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source: branches/stable/GDE/RAxML/axml.h

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Last change on this file was 10409, checked in by aboeckma, 11 years ago
Updated raxml to current version
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1	/* RAxML-VI-HPC (version 2.2) a program for sequential and parallel estimation of phylogenetic trees
2	* Copyright August 2006 by Alexandros Stamatakis
3	*
4	* Partially derived from
5	* fastDNAml, a program for estimation of phylogenetic trees from sequences by Gary J. Olsen
6	*
7	* and
8	*
9	* Programs of the PHYLIP package by Joe Felsenstein.
10	*
11	* This program is free software; you may redistribute it and/or modify its
12	* under the terms of the GNU General Public License as published by the Free
13	* Software Foundation; either version 2 of the License, or (at your option)
14	* any later version.
15	*
16	* This program is distributed in the hope that it will be useful, but
17	* WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY
18	* or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License
19	* for more details.
20	*
21	*
22	* For any other enquiries send an Email to Alexandros Stamatakis
23	* Alexandros.Stamatakis@epfl.ch
24	*
25	* When publishing work that is based on the results from RAxML-VI-HPC please cite:
26	*
27	* Alexandros Stamatakis:"RAxML-VI-HPC: maximum likelihood-based phylogenetic analyses
28	* with thousands of taxa and mixed models".
29	* Bioinformatics 2006; doi: 10.1093/bioinformatics/btl446
30	*/
31
32
33	#include <assert.h>
34	#include <stdint.h>
35	#include <stdio.h>
36
37	#ifdef __AVX
38	#define BYTE_ALIGNMENT 32
39	#else
40	#define BYTE_ALIGNMENT 16
41	#endif
42
43
44	#ifdef _USE_PTHREADS
45
46	#include <pthread.h>
47
48	#endif
49
50
51	#define MAX_TIP_EV 0.999999999 /* max tip vector value, sum of EVs needs to be smaller than 1.0, otherwise the numerics break down */
52	#define smoothings 32 /* maximum smoothing passes through tree */
53	#define iterations 10 /* maximum iterations of iterations per insert */
54	#define newzpercycle 1 /* iterations of makenewz per tree traversal */
55	#define nmlngth 256 /* number of characters in species name */
56	#define deltaz 0.00001 /* test of net branch length change in update */
57	#define defaultz 0.9 /* value of z assigned as starting point */
58	#define unlikely -1.0E300 /* low likelihood for initialization */
59
60
61	#define SUMMARIZE_LENGTH -3
62	#define SUMMARIZE_LH -2
63	#define NO_BRANCHES -1
64
65	#define MASK_LENGTH 32
66	#define VECTOR_LENGTH (NUM_BRANCHES / MASK_LENGTH)
67	#define GET_BITVECTOR_LENGTH(x) ((x % MASK_LENGTH) ? (x / MASK_LENGTH + 1) : (x / MASK_LENGTH))
68
69	#define zmin 1.0E-15 /* max branch prop. to -log(zmin) (= 34) */
70	#define zmax (1.0 - 1.0E-6) /* min branch prop. to 1.0-zmax (= 1.0E-6) */
71
72	#define twotothe256 \
73	115792089237316195423570985008687907853269984665640564039457584007913129639936.0
74	/* 2*256 (exactly) /
75
76	#define minlikelihood (1.0/twotothe256)
77	#define minusminlikelihood -minlikelihood
78
79	#define badRear -1
80
81	#define NUM_BRANCHES 128
82
83	#define TRUE 1
84	#define FALSE 0
85
86
87
88	#define LIKELIHOOD_EPSILON 0.0000001
89
90	#define THREAD_TO_DEBUG 1
91
92	#define AA_SCALE 10.0
93	#define AA_SCALE_PLUS_EPSILON 10.001
94
95	/* ALPHA_MIN is critical -> numerical instability, eg for 4 discrete rate cats */
96	/* and alpha = 0.01 the lowest rate r_0 is */
97	/* 0.00000000000000000000000000000000000000000000000000000000000034878079110511010487 */
98	/* which leads to numerical problems Table for alpha settings below: */
99	/* */
100	/* 0.010000 0.00000000000000000000000000000000000000000000000000000000000034878079110511010487 */
101	/* 0.010000 yielded nasty numerical bugs in at least one case ! */
102	/* 0.020000 0.00000000000000000000000000000044136090435925743185910935350715027016962154188875 */
103	/* 0.030000 0.00000000000000000000476844846859006690412039180149775802624789852441798419292220 */
104	/* 0.040000 0.00000000000000049522423236954066431210260930029681736928018820007024736185030633 */
105	/* 0.050000 0.00000000000050625351310359203371872643495343928538368616365517027588794007897377 */
106	/* 0.060000 0.00000000005134625283884191118711474021861409372524676086868566926568746566772461 */
107	/* 0.070000 0.00000000139080650074206434685544624965062437960128249869740102440118789672851562 */
108	/* 0.080000 0.00000001650681201563587066858709818343436959153791576682124286890029907226562500 */
109	/* 0.090000 0.00000011301977332931251259273962858978301859735893231118097901344299316406250000 */
110	/* 0.100000 0.00000052651925834844387815526344648331402709118265192955732345581054687500000000 */
111
112
113	#define ALPHA_MIN 0.02
114	#define ALPHA_MAX 1000.0
115
116	#define RATE_MIN 0.0000001
117	#define RATE_MAX 1000000.0
118
119	#define INVAR_MIN 0.0001
120	#define INVAR_MAX 0.9999
121
122	#define TT_MIN 0.0000001
123	#define TT_MAX 1000000.0
124
125	#define FREQ_MIN 0.001
126
127	#define LG4X_RATE_MIN 0.0000001
128	#define LG4X_RATE_MAX 1000.0
129
130	/*
131	previous values between 0.001 and 0.000001
132
133	TO AVOID NUMERICAL PROBLEMS WHEN FREQ == 0 IN PARTITIONED MODELS, ESPECIALLY WITH AA
134	previous value of FREQ_MIN was: 0.000001, but this seemed to cause problems with some
135	of the 7-state secondary structure models with some rather exotic small toy test datasets,
136	on the other hand 0.001 caused problems with some of the 16-state secondary structure models
137
138	For some reason the frequency settings seem to be repeatedly causing numerical problems
139
140	*/
141
142	#define ITMAX 100
143
144
145
146	#define SHFT(a,b,c,d) (a)=(b);(b)=(c);(c)=(d);
147	#define SIGN(a,b) ((b) > 0.0 ? fabs(a) : -fabs(a))
148
149	#define ABS(x) (((x)<0) ? (-(x)) : (x))
150	#define MIN(x,y) (((x)<(y)) ? (x) : (y))
151	#define MAX(x,y) (((x)>(y)) ? (x) : (y))
152	#define NINT(x) ((int) ((x)>0 ? ((x)+0.5) : ((x)-0.5)))
