Esempio n. 1
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NAMESPACE_UPP

CH_STYLE(MultiButton, Style, StyleDefault)
{
	for(int i = 0; i < 4; i++) {
		simple[i] = left[i] = right[i] = lmiddle[i] = rmiddle[i]
			= Button::StyleEdge().look[i];
		monocolor[i] = Button::StyleEdge().monocolor[i];
		fmonocolor[i] = i == 3 ? SColorDisabled() : SColorText();
		look[i] = trivial[i] = ChLookWith(simple[i], CtrlsImg::DA(), monocolor[i]);
		edge[i] = EditFieldEdge();
	}
	activeedge = false;
	trivialborder = DPI(1);
	border = DPI(1);
	pressoffset = Button::StyleEdge().pressoffset;
	sep1 = SColorHighlight();
	sep2 = SColorLight();
	sepm = DPI(2);
	stdwidth = FrameButtonWidth();
	trivialsep = false;
	margin = Rect(DPI(2), 2, DPI(2), 2);
	usetrivial = false;
	overpaint = loff = roff = 0;
	error = Blend(LtRed(), Red());
}
void CTrafficMonitorApp::DPI(CRect & rect)
{
	rect.left = DPI(rect.left);
	rect.right = DPI(rect.right);
	rect.top = DPI(rect.top);
	rect.bottom = DPI(rect.bottom);
}
Esempio n. 3
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FileList::FileList() {
	iconwidth = DPI(16);
	ItemHeight(max(Draw::GetStdFontCy(), DPI(17)));
	Ctrl::Add(edit);
	edit.Hide();
	edit.SetFrame(BlackFrame());
	renaming = false;
	justname = false;
	accelkey = false;
	selectdir = false;
	SetDisplay(*this);
}
Esempio n. 4
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Size MakeLogo(Ctrl& parent, Array<Ctrl>& ctrl)
{
	Image logo = IdeImg::logo();
	Size  isz = logo.GetSize();
	ImageCtrl& l = ctrl.Create<ImageCtrl>();
	Label& v1 = ctrl.Create<Label>();
	l.SetImage(logo);
	Size sz = Size(isz.cx, isz.cy/* + 80*/);
	const CppBase& cpp = CodeBase();
	int total = 0;
	for(int i = 0; i < cpp.GetCount(); i++)
		total += cpp[i].GetCount();
	String h;
#ifdef bmSVN_REVISION
	h << "Version " << bmSVN_REVISION;
#else
	h << "Version " << IDE_VERSION;
#endif
	if(sizeof(void *) == 8)
		h << "\n(64 bit)";
	else
		h << "\n(32 bit)";
#ifdef _MSC_VER
	h << " (MSC)";
#endif
#if __GNUC__
#if __clang__
	h << " (CLANG)";
#else
	h << " (GCC)";
#endif
#endif
#if __cplusplus >= 201100
	h << " (C++11)";
#endif
#ifdef GUI_GTK
	h << " (Gtk)";
#endif
	h << "\n";
#ifdef bmTIME
	h << "Compiled " << bmTIME << "\n";
#endif
	h << "Using " << MemoryUsedKb() << " KB\n";
	if(cpp.GetCount())
		h << "CodeBase: " << cpp.GetCount() << " classes, " << total << " items\n";
	v1 = h;
	v1.HSizePos(DPI(220), DPI(10)).BottomPos(DPI(20), Arial(DPI(20)).GetHeight() * 5);
	v1.SetFont(Arial(DPI(10)));
	l.Add(v1);
	parent.Add(ctrl.Create<StaticRect>().Color(White).SizePos());
	parent.Add(l.TopPos(0, isz.cy).LeftPos(0, isz.cx));
	return sz;
}
Esempio n. 5
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void PLBmpDecoder::Open (PLDataSource * pDataSrc)
{
  m_pBMI = getInfoHeader (pDataSrc, &m_Pal[0]);
  
  PLPixelFormat pf;
  if (m_pBMI->biBitCount <= 8) {
    pf = PLPixelFormat::L8;
  } else {
    if (m_pBMI->biBitCount == 32) {
      pf = PLPixelFormat::A8R8G8B8;
    } else {
      pf = PLPixelFormat::X8R8G8B8;
    }
  }

  PLPoint DPI(0,0);
  if (m_pBMI->biXPelsPerMeter > 0)
    DPI.x = (int)((float)m_pBMI->biXPelsPerMeter / 39.37f+0.5);
  if (DPI.x <= 1)
    DPI.x = 0;
  if (m_pBMI->biYPelsPerMeter > 0)
    DPI.y = (int)((float)m_pBMI->biYPelsPerMeter / 39.37f+0.5);
  if (DPI.y <= 1)
    DPI.y = 0;

