECREF(t);
             	}
             	if (self->raw_length != self->length - 1)
             		istat(raw_length, "revs on disk");
             	istat(length, "revs in memory");
             	istat(ntlookups, "node trie lookups");
             	istat(ntmisses, "node trie misses");
             	istat(ntrev, "node trie last rev scanned");
             	if (self->nt) {
             		istat(nt->capacity, "node trie capacity");
             		istat(nt->depth, "node trie depth");
             		istat(nt->length, "node trie count");
             		istat(nt->splits, "node trie splits");
             	}
             #undef istat
             	return obj;
             bail:
             	Py_XDECREF(obj);
             	Py_XDECREF(t);
             	return NULL;
             }
             /*
              * When we cache a list, we want to be sure the caller can't mutate
              * the cached copy.
              */
             static PyObject *list_copy(PyObject *list)
             {
             	Py_ssize_t len = PyList_GET_SIZE(list);
             	PyObject *newlist = PyList_New(len);
             	Py_ssize_t i;
             	if (newlist == NULL)
             		return NULL;
             	for (i = 0; i < len; i++) {
             		PyObject *obj = PyList_GET_ITEM(list, i);
             		Py_INCREF(obj);
             		PyList_SET_ITEM(newlist, i, obj);
             	}
             	return newlist;
             }
             static int check_filter(PyObject *filter, Py_ssize_t arg)
             {
             	if (filter) {
             		PyObject *arglist, *result;
             		int isfiltered;
             		arglist = Py_BuildValue("(n)", arg);
             		if (!arglist) {
             			return -1;
             		}
             		result = PyEval_CallObject(filter, arglist);
             		Py_DECREF(arglist);
             		if (!result) {
             			return -1;
             		}
             		/* PyObject_IsTrue returns 1 if true, 0 if false, -1 if error,
             		 * same as this function, so we can just return it directly.*/
             		isfiltered = PyObject_IsTrue(result);
             		Py_DECREF(result);
             		return isfiltered;
             	} else {
             		return 0;
             	}
             }
             static Py_ssize_t add_roots_get_min(indexObject *self, PyObject *list,
                                                 Py_ssize_t marker, char *phases)
             {
             	PyObject *iter = NULL;
             	PyObject *iter_item = NULL;
             	Py_ssize_t min_idx = index_length(self) + 2;
             	long iter_item_long;
             	if (PyList_GET_SIZE(list) != 0) {
             		iter = PyObject_GetIter(list);
             		if (iter == NULL)
             			return -2;
             		while ((iter_item = PyIter_Next(iter))) {
             			iter_item_long = PyInt_AS_LONG(iter_item);
             			Py_DECREF(iter_item);
             			if (iter_item_long < min_idx)
             				min_idx = iter_item_long;
             			phases[iter_item_long] = marker;
             		}
             		Py_DECREF(iter);
             	}
             	return min_idx;
             }
             static inline void set_phase_from_parents(char *phases, int parent_1,
                                                       int parent_2, Py_ssize_t i)
             {
             	if (parent_1 >= 0 && phases[parent_1] > phases[i])
             		phases[i] = phases[parent_1];
             	if (parent_2 >= 0 && phases[parent_2] > phases[i])
             		phases[i] = phases[parent_2];
             }
             static PyObject *reachableroots2(indexObject *self, PyObject *args)
             {
             	/* Input */
             	long minroot;
             	PyObject *includepatharg = NULL;
             	int includepath = 0;
             	/* heads and roots are lists */
             	PyObject *heads = NULL;
             	PyObject *roots = NULL;
             	PyObject *reachable = NULL;
             	PyObject *val;
             	Py_ssize_t len = index_length(self);
             	long revnum;
             	Py_ssize_t k;
             	Py_ssize_t i;
             	Py_ssize_t l;
             	int r;
             	int parents[2];
             	/* Internal data structure:
             	 * tovisit: array of length len+1 (all revs + nullrev), filled upto lentovisit
             	 * revstates: array of length len+1 (all revs + nullrev) */
             	int *tovisit = NULL;
             	long lentovisit = 0;
             	enum { RS_SEEN = 1, RS_ROOT = 2, RS_REACHABLE = 4 };
             	char *revstates = NULL;
             	/* Get arguments */
             	if (!PyArg_ParseTuple(args, "lO!O!O!", &minroot, &PyList_Type, &heads,
             			      &PyList_Type, &roots,
             			      &PyBool_Type, &includepatharg))
             		goto bail;
             	if (includepatharg == Py_True)
             		includepath = 1;
             	/* Initialize return set */
             	reachable = PyList_New(0);
             	if (reachable == NULL)
             		goto bail;
             	/* Initialize internal datastructures */
             	tovisit = (int *)malloc((len + 1) * sizeof(int));
             	if (tovisit == NULL) {
             		PyErr_NoMemory();
             		goto bail;
             	}
             	revstates = (char *)calloc(len + 1, 1);
             	if (revstates == NULL) {
             		PyErr_NoMemory();
             		goto bail;
             	}
             	l = PyList_GET_SIZE(roots);
             	for (i = 0; i < l; i++) {
             		revnum = PyInt_AsLong(PyList_GET_ITEM(roots, i));
             		if (revnum == -1 && PyErr_Occurred())
             			goto bail;
             		/* If root is out of range, e.g. wdir(), it must be unreachable
             		 * from heads. So we can just ignore it. */
             		if (revnum + 1 < 0 || revnum + 1 >= len + 1)
             			continue;
             		revstates[revnum + 1] |= RS_ROOT;
             	}
             	/* Populate tovisit with all the heads */
             	l = PyList_GET_SIZE(heads);
             	for (i = 0; i < l; i++) {
             		revnum = PyInt_AsLong(PyList_GET_ITEM(heads, i));
             		if (revnum == -1 && PyErr_Occurred())
             			goto bail;
             		if (revnum + 1 < 0 || revnum + 1 >= len + 1) {
             			PyErr_SetString(PyExc_IndexError, "head out of range");
             			goto bail;
             		}
             		if (!(revstates[revnum + 1] & RS_SEEN)) {
             			tovisit[lentovisit++] = (int)revnum;
             			revstates[revnum + 1] |= RS_SEEN;
             		}
             	}
             	/* Visit the tovisit list and find the reachable roots */
             	k = 0;
             	while (k < lentovisit) {
             		/* Add the node to reachable if it is a root*/
             		revnum = tovisit[k++];
             		if (revstates[revnum + 1] & RS_ROOT) {
             			revstates[revnum + 1] |= RS_REACHABLE;
             			val = PyInt_FromLong(revnum);
             			if (val == NULL)
             				goto bail;
             			r = PyList_Append(reachable, val);
             			Py_DECREF(val);
             			if (r < 0)
             				goto bail;
             			if (includepath == 0)
             				continue;
             		}
             		/* Add its parents to the list of nodes to visit */