153
154
155	#define LOG(x) log(x)
156	#define EXP(x) exp(x)
157
158
159
160
161
162
163	#define PointGamma(prob,alpha,beta) PointChi2(prob,2.0(alpha))/(2.0(beta))
164
165	#define programName "RAxML"
166	#define programVersion "7.7.2"
167	#define programDate "July 31 2013"
168
169
170	#define TREE_EVALUATION 0
171	#define BIG_RAPID_MODE 1
172	#define CALC_BIPARTITIONS 2
173	#define SPLIT_MULTI_GENE 3
174	#define CHECK_ALIGNMENT 4
175	#define PER_SITE_LL 5
176	#define PARSIMONY_ADDITION 6
177	#define CLASSIFY_ML 7
178	#define DISTANCE_MODE 8
179	#define GENERATE_BS 9
180	#define COMPUTE_ELW 10
181	#define BOOTSTOP_ONLY 11
182	#define COMPUTE_LHS 12
183	#define COMPUTE_BIPARTITION_CORRELATION 13
184	#define COMPUTE_RF_DISTANCE 14
185	#define MORPH_CALIBRATOR 15
186	#define CONSENSUS_ONLY 16
187	#define FAST_SEARCH 17
188	#define EPA_SITE_SPECIFIC_BIAS 18
189	#define SH_LIKE_SUPPORTS 19
190	#define CLASSIFY_MP 20
191	#define ANCESTRAL_STATES 21
192	#define QUARTET_CALCULATION 22
193	#define THOROUGH_OPTIMIZATION 23
194	#define OPTIMIZE_BR_LEN_SCALER 24
195	#define ANCESTRAL_SEQUENCE_TEST 25
196	#define PLAUSIBILITY_CHECKER 26
197	#define CALC_BIPARTITIONS_IC 27
198	#define ROOT_TREE 28
199
200	#define M_GTRCAT 1
201	#define M_GTRGAMMA 2
202	#define M_BINCAT 3
203	#define M_BINGAMMA 4
204	#define M_PROTCAT 5
205	#define M_PROTGAMMA 6
206	#define M_32CAT 7
207	#define M_32GAMMA 8
208	#define M_64CAT 9
209	#define M_64GAMMA 10
210
211	#define DAYHOFF 0
212	#define DCMUT 1
213	#define JTT 2
214	#define MTREV 3
215	#define WAG 4
216	#define RTREV 5
217	#define CPREV 6
218	#define VT 7
219	#define BLOSUM62 8
220	#define MTMAM 9
221	#define LG 10
222	#define MTART 11
223	#define MTZOA 12
224	#define PMB 13
225	#define HIVB 14
226	#define HIVW 15
227	#define JTTDCMUT 16
228	#define FLU 17
229	#define DUMMY 18
230	#define DUMMY2 19
231	#define AUTO 20
232	#define LG4 21
233	#define LG4X 22
234	#define PROT_FILE 23
235	#define GTR_UNLINKED 24
236	#define GTR 25 /* GTR always needs to be the last one */
237
238	#define NUM_PROT_MODELS 26
239
240
241
242	/* bipartition stuff */
243
244	#define BIPARTITIONS_ALL 0
245	#define GET_BIPARTITIONS_BEST 1
246	#define DRAW_BIPARTITIONS_BEST 2
247	#define BIPARTITIONS_BOOTSTOP 3
248	#define BIPARTITIONS_RF 4
249	#define GATHER_BIPARTITIONS_IC 5
250	#define FIND_BIPARTITIONS_IC 6
251
252
253
254	/* bootstopping stuff */
255
256	#define BOOTSTOP_PERMUTATIONS 100
257	#define START_BSTOP_TEST 10
258
259	#define FC_THRESHOLD 99
260	#define FC_SPACING 50
261	#define FC_LOWER 0.99
262	#define FC_INIT 20
263
264	#define FREQUENCY_STOP 0
265	#define MR_STOP 1
266	#define MRE_STOP 2
267	#define MRE_IGN_STOP 3
268
269	#define MR_CONSENSUS 0
270	#define MRE_CONSENSUS 1
271	#define STRICT_CONSENSUS 2
272	#define USER_DEFINED 3
273
274
275
276	/* bootstopping stuff end */
277
278
279	#define TIP_TIP 0
280	#define TIP_INNER 1
281	#define INNER_INNER 2
282
283	#define MIN_MODEL -1
284	#define BINARY_DATA 0
285	#define DNA_DATA 1
286	#define AA_DATA 2
287	#define SECONDARY_DATA 3
288	#define SECONDARY_DATA_6 4
289	#define SECONDARY_DATA_7 5
290	#define GENERIC_32 6
291	#define GENERIC_64 7
292	#define MAX_MODEL 8
293
294	#define SEC_6_A 0
295	#define SEC_6_B 1
296	#define SEC_6_C 2
297	#define SEC_6_D 3
298	#define SEC_6_E 4
299
300	#define SEC_7_A 5
301	#define SEC_7_B 6
302	#define SEC_7_C 7
303	#define SEC_7_D 8
304	#define SEC_7_E 9
305	#define SEC_7_F 10
306
307	#define SEC_16 11
308	#define SEC_16_A 12
309	#define SEC_16_B 13
310	#define SEC_16_C 14
311	#define SEC_16_D 15
312	#define SEC_16_E 16
313	#define SEC_16_F 17
314	#define SEC_16_I 18
315	#define SEC_16_J 19
316	#define SEC_16_K 20
317
318	#define ORDERED_MULTI_STATE 0
319	#define MK_MULTI_STATE 1
320	#define GTR_MULTI_STATE 2
321
322
323
324
325
326	#define CAT 0
327	#define GAMMA 1
328	#define GAMMA_I 2
329
330
331
332
333	typedef int boolean;
334
335
336	typedef struct {
337	double lh;
338	int tree;
339	double weight;
340	} elw;
341
342	struct ent
343	{
344	unsigned int *bitVector;
345	unsigned int *treeVector;
346	unsigned int amountTips;
347	int *supportVector;
348	unsigned int bipNumber;
349	unsigned int bipNumber2;
350	unsigned int supportFromTreeset[2];
351	struct ent *next;
352	};
353
354	typedef struct ent entry;
355
356	typedef unsigned int hashNumberType;
357
358	typedef unsigned int parsimonyNumber;
359
360	/typedef uint_fast32_t parsimonyNumber;/
361
362	#define PCF 32
363
364	/*
365	typedef uint64_t parsimonyNumber;
366
367	#define PCF 16
368
369
370	typedef unsigned char parsimonyNumber;
371
372	#define PCF 2
373	*/
374
375	typedef struct
376	{
377	hashNumberType tableSize;
378	entry **table;
379	hashNumberType entryCount;
380	}
381	hashtable;
382
383
384	struct stringEnt
385	{
386	int nodeNumber;
387	char *word;
388	struct stringEnt *next;
389	};
390
391	typedef struct stringEnt stringEntry;
392
393	typedef struct
394	{
395	hashNumberType tableSize;
396	stringEntry **table;
397	}
398	stringHashtable;
399
400
401
402
403	typedef struct ratec
404	{
405	double accumulatedSiteLikelihood;
406	double rate;
407	}
408	rateCategorize;
409
410
411	typedef struct
412	{
413	int tipCase;
414	int pNumber;
415	int qNumber;
416	int rNumber;
417	double qz[NUM_BRANCHES];
418	double rz[NUM_BRANCHES];
419	} traversalInfo;
420
421	typedef struct
422	{
423	traversalInfo *ti;
424	int count;
425	} traversalData;
426
427
428	struct noderec;
429
430	typedef struct epBrData
431	{
432	int *countThem;
433	int *executeThem;
434	unsigned int *parsimonyScore;
435	double *branches;
436	double *distalBranches;
437	double *likelihoods;
438	double originalBranchLength;
439	char branchLabel[64];
440	int leftNodeNumber;
441	int rightNodeNumber;
442	int *leftScaling;
443	int *rightScaling;
444	double branchLengths[NUM_BRANCHES];
445	double *left;
446	double *right;
447	int branchNumber;
448	int jointLabel;
449	} epaBranchData;
450
451	typedef struct
452	{
453	epaBranchData *epa;
454
455	unsigned int *vector;
