[imager.git] / datatypes.c

#include <stdlib.h>
#include <stdio.h>
#include <string.h>
#include "imager.h"

/*
  2d bitmask with test and set operations
*/

struct i_bitmap*
btm_new(int xsize,int ysize) {
  int i;
  int bytes;
  struct i_bitmap *btm;
  btm=(struct i_bitmap*)mymalloc(sizeof(struct i_bitmap)); /* checked 4jul05 tonyc */
  bytes = (xsize*ysize+8)/8;
  if (bytes * 8 / ysize < xsize-1) { /* this is kind of rough */
    fprintf(stderr, "Integer overflow allocating bitmap %d x %d", xsize, ysize);
    exit(3);
  }
  btm->data=(char*)mymalloc(bytes); /* checked 4jul05 tonyc */
  btm->xsize=xsize;
  btm->ysize=ysize;
  for(i=0;i<(xsize*ysize+8)/8;i++) btm->data[i]=0; /* Is this always needed */
  return btm;
}


void
btm_destroy(struct i_bitmap *btm) {
  myfree(btm->data);
  myfree(btm);
}


int
btm_test(struct i_bitmap *btm,int x,int y) {
  int btno;
  if (x<0 || x>btm->xsize-1 || y<0 || y>btm->ysize-1) return 0;
  btno=btm->xsize*y+x;
  return (1<<(btno%8))&(btm->data[btno/8]);
}

void
btm_set(struct i_bitmap *btm,int x,int y) {
  int btno;
  if (x<0 || x>btm->xsize-1 || y<0 || y>btm->ysize-1) abort();
  btno=btm->xsize*y+x;
  btm->data[btno/8]|=1<<(btno%8);
}


/*
  Bucketed linked list - stack type 
*/

struct llink *
llink_new(struct llink* p,int size) {
  struct llink *l;
  l       = mymalloc(sizeof(struct llink)); /* checked 4jul05 tonyc */
  l->n    = NULL;
  l->p    = p;
  l->fill = 0;
  l->data = mymalloc(size); /* checked 4jul05 tonyc - depends on caller to llist_push */
  return l;
}

/* free's the data pointer, itself, and sets the previous' next pointer to null */

void
llink_destroy(struct llink* l) {
  if (l->p != NULL) { l->p->n=NULL; }
  myfree(l->data);
  myfree(l);
}


/* if it returns true there wasn't room for the
   item on the link */

int
llist_llink_push(struct llist *lst, struct llink *lnk,void *data) {
  int multip;
  multip = lst->multip;

  /*   fprintf(stderr,"llist_llink_push: data=0x%08X -> 0x%08X\n",data,*(int*)data);
       fprintf(stderr,"ssize = %d, multip = %d, fill = %d\n",lst->ssize,lst->multip,lnk->fill); */
  if (lnk->fill == lst->multip) return 1;
  /*   memcpy((char*)(lnk->data)+lnk->fill*lst->ssize,data,lst->ssize); */
  memcpy((char*)(lnk->data)+lnk->fill*lst->ssize,data,lst->ssize);
  
  /*   printf("data=%X res=%X\n",*(int*)data,*(int*)(lnk->data));*/
  lnk->fill++;
  lst->count++;
  return 0;
}

struct llist *
llist_new(int multip, int ssize) {
  struct llist *l;
  l         = mymalloc(sizeof(struct llist)); /* checked 4jul05 tonyc */
  l->h      = NULL;
  l->t      = NULL;
  l->multip = multip;
  l->ssize  = ssize;
  l->count  = 0;
  return l;
}

void
llist_push(struct llist *l,void *data) {
  int ssize  = l->ssize;
  int multip = l->multip;
  
  /*  fprintf(stderr,"llist_push: data=0x%08X\n",data);
      fprintf(stderr,"Chain size: %d\n", l->count); */
    
  if (l->t == NULL) {
    l->t = l->h = llink_new(NULL,ssize*multip);  /* Tail is empty - list is empty */
    /* fprintf(stderr,"Chain empty - extended\n"); */
  }
  else { /* Check for overflow in current tail */
    if (l->t->fill >= l->multip) {
      struct llink* nt = llink_new(l->t, ssize*multip);
      l->t->n=nt;
      l->t=nt;
      /* fprintf(stderr,"Chain extended\n"); */
    }
  }
  /*   fprintf(stderr,"0x%08X\n",l->t); */
  if (llist_llink_push(l,l->t,data)) { 
    i_fatal(3, "out of memory\n");
  }
}

/* returns 0 if the list is empty */

int
llist_pop(struct llist *l,void *data) {
  /*   int ssize=l->ssize; 
       int multip=l->multip;*/
  if (l->t == NULL) return 0;
  l->t->fill--;
  l->count--;
  memcpy(data,(char*)(l->t->data)+l->ssize*l->t->fill,l->ssize);
  
  if (!l->t->fill) {			 	/* This link empty */
    if (l->t->p == NULL) {                      /* and it's the only link */
      llink_destroy(l->t);
      l->h = l->t = NULL;
    }
    else {
      l->t=l->t->p;
      llink_destroy(l->t->n);
    }
  }
  return 1;
}

void
llist_dump(struct llist *l) {
  int j;
  int i=0;
  struct llink *lnk; 
  lnk=l->h;
  while(lnk != NULL) {
    for(j=0;j<lnk->fill;j++) {
      /*       memcpy(&k,(char*)(lnk->data)+l->ssize*j,sizeof(void*));*/
      /*memcpy(&k,(char*)(lnk->data)+l->ssize*j,sizeof(void*));*/
      printf("%d - %p\n",i,*(void **)((char *)(lnk->data)+l->ssize*j));
      i++;
    }
    lnk=lnk->n;
  }
}

void
llist_destroy(struct llist *l) {
  struct llink *t,*lnk = l->h;
  while( lnk != NULL ) {
    t=lnk;
    lnk=lnk->n;
    myfree(t);
  }
  myfree(l);
}


/*
  Oct-tree implementation 
*/

struct octt *
octt_new() {
  int i;
  struct octt *t;
  
  t=(struct octt*)mymalloc(sizeof(struct octt)); /* checked 4jul05 tonyc */
  for(i=0;i<8;i++) t->t[i]=NULL;
  t->cnt=0;
  return t;
}


/* returns 1 if the colors wasn't in the octtree already */


int
octt_add(struct octt *ct,unsigned char r,unsigned char g,unsigned char b) {
  struct octt *c;
  int i,cm;
  int ci;
  int rc;
  rc=0;
  c=ct;
  /*  printf("[r,g,b]=[%d,%d,%d]\n",r,g,b); */
  for(i=7;i>-1;i--) {
    cm=1<<i;
    ci=((!!(r&cm))<<2)+((!!(g&cm))<<1)+!!(b&cm); 
    /* printf("idx[%d]=%d\n",i,ci); */
    if (c->t[ci] == NULL) { 
      c->t[ci]=octt_new(); 
      rc=1; 
    }
    c=c->t[ci];
  }
  c->cnt++;  /* New. The only thing really needed (I think) */
  return rc;
}


void
octt_delete(struct octt *ct) {
  int i;
  for(i=0;i<8;i++) if (ct->t[i] != NULL) octt_delete(ct->t[i]);  /* do not free instance here because it will free itself */
  myfree(ct);
}


void
octt_dump(struct octt *ct) {
	int i;
	/* 	printf("node [0x%08X] -> (%d)\n",ct,ct->cnt); */
	for(i=0;i<8;i++)
	  if (ct->t[i] != NULL) 
	    printf("[ %d ] -> %p\n", i, (void *)ct->t[i]);	
	for(i=0;i<8;i++) 
	  if (ct->t[i] != NULL) 
	    octt_dump(ct->t[i]);
}

/* note that all calls of octt_count are operating on the same overflow 
   variable so all calls will know at the same time if an overflow
   has occured and stops there. */

void
octt_count(struct octt *ct,int *tot,int max,int *overflow) {
  int i,c;
  c=0;
  if (!(*overflow)) return;
  for(i=0;i<8;i++) if (ct->t[i]!=NULL) { 
    octt_count(ct->t[i],tot,max,overflow);
    c++;
  }
  if (!c) (*tot)++;
  if ( (*tot) > (*overflow) ) *overflow=0;
}