             		if (revnum == -1)
             			continue;
             		r = index_get_parents(self, revnum, parents, (int)len - 1);
             		if (r < 0)
             			goto bail;
             		for (i = 0; i < 2; i++) {
             			if (!(revstates[parents[i] + 1] & RS_SEEN)
             			    && parents[i] >= minroot) {
             				tovisit[lentovisit++] = parents[i];
             				revstates[parents[i] + 1] |= RS_SEEN;
             			}
             		}
             	}
             	/* Find all the nodes in between the roots we found and the heads
             	 * and add them to the reachable set */
             	if (includepath == 1) {
             		long minidx = minroot;
             		if (minidx < 0)
             			minidx = 0;
             		for (i = minidx; i < len; i++) {
             			if (!(revstates[i + 1] & RS_SEEN))
             				continue;
             			r = index_get_parents(self, i, parents, (int)len - 1);
             			/* Corrupted index file, error is set from
             			 * index_get_parents */
             			if (r < 0)
             				goto bail;
             			if (((revstates[parents[0] + 1] |
             			      revstates[parents[1] + 1]) & RS_REACHABLE)
             			    && !(revstates[i + 1] & RS_REACHABLE)) {
             				revstates[i + 1] |= RS_REACHABLE;
             				val = PyInt_FromLong(i);
             				if (val == NULL)
             					goto bail;
             				r = PyList_Append(reachable, val);
             				Py_DECREF(val);
             				if (r < 0)
             					goto bail;
             			}
             		}
             	}
             	free(revstates);
             	free(tovisit);
             	return reachable;
             bail:
             	Py_XDECREF(reachable);
             	free(revstates);
             	free(tovisit);
             	return NULL;
             }
             static PyObject *compute_phases_map_sets(indexObject *self, PyObject *args)
             {
             	PyObject *roots = Py_None;
             	PyObject *ret = NULL;
             	PyObject *phasessize = NULL;
             	PyObject *phaseroots = NULL;
             	PyObject *phaseset = NULL;
             	PyObject *phasessetlist = NULL;
             	PyObject *rev = NULL;
             	Py_ssize_t len = index_length(self);
             	Py_ssize_t numphase = 0;
             	Py_ssize_t minrevallphases = 0;
             	Py_ssize_t minrevphase = 0;
             	Py_ssize_t i = 0;
             	char *phases = NULL;
             	long phase;
             	if (!PyArg_ParseTuple(args, "O", &roots))
             		goto done;
             	if (roots == NULL || !PyList_Check(roots)) {
             		PyErr_SetString(PyExc_TypeError, "roots must be a list");
             		goto done;
             	}
             	phases = calloc(len, 1); /* phase per rev: {0: public, 1: draft, 2: secret} */
             	if (phases == NULL) {
             		PyErr_NoMemory();
             		goto done;
             	}
             	/* Put the phase information of all the roots in phases */
             	numphase = PyList_GET_SIZE(roots)+1;
             	minrevallphases = len + 1;
             	phasessetlist = PyList_New(numphase);
             	if (phasessetlist == NULL)
             		goto done;
             	PyList_SET_ITEM(phasessetlist, 0, Py_None);
             	Py_INCREF(Py_None);
             	for (i = 0; i < numphase-1; i++) {
             		phaseroots = PyList_GET_ITEM(roots, i);
             		phaseset = PySet_New(NULL);
             		if (phaseset == NULL)
             			goto release;
             		PyList_SET_ITEM(phasessetlist, i+1, phaseset);
             		if (!PyList_Check(phaseroots)) {
             			PyErr_SetString(PyExc_TypeError,
             					"roots item must be a list");
             			goto release;
             		}
             		minrevphase = add_roots_get_min(self, phaseroots, i+1, phases);
             		if (minrevphase == -2) /* Error from add_roots_get_min */
             			goto release;
             		minrevallphases = MIN(minrevallphases, minrevphase);
             	}
             	/* Propagate the phase information from the roots to the revs */
             	if (minrevallphases != -1) {
             		int parents[2];
             		for (i = minrevallphases; i < len; i++) {
             			if (index_get_parents(self, i, parents,
             					      (int)len - 1) < 0)
             				goto release;
             			set_phase_from_parents(phases, parents[0], parents[1], i);
             		}
             	}
             	/* Transform phase list to a python list */
             	phasessize = PyInt_FromLong(len);
             	if (phasessize == NULL)
             		goto release;
             	for (i = 0; i < len; i++) {
             		phase = phases[i];
             		/* We only store the sets of phase for non public phase, the public phase
             		 * is computed as a difference */
             		if (phase != 0) {
             			phaseset = PyList_GET_ITEM(phasessetlist, phase);
             			rev = PyInt_FromLong(i);
             			if (rev == NULL)
             				goto release;
             			PySet_Add(phaseset, rev);
             			Py_XDECREF(rev);
             		}
             	}
             	ret = PyTuple_Pack(2, phasessize, phasessetlist);
             release:
             	Py_XDECREF(phasessize);
             	Py_XDECREF(phasessetlist);
             done:
             	free(phases);
             	return ret;
             }
             static PyObject *index_headrevs(indexObject *self, PyObject *args)
             {
             	Py_ssize_t i, j, len;
             	char *nothead = NULL;
             	PyObject *heads = NULL;
             	PyObject *filter = NULL;
             	PyObject *filteredrevs = Py_None;
             	if (!PyArg_ParseTuple(args, "|O", &filteredrevs)) {
             		return NULL;
             	}
             	if (self->headrevs && filteredrevs == self->filteredrevs)
             		return list_copy(self->headrevs);
             	Py_DECREF(self->filteredrevs);
             	self->filteredrevs = filteredrevs;
             	Py_INCREF(filteredrevs);
             	if (filteredrevs != Py_None) {
             		filter = PyObject_GetAttrString(filteredrevs, "__contains__");
             		if (!filter) {
             			PyErr_SetString(PyExc_TypeError,
             				"filteredrevs has no attribute __contains__");
             			goto bail;
             		}
             	}
             	len = index_length(self);
             	heads = PyList_New(0);
             	if (heads == NULL)
             		goto bail;
             	if (len == 0) {
             		PyObject *nullid = PyInt_FromLong(-1);
             		if (nullid == NULL || PyList_Append(heads, nullid) == -1) {
             			Py_XDECREF(nullid);
             			goto bail;
             		}
             		goto done;
             	}
             	nothead = calloc(len, 1);
             	if (nothead == NULL) {
             		PyErr_NoMemory();
             		goto bail;
             	}
             	for (i = len - 1; i >= 0; i--) {
             		int isfiltered;
             		int parents[2];
             		/* If nothead[i] == 1, it means we've seen an unfiltered child of this
             		 * node already, and therefore this node is not filtered. So we can skip
             		 * the expensive check_filter step.