456	int support;
457	int *supports;
458	double ic;
459	double icAll;
460	struct noderec *oP;
461	struct noderec *oQ;
462	} branchInfo;
463
464
465
466
467
468
469
470
471	typedef struct
472	{
473	boolean valid;
474	int partitions;
475	int *partitionList;
476	}
477	linkageData;
478
479	typedef struct
480	{
481	int entries;
482	linkageData* ld;
483	}
484	linkageList;
485
486
487	typedef struct noderec
488	{
489	branchInfo *bInf;
490	double z[NUM_BRANCHES];
491	struct noderec *next;
492	struct noderec *back;
493	hashNumberType hash;
494	int support;
495	int number;
496	char x;
497	}
498	node, *nodeptr;
499
500	typedef struct
501	{
502	double lh;
503	double pendantBranch;
504	double distalBranch;
505	int number;
506	}
507	info;
508
509	typedef struct bInf {
510	double likelihood;
511	nodeptr node;
512	} bestInfo;
513
514	typedef struct iL {
515	bestInfo *list;
516	int n;
517	int valid;
518	} infoList;
519
520
521
522
523	typedef struct
524	{
525	int numsp;
526	int sites;
527	unsigned char **y;
528	unsigned char *y0;
529	unsigned char *yBUF;
530	int *wgt;
531	} rawdata;
532
533	typedef struct {
534	int alias; / site representing a pattern */
535	int aliaswgt; / weight by pattern */
536	int *rateCategory;
537	int endsite; /* # of sequence patterns */
538	double patrat; / rates per pattern */
539	double *patratStored;
540	} cruncheddata;
541
542
543
544
545	typedef struct {
546	int states;
547	int maxTipStates;
548	size_t lower;
549	size_t upper;
550	size_t width;
551	int dataType;
552	int protModels;
553	int autoProtModels;
554	boolean usePredefinedProtFreqs;
555	int mxtips;
556	int numberOfCategories;
557	int **expVector;
558	double **xVector;
559	size_t *xSpaceVector;
560	size_t *expSpaceVector;
561
562	unsigned char **yVector;
563
564	char *partitionName;
565	char proteinSubstitutionFileName[2048];
566	double externalAAMatrix[420];
567
568	double *sumBuffer;
569	double *gammaRates;
570
571	double *EIGN;
572	double *EV;
573	double *EI;
574
575	double *left;
576	double *right;
577
578	/* LG4 */
579
580	double *EIGN_LG4[4];
581	double *EV_LG4[4];
582	double *EI_LG4[4];
583
584
585
586	double *frequencies_LG4[4];
587	double *tipVector_LG4[4];
588	double *substRates_LG4[4];
589
590	/* LG4X */
591
592	double weights[4];
593	double weightExponents[4];
594
595	/* LG4 */
596
597	double *frequencies;
598	double *tipVector;
599
600	double *substRates;
601	double *perSiteLL;
602
603	double *perSiteRates;
604	double *unscaled_perSiteRates;
605
606	unsigned int *globalScaler;
607
608	int *wgt;
609	int *invariant;
610	int *rateCategory;
611	int *symmetryVector;
612	int *frequencyGrouping;
613	boolean nonGTR;
614	double alpha;
615	double propInvariant;
616
617	int gapVectorLength;
618	unsigned int *gapVector;
619	double *gapColumn;
620
621	size_t initialGapVectorSize;
622
623	size_t parsimonyLength;
624	parsimonyNumber *parsVect;
625
626	double brLenScaler;
627
628	} pInfo;
629
630
631
632	typedef struct
633	{
634	int left;
635	int right;
636	double likelihood;
637	} lhEntry;
638
639
640	typedef struct
641	{
642	int count;
643	int size;
644	lhEntry *entries;
645	} lhList;
646
647
648	typedef struct List_{
649	void *value;
650	struct List_ *next;
651	} List;
652
653
654
655
656	typedef struct {
657	boolean optimizeAllTrees;
658
659
660	boolean saveMemory;
661
662	int *resample;
663
664	int numberOfBranches;
665	int numberOfTipsForInsertion;
666	int *readPartition;
667	boolean perPartitionEPA;
668	int *inserts;
669	int branchCounter;
670
671	int *ti;
672
673	int numberOfTrees;
674
675	stringHashtable *nameHash;
676
677	pInfo *partitionData;
678	pInfo *initialPartitionData;
679	pInfo *extendedPartitionData;
680
681	int *dataVector;
682	int *initialDataVector;
683	int *extendedDataVector;
684
685	int *patternPosition;
686	int *columnPosition;
687
688	char *secondaryStructureInput;
689
690	boolean *executeModel;
691
692	double *perPartitionLH;
693	double *storedPerPartitionLH;
694
695	traversalData td[1];
696
697	unsigned int *parsimonyScore;
698
699	int maxCategories;
700
701	double *sumBuffer;
702	double *perSiteLL;
703	double coreLZ[NUM_BRANCHES];
704	int modelNumber;
705	int multiBranch;
706	int numBranches;
707	int bootStopCriterion;
708	int consensusType;
709	int consensusUserThreshold;
710	double wcThreshold;
711
712
713	double *storedBrLens;
714	boolean useBrLenScaler;
715
716
717
718
719
720
721	boolean useFastScaling;
722
723	branchInfo *bInf;
724
725	int multiStateModel;
726
727
728	size_t innerNodes;
729
730	boolean curvatOK[NUM_BRANCHES];
731	/* the stuff below is shared among DNA and AA, span does
732	not change depending on datatype */
733
734	double *invariants;
735	double *fracchanges;
736
737	double *rawFracchanges;
738
739	/* model stuff end */
740
741	unsigned char **yVector;
742	int secondaryStructureModel;
743	int discreteRateCategories;
744	int originalCrunchedLength;
745	int fullSites;
746	int *originalModel;
747	int *originalDataVector;
748	int *originalWeights;
749	int *secondaryStructurePairs;
750
751
752	double *partitionContributions;
753
754	double fracchange;
755	double rawFracchange;
756
757	double lhCutoff;
758	double lhAVG;
759	unsigned long lhDEC;
760	unsigned long itCount;
761	int numberOfInvariableColumns;
762	int weightOfInvariableColumns;
763	int rateHetModel;
764
765	double startLH;
766	double endLH;
767	double likelihood;
768	double *likelihoods;
769	int *invariant;
770	node **nodep;
771	node *start;
772	int mxtips;
773	int mxtipsVector[NUM_BRANCHES];
774	int *model;
775
776	int *constraintVector;
777	int numberOfSecondaryColumns;
778	boolean searchConvergenceCriterion;
779	int branchLabelCounter;
780	int ntips;
781	int nextnode;
782	int NumberOfModels;
783	int parsimonyLength;
784
785	int checkPointCounter;
786	int treeID;
787	int numberOfOutgroups;
788	int *outgroupNums;
789	char **outgroups;
790	boolean useEpaHeuristics;
791	double fastEPAthreshold;
792	boolean bigCutoff;
793	boolean partitionSmoothed[NUM_BRANCHES];
