/********************************************************************** Audacity: A Digital Audio Editor Ruler.cpp Dominic Mazzoni *******************************************************************//** \class Ruler \brief Used to display a Ruler. This is a generic class which can be used to display just about any kind of ruler. At a minimum, the user must specify the dimensions of the ruler, its orientation (horizontal or vertical), and the values displayed at the two ends of the ruler (min and max). By default, this class will display tick marks at reasonable round numbers and fractions, for example, 100, 50, 10, 5, 1, 0.5, 0.1, etc. The class is designed to display a small handful of labeled Major ticks, and a few Minor ticks between each of these. Minor ticks are labeled if there is enough space. Labels will never run into each other. In addition to Real numbers, the Ruler currently supports two other formats for its display: Integer - never shows tick marks for fractions of an integer Time - Assumes values represent seconds, and labels the tick marks in "HH:MM:SS" format, e.g. 4000 seconds becomes "1:06:40", for example. Will display fractions of a second, and tick marks are all reasonable round numbers for time (i.e. 15 seconds, 30 seconds, etc.) *//***************************************************************//** \class RulerPanel \brief RulerPanel class allows you to work with a Ruler like any other wxWindow. *//***************************************************************//** \class Ruler::Label \brief An array of these created by the Ruler is used to determine what and where text annotations to the numbers on the Ruler get drawn. \todo Check whether Ruler is costing too much time in malloc/free of array of Ruler::Label. *//******************************************************************/ #include "../Audacity.h" #include "Ruler.h" #include <math.h> #include <wx/dcscreen.h> #include <wx/dcmemory.h> #include <wx/dcbuffer.h> #include <wx/settings.h> #include <wx/menu.h> #include <wx/menuitem.h> #include <wx/tooltip.h> #include "../AudioIO.h" #include "../Internat.h" #include "../Project.h" #include "../toolbars/ControlToolBar.h" #include "../Theme.h" #include "../AllThemeResources.h" #include "../Experimental.h" #include "../TimeTrack.h" #include "../TrackPanel.h" #include "../Menus.h" #include "../NumberScale.h" #include "../Prefs.h" #include "../Snap.h" using std::min; using std::max; #define SELECT_TOLERANCE_PIXEL 4 #define PLAY_REGION_TRIANGLE_SIZE 6 #define PLAY_REGION_RECT_WIDTH 1 #define PLAY_REGION_RECT_HEIGHT 3 #define PLAY_REGION_GLOBAL_OFFSET_Y 7 #define kTopInset 4 // // Ruler // Ruler::Ruler() : mpNumberScale(0) { mMin = mHiddenMin = 0.0; mMax = mHiddenMax = 100.0; mOrientation = wxHORIZONTAL; mSpacing = 6; mHasSetSpacing = false; mFormat = RealFormat; mFlip = false; mLog = false; mLabelEdges = false; mUnits = wxT(""); mLeft = -1; mTop = -1; mRight = -1; mBottom = -1; mbTicksOnly = true; mbTicksAtExtremes = false; mTickColour = wxColour(153,153,153); mPen.SetColour(mTickColour); // Note: the font size is now adjusted automatically whenever // Invalidate is called on a horizontal Ruler, unless the user // calls SetFonts manually. So the defaults here are not used // often. int fontSize = 10; #ifdef __WXMSW__ fontSize = 8; #endif mMinorMinorFont = new wxFont(fontSize - 1, wxFONTFAMILY_SWISS, wxFONTSTYLE_NORMAL, wxFONTWEIGHT_NORMAL); mMinorFont = new wxFont(fontSize, wxFONTFAMILY_SWISS, wxFONTSTYLE_NORMAL, wxFONTWEIGHT_NORMAL); mMajorFont = new wxFont(fontSize, wxFONTFAMILY_SWISS, wxFONTSTYLE_NORMAL, wxFONTWEIGHT_BOLD); mUserFonts = false; mMajorLabels = 0; mMinorLabels = 0; mMinorMinorLabels = 0; mLengthOld = 0; mLength = 0; mBits = NULL; mUserBits = NULL; mUserBitLen = 0; mValid = false; mCustom = false; mbMinor = true; mGridLineLength = 0; mMajorGrid = false; mMinorGrid = false; mTwoTone = false; mUseZoomInfo = false; } Ruler::~Ruler() { Invalidate(); // frees up our arrays if( mUserBits ) delete [] mUserBits;//JKC delete mMinorFont; delete mMajorFont; delete mMinorMinorFont; if (mMajorLabels) delete[] mMajorLabels; if (mMinorLabels) delete[] mMinorLabels; if (mMinorMinorLabels) delete[] mMinorMinorLabels; delete mpNumberScale; } void Ruler::SetTwoTone(bool twoTone) { mTwoTone = twoTone; } void Ruler::SetFormat(RulerFormat format) { // IntFormat, RealFormat, RealLogFormat, TimeFormat, or LinearDBFormat if (mFormat != format) { mFormat = format; Invalidate(); } } void Ruler::SetLog(bool log) { // Logarithmic if (mLog != log) { mLog = log; Invalidate(); } } void Ruler::SetUnits(wxString units) { // Specify the name of the units (like "dB") if you // want numbers like "1.6" formatted as "1.6 dB". if (mUnits != units) { mUnits = units; Invalidate(); } } void Ruler::SetOrientation(int orient) { // wxHORIZONTAL || wxVERTICAL if (mOrientation != orient) { mOrientation = orient; if (mOrientation == wxVERTICAL && !mHasSetSpacing) mSpacing = 2; Invalidate(); } } void Ruler::SetRange(double min, double max) { SetRange(min, max, min, max); } void Ruler::SetRange (double min, double max, double hiddenMin, double hiddenMax) { // For a horizontal ruler, // min is the value in the center of pixel "left", // max is the value in the center of pixel "right". // In the special case of a time ruler, // hiddenMin and hiddenMax are values that would be shown with the fisheye // turned off. In other cases they equal min and max respectively. if (mMin != min || mMax != max || mHiddenMin != hiddenMin || mHiddenMax != hiddenMax) { mMin = min; mMax = max; mHiddenMin = hiddenMin; mHiddenMax = hiddenMax; Invalidate(); } } void Ruler::SetSpacing(int spacing) { mHasSetSpacing = true; if (mSpacing != spacing) { mSpacing = spacing; Invalidate(); } } void Ruler::SetLabelEdges(bool labelEdges) { // If this is true, the edges of the ruler will always // receive a label. If not, the nearest round number is // labeled (which may or may not be the edge). if (mLabelEdges != labelEdges) { mLabelEdges = labelEdges; Invalidate(); } } void Ruler::SetFlip(bool flip) { // If this is true, the orientation of the tick marks // is reversed from the default; eg. above the line // instead of below if (mFlip != flip) { mFlip = flip; Invalidate(); } } void Ruler::SetMinor(bool value) { mbMinor = value; } void Ruler::SetFonts(const wxFont &minorFont, const wxFont &majorFont, const wxFont &minorMinorFont) { *mMinorMinorFont = minorMinorFont; *mMinorFont = minorFont; *mMajorFont = majorFont; // Won't override these fonts mUserFonts = true; Invalidate(); } void Ruler::SetNumberScale(const NumberScale *pScale) { if (!pScale) { if (mpNumberScale) { delete mpNumberScale; Invalidate(); } } else { if (!mpNumberScale || *mpNumberScale != *pScale) { delete mpNumberScale; mpNumberScale = new NumberScale(*pScale); Invalidate(); } } } void Ruler::OfflimitsPixels(int start, int end) { int