source: branches/alilink/GDE/MUSCLE/src/glbalndimer.cpp

#include "muscle.h"
#include <math.h>
#include <stdio.h>      // for sprintf
#include "pwpath.h"
#include "profile.h"
#include "gapscoredimer.h"

#define TRACE   0

static SCORE TraceBackDimer(  const SCORE *DPM_, const SCORE *DPD_, const SCORE *DPI_,
  const char *TBM_, const char *TBD_, const char *TBI_,
  unsigned uLengthA, unsigned uLengthB, PWPath &Path);

static const char *LocalScoreToStr(SCORE s)
        {
        static char str[16];
        if (MINUS_INFINITY == s)
                return "     *";
        sprintf(str, "%6.3g", s);
        return str;
        }

#if     TRACE
static void ListDP(const SCORE *DPM_, const ProfPos *PA, const ProfPos *PB,
  unsigned uPrefixCountA, unsigned uPrefixCountB)
        {
        Log("        ");
        for (unsigned uPrefixLengthB = 0; uPrefixLengthB < uPrefixCountB; ++uPrefixLengthB)
                {
                char c = ' ';
                if (uPrefixLengthB > 0)
                        c = ConsensusChar(PB[uPrefixLengthB - 1]);
                Log(" %4u:%c", uPrefixLengthB, c);
                }
        Log("\n");
        for (unsigned uPrefixLengthA = 0; uPrefixLengthA < uPrefixCountA; ++uPrefixLengthA)
                {
                char c = ' ';
                if (uPrefixLengthA > 0)
                        c = ConsensusChar(PA[uPrefixLengthA - 1]);
                Log("%4u:%c  ", uPrefixLengthA, c);
                for (unsigned uPrefixLengthB = 0; uPrefixLengthB < uPrefixCountB; ++uPrefixLengthB)
                        Log(" %s", LocalScoreToStr(DPM(uPrefixLengthA, uPrefixLengthB)));
                Log("\n");
                }
        }

static void ListTB(const char *TBM_, const ProfPos *PA, const ProfPos *PB,
  unsigned uPrefixCountA, unsigned uPrefixCountB)
        {
        Log("        ");
        for (unsigned uPrefixLengthB = 0; uPrefixLengthB < uPrefixCountB; ++uPrefixLengthB)
                Log("%2d", uPrefixLengthB);
        Log("\n");
        Log("        ");
        for (unsigned uPrefixLengthB = 0; uPrefixLengthB < uPrefixCountB; ++uPrefixLengthB)
                {
                char c = ' ';
                if (uPrefixLengthB > 0)
                        c = ConsensusChar(PB[uPrefixLengthB - 1]);
                Log(" %c", c);
                }
        Log("\n");
        for (unsigned uPrefixLengthA = 0; uPrefixLengthA < uPrefixCountA; ++uPrefixLengthA)
                {
                char c = ' ';
                if (uPrefixLengthA > 0)
                        c = ConsensusChar(PA[uPrefixLengthA - 1]);
                Log("%4u:%c  ", uPrefixLengthA, c);
                for (unsigned uPrefixLengthB = 0; uPrefixLengthB < uPrefixCountB; ++uPrefixLengthB)
                        Log(" %c", TBM(uPrefixLengthA, uPrefixLengthB));
                Log("\n");
                }
        }
#endif // TRACE

static ProfPos PPTerm;
static bool InitializePPTerm()
        {
        PPTerm.m_bAllGaps = false;
        PPTerm.m_LL = 1;
        PPTerm.m_LG = 0;
        PPTerm.m_GL = 0;
        PPTerm.m_GG = 0;
        PPTerm.m_fOcc = 1;
        return true;
        }
static bool PPTermInitialized = InitializePPTerm();