794	boolean partitionConverged[NUM_BRANCHES];
795	boolean rooted;
796	boolean grouped;
797	boolean constrained;
798	boolean doCutoff;
799	boolean catOnly;
800	rawdata *rdta;
801	cruncheddata *cdta;
802
803	char **nameList;
804	char *tree_string;
805	int treeStringLength;
806	unsigned int bestParsimony;
807	double bestOfNode;
808	nodeptr removeNode;
809	nodeptr insertNode;
810
811	double zqr[NUM_BRANCHES];
812	double currentZQR[NUM_BRANCHES];
813
814	double currentLZR[NUM_BRANCHES];
815	double currentLZQ[NUM_BRANCHES];
816	double currentLZS[NUM_BRANCHES];
817	double currentLZI[NUM_BRANCHES];
818	double lzs[NUM_BRANCHES];
819	double lzq[NUM_BRANCHES];
820	double lzr[NUM_BRANCHES];
821	double lzi[NUM_BRANCHES];
822
823
824	int mr_thresh;
825
826	boolean wasRooted;
827	nodeptr leftRootNode;
828	nodeptr rightRootNode;
829	int rootLabel;
830
831	boolean useGammaMedian;
832	boolean noRateHet;
833
834	#ifdef _USE_PTHREADS
835
836	double *ancestralStates;
837
838	hashtable *h;
839
840
841
842
843	double *temporaryVector;
844	int *temporaryScaling;
845	double *temporarySumBuffer;
846	size_t contiguousVectorLength;
847	size_t contiguousScalingLength;
848
849
850
851	int *contiguousRateCategory;
852	int *contiguousWgt;
853	int *contiguousInvariant;
854
855	unsigned char **contiguousTips;
856
857
858	unsigned char *y_ptr;
859
860
861
862	double *perSiteLLPtr;
863	int *wgtPtr;
864	int *invariantPtr;
865	int *rateCategoryPtr;
866
867	int threadID;
868	double lower_spacing;
869	double upper_spacing;
870	double *lhs;
871
872	/* stuff for parallel MRE */
873
874	/* added by aberer */
875	entry **sbi;
876	entry **sbw;
877	int *len;
878
879	/* mre */
880	int sectionEnd;
881	int bipStatusLen;
882	entry **entriesOfSection;
883	int recommendedAmountJobs;
884
885
886	/* used for printBip */
887	boolean *hasAncestor;
888	List **listOfDirectChildren;
889	unsigned int bitVectorLength; /* we now need this also in sequential mode */
890	entry **consensusBips;
891	int consensusBipLen; /* also used in mre */
892	int maxBips;
893	int *bipStatus;
894
895
896	/* for parallel hash insert */
897	pthread_mutex_t** mutexesForHashing;
898
899
900
901
902	#endif
903
904
905	int *origNumSitePerModel;
906
907	} tree;
908
909
910	/***************************************************************/
911
912	typedef struct
913	{
914	double z[NUM_BRANCHES];
915	nodeptr p, q;
916	int cp, cq;
917	}
918	connectRELL, *connptrRELL;
919
920	typedef struct
921	{
922	connectRELL *connect;
923	int start;
924	double likelihood;
925	}
926	topolRELL;
927
928
929	typedef struct
930	{
931	int max;
932	topolRELL **t;
933	}
934	topolRELL_LIST;
935
936
937	/**************************************************************/
938
939
940
941	typedef struct conntyp {
942	double z[NUM_BRANCHES]; /* branch length */
943	node p, q; /* parent and child sectors */
944	void valptr; / pointer to value of subtree */
945	int descend; /* pointer to first connect of child */
946	int sibling; /* next connect from same parent */
947	} connect, *connptr;
948
949	typedef struct {
950	double likelihood;
951	int initialTreeNumber;
952	connect links; / pointer to first connect (start) */
953	node *start;
954	int nextlink; /* index of next available connect */
955	/* tr->start = tpl->links->p */
956	int ntips;
957	int nextnode;
958	int scrNum; /* position in sorted list of scores */
959	int tplNum; /* position in sorted list of trees */
960
961	} topol;
962
963	typedef struct {
964	double best; /* highest score saved */
965	double worst; /* lowest score saved */
966	topol start; / starting tree for optimization */
967	topol **byScore;
968	topol **byTopol;
969	int nkeep; /* maximum topologies to save */
970	int nvalid; /* number of topologies saved */
971	int ninit; /* number of topologies initialized */
972	int numtrees; /* number of alternatives tested */
973	boolean improved;
974	} bestlist;
975
976	#define PHYLIP 0
977	#define FASTA 1
978
979	typedef struct {
980	int categories;
981	int model;
982	int bestTrav;
983	int max_rearrange;
984	int stepwidth;
985	int initial;
986	boolean initialSet;
987	int mode;
988	long boot;
989	long rapidBoot;
990	boolean bootstrapBranchLengths;
991	boolean restart;
992	boolean useWeightFile;
993	boolean useMultipleModel;
994	boolean constraint;
995	boolean grouping;
996	boolean randomStartingTree;
997	boolean useInvariant;
998	int protEmpiricalFreqs;
999	int proteinMatrix;
1000	int checkpoints;
1001	int startingTreeOnly;
1002	int multipleRuns;
1003	long parsimonySeed;
1004	boolean perGeneBranchLengths;
1005	boolean likelihoodTest;
1006	boolean outgroup;
1007	boolean permuteTreeoptimize;
1008	boolean allInOne;
1009	boolean generateBS;
1010	boolean bootStopping;
1011	boolean useExcludeFile;
1012	boolean userProteinModel;
1013	boolean computeELW;
1014	boolean computeDistance;
1015	boolean compressPatterns;
1016	boolean useSecondaryStructure;
1017	double likelihoodEpsilon;
1018	double gapyness;
1019	int similarityFilterMode;
1020	double externalAAMatrix[420];
1021	boolean useFloat;
1022	boolean readTaxaOnly;
1023	boolean veryFast;
1024	boolean useBinaryModelFile;
1025	boolean leaveDropMode;
1026	int slidingWindowSize;
1027	boolean checkForUndeterminedSequences;
1028	boolean useQuartetGrouping;
1029	int alignmentFileType;
1030	boolean calculateIC;
1031	boolean verboseIC;
1032	boolean stepwiseAdditionOnly;
1033	} analdef;
1034
1035
1036	typedef struct
1037	{
1038	int leftLength;
1039	int rightLength;
1040	int eignLength;
1041	int evLength;
1042	int eiLength;
1043	int substRatesLength;
1044	int frequenciesLength;
1045	int tipVectorLength;
1046	int symmetryVectorLength;
1047	int frequencyGroupingLength;
1048
1049	boolean nonGTR;
1050
1051	int undetermined;
1052
1053	const char *inverseMeaning;
1054
1055	int states;
1056
1057	boolean smoothFrequencies;
1058
1059	const unsigned int *bitVector;
1060
1061	} partitionLengths;
1062
1063	/**************************** FUNCTIONS **************************************************/
1064