i; if (!mUserBits) { if (mOrientation == wxHORIZONTAL) mLength = mRight-mLeft; else mLength = mBottom-mTop; if( mLength < 0 ) return; mUserBits = new int[mLength+1]; for(i=0; i<=mLength; i++) mUserBits[i] = 0; mUserBitLen = mLength+1; } if (end < start) { i = end; end = start; start = i; } if (start < 0) start = 0; if (end > mLength) end = mLength; for(i=start; i<=end; i++) mUserBits[i] = 1; } void Ruler::SetBounds(int left, int top, int right, int bottom) { if (mLeft != left || mTop != top || mRight != right || mBottom != bottom) { mLeft = left; mTop = top; mRight = right; mBottom = bottom; Invalidate(); } } void Ruler::Invalidate() { mValid = false; if (mOrientation == wxHORIZONTAL) mLength = mRight-mLeft; else mLength = mBottom-mTop; if (mBits) { delete [] mBits; mBits = NULL; } if (mUserBits && mLength+1 != mUserBitLen) { delete[] mUserBits; mUserBits = NULL; mUserBitLen = 0; } } void Ruler::FindLinearTickSizes(double UPP) { // Given the dimensions of the ruler, the range of values it // has to display, and the format (i.e. Int, Real, Time), // figure out how many units are in one Minor tick, and // in one Major tick. // // The goal is to always put tick marks on nice round numbers // that are easy for humans to grok. This is the most tricky // with time. double d; // As a heuristic, we want at least 16 pixels // between each minor tick double units = 16 * fabs(UPP); mDigits = 0; switch(mFormat) { case LinearDBFormat: if (units < 0.001) { mMinor = 0.001; mMajor = 0.005; return; } if (units < 0.01) { mMinor = 0.01; mMajor = 0.05; return; } if (units < 0.1) { mMinor = 0.1; mMajor = 0.5; return; } if (units < 1.0) { mMinor = 1.0; mMajor = 6.0; return; } if (units < 3.0) { mMinor = 3.0; mMajor = 12.0; return; } if (units < 6.0) { mMinor = 6.0; mMajor = 24.0; return; } if (units < 12.0) { mMinor = 12.0; mMajor = 48.0; return; } if (units < 24.0) { mMinor = 24.0; mMajor = 96.0; return; } d = 20.0; for(;;) { if (units < d) { mMinor = d; mMajor = d*5.0; return; } d *= 5.0; if (units < d) { mMinor = d; mMajor = d*5.0; return; } d *= 2.0; } break; case IntFormat: d = 1.0; for(;;) { if (units < d) { mMinor = d; mMajor = d*5.0; return; } d *= 5.0; if (units < d) { mMinor = d; mMajor = d*2.0; return; } d *= 2.0; } break; case TimeFormat: if (units > 0.5) { if (units < 1.0) { // 1 sec mMinor = 1.0; mMajor = 5.0; return; } if (units < 5.0) { // 5 sec mMinor = 5.0; mMajor = 15.0; return; } if (units < 10.0) { mMinor = 10.0; mMajor = 30.0; return; } if (units < 15.0) { mMinor = 15.0; mMajor = 60.0; return; } if (units < 30.0) { mMinor = 30.0; mMajor = 60.0; return; } if (units < 60.0) { // 1 min mMinor = 60.0; mMajor = 300.0; return; } if (units < 300.0) { // 5 min mMinor = 300.0; mMajor = 900.0; return; } if (units < 600.0) { // 10 min mMinor = 600.0; mMajor = 1800.0; return; } if (units < 900.0) { // 15 min mMinor = 900.0; mMajor = 3600.0; return; } if (units < 1800.0) { // 30 min mMinor = 1800.0; mMajor = 3600.0; return; } if (units < 3600.0) { // 1 hr mMinor = 3600.0; mMajor = 6*3600.0; return; } if (units < 6*3600.0) { // 6 hrs mMinor = 6*3600.0; mMajor = 24*3600.0; return; } if (units < 24*3600.0) { // 1 day mMinor = 24*3600.0; mMajor = 7*24*3600.0; return; } mMinor = 24.0 * 7.0 * 3600.0; // 1 week mMajor = 24.0 * 7.0 * 3600.0; } // Otherwise fall through to RealFormat // (fractions of a second should be dealt with // the same way as for RealFormat) case RealFormat: d = 0.000001; // mDigits is number of digits after the decimal point. mDigits = 6; for(;;) { if (units < d) { mMinor = d; mMajor = d*5.0; return; } d *= 5.0; if (units < d) { mMinor = d; mMajor = d*2.0; return; } d *= 2.0; mDigits--; // More than 10 digit numbers? Something is badly wrong. // Probably units is coming in with too high a value. wxASSERT( mDigits >= -10 ); if( mDigits < -10 ) break; } mMinor = d; mMajor = d * 2.0; break; case RealLogFormat: d = 0.000001; // mDigits is number of digits after the decimal point. mDigits = 6; for(;;) { if (units < d) { mMinor = d; mMajor = d*5.0; return; } d *= 5.0; if (units < d) { mMinor = d; mMajor = d*2.0; return; } d *= 2.0; mDigits--; // More than 10 digit numbers? Something is badly wrong. // Probably units is coming in with too high a value. wxASSERT( mDigits >= -10 ); if( mDigits < -10 ) break; } mDigits++; mMinor = d; mMajor = d * 2.0; break; } } wxString Ruler::LabelString(double d, bool major) { // Given a value, turn it into a string according // to the current ruler format. The number of digits of // accuracy depends on the resolution of the ruler, // i.e. how far zoomed in or out you are. wxString s; // Replace -0 with 0 if (d < 0.0 && d+mMinor > 0.0) d = 0.0; switch(mFormat) { case IntFormat: s.Printf(wxT("%d"), (int)floor(d+0.5)); break; case LinearDBFormat: if (mMinor >= 1.0) s.Printf(wxT("%d"), (int)floor(d+0.5)); else { int precision = -log10(mMinor); s.Printf(wxT("%.*f"), precision, d); } break; case RealFormat: if (mMinor >= 1.0) s.Printf(wxT("%d"), (int)floor(d+0.5)); else { s.Printf(wxString::Format(wxT("%%.%df"), mDigits), d); } break; case RealLogFormat: if (mMinor >= 1.0) s.Printf(wxT("%d"), (int)floor(d+0.5)); else { s.Printf(wxString::Format(wxT("%%.%df"), mDigits), d); } break; case TimeFormat: if (major) { if (d < 0) { s = wxT("-"); d = -d; } #if ALWAYS_HH_MM_SS int secs = (int)(d + 0.5); if (mMinor >= 1.0) { s.Printf(wxT("%d:%02d:%02d"), secs/3600, (secs/60)%60, secs%60); } else { wxString t1, t2, format; t1.Printf(wxT("%d:%02d:"), secs/3600, (secs/60)%60); format.Printf(wxT("%%0%d.%dlf"), mDigits+3, mDigits); t2.Printf(format.c_str(), fmod(d, 60.0)); s += t1 + t2; } break; #endif if (mMinor >= 3600.0) { int hrs = (int)(d / 3600.0 + 0.5); wxString h; h.Printf(wxT("%d:00:00"), hrs); s += h; } else if (mMinor >= 60.0) { int minutes = (int)(d / 60.0 + 0.5); wxString m; if (minutes >= 60) m.Printf(wxT("%d:%02d:00"), minutes/60, minutes%60); else m.Printf(wxT("%d:00"), minutes); s += m; } else if (mMinor >= 1.0) { int secs = (int)(d + 0.5); wxString t; if (secs >= 3600) t.Printf(wxT("%d:%02d:%02d"), secs/3600, (secs/60)%60, secs%60); else if (secs >= 60) t.Printf(wxT("%d:%02d"), secs/60, secs%60); else t.Printf(wxT("%d"), secs); s += t; } else { // The casting to float is working around an issue where 59 seconds // would show up as 60 when using g++ (Ubuntu 4.3.3-5ubuntu4) 4.3.3. int secs = (int)(float)(d); wxString t1, t2, format; if (secs >= 3600) t1.Printf(wxT("%d:%02d:"), secs/3600, (secs/60)%60); else if (secs >= 60) t1.Printf(wxT("%d:"), secs/60); if (secs >= 60) format.Printf(wxT("%%0%d.%dlf"), mDigits+3, mDigits); else format.Printf(wxT("%%%d.