  SetBmpInfo (PLPoint (m_pBMI->biWidth, m_pBMI->biHeight), 
        DPI, pf);
}
Esempio n. 6
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void WorkspaceWork::SyncErrorPackages()
{
	for(int i = 0; i < package.GetCount(); i++) {
		FileList::File f = package.Get(i);
		if(!IsAux(f.name) && i < speed.GetCount()) {
			FileList::File ff = f;
			String path = GetFileFolder(PackagePath(f.name));
		#ifdef PLATFORM_WIN32
			path = ToLower(path);
		#endif
			ff.icon = i ? IdeImg::Package() : IdeImg::MainPackage();
			if(speed[i])
				ff.icon = ImageOver(ff.icon, IdeImg::FastPackage());
			ff.underline = Null;
			for(int q = 0; q < errorfiles.GetCount(); q++) {
				if(errorfiles[q].StartsWith(path)) {
					ff.icon = ImageOverRed(ff.icon);
					ff.underline = LtRed;
					break;
				}
			}
			ff.icon = DPI(ff.icon);
			package.Set(i, ff);
		}
	}
}
Esempio n. 7
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CH_STYLE(MenuBar, Style, StyleDefault)
{
	topitem[0] = Null;
	topitem[1] = topitem[2] = item = SColorHighlight();
	topitemtext[0] = menutext = SColorMenuText();
	topitemtext[1] = topitemtext[2] = itemtext = SColorHighlightText();
	topbar = SColorFace();
	maxiconsize = Size(16, 16);
	arealook = Null;
	look = SColorFace();
	separator = breaksep = SeparatorCtrl::StyleDefault();
	ImageBuffer ib(7, 7);
	Fill(ib, SColorShadow(), 7 * 7);
	for(int i = 0; i < 5; i++)
		Fill(ib[i + 1] + 1, SColorMenu(), 5);
	ib.SetHotSpot(Point(3, 3));
	ib.Set2ndSpot(Point(3, 3));
	popupframe = Image(ib);
	popupbody = SColorMenu();
	popupiconbar = Null;
	leftgap = DPI(16) + Zx(4);
	textgap = Zx(3);
	lsepm = rsepm = Zx(2);
	pullshift.x = 0;
	pullshift.y = -1;
}
Esempio n. 8
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	AboutDlg() {
		Size isz = MakeLogo(*this, ctrl);
		int cx = min(isz.cx * 2, GetWorkArea().GetWidth());
		SetRect(0, 0, cx, isz.cy);
		about.SetQTF(GetTopic("ide/app/About$en-us"), Zoom(DPI(120), 1024));
		about.SetZoom(Zoom(1, 1));
		about.RightPos(0, cx - isz.cx - DPI(1)).VSizePos();
		about.HMargins(Zx(4));
		about.SetFrame(NullFrame());
		about.NoLazy();
		Background(PaintRect(ColorDisplay(), SColorPaper()));
		Add(about);
//		separator.Color(Gray());
//		Add(separator.RightPos(cx - isz.cx, DPI(1)).VSizePos());
		Title("About TheIDE");
	}
Esempio n. 9
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void MultiButton::SyncInfo()
{
	if((HasMouse() || info.HasMouse()) && display &&
	   (GetMouseFlags() & (K_MOUSELEFT|K_MOUSERIGHT|K_MOUSEMIDDLE)) == 0) {
		Point p = GetMouseViewPos();
		NilDraw nw;
		Rect r = Paint0(nw, true);
		if(r.Contains(p)) {
			Value v = convert->Format(value);
			int cm = DPI(2);
			r.left -= cm;
			r.right += cm;
			info.Set(this, r, value, display, SColorText, SColorPaper, 0, DPI(2));
			return;
		}
	}
	info.Cancel();
}
Esempio n. 10
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	virtual void Paint(Draw& w, const Rect& r, const Value& q, Color ink, Color paper, dword style) const {
		ValueArray va = q;
		String txt = va[0];
		Image icon = va[1];
		if(IsNull(icon))
			icon = IdeImg::Package();
		else
			icon = DPI(icon, 16);
		w.DrawRect(r, paper);
		w.DrawImage(r.left, r.top + (r.Height() - icon.GetHeight()) / 2, icon);
		w.DrawText(r.left + Zx(20), r.top + (r.Height() - Draw::GetStdFontCy()) / 2, txt, fnt, ink);
	}
Esempio n. 11
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Rect MultiButton::Paint0(Draw& w, bool getcr)
{
	Size sz = GetSize();
	int border, lx, rx;
	bool frm = Metrics(border, lx, rx);
	int mst = ChState(MAIN);
	if(frm && !nobg && !getcr)
		ChPaint(w, sz, style->edge[style->activeedge ? mst : 0]);
	bool left = false;
	bool right = false;
	for(int i = 0; i < button.GetCount(); i++) {
		SubButton& b = button[i];
		int st = ChState(i);
		int x = 0, cx = 0;
		GetPos(b, lx, rx, x, cx);
		if(getcr)
			continue;
		bool dopaint = true;
		Value v = b.left ? left ? style->lmiddle[st] : style->left[st]
		                 : right ? style->rmiddle[st] : style->right[st];
		if(!nobg) {
			if(ComplexFrame())
				ChPaint(w, x, border, cx, sz.cy - 2 * border, style->simple[st]);
			else
			if(frm) {
				if(IsTrivial() && style->usetrivial)
					dopaint = false;
				ChPaint(w, x, border, cx, sz.cy - 2 * border,
				        dopaint ? v : style->trivial[st]);
			}
			else {
				w.Clip(x, 0, cx, sz.cy);
				ChPaint(w, sz, style->look[Frame() ? mst : st]);
				if(IsNull(v) || !Frame()) {
					if((!IsTrivial() || style->trivialsep) && IsEnabled()) {
						if(b.left) {
							if(left)
								ChPaint(w, x, style->sepm, 1, sz.cy - 2 * style->sepm, style->sep1);
							ChPaint(w, x + cx - 1, style->sepm, 1, sz.cy - 2 * style->sepm, style->sep2);
						}
						else {
							ChPaint(w, x, style->sepm, 1, sz.cy - 2 * style->sepm, style->sep1);
							if(right)
								ChPaint(w, x + cx - 1, style->sepm, 1, sz.cy - 2 * style->sepm, style->sep2);
						}
					}
				}
				else
					ChPaint(w, x, 0, cx, sz.cy, v);
				w.End();
			}
		}
		if(dopaint) {
			Size tsz = GetTextSize(b.label, StdFont());
			Image m = tsz.cx > 0 ? b.img : (Image)Nvl(b.img, CtrlsImg::DA());
			Size isz = m.GetSize();
			Point p = (st == CTRL_PRESSED) * style->pressoffset;
			p.x += x + (cx - isz.cx - tsz.cx - (tsz.cx > 0 && isz.cx > 0 ? LB_IMAGE : 0)) / 2;
			p.y += (sz.cy - isz.cy) / 2;
			if(b.left) {
				if(!left) p.x += style->loff;
			}
			else
				if(!right) p.x += style->roff;
			if(b.monoimg || IsNull(b.img))
				w.DrawImage(p.x, p.y, m, frm ? style->fmonocolor[st] : style->monocolor[st]);
			else
				w.DrawImage(p.x, p.y, m);