1065	extern void computePlacementBias(tree tr, analdef adef);
1066
1067	extern int lookupWord(char s, stringHashtable h);
1068
1069	extern void getDataTypeString(tree *tr, int model, char typeOfData[1024]);
1070
1071	extern unsigned int genericBitCount(unsigned int* bitVector, unsigned int bitVectorLength);
1072	extern int countTips(nodeptr p, int numsp);
1073	extern entry *initEntry(void);
1074	extern void computeRogueTaxa(tree tr, char treeSetFileName, analdef *adef);
1075	extern unsigned int precomputed16_bitcount(unsigned int n);
1076
1077	#define BIT_COUNT(x) precomputed16_bitcount(x)
1078
1079
1080
1081
1082
1083
1084	extern partitionLengths * getPartitionLengths(pInfo *p);
1085	extern boolean getSmoothFreqs(int dataType);
1086	extern const unsigned int *getBitVector(int dataType);
1087	extern unsigned char getUndetermined(int dataType);
1088	extern int getStates(int dataType);
1089	extern char getInverseMeaning(int dataType, unsigned char state);
1090	extern void printModelParams(tree tr, analdef adef);
1091	extern double gettime ( void );
1092	extern int gettimeSrand ( void );
1093	extern double randum ( long *seed );
1094
1095	extern void getxnode ( nodeptr p );
1096	extern void hookup ( nodeptr p, nodeptr q, double *z, int numBranches);
1097	extern void hookupDefault ( nodeptr p, nodeptr q, int numBranches);
1098	extern boolean whitechar ( int ch );
1099	extern void errorExit ( int e );
1100	extern void printResult ( tree tr, analdef adef, boolean finalPrint );
1101	extern void printBootstrapResult ( tree tr, analdef adef, boolean finalPrint );
1102	extern void printBipartitionResult ( tree tr, analdef adef, boolean finalPrint, boolean printIC);
1103	extern void printLog ( tree tr, analdef adef, boolean finalPrint );
1104	extern void printStartingTree ( tree tr, analdef adef, boolean finalPrint );
1105	extern void writeInfoFile ( analdef adef, tree tr, double t );
1106	extern int main ( int argc, char *argv[] );
1107	extern void calcBipartitions ( tree tr, analdef adef, char bestTreeFileName, char bootStrapFileName );
1108	extern void calcBipartitions_IC ( tree tr, analdef adef, char bestTreeFileName, char bootStrapFileName );
1109
1110	extern void initReversibleGTR (tree *tr, int model);
1111	extern double LnGamma ( double alpha );
1112	extern double IncompleteGamma ( double x, double alpha, double ln_gamma_alpha );
1113	extern double PointNormal ( double prob );
1114	extern double PointChi2 ( double prob, double v );
1115	extern void makeGammaCats (double alpha, double *gammaRates, int K, boolean useMedian);
1116	extern void initModel ( tree tr, rawdata rdta, cruncheddata cdta, analdef adef );
1117	extern void doAllInOne ( tree tr, analdef adef );
1118
1119	extern void classifyML(tree tr, analdef adef);
1120	extern void classifyMP(tree tr, analdef adef);
1121	extern void markTips(nodeptr p, int *perm, int maxTips);
1122	extern char Tree2StringClassify(char treestr, tree tr, int inserts,
1123	boolean originalTree, boolean jointLabels, boolean likelihood);
1124
1125
1126	extern void doBootstrap ( tree tr, analdef adef, rawdata rdta, cruncheddata cdta );
1127	extern void doInference ( tree tr, analdef adef, rawdata rdta, cruncheddata cdta );
1128	extern void resetBranches ( tree *tr );
1129	extern void scaleBranches(tree *tr, boolean fromFile);
1130	extern void modOpt ( tree tr, analdef adef , boolean resetModel, double likelihoodEpsilon);
1131
1132	extern void plausibilityChecker(tree tr, analdef adef);
1133
1134	extern void parsePartitions ( analdef adef, rawdata rdta, tree *tr);
1135	extern void computeBOOTRAPID (tree tr, analdef adef, long *radiusSeed);
1136	extern void optimizeRAPID ( tree tr, analdef adef );
1137	extern void thoroughOptimization ( tree tr, analdef adef, topolRELL_LIST *rl, int index );
1138	extern int treeOptimizeThorough ( tree *tr, int mintrav, int maxtrav);
1139
1140	extern int checker ( tree *tr, nodeptr p );
1141	extern int randomInt ( int n );
1142	extern void makePermutation ( int perm, int n, analdef adef );
1143	extern boolean tipHomogeneityChecker ( tree *tr, nodeptr p, int grouping );
1144	extern void makeRandomTree ( tree tr, analdef adef );
1145	extern void nodeRectifier ( tree *tr );
1146	extern void makeParsimonyTreeThorough(tree tr, analdef adef);
1147	extern void makeParsimonyTree ( tree tr, analdef adef );
1148	extern void makeParsimonyTreeFast(tree tr, analdef adef, boolean full);
1149	extern void makeParsimonyTreeIncomplete ( tree tr, analdef adef );
1150	extern void makeParsimonyInsertions(tree *tr, nodeptr startNodeQ, nodeptr startNodeR);
1151
1152
1153
1154	extern FILE myfopen(const char path, const char *mode);
1155
1156
1157	extern boolean initrav ( tree *tr, nodeptr p );
1158	extern void initravPartition ( tree *tr, nodeptr p, int model );
1159	extern boolean update ( tree *tr, nodeptr p );
1160	extern boolean smooth ( tree *tr, nodeptr p );
1161	extern boolean smoothTree ( tree *tr, int maxtimes );
1162	extern boolean localSmooth ( tree *tr, nodeptr p, int maxtimes );
1163	extern boolean localSmoothMulti(tree *tr, nodeptr p, int maxtimes, int model);
1164	extern void initInfoList ( int n );
1165	extern void freeInfoList ( void );
1166	extern void insertInfoList ( nodeptr node, double likelihood );
1167	extern boolean smoothRegion ( tree *tr, nodeptr p, int region );
1168	extern boolean regionalSmooth ( tree *tr, nodeptr p, int maxtimes, int region );
1169	extern nodeptr removeNodeBIG ( tree *tr, nodeptr p, int numBranches);
1170	extern nodeptr removeNodeRestoreBIG ( tree *tr, nodeptr p );
1171	extern boolean insertBIG ( tree *tr, nodeptr p, nodeptr q, int numBranches);
1172	extern boolean insertRestoreBIG ( tree *tr, nodeptr p, nodeptr q );
1173	extern boolean testInsertBIG ( tree *tr, nodeptr p, nodeptr q );
1174	extern void addTraverseBIG ( tree *tr, nodeptr p, nodeptr q, int mintrav, int maxtrav );
1175	extern int rearrangeBIG ( tree *tr, nodeptr p, int mintrav, int maxtrav );
