Context Navigation

source: branches/help/GDE/CLUSTAL/showpair.c

Visit:

Last change on this file was 13845, checked in by westram, 10 years ago
remove executable flag
Property svn:eol-style set to `native` Property svn:keywords set to `Author Date Id Revision`
File size: 8.7 KB

Line
1	#include <stdio.h>
2	#include <string.h>
3	#include <stdlib.h>
4	#include <math.h>
5	#include "clustalv.h"
6
7
8	/*
9	* Prototypes
10	*/
11
12	extern void *ckalloc(size_t);
13	extern void error(char *,...);
14	extern int *seqlen_array;
15	extern char **seq_array;
16
17	void init_show_pair(void);
18	void show_pair(void);
19	static void make_p_ptrs(int ,int ,int,int);
20	static void make_n_ptrs(int ,int ,int,int);
21	static void put_frag(int,int,int,int);
22	static int frag_rel_pos(int,int,int,int);
23	static void pair_align(int,int,int);
24	static void des_quick_sort(int , int , int);
25
26
27	/*
28	* Global variables
29	*/
30
31	extern int next,nseqs;
32	extern Boolean dnaflag;
33	extern double **tmat;
34
35	int ktup,window,wind_gap,signif; /* Pairwise aln. params */
36	int dna_ktup, dna_window, dna_wind_gap, dna_signif; /* params for DNA */
37	int prot_ktup,prot_window,prot_wind_gap,prot_signif; /* params for prots */
38
39
40	Boolean percent;
41
42	static int curr_frag,maxsf,vatend;
43	static int **accum;
44	int displ; / also used in myers.c */
45	int zza, zzb, zzc, zzd; /* also used in myers.c */
46	static int *diag_index;
47	static char *slopes;
48
49	void init_show_pair(void)
50	{
51	register int i;
52
53	accum = (int *)ckalloc( 5sizeof (int *) );
54	for (i=0;i<5;i++)
55	accum[i] = (int ) ckalloc(FSIZE sizeof (int) );
56
57	displ = (int ) ckalloc( (2MAXLEN +1) * sizeof (int) );
58	slopes = (char )ckalloc( (2MAXLEN +1) * sizeof (char));
59	diag_index = (int ) ckalloc( (2MAXLEN +1) * sizeof (int) );
60
61	zza = (int )ckalloc( (MAXLEN+1) sizeof (int) );
62	zzb = (int )ckalloc( (MAXLEN+1) sizeof (int) );
63
64	zzc = (int )ckalloc( (MAXLEN+1) sizeof (int) );
65	zzd = (int )ckalloc( (MAXLEN+1) sizeof (int) );
66
67	dna_ktup = 2; /* default parameters for DNA */
68	dna_wind_gap = 5;
69	dna_signif = 4;
70	dna_window = 4;
71
72	prot_ktup = 1; /* default parameters for proteins */
73	prot_wind_gap = 3;
74	prot_signif = 5;
75	prot_window = 5;
76
77	percent=TRUE;
78	}
79
80	static void make_p_ptrs(int tptr,int pl,int naseq,int l)
81	{
82	static int a[]={ 0, 1, 20, 400 };
83	int i,j,limit,code,flag;
84	char residue;
85
86	limit = (int) pow((double)20,(double)ktup);
87	for(i=1;i<=limit;++i)
88	pl[i]=0;
89	for(i=1;i<=l;++i)
90	tptr[i]=0;
91
92	for(i=1;i<=(l-ktup+1);++i) {
93	code=0;
94	flag=FALSE;
95	for(j=1;j<=ktup;++j) {
96	residue = seq_array[naseq][i+j-1];
97	if(residue<=0) {
98	flag=TRUE;
99	break;
100	}
101	code += ((residue-1) * a[j]);
102	}
103	if(flag)
104	continue;
105	++code;
106	if(pl[code]!=0)
107	tptr[i]=pl[code];
108	pl[code]=i;
109	}
110	}
111
112
113	static void make_n_ptrs(int tptr,int pl,int naseq,int len)
114	{
115	static int pot[]={ 0, 1, 4, 16, 64, 256, 1024, 4096 };
116	int i,j,limit,code,flag;
117	char residue;
118
119	limit = (int) pow((double)4,(double)ktup);
120
121	for(i=1;i<=limit;++i)
122	pl[i]=0;
123	for(i=1;i<=len;++i)
124	tptr[i]=0;
125
126	for(i=1;i<=len-ktup+1;++i) {
127	code=0;
128	flag=FALSE;
