struct set*
curr_set(void);
struct ref*
-prev_ref(void);
-struct model
+curr_ref(void);
+struct model*
curr_model(void);
void
inc_posts(void);
-#define CURR_CDAT (*cdat_stackp)
-#define CURR_SET set_list[CURR_CDAT->num_sets]
-#define REF_IDX (num_refs % (refs_per_page * pages_per_chunk))
-#define PREV_REF (ref_buf[num_ref_chunks] + (REF_IDX * (sizeof (struct ref)) + pagesize - (sizeof (struct ref))))
-#define CURR_REF (ref_buf[num_ref_chunks] + (REF_IDX * (sizeof (struct ref)) + pagesize))
-#define ODAT_IDX (num_odats % (odats_per_page * pages_per_chunk))
-#define CURR_ODAT (odat_buf[num_odat_chunks] + (ODAT_IDX * (sizeof (struct odat)) + pagesize))
-#define VDAT_IDX (num_vdats % (vdats_per_page * pages_per_chunk))
-#define CURR_VDAT (vdat_buf[num_vdat_chunks] + (VDAT_IDX * (sizeof (struct vdat)) + pagesize))
-#define CURR_MODEL (CURR_VDAT.model_list[CURR_VDAT.num_models])
-#define CURR_LINK (link_buf[num_links])
-#define CURR_POST (post_buf[num_posts])
+#define PAGES_PER_CHUNK 16
+
+//"type free" chunk stacking
+struct chunk_stack
+{ void* chunks[MAX_CHUNKS];
+ void* *csp; //chunk stack pointer
+ void* dsp[MAX_CHUNKS]; //dat stack pointer (per chunk)
+ int chunk_size; //size of a chunk (including its forfeited page)
+ int max_dats; //number of dats per chunk for this stack
+} ocs, vcs, ccs, rcs, lcs, pcs; //odat, vdat, and cdat, ref, link, post stacks
+
+//type safety handled by macro expansion (do not call these directly from code, make dependent macros for access to these)
+#define CHUNKS_LEN(STACK) ((STACK).csp - (STACK).chunks)
+#define CURRENT_CHUNK(STACK) ((STACK).chunks[CHUNKS_LEN(STACK) - 1])
+#define CHUNKS_FULL(STACK) ( (STACK).csp >= \
+ (STACK).chunks + MAX_CHUNKS * (STACK).chunk_size)
+#define CURRENT_DSP(STACK,TYPE) ((TYPE*) ((STACK).dsp[CHUNKS_LEN(STACK) - 1]))
+#define DATA_FULL(STACK,TYPE) ((void*) CURRENT_DSP(STACK,TYPE) >= \
+ (CURRENT_CHUNK(STACK) + (STACK).chunk_size))
+#define CSP_PUSH(STACK) (*(++(STACK).csp) = malloc((STACK).chunk_size))
+#define CURRENT_DATP(STACK,TYPE) (((TYPE**)(STACK).dsp)[CHUNKS_LEN(STACK) - 1])
+#define PREVIOUS_DATP(STACK,TYPE) (((TYPE**)(STACK).dsp)[CHUNKS_LEN(STACK) - 2])
+#define ALLOC_DAT(STACK,TYPE) (++CURRENT_DATP(STACK,TYPE))
+#define INIT_STACK(STACK,TYPE) \
+ { int i; \
+ (STACK).chunk_size = PAGES_PER_CHUNK * pagesize; \
+ (STACK).max_dats = (STACK).chunk_size / sizeof (TYPE); \
+ CSP_PUSH(STACK); \
+ for( i = 0; i < MAX_CHUNKS; i++){ \
+ (STACK).dsp[i] += pagesize; \
+ } \
+ }
+//Stack-specific macros (called directly from code (safety enforcement)
+#define INIT_ODAT() (INIT_STACK(ocs, struct odat))
+#define CURRENT_ODAT() (CURRENT_DATP(ocs,struct odat))
+#define ODAT_FULL() (DATA_FULL(ocs,struct odat))
+#define ODAT_ALLOC() (ALLOC_DAT(ocs,struct odat))
+#define OCS_FULL() (CHUNKS_FULL(ocs))
+#define INIT_VDAT() (INIT_STACK(vcs, struct vdat))
+#define CURRENT_VDAT() (CURRENT_DATP(vcs,struct vdat))
+#define VDAT_FULL() (DATA_FULL(vcs,struct vdat))
+#define VDAT_ALLOC() (ALLOC_DAT(vcs,struct vdat))
+#define VCS_FULL() (CHUNKS_FULL(vcs))
+#define INIT_CDAT() (INIT_STACK(ccs, struct cdat))
+#define CURRENT_CDAT() (CURRENT_DATP(ccs,struct cdat))
+#define CDAT_FULL() (DATA_FULL(ccs, struct cdat))
+#define CDAT_ALLOC() (ALLOC_DAT(ccs, struct cdat))
+#define CCS_FULL() (CHUNKS_FULL(ccs))
+#define INIT_LINK() (INIT_STACK(lcs, struct link))
+#define CURRENT_LINK() (CURRENT_DATP(lcs,struct link))
+#define LDAT_FULL() (DATA_FULL(lcs, struct link))
+#define LDAT_ALLOC() (ALLOC_DAT(lcs, struct link))
+#define LCS_FULL() (CHUNKS_FULL(lcs))
+#define INIT_POST() (INIT_STACK(rcs, struct ref))
+#define CURRENT_POST() (CURRENT_DATP(pcs,struct ref))
+#define POST_FULL() (DATA_FULL(pcs,struct ref))
+#define POST_ALLOC() (ALLOC_DAT(pcs,struct ref))
+#define PCS_FULL() (CHUNKS_FULL(pcs))
+#define INIT_REF() (INIT_STACK(rcs, struct ref))
+#define CURRENT_REF() (CURRENT_DATP(rcs,struct ref))
+#define PREVIOUS_REF() (PREVIOUS_DATP(rcs, struct ref))
+#define REF_FULL() (DATA_FULL(rcs,struct ref))
+#define REF_ALLOC() (ALLOC_DAT(rcs,struct ref))
+#define RCS_FULL() (CHUNKS_FULL(rcs))
+//Metadata
+#define CURRENT_SET() (CURRENT_CDAT()->set_list[CURRENT_CDAT()->num_sets])
+#define CURRENT_MODEL() (CURRENT_VDAT()->model_list[CURRENT_VDAT()->num_models])
+
+
#define CURR_QUAD (CURR_ODAT->quad_file)
long pagesize;
-int pages_per_chunk = 10;
-
int num_cdats = 0;
-int curr_max_cdats = PTRS_IN_PAGE;
-struct cdat* cdat_buf[PTRS_IN_PAGE];
-struct cdat* cdat_stack[PTRS_IN_PAGE];
+struct cdat* cdat_stack[MAX_CLASSES];
struct cdat** cdat_stackp;
-
-int num_odat_chunks = 0;
int num_odats = 0;
-void* odat_buf[MAX_CHUNKS];
-long odats_per_page;
+int num_vdats = 0;
-//"type free" chunk stacking
-struct chunk_stack
-{ void* chunks[MAX_CHUNKS];
- void* csp; //chunk stack pointer
- void* dsp[MAX_CHUNKS]; //dat stack pointer (per chunk)
-} ocs, vcs, ccs; //odat, vdat, and cdat chunk stacks
-
-//type safety handled by macro expansion
-#define CHUNK_LEN(STACK) ((STACK).csp - (STACK).chunks)
-#define CURRENT_DAT(STACK,TYPE) ((TYPE)(STACK.dsp[CHUNK_LEN(STACK)])
-#define INCREMENT_DAT(STACK,TYPE) (++CURRENT_DAT(STACK,TYPE))
-//Stack-specific macros
-#define CURRENT_ODAT() (CURRENT_DAT(ocs,struct odat*))
-#define CURRENT_VDAT() (CURRENT_DAT(vcs,struct vdat*))
-#define CURRENT_CDAT() (CURRENT_DAT(ccs,struct cdat*))
-//Metadata
-#define CURRENT_MODEL() (CURRENT_VDAT()->model_list[CURRENT_VDAT()->num_models])
-
-
-int num_vdat_chunks = 0;
-int num_vdats = 0;
-struct vdat* vdat_buf[MAX_CHUNKS];
-long vdats_per_page;
-
-int num_ref_chunks = 0;
int num_refs = 0;
-void* ref_buf[MAX_CHUNKS];
-long refs_per_page;
uint64_t ss_ref_id = 0x00FFFFFF; /* system space for ref_ids */
-int num_posts = -1;
-int curr_max_posts = PTRS_IN_PAGE;
-struct ref* post_buf[PTRS_IN_PAGE];
-
+int num_posts = 0;
-int num_links = -1;
-int curr_max_links = PTRS_IN_PAGE;
-struct link* link_buf[PTRS_IN_PAGE];
+int num_links = 0;
/* The initalization function of the IR. */
ir_init()
{
- /* Init root cdat and stack */
char root[4] = "root";
- if( (cdat_buf[num_cdats] = (struct cdat*) malloc(sizeof(struct cdat))) == NULL)
- {
- perror("malloc root class failed\n");
- return -1;
- }
- cdat_buf[num_cdats]->idx = num_cdats;
- memmove(cdat_buf[num_cdats]->name, root, 4);
+ pagesize = sysconf(_SC_PAGESIZE);
- cdat_stackp = cdat_stack;
- *cdat_stackp++ = cdat_buf[num_cdats++];
+ INIT_CDAT();
+ *cdat_stackp = CURRENT_CDAT();
+ memmove((*cdat_stackp)->name, root, 32);
+
+ INIT_ODAT();
+ INIT_VDAT();
+ INIT_LINK();
+ INIT_REF();
+ INIT_POST();
- pagesize = sysconf(_SC_PAGESIZE);
- odats_per_page = (sizeof (struct odat)/pagesize);
- vdats_per_page = (sizeof (struct vdat)/pagesize);
- refs_per_page = (sizeof (struct ref)/pagesize);
return 0;
{
int i;
- for(i = 0; i <= num_odats ; i++)
+ for(i = 0; i < CHUNKS_LEN(ccs) ; i++)
{
- free(odat_buf[i]);
+ free(ccs.chunks[i]);
}
- for(i = 0; i <= num_cdats; i++)
+ for(i = 0; i < CHUNKS_LEN(ocs); i++)
{
- free(cdat_buf[i]);
+ free(ocs.chunks[i]);
}
- for(i = 0; i <= num_vdats; i++)
+ for(i = 0; i < CHUNKS_LEN(vcs) ; i++)
{
- free(vdat_buf[i]);
+ free(vcs.chunks[i]);
}
- for(i = 0; i <= num_refs; i++)
+ for(i = 0; i < CHUNKS_LEN(rcs); i++)
{
- free(ref_buf[i]);
+ free(rcs.chunks[i]);
}
- for(i = 0; i<= num_links; i++)
+ for(i = 0; i < CHUNKS_LEN(lcs); i++)
{
- free(link_buf[i]);
+ free(lcs.chunks[i]);
+ }
+ for(i = 0; i < CHUNKS_LEN(pcs); i++)
+ {
+ free(pcs.chunks[i]);
}
}
-//TODO: FREE MEMORY!
struct cdat*
alloc_cdat()
{
num_cdats++;
- if(curr_max_cdats <= num_cdats)
- { if( (realloc((void*) cdat_buf, PTRS_IN_PAGE * 4)) == NULL)
- perror("realloc cdat_buf failed");
- curr_max_cdats += PTRS_IN_PAGE;
- if( (realloc( (void*) cdat_stack, PTRS_IN_PAGE * 4)) == NULL) //increase cdat_stack also
- perror("realloc cdat_stack failed");
+ if(CDAT_FULL())
+ { if(CCS_FULL())
+ { fprintf(stderr, "You have allocated to many (%d) cdats ", num_cdats);
+ exit(EXIT_FAILURE);
+ }
+ else
+ CSP_PUSH(ccs);
}
- if( (CURR_CDAT = (struct cdat*) malloc(sizeof (struct cdat)) ) == NULL )
- perror("malloc cdat failed");
-
- return CURR_CDAT;
+ else
+ CDAT_ALLOC();
+ return CURRENT_CDAT();
}
+
+//these should probably be inline
struct odat*
alloc_odat
()
{
num_odats++;
-
- if(!(num_odats % (odats_per_page * pages_per_chunk))) //chunk is full
- {
- num_odat_chunks++;
- if( ((odat_buf[num_odat_chunks] = malloc(odats_per_page * pages_per_chunk)) == NULL) )
- perror("malloc odat chunk failed");
+ if(ODAT_FULL())
+ { if(!OCS_FULL())