             		 */
             		if (nothead[i] != 1) {
             			isfiltered = check_filter(filter, i);
             			if (isfiltered == -1) {
             				PyErr_SetString(PyExc_TypeError,
             					"unable to check filter");
             				goto bail;
             			}
             			if (isfiltered) {
             				nothead[i] = 1;
             				continue;
             			}
             		}
             		if (index_get_parents(self, i, parents, (int)len - 1) < 0)
             			goto bail;
             		for (j = 0; j < 2; j++) {
             			if (parents[j] >= 0)
             				nothead[parents[j]] = 1;
             		}
             	}
             	for (i = 0; i < len; i++) {
             		PyObject *head;
             		if (nothead[i])
             			continue;
             		head = PyInt_FromSsize_t(i);
             		if (head == NULL || PyList_Append(heads, head) == -1) {
             			Py_XDECREF(head);
             			goto bail;
             		}
             	}
             done:
             	self->headrevs = heads;
             	Py_XDECREF(filter);
             	free(nothead);
             	return list_copy(self->headrevs);
             bail:
             	Py_XDECREF(filter);
             	Py_XDECREF(heads);
             	free(nothead);
             	return NULL;
             }
             /**
              * Obtain the base revision index entry.
              *
              * Callers must ensure that rev >= 0 or illegal memory access may occur.
              */
             static inline int index_baserev(indexObject *self, int rev)
             {
             	const char *data;
             	if (rev >= self->length - 1) {
             		PyObject *tuple = PyList_GET_ITEM(self->added,
             			rev - self->length + 1);
             		return (int)PyInt_AS_LONG(PyTuple_GET_ITEM(tuple, 3));
             	}
             	else {
             		data = index_deref(self, rev);
             		if (data == NULL) {
             			return -2;
             		}
             		return getbe32(data + 16);
             	}
             }
             static PyObject *index_deltachain(indexObject *self, PyObject *args)
             {
             	int rev, generaldelta;
             	PyObject *stoparg;
             	int stoprev, iterrev, baserev = -1;
             	int stopped;
             	PyObject *chain = NULL, *result = NULL;
             	const Py_ssize_t length = index_length(self);
             	if (!PyArg_ParseTuple(args, "iOi", &rev, &stoparg, &generaldelta)) {
             		return NULL;
             	}
             	if (PyInt_Check(stoparg)) {
             		stoprev = (int)PyInt_AsLong(stoparg);
             		if (stoprev == -1 && PyErr_Occurred()) {
             			return NULL;
             		}
             	}
             	else if (stoparg == Py_None) {
             		stoprev = -2;
             	}
             	else {
             		PyErr_SetString(PyExc_ValueError,
             			"stoprev must be integer or None");
             		return NULL;
             	}
             	if (rev < 0 || rev >= length) {
             		PyErr_SetString(PyExc_ValueError, "revlog index out of range");
             		return NULL;
             	}
             	chain = PyList_New(0);
             	if (chain == NULL) {
             		return NULL;
             	}
             	baserev = index_baserev(self, rev);
             	/* This should never happen. */
             	if (baserev <= -2) {
             		/* Error should be set by index_deref() */
             		assert(PyErr_Occurred());
             		goto bail;
             	}
             	iterrev = rev;
             	while (iterrev != baserev && iterrev != stoprev) {
             		PyObject *value = PyInt_FromLong(iterrev);
             		if (value == NULL) {
             			goto bail;
             		}
             		if (PyList_Append(chain, value)) {
             			Py_DECREF(value);
             			goto bail;
             		}
             		Py_DECREF(value);
             		if (generaldelta) {
             			iterrev = baserev;
             		}
             		else {
             			iterrev--;
             		}
             		if (iterrev < 0) {
             			break;
             		}
             		if (iterrev >= length) {
             			PyErr_SetString(PyExc_IndexError, "revision outside index");
             			return NULL;
             		}
             		baserev = index_baserev(self, iterrev);
             		/* This should never happen. */
             		if (baserev <= -2) {
             			/* Error should be set by index_deref() */
             			assert(PyErr_Occurred());
             			goto bail;
             		}
             	}
             	if (iterrev == stoprev) {
             		stopped = 1;
             	}
             	else {
             		PyObject *value = PyInt_FromLong(iterrev);
             		if (value == NULL) {
             			goto bail;
             		}
             		if (PyList_Append(chain, value)) {
             			Py_DECREF(value);
             			goto bail;
             		}
             		Py_DECREF(value);
             		stopped = 0;
             	}
             	if (PyList_Reverse(chain)) {
             		goto bail;
             	}
             	result = Py_BuildValue("OO", chain, stopped ? Py_True : Py_False);
             	Py_DECREF(chain);
             	return result;
             bail:
             	Py_DECREF(chain);
             	return NULL;
             }
             static inline int nt_level(const char *node, Py_ssize_t level)
             {
             	int v = node[level>>1];
             	if (!(level & 1))
             		v >>= 4;
             	return v & 0xf;
             }
             /*
              * Return values:
              *
              *   -4: match is ambiguous (multiple candidates)
              *   -2: not found
              * rest: valid rev
              */
             static int nt_find(nodetree *self, const char *node, Py_ssize_t nodelen,
             		   int hex)
             {
             	int (*getnybble)(const char *, Py_ssize_t) = hex ? hexdigit : nt_level;
             	int level, maxlevel, off;
             	if (nodelen == 20 && node[0] == '\0' && memcmp(node, nullid, 20) == 0)
             		return -1;
             	if (hex)
             		maxlevel = nodelen > 40 ? 40 : (int)nodelen;
             	else
             		maxlevel = nodelen > 20 ? 40 : ((int)nodelen * 2);
             	for (level = off = 0; level < maxlevel; level++) {
             		int k = getnybble(node, level);
             		nodetreenode *n = &self->nodes[off];
             		int v = n->children[k];
             		if (v < 0) {
             			const char *n;
             			Py_ssize_t i;
             			v = -(v + 2);
             			n = index_node(self->index, v);
             			if (n == NULL)
             				return -2;
             			for (i = level; i < maxlevel; i++)
             				if (getnybble(node, i) != nt_level(n, i))
             					return -2;
             			return v;
             		}
             		if (v == 0)
             			return -2;
             		off = v;
             	}
             	/* multiple matches against an ambiguous prefix */
             	return -4;
             }
             static int nt_new(nodetree *self)
             {
             	if (self->length == self->capacity) {
             		unsigned newcapacity;
             		nodetreenode *newnodes;
             		if (self->capacity >= INT_MAX / (sizeof(nodetreenode) * 2)) {
             			PyErr_SetString(PyExc_MemoryError,
             					"overflow in nt_new");
             			return -1;
             		}
             		newcapacity = self->capacity * 2;
             		newnodes = realloc(self->nodes, newcapacity * sizeof(nodetreenode));
             		if (newnodes == NULL) {
             			PyErr_SetString(PyExc_MemoryError, "out of memory");
             			return -1;
             		}
             		self->capacity = newcapacity;
             		self->nodes = newnodes;
             		memset(&self->nodes[self->length], 0,
             		       sizeof(nodetreenode) * (self->capacity - self->length));
             	}
             	return self->length++;
             }
             static int nt_insert(nodetree *self, const char *node, int rev)
             {
             	int level = 0;
             	int off = 0;
             	while (level < 40) {
             		int k = nt_level(node, level);
             		nodetreenode *n;
             		int v;
             		n = &self->nodes[off];
             		v = n->children[k];
             		if (v == 0) {
             			n->children[k] = -rev - 2;
             			return 0;
             		}
             		if (v < 0) {
             			const char *oldnode = index_node_existing(self->index, -(v + 2));
             			int noff;
             			if (oldnode == NULL)
             				return -1;
             			if (!memcmp(oldnode, node, 20)) {
             				n->children[k] = -rev - 2;
             				return 0;
             			}
             			noff = nt_new(self);
             			if (noff == -1)
             				return -1;
             			/* self->nodes may have been changed by realloc */
             			self->nodes[off].children[k] = noff;
             			off = noff;
             			n = &self->nodes[off];
             			n->children[nt_level(oldnode, ++level)] = v;
             			if (level > self->depth)
             				self->depth = level;
             			self->splits += 1;
             		} else {
             			level += 1;
             			off = v;
             		}
             	}
             	return -1;
             }
             static int nt_delete_node(nodetree *self, const char *node)
             {
             	/* rev==-2 happens to get encoded as 0, which is interpreted as not set */
             	return nt_insert(self, node, -2);
             }
             static int nt_init(nodetree *self, indexObject *index, unsigned capacity)
             {
             	self->index = index;
             	self->capacity = capacity;
             	self->depth = 0;
             	self->splits = 0;
             	self->nodes = calloc(self->capacity, sizeof(nodetreenode));
             	if (self->nodes == NULL) {
             		PyErr_NoMemory();
             		return -1;
             	}
             	self->length = 1;
             	if (nt_insert(self, nullid, -1) == -1) {
             		free(self->nodes);
             		return -1;
             	}
             	return 0;
             }
+            static int nt_partialmatch(nodetree *self, const char *node,
+            			   Py_ssize_t nodelen)
+            {
+            	return nt_find(self, node, nodelen, 1);
+            }
+            /*
+             * Find the length of the shortest unique prefix of node.