129	for(j=1;j<=ktup;++j) {
130	residue = seq_array[naseq][i+j-1];
131	if(residue<=0) {
132	flag=TRUE;
133	break;
134	}
135	code += ((residue-1) * pot[j]);
136	}
137	if(flag)
138	continue;
139	++code;
140	if(pl[code]!=0)
141	tptr[i]=pl[code];
142	pl[code]=i;
143	}
144	}
145
146
147	static void put_frag(int fs,int v1,int v2,int flen)
148	{
149	int end;
150
151	accum[0][curr_frag]=fs;
152	accum[1][curr_frag]=v1;
153	accum[2][curr_frag]=v2;
154	accum[3][curr_frag]=flen;
155
156	if(!maxsf) {
157	maxsf=1;
158	accum[4][curr_frag]=0;
159	return;
160	}
161
162	if(fs >= accum[0][maxsf]) {
163	accum[4][curr_frag]=maxsf;
164	maxsf=curr_frag;
165	return;
166	}
167	else {
168	next=maxsf;
169	while(TRUE) {
170	end=next;
171	next=accum[4][next];
172	if(fs>=accum[0][next])
173	break;
174	}
175	accum[4][curr_frag]=next;
176	accum[4][end]=curr_frag;
177	}
178	}
179
180
181	static int frag_rel_pos(int a1,int b1,int a2,int b2)
182	{
183	int ret;
184
185	ret=FALSE;
186	if(a1-b1==a2-b2) {
187	if(a2<a1)
188	ret=TRUE;
189	}
190	else {
191	if(a2+ktup-1<a1 && b2+ktup-1<b1)
192	ret=TRUE;
193	}
194	return ret;
195	}
196
197
198	static void des_quick_sort(int array1, int array2, int array_size)
199	/* */
200	/* Quicksort routine, adapted from chapter 4, page 115 of software tools */
201	/* by Kernighan and Plauger, (1986) */
202	/* Sort the elements of array1 and sort the */
203	/* elements of array2 accordingly */
204	/* */
205	{
206	int temp1, temp2;
207	int p, pivlin;
208	int i, j;
209	int lst[50], ust[50]; /* the maximum no. of elements must be*/
210	/* < log(base2) of 50 */
211
212	lst[1] = 1;
213	ust[1] = array_size;
214	p = 1;
215
216	while(p > 0) {
217	if(lst[p] >= ust[p])
218	p--;
219	else {
220	i = lst[p] - 1;
221	j = ust[p];
222	pivlin = array1[j];
223	while(i < j) {
224	for(i=i+1; array1[i] < pivlin; i++)
225	;
226	for(j=j-1; j > i; j--)
227	if(array1[j] <= pivlin) break;
228	if(i < j) {
229	temp1 = array1[i];
230	array1[i] = array1[j];
231	array1[j] = temp1;
232
233	temp2 = array2[i];
234	array2[i] = array2[j];
235	array2[j] = temp2;
236	}
237	}
238
239	j = ust[p];
240
241	temp1 = array1[i];
242	array1[i] = array1[j];
243	array1[j] = temp1;
244
245	temp2 = array2[i];
246	array2[i] = array2[j];
247	array2[j] = temp2;
248
249	if(i-lst[p] < ust[p] - i) {
250	lst[p+1] = lst[p];
251	ust[p+1] = i - 1;
252	lst[p] = i + 1;
253	}
254	else {
255	lst[p+1] = i + 1;
256	ust[p+1] = ust[p];
257	ust[p] = i - 1;
258	}
259	p = p + 1;
260	}
261	}
262	return;
263
264	}
265
266
267
268
269
270	static void pair_align(int seq_no,int l1,int l2)
271	{
272	int pot[8],i,j,k,l,m,flag,limit,pos,tl1,vn1,vn2,flen,osptr,fs;
273	int tv1,tv2,encrypt,subt1,subt2,rmndr;
274	char residue;
275
276	if(dnaflag) {
277	for(i=1;i<=ktup;++i)
278	pot[i] = (int) pow((double)4,(double)(i-1));
279	limit = (int) pow((double)4,(double)ktup);
280	}
281	else {
282	pot[1]=1;
283	pot[2]=20;
284	pot[3]=400;
285	limit = (int) pow(20.0,(double)ktup);
286	}
287
288	tl1 = (l1+l2)-1;
289
290	for(i=1;i<=tl1;++i) {
291	slopes[i]=displ[i]=0;
292	diag_index[i] = i;
293	}
294
295
296	/* increment diagonal score for each k_tuple match */
297
298	for(i=1;i<=limit;++i) {
299	vn1=zzc[i];
300	while(TRUE) {
301	if(!vn1) break;
302	vn2=zzd[i];
303	while(vn2 != 0) {
304	osptr=vn1-vn2+l2;
305	++displ[osptr];