			if(tsz.cx > 0) {
				if(isz.cx > 0)
					p.x += isz.cx + LB_IMAGE;
				w.DrawText(p.x, (sz.cy - tsz.cy) / 2, b.label);
			}
		}
		(b.left ? left : right) = true;
	}
	Rect r, cr;
	cr = GetSize();
	cr.left = lx;
	cr.right = rx;
	Color text = SColorLabel();
	Color paper = Null;
	if(!nobg) {
		if(ComplexFrame()) {
			r = cr;
			paper = HasFocus() ? SColorHighlight() : SColorPaper();
			if(HasFocus())
				text = SColorHighlightText();
			w.DrawRect(r, paper);
		}
		else
		if(frm) {
			Rect m = GetMargin();
			r = Rect(max(lx, m.left), m.top, min(rx, sz.cx - m.right), sz.cy - m.bottom);
			Color paper;
			if(mst == CTRL_HOT && !IsTrivial())
				paper = Blend(SColorHighlight, SColorPaper, 235);
			else
			if(mst == CTRL_PRESSED && !IsTrivial())
				paper = Blend(SColorHighlight, SColorFace, 235);
			else
			if(HasFocus()) {
				paper = SColorHighlight();
				text = SColorHighlightText();
			}
			else
				paper = SColorPaper();
			w.DrawRect(r, paper);
			cr = r;
		}
		else {
			w.Clip(lx, 0, rx - lx, sz.cy);
			ChPaint(w, sz, style->look[mst]);
			Rect m = style->margin;
			r = Rect(max(lx, m.left), m.top, min(rx, sz.cx - m.right), sz.cy - m.bottom);
			if(!IsTrivial() || style->trivialsep) {
				if(left) {
					r.left++;
					if(IsEnabled())
						ChPaint(w, lx, style->sepm, 1, sz.cy - 2 * style->sepm, style->sep1);
				}
				if(right) {
					if(IsEnabled())
						ChPaint(w, rx - 1, style->sepm, 1, sz.cy - 2 * style->sepm, style->sep2);
					r.right--;
				}
			}
			w.End();
			cr = r;
		}
	}
	cr.left += DPI(1);
	Rect clr = cr;
	if(!IsNull(valuecy) && cr.GetHeight() > valuecy) {
		cr.top += (cr.GetHeight() - valuecy) / 2;
		cr.bottom = cr.top + valuecy;
	}
	if(getcr)
		return cr;
	Value v = convert->Format(value);
	bool f = HasFocus() && !push && frm;
	if(cr.left < cr.right && display) {
		w.Clip(clr);
		if(!IsNull(error)) {
			v = error;
			text = style->error;
		}
		display->Paint(w, cr, v,
		               IsShowEnabled() ? text : SColorDisabled,
		               paper, f ? Display::CURSOR : Display::FOCUS|Display::CURSOR);
		w.End();
	}
	if(!frm && HasFocus())
		DrawFocus(w, r);
	return cr;
}
Esempio n. 12
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SCORE NWDASimple(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 *DPL_ = new SCORE[LM];
	SCORE *DPM_ = new SCORE[LM];
	SCORE *DPD_ = new SCORE[LM];
	SCORE *DPE_ = new SCORE[LM];
	SCORE *DPI_ = new SCORE[LM];
	SCORE *DPJ_ = new SCORE[LM];

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

	memset(TBM_, '?', LM);
	memset(TBD_, '?', LM);
	memset(TBE_, '?', LM);
	memset(TBI_, '?', LM);
	memset(TBJ_, '?', LM);

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

	DPM(1, 0) = MINUS_INFINITY;
	DPD(1, 0) = PA[0].m_scoreGapOpen;
	DPE(1, 0) = PA[0].m_scoreGapOpen2;
	TBD(1, 0) = 'D';
	TBE(1, 0) = 'E';
	DPI(1, 0) = MINUS_INFINITY;
	DPJ(1, 0) = MINUS_INFINITY;

	DPM(0, 1) = MINUS_INFINITY;
	DPD(0, 1) = MINUS_INFINITY;
	DPE(0, 1) = MINUS_INFINITY;
	DPI(0, 1) = PB[0].m_scoreGapOpen;
	DPJ(0, 1) = PB[0].m_scoreGapOpen2;
	TBI(0, 1) = 'I';
	TBJ(0, 1) = 'J';

// Empty prefix of B is special case
	for (unsigned uPrefixLengthA = 2; uPrefixLengthA < uPrefixCountA; ++uPrefixLengthA)
		{
		DPM(uPrefixLengthA, 0) = MINUS_INFINITY;

		DPD(uPrefixLengthA, 0) = DPD(uPrefixLengthA - 1, 0) + g_scoreGapExtend.get();
		DPE(uPrefixLengthA, 0) = DPE(uPrefixLengthA - 1, 0) + g_scoreGapExtend2.get();

		TBD(uPrefixLengthA, 0) = 'D';
		TBE(uPrefixLengthA, 0) = 'E';

		DPI(uPrefixLengthA, 0) = MINUS_INFINITY;
		DPJ(uPrefixLengthA, 0) = MINUS_INFINITY;
		}

// Empty prefix of A is special case
	for (unsigned uPrefixLengthB = 2; uPrefixLengthB < uPrefixCountB; ++uPrefixLengthB)
		{
		DPM(0, uPrefixLengthB) = MINUS_INFINITY;

		DPD(0, uPrefixLengthB) = MINUS_INFINITY;
		DPE(0, uPrefixLengthB) = MINUS_INFINITY;

		DPI(0, uPrefixLengthB) = DPI(0, uPrefixLengthB - 1) + g_scoreGapExtend.get();
		DPJ(0, uPrefixLengthB) = DPJ(0, uPrefixLengthB - 1) + g_scoreGapExtend2.get();

		TBI(0, uPrefixLengthB) = 'I';
		TBJ(0, uPrefixLengthB) = 'J';
		}

// Special case to agree with NWFast, no D-I transitions so...
	DPD(uLengthA, 0) = MINUS_INFINITY;
	DPE(uLengthA, 0) = MINUS_INFINITY;
//	DPI(0, uLengthB) = MINUS_INFINITY;
//	DPJ(0, uLengthB) = MINUS_INFINITY;

// ============
// Main DP loop
// ============
	SCORE scoreGapCloseB = MINUS_INFINITY;
	SCORE scoreGapClose2B = MINUS_INFINITY;
	for (unsigned uPrefixLengthB = 1; uPrefixLengthB < uPrefixCountB; ++uPrefixLengthB)
		{
		const ProfPos &PPB = PB[uPrefixLengthB - 1];

		SCORE scoreGapCloseA = MINUS_INFINITY;
		SCORE scoreGapClose2A = MINUS_INFINITY;
		for (unsigned uPrefixLengthA = 1; uPrefixLengthA < uPrefixCountA; ++uPrefixLengthA)
			{
			const ProfPos &PPA = PA[uPrefixLengthA - 1];