+             *
+             * Return values:
+             *
+             *   -3: error (exception set)
+             *   -2: not found (no exception set)
+             * rest: length of shortest prefix
+             */
+            static int nt_shortest(nodetree *self, const char *node)
+            {
+            	int level, off;
+            	for (level = off = 0; level < 40; level++) {
+            		int k, v;
+            		nodetreenode *n = &self->nodes[off];
+            		k = nt_level(node, level);
+            		v = n->children[k];
+            		if (v < 0) {
+            			const char *n;
+            			v = -(v + 2);
+            			n = index_node_existing(self->index, v);
+            			if (n == NULL)
+            				return -3;
+            			if (memcmp(node, n, 20) != 0)
+            				/*
+            				 * Found a unique prefix, but it wasn't for the
+            				 * requested node (i.e the requested node does
+            				 * not exist).
+            				 */
+            				return -2;
+            			return level + 1;
+            		}
+            		if (v == 0)
+            			return -2;
+            		off = v;
+            	}
+            	/*
+            	 * The node was still not unique after 40 hex digits, so this won't
+            	 * happen. Also, if we get here, then there's a programming error in
+            	 * this file that made us insert a node longer than 40 hex digits.
+            	 */
+            	PyErr_SetString(PyExc_Exception, "broken node tree");
+            	return -3;
+            }
             static int index_init_nt(indexObject *self)
             {
             	if (self->nt == NULL) {
             		if ((size_t)self->raw_length > INT_MAX / sizeof(nodetreenode)) {
             			PyErr_SetString(PyExc_ValueError, "overflow in index_init_nt");
             			return -1;
             		}
             		self->nt = PyMem_Malloc(sizeof(nodetree));
             		if (self->nt == NULL) {
             			PyErr_NoMemory();
             			return -1;
             		}
             		unsigned capacity = (self->raw_length < 4 ? 4 : (int)self->raw_length / 2);
             		if (nt_init(self->nt, self, capacity) == -1) {
             			PyMem_Free(self->nt);
             			self->nt = NULL;
             			return -1;
             		}
             		self->ntrev = (int)index_length(self);
             		self->ntlookups = 1;
             		self->ntmisses = 0;
             	}
             	return 0;
             }
             /*
              * Return values:
              *
              *   -3: error (exception set)
              *   -2: not found (no exception set)
              * rest: valid rev
              */
             static int index_find_node(indexObject *self,
             			   const char *node, Py_ssize_t nodelen)
             {
             	int rev;
             	if (index_init_nt(self) == -1)
             		return -3;
             	self->ntlookups++;
             	rev = nt_find(self->nt, node, nodelen, 0);
             	if (rev >= -1)
             		return rev;
             	/*
             	 * For the first handful of lookups, we scan the entire index,
             	 * and cache only the matching nodes. This optimizes for cases
             	 * like "hg tip", where only a few nodes are accessed.
             	 *
             	 * After that, we cache every node we visit, using a single
             	 * scan amortized over multiple lookups.  This gives the best
             	 * bulk performance, e.g. for "hg log".
             	 */
             	if (self->ntmisses++ < 4) {
             		for (rev = self->ntrev - 1; rev >= 0; rev--) {
             			const char *n = index_node_existing(self, rev);
             			if (n == NULL)
             				return -3;
             			if (memcmp(node, n, nodelen > 20 ? 20 : nodelen) == 0) {
             				if (nt_insert(self->nt, n, rev) == -1)
             					return -3;
             				break;
             			}
             		}
             	} else {
             		for (rev = self->ntrev - 1; rev >= 0; rev--) {
             			const char *n = index_node_existing(self, rev);
             			if (n == NULL)
             				return -3;
             			if (nt_insert(self->nt, n, rev) == -1) {
             				self->ntrev = rev + 1;
             				return -3;
             			}
             			if (memcmp(node, n, nodelen > 20 ? 20 : nodelen) == 0) {
             				break;
             			}
             		}
             		self->ntrev = rev;
             	}
             	if (rev >= 0)
             		return rev;
             	return -2;
             }
             static void raise_revlog_error(void)
             {
             	PyObject *mod = NULL, *dict = NULL, *errclass = NULL;
             	mod = PyImport_ImportModule("mercurial.error");
             	if (mod == NULL) {
             		goto cleanup;
             	}
             	dict = PyModule_GetDict(mod);
             	if (dict == NULL) {
             		goto cleanup;
             	}
             	Py_INCREF(dict);
             	errclass = PyDict_GetItemString(dict, "RevlogError");
             	if (errclass == NULL) {
             		PyErr_SetString(PyExc_SystemError,
             				"could not find RevlogError");
             		goto cleanup;
             	}
             	/* value of exception is ignored by callers */
             	PyErr_SetString(errclass, "RevlogError");
             cleanup:
             	Py_XDECREF(dict);
             	Py_XDECREF(mod);
             }
             static PyObject *index_getitem(indexObject *self, PyObject *value)
             {
             	char *node;
             	int rev;
             	if (PyInt_Check(value))
             		return index_get(self, PyInt_AS_LONG(value));
             	if (node_check(value, &node) == -1)
             		return NULL;
             	rev = index_find_node(self, node, 20);
             	if (rev >= -1)
             		return PyInt_FromLong(rev);
             	if (rev == -2)
             		raise_revlog_error();
             	return NULL;
             }
             /*
              * Fully populate the radix tree.
              */
             static int index_populate_nt(indexObject *self) {
             	int rev;
             	if (self->ntrev > 0) {
             		for (rev = self->ntrev - 1; rev >= 0; rev--) {
             			const char *n = index_node_existing(self, rev);
             			if (n == NULL)
             				return -1;
             			if (nt_insert(self->nt, n, rev) == -1)
             				return -1;
             		}
             		self->ntrev = -1;
             	}
             	return 0;
             }
-            static int nt_partialmatch(nodetree *self, const char *node,
-            			   Py_ssize_t nodelen)
-            	return nt_find(self, node, nodelen, 1);
-            /*
-             * Find the length of the shortest unique prefix of node.
-             * Return values:
-             *   -3: error (exception set)
-             *   -2: not found (no exception set)
-             * rest: length of shortest prefix
-             */
-            static int nt_shortest(nodetree *self, const char *node)
-            	int level, off;
-            	for (level = off = 0; level < 40; level++) {
-            		int k, v;
-            		nodetreenode *n = &self->nodes[off];
-            		k = nt_level(node, level);
-            		v = n->children[k];
-            		if (v < 0) {
-            			const char *n;
-            			v = -(v + 2);
-            			n = index_node_existing(self->index, v);
-            			if (n == NULL)
-            				return -3;
-            			if (memcmp(node, n, 20) != 0)
-            				/*
-            				 * Found a unique prefix, but it wasn't for the
-            				 * requested node (i.e the requested node does
-            				 * not exist).
-            				 */
-            				return -2;
-            			return level + 1;
-            		if (v == 0)
-            			return -2;
-            		off = v;
-            	/*
-            	 * The node was still not unique after 40 hex digits, so this won't
-            	 * happen. Also, if we get here, then there's a programming error in
-            	 * this file that made us insert a node longer than 40 hex digits.
-            	 */
-            	PyErr_SetString(PyExc_Exception, "broken node tree");
-            	return -3;
             static PyObject *index_partialmatch(indexObject *self, PyObject *args)
             {
             	const char *fullnode;
             	int nodelen;
             	char *node;
             	int rev, i;
             	if (!PyArg_ParseTuple(args, PY23("s#", "y#"), &node, &nodelen))
             		return NULL;
             	if (nodelen < 1) {
             		PyErr_SetString(PyExc_ValueError, "key too short");
             		return NULL;
             	}
             	if (nodelen > 40) {
             		PyErr_SetString(PyExc_ValueError, "key too long");
             		return NULL;
             	}
             	for (i = 0; i < nodelen; i++)
             		hexdigit(node, i);
             	if (PyErr_Occurred()) {
             		/* input contains non-hex characters */
             		PyErr_Clear();
             		Py_RETURN_NONE;
             	}
             	if (index_init_nt(self) == -1)
             		return NULL;
             	if (index_populate_nt(self) == -1)
             		return NULL;
             	rev = nt_partialmatch(self->nt, node, nodelen);
             	switch (rev) {
             	case -4:
             		raise_revlog_error();
             		return NULL;
             	case -2:
             		Py_RETURN_NONE;
             	case -1:
             		return PyBytes_FromStringAndSize(nullid, 20);
             	}
             	fullnode = index_node_existing(self, rev);
             	if (fullnode == NULL) {
             		return NULL;
             	}
             	return PyBytes_FromStringAndSize(fullnode, 20);
             }
             static PyObject *index_shortest(indexObject *self, PyObject *args)
             {
             	PyObject *val;
             	char *node;
             	int length;
             	if (!PyArg_ParseTuple(args, "O", &val))
             		return NULL;
             	if (node_check(val, &node) == -1)
             		return NULL;
             	self->ntlookups++;
             	if (index_init_nt(self) == -1)
             		return NULL;
             	if (index_populate_nt(self) == -1)
             		return NULL;
             	length = nt_shortest(self->nt, node);
             	if (length == -3)
             		return NULL;
             	if (length == -2) {
             		raise_revlog_error();
             		return NULL;
             	}
             	return PyInt_FromLong(length);
             }
             static PyObject *index_m_get(indexObject *self, PyObject *args)
             {
             	PyObject *val;
             	char *node;
             	int rev;
             	if (!PyArg_ParseTuple(args, "O", &val))
             		return NULL;
             	if (node_check(val, &node) == -1)
             		return NULL;
             	rev = index_find_node(self, node, 20);
             	if (rev == -3)
             		return NULL;
             	if (rev == -2)
             		Py_RETURN_NONE;
             	return PyInt_FromLong(rev);
             }
             static int index_contains(indexObject *self, PyObject *value)
             {
             	char *node;
             	if (PyInt_Check(value)) {
             		long rev = PyInt_AS_LONG(value);
             		return rev >= -1 && rev < index_length(self);
             	}
             	if (node_check(value, &node) == -1)
             		return -1;
             	switch (index_find_node(self, node, 20)) {
             	case -3:
             		return -1;
             	case -2:
             		return 0;
             	default:
             		return 1;
             	}
             }
             typedef uint64_t bitmask;
             /*
              * Given a disjoint set of revs, return all candidates for the
              * greatest common ancestor. In revset notation, this is the set
              * "heads(::a and ::b and ...)"
              */
             static PyObject *find_gca_candidates(indexObject *self, const int *revs,
             				     int revcount)
             {
             	const bitmask allseen = (1ull << revcount) - 1;
             	const bitmask poison = 1ull << revcount;
             	PyObject *gca = PyList_New(0);
             	int i, v, interesting;
             	int maxrev = -1;
             	bitmask sp;
             	bitmask *seen;
             	if (gca == NULL)
             		return PyErr_NoMemory();
             	for (i = 0; i < revcount; i++) {
             		if (revs[i] > maxrev)
             			maxrev = revs[i];
             	}
             	seen = calloc(sizeof(*seen), maxrev + 1);
             	if (seen == NULL) {
             		Py_DECREF(gca);
             		return PyErr_NoMemory();
             	}
             	for (i = 0; i < revcount; i++)
             		seen[revs[i]] = 1ull << i;
             	interesting = revcount;
             	for (v = maxrev; v >= 0 && interesting; v--) {
             		bitmask sv = seen[v];
             		int parents[2];
             		if (!sv)
             			continue;
             		if (sv < poison) {
             			interesting -= 1;
             			if (sv == allseen) {
             				PyObject *obj = PyInt_FromLong(v);
             				if (obj == NULL)
             					goto bail;
             				if (PyList_Append(gca, obj) == -1) {
             					Py_DECREF(obj);
             					goto bail;
             				}
             				sv |= poison;
             				for (i = 0; i < revcount; i++) {
             					if (revs[i] == v)
             						goto done;
             				}
             			}
             		}
             		if (index_get_parents(self, v, parents, maxrev) < 0)
             			goto bail;
             		for (i = 0; i < 2; i++) {
             			int p = parents[i];
             			if (p == -1)
             				continue;
             			sp = seen[p];
             			if (sv < poison) {
             				if (sp == 0) {
             					seen[p] = sv;
             					interesting++;
             				}
             				else if (sp != sv)
             					seen[p] |= sv;
             			} else {
             				if (sp && sp < poison)
             					interesting--;
             				seen[p] = sv;
             			}
             		}
             	}
             done:
             	free(seen);
             	return gca;
             bail:
             	free(seen);
             	Py_XDECREF(gca);
             	return NULL;
             }
             /*
              * Given a disjoint set of revs, return the subset with the longest
              * path to the root.
              */
             static PyObject *find_deepest(indexObject *self, PyObject *revs)
             {
             	const Py_ssize_t revcount = PyList_GET_SIZE(revs);
             	static const Py_ssize_t capacity = 24;
             	int *depth, *interesting = NULL;
             	int i, j, v, ninteresting;
             	PyObject *dict = NULL, *keys = NULL;
             	long *seen = NULL;
             	int maxrev = -1;
             	long final;
             	if (revcount > capacity) {
             		PyErr_Format(PyExc_OverflowError,
             			     "bitset size (%ld) > capacity (%ld)",
             			     (long)revcount, (long)capacity);
             		return NULL;
             	}
             	for (i = 0; i < revcount; i++) {
             		int n = (int)PyInt_AsLong(PyList_GET_ITEM(revs, i));
             		if (n > maxrev)
             			maxrev = n;
             	}
             	depth = calloc(sizeof(*depth), maxrev + 1);
             	if (depth == NULL)
             		return PyErr_NoMemory();
             	seen = calloc(sizeof(*seen), maxrev + 1);
             	if (seen == NULL) {
             		PyErr_NoMemory();
             		goto bail;
             	}
             	interesting = calloc(sizeof(*interesting), 1 << revcount);
             	if (interesting == NULL) {
             		PyErr_NoMemory();
             		goto bail;
             	}
             	if (PyList_Sort(revs) == -1)
             		goto bail;
             	for (i = 0; i < revcount; i++) {
             		int n = (int)PyInt_AsLong(PyList_GET_ITEM(revs, i));
             		long b = 1l << i;
             		depth[n] = 1;
             		seen[n] = b;
             		interesting[b] = 1;
             	}
             	/* invariant: ninteresting is the number of non-zero entries in
             	 * interesting. */
             	ninteresting = (int)revcount;
             	for (v = maxrev; v >= 0 && ninteresting > 1; v--) {
             		int dv = depth[v];
             		int parents[2];
             		long sv;
             		if (dv == 0)
             			continue;
             		sv = seen[v];
             		if (index_get_parents(self, v, parents, maxrev) < 0)
             			goto bail;
             		for (i = 0; i < 2; i++) {
             			int p = parents[i];
             			long sp;
             			int dp;
             			if (p == -1)
             				continue;
             			dp = depth[p];
             			sp = seen[p];
             			if (dp <= dv) {
             				depth[p] = dv + 1;
             				if (sp != sv) {
             					interesting[sv] += 1;
             					seen[p] = sv;
             					if (sp) {
             						interesting[sp] -= 1;
             						if (interesting[sp] == 0)
             							ninteresting -= 1;
             					}
             				}
             			}
             			else if (dv == dp - 1) {
             				long nsp = sp | sv;
             				if (nsp == sp)
             					continue;
             				seen[p] = nsp;
             				interesting[sp] -= 1;
             				if (interesting[sp] == 0)
             					ninteresting -= 1;
             				if (interesting[nsp] == 0)
             					ninteresting += 1;
             				interesting[nsp] += 1;
             			}
             		}
             		interesting[sv] -= 1;
             		if (interesting[sv] == 0)
             			ninteresting -= 1;
             	}
             	final = 0;
             	j = ninteresting;
             	for (i = 0; i < (int)(2 << revcount) && j > 0; i++) {
             		if (interesting[i] == 0)
             			continue;
             		final |= i;
             		j -= 1;
             	}
             	if (final == 0) {
             		keys = PyList_New(0);
             		goto bail;
             	}
             	dict = PyDict_New();
             	if (dict == NULL)
             		goto bail;
             	for (i = 0; i < revcount; i++) {
             		PyObject *key;
             		if ((final & (1 << i)) == 0)
             			continue;
             		key = PyList_GET_ITEM(revs, i);
             		Py_INCREF(key);
             		Py_INCREF(Py_None);
             		if (PyDict_SetItem(dict, key, Py_None) == -1) {
             			Py_DECREF(key);
             			Py_DECREF(Py_None);
             			goto bail;
             		}
             	}
             	keys = PyDict_Keys(dict);
             bail:
             	free(depth);
             	free(seen);
             	free(interesting);
             	Py_XDECREF(dict);
             	return keys;
             }
             /*
              * Given a (possibly overlapping) set of revs, return all the
              * common ancestors heads: heads(::args[0] and ::a[1] and ...)
              */
             static PyObject *index_commonancestorsheads(indexObject *self, PyObject *args)
             {
             	PyObject *ret = NULL;
             	Py_ssize_t argcount, i, len;
             	bitmask repeat = 0;
             	int revcount = 0;
             	int *revs;
             	argcount = PySequence_Length(args);
             	revs = PyMem_Malloc(argcount * sizeof(*revs));
             	if (argcount > 0 && revs == NULL)
             		return PyErr_NoMemory();
             	len = index_length(self);
             	for (i = 0; i < argcount; i++) {
             		static const int capacity = 24;
             		PyObject *obj = PySequence_GetItem(args, i);
             		bitmask x;
             		long val;
             		if (!PyInt_Check(obj)) {
             			PyErr_SetString(PyExc_TypeError,
             					"arguments must all be ints");
             			Py_DECREF(obj);
             			goto bail;
             		}
             		val = PyInt_AsLong(obj);
             		Py_DECREF(obj);
             		if (val == -1) {
             			ret = PyList_New(0);
             			goto done;
             		}
             		if (val < 0 || val >= len) {
             			PyErr_SetString(PyExc_IndexError,
             					"index out of range");
             			goto bail;
             		}
             		/* this cheesy bloom filter lets us avoid some more
             		 * expensive duplicate checks in the common set-is-disjoint
             		 * case */
             		x = 1ull << (val & 0x3f);
             		if (repeat & x) {
             			int k;
             			for (k = 0; k < revcount; k++) {
             				if (val == revs[k])
             					goto duplicate;
             			}
             		}
             		else repeat |= x;
             		if (revcount >= capacity) {
             			PyErr_Format(PyExc_OverflowError,
             				     "bitset size (%d) > capacity (%d)",
             				     revcount, capacity);
             			goto bail;
             		}
             		revs[revcount++] = (int)val;
             	duplicate:;
             	}
             	if (revcount == 0) {
             		ret = PyList_New(0);
             		goto done;
             	}
             	if (revcount == 1) {
             		PyObject *obj;
             		ret = PyList_New(1);
             		if (ret == NULL)
             			goto bail;
             		obj = PyInt_FromLong(revs[0]);
             		if (obj == NULL)
             			goto bail;
             		PyList_SET_ITEM(ret, 0, obj);
             		goto done;
             	}
             	ret = find_gca_candidates(self, revs, revcount);
             	if (ret == NULL)
             		goto bail;
             done:
             	PyMem_Free(revs);
             	return ret;
             bail:
             	PyMem_Free(revs);
             	Py_XDECREF(ret);
             	return NULL;
             }
             /*
              * Given a (possibly overlapping) set of revs, return the greatest
              * common ancestors: those with the longest path to the root.