static SCORE ScoreProfPosDimerLE(const ProfPos &PPA, const ProfPos &PPB)
        {
        SCORE Score = 0;
        for (unsigned n = 0; n < 20; ++n)
                {
                const unsigned uLetter = PPA.m_uSortOrder[n];
                const FCOUNT fcLetter = PPA.m_fcCounts[uLetter];
                if (0 == fcLetter)
                        break;
                Score += fcLetter*PPB.m_AAScores[uLetter];
                }
        if (0 == Score)
                return -2.5;
        SCORE logScore = logf(Score);
        return (SCORE) (logScore*(PPA.m_fOcc * PPB.m_fOcc));
        }

static SCORE ScoreProfPosDimerPSP(const ProfPos &PPA, const ProfPos &PPB)
        {
        SCORE Score = 0;
        for (unsigned n = 0; n < 20; ++n)
                {
                const unsigned uLetter = PPA.m_uSortOrder[n];
                const FCOUNT fcLetter = PPA.m_fcCounts[uLetter];
                if (0 == fcLetter)
                        break;
                Score += fcLetter*PPB.m_AAScores[uLetter];
                }
        return Score;
        }

static SCORE ScoreProfPosDimer(const ProfPos &PPA, const ProfPos &PPB)
        {
        switch (g_PPScore)
                {
        case PPSCORE_LE:
                return ScoreProfPosDimerLE(PPA, PPB);

        case PPSCORE_SP:
        case PPSCORE_SV:
                return ScoreProfPosDimerPSP(PPA, PPB);
                }
        Quit("Invalid g_PPScore");
        return 0;
        }

// Global alignment dynamic programming
// This variant optimizes the profile-profile SP score under the
// dimer approximation.
SCORE GlobalAlignDimer(const ProfPos *PA, unsigned uLengthA, const ProfPos *PB,
  unsigned uLengthB, PWPath &Path)
        {
        assert(uLengthB > 0 && uLengthA > 0);

        const unsigned uPrefixCountA = uLengthA + 1;
        const unsigned uPrefixCountB = uLengthB + 1;

// Allocate DP matrices
        const size_t LM = uPrefixCountA*uPrefixCountB;
        SCORE *DPM_ = new SCORE[LM];
        SCORE *DPD_ = new SCORE[LM];
        SCORE *DPI_ = new SCORE[LM];

        char *TBM_ = new char[LM];
        char *TBD_ = new char[LM];
        char *TBI_ = new char[LM];

        DPM(0, 0) = 0;
        DPD(0, 0) = MINUS_INFINITY;
        DPI(0, 0) = MINUS_INFINITY;

        TBM(0, 0) = 'S';
        TBD(0, 0) = '?';
        TBI(0, 0) = '?';

        DPM(1, 0) = MINUS_INFINITY;
        DPD(1, 0) = GapScoreMD(PA[0], PPTerm);
        DPI(1, 0) = MINUS_INFINITY;

        TBM(1, 0) = '?';
        TBD(1, 0) = 'S';
        TBI(1, 0) = '?';

        DPM(0, 1) = MINUS_INFINITY;
        DPD(0, 1) = MINUS_INFINITY;
        DPI(0, 1) = GapScoreMI(PPTerm, PB[0]);

        TBM(0, 1) = '?';
        TBD(0, 1) = '?';
        TBI(0, 1) = 'S';

// Empty prefix of B is special case
        for (unsigned uPrefixLengthA = 2; uPrefixLengthA < uPrefixCountA; ++uPrefixLengthA)
                {
        // M=LetterA+LetterB, impossible with empty prefix
                DPM(uPrefixLengthA, 0) = MINUS_INFINITY;
                TBM(uPrefixLengthA, 0) = '?';

        // D=LetterA+GapB
                DPD(uPrefixLengthA, 0) = DPD(uPrefixLengthA - 1, 0) +
                  GapScoreDD(PA[uPrefixLengthA - 1], PPTerm);
                TBD(uPrefixLengthA, 0) = 'D';

        // I=GapA+LetterB, impossible with empty prefix
                DPI(uPrefixLengthA, 0) = MINUS_INFINITY;
                TBI(uPrefixLengthA, 0) = '?';
                }