306	vn2=zzb[vn2];
307	}
308	vn1=zza[vn1];
309	}
310	}
311
312	/* choose the top SIGNIF diagonals */
313
314	des_quick_sort(displ, diag_index, tl1);
315
316	j = tl1 - signif + 1;
317	if(j < 1) j = 1;
318
319	/* flag all diagonals within WINDOW of a top diagonal */
320
321	for(i=tl1; i>=j; i--)
322	if(displ[i] > 0) {
323	pos = diag_index[i];
324	l = (1 >pos-window) ? 1 : pos-window;
325	m = (tl1<pos+window) ? tl1 : pos+window;
326	for(; l <= m; l++)
327	slopes[l] = 1;
328	}
329
330	for(i=1; i<=tl1; i++) displ[i] = 0;
331
332
333	curr_frag=maxsf=0;
334
335	for(i=1;i<=(l1-ktup+1);++i) {
336	encrypt=flag=0;
337	for(j=1;j<=ktup;++j) {
338	residue = seq_array[seq_no][i+j-1];
339	if(residue<=0) {
340	flag=TRUE;
341	break;
342	}
343	encrypt += ((residue-1)*pot[j]);
344	}
345	if(flag) continue;
346	++encrypt;
347
348	vn2=zzd[encrypt];
349
350	flag=FALSE;
351	while(TRUE) {
352	if(!vn2) {
353	flag=TRUE;
354	break;
355	}
356	osptr=i-vn2+l2;
357	if(slopes[osptr]!=1) {
358	vn2=zzb[vn2];
359	continue;
360	}
361	flen=0;
362	fs=ktup;
363	next=maxsf;
364
365
366	/*
367	* A-loop
368	*/
369
370	while(TRUE) {
371	if(!next) {
372	++curr_frag;
373	if(curr_frag>=FSIZE) {
374	fprintf(stdout,"(Partial alignment)");
375	vatend=1;
376	return;
377	}
378	displ[osptr]=curr_frag;
379	put_frag(fs,i,vn2,flen);
380	}
381	else {
382	tv1=accum[1][next];
383	tv2=accum[2][next];
384	if(frag_rel_pos(i,vn2,tv1,tv2)) {
385	if(i-vn2==accum[1][next]-accum[2][next]) {
386	if(i>accum[1][next]+(ktup-1))
387	fs=accum[0][next]+ktup;
388	else {
389	rmndr=i-accum[1][next];
390	fs=accum[0][next]+rmndr;
391	}
392	flen=next;
393	next=0;
394	continue;
395	}
396	else {
397	if(displ[osptr]==0)
398	subt1=ktup;
399	else {
400	if(i>accum[1][displ[osptr]]+(ktup-1))
401	subt1=accum[0][displ[osptr]]+ktup;
402	else {
403	rmndr=i-accum[1][displ[osptr]];
404	subt1=accum[0][displ[osptr]]+rmndr;
405	}
406	}
407	subt2=accum[0][next]-wind_gap+ktup;
408	if(subt2>subt1) {
409	flen=next;
410	fs=subt2;
411	}
412	else {
413	flen=displ[osptr];
414	fs=subt1;
415	}
416	next=0;
417	continue;
418	}
419	}
420	else {
421	next=accum[4][next];
422	continue;
423	}
424	}
425	break;
426	}
427	/*
428	* End of Aloop
429	*/
430
431	vn2=zzb[vn2];
432	}
433	}
434	vatend=0;
435	}
436
437	void show_pair()
438	{
439	int i,j,k,dsr;
440	double calc_score;
441
442	fprintf(stdout,"\n\n");
443
444	for(i=1;i<=nseqs;++i) {
445	if(dnaflag)
446	make_n_ptrs(zza,zzc,i,seqlen_array[i]);
447	else
448	make_p_ptrs(zza,zzc,i,seqlen_array[i]);
449	for(j=i+1;j<=nseqs;++j) {
450	if(dnaflag)
451	make_n_ptrs(zzb,zzd,j,seqlen_array[j]);
452	else
453	make_p_ptrs(zzb,zzd,j,seqlen_array[j]);
454	pair_align(i,seqlen_array[i],seqlen_array[j]);
455	if(!maxsf)
456	calc_score=0.0;
457	else {
458	calc_score=(double)accum[0][maxsf];
459	if(percent) {
460	dsr=(seqlen_array[i]<seqlen_array[j]) ?
461	seqlen_array[i] : seqlen_array[j];
462	calc_score = (calc_score/(double)dsr) * 100.0;
463	}
464	}
465	tmat[i][j]=calc_score;
466	tmat[j][i]=calc_score;
467	if(calc_score>0.1)
468	fprintf(stdout,"Sequences (%d:%d) Aligned. Score: %lg\n",
469	i,j,calc_score);
470	else
471	fprintf(stdout,"Sequences (%d:%d) Not Aligned\n",i,j);
472	}
473	}
474	}
475

Note: See TracBrowser for help on using the repository browser.

Download in other formats: