commit-slab.h - jrn/git - Git at Google

 #ifndef COMMIT_SLAB_H
 #define COMMIT_SLAB_H

 /*
  * define_commit_slab(slabname, elemtype) creates boilerplate code to define
  * a new struct (struct slabname) that is used to associate a piece of data
  * of elemtype to commits, and a few functions to use that struct.
  *
  * After including this header file, using:
  *
  * define_commit_slab(indegee, int);
  *
  * will let you call the following functions:
  *
  * - int *indegree_at(struct indegree *, struct commit *);
  *
  *   This function locates the data associated with the given commit in
  *   the indegree slab, and returns the pointer to it.  The location to
  *   store the data is allocated as necessary.
  *
  * - int *indegree_peek(struct indegree *, struct commit *);
  *
  *   This function is similar to indegree_at(), but it will return NULL
  *   until a call to indegree_at() was made for the commit.
  *
  * - void init_indegree(struct indegree *);
  *   void init_indegree_with_stride(struct indegree *, int);
  *
  *   Initializes the indegree slab that associates an array of integers
  *   to each commit. 'stride' specifies how big each array is.  The slab
  *   that is initialized by the variant without "_with_stride" associates
  *   each commit with an array of one integer.
  *
  * - void clear_indegree(struct indegree *);
  *
  *   Empties the slab.  The slab can be reused with the same stride
  *   without calling init_indegree() again or can be reconfigured to a
  *   different stride by calling init_indegree_with_stride().
  *
  *   Call this function before the slab falls out of scope to avoid
  *   leaking memory.
  */

 /* allocate ~512kB at once, allowing for malloc overhead */
 #ifndef COMMIT_SLAB_SIZE
 #define COMMIT_SLAB_SIZE (512*1024-32)
 #endif

 #define MAYBE_UNUSED __attribute__((__unused__))

 #define define_commit_slab(slabname, elemtype) 				\
 									\
 struct slabname {							\
 	unsigned slab_size;						\
 	unsigned stride;						\
 	unsigned slab_count;						\
 	elemtype **slab;						\
 };									\
 static int stat_ ##slabname## realloc;					\
 									\
 static MAYBE_UNUSED void init_ ##slabname## _with_stride(struct slabname *s, \
 						   unsigned stride)	\
 {									\
 	unsigned int elem_size;						\
 	if (!stride)							\
 		stride = 1;						\
 	s->stride = stride;						\
 	elem_size = sizeof(elemtype) * stride;				\
 	s->slab_size = COMMIT_SLAB_SIZE / elem_size;			\
 	s->slab_count = 0;						\
 	s->slab = NULL;							\
 }									\
 									\
 static MAYBE_UNUSED void init_ ##slabname(struct slabname *s)		\
 {									\
 	init_ ##slabname## _with_stride(s, 1);				\
 }									\
 									\
 static MAYBE_UNUSED void clear_ ##slabname(struct slabname *s)		\
 {									\
 	int i;								\
 	for (i = 0; i < s->slab_count; i++)				\
 		free(s->slab[i]);					\
 	s->slab_count = 0;						\
 	free(s->slab);							\
 	s->slab = NULL;							\
 }									\
 									\
 static MAYBE_UNUSED elemtype *slabname## _at_peek(struct slabname *s,	\
 						  const struct commit *c, \
 						  int add_if_missing)   \
 {									\
 	int nth_slab, nth_slot;						\
 									\
 	nth_slab = c->index / s->slab_size;				\
 	nth_slot = c->index % s->slab_size;				\
 									\
 	if (s->slab_count <= nth_slab) {				\
 		int i;							\
 		if (!add_if_missing)					\
 			return NULL;					\
 		REALLOC_ARRAY(s->slab, nth_slab + 1);			\
 		stat_ ##slabname## realloc++;				\
 		for (i = s->slab_count; i <= nth_slab; i++)		\
 			s->slab[i] = NULL;				\
 		s->slab_count = nth_slab + 1;				\
 	}								\
 	if (!s->slab[nth_slab]) {					\
 		if (!add_if_missing)					\
 			return NULL;					\
 		s->slab[nth_slab] = xcalloc(s->slab_size,		\
 					    sizeof(**s->slab) * s->stride);		\
 	}								\
 	return &s->slab[nth_slab][nth_slot * s->stride];		\
 }									\
 									\
 static MAYBE_UNUSED elemtype *slabname## _at(struct slabname *s,	\
 					     const struct commit *c)	\
 {									\
 	return slabname##_at_peek(s, c, 1);				\
 }									\
 									\
 static MAYBE_UNUSED elemtype *slabname## _peek(struct slabname *s,	\
 					     const struct commit *c)	\
 {									\
 	return slabname##_at_peek(s, c, 0);				\
 }									\
 									\
 static int stat_ ##slabname## realloc

 /*
  * Note that this seemingly redundant second declaration is required
  * to allow a terminating semicolon, which makes instantiations look
  * like function declarations.  I.e., the expansion of
  *
  *    define_commit_slab(indegree, int);
  *
  * ends in 'static int stat_indegreerealloc;'.  This would otherwise
  * be a syntax error according (at least) to ISO C.  It's hard to
  * catch because GCC silently parses it by default.
  */

 /*
  * Statically initialize a commit slab named "var". Note that this
  * evaluates "stride" multiple times! Example:
  *
  *   struct indegree indegrees = COMMIT_SLAB_INIT(1, indegrees);
  *
  */
 #define COMMIT_SLAB_INIT(stride, var) { \
 	COMMIT_SLAB_SIZE / sizeof(**((var).slab)) / (stride), \
 	(stride), 0, NULL \
 }