// Empty prefix of A is special case
        for (unsigned uPrefixLengthB = 2; uPrefixLengthB < uPrefixCountB; ++uPrefixLengthB)
                {
        // M=LetterA+LetterB, impossible with empty prefix
                DPM(0, uPrefixLengthB) = MINUS_INFINITY;
                TBM(0, uPrefixLengthB) = '?';

        // D=LetterA+GapB, impossible with empty prefix
                DPD(0, uPrefixLengthB) = MINUS_INFINITY;
                TBD(0, uPrefixLengthB) = '?';

        // I=GapA+LetterB
                DPI(0, uPrefixLengthB) = DPI(0, uPrefixLengthB - 1) +
                  GapScoreII(PPTerm, PB[uPrefixLengthB - 1]);
                TBI(0, uPrefixLengthB) = 'I';
                }

// ============
// Main DP loop
// ============
        for (unsigned uPrefixLengthB = 1; uPrefixLengthB < uPrefixCountB; ++uPrefixLengthB)
                {
                const ProfPos &PPB = PB[uPrefixLengthB - 1];
                for (unsigned uPrefixLengthA = 1; uPrefixLengthA < uPrefixCountA; ++uPrefixLengthA)
                        {
                        const ProfPos &PPA = PA[uPrefixLengthA - 1];
                        {
                // Match M=LetterA+LetterB
                        SCORE scoreLL = ScoreProfPosDimer(PPA, PPB);

                        SCORE scoreMM = DPM(uPrefixLengthA-1, uPrefixLengthB-1) + GapScoreMM(PPA, PPB);
                        SCORE scoreDM = DPD(uPrefixLengthA-1, uPrefixLengthB-1) + GapScoreDM(PPA, PPB);
                        SCORE scoreIM = DPI(uPrefixLengthA-1, uPrefixLengthB-1) + GapScoreIM(PPA, PPB);

                        SCORE scoreBest = scoreMM;
                        char c = 'M';
                        if (scoreDM > scoreBest)
                                {
                                scoreBest = scoreDM;
                                c = 'D';
                                }
                        if (scoreIM > scoreBest)
                                {
                                scoreBest = scoreIM;
                                c = 'I';
                                }

                        DPM(uPrefixLengthA, uPrefixLengthB) = scoreBest + scoreLL;
                        TBM(uPrefixLengthA, uPrefixLengthB) = c;
                        }
                        {
                // Delete D=LetterA+GapB
                        SCORE scoreMD = DPM(uPrefixLengthA-1, uPrefixLengthB) + GapScoreMD(PPA, PPB);
                        SCORE scoreDD = DPD(uPrefixLengthA-1, uPrefixLengthB) + GapScoreDD(PPA, PPB);
                        SCORE scoreID = DPI(uPrefixLengthA-1, uPrefixLengthB) + GapScoreID(PPA, PPB);

                        SCORE scoreBest = scoreMD;
                        char c = 'M';
                        if (scoreDD > scoreBest)
                                {
                                scoreBest = scoreDD;
                                c = 'D';
                                }
                        if (scoreID > scoreBest)
                                {
                                scoreBest = scoreID;
                                c = 'I';
                                }

                        DPD(uPrefixLengthA, uPrefixLengthB) = scoreBest;
                        TBD(uPrefixLengthA, uPrefixLengthB) = c;
                        }
                        {
                // Insert I=GapA+LetterB
                        SCORE scoreMI = DPM(uPrefixLengthA, uPrefixLengthB-1) + GapScoreMI(PPA, PPB);
                        SCORE scoreDI = DPD(uPrefixLengthA, uPrefixLengthB-1) + GapScoreDI(PPA, PPB);
                        SCORE scoreII = DPI(uPrefixLengthA, uPrefixLengthB-1) + GapScoreII(PPA, PPB);