              */
             static PyObject *index_ancestors(indexObject *self, PyObject *args)
             {
             	PyObject *ret;
             	PyObject *gca = index_commonancestorsheads(self, args);
             	if (gca == NULL)
             		return NULL;
             	if (PyList_GET_SIZE(gca) <= 1) {
             		return gca;
             	}
             	ret = find_deepest(self, gca);
             	Py_DECREF(gca);
             	return ret;
             }
             /*
              * Invalidate any trie entries introduced by added revs.
              */
             static void index_invalidate_added(indexObject *self, Py_ssize_t start)
             {
             	Py_ssize_t i, len = PyList_GET_SIZE(self->added);
             	for (i = start; i < len; i++) {
             		PyObject *tuple = PyList_GET_ITEM(self->added, i);
             		PyObject *node = PyTuple_GET_ITEM(tuple, 7);
             		nt_delete_node(self->nt, PyBytes_AS_STRING(node));
             	}
             	if (start == 0)
             		Py_CLEAR(self->added);
             }
             /*
              * Delete a numeric range of revs, which must be at the end of the
              * range, but exclude the sentinel nullid entry.
              */
             static int index_slice_del(indexObject *self, PyObject *item)
             {
             	Py_ssize_t start, stop, step, slicelength;
             	Py_ssize_t length = index_length(self) + 1;
             	int ret = 0;
             /* Argument changed from PySliceObject* to PyObject* in Python 3. */
             #ifdef IS_PY3K
             	if (PySlice_GetIndicesEx(item, length,
             #else
             	if (PySlice_GetIndicesEx((PySliceObject*)item, length,
             #endif
             				 &start, &stop, &step, &slicelength) < 0)
             		return -1;
             	if (slicelength <= 0)
             		return 0;
             	if ((step < 0 && start < stop) || (step > 0 && start > stop))
             		stop = start;
             	if (step < 0) {
             		stop = start + 1;
             		start = stop + step*(slicelength - 1) - 1;
             		step = -step;
             	}
             	if (step != 1) {
             		PyErr_SetString(PyExc_ValueError,
             				"revlog index delete requires step size of 1");
             		return -1;
             	}
             	if (stop != length - 1) {
             		PyErr_SetString(PyExc_IndexError,
             				"revlog index deletion indices are invalid");
             		return -1;
             	}
             	if (start < self->length - 1) {
             		if (self->nt) {
             			Py_ssize_t i;
             			for (i = start + 1; i < self->length - 1; i++) {
             				const char *node = index_node_existing(self, i);
             				if (node == NULL)
             					return -1;
             				nt_delete_node(self->nt, node);
             			}
             			if (self->added)
             				index_invalidate_added(self, 0);
             			if (self->ntrev > start)
             				self->ntrev = (int)start;
             		}
             		self->length = start + 1;
             		if (start < self->raw_length) {
             			if (self->cache) {
             				Py_ssize_t i;
             				for (i = start; i < self->raw_length; i++)
             					Py_CLEAR(self->cache[i]);
             			}
             			self->raw_length = start;
             		}
             		goto done;
             	}
             	if (self->nt) {
             		index_invalidate_added(self, start - self->length + 1);
             		if (self->ntrev > start)
             			self->ntrev = (int)start;
             	}
             	if (self->added)
             		ret = PyList_SetSlice(self->added, start - self->length + 1,
             				      PyList_GET_SIZE(self->added), NULL);
             done:
             	Py_CLEAR(self->headrevs);
             	return ret;
             }
             /*
              * Supported ops:
              *
              * slice deletion
              * string assignment (extend node->rev mapping)
              * string deletion (shrink node->rev mapping)
              */
             static int index_assign_subscript(indexObject *self, PyObject *item,
             				  PyObject *value)
             {
             	char *node;
             	long rev;
             	if (PySlice_Check(item) && value == NULL)
             		return index_slice_del(self, item);
             	if (node_check(item, &node) == -1)
             		return -1;
             	if (value == NULL)
             		return self->nt ? nt_delete_node(self->nt, node) : 0;
             	rev = PyInt_AsLong(value);
             	if (rev > INT_MAX || rev < 0) {
             		if (!PyErr_Occurred())
             			PyErr_SetString(PyExc_ValueError, "rev out of range");
             		return -1;
             	}
             	if (index_init_nt(self) == -1)
             		return -1;
             	return nt_insert(self->nt, node, (int)rev);
             }
             /*
              * Find all RevlogNG entries in an index that has inline data. Update
              * the optional "offsets" table with those entries.
              */
             static Py_ssize_t inline_scan(indexObject *self, const char **offsets)
             {
             	const char *data = (const char *)self->buf.buf;
             	Py_ssize_t pos = 0;
             	Py_ssize_t end = self->buf.len;
             	long incr = v1_hdrsize;
             	Py_ssize_t len = 0;
             	while (pos + v1_hdrsize <= end && pos >= 0) {
             		uint32_t comp_len;
             		/* 3rd element of header is length of compressed inline data */
             		comp_len = getbe32(data + pos + 8);
             		incr = v1_hdrsize + comp_len;
             		if (offsets)
             			offsets[len] = data + pos;
             		len++;
             		pos += incr;
             	}
             	if (pos != end) {
             		if (!PyErr_Occurred())
             			PyErr_SetString(PyExc_ValueError, "corrupt index file");
             		return -1;
             	}
             	return len;
             }
             static int index_init(indexObject *self, PyObject *args)
             {
             	PyObject *data_obj, *inlined_obj;
             	Py_ssize_t size;
             	/* Initialize before argument-checking to avoid index_dealloc() crash. */
             	self->raw_length = 0;
             	self->added = NULL;
             	self->cache = NULL;
             	self->data = NULL;
             	memset(&self->buf, 0, sizeof(self->buf));
             	self->headrevs = NULL;
             	self->filteredrevs = Py_None;
             	Py_INCREF(Py_None);
             	self->nt = NULL;
             	self->offsets = NULL;
             	if (!PyArg_ParseTuple(args, "OO", &data_obj, &inlined_obj))
             		return -1;
             	if (!PyObject_CheckBuffer(data_obj)) {
             		PyErr_SetString(PyExc_TypeError,
             				"data does not support buffer interface");
             		return -1;
             	}
             	if (PyObject_GetBuffer(data_obj, &self->buf, PyBUF_SIMPLE) == -1)
             		return -1;
             	size = self->buf.len;
             	self->inlined = inlined_obj && PyObject_IsTrue(inlined_obj);
             	self->data = data_obj;
             	self->ntlookups = self->ntmisses = 0;
             	self->ntrev = -1;
             	Py_INCREF(self->data);
             	if (self->inlined) {
             		Py_ssize_t len = inline_scan(self, NULL);
             		if (len == -1)
