// @(#)root/x11:$Id: TGX11.cxx 28464 2009-05-06 12:37:21Z brun $ // Author: Rene Brun, Olivier Couet, Fons Rademakers 28/11/94 /************************************************************************* * Copyright (C) 1995-2000, Rene Brun and Fons Rademakers. * * All rights reserved. * * * * For the licensing terms see $ROOTSYS/LICENSE. * * For the list of contributors see $ROOTSYS/README/CREDITS. * *************************************************************************/ ////////////////////////////////////////////////////////////////////////// // // // TGX11 // // // // This class is the basic interface to the X11 graphics system. It is // // an implementation of the abstract TVirtualX class. The companion // // class for Win32 is TGWin32. // // // // This code was initially developed in the context of HIGZ and PAW // // by Olivier Couet (package X11INT). // // // ////////////////////////////////////////////////////////////////////////// #include "TROOT.h" #include "TColor.h" #include "TGX11.h" #include "TPoint.h" #include "TMath.h" #include "TStorage.h" #include "TStyle.h" #include "TExMap.h" #include "TEnv.h" #include "TString.h" #include "TObjString.h" #include "TObjArray.h" #include "RStipples.h" #include <stdio.h> #include <string.h> #include <stdlib.h> #include <ctype.h> #include <unistd.h> #ifdef R__AIX # include <sys/socket.h> #endif extern float XRotVersion(char*, int); extern void XRotSetMagnification(float); extern void XRotSetBoundingBoxPad(int); extern int XRotDrawString(Display*, XFontStruct*, float, Drawable, GC, int, int, char*); extern int XRotDrawImageString(Display*, XFontStruct*, float, Drawable, GC, int, int, char*); extern int XRotDrawAlignedString(Display*, XFontStruct*, float, Drawable, GC, int, int, char*, int); extern int XRotDrawAlignedImageString(Display*, XFontStruct*, float, Drawable, GC, int, int, char*, int); extern XPoint *XRotTextExtents(Display*, XFontStruct*, float, int, int, char*, int); //---- globals static XWindow_t *gCws; // gCws: pointer to the current window static XWindow_t *gTws; // gTws: temporary pointer const Int_t kBIGGEST_RGB_VALUE = 65535; // // Primitives Graphic Contexts global for all windows // const int kMAXGC = 7; static GC gGClist[kMAXGC]; static GC *gGCline = &gGClist[0]; // PolyLines static GC *gGCmark = &gGClist[1]; // PolyMarker static GC *gGCfill = &gGClist[2]; // Fill areas static GC *gGCtext = &gGClist[3]; // Text static GC *gGCinvt = &gGClist[4]; // Inverse text static GC *gGCdash = &gGClist[5]; // Dashed lines static GC *gGCpxmp = &gGClist[6]; // Pixmap management static GC gGCecho; // Input echo static Int_t gFillHollow; // Flag if fill style is hollow static Pixmap gFillPattern = 0; // Fill pattern // // Text management // const Int_t kMAXFONT = 4; static struct { XFontStruct *id; char name[80]; // Font name } gFont[kMAXFONT]; // List of fonts loaded static XFontStruct *gTextFont; // Current font static Int_t gCurrentFontNumber = 0; // Current font number in gFont[] // // Markers // const Int_t kMAXMK = 100; static struct { int type; int n; XPoint xy[kMAXMK]; } gMarker; // Point list to draw marker // // Keep style values for line GC // static int gLineWidth = 0; static int gLineStyle = LineSolid; static int gCapStyle = CapButt; static int gJoinStyle = JoinMiter; static char gDashList[10]; static int gDashLength = 0; static int gDashOffset = 0; static int gDashSize = 0; // // Event masks // static ULong_t gMouseMask = ButtonPressMask | ButtonReleaseMask | EnterWindowMask | LeaveWindowMask | PointerMotionMask | KeyPressMask | KeyReleaseMask; static ULong_t gKeybdMask = ButtonPressMask | KeyPressMask | EnterWindowMask | LeaveWindowMask; // // Data to create an invisible cursor // const char null_cursor_bits[] = { 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00}; static Cursor gNullCursor = 0; ClassImp(TGX11) //______________________________________________________________________________ TGX11::TGX11() { // Default constructor. fDisplay = 0; fScreenNumber = 0; fVisual = 0; fRootWin = 0; fVisRootWin = 0; fColormap = 0; fBlackPixel = 0; fWhitePixel = 0; fWindows = 0; fColors = 0; fXEvent = new XEvent; } //______________________________________________________________________________ TGX11::TGX11(const char *name, const char *title) : TVirtualX(name, title) { // Normal Constructor. fDisplay = 0; fScreenNumber = 0; fVisual = 0; fRootWin = 0; fVisRootWin = 0; fColormap = 0; fBlackPixel = 0; fWhitePixel = 0; fHasTTFonts = kFALSE; fTextAlignH = 1; fTextAlignV = 1; fTextAlign = 7; fTextMagnitude = 1; fCharacterUpX = 1; fCharacterUpY = 1; fDrawMode = kCopy; fXEvent = new XEvent; fMaxNumberOfWindows = 10; //fWindows = new XWindow_t[fMaxNumberOfWindows]; fWindows = (XWindow_t*) TStorage::Alloc(fMaxNumberOfWindows*sizeof(XWindow_t)); for (int i = 0; i < fMaxNumberOfWindows; i++) fWindows[i].fOpen = 0; fColors = new TExMap; } //______________________________________________________________________________ TGX11::TGX11(const TGX11 &org) : TVirtualX(org) { // Copy constructor. Currently only used by TGX11TTF. int i; fDisplay = org.fDisplay; fScreenNumber = org.fScreenNumber; fVisual = org.fVisual; fRootWin = org.fRootWin; fVisRootWin = org.fVisRootWin; fColormap = org.fColormap; fBlackPixel = org.fBlackPixel; fWhitePixel = org.fWhitePixel; fHasTTFonts = org.fHasTTFonts; fTextAlignH = org.fTextAlignH; fTextAlignV = org.fTextAlignV; fTextAlign = org.fTextAlign; fTextMagnitude = org.fTextMagnitude; fCharacterUpX = org.fCharacterUpX; fCharacterUpY = org.fCharacterUpY; fDepth = org.fDepth; fRedDiv = org.fRedDiv; fGreenDiv = org.fGreenDiv; fBlueDiv = org.fBlueDiv; fRedShift = org.fRedShift; fGreenShift = org.fGreenShift; fBlueShift = org.fBlueShift; fDrawMode = org.fDrawMode; fXEvent = new XEvent; fMaxNumberOfWindows = org.fMaxNumberOfWindows; //fWindows = new XWindow_t[fMaxNumberOfWindows]; fWindows = (XWindow_t*) TStorage::Alloc(fMaxNumberOfWindows*sizeof(XWindow_t)); for (i = 0; i < fMaxNumberOfWindows; i++) { fWindows[i].fOpen = org.fWindows[i].fOpen; fWindows[i].fDoubleBuffer = org.fWindows[i].fDoubleBuffer; fWindows[i].fIsPixmap = org.fWindows[i].fIsPixmap; fWindows[i].fDrawing = org.fWindows[i].fDrawing; fWindows[i].fWindow = org.fWindows[i].fWindow; fWindows[i].fBuffer = org.fWindows[i].fBuffer; fWindows[i].fWidth = org.fWindows[i].fWidth; fWindows[i].fHeight = org.fWindows[i].fHeight; fWindows[i].fClip = org.fWindows[i].fClip; fWindows[i].fXclip = org.fWindows[i].fXclip; fWindows[i].fYclip = org.fWindows[i].fYclip; fWindows[i].fWclip = org.fWindows[i].fWclip; fWindows[i].fHclip = org.fWindows[i].fHclip; fWindows[i].fNewColors = org.fWindows[i].fNewColors; fWindows[i].fNcolors = org.fWindows[i].fNcolors; fWindows[i].fShared = org.fWindows[i].fShared; } for (i = 0; i < kNumCursors; i++) fCursors[i] = org.fCursors[i]; fColors = new TExMap; Long_t key, value; TExMapIter it(org.fColors); while (it.Next(key, value)) { XColor_t *colo = (XColor_t *) value; XColor_t *col = new XColor_t; col->fPixel = colo->fPixel; col->fRed = colo->fRed; col->fGreen = colo->fGreen; col->fBlue = colo->fBlue; col->fDefined = colo->fDefined; fColors->Add(key, (Long_t) col); } } //______________________________________________________________________________ TGX11::~TGX11() { // Destructor. delete fXEvent; if (fWindows) TStorage::Dealloc(fWindows); if (!fColors) return; Long_t key, value; TExMapIter it(fColors); while (it.Next(key, value)) { XColor_t *col = (XColor_t *) value; delete col; } delete fColors; } //______________________________________________________________________________ Bool_t TGX11::Init(void *display) { // Initialize X11 system. Returns kFALSE in case of failure. if (OpenDisplay((Display *) display) == -1) return kFALSE; return kTRUE; } //______________________________________________________________________________ Bool_t TGX11::AllocColor(Colormap cmap, XColor *color) { // Allocate color in colormap. If we are on an <= 8 plane machine // we will use XAllocColor. If we are on a >= 15 (15, 16 or 24) plane // true color machine we will calculate the pixel value using: // for 15 and 16 bit true colors have 6 bits precision per color however // only the 5 most significant bits are used in the color index. // Except for 16 bits where green uses all 6 bits. I.e.: // 15 bits = rrrrrgggggbbbbb // 16 bits = rrrrrggggggbbbbb // for 24 bits each r, g and b are represented by 8 bits. // // Since all colors are set with a max of 65535 (16 bits) per r, g, b // we just right shift them by 10, 11 and 10 bits for 16 planes, and // (10, 10, 10 for 15 planes) and by 8 bits for 24 planes. // Returns kFALSE in case color allocation failed. if (fRedDiv == -1) { if (XAllocColor(fDisplay, cmap, color)) return kTRUE; } else { color->pixel = (color->red >> fRedDiv) << fRedShift | (color->green >> fGreenDiv) << fGreenShift | (color->blue >> fBlueDiv) << fBlueShift; return kTRUE; } return kFALSE; } //______________________________________________________________________________ void TGX11::QueryColors(Colormap cmap, XColor *color, Int_t ncolors) { // Returns the current RGB value for the pixel in the XColor structure. if (fRedDiv == -1) { XQueryColors(fDisplay, cmap, color, ncolors); } else { ULong_t r, g, b; for (Int_t i = 0; i < ncolors; i++) { r = (color[i].pixel & fVisual->red_mask) >> fRedShift; color[i].red = UShort_t(r*kBIGGEST_RGB_VALUE/(fVisual->red_mask >> fRedShift)); g = (color[i].pixel & fVisual->green_mask) >> fGreenShift; color[i].green = UShort_t(g*kBIGGEST_RGB_VALUE/(fVisual->green_mask >> fGreenShift)); b = (color[i].pixel & fVisual->blue_mask) >> fBlueShift; color[i].blue = UShort_t(b*kBIGGEST_RGB_VALUE/(fVisual->blue_mask >> fBlueShift)); color[i].flags = DoRed | DoGreen | DoBlue; } } } //______________________________________________________________________________ void TGX11::ClearPixmap(Drawable *pix) { // Clear the pixmap pix. Window root; int xx, yy; unsigned int ww, hh, border, depth; XGetGeometry(fDisplay, *pix, &root, &xx, &yy, &ww, &hh, &border, &depth); SetColor(*gGCpxmp, 