			{
		// Match M=LetterA+LetterB
			SCORE scoreLL = ScoreProfPos2(PPA, PPB);
			DPL(uPrefixLengthA, uPrefixLengthB) = scoreLL;

			SCORE scoreMM = DPM(uPrefixLengthA-1, uPrefixLengthB-1);
			SCORE scoreDM = DPD(uPrefixLengthA-1, uPrefixLengthB-1) + scoreGapCloseA;
			SCORE scoreEM = DPE(uPrefixLengthA-1, uPrefixLengthB-1) + scoreGapClose2A;
			SCORE scoreIM = DPI(uPrefixLengthA-1, uPrefixLengthB-1) + scoreGapCloseB;
			SCORE scoreJM = DPJ(uPrefixLengthA-1, uPrefixLengthB-1) + scoreGapClose2B;

			SCORE scoreBest;
			if (scoreMM >= scoreDM && scoreMM >= scoreEM && scoreMM >= scoreIM && scoreMM >= scoreJM)
				{
				scoreBest = scoreMM;
				TBM(uPrefixLengthA, uPrefixLengthB) = 'M';
				}
			else if (scoreDM >= scoreMM && scoreDM >= scoreEM && scoreDM >= scoreIM && scoreDM >= scoreJM)
				{
				scoreBest = scoreDM;
				TBM(uPrefixLengthA, uPrefixLengthB) = 'D';
				}
			else if (scoreEM >= scoreMM && scoreEM >= scoreDM && scoreEM >= scoreIM && scoreEM >= scoreJM)
				{
				scoreBest = scoreEM;
				TBM(uPrefixLengthA, uPrefixLengthB) = 'E';
				}
			else if (scoreIM >= scoreMM && scoreIM >= scoreDM && scoreIM >= scoreEM && scoreIM >= scoreJM)
				{
				scoreBest = scoreIM;
				TBM(uPrefixLengthA, uPrefixLengthB) = 'I';
				}
			else
				{
				assert(scoreJM >= scoreMM && scoreJM >= scoreDM && scoreJM >= scoreEM && scoreJM >= scoreIM);
				scoreBest = scoreJM;
				TBM(uPrefixLengthA, uPrefixLengthB) = 'J';
				}
			DPM(uPrefixLengthA, uPrefixLengthB) = scoreBest + scoreLL;
			}

			{
		// Delete D=LetterA+GapB
			SCORE scoreMD = DPM(uPrefixLengthA-1, uPrefixLengthB) +
			  PA[uPrefixLengthA-1].m_scoreGapOpen;
			SCORE scoreDD = DPD(uPrefixLengthA-1, uPrefixLengthB) + g_scoreGapExtend.get();

			SCORE scoreBest;
			if (scoreMD >= scoreDD)
				{
				scoreBest = scoreMD;
				TBD(uPrefixLengthA, uPrefixLengthB) = 'M';
				}
			else
				{
				assert(scoreDD >= scoreMD);
				scoreBest = scoreDD;
				TBD(uPrefixLengthA, uPrefixLengthB) = 'D';
				}
			DPD(uPrefixLengthA, uPrefixLengthB) = scoreBest;
			}

			{
		// Delete E=LetterA+GapB
			SCORE scoreME = DPM(uPrefixLengthA-1, uPrefixLengthB) +
			  PA[uPrefixLengthA-1].m_scoreGapOpen2;
			SCORE scoreEE = DPE(uPrefixLengthA-1, uPrefixLengthB) + g_scoreGapExtend2.get();

			SCORE scoreBest;
			if (scoreME >= scoreEE)
				{
				scoreBest = scoreME;
				TBE(uPrefixLengthA, uPrefixLengthB) = 'M';
				}
			else
				{
				assert(scoreEE >= scoreME);
				scoreBest = scoreEE;
				TBE(uPrefixLengthA, uPrefixLengthB) = 'E';
				}
			DPE(uPrefixLengthA, uPrefixLengthB) = scoreBest;
			}

		// Insert I=GapA+LetterB
			{
			SCORE scoreMI = DPM(uPrefixLengthA, uPrefixLengthB-1) +
			  PB[uPrefixLengthB - 1].m_scoreGapOpen;
			SCORE scoreII = DPI(uPrefixLengthA, uPrefixLengthB-1) + g_scoreGapExtend.get();

			SCORE scoreBest;
			if (scoreMI >= scoreII)
				{
				scoreBest = scoreMI;
				TBI(uPrefixLengthA, uPrefixLengthB) = 'M';
				}
			else 
				{
				assert(scoreII > scoreMI);
				scoreBest = scoreII;
				TBI(uPrefixLengthA, uPrefixLengthB) = 'I';
				}
			DPI(uPrefixLengthA, uPrefixLengthB) = scoreBest;
			}

		// Insert J=GapA+LetterB
			{
			SCORE scoreMJ = DPM(uPrefixLengthA, uPrefixLengthB-1) +
			  PB[uPrefixLengthB - 1].m_scoreGapOpen2;
			SCORE scoreJJ = DPJ(uPrefixLengthA, uPrefixLengthB-1) + g_scoreGapExtend2.get();

			SCORE scoreBest;
			if (scoreMJ >= scoreJJ)
				{
				scoreBest = scoreMJ;
				TBJ(uPrefixLengthA, uPrefixLengthB) = 'M';
				}
			else 
				{
				assert(scoreJJ > scoreMJ);
				scoreBest = scoreJJ;
				TBJ(uPrefixLengthA, uPrefixLengthB) = 'J';
				}
			DPJ(uPrefixLengthA, uPrefixLengthB) = scoreBest;
			}

			scoreGapCloseA = PPA.m_scoreGapClose;
			scoreGapClose2A = PPA.m_scoreGapClose2;
			}
		scoreGapCloseB = PPB.m_scoreGapClose;
		scoreGapClose2B = PPB.m_scoreGapClose2;
		}