+ { fprintf(stderr, "You have allocated to many (%d) odats ", num_odats);
+ exit(EXIT_FAILURE);
+ }
+ else
+ CSP_PUSH(ocs);
}
+ else
+ ODAT_ALLOC();
- return CURR_ODAT;
+ return CURRENT_ODAT();
}
void
alloc_vdat
()
-{
- num_vdats++;
-
- if(!(num_vdats % (vdats_per_page * pages_per_chunk))) //chunk is full
- {
- num_vdat_chunks++;
- if( ((vdat_buf[num_vdat_chunks] = malloc(vdats_per_page * pages_per_chunk)) == NULL) )
- perror("malloc vdat chunk failed");
+{ num_vdats++;
+ if(VDAT_FULL())
+ { if(!VCS_FULL())
+ { fprintf(stderr, "You have allocated to many (%d) vdats ", num_vdats);
+ exit(EXIT_FAILURE);
+ }
+ else
+ CSP_PUSH(vcs);
}
-
+ else
+ VDAT_ALLOC();
}
struct link*
alloc_link
()
-{
- num_links++;
-
- if(num_links >= curr_max_links)
- { if( (realloc((void*) link_buf, PTRS_IN_PAGE * 4)) == NULL)
- perror("realloc vdat_buf failed");
- curr_max_links += PTRS_IN_PAGE;
+{ num_links++;
+ if(LDAT_FULL())
+ { if(!LCS_FULL())
+ { fprintf(stderr, "You have allocated to many (%d) links ", num_links);
+ exit(EXIT_FAILURE);
+ }
+ else
+ CSP_PUSH(lcs);
}
- if((CURR_LINK = (struct link*) malloc(sizeof (struct link))) == NULL)
- perror("malloc link failed");
+ else
+ LDAT_ALLOC();
+
+ return CURRENT_LINK();
- return CURR_LINK;
}
struct ref*
alloc_ref
()
-{
- num_refs++;
+{ num_refs++;
+ if(REF_FULL())
+ { if(!RCS_FULL())
+ { fprintf(stderr, "You have allocated to many (%d) refs ", num_refs);
+ exit(EXIT_FAILURE);
+ }
+ else
+ CSP_PUSH(rcs);
+ }
+ else
+ REF_ALLOC();
+
if(num_refs % 16 == 0)
- { CURR_POST = CURR_REF;
+ { CURRENT_POST() = CURRENT_REF();
inc_posts();
}
- if(!(num_refs % (refs_per_page * pages_per_chunk))) //chunk is full
- {
- num_ref_chunks++;
- if( ((ref_buf[num_ref_chunks] = malloc(refs_per_page * pages_per_chunk)) == NULL) )
- perror("malloc ref chunk failed");
- }
- return CURR_REF;
+ return CURRENT_REF();
}
void
inc_posts()
-{
- if(num_posts >= curr_max_posts)
- { if( (realloc((void*) ref_buf, PTRS_IN_PAGE * 4)) == NULL)
- perror("realoc post_buf failed");
- curr_max_posts += PTRS_IN_PAGE;
+{ num_posts++;
+ if(POST_FULL())
+ { if(!PCS_FULL())
+ { fprintf(stderr, "You have allocated to many (%d) refs ", num_posts);
+ exit(EXIT_FAILURE);
+ }
+ else
+ CSP_PUSH(pcs);
}
- if ((CURR_POST = (struct ref*) malloc (sizeof (struct ref))) == NULL)
- perror("malloc post failed");
+ else
+ POST_ALLOC();
}
curr_cdat
()
{
- return CURR_CDAT;
+ return (*cdat_stackp);
}
struct odat*
curr_odat
()
{
- return CURR_ODAT;
+ return CURRENT_ODAT();
}
struct vdat*
curr_vdat
()
{
- return CURR_VDAT;
+ return CURRENT_VDAT();
}
struct set*
curr_set
()
{
- return &CURR_CDAT->CURR_SET;
+ return &CURRENT_SET();
}
struct ref*
-prev_ref
+curr_ref
()
{
- return PREV_REF;
+ return CURRENT_REF();
}
-struct model
+struct model*
curr_model
()
{
- return CURR_MODEL;
+ return &CURRENT_MODEL();
}