                        SCORE scoreBest = scoreMI;
                        char c = 'M';
                        if (scoreDI > scoreBest)
                                {
                                scoreBest = scoreDI;
                                c = 'D';
                                }
                        if (scoreII > scoreBest)
                                {
                                scoreBest = scoreII;
                                c = 'I';
                                }

                        DPI(uPrefixLengthA, uPrefixLengthB) = scoreBest;
                        TBI(uPrefixLengthA, uPrefixLengthB) = c;
                        }
                        }
                }

#if TRACE
        Log("DPM:\n");
        ListDP(DPM_, PA, PB, uPrefixCountA, uPrefixCountB);
        Log("DPD:\n");
        ListDP(DPD_, PA, PB, uPrefixCountA, uPrefixCountB);
        Log("DPI:\n");
        ListDP(DPI_, PA, PB, uPrefixCountA, uPrefixCountB);
        Log("TBM:\n");
        ListTB(TBM_, PA, PB, uPrefixCountA, uPrefixCountB);
        Log("TBD:\n");
        ListTB(TBD_, PA, PB, uPrefixCountA, uPrefixCountB);
        Log("TBI:\n");
        ListTB(TBI_, PA, PB, uPrefixCountA, uPrefixCountB);
#endif

        SCORE Score = TraceBackDimer(DPM_, DPD_, DPI_, TBM_, TBD_, TBI_,
          uLengthA, uLengthB, Path);

#if     TRACE
        Log("GlobalAlignDimer score = %.3g\n", Score);
#endif

        delete[] DPM_;
        delete[] DPD_;
        delete[] DPI_;

        delete[] TBM_;
        delete[] TBD_;
        delete[] TBI_;

        return Score;
        }

static SCORE TraceBackDimer(  const SCORE *DPM_, const SCORE *DPD_, const SCORE *DPI_,
  const char *TBM_, const char *TBD_, const char *TBI_,
  unsigned uLengthA, unsigned uLengthB, PWPath &Path)
        {
        const unsigned uPrefixCountA = uLengthA + 1;

        unsigned uPrefixLengthA = uLengthA;
        unsigned uPrefixLengthB = uLengthB;

        char cEdge = 'M';
        SCORE scoreMax = DPM(uLengthA, uLengthB);
        if (DPD(uLengthA, uLengthB) > scoreMax)
                {
                scoreMax = DPD(uLengthA, uLengthB);
                cEdge = 'D';
                }
        if (DPI(uLengthA, uLengthB) > scoreMax)
                {
                scoreMax = DPI(uLengthA, uLengthB);
                cEdge = 'I';
                }

        for (;;)
                {
                if (0 == uPrefixLengthA && 0 == uPrefixLengthB)
                        break;

                PWEdge Edge;
                Edge.cType = cEdge;
                Edge.uPrefixLengthA = uPrefixLengthA;
                Edge.uPrefixLengthB = uPrefixLengthB;
                Path.PrependEdge(Edge);

#if TRACE
                Log("PLA=%u PLB=%u Edge=%c\n", uPrefixLengthA, uPrefixLengthB, cEdge);
#endif
                switch (cEdge)
                        {
                case 'M':
                        assert(uPrefixLengthA > 0 && uPrefixLengthB > 0);
                        cEdge = TBM(uPrefixLengthA, uPrefixLengthB);
                        --uPrefixLengthA;
                        --uPrefixLengthB;
                        break;
                case 'D':
                        assert(uPrefixLengthA > 0);
                        cEdge = TBD(uPrefixLengthA, uPrefixLengthB);
                        --uPrefixLengthA;
                        break;
                case 'I':
                        assert(uPrefixLengthB > 0);
                        cEdge = TBI(uPrefixLengthA, uPrefixLengthB);
                        --uPrefixLengthB;
                        break;
                default:
                        Quit("Invalid edge PLA=%u PLB=%u %c", uPrefixLengthA, uPrefixLengthB, cEdge);
                        }
                }
#if     TRACE
        Path.LogMe();
#endif
        return scoreMax;
        }