 #endif /* COMMIT_SLAB_H */
	#ifndef COMMIT_SLAB_H
	#define COMMIT_SLAB_H

	/*
	* define_commit_slab(slabname, elemtype) creates boilerplate code to define
	* a new struct (struct slabname) that is used to associate a piece of data
	* of elemtype to commits, and a few functions to use that struct.
	*
	* After including this header file, using:
	*
	* define_commit_slab(indegee, int);
	*
	* will let you call the following functions:
	*
	* - int indegree_at(struct indegree , struct commit *);
	*
	* This function locates the data associated with the given commit in
	* the indegree slab, and returns the pointer to it. The location to
	* store the data is allocated as necessary.
	*
	* - int indegree_peek(struct indegree , struct commit *);
	*
	* This function is similar to indegree_at(), but it will return NULL
	* until a call to indegree_at() was made for the commit.
	*
	* - void init_indegree(struct indegree *);
	* void init_indegree_with_stride(struct indegree *, int);
	*
	* Initializes the indegree slab that associates an array of integers
	* to each commit. 'stride' specifies how big each array is. The slab
	* that is initialized by the variant without "_with_stride" associates
	* each commit with an array of one integer.
	*
	* - void clear_indegree(struct indegree *);
	*
	* Empties the slab. The slab can be reused with the same stride
	* without calling init_indegree() again or can be reconfigured to a
	* different stride by calling init_indegree_with_stride().
	*
	* Call this function before the slab falls out of scope to avoid
	* leaking memory.
	*/

	/* allocate ~512kB at once, allowing for malloc overhead */
	#ifndef COMMIT_SLAB_SIZE
	#define COMMIT_SLAB_SIZE (512*1024-32)
	#endif

	#define MAYBE_UNUSED __attribute__((__unused__))

	#define define_commit_slab(slabname, elemtype) \
	\
	struct slabname { \
	unsigned slab_size; \
	unsigned stride; \
	unsigned slab_count; \
	elemtype **slab; \
	}; \
	static int stat_ ##slabname## realloc; \
	\
	static MAYBE_UNUSED void init_ ##slabname## _with_stride(struct slabname *s, \
	unsigned stride) \
	{ \
	unsigned int elem_size; \
	if (!stride) \
	stride = 1; \
	s->stride = stride; \
	elem_size = sizeof(elemtype) * stride; \
	s->slab_size = COMMIT_SLAB_SIZE / elem_size; \
	s->slab_count = 0; \
	s->slab = NULL; \
	} \
	\
	static MAYBE_UNUSED void init_ ##slabname(struct slabname *s) \
	{ \
	init_ ##slabname## _with_stride(s, 1); \
	} \
	\
	static MAYBE_UNUSED void clear_ ##slabname(struct slabname *s) \
	{ \
	int i; \
	for (i = 0; i < s->slab_count; i++) \
	free(s->slab[i]); \
	s->slab_count = 0; \
	free(s->slab); \
	s->slab = NULL; \
	} \
	\
	static MAYBE_UNUSED elemtype slabname## _at_peek(struct slabname s, \
	const struct commit *c, \
	int add_if_missing) \
	{ \
	int nth_slab, nth_slot; \
	\
	nth_slab = c->index / s->slab_size; \
	nth_slot = c->index % s->slab_size; \
	\
	if (s->slab_count <= nth_slab) { \
	int i; \
	if (!add_if_missing) \
	return NULL; \
	REALLOC_ARRAY(s->slab, nth_slab + 1); \
	stat_ ##slabname## realloc++; \
	for (i = s->slab_count; i <= nth_slab; i++) \
	s->slab[i] = NULL; \
	s->slab_count = nth_slab + 1; \
	} \
	if (!s->slab[nth_slab]) { \
	if (!add_if_missing) \
	return NULL; \
	s->slab[nth_slab] = xcalloc(s->slab_size, \
	sizeof(*s->slab) s->stride); \
	} \
	return &s->slab[nth_slab][nth_slot * s->stride]; \
	} \
	\
	static MAYBE_UNUSED elemtype slabname## _at(struct slabname s, \
	const struct commit *c) \
	{ \
	return slabname##_at_peek(s, c, 1); \
	} \
	\
	static MAYBE_UNUSED elemtype slabname## _peek(struct slabname s, \
	const struct commit *c) \
	{ \
	return slabname##_at_peek(s, c, 0); \
	} \
	\
	static int stat_ ##slabname## realloc

	/*
	* Note that this seemingly redundant second declaration is required
	* to allow a terminating semicolon, which makes instantiations look
	* like function declarations. I.e., the expansion of
	*
	* define_commit_slab(indegree, int);
	*
	* ends in 'static int stat_indegreerealloc;'. This would otherwise
	* be a syntax error according (at least) to ISO C. It's hard to
	* catch because GCC silently parses it by default.
	*/

	/*
	* Statically initialize a commit slab named "var". Note that this
	* evaluates "stride" multiple times! Example:
	*
	* struct indegree indegrees = COMMIT_SLAB_INIT(1, indegrees);
	*
	*/
	#define COMMIT_SLAB_INIT(stride, var) { \
	COMMIT_SLAB_SIZE / sizeof(**((var).slab)) / (stride), \
	(stride), 0, NULL \
	}

	#endif /* COMMIT_SLAB_H */