%dlf"), mDigits+3, mDigits); // The casting to float is working around an issue where 59 seconds // would show up as 60 when using g++ (Ubuntu 4.3.3-5ubuntu4) 4.3.3. t2.Printf(format.c_str(), fmod((float)d, (float)60.0)); s += t1 + t2; } } else { } } if (mUnits != wxT("")) s = (s + mUnits); return s; } void Ruler::Tick(int pos, double d, bool major, bool minor) { wxString l; wxCoord strW, strH, strD, strL; int strPos, strLen, strLeft, strTop; // FIXME: We don't draw a tick if of end of our label arrays // But we shouldn't have an array of labels. if( mNumMinorMinor >= mLength ) return; if( mNumMinor >= mLength ) return; if( mNumMajor >= mLength ) return; Label *label; if (major) label = &mMajorLabels[mNumMajor++]; else if (minor) label = &mMinorLabels[mNumMinor++]; else label = &mMinorMinorLabels[mNumMinorMinor++]; label->value = d; label->pos = pos; label->lx = mLeft - 1000; // don't display label->ly = mTop - 1000; // don't display label->text = wxT(""); mDC->SetFont(major? *mMajorFont: minor? *mMinorFont : *mMinorMinorFont); l = LabelString(d, major); mDC->GetTextExtent(l, &strW, &strH, &strD, &strL); if (mOrientation == wxHORIZONTAL) { strLen = strW; strPos = pos - strW/2; if (strPos < 0) strPos = 0; if (strPos + strW >= mLength) strPos = mLength - strW; strLeft = mLeft + strPos; if (mFlip) { strTop = mTop + 4; mMaxHeight = max(mMaxHeight, strH + 4); } else { strTop =-strH-mLead; mMaxHeight = max(mMaxHeight, strH + 6); } } else { strLen = strH; strPos = pos - strH/2; if (strPos < 0) strPos = 0; if (strPos + strH >= mLength) strPos = mLength - strH; strTop = mTop + strPos; if (mFlip) { strLeft = mLeft + 5; mMaxWidth = max(mMaxWidth, strW + 5); } else strLeft =-strW-6; } // FIXME: we shouldn't even get here if strPos < 0. // Ruler code currently does not handle very small or // negative sized windows (i.e. don't draw) properly. if( strPos < 0 ) return; // See if any of the pixels we need to draw this // label is already covered int i; for(i=0; i<strLen; i++) if (mBits[strPos+i]) return; // If not, position the label and give it text label->lx = strLeft; label->ly = strTop; label->text = l; // And mark these pixels, plus some surrounding // ones (the spacing between labels), as covered int leftMargin = mSpacing; if (strPos < leftMargin) leftMargin = strPos; strPos -= leftMargin; strLen += leftMargin; int rightMargin = mSpacing; if (strPos + strLen > mLength - mSpacing) rightMargin = mLength - strPos - strLen; strLen += rightMargin; for(i=0; i<strLen; i++) mBits[strPos+i] = 1; wxRect r(strLeft, strTop, strW, strH); mRect.Union(r); } void Ruler::TickCustom(int labelIdx, bool major, bool minor) { //This should only used in the mCustom case // Many code comes from 'Tick' method: this should // be optimized. int pos; wxString l; wxCoord strW, strH, strD, strL; int strPos, strLen, strLeft, strTop; // FIXME: We don't draw a tick if of end of our label arrays // But we shouldn't have an array of labels. if( mNumMinor >= mLength ) return; if( mNumMajor >= mLength ) return; Label *label; if (major) label = &mMajorLabels[labelIdx]; else if (minor) label = &mMinorLabels[labelIdx]; else label = &mMinorMinorLabels[labelIdx]; label->value = 0.0; pos = label->pos; // already stored in label class l = label->text; label->lx = mLeft - 1000; // don't display label->ly = mTop - 1000; // don't display mDC->SetFont(major? *mMajorFont: minor? *mMinorFont : *mMinorMinorFont); mDC->GetTextExtent(l, &strW, &strH, &strD, &strL); if (mOrientation == wxHORIZONTAL) { strLen = strW; strPos = pos - strW/2; if (strPos < 0) strPos = 0; if (strPos + strW >= mLength) strPos = mLength - strW; strLeft = mLeft + strPos; if (mFlip) { strTop = mTop + 4; mMaxHeight = max(mMaxHeight, strH + 4); } else { strTop = mTop- mLead+4;// More space was needed... mMaxHeight = max(mMaxHeight, strH + 6); } } else { strLen = strH; strPos = pos - strH/2; if (strPos < 0) strPos = 0; if (strPos + strH >= mLength) strPos = mLength - strH; strTop = mTop + strPos; if (mFlip) { strLeft = mLeft + 5; mMaxWidth = max(mMaxWidth, strW + 5); } else { strLeft =-strW-6; } } // FIXME: we shouldn't even get here if strPos < 0. // Ruler code currently does not handle very small or // negative sized windows (i.e. don't draw) properly. if( strPos < 0 ) return; // See if any of the pixels we need to draw this // label is already covered int i; for(i=0; i<strLen; i++) if (mBits[strPos+i]) return; // If not, position the label label->lx = strLeft; label->ly = strTop; // And mark these pixels, plus some surrounding // ones (the spacing between labels), as covered int leftMargin = mSpacing; if (strPos < leftMargin) leftMargin = strPos; strPos -= leftMargin; strLen += leftMargin; int rightMargin = mSpacing; if (strPos + strLen > mLength - mSpacing) rightMargin = mLength - strPos - strLen; strLen += rightMargin; for(i=0; i<strLen; i++) mBits[strPos+i] = 1; wxRect r(strLeft, strTop, strW, strH); mRect.Union(r); } void Ruler::Update() { Update(NULL); } void Ruler::Update(TimeTrack* timetrack)// Envelope *speedEnv, long minSpeed, long maxSpeed ) { const ZoomInfo *zoomInfo = NULL; if (mUseZoomInfo && !mLog && mOrientation == wxHORIZONTAL) zoomInfo = &GetActiveProject()->GetZoomInfo(); // This gets called when something has been changed // (i.e. we've been invalidated). Recompute all // tick positions and font size. int i; int j; if (!mUserFonts) { int fontSize = 4; wxCoord strW, strH, strD, strL; wxString exampleText = wxT("0.9"); //ignored for height calcs on all platforms int desiredPixelHeight; if (mOrientation == wxHORIZONTAL) desiredPixelHeight = mBottom - mTop - 5; // height less ticks and 1px gap else desiredPixelHeight = 12; // why 12? 10 -> 12 seems to be max/min if (desiredPixelHeight < 10)//8) desiredPixelHeight = 10;//8; if (desiredPixelHeight > 12) desiredPixelHeight = 12; // Keep making the font bigger until it's too big, then subtract one. mDC->SetFont(wxFont(fontSize, wxFONTFAMILY_SWISS, wxFONTSTYLE_NORMAL, wxFONTWEIGHT_BOLD)); mDC->GetTextExtent(exampleText, &strW, &strH, &strD, &strL); while ((strH - strD - strL) <= desiredPixelHeight && fontSize < 40) { fontSize++; mDC->SetFont(wxFont(fontSize, wxFONTFAMILY_SWISS, wxFONTSTYLE_NORMAL, wxFONTWEIGHT_BOLD)); mDC->GetTextExtent(exampleText, &strW, &strH, &strD, &strL); } fontSize--; mDC->SetFont(wxFont(fontSize, wxFONTFAMILY_SWISS, wxFONTSTYLE_NORMAL, wxFONTWEIGHT_NORMAL)); mDC->GetTextExtent(exampleText, &strW, &strH, &strD, &strL); mLead = strL; if (mMajorFont) delete mMajorFont; mMajorFont = new wxFont(fontSize, wxFONTFAMILY_SWISS, wxFONTSTYLE_NORMAL, wxFONTWEIGHT_BOLD); if (mMinorFont) delete mMinorFont; mMinorFont = new wxFont(fontSize, wxFONTFAMILY_SWISS, wxFONTSTYLE_NORMAL, wxFONTWEIGHT_NORMAL); if (mMinorMinorFont) delete mMinorMinorFont; mMinorMinorFont = new wxFont(fontSize - 1, wxFONTFAMILY_SWISS, wxFONTSTYLE_NORMAL, wxFONTWEIGHT_NORMAL); } // If ruler is being resized, we could end up with it being too small. // Values of mLength of zero or below cause bad array allocations and // division by zero. So... // IF too small THEN bail out and don't draw. if( mLength <= 0 ) return; if (mOrientation == wxHORIZONTAL) { mMaxWidth = mLength; mMaxHeight = 0; mRect = wxRect(0,0, mLength,0); } else { mMaxWidth = 0; mMaxHeight = mLength; mRect = wxRect(0,0, 0,mLength); } // FIXME: Surely we do not need to allocate storage for the labels? // We can just recompute them as we need them? Yes, but only if // mCustom is false!!!! if(!mCustom) { mNumMajor = 0; mNumMinor = 0; mNumMinorMinor = 0; if (mLength!