1176	extern void traversalOrder ( nodeptr p, int count, nodeptr nodeArray );
1177	extern double treeOptimizeRapid ( tree tr, int mintrav, int maxtrav, analdef adef, bestlist *bt);
1178	extern boolean testInsertRestoreBIG ( tree *tr, nodeptr p, nodeptr q );
1179	extern void restoreTreeFast ( tree *tr );
1180	extern int determineRearrangementSetting ( tree tr, analdef adef, bestlist bestT, bestlist bt );
1181	extern void computeBIGRAPID ( tree tr, analdef adef, boolean estimateModel);
1182	extern boolean treeEvaluate ( tree *tr, double smoothFactor );
1183	extern boolean treeEvaluatePartition ( tree *tr, double smoothFactor, int model );
1184
1185	extern void initTL ( topolRELL_LIST rl, tree tr, int n );
1186	extern void freeTL ( topolRELL_LIST *rl);
1187	extern void restoreTL ( topolRELL_LIST rl, tree tr, int n );
1188	extern void resetTL ( topolRELL_LIST *rl );
1189	extern void saveTL ( topolRELL_LIST rl, tree tr, int index );
1190
1191	extern int saveBestTree (bestlist bt, tree tr);
1192	extern int recallBestTree (bestlist bt, int rank, tree tr);
1193	extern int initBestTree ( bestlist *bt, int newkeep, int numsp );
1194	extern void resetBestTree ( bestlist *bt );
1195	extern boolean freeBestTree ( bestlist *bt );
1196
1197
1198	extern char Tree2String ( char treestr, tree *tr, nodeptr p, boolean printBranchLengths, boolean printNames, boolean printLikelihood,
1199	boolean rellTree, boolean finalPrint, analdef *adef, int perGene, boolean branchLabelSupport, boolean printSHSupport, boolean printIC, boolean printSHSupports);
1200	extern void printTreePerGene(tree tr, analdef adef, char fileName, char permission);
1201
1202
1203	extern int treeFindTipName(FILE fp, tree tr, boolean check);
1204	extern int treeReadLen (FILE fp, tree tr, boolean readBranches, boolean readNodeLabels, boolean topologyOnly, analdef *adef, boolean completeTree, boolean storeBranchLabels);
1205	extern boolean treeReadLenMULT ( FILE fp, tree tr, analdef *adef );
1206
1207	extern int readMultifurcatingTree(FILE fp, tree tr, analdef *adef);
1208	extern void freeMultifurcations(tree *tr);
1209	extern void allocateMultifurcations(tree tr, tree smallTree);
1210
1211	extern void getStartingTree ( tree tr, analdef adef );
1212	extern double treeLength(tree *tr, int model);
1213
1214	extern void computeBootStopOnly(tree tr, char bootStrapFileName, analdef *adef);
1215	extern boolean bootStop(tree tr, hashtable h, int numberOfTrees, double pearsonAverage, unsigned int *bitVectors, int treeVectorLength, unsigned int vectorLength);
1216	extern void computeConsensusOnly(tree tr, char treeSetFileName, analdef *adef, boolean computeIC);
1217	extern double evaluatePartialGeneric (tree *, int i, double ki, int _model);
1218	extern double evaluateGeneric (tree *tr, nodeptr p);
1219	extern void newviewGeneric (tree *tr, nodeptr p);
1220	extern void newviewGenericMulti (tree *tr, nodeptr p, int model);
1221	extern void newviewGenericMasked (tree *tr, nodeptr p);
1222	extern void makenewzGeneric(tree tr, nodeptr p, nodeptr q, double z0, int maxiter, double *result, boolean mask);
1223	extern void makenewzGenericDistance(tree tr, int maxiter, double z0, double *result, int taxon1, int taxon2);
1224	extern double evaluatePartitionGeneric (tree *tr, nodeptr p, int model);
1225	extern void newviewPartitionGeneric (tree *tr, nodeptr p, int model);
1226	extern double evaluateGenericVector (tree *tr, nodeptr p);
1227	extern void categorizeGeneric (tree *tr, nodeptr p);
1228	extern double makenewzPartitionGeneric(tree *tr, nodeptr p, nodeptr q, double z0, int maxiter, int model);
1229	extern boolean isTip(int number, int maxTips);
1230	extern void computeTraversalInfo(nodeptr p, traversalInfo ti, int counter, int maxTips, int numBranches);
1231
1232
1233
1234	extern void newviewIterative(tree *);
1235
1236	extern double evaluateIterative(tree *, boolean writeVector);
1237
1238	extern double FABS(double x);
1239
1240
1241
1242
1243	extern void makenewzIterative(tree *);
1244	extern void execCore(tree , volatile double dlnLdlz, volatile double *d2lnLdlz2);
1245
1246
1247
1248	extern void determineFullTraversal(nodeptr p, tree *tr);
1249	/extern void optRateCat(tree , int i, double lower_spacing, double upper_spacing, double lhs);/
1250
1251	extern unsigned int evaluateParsimonyIterative(tree *);
1252	extern void newviewParsimonyIterative(tree *);
1253
1254	extern unsigned int evaluateParsimonyIterativeFast(tree *);
1255	extern void newviewParsimonyIterativeFast(tree *);
1256
1257
1258	extern void initravParsimonyNormal(tree *tr, nodeptr p);
1259
1260	extern double evaluateGenericInitrav (tree *tr, nodeptr p);
1261	extern double evaluateGenericInitravPartition(tree *tr, nodeptr p, int model);
1262	extern void evaluateGenericVectorIterative(tree *, int startIndex, int endIndex);
1263	extern void categorizeIterative(tree *, int startIndex, int endIndex);
1264	extern void onlyInitrav(tree *tr, nodeptr p);
1265	extern void onlyInitravPartition(tree *tr, nodeptr p, int model);
1266
1267	extern void fixModelIndices(tree *tr, int endsite, boolean fixRates);
1268	extern void calculateModelOffsets(tree *tr);
1269	extern void gammaToCat(tree *tr);
1270	extern void catToGamma(tree tr, analdef adef);
1271	extern void handleExcludeFile(tree tr, analdef adef, rawdata *rdta);
1272	extern void printBaseFrequencies(tree *tr);
1273	extern nodeptr findAnyTip(nodeptr p, int numsp);
1274
1275	extern void parseProteinModel(double externalAAMatrix, char fileName);
1276	extern int filexists(char *filename);
1277	extern void computeFullTraversalInfo(nodeptr p, traversalInfo ti, int counter, int maxTips, int numBranches);
1278
1279	extern void computeNextReplicate(tree tr, long seed, int originalRateCategories, int originalInvariant, boolean isRapid, boolean fixRates);
1280	/extern void computeNextReplicate(tree tr, analdef adef, int originalRateCategories, int originalInvariant);/
1281
1282	extern void reductionCleanup(tree tr, int originalRateCategories, int *originalInvariant);