#if TRACE
	Log("\n");
	Log("DA Simple DPL:\n");
	ListDP(DPL_, PA, PB, uPrefixCountA, uPrefixCountB);
	Log("\n");
	Log("DA Simple DPM:\n");
	ListDP(DPM_, PA, PB, uPrefixCountA, uPrefixCountB);
	Log("\n");
	Log("DA Simple DPD:\n");
	ListDP(DPD_, PA, PB, uPrefixCountA, uPrefixCountB);
	Log("\n");
	Log("DA Simple DPE:\n");
	ListDP(DPE_, PA, PB, uPrefixCountA, uPrefixCountB);
	Log("\n");
	Log("DA Simple DPI:\n");
	ListDP(DPI_, PA, PB, uPrefixCountA, uPrefixCountB);
	Log("\n");
	Log("DA Simple DPJ:\n");
	ListDP(DPJ_, PA, PB, uPrefixCountA, uPrefixCountB);
	Log("\n");
	Log("DA Simple TBM:\n");
	ListTB(TBM_, PA, PB, uPrefixCountA, uPrefixCountB);
	Log("\n");
	Log("DA Simple TBD:\n");
	ListTB(TBD_, PA, PB, uPrefixCountA, uPrefixCountB);
	Log("\n");
	Log("DA Simple TBE:\n");
	ListTB(TBE_, PA, PB, uPrefixCountA, uPrefixCountB);
	Log("\n");
	Log("DA Simple TBI:\n");
	ListTB(TBI_, PA, PB, uPrefixCountA, uPrefixCountB);
	Log("\n");
	Log("DA Simple TBJ:\n");
	ListTB(TBJ_, PA, PB, uPrefixCountA, uPrefixCountB);
#endif

// Trace-back
// ==========
	Path.Clear();

// Find last edge
	SCORE M = DPM(uLengthA, uLengthB);
	SCORE D = DPD(uLengthA, uLengthB) + PA[uLengthA-1].m_scoreGapClose;
	SCORE E = DPE(uLengthA, uLengthB) + PA[uLengthA-1].m_scoreGapClose2;
	SCORE I = DPI(uLengthA, uLengthB) + PB[uLengthB-1].m_scoreGapClose;
	SCORE J = DPJ(uLengthA, uLengthB) + PB[uLengthB-1].m_scoreGapClose2;
	char cEdgeType = '?';

	SCORE BestScore = M;
	cEdgeType = 'M';
	if (D > BestScore)
		{
		cEdgeType = 'D';
		BestScore = D;
		}
	if (E > BestScore)
		{
		cEdgeType = 'E';
		BestScore = E;
		}
	if (I > BestScore)
		{
		cEdgeType = 'I';
		BestScore = I;
		}
	if (J > BestScore)
		{
		cEdgeType = 'J';
		BestScore = J;
		}

#if	TRACE
	Log("DA Simple: MAB=%.4g DAB=%.4g EAB=%.4g IAB=%.4g JAB=%.4g best=%c\n",
	  M, D, E, I, J, cEdgeType);
#endif

	unsigned PLA = uLengthA;
	unsigned PLB = uLengthB;
	for (;;)
		{
		PWEdge Edge;
		Edge.cType = XlatEdgeType(cEdgeType);
		Edge.uPrefixLengthA = PLA;
		Edge.uPrefixLengthB = PLB;
#if	TRACE
		Log("Prepend %c%d.%d\n", Edge.cType, PLA, PLB);
#endif
		Path.PrependEdge(Edge);

		switch (cEdgeType)
			{
		case 'M':
			assert(PLA > 0);
			assert(PLB > 0);
			cEdgeType = TBM(PLA, PLB);
			--PLA;
			--PLB;
			break;

		case 'D':
			assert(PLA > 0);
			cEdgeType = TBD(PLA, PLB);
			--PLA;
			break;

		case 'E':
			assert(PLA > 0);
			cEdgeType = TBE(PLA, PLB);
			--PLA;
			break;

		case 'I':
			assert(PLB > 0);
			cEdgeType = TBI(PLA, PLB);
			--PLB;
			break;
		
		case 'J':
			assert(PLB > 0);
			cEdgeType = TBJ(PLA, PLB);
			--PLB;
			break;

		default:
			Quit("Invalid edge %c", cEdgeType);
			}
		if (0 == PLA && 0 == PLB)
			break;
		}
	Path.Validate();

//	SCORE Score = TraceBack(PA, uLengthA, PB, uLengthB, DPM_, DPD_, DPI_, Path);

#if	TRACE
	SCORE scorePath = FastScorePath2(PA, uLengthA, PB, uLengthB, Path);
	Path.LogMe();
	Log("Score = %s Path = %s\n", LocalScoreToStr(BestScore), LocalScoreToStr(scorePath));
#endif

	if (g_bKeepSimpleDP.get())
		{
		g_DPM.get() = DPM_;
		g_DPD.get() = DPD_;
		g_DPE.get() = DPE_;
		g_DPI.get() = DPI_;
		g_DPJ.get() = DPJ_;

		g_TBM.get() = TBM_;
		g_TBD.get() = TBD_;
		g_TBE.get() = TBE_;
		g_TBI.get() = TBI_;
		g_TBJ.get() = TBJ_;
		}
	else
		{
		delete[] DPM_;
		delete[] DPD_;
		delete[] DPE_;
		delete[] DPI_;
		delete[] DPJ_;

		delete[] TBM_;
		delete[] TBD_;
		delete[] TBE_;
		delete[] TBI_;
		delete[] TBJ_;
		}

	return BestScore;
	}
Esempio n. 13
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)
{
    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;
}
Esempio n. 14
0
SCORE SW(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];

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

	DPM(1, 0) = MINUS_INFINITY;
	DPD(1, 0) = MINUS_INFINITY;
	DPI(1, 0) = MINUS_INFINITY;

	DPM(0, 1) = MINUS_INFINITY;
	DPD(0, 1) = MINUS_INFINITY;
	DPI(0, 1) = MINUS_INFINITY;

// 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;

	// D=LetterA+GapB, never optimal in local alignment with gap penalties
		DPD(uPrefixLengthA, 0) = MINUS_INFINITY;

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

// 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;

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

	// I=GapA+LetterB, never optimal in local alignment with gap penalties
		DPI(0, uPrefixLengthB) = MINUS_INFINITY;
		}

	SCORE scoreMax = MINUS_INFINITY;
	unsigned uPrefixLengthAMax = uInsane;
	unsigned uPrefixLengthBMax = uInsane;

// ============
// Main DP loop
// ============
	SCORE scoreGapCloseB = MINUS_INFINITY;
	for (unsigned uPrefixLengthB = 1; uPrefixLengthB < uPrefixCountB; ++uPrefixLengthB)
		{
		const ProfPos &PPB = PB[uPrefixLengthB - 1];