=mLengthOld) { if (mMajorLabels) delete[] mMajorLabels; mMajorLabels = new Label[mLength+1]; if (mMinorLabels) delete[] mMinorLabels; mMinorLabels = new Label[mLength+1]; if (mMinorMinorLabels) delete[] mMinorMinorLabels; mMinorMinorLabels = new Label[mLength+1]; mLengthOld = mLength; } } if (mBits) delete[] mBits; mBits = new int[mLength+1]; if (mUserBits) for(i=0; i<=mLength; i++) mBits[i] = mUserBits[i]; else for(i=0; i<=mLength; i++) mBits[i] = 0; // *************** Label calculation routine ************** if(mCustom == true) { // SET PARAMETER IN MCUSTOM CASE // Works only with major labels int numLabel = mNumMajor; i = 0; while((i<numLabel) && (i<=mLength)) { TickCustom(i, true, false); i++; } } else if(mLog==false) { // Use the "hidden" min and max to determine the tick size. // That may make a difference with fisheye. // Otherwise you may see the tick size for the whole ruler change // when the fisheye approaches start or end. double UPP = (mHiddenMax-mHiddenMin)/mLength; // Units per pixel FindLinearTickSizes(UPP); // Left and Right Edges if (mLabelEdges) { Tick(0, mMin, true, false); Tick(mLength, mMax, true, false); } // Zero (if it's in the middle somewhere) if (mMin * mMax < 0.0) { int mid; if (zoomInfo != NULL) mid = int(zoomInfo->TimeToPosition(0.0, mLeftOffset)); else mid = (int)(mLength*(mMin / (mMin - mMax)) + 0.5); const int iMaxPos = (mOrientation == wxHORIZONTAL) ? mRight : mBottom - 5; if (mid >= 0 && mid < iMaxPos) Tick(mid, 0.0, true, false); } double sg = UPP > 0.0? 1.0: -1.0; // Major and minor ticks for (int jj = 0; jj < 2; ++jj) { const double denom = jj == 0 ? mMajor : mMinor; i = -1; j = 0; double d, warpedD, nextD; double prevTime = 0.0, time = 0.0; if (zoomInfo != NULL) { j = zoomInfo->TimeToPosition(mMin); prevTime = zoomInfo->PositionToTime(--j); time = zoomInfo->PositionToTime(++j); d = (prevTime + time) / 2.0; } else d = mMin - UPP / 2; if (timetrack) warpedD = timetrack->ComputeWarpedLength(0.0, d); else warpedD = d; // using ints doesn't work, as // this will overflow and be negative at high zoom. double step = floor(sg * warpedD / denom); while (i <= mLength) { i++; if (zoomInfo) { prevTime = time; time = zoomInfo->PositionToTime(++j); nextD = (prevTime + time) / 2.0; // wxASSERT(time >= prevTime); } else nextD = d + UPP; if (timetrack) warpedD += timetrack->ComputeWarpedLength(d, nextD); else warpedD = nextD; d = nextD; if (floor(sg * warpedD / denom) > step) { step = floor(sg * warpedD / denom); bool major = jj == 0; Tick(i, sg * step * denom, major, !major); } } } // Left and Right Edges if (mLabelEdges) { Tick(0, mMin, true, false); Tick(mLength, mMax, true, false); } } else { // log case NumberScale numberScale(mpNumberScale ? *mpNumberScale : NumberScale(nstLogarithmic, mMin, mMax, 1.0f) ); mDigits=2; //TODO: implement dynamic digit computation double loLog = log10(mMin); double hiLog = log10(mMax); int loDecade = (int) floor(loLog); double val; double startDecade = pow(10., (double)loDecade); // Major ticks are the decades double decade = startDecade; double delta=hiLog-loLog, steps=fabs(delta); double step = delta>=0 ? 10 : 0.1; double rMin=std::min(mMin, mMax), rMax=std::max(mMin, mMax); for(i=0; i<=steps; i++) { // if(i!=0) { val = decade; if(val >= rMin && val < rMax) { const int pos(0.5 + mLength * numberScale.ValueToPosition(val)); Tick(pos, val, true, false); } } decade *= step; } // Minor ticks are multiples of decades decade = startDecade; float start, end, mstep; if (delta > 0) { start=2; end=10; mstep=1; }else { start=9; end=1; mstep=-1; } steps++; for(i=0; i<=steps; i++) { for(j=start; j!=end; j+=mstep) { val = decade * j; if(val >= rMin && val < rMax) { const int pos(0.5 + mLength * numberScale.ValueToPosition(val)); Tick(pos, val, false, true); } } decade *= step; } // MinorMinor ticks are multiples of decades decade = startDecade; if (delta > 0) { start= 10; end=100; mstep= 1; }else { start=100; end= 10; mstep=-1; } steps++; for (i = 0; i <= steps; i++) { // PRL: Bug1038. Don't label 1.6, rounded, as a duplicate tick for "2" if (!(mFormat == IntFormat && decade < 10.0)) { for (int f = start; f != int(end); f += mstep) { if (int(f / 10) != f / 10.0f) { val = decade * f / 10; if (val >= rMin && val < rMax) { const int pos(0.5 + mLength * numberScale.ValueToPosition(val)); Tick(pos, val, false, false); } } } } decade *= step; } } int displacementx=0, displacementy=0; if (!mFlip) { if (mOrientation==wxHORIZONTAL) { int d=mTop+mRect.GetHeight()+5; mRect.Offset(0,d); mRect.Inflate(0,5); displacementx=0; displacementy=d; } else { int d=mLeft-mRect.GetLeft()+5; mRect.Offset(d,0); mRect.Inflate(5,0); displacementx=d; displacementy=0; } } else { if (mOrientation==wxHORIZONTAL) { mRect.Inflate(0,5); displacementx=0; displacementy=0; } } for(i=0; i<mNumMajor; i++) { mMajorLabels[i].lx+= displacementx; mMajorLabels[i].ly+= displacementy; } for(i=0; i<mNumMinor; i++) { mMinorLabels[i].lx+= displacementx; mMinorLabels[i].ly+= displacementy; } for(i=0; i<mNumMinorMinor; i++) { mMinorMinorLabels[i].lx+= displacementx; mMinorMinorLabels[i].ly+= displacementy; } mMaxWidth = mRect.GetWidth (); mMaxHeight= mRect.GetHeight(); mValid = true; } void Ruler::Draw(wxDC& dc) { Draw( dc, NULL); } void Ruler::Draw(wxDC& dc, TimeTrack* timetrack) { mDC = &dc; if( mLength <=0 ) return; if (!mValid) Update(timetrack); #ifdef EXPERIMENTAL_THEMING mDC->SetPen(mPen); #else mDC->SetPen(*wxBLACK_PEN); #endif // Draws a long line the length of the ruler. if( !mbTicksOnly ) { if (mOrientation == wxHORIZONTAL) { if (mFlip) mDC->DrawLine(mLeft, mTop, mRight+1, mTop); else mDC->DrawLine(mLeft, mBottom, mRight+1, mBottom); } else { if (mFlip) mDC->DrawLine(mLeft, mTop, mLeft, mBottom+1); else { // These calculations appear to be wrong, and to never have been used (so not tested) prior to MixerBoard. // mDC->DrawLine(mRect.x-mRect.width, mTop, mRect.x-mRect.width, mBottom+1); const int nLineX = mRight - 1; mDC->DrawLine(nLineX, mTop, nLineX, mBottom+1); } } } int i; mDC->SetFont(*mMajorFont); // We may want to not show the ticks at the extremes, // though still showing the labels. // This gives a better look when the ruler is on a bevelled // button, since otherwise the tick is drawn on the bevel. int iMaxPos = (mOrientation==wxHORIZONTAL)? mRight : mBottom-5; for(i=0; i<mNumMajor; i++) { int pos = mMajorLabels[i].pos; if( mbTicksAtExtremes || ((pos!=0)&&(pos!=iMaxPos))) { if (mOrientation == wxHORIZONTAL) { if (mFlip) mDC->DrawLine(mLeft + pos, mTop, mLeft + pos, mTop + 4); else mDC->DrawLine(mLeft + pos, mBottom - 4, mLeft + pos, mBottom); } else { if (mFlip) mDC->DrawLine(mLeft, mTop + pos, mLeft + 4, mTop + pos); else mDC->DrawLine(mRight - 4, mTop + pos, mRight, mTop + pos); } } mMajorLabels[i].Draw(*mDC, mTwoTone); } if(mbMinor == true) { mDC->SetFont(*mMinorFont); for(i=0; i<mNumMinor; i++) { int pos = mMinorLabels[i].pos; if( mbTicksAtExtremes || ((pos!=0)&&(pos!=iMaxPos))) { if (mOrientation == wxHORIZONTAL) { if (mFlip) mDC->DrawLine(mLeft + pos, mTop, mLeft + pos, mTop + 2); else mDC->DrawLine(mLeft + pos, mBottom - 2, mLeft + pos, mBottom); } else { if (mFlip) mDC->DrawLine(mLeft, mTop + pos, mLeft + 2, mTop + pos); else mDC->DrawLine(mRight - 2, mTop + pos, mRight, mTop + pos); } } mMinorLabels[i].Draw(*mDC, mTwoTone); } } mDC->SetFont(*mMinorMinorFont); for(i=0; i<mNumMinorMinor; i++) { if (mMinorMinorLabels[i].text != wxT("")) { int pos = mMinorMinorLabels[i].pos; if( mbTicksAtExtremes || ((pos!=0)&&(pos!=iMaxPos))) { if (mOrientation == wxHORIZONTAL) { if (mFlip) mDC->DrawLine(mLeft + pos, mTop, mLeft + pos, mTop + 2); else mDC->DrawLine(mLeft + pos, mBottom - 2, mLeft + pos, mBottom); } else { if (mFlip) mDC->DrawLine(mLeft, mTop + pos, mLeft + 2, mTop + pos); else mDC->DrawLine(mRight - 2, mTop + pos, mRight, mTop + pos); } } mMinorMinorLabels[i].Draw(*mDC, mTwoTone); } } } // ********** Draw grid *************************** void Ruler::DrawGrid(wxDC& dc, int length, bool minor, bool major, int xOffset, int yOffset) { mGridLineLength = length; mMajorGrid = major; mMinorGrid = minor; mDC = &dc; Update(); int gridPos; wxPen gridPen; if(mbMinor && (mMinorGrid && (mGridLineLength != 0 ))) { gridPen.SetColour(178, 178, 178); // very light grey mDC->SetPen(gridPen); for(int i=0; i<mNumMinor; i++) { gridPos = mMinorLabels[i].pos; if(mOrientation == wxHORIZONTAL) { if((gridPos != 0) && (gridPos != mGridLineLength)) mDC->DrawLine(gridPos+xOffset, yOffset, gridPos+xOffset, mGridLineLength+yOffset); } else { if((gridPos != 0) && (gridPos != mGridLineLength)) mDC->DrawLine(xOffset, gridPos+yOffset, mGridLineLength+xOffset, gridPos+yOffset); } } } if(mMajorGrid && (mGridLineLength != 0 )) { gridPen.SetColour(127, 127, 127); // light grey mDC->SetPen(gridPen); for(int i=0; i<mNumMajor; i++) { gridPos = mMajorLabels[i].pos; if(mOrientation == wxHORIZONTAL) { if((gridPos != 0) && (gridPos != mGridLineLength)) mDC->DrawLine(gridPos+xOffset, yOffset, gridPos+xOffset, mGridLineLength+yOffset); } else { if((gridPos != 0) && (gridPos != mGridLineLength)) mDC->DrawLine(xOffset, gridPos+yOffset, mGridLineLength+xOffset, gridPos+yOffset); } } int zeroPosition = GetZeroPosition(); if(zeroPosition > 0) { // Draw 'zero' grid line in black mDC->SetPen(*wxBLACK_PEN); if(mOrientation == wxHORIZONTAL) { if(zeroPosition != mGridLineLength) mDC->DrawLine(zeroPosition+xOffset, yOffset, zeroPosition+xOffset, mGridLineLength+yOffset); } else { if(zeroPosition != mGridLineLength) mDC->DrawLine(xOffset, zeroPosition+yOffset, mGridLineLength+xOffset, zeroPosition+yOffset); } } } } int Ruler::FindZero(Label * label, const int len) { int i = 0; double d = 1.0; // arbitrary do { d = label[i].value; i++; } while( (i < len) && (d != 0.0) ); if(d == 0.0) return (label[i - 1].pos) ; else return -1; } int Ruler::GetZeroPosition() { int zero; if((zero = FindZero(mMajorLabels, mNumMajor)) < 0) zero = FindZero(mMinorLabels, mNumMinor); // PRL: don't consult minor minor?? return zero; } void Ruler::GetMaxSize(wxCoord *width, wxCoord *height) { if (!mValid) { wxScreenDC sdc; mDC = &sdc; Update(NULL); } if (width) *width = mRect.GetWidth(); //mMaxWidth; if (height) *height = mRect.GetHeight(); //mMaxHeight; } void Ruler::SetCustomMode(bool value) { mCustom = value; } void Ruler::SetCustomMajorLabels(wxArrayString *label, int numLabel, int start, int step) { int i; mNumMajor = numLabel; mMajorLabels = new Label[numLabel]; for(i=0; i<numLabel; i++) { mMajorLabels[i].text = label->Item(i); mMajorLabels[i].pos = start + i*step; } //Remember: delete majorlabels.... } void Ruler::SetCustomMinorLabels(wxArrayString *label, int numLabel, int start, int step) { int i; mNumMinor = numLabel; mMinorLabels = new Label[numLabel]; for(i=0; i<numLabel; i++) { mMinorLabels[i].text = label->Item(i); mMinorLabels[i].pos = start + i*step; } //Remember: delete majorlabels.... } void Ruler::Label::Draw(wxDC&dc, bool twoTone) const { if (text != wxT("")) { bool altColor = twoTone && value < 0.0; #ifdef EXPERIMENTAL_THEMING // TODO: handle color distinction mDC->SetTextForeground(mTickColour); #else dc.SetTextForeground(altColor ? *wxBLUE : *wxBLACK); #endif dc.DrawText(text, lx, ly); } } void Ruler::SetUseZoomInfo(int leftOffset) { mLeftOffset = leftOffset; mUseZoomInfo = true; } // // RulerPanel // BEGIN_EVENT_TABLE(RulerPanel, wxPanel) EVT_ERASE_BACKGROUND(RulerPanel::OnErase) EVT_PAINT(RulerPanel::OnPaint) EVT_SIZE(RulerPanel::OnSize) END_EVENT_TABLE() IMPLEMENT_CLASS(RulerPanel, wxPanel) RulerPanel::RulerPanel(wxWindow* parent, wxWindowID id, const wxPoint& pos /*= wxDefaultPosition*/, const wxSize& size /*= wxDefaultSize*/): wxPanel(parent, id, pos, size) { } RulerPanel::~RulerPanel() { } void RulerPanel::OnErase(wxEraseEvent & WXUNUSED(evt)) { // Ignore it to prevent flashing } void RulerPanel::OnPaint(wxPaintEvent & WXUNUSED(evt)) { wxPaintDC dc(this); #if defined(__WXMSW__) dc.Clear(); #endif ruler.Draw(dc); } void RulerPanel::OnSize(wxSizeEvent & WXUNUSED(evt)) { Refresh(); } // LL: We're overloading DoSetSize so that we can update the ruler bounds immediately // instead of waiting for a wxEVT_SIZE to come through. This is needed by (at least) // FreqWindow since it needs to have an updated ruler before RulerPanel gets the // size event. void RulerPanel::DoSetSize(int x, int y, int width, int height, int sizeFlags) { wxPanel::DoSetSize(x, y, width, height, sizeFlags); int w, h; GetClientSize(&w, &h); ruler.SetBounds(0, 0, w-1, h-1); } /********************************************************************** Implementation of AdornedRulerPanel. Either we find a way to make this more generic, Or it will move out of the widgets subdirectory into its own source file. **********************************************************************/ #include "../ViewInfo.h" #include "../AColor.h" enum { OnToggleQuickPlayID = 7000, OnSyncQuickPlaySelID, OnTimelineToolTipID, OnAutoScrollID, OnLockPlayRegionID }; BEGIN_EVENT_TABLE(AdornedRulerPanel, wxPanel) EVT_PAINT(AdornedRulerPanel::OnPaint) EVT_SIZE(AdornedRulerPanel::OnSize) EVT_MOUSE_EVENTS(AdornedRulerPanel::OnMouseEvents) EVT_MOUSE_CAPTURE_LOST(AdornedRulerPanel::OnCaptureLost) EVT_MENU(OnToggleQuickPlayID, AdornedRulerPanel::OnToggleQuickPlay) EVT_MENU(OnSyncQuickPlaySelID, AdornedRulerPanel::OnSyncSelToQuickPlay) EVT_MENU(OnTimelineToolTipID, AdornedRulerPanel::OnTimelineToolTips) EVT_MENU(OnAutoScrollID, AdornedRulerPanel::OnAutoScroll) EVT_MENU(OnLockPlayRegionID, AdornedRulerPanel::OnLockPlayRegion) END_EVENT_TABLE() AdornedRulerPanel::AdornedRulerPanel(AudacityProject* parent, wxWindowID id, const wxPoint& pos, const wxSize& size, ViewInfo *viewinfo) : wxPanel(parent, id, pos, size) { SetLabel( _("Timeline") ); SetName(GetLabel()); SetBackgroundStyle(wxBG_STYLE_PAINT); mCursorDefault = wxCursor(wxCURSOR_DEFAULT); mCursorHand = wxCursor(wxCURSOR_HAND); mCursorSizeWE = wxCursor(wxCURSOR_SIZEWE); mLeftOffset = 0; mCurTime = -1; mIndTime = -1; mIndType = -1; mQuickPlayInd = false; mPlayRegionStart = -1; mPlayRegionLock = false; mPlayRegionEnd = -1; mOldPlayRegionStart = -1; mOldPlayRegionEnd = -1; mLeftDownClick = -1; mMouseEventState = mesNone; mIsDragging = false; mViewInfo = viewinfo; mOuter = GetClientRect(); mInner = mOuter; mInner.x += 1; // +1 for left bevel mInner.y += 1; // +1 for top bevel mInner.width -= 2; // -2 for left and right bevels mInner.height -= 3; // -3 for top and bottom bevels and bottom line mRuler.SetUseZoomInfo(mLeftOffset); mRuler.SetBounds(mInner.GetLeft(), mInner.GetTop(), mInner.GetRight(), mInner.GetBottom()); mRuler.SetLabelEdges( false ); mRuler.SetFormat( Ruler::TimeFormat ); mTracks = parent->GetTracks(); mSnapManager = NULL; mIsSnapped = false; mIsRecording = false; mTimelineToolTip = !!gPrefs->Read(wxT("/QuickPlay/ToolTips"), 1L); mPlayRegionDragsSelection = (gPrefs->Read(wxT("/QuickPlay/DragSelection"), 0L) == 1)? true : false; mQuickPlayEnabled = !!gPrefs->Read(wxT("/QuickPlay/QuickPlayEnabled"), 1L); UpdatePrefs(); #if wxUSE_TOOLTIPS wxToolTip::Enable(true); #endif wxTheApp->Connect(EVT_AUDIOIO_CAPTURE, wxCommandEventHandler(AdornedRulerPanel::OnCapture), NULL, this); } AdornedRulerPanel::~AdornedRulerPanel() { // Done with the snap manager if (mSnapManager) { delete mSnapManager; } wxTheApp->Disconnect(EVT_AUDIOIO_CAPTURE, wxCommandEventHandler(AdornedRulerPanel::OnCapture), NULL, this); } void AdornedRulerPanel::UpdatePrefs() { #ifdef EXPERIMENTAL_SCROLLING_LIMITS #ifdef EXPERIMENTAL_TWO_TONE_TIME_RULER { bool scrollBeyondZero = false; gPrefs->Read(wxT("/GUI/ScrollBeyondZero"), &scrollBeyondZero, false); mRuler.SetTwoTone(scrollBeyondZero); } #endif #endif RegenerateTooltips(); } void AdornedRulerPanel::InvalidateRuler() { mRuler.Invalidate(); } void AdornedRulerPanel::RegenerateTooltips() { #if wxUSE_TOOLTIPS if (mTimelineToolTip) { if (mIsRecording) { this->SetToolTip(_("Timeline actions disabled during recording")); } else if (!mQuickPlayEnabled) { this->SetToolTip(_("Quick-Play disabled")); } else { this->SetToolTip(_("Quick-Play enabled")); } } else { this->SetToolTip(NULL); } #endif } void AdornedRulerPanel::OnCapture(wxCommandEvent & evt) { evt.Skip(); if (evt.GetInt() != 0) { // Set cursor immediately because OnMouseEvents is not called // if recording is initiated by a modal window (Timer Record). SetCursor(mCursorDefault); mIsRecording = true; } else { SetCursor(mCursorHand); mIsRecording = false; } RegenerateTooltips(); } void AdornedRulerPanel::OnPaint(wxPaintEvent & WXUNUSED(evt)) { wxSize sz = GetClientSize(); wxPaintDC pdc(this); wxBitmap buffer; buffer.Create(sz.x, sz.y, pdc); wxBufferedDC dc(&pdc, buffer); DoDrawBorder(&dc); if (!mViewInfo->selectedRegion.isPoint()) { DoDrawSelection(&dc); } DoDrawMarks(&dc, true); if (mIndType >= 0) { DoDrawIndicator(&dc); } if (mQuickPlayInd) { DrawQuickPlayIndicator(&dc); } if (mViewInfo->selectedRegion.isPoint()) { DoDrawCursor(&dc); } DoDrawPlayRegion(&dc); } void AdornedRulerPanel::OnSize(wxSizeEvent & WXUNUSED(evt)) { mOuter = GetClientRect(); if (mOuter.GetWidth() == 0 || mOuter.GetHeight() == 0) { return; } mInner = mOuter; mInner.x += 1; // +1 for left bevel mInner.y += 1; // +1 for top bevel mInner.width -= 2; // -2 for left and right bevels mInner.height -= 3; // -3 for top and bottom bevels and bottom line mRuler.SetBounds(mInner.GetLeft(), mInner.GetTop(), mInner.GetRight(), mInner.GetBottom()); Refresh(); } double AdornedRulerPanel::Pos2Time(int p, bool ignoreFisheye) { return mViewInfo->PositionToTime(p, mLeftOffset , ignoreFisheye ); } int AdornedRulerPanel::Time2Pos(double t, bool ignoreFisheye) { return mViewInfo->TimeToPosition(t, mLeftOffset , ignoreFisheye ); } bool AdornedRulerPanel::IsWithinMarker(int mousePosX, double markerTime) { if (markerTime < 0) return false; int pixelPos = Time2Pos(markerTime); int boundLeft = pixelPos - SELECT_TOLERANCE_PIXEL; int boundRight = pixelPos + SELECT_TOLERANCE_PIXEL; return mousePosX >= boundLeft && mousePosX < boundRight; } void AdornedRulerPanel::OnMouseEvents(wxMouseEvent &evt) { // Disable mouse actions on Timeline while recording. if (mIsRecording) return; // Store the initial play region state if(mMouseEventState == mesNone) { mOldPlayRegionStart = mPlayRegionStart; mOldPlayRegionEnd = mPlayRegionEnd; mPlayRegionLock = mProject->IsPlayRegionLocked(); } // Keep Quick-Play within usable track area. TrackPanel *tp = mProject->GetTrackPanel(); int mousePosX, width; tp->GetTracksUsableArea(&width, NULL); mousePosX = std::max(evt.GetX(), tp->GetLeftOffset()); mousePosX = std::min(mousePosX, tp->GetLeftOffset() + width - 1); bool isWithinStart = IsWithinMarker(mousePosX, mOldPlayRegionStart); bool isWithinEnd = IsWithinMarker(mousePosX, mOldPlayRegionEnd); bool isWithinClick = (mLeftDownClick >= 0) && IsWithinMarker(mousePosX, mLeftDownClick); bool canDragSel = !mPlayRegionLock && mPlayRegionDragsSelection; double t0 = mTracks->GetStartTime(); double t1 = mTracks->GetEndTime(); double sel0 = mProject->GetSel0(); double sel1 = mProject->GetSel1(); mLastMouseX = mousePosX; mQuickPlayPos = Pos2Time(mousePosX); // If not looping, restrict selection to end of project if (!evt.ShiftDown()) { mQuickPlayPos = std::min(t1, mQuickPlayPos); } if (evt.Leaving()) { mQuickPlayInd = false; DrawQuickPlayIndicator(NULL); Refresh(); SetCursor(mCursorDefault); mIsWE = false; if (mSnapManager) { delete mSnapManager; mSnapManager = NULL; } } else if (mQuickPlayEnabled) { mQuickPlayInd = true; Refresh(); if (isWithinStart || isWithinEnd) { if (!mIsWE) { SetCursor(mCursorSizeWE); mIsWE = true; } } else { if (mIsWE) { SetCursor(mCursorHand); mIsWE = false; } } } else if (evt.Entering()) { SetCursor(mCursorHand); mQuickPlayInd = false; DrawQuickPlayIndicator(NULL); Refresh(); } if (evt.RightDown() && !(evt.LeftIsDown())) { ShowMenu(evt.GetPosition()); if (HasCapture()) ReleaseMouse(); } if (!mQuickPlayEnabled) return; HandleSnapping(); if (evt.LeftDown()) { // Temporarily unlock locked play region if (mPlayRegionLock && evt.LeftDown()) { //mPlayRegionLock = true; mProject->OnUnlockPlayRegion(); } mLeftDownClick = mQuickPlayPos; isWithinClick = IsWithinMarker(mousePosX, mLeftDownClick); if (isWithinStart || isWithinEnd) { // If Quick-Play is playing from a point, we need to treat it as a click // not as dragging. if (mOldPlayRegionStart == mOldPlayRegionEnd) mMouseEventState = mesSelectingPlayRegionClick; // otherwise check which marker is nearer else { // Don't compare times, compare positions. //if (fabs(mQuickPlayPos - mPlayRegionStart) < fabs(mQuickPlayPos - mPlayRegionEnd)) if (abs(Time2Pos(mQuickPlayPos) - Time2Pos(mPlayRegionStart)) < abs(Time2Pos(mQuickPlayPos) - Time2Pos(mPlayRegionEnd))) mMouseEventState = mesDraggingPlayRegionStart; else mMouseEventState = mesDraggingPlayRegionEnd; } } else { // Clicked but not yet dragging mMouseEventState = mesSelectingPlayRegionClick; } // Check if we are dragging BEFORE CaptureMouse. if (mMouseEventState != mesNone) SetCursor(mCursorSizeWE); CaptureMouse(); } if (evt.LeftIsDown()) { switch (mMouseEventState) { case mesNone: // If close to either end of play region, snap to closest if (isWithinStart || isWithinEnd) { if (fabs(mQuickPlayPos - mOldPlayRegionStart) < fabs(mQuickPlayPos - mOldPlayRegionEnd)) mQuickPlayPos = mOldPlayRegionStart; else mQuickPlayPos = mOldPlayRegionEnd; } break; case mesDraggingPlayRegionStart: // Don't start dragging until beyond tollerance initial playback start if (!mIsDragging && isWithinStart) mQuickPlayPos = mOldPlayRegionStart; else mIsDragging = true; // avoid accidental tiny selection if (isWithinEnd) mQuickPlayPos = mOldPlayRegionEnd; mPlayRegionStart = mQuickPlayPos; if (canDragSel) { DragSelection(); } break; case mesDraggingPlayRegionEnd: if (!mIsDragging && isWithinEnd) mQuickPlayPos = mOldPlayRegionEnd; else mIsDragging = true; if (isWithinStart) mQuickPlayPos = mOldPlayRegionStart; mPlayRegionEnd = mQuickPlayPos; if (canDragSel) { DragSelection(); } break; case mesSelectingPlayRegionClick: // Don't start dragging until mouse is beyond tollerance of initial click. if (isWithinClick || mLeftDownClick == -1) { mQuickPlayPos = mLeftDownClick; mPlayRegionStart = mLeftDownClick; mPlayRegionEnd = mLeftDownClick; } else { mMouseEventState = mesSelectingPlayRegionRange; } break; case mesSelectingPlayRegionRange: if (isWithinClick) { mQuickPlayPos = mLeftDownClick; } if (mQuickPlayPos < mLeftDownClick) { mPlayRegionStart = mQuickPlayPos; mPlayRegionEnd = mLeftDownClick; } else { mPlayRegionEnd = mQuickPlayPos; mPlayRegionStart = mLeftDownClick; } if (canDragSel) { DragSelection(); } break; } } if (evt.LeftUp()) { mQuickPlayInd = false; DrawQuickPlayIndicator(NULL); if (HasCapture()) ReleaseMouse(); if (mPlayRegionEnd < mPlayRegionStart) { // Swap values to ensure mPlayRegionStart < mPlayRegionEnd double tmp = mPlayRegionStart; mPlayRegionStart = mPlayRegionEnd; mPlayRegionEnd = tmp; } // We want some audio in the selection, but we allow a dragged // region to include selected white-space and space before audio start. if (evt.ShiftDown() && (mPlayRegionStart == mPlayRegionEnd)) { // Looping the selection or project. // Disable if track selection is in white-space beyond end of tracks and // play position is outside of track contents. if (((sel1 < t0) || (sel0 > t1)) && ((mPlayRegionStart < t0) || (mPlayRegionStart > t1))) { ClearPlayRegion(); } } // Disable if beyond end. else if (mPlayRegionStart >= t1) { ClearPlayRegion(); } // Disable if empty selection before start. // (allow Quick-Play region to include 'pre-roll' white space) else if (((mPlayRegionEnd - mPlayRegionStart) > 0.0) && (mPlayRegionEnd < t0)) { ClearPlayRegion(); } // Start / Restart playback on left click. bool startPlaying = (mPlayRegionStart >= 0); if (startPlaying) { ControlToolBar* ctb = mProject->GetControlToolBar(); ctb->StopPlaying(); bool loopEnabled = true; double start, end; if ((mPlayRegionEnd - mPlayRegionStart == 0.0) && evt.ShiftDown()) { // Loop play a point will loop either a selection or the project. if ((mPlayRegionStart > sel0) && (mPlayRegionStart < sel1)) { // we are in a selection, so use the selection start = sel0; end = sel1; } // not in a selection, so use the project else { start = t0; end = t1; } } else { start = mPlayRegionStart; end = mPlayRegionEnd; } // Looping a tiny selection may freeze, so just play it once. loopEnabled = ((end - start) > 0.001)? true : false; AudioIOStartStreamOptions options(mProject->GetDefaultPlayOptions()); options.playLooped = (loopEnabled && evt.ShiftDown()); if (!evt.ControlDown()) options.pStartTime = &mPlayRegionStart; else options.timeTrack = NULL; ctb->PlayPlayRegion((SelectedRegion(start, end)), options, evt.ControlDown(), false, true); mPlayRegionStart = start; mPlayRegionEnd = end; Refresh(); } mMouseEventState = mesNone; mIsDragging = false; mLeftDownClick = -1; if (mPlayRegionLock) { // Restore Locked Play region SetPlayRegion(mOldPlayRegionStart, mOldPlayRegionEnd); mProject->OnLockPlayRegion(); // and release local lock mPlayRegionLock = false; } } } void AdornedRulerPanel::OnCaptureLost(wxMouseCaptureLostEvent & WXUNUSED(evt)) { DrawQuickPlayIndicator(NULL); wxMouseEvent e(wxEVT_LEFT_UP); e.m_x = mLastMouseX; OnMouseEvents(e); } // Pop-up menu void AdornedRulerPanel::ShowMenu(const wxPoint & pos) { wxMenu *rulerMenu = new wxMenu(); if (mQuickPlayEnabled) rulerMenu->Append(OnToggleQuickPlayID, _("Disable Quick-Play")); else rulerMenu->Append(OnToggleQuickPlayID, _("Enable Quick-Play")); wxMenuItem *dragitem; if (mPlayRegionDragsSelection && !mProject->IsPlayRegionLocked()) dragitem = rulerMenu->Append(OnSyncQuickPlaySelID, _("Disable dragging selection")); else dragitem = rulerMenu->Append(OnSyncQuickPlaySelID, _("Enable dragging selection")); dragitem->Enable(mQuickPlayEnabled && !mProject->IsPlayRegionLocked()); #if wxUSE_TOOLTIPS if (mTimelineToolTip) rulerMenu->Append(OnTimelineToolTipID, _("Disable Timeline Tooltips")); else rulerMenu->Append(OnTimelineToolTipID, _("Enable Timeline Tooltips")); #endif if (mViewInfo->bUpdateTrackIndicator) rulerMenu->Append(OnAutoScrollID, _("Do not scroll while playing")); else rulerMenu->Append(OnAutoScrollID, _("Update display while playing")); wxMenuItem *prlitem; if (!mProject->IsPlayRegionLocked()) prlitem = rulerMenu->Append(OnLockPlayRegionID, _("Lock Play Region")); else prlitem = rulerMenu->Append(OnLockPlayRegionID, _("Unlock Play Region")); prlitem->Enable(mProject->IsPlayRegionLocked() || (mPlayRegionStart != mPlayRegionEnd)); PopupMenu(rulerMenu, pos); delete rulerMenu; // dismiss and clear Quick-Play indicator mQuickPlayInd = false; DrawQuickPlayIndicator(NULL); } void AdornedRulerPanel::OnToggleQuickPlay(wxCommandEvent&) { mQuickPlayEnabled = (mQuickPlayEnabled)? false : true; gPrefs->Write(wxT("/QuickPlay/QuickPlayEnabled"), mQuickPlayEnabled); gPrefs->Flush(); RegenerateTooltips(); } void AdornedRulerPanel::OnSyncSelToQuickPlay(wxCommandEvent&) { mPlayRegionDragsSelection = (mPlayRegionDragsSelection)? false : true; gPrefs->Write(wxT("/QuickPlay/DragSelection"), mPlayRegionDragsSelection); gPrefs->Flush(); } void AdornedRulerPanel::DragSelection() { if (mPlayRegionStart < mPlayRegionEnd) { mProject->SetSel0(mPlayRegionStart); mProject->SetSel1(mPlayRegionEnd); } else { mProject->SetSel0(mPlayRegionEnd); mProject->SetSel1(mPlayRegionStart); } mProject->GetTrackPanel()->DisplaySelection(); mProject->GetTrackPanel()->Refresh(false); } void AdornedRulerPanel::HandleSnapping() { if (!mSnapManager) { mSnapManager = new SnapManager(mTracks, mViewInfo); } bool snappedPoint, snappedTime; mIsSnapped = mSnapManager->Snap(NULL, mQuickPlayPos, false, &mQuickPlayPos, &snappedPoint, &snappedTime); } void AdornedRulerPanel::OnTimelineToolTips(wxCommandEvent&) { mTimelineToolTip = (mTimelineToolTip)? false : true; gPrefs->Write(wxT("/QuickPlay/ToolTips"), mTimelineToolTip); gPrefs->Flush(); #if wxUSE_TOOLTIPS RegenerateTooltips(); #endif } void AdornedRulerPanel::OnAutoScroll(wxCommandEvent&) { if (mViewInfo->bUpdateTrackIndicator) gPrefs->Write(wxT("/GUI/AutoScroll"), false); else gPrefs->Write(wxT("/GUI/AutoScroll"), true); mProject->UpdatePrefs(); gPrefs->Flush(); } void AdornedRulerPanel::OnLockPlayRegion(wxCommandEvent&) { if (mProject->IsPlayRegionLocked()) mProject->OnUnlockPlayRegion(); else mProject->OnLockPlayRegion(); } // Draws the horizontal <===> void AdornedRulerPanel::DoDrawPlayRegion(wxDC * dc) { double start, end; GetPlayRegion(&start, &end); if (start >= 0) { int x1 = Time2Pos(start) + 1; int x2 = Time2Pos(end); int y = mInner.height/2; bool isLocked = mProject->IsPlayRegionLocked(); AColor::PlayRegionColor(dc, isLocked); wxPoint tri[3]; wxRect r; tri[0].x = x1; tri[0].y = y + PLAY_REGION_GLOBAL_OFFSET_Y; tri[1].x = x1 + PLAY_REGION_TRIANGLE_SIZE; tri[1].y = y - PLAY_REGION_TRIANGLE_SIZE + PLAY_REGION_GLOBAL_OFFSET_Y; tri[2].x = x1 + PLAY_REGION_TRIANGLE_SIZE; tri[2].y = y + PLAY_REGION_TRIANGLE_SIZE + PLAY_REGION_GLOBAL_OFFSET_Y; dc->DrawPolygon(3, tri); r.x = x1; r.y = y - PLAY_REGION_TRIANGLE_SIZE + PLAY_REGION_GLOBAL_OFFSET_Y; r.width = PLAY_REGION_RECT_WIDTH; r.height = PLAY_REGION_TRIANGLE_SIZE*2 + 1; dc->DrawRectangle(r); if (end != start) { tri[0].x = x2; tri[0].y = y + PLAY_REGION_GLOBAL_OFFSET_Y; tri[1].x = x2 - PLAY_REGION_TRIANGLE_SIZE; tri[1].y = y - PLAY_REGION_TRIANGLE_SIZE + PLAY_REGION_GLOBAL_OFFSET_Y; tri[2].x = x2 - PLAY_REGION_TRIANGLE_SIZE; tri[2].y = y + PLAY_REGION_TRIANGLE_SIZE + PLAY_REGION_GLOBAL_OFFSET_Y; dc->DrawPolygon(3, tri); r.x = x2 - PLAY_REGION_RECT_WIDTH + 1; r.y = y - PLAY_REGION_TRIANGLE_SIZE + PLAY_REGION_GLOBAL_OFFSET_Y; r.width = PLAY_REGION_RECT_WIDTH; r.height = PLAY_REGION_TRIANGLE_SIZE*2 + 1; dc->DrawRectangle(r); r.x = x1 + PLAY_REGION_TRIANGLE_SIZE; r.y = y - PLAY_REGION_RECT_HEIGHT/2 + PLAY_REGION_GLOBAL_OFFSET_Y; r.width = x2-x1 - PLAY_REGION_TRIANGLE_SIZE*2; r.height = PLAY_REGION_RECT_HEIGHT; dc->DrawRectangle(r); } } } void AdornedRulerPanel::DoDrawBorder(wxDC * dc) { // Draw AdornedRulerPanel border AColor::MediumTrackInfo( dc, false ); dc->DrawRectangle( mInner ); wxRect r = mOuter; r.width -= 1; // -1 for bevel r.height -= 2; // -2 for bevel and for bottom line AColor::BevelTrackInfo( *dc, true, r ); dc->SetPen( *wxBLACK_PEN ); dc->DrawLine( mOuter.x, mOuter.y + mOuter.height - 1, mOuter.x + mOuter.width, mOuter.y + mOuter.height - 1 ); } void AdornedRulerPanel::DoDrawMarks(wxDC * dc, bool /*text */ ) { const double min = Pos2Time(0); const double hiddenMin = Pos2Time(0, true); const double max = Pos2Time(mInner.width); const double hiddenMax = Pos2Time(mInner.width, true); mRuler.SetTickColour( theTheme.Colour( clrTrackPanelText ) ); mRuler.SetRange( min, max, hiddenMin, hiddenMax ); mRuler.Draw( *dc ); } void AdornedRulerPanel::DrawSelection() { Refresh(); } void AdornedRulerPanel::DoDrawSelection(wxDC * dc) { // Draw selection const int p0 = 1 + max(0, Time2Pos(mViewInfo->selectedRegion.t0())); const int p1 = 2 + min(mInner.width, Time2Pos(mViewInfo->selectedRegion.t1())); dc->SetBrush( wxBrush( theTheme.Colour( clrRulerBackground )) ); dc->SetPen( wxPen( theTheme.Colour( clrRulerBackground )) ); wxRect r; r.x = p0; r.y = 1; r.width = p1 - p0 - 1; r.height = mInner.height; dc->DrawRectangle( r ); } void AdornedRulerPanel::SetLeftOffset(int offset) { mLeftOffset = offset; mRuler.SetUseZoomInfo(offset); } void AdornedRulerPanel::DrawCursor(double time) { mCurTime = time; Refresh(); } void AdornedRulerPanel::DoDrawCursor(wxDC * dc) { const int x = Time2Pos(mCurTime); // Draw cursor in ruler dc->DrawLine( x, 1, x, mInner.height ); } // //This draws the little triangular indicator on the //AdornedRulerPanel. // void AdornedRulerPanel::ClearIndicator() { mIndType = -1; Refresh(); } void AdornedRulerPanel::DrawIndicator( double time, bool rec ) { mIndTime = time; if (mIndTime < 0) { ClearIndicator(); return; } mIndType = ( rec ? 0 : 1 ); Refresh(); } // Draws the play/recording position indicator. void AdornedRulerPanel::DoDrawIndicator(wxDC * dc) { int indsize = 6; const int x = Time2Pos(mIndTime); wxPoint tri[ 3 ]; tri[ 0 ].x = x - indsize; tri[ 0 ].y = 1; tri[ 1 ].x = x + indsize; tri[ 1 ].y = 1; tri[ 2 ].x = x; tri[ 2 ].y = ( indsize * 3 ) / 2 + 1; AColor::IndicatorColor( dc, ( mIndType ? true : false ) ); dc->DrawPolygon( 3, tri ); } // Draws the vertical line and green triangle indicating the Quick Play cursor position. void AdornedRulerPanel::DrawQuickPlayIndicator(wxDC * dc) { TrackPanel *tp = mProject->GetTrackPanel(); double latestEnd = std::max(mTracks->GetEndTime(), mProject->GetSel1()); if (dc == NULL || (mQuickPlayPos >= latestEnd)) { tp->DrawQuickPlayIndicator(-1); return; } int indsize = 4; int x = Time2Pos(mQuickPlayPos); wxPoint tri[3]; tri[0].x = -indsize; tri[0].y = 1; tri[1].x = indsize; tri[1].y = 1; tri[2].x = 0; tri[2].y = ( indsize * 3 ) / 2 + 1; AColor::IndicatorColor( dc, true); dc->DrawPolygon( 3, tri, x ); tp->DrawQuickPlayIndicator(x, mIsSnapped); } void AdornedRulerPanel::SetPlayRegion(double playRegionStart, double playRegionEnd) { // This is called by AudacityProject to make the play region follow // the current selection. But while the user is selecting a play region // with the mouse directly in the ruler, changes from outside are blocked. if (mMouseEventState != mesNone) return; mPlayRegionStart = playRegionStart; mPlayRegionEnd = playRegionEnd; // Must use Refresh() Refresh(); } void AdornedRulerPanel::ClearPlayRegion() { ControlToolBar* ctb = mProject->GetControlToolBar(); ctb->StopPlaying(); mPlayRegionStart = -1; mPlayRegionEnd = -1; mQuickPlayInd = false; // Must use Refresh() Refresh(); } void AdornedRulerPanel::GetPlayRegion(double* playRegionStart, double* playRegionEnd) { if (mPlayRegionStart >= 0 && mPlayRegionEnd >= 0 && mPlayRegionEnd < mPlayRegionStart) { // swap values to make sure end > start *playRegionStart = mPlayRegionEnd; *playRegionEnd = mPlayRegionStart; } else { *playRegionStart = mPlayRegionStart; *playRegionEnd = mPlayRegionEnd; } } void AdornedRulerPanel::GetMaxSize(wxCoord *width, wxCoord *height) { mRuler.GetMaxSize(width, height); }