1283	extern void parseSecondaryStructure(tree tr, analdef adef, int sites);
1284	extern void printPartitions(tree *tr);
1285	extern void calcDiagptable(double z, int data, int numberOfCategories, double rptr, double EIGN, double *diagptable);
1286	extern void compareBips(tree tr, char bootStrapFileName, analdef *adef);
1287	extern void computeRF(tree tr, char bootStrapFileName, analdef *adef);
1288
1289
1290	extern unsigned int *initBitVector(tree tr, unsigned int *vectorLength);
1291	extern hashtable copyHashTable(hashtable src, unsigned int vectorLength);
1292	extern hashtable *initHashTable(unsigned int n);
1293	extern void cleanupHashTable(hashtable *h, int state);
1294	extern double convergenceCriterion(hashtable *h, int mxtips);
1295	extern void freeBitVectors(unsigned int **v, int n);
1296	extern void freeHashTable(hashtable *h);
1297	extern stringHashtable *initStringHashTable(hashNumberType n);
1298	extern void addword(char s, stringHashtable h, int nodeNumber);
1299
1300
1301	extern void printBothOpen(const char* format, ... );
1302	extern void printBothOpenMPI(const char* format, ... );
1303	extern void initRateMatrix(tree *tr);
1304
1305	extern void bitVectorInitravSpecial(unsigned int *bitVectors, nodeptr p, int numsp, unsigned int vectorLength, hashtable h, int treeNumber, int function, branchInfo *bInf,
1306	int *countBranches, int treeVectorLength, boolean traverseOnly, boolean computeWRF);
1307
1308	extern int getIncrement(tree *tr, int model);
1309
1310	extern void fastSearch(tree tr, analdef adef, rawdata rdta, cruncheddata cdta);
1311	extern void shSupports(tree tr, analdef adef, rawdata rdta, cruncheddata cdta);
1312
1313	extern FILE getNumberOfTrees(tree tr, char fileName, analdef adef);
1314
1315	extern void writeBinaryModel(tree *tr);
1316	extern void readBinaryModel(tree *tr);
1317	extern void treeEvaluateRandom (tree *tr, double smoothFactor);
1318	extern void treeEvaluateProgressive(tree *tr);
1319
1320
1321
1322	extern boolean issubset(unsigned int* bipA, unsigned int* bipB, unsigned int vectorLen, unsigned int firstIndex);
1323	extern boolean compatible(entry* e1, entry* e2, unsigned int bvlen);
1324
1325	extern void nniSmooth(tree *tr, nodeptr p, int maxtimes);
1326
1327	extern int permutationSH(tree tr, int nBootstrap, long _randomSeed);
1328
1329	extern void updatePerSiteRates(tree *tr, boolean scaleRates);
1330
1331	extern void newviewIterativeAncestral(tree *tr);
1332	extern void newviewGenericAncestral(tree *tr, nodeptr p, boolean atRoot);
1333	extern void computeAncestralStates(tree *tr, double referenceLikelihood);
1334	extern void makeP_Flex(double z1, double z2, double rptr, double EI, double EIGN, int numberOfCategories, double left, double *right, const int numStates);
1335
1336	extern void *rax_malloc( size_t size );
1337	extern void rax_realloc(void p, size_t size, boolean needsMemoryAlignment);
1338	extern void rax_free(void *p);
1339	extern void *rax_calloc(size_t n, size_t size);
1340
1341	#ifdef _WAYNE_MPI
1342
1343	extern boolean computeBootStopMPI(tree tr, char bootStrapFileName, analdef adef, double pearsonAverage);
1344
1345	#endif
1346
1347	extern void setPartitionMask(tree tr, int i, boolean executeModel);
1348	extern void resetPartitionMask(tree tr, boolean executeModel);
1349	#ifdef _USE_PTHREADS
1350
1351	extern size_t getContiguousVectorLength(tree *tr);
1352
1353	extern void makenewzClassify(tree tr, int maxiter, double result, double z0, double x1_start, double *x2_start,
1354	unsigned char tipX1, unsigned char tipX2, int tipCase, boolean *partitionConverged, int insertion);
1355
1356	extern void newviewMultiGrain(tree tr, double x1, double x2, double x3, int _ex1, int _ex2, int _ex3, unsigned char _tipX1, unsigned char *_tipX2,
1357	int tipCase, double _pz, double _qz, int insertion);
1358
1359	extern void addTraverseRobIterative(tree *tr, int branchNumber);
1360	extern void insertionsParsimonyIterative(tree *tr, int branchNumber);
1361
1362	extern void newviewClassify(tree tr, branchInfo b, double *z, int insertion);
1363
1364	extern double evalCL(tree tr, double x2, int ex2, unsigned char tip, double *pz, int insertion);
1365
1366	extern void testInsertThoroughIterative(tree *tr, int branchNumber);
1367
1368
1369	/* parallel MRE stuff */
1370
1371	#define MRE_POSSIBLE_CANDIDATE 1
1372	#define MRE_EXCLUDED 2
1373	#define MRE_ADDED 3
1374	#define SECTION_CONSTANT 1
1375	#define MRE_MIN_AMOUNT_JOBS_PER_THREAD 5
1376
1377
1378	/* work tags for parallel regions */
1379
1380	#define THREAD_NEWVIEW 0
1381	#define THREAD_EVALUATE 1
1382	#define THREAD_MAKENEWZ 2
1383	#define THREAD_MAKENEWZ_FIRST 3
1384	#define THREAD_RATE_CATS 4
1385	#define THREAD_EVALUATE_VECTOR 7
1386	#define THREAD_ALLOC_LIKELIHOOD 8
1387	#define THREAD_COPY_RATE_CATS 9
1388	#define THREAD_COPY_INVAR 10
1389	#define THREAD_COPY_INIT_MODEL 11
1390	#define THREAD_FIX_MODEL_INDICES 12
1391	#define THREAD_INIT_PARTITION 13
1392	#define THREAD_OPT_INVAR 14
1393	#define THREAD_OPT_ALPHA 15
1394	#define THREAD_OPT_RATE 16
1395	#define THREAD_RESET_MODEL 17
1396	#define THREAD_COPY_ALPHA 18
1397	#define THREAD_COPY_RATES 19
1398	#define THREAD_CAT_TO_GAMMA 20
1399	#define THREAD_GAMMA_TO_CAT 21
1400	#define THREAD_NEWVIEW_MASKED 22
1401	#define THREAD_COPY_PARAMS 26
1402	#define THREAD_INIT_EPA 28
1403	#define THREAD_GATHER_LIKELIHOOD 29
1404	#define THREAD_INSERT_CLASSIFY 30
1405	#define THREAD_INSERT_CLASSIFY_THOROUGH 31
1406	#define THREAD_GATHER_PARSIMONY 32
1407	#define THREAD_PARSIMONY_INSERTIONS 34
1408	#define THREAD_PREPARE_EPA_PARSIMONY 35
1409	#define THREAD_CLEANUP_EPA_PARSIMONY 36
1410	#define THREAD_PREPARE_BIPS_FOR_PRINT 39
1411	#define THREAD_MRE_COMPUTE 40
1412	#define THREAD_NEWVIEW_ANCESTRAL 41
1413	#define THREAD_GATHER_ANCESTRAL 42
1414	#define THREAD_OPT_SCALER 43
1415	#define THREAD_COPY_LG4X_RATES 44
1416	#define THREAD_OPT_LG4X_RATES 45
1417
1418
1419	/*
1420
1421	parallel tree parsing abandoned ...