		SCORE scoreGapCloseA = MINUS_INFINITY;
		for (unsigned uPrefixLengthA = 1; uPrefixLengthA < uPrefixCountA; ++uPrefixLengthA)
			{
			const ProfPos &PPA = PA[uPrefixLengthA - 1];

			{
		// Match M=LetterA+LetterB
			SCORE scoreLL = ScoreProfPos2(PPA, PPB);

			SCORE scoreMM = DPM(uPrefixLengthA-1, uPrefixLengthB-1);
			SCORE scoreDM = DPD(uPrefixLengthA-1, uPrefixLengthB-1) + scoreGapCloseA;
			SCORE scoreIM = DPI(uPrefixLengthA-1, uPrefixLengthB-1) + scoreGapCloseB;

			SCORE scoreBest;
			if (scoreMM >= scoreDM && scoreMM >= scoreIM)
				scoreBest = scoreMM;
			else if (scoreDM >= scoreMM && scoreDM >= scoreIM)
				scoreBest = scoreDM;
			else 
				{
				assert(scoreIM >= scoreMM && scoreIM >= scoreDM);
				scoreBest = scoreIM;
				}
			if (scoreBest < 0)
				scoreBest = 0;
			scoreBest += scoreLL;
			if (scoreBest > scoreMax)
				{
				scoreMax = scoreBest;
				uPrefixLengthAMax = uPrefixLengthA;
				uPrefixLengthBMax = uPrefixLengthB;
				}
			DPM(uPrefixLengthA, uPrefixLengthB) = scoreBest;
			}

			{
		// Delete D=LetterA+GapB
			SCORE scoreMD = DPM(uPrefixLengthA-1, uPrefixLengthB) +
			  PA[uPrefixLengthA-1].m_scoreGapOpen;
			SCORE scoreDD = DPD(uPrefixLengthA-1, uPrefixLengthB);

			SCORE scoreBest;
			if (scoreMD >= scoreDD)
				scoreBest = scoreMD;
			else
				{
				assert(scoreDD >= scoreMD);
				scoreBest = scoreDD;
				}
			DPD(uPrefixLengthA, uPrefixLengthB) = scoreBest;
			}

		// Insert I=GapA+LetterB
			{
			SCORE scoreMI = DPM(uPrefixLengthA, uPrefixLengthB-1) +
			  PB[uPrefixLengthB - 1].m_scoreGapOpen;
			SCORE scoreII = DPI(uPrefixLengthA, uPrefixLengthB-1);

			SCORE scoreBest;
			if (scoreMI >= scoreII)
				scoreBest = scoreMI;
			else 
				{
				assert(scoreII > scoreMI);
				scoreBest = scoreII;
				}
			DPI(uPrefixLengthA, uPrefixLengthB) = scoreBest;
			}

			scoreGapCloseA = PPA.m_scoreGapClose;
			}
		scoreGapCloseB = PPB.m_scoreGapClose;
		}

#if TRACE
	Log("DPM:\n");
	ListDP(DPM_, PA, PB, uPrefixLengthA, uPrefixLengthB);
	Log("DPD:\n");
	ListDP(DPD_, PA, PB, uPrefixLengthA, uPrefixLengthB);
	Log("DPI:\n");
	ListDP(DPI_, PA, PB, uPrefixLengthA, uPrefixLengthB);
#endif

	assert(scoreMax == DPM(uPrefixLengthAMax, uPrefixLengthBMax));
	TraceBackSW(PA, uLengthA, PB, uLengthB, DPM_, DPD_, DPI_, 
	  uPrefixLengthAMax, uPrefixLengthBMax, Path);

#if	TRACE
	SCORE scorePath = FastScorePath2(PA, uLengthA, PB, uLengthB, Path);
	Path.LogMe();
	Log("Score = %s Path = %s\n", LocalScoreToStr(scoreMax), LocalScoreToStr(scorePath));
#endif

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

	return scoreMax;
	}
Esempio n. 15
0
/**
 * @brief Initializes main window.
 */
MainFrame::MainFrame()
    :wxFrame(NULL,wxID_ANY,wxT("UltraDefrag"))
{
    g_mainFrame = this;
    m_vList = NULL;
    m_cMap = NULL;
    m_currentJob = NULL;
    m_busy = false;
    m_paused = false;

    // set main window icon
    SetIcons(wxICON(appicon));

    // read configuration
    ReadAppConfiguration();
    ProcessCommandEvent(ID_ReadUserPreferences);

    // set main window title
    wxString *instdir = new wxString();
    //genBTC re-arranged the below, A LOT.
    wxStandardPaths stdpaths;
    wxFileName exepath(stdpaths.GetExecutablePath());
    wxString cd = exepath.GetPath();
    if((wxGetEnv(wxT("UD_INSTALL_DIR"),instdir))&&(cd.CmpNoCase(*instdir) == 0)) {
        itrace("current directory matches installation location, so it isn't portable");
        itrace("installation location: %ls",instdir->wc_str());
        m_title = new wxString(wxT(VERSIONINTITLE));
    } else {
        itrace("current directory differs from installation location, so it is portable");
        itrace("current directory: %ls",cd.wc_str());
        wxSetEnv(wxT("UD_IS_PORTABLE"),wxT("1"));
        m_title = new wxString(wxT(VERSIONINTITLE_PORTABLE));
    }
    //genBTC re-arranged the above, A LOT.
    ProcessCommandEvent(ID_SetWindowTitle);
    delete instdir;

    // set main window size and position
    SetSize(m_width,m_height);
    if(!m_saved){
        CenterOnScreen();
        GetPosition(&m_x,&m_y);
    }
    Move(m_x,m_y);
    if(m_maximized) Maximize(true);

    SetMinSize(wxSize(DPI(MAIN_WINDOW_MIN_WIDTH),DPI(MAIN_WINDOW_MIN_HEIGHT)));

    // create menu, tool and status bars
    InitMenu(); InitToolbar(); InitStatusBar();

	//make sizer1 to hold the the tabbed "notebook". And make the notebook
	wxBoxSizer* bSizer1;
	bSizer1 = new wxBoxSizer( wxVERTICAL );
	m_notebook1 = new wxNotebook( this, wxID_ANY, wxDefaultPosition, wxDefaultSize, 0 );

	//make a panel inside the notebook to hold the m_splitter
	m_panel1 = new wxPanel( m_notebook1, wxID_ANY, wxDefaultPosition, wxDefaultSize, wxTAB_TRAVERSAL );

    // create list of volumes and cluster map (with splitter as parent)
    m_splitter = new wxSplitterWindow(m_panel1,wxID_ANY, wxDefaultPosition,wxDefaultSize, 
                                      wxSP_3D | wxCLIP_CHILDREN);
    m_splitter->SetMinimumPaneSize(DPI(MIN_PANEL_HEIGHT));

    m_vList = new DrivesList(m_splitter,wxLC_REPORT | wxLC_NO_SORT_HEADER | 
                             wxLC_HRULES | wxLC_VRULES | wxBORDER_NONE);

    m_cMap = new ClusterMap(m_splitter);

    m_splitter->SplitHorizontally(m_vList,m_cMap);

    int height = GetClientSize().GetHeight();
    int maxPanelHeight = height - DPI(MIN_PANEL_HEIGHT) - m_splitter->GetSashSize();
    if(m_separatorPosition < DPI(MIN_PANEL_HEIGHT)) m_separatorPosition = DPI(MIN_PANEL_HEIGHT);
    else if(m_separatorPosition > maxPanelHeight) m_separatorPosition = maxPanelHeight;
    m_splitter->SetSashPosition(m_separatorPosition);

    // update frame layout so we'll be able to initialize
    // list of volumes and cluster map properly
    wxSizeEvent evt(wxSize(m_width,m_height));
    ProcessEvent(evt); m_splitter->UpdateSize();

    InitVolList();
    m_vList->SetFocus();

    // populate list of volumes
    m_listThread = new ListThread();

    //make sizer2 to Fit the splitter, and initialize it.
	wxBoxSizer* bSizer2;
	bSizer2 = new wxBoxSizer( wxVERTICAL );
	bSizer2->Add( m_splitter, 1, wxEXPAND, 1 );
	m_panel1->SetSizer( bSizer2 );

	//Finish Tab1 - Add the Panel1(Splitter+sizer2) to the notebook.
	m_notebook1->AddPage( m_panel1, wxT("Drives"), false );

	//make a 2nd panel inside the notebook to hold the 2nd page(a grid)
	m_panel2 = new wxPanel( m_notebook1, wxID_ANY, wxDefaultPosition, wxDefaultSize, wxTAB_TRAVERSAL );

    m_filesList = new FilesList(m_panel2,wxLC_REPORT /* | wxLC_SINGLE_SEL  | wxLC_NO_SORT_HEADER*/ \
                                        | wxLC_VIRTUAL | wxLC_HRULES | wxLC_VRULES | wxBORDER_NONE);
    InitFilesList();

	//make sizer3 to Fit the page2list, and initialize it.
	wxBoxSizer* bSizer3;
	bSizer3 = new wxBoxSizer( wxVERTICAL );
	bSizer3->Add( m_filesList, 1, wxEXPAND, 1 );
	m_panel2->SetSizer( bSizer3 );
    bSizer3->Fit( m_panel2 );

	//Finish Tab 2 - Add the Panel2(page2list+sizer3) to the notebook.
	m_notebook1->AddPage( m_panel2, wxT("Files"), false );

    //Finish Notebook & initialize
	bSizer1->Add( m_notebook1, 1, wxEXPAND, 1 );
	this->SetSizer( bSizer1 );

    // check the boot time defragmenter presence
    wxFileName btdFile(wxT("%SystemRoot%\\system32\\defrag_native.exe"));
    btdFile.Normalize();
    bool btd = btdFile.FileExists();
    m_menuBar->FindItem(ID_BootEnable)->Enable(btd);
    m_menuBar->FindItem(ID_BootScript)->Enable(btd);
    m_toolBar->EnableTool(ID_BootEnable,btd);
    m_toolBar->EnableTool(ID_BootScript,btd);
    if(btd && ::winx_bootex_check(L"defrag_native") > 0){
        m_menuBar->FindItem(ID_BootEnable)->Check(true);
        m_toolBar->ToggleTool(ID_BootEnable,true);
        m_btdEnabled = true;
    } else {
        m_btdEnabled = false;
    }

    // launch threads for time consuming operations
    m_btdThread = btd ? new BtdThread() : NULL;
    m_configThread = new ConfigThread();
    m_crashInfoThread = new CrashInfoThread();

    wxConfigBase *cfg = wxConfigBase::Get();
    int ulevel = (int)cfg->Read(wxT("/Upgrade/Level"),1);
    wxMenuItem *item = m_menuBar->FindItem(ID_HelpUpgradeNone + ulevel);
    if(item) item->Check();

    m_upgradeThread = new UpgradeThread(ulevel);

    // set system tray icon
    m_systemTrayIcon = new SystemTrayIcon();
    if(!m_systemTrayIcon->IsOk()){
        etrace("system tray icon initialization failed");
        wxSetEnv(wxT("UD_MINIMIZE_TO_SYSTEM_TRAY"),wxT("0"));
    }
    SetSystemTrayIcon(wxT("tray"),wxT("UltraDefrag"));

    // set localized text
    ProcessCommandEvent(ID_LocaleChange + g_locale->GetLanguage());

    // allow disk processing
    m_jobThread = new JobThread();

    //create query thread to perform queries without blocking the GUI
    //(sort of like jobs) - may not be good to have both possibly running at once.
    //Create Query Tab, Tab #3.
    InitQueryMenu();
    
    UD_DisableTool(ID_Stop);    //change stop icon to be not always enabled.
}
Esempio n. 16
0
SCORE TraceBack(const ProfPos *PA, unsigned uLengthA, const ProfPos *PB,
  unsigned uLengthB, const SCORE *DPM_, const SCORE *DPD_, const SCORE *DPI_,
  PWPath &Path)
	{
#if	TRACE
	Log("\n");
	Log("TraceBack LengthA=%u LengthB=%u\n", uLengthA, uLengthB);
#endif
	assert(uLengthB > 0 && uLengthA > 0);