             			goto bail;
             		self->raw_length = len;
             		self->length = len + 1;
             	} else {
             		if (size % v1_hdrsize) {
             			PyErr_SetString(PyExc_ValueError, "corrupt index file");
             			goto bail;
             		}
             		self->raw_length = size / v1_hdrsize;
             		self->length = self->raw_length + 1;
             	}
             	return 0;
             bail:
             	return -1;
             }
             static PyObject *index_nodemap(indexObject *self)
             {
             	Py_INCREF(self);
             	return (PyObject *)self;
             }
             static void index_dealloc(indexObject *self)
             {
             	_index_clearcaches(self);
             	Py_XDECREF(self->filteredrevs);
             	if (self->buf.buf) {
             		PyBuffer_Release(&self->buf);
             		memset(&self->buf, 0, sizeof(self->buf));
             	}
             	Py_XDECREF(self->data);
             	Py_XDECREF(self->added);
             	PyObject_Del(self);
             }
             static PySequenceMethods index_sequence_methods = {
             	(lenfunc)index_length,   /* sq_length */
 ,                       /* sq_concat */
 ,                       /* sq_repeat */
             	(ssizeargfunc)index_get, /* sq_item */
 ,                       /* sq_slice */
 ,                       /* sq_ass_item */
 ,                       /* sq_ass_slice */
             	(objobjproc)index_contains, /* sq_contains */
             };
             static PyMappingMethods index_mapping_methods = {
             	(lenfunc)index_length,                 /* mp_length */
             	(binaryfunc)index_getitem,             /* mp_subscript */
             	(objobjargproc)index_assign_subscript, /* mp_ass_subscript */
             };
             static PyMethodDef index_methods[] = {
             	{"ancestors", (PyCFunction)index_ancestors, METH_VARARGS,
             	 "return the gca set of the given revs"},
             	{"commonancestorsheads", (PyCFunction)index_commonancestorsheads,
             	  METH_VARARGS,
             	  "return the heads of the common ancestors of the given revs"},
             	{"clearcaches", (PyCFunction)index_clearcaches, METH_NOARGS,
             	 "clear the index caches"},
             	{"get", (PyCFunction)index_m_get, METH_VARARGS,
             	 "get an index entry"},
             	{"computephasesmapsets", (PyCFunction)compute_phases_map_sets,
             			METH_VARARGS, "compute phases"},
             	{"reachableroots2", (PyCFunction)reachableroots2, METH_VARARGS,
             		"reachableroots"},
             	{"headrevs", (PyCFunction)index_headrevs, METH_VARARGS,
             	 "get head revisions"}, /* Can do filtering since 3.2 */
             	{"headrevsfiltered", (PyCFunction)index_headrevs, METH_VARARGS,
             	 "get filtered head revisions"}, /* Can always do filtering */
             	{"deltachain", (PyCFunction)index_deltachain, METH_VARARGS,
             	 "determine revisions with deltas to reconstruct fulltext"},
             	{"append", (PyCFunction)index_append, METH_O,
             	 "append an index entry"},
             	{"partialmatch", (PyCFunction)index_partialmatch, METH_VARARGS,
             	 "match a potentially ambiguous node ID"},
             	{"shortest", (PyCFunction)index_shortest, METH_VARARGS,
             	 "find length of shortest hex nodeid of a binary ID"},
             	{"stats", (PyCFunction)index_stats, METH_NOARGS,
             	 "stats for the index"},
             	{NULL} /* Sentinel */
             };
             static PyGetSetDef index_getset[] = {
             	{"nodemap", (getter)index_nodemap, NULL, "nodemap", NULL},
             	{NULL} /* Sentinel */
             };
             static PyTypeObject indexType = {
             	PyVarObject_HEAD_INIT(NULL, 0) /* header */
             	"parsers.index",           /* tp_name */
             	sizeof(indexObject),       /* tp_basicsize */
 ,                         /* tp_itemsize */
             	(destructor)index_dealloc, /* tp_dealloc */
 ,                         /* tp_print */
 ,                         /* tp_getattr */
 ,                         /* tp_setattr */
 ,                         /* tp_compare */
 ,                         /* tp_repr */
 ,                         /* tp_as_number */
             	&index_sequence_methods,   /* tp_as_sequence */
             	&index_mapping_methods,    /* tp_as_mapping */
 ,                         /* tp_hash */
 ,                         /* tp_call */
 ,                         /* tp_str */
 ,                         /* tp_getattro */
 ,                         /* tp_setattro */
 ,                         /* tp_as_buffer */
             	Py_TPFLAGS_DEFAULT,        /* tp_flags */
             	"revlog index",            /* tp_doc */
 ,                         /* tp_traverse */
 ,                         /* tp_clear */
 ,                         /* tp_richcompare */
 ,                         /* tp_weaklistoffset */
 ,                         /* tp_iter */
 ,                         /* tp_iternext */
             	index_methods,             /* tp_methods */
 ,                         /* tp_members */
             	index_getset,              /* tp_getset */
 ,                         /* tp_base */
 ,                         /* tp_dict */
 ,                         /* tp_descr_get */
 ,                         /* tp_descr_set */
 ,                         /* tp_dictoffset */
             	(initproc)index_init,      /* tp_init */
 ,                         /* tp_alloc */
             };
             /*
              * returns a tuple of the form (index, index, cache) with elements as
              * follows:
              *
              * index: an index object that lazily parses RevlogNG records
              * cache: if data is inlined, a tuple (0, index_file_content), else None
              *        index_file_content could be a string, or a buffer
              *
              * added complications are for backwards compatibility
              */
             PyObject *parse_index2(PyObject *self, PyObject *args)
             {
             	PyObject *tuple = NULL, *cache = NULL;
             	indexObject *idx;
             	int ret;
             	idx = PyObject_New(indexObject, &indexType);
             	if (idx == NULL)
             		goto bail;
             	ret = index_init(idx, args);
             	if (ret == -1)
             		goto bail;
             	if (idx->inlined) {
             		cache = Py_BuildValue("iO", 0, idx->data);
             		if (cache == NULL)
             			goto bail;
             	} else {
             		cache = Py_None;
             		Py_INCREF(cache);
             	}
             	tuple = Py_BuildValue("NN", idx, cache);
             	if (!tuple)
             		goto bail;
             	return tuple;
             bail:
             	Py_XDECREF(idx);
             	Py_XDECREF(cache);
             	Py_XDECREF(tuple);
             	return NULL;
             }
             void revlog_module_init(PyObject *mod)
             {
             	indexType.tp_new = PyType_GenericNew;
             	if (PyType_Ready(&indexType) < 0)
             		return;
             	Py_INCREF(&indexType);
             	PyModule_AddObject(mod, "index", (PyObject *)&indexType);
             	nullentry = Py_BuildValue(PY23("iiiiiiis#", "iiiiiiiy#"), 0, 0, 0,
             				  -1, -1, -1, -1, nullid, 20);
             	if (nullentry)
             		PyObject_GC_UnTrack(nullentry);
             }