1422
1423	#define THREAD_FILL_HASH_FOR_CONSENSUS 41
1424
1425	parallel dropset comp. currently doesn't scale well
1426
1427	#define THREAD_FIND_BEST_DROPSET 42
1428	#define THREAD_CALC_DROPSETS 43
1429
1430	*/
1431
1432	/*
1433	Pthreads-based MP computations don't really scale for the
1434	SSE3-based optimized version
1435
1436	#define THREAD_FAST_EVALUATE_PARSIMONY XX
1437	#define THREAD_FAST_NEWVIEW_PARSIMONY XX
1438	#define THREAD_INIT_FAST_PARSIMONY XX
1439	*/
1440
1441	typedef struct
1442	{
1443	tree *tr;
1444	int threadNumber;
1445	}
1446	threadData;
1447
1448	void threadMakeVector(tree *tr, int tid);
1449	void threadComputeAverage(tree *tr, int tid);
1450	void threadComputePearson(tree *tr, int tid);
1451	extern void optRateCatPthreads(tree tr, double lower_spacing, double upper_spacing, double lhs, int n, int tid);
1452	extern void masterBarrier(int jobType, tree *tr);
1453
1454	#endif
1455
1456	boolean isGap(unsigned int *x, int pos);
1457	boolean noGap(unsigned int *x, int pos);
1458
1459	#ifdef __AVX
1460
1461	void newviewGTRGAMMAPROT_AVX_LG4(int tipCase,
1462	double x1, double x2, double x3, double extEV[4], double *tipVector[4],
1463	int ex3, unsigned char tipX1, unsigned char *tipX2, int n,
1464	double left, double right, int wgt, int scalerIncrement, const boolean useFastScaling);
1465
1466	void newviewGTRCAT_AVX_GAPPED_SAVE(int tipCase, double EV, int cptr,
1467	double x1_start, double x2_start, double x3_start, double tipVector,
1468	int ex3, unsigned char tipX1, unsigned char *tipX2,
1469	int n, double left, double right, int wgt, int scalerIncrement, const boolean useFastScaling,
1470	unsigned int x1_gap, unsigned int x2_gap, unsigned int *x3_gap,
1471	double x1_gapColumn, double x2_gapColumn, double *x3_gapColumn, const int maxCats);
1472
1473	void newviewGTRCATPROT_AVX_GAPPED_SAVE(int tipCase, double *extEV,
1474	int *cptr,
1475	double x1, double x2, double x3, double tipVector,
1476	int ex3, unsigned char tipX1, unsigned char *tipX2,
1477	int n, double left, double right, int wgt, int scalerIncrement, const boolean useFastScaling,
1478	unsigned int x1_gap, unsigned int x2_gap, unsigned int *x3_gap,
1479	double x1_gapColumn, double x2_gapColumn, double *x3_gapColumn, const int maxCats);
1480
1481	void newviewGTRGAMMA_AVX_GAPPED_SAVE(int tipCase,
1482	double x1_start, double x2_start, double *x3_start,
1483	double extEV, double tipVector,
1484	int ex3, unsigned char tipX1, unsigned char *tipX2,
1485	const int n, double left, double right, int wgt, int scalerIncrement, const boolean useFastScaling,
1486	unsigned int x1_gap, unsigned int x2_gap, unsigned int *x3_gap,
1487	double x1_gapColumn, double x2_gapColumn, double *x3_gapColumn
1488	);
1489
1490	void newviewGTRGAMMAPROT_AVX_GAPPED_SAVE(int tipCase,
1491	double x1_start, double x2_start, double x3_start, double extEV, double *tipVector,
1492	int ex3, unsigned char tipX1, unsigned char *tipX2, int n,
1493	double left, double right, int wgt, int scalerIncrement, const boolean useFastScaling,
1494	unsigned int x1_gap, unsigned int x2_gap, unsigned int *x3_gap,
1495	double x1_gapColumn, double x2_gapColumn, double *x3_gapColumn);
1496
1497	void newviewGTRCAT_AVX(int tipCase, double EV, int cptr,
1498	double x1_start, double x2_start, double x3_start, double tipVector,
1499	int ex3, unsigned char tipX1, unsigned char *tipX2,
1500	int n, double left, double right, int wgt, int scalerIncrement, const boolean useFastScaling);
1501
1502
1503	void newviewGenericCATPROT_AVX(int tipCase, double *extEV,
1504	int *cptr,
1505	double x1, double x2, double x3, double tipVector,
1506	int ex3, unsigned char tipX1, unsigned char *tipX2,
1507	int n, double left, double right, int wgt, int scalerIncrement, const boolean useFastScaling);
1508
1509
1510	void newviewGTRGAMMA_AVX(int tipCase,
1511	double x1_start, double x2_start, double *x3_start,
1512	double EV, double tipVector,
1513	int ex3, unsigned char tipX1, unsigned char *tipX2,
1514	const int n, double left, double right, int wgt, int scalerIncrement, const boolean useFastScaling);
1515
1516	void newviewGTRGAMMAPROT_AVX(int tipCase,
1517	double x1, double x2, double x3, double extEV, double *tipVector,
1518	int ex3, unsigned char tipX1, unsigned char *tipX2, int n,
1519	double left, double right, int wgt, int scalerIncrement, const boolean useFastScaling);
1520
1521	void newviewGTRCATPROT_AVX(int tipCase, double *extEV,
1522	int *cptr,
1523	double x1, double x2, double x3, double tipVector,
1524	int ex3, unsigned char tipX1, unsigned char *tipX2,
1525	int n, double left, double right, int wgt, int scalerIncrement, const boolean useFastScaling);
1526
1527	#endif
1528
1529
1530

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