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

	Path.Clear();

	unsigned uPrefixLengthA = uLengthA;
	unsigned uPrefixLengthB = uLengthB;

	const SCORE scoreM = DPM(uPrefixLengthA, uPrefixLengthB);
	SCORE scoreD = DPD(uPrefixLengthA, uPrefixLengthB);
	SCORE scoreI = DPI(uPrefixLengthA, uPrefixLengthB);

	const ProfPos &LastPPA = PA[uLengthA - 1];
	const ProfPos &LastPPB = PB[uLengthB - 1];

	scoreD += LastPPA.m_scoreGapClose;
	scoreI += LastPPB.m_scoreGapClose;

	char cEdgeType = cInsane;
	SCORE scoreMax;
	if (scoreM >= scoreD && scoreM >= scoreI)
		{
		scoreMax = scoreM;
		cEdgeType = 'M';
		}
	else if (scoreD >= scoreM && scoreD >= scoreI)
		{
		scoreMax = scoreD;
		cEdgeType = 'D';
		}
	else
		{
		assert(scoreI >= scoreM && scoreI >= scoreD);
		scoreMax = scoreI;
		cEdgeType = 'I';
		}

	for (;;)
		{
		if ('S' == cEdgeType)
			break;

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

		char cPrevEdgeType;
		unsigned uPrevPrefixLengthA = uPrefixLengthA;
		unsigned uPrevPrefixLengthB = uPrefixLengthB;

		switch (cEdgeType)
			{
		case 'M':
			{
			assert(uPrefixLengthA > 0);
			assert(uPrefixLengthB > 0);
			const ProfPos &PPA = PA[uPrefixLengthA - 1];
			const ProfPos &PPB = PB[uPrefixLengthB - 1];

			const SCORE Score = DPM(uPrefixLengthA, uPrefixLengthB);
			const SCORE scoreMatch = ScoreProfPos2(PPA, PPB);

			SCORE scoreSM;
			if (1 == uPrefixLengthA && 1 == uPrefixLengthB)
				scoreSM = scoreMatch;
			else
				scoreSM = MINUS_INFINITY;

			SCORE scoreMM = MINUS_INFINITY;
			SCORE scoreDM = MINUS_INFINITY;
			SCORE scoreIM = MINUS_INFINITY;
			if (uPrefixLengthA > 1 && uPrefixLengthB > 1)
				scoreMM = DPM(uPrefixLengthA-1, uPrefixLengthB-1) + scoreMatch;
			if (uPrefixLengthA > 1)
				{
				SCORE scoreTransDM = PA[uPrefixLengthA-2].m_scoreGapClose;
				scoreDM = DPD(uPrefixLengthA-1, uPrefixLengthB-1) + scoreTransDM + scoreMatch;
				}
			if (uPrefixLengthB > 1)
				{
				SCORE scoreTransIM = PB[uPrefixLengthB-2].m_scoreGapClose;
				scoreIM = DPI(uPrefixLengthA-1, uPrefixLengthB-1) + scoreTransIM + scoreMatch;
				}

			if (EQ(scoreMM, Score))
				cPrevEdgeType = 'M';
			else if (EQ(scoreDM, Score))
				cPrevEdgeType = 'D';
			else if (EQ(scoreIM, Score))
				cPrevEdgeType = 'I';
			else if (EQ(scoreSM, Score))
				cPrevEdgeType = 'S';
			else
				Quit("TraceBack: failed to match M score=%g M=%g D=%g I=%g S=%g",
				  Score, scoreMM, scoreDM, scoreIM, scoreSM);

			--uPrevPrefixLengthA;
			--uPrevPrefixLengthB;
			break;
			}

		case 'D':
			{
			assert(uPrefixLengthA > 0);
			const SCORE Score = DPD(uPrefixLengthA, uPrefixLengthB);

			SCORE scoreMD = MINUS_INFINITY;
			SCORE scoreDD = MINUS_INFINITY;
			SCORE scoreSD = MINUS_INFINITY;
			if (uPrefixLengthB == 0)
				{
				if (uPrefixLengthA == 1)
					scoreSD = PA[0].m_scoreGapOpen;
				else
					scoreSD = DPD(uPrefixLengthA - 1, 0);
				}
			if (uPrefixLengthA > 1)
				{
				const ProfPos &PPA = PA[uPrefixLengthA - 1];
				SCORE scoreTransMD = PPA.m_scoreGapOpen;
				scoreMD = DPM(uPrefixLengthA-1, uPrefixLengthB) + scoreTransMD;
				scoreDD = DPD(uPrefixLengthA-1, uPrefixLengthB);
				}

			if (EQ(Score, scoreMD))
				cPrevEdgeType = 'M';
			else if (EQ(Score, scoreDD))
				cPrevEdgeType = 'D';
			else if (EQ(Score, scoreSD))
				cPrevEdgeType = 'S';
			else
				Quit("TraceBack: failed to match D");

			--uPrevPrefixLengthA;
			break;
			}

		case 'I':
			{
			assert(uPrefixLengthB > 0);
			const SCORE Score = DPI(uPrefixLengthA, uPrefixLengthB);

			SCORE scoreMI = MINUS_INFINITY;
			SCORE scoreII = MINUS_INFINITY;
			SCORE scoreSI = MINUS_INFINITY;
			if (uPrefixLengthA == 0)
				{
				if (uPrefixLengthB == 1)
					scoreSI = PB[0].m_scoreGapOpen;
				else
					scoreSI = DPI(0, uPrefixLengthB - 1);
				}
			if (uPrefixLengthB > 1)
				{
				const ProfPos &PPB = PB[uPrefixLengthB - 1];
				SCORE scoreTransMI = PPB.m_scoreGapOpen;
				scoreMI = DPM(uPrefixLengthA, uPrefixLengthB-1) + scoreTransMI;
				scoreII = DPI(uPrefixLengthA, uPrefixLengthB-1);
				}

			if (EQ(Score, scoreMI))
				cPrevEdgeType = 'M';
			else if (EQ(Score, scoreII))
				cPrevEdgeType = 'I';
			else if (EQ(Score, scoreSI))
				cPrevEdgeType = 'S';
			else
				Quit("TraceBack: failed to match I");

			--uPrevPrefixLengthB;
			break;
			}

		default:
			assert(false);
			}
#if	TRACE
		Log("Edge %c%c%u.%u", cPrevEdgeType, cEdgeType, uPrefixLengthA, uPrefixLengthB);
		Log("\n");
#endif
		cEdgeType = cPrevEdgeType;
		uPrefixLengthA = uPrevPrefixLengthA;
		uPrefixLengthB = uPrevPrefixLengthB;
		}

	return scoreMax;
	}
Esempio n. 17
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// 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;
}