0); XFillRectangle(fDisplay, *pix, *gGCpxmp, 0 ,0 ,ww ,hh); SetColor(*gGCpxmp, 1); XFlush(fDisplay); } //______________________________________________________________________________ void TGX11::ClearWindow() { // Clear current window. if (!gCws->fIsPixmap && !gCws->fDoubleBuffer) { XSetWindowBackground(fDisplay, gCws->fDrawing, GetColor(0).fPixel); XClearWindow(fDisplay, gCws->fDrawing); XFlush(fDisplay); } else { SetColor(*gGCpxmp, 0); XFillRectangle(fDisplay, gCws->fDrawing, *gGCpxmp, 0, 0, gCws->fWidth, gCws->fHeight); SetColor(*gGCpxmp, 1); } } //______________________________________________________________________________ void TGX11::ClosePixmap() { // Delete current pixmap. CloseWindow1(); } //______________________________________________________________________________ void TGX11::CloseWindow() { // Delete current window. if (gCws->fShared) gCws->fOpen = 0; else CloseWindow1(); // Never close connection. TApplication takes care of that // if (!gCws) Close(); // close X when no open window left } //______________________________________________________________________________ void TGX11::CloseWindow1() { // Delete current window. int wid; if (gCws->fIsPixmap) XFreePixmap(fDisplay, gCws->fWindow); else XDestroyWindow(fDisplay, gCws->fWindow); if (gCws->fBuffer) XFreePixmap(fDisplay, gCws->fBuffer); if (gCws->fNewColors) { if (fRedDiv == -1) XFreeColors(fDisplay, fColormap, gCws->fNewColors, gCws->fNcolors, 0); delete [] gCws->fNewColors; gCws->fNewColors = 0; } XFlush(fDisplay); gCws->fOpen = 0; // make first window in list the current window for (wid = 0; wid < fMaxNumberOfWindows; wid++) if (fWindows[wid].fOpen) { gCws = &fWindows[wid]; return; } gCws = 0; } //______________________________________________________________________________ void TGX11::CopyPixmap(int wid, int xpos, int ypos) { // Copy the pixmap wid at the position xpos, ypos in the current window. gTws = &fWindows[wid]; XCopyArea(fDisplay, gTws->fDrawing, gCws->fDrawing, *gGCpxmp, 0, 0, gTws->fWidth, gTws->fHeight, xpos, ypos); XFlush(fDisplay); } //______________________________________________________________________________ void TGX11::CopyWindowtoPixmap(Drawable *pix, int xpos, int ypos ) { // Copy area of current window in the pixmap pix. Window root; int xx, yy; unsigned int ww, hh, border, depth; XGetGeometry(fDisplay, *pix, &root, &xx, &yy, &ww, &hh, &border, &depth); XCopyArea(fDisplay, gCws->fDrawing, *pix, *gGCpxmp, xpos, ypos, ww, hh, 0, 0); XFlush(fDisplay); } //______________________________________________________________________________ void TGX11::DrawBox(int x1, int y1, int x2, int y2, EBoxMode mode) { // Draw a box. // mode=0 hollow (kHollow) // mode=1 solid (kSolid) Int_t x = TMath::Min(x1, x2); Int_t y = TMath::Min(y1, y2); Int_t w = TMath::Abs(x2 - x1); Int_t h = TMath::Abs(y2 - y1); switch (mode) { case kHollow: XDrawRectangle(fDisplay, gCws->fDrawing, *gGCline, x, y, w, h); break; case kFilled: XFillRectangle(fDisplay, gCws->fDrawing, *gGCfill, x, y, w, h); break; default: break; } } //______________________________________________________________________________ void TGX11::DrawCellArray(int x1, int y1, int x2, int y2, int nx, int ny, int *ic) { // Draw a cell array. // x1,y1 : left down corner // x2,y2 : right up corner // nx,ny : array size // ic : array // // Draw a cell array. The drawing is