/* This whole function is new */
/* walk through the tree and for each colour, store its seen count in the
   space pointed by *col_usage_it_adr */
void
octt_histo(struct octt *ct, unsigned int **col_usage_it_adr) {
    int i,c;
    c = 0;
    for(i = 0; i < 8; i++) 
        if (ct->t[i] != NULL) { 
            octt_histo(ct->t[i], col_usage_it_adr);
            c++;
        }
    if (!c) {
        *(*col_usage_it_adr)++ = ct->cnt;
    }
}
Commit	Line	Data
02d1d628 AMH	1	#include <stdlib.h>
02d1d628 AMH	2	#include <stdio.h>
35891892	3	#include <string.h>
e310e5f9	4	#include "imager.h"
02d1d628 AMH	5
	6	/*
	7	2d bitmask with test and set operations
	8	*/
	9
	10	struct i_bitmap*
	11	btm_new(int xsize,int ysize) {
	12	int i;
f0960b14	13	int bytes;
02d1d628	14	struct i_bitmap *btm;
f0960b14 TC	15	btm=(struct i_bitmap)mymalloc(sizeof(struct i_bitmap)); / checked 4jul05 tonyc */
	16	bytes = (xsize*ysize+8)/8;
	17	if (bytes * 8 / ysize < xsize-1) { /* this is kind of rough */
	18	fprintf(stderr, "Integer overflow allocating bitmap %d x %d", xsize, ysize);
	19	exit(3);
	20	}
	21	btm->data=(char)mymalloc(bytes); / checked 4jul05 tonyc */
02d1d628 AMH	22	btm->xsize=xsize;
	23	btm->ysize=ysize;
	24	for(i=0;i<(xsizeysize+8)/8;i++) btm->data[i]=0; / Is this always needed */
	25	return btm;
	26	}
	27
	28
	29	void
	30	btm_destroy(struct i_bitmap *btm) {
	31	myfree(btm->data);
	32	myfree(btm);
	33	}
	34
	35
	36	int
	37	btm_test(struct i_bitmap *btm,int x,int y) {
	38	int btno;
	39	if (x<0 \|\| x>btm->xsize-1 \|\| y<0 \|\| y>btm->ysize-1) return 0;
	40	btno=btm->xsize*y+x;
	41	return (1<<(btno%8))&(btm->data[btno/8]);
	42	}
	43
	44	void
	45	btm_set(struct i_bitmap *btm,int x,int y) {
	46	int btno;
e25e59b1	47	if (x<0 \|\| x>btm->xsize-1 \|\| y<0 \|\| y>btm->ysize-1) abort();
02d1d628 AMH	48	btno=btm->xsize*y+x;
	49	btm->data[btno/8]\|=1<<(btno%8);
	50	}
	51
	52
	53
	54
	55
	56	/*
a73aeb5f	57	Bucketed linked list - stack type
02d1d628 AMH	58	*/
	59
	60	struct llink *
	61	llink_new(struct llink* p,int size) {
	62	struct llink *l;
f0960b14	63	l = mymalloc(sizeof(struct llink)); /* checked 4jul05 tonyc */
a73aeb5f AMH	64	l->n = NULL;
	65	l->p = p;
	66	l->fill = 0;
f0960b14	67	l->data = mymalloc(size); /* checked 4jul05 tonyc - depends on caller to llist_push */
02d1d628 AMH	68	return l;
	69	}
	70
	71	/* free's the data pointer, itself, and sets the previous' next pointer to null */
	72
	73	void
	74	llink_destroy(struct llink* l) {
	75	if (l->p != NULL) { l->p->n=NULL; }
	76	myfree(l->data);
	77	myfree(l);
	78	}
	79
	80
	81	/* if it returns true there wasn't room for the
	82	item on the link */
	83
	84	int
	85	llist_llink_push(struct llist lst, struct llink lnk,void *data) {
	86	int multip;
a73aeb5f	87	multip = lst->multip;
02d1d628 AMH	88
	89	/* fprintf(stderr,"llist_llink_push: data=0x%08X -> 0x%08X\n",data,(int)data);
	90	fprintf(stderr,"ssize = %d, multip = %d, fill = %d\n",lst->ssize,lst->multip,lnk->fill); */
	91	if (lnk->fill == lst->multip) return 1;
	92	/* memcpy((char)(lnk->data)+lnk->filllst->ssize,data,lst->ssize); */
	93	memcpy((char)(lnk->data)+lnk->filllst->ssize,data,lst->ssize);
	94
	95	/* printf("data=%X res=%X\n",(int)data,(int)(lnk->data));*/
	96	lnk->fill++;
	97	lst->count++;
	98	return 0;
	99	}
	100
	101	struct llist *
	102	llist_new(int multip, int ssize) {
	103	struct llist *l;
f0960b14	104	l = mymalloc(sizeof(struct llist)); /* checked 4jul05 tonyc */
a73aeb5f AMH	105	l->h = NULL;
	106	l->t = NULL;
	107	l->multip = multip;
	108	l->ssize = ssize;
	109	l->count = 0;
02d1d628 AMH	110	return l;
	111	}
	112
	113	void
	114	llist_push(struct llist l,void data) {
a73aeb5f AMH	115	int ssize = l->ssize;
a73aeb5f AMH	116	int multip = l->multip;
02d1d628	117
a73aeb5f AMH	118	/* fprintf(stderr,"llist_push: data=0x%08X\n",data);
	119	fprintf(stderr,"Chain size: %d\n", l->count); */
	120
	121	if (l->t == NULL) {
	122	l->t = l->h = llink_new(NULL,ssizemultip); / Tail is empty - list is empty */
	123	/* fprintf(stderr,"Chain empty - extended\n"); */
	124	}
02d1d628 AMH	125	else { /* Check for overflow in current tail */
02d1d628 AMH	126	if (l->t->fill >= l->multip) {
a73aeb5f	127	struct llink* nt = llink_new(l->t, ssize*multip);
02d1d628 AMH	128	l->t->n=nt;
	129	l->t=nt;
	130	/* fprintf(stderr,"Chain extended\n"); */
	131	}
	132	}
	133	/* fprintf(stderr,"0x%08X\n",l->t); */
a73aeb5f	134	if (llist_llink_push(l,l->t,data)) {
b1e96952	135	i_fatal(3, "out of memory\n");
a73aeb5f	136	}
02d1d628 AMH	137	}
	138
	139	/* returns 0 if the list is empty */
	140
	141	int
	142	llist_pop(struct llist l,void data) {
	143	/* int ssize=l->ssize;
	144	int multip=l->multip;*/
	145	if (l->t == NULL) return 0;
	146	l->t->fill--;
	147	l->count--;
02d1d628 AMH	148	memcpy(data,(char)(l->t->data)+l->ssizel->t->fill,l->ssize);
	149
	150	if (!l->t->fill) { /* This link empty */
a73aeb5f AMH	151	if (l->t->p == NULL) { /* and it's the only link */
	152	llink_destroy(l->t);
	153	l->h = l->t = NULL;
	154	}
02d1d628 AMH	155	else {
	156	l->t=l->t->p;
	157	llink_destroy(l->t->n);
	158	}
	159	}
	160	return 1;
	161	}
	162
	163	void
	164	llist_dump(struct llist *l) {
bc8930e3	165	int j;
02d1d628 AMH	166	int i=0;
	167	struct llink *lnk;
	168	lnk=l->h;
	169	while(lnk != NULL) {
	170	for(j=0;j<lnk->fill;j++) {
	171	/* memcpy(&k,(char)(lnk->data)+l->ssizej,sizeof(void));/
bc8930e3	172	/memcpy(&k,(char)(lnk->data)+l->ssizej,sizeof(void));*/
5e2762ac	173	printf("%d - %p\n",i,(void )((char )(lnk->data)+l->ssize*j));
02d1d628 AMH	174	i++;
	175	}
	176	lnk=lnk->n;
	177	}
	178	}
	179
	180	void
	181	llist_destroy(struct llist *l) {
	182	struct llink t,lnk = l->h;
	183	while( lnk != NULL ) {
	184	t=lnk;
	185	lnk=lnk->n;
	186	myfree(t);
	187	}
	188	myfree(l);
	189	}
	190
	191
	192
	193
	194
	195
	196	/*
	197	Oct-tree implementation
	198	*/
	199
	200	struct octt *
	201	octt_new() {
	202	int i;
	203	struct octt *t;
	204
f0960b14	205	t=(struct octt)mymalloc(sizeof(struct octt)); / checked 4jul05 tonyc */
02d1d628 AMH	206	for(i=0;i<8;i++) t->t[i]=NULL;
	207	t->cnt=0;
	208	return t;
	209	}
	210
	211
	212	/* returns 1 if the colors wasn't in the octtree already */
	213
	214
	215	int
	216	octt_add(struct octt *ct,unsigned char r,unsigned char g,unsigned char b) {
	217	struct octt *c;
	218	int i,cm;
fe622da1	219	int ci;
02d1d628 AMH	220	int rc;
	221	rc=0;
	222	c=ct;
	223	/* printf("[r,g,b]=[%d,%d,%d]\n",r,g,b); */
02d1d628 AMH	224	for(i=7;i>-1;i--) {
	225	cm=1<<i;
	226	ci=((!!(r&cm))<<2)+((!!(g&cm))<<1)+!!(b&cm);
	227	/* printf("idx[%d]=%d\n",i,ci); */
fe622da1 TC	228	if (c->t[ci] == NULL) {
	229	c->t[ci]=octt_new();
	230	rc=1;
	231	}
02d1d628	232	c=c->t[ci];
02d1d628	233	}
fe622da1	234	c->cnt++; /* New. The only thing really needed (I think) */
02d1d628 AMH	235	return rc;
	236	}
	237
	238
	239	void
	240	octt_delete(struct octt *ct) {
	241	int i;
	242	for(i=0;i<8;i++) if (ct->t[i] != NULL) octt_delete(ct->t[i]); /* do not free instance here because it will free itself */
	243	myfree(ct);
	244	}
	245
	246
	247	void
	248	octt_dump(struct octt *ct) {
	249	int i;
	250	/* printf("node [0x%08X] -> (%d)\n",ct,ct->cnt); */
8a2cd317 TC	251	for(i=0;i<8;i++)
	252	if (ct->t[i] != NULL)
	253	printf("[ %d ] -> %p\n", i, (void *)ct->t[i]);
	254	for(i=0;i<8;i++)
	255	if (ct->t[i] != NULL)
	256	octt_dump(ct->t[i]);
02d1d628 AMH	257	}
	258
	259	/* note that all calls of octt_count are operating on the same overflow
	260	variable so all calls will know at the same time if an overflow
	261	has occured and stops there. */
	262
	263	void
	264	octt_count(struct octt ct,int tot,int max,int *overflow) {
	265	int i,c;
	266	c=0;
	267	if (!(*overflow)) return;
	268	for(i=0;i<8;i++) if (ct->t[i]!=NULL) {
	269	octt_count(ct->t[i],tot,max,overflow);
	270	c++;
	271	}
	272	if (!c) (*tot)++;
	273	if ( (tot) > (overflow) ) *overflow=0;
	274	}
fe622da1 TC	275
	276	/* This whole function is new */
	277	/* walk through the tree and for each colour, store its seen count in the
	278	space pointed by col_usage_it_adr /
	279	void
	280	octt_histo(struct octt ct, unsigned int *col_usage_it_adr) {
	281	int i,c;
	282	c = 0;
	283	for(i = 0; i < 8; i++)
	284	if (ct->t[i] != NULL) {
	285	octt_histo(ct->t[i], col_usage_it_adr);
	286	c++;
	287	}
	288	if (!c) {
	289	(col_usage_it_adr)++ = ct->cnt;
	290	}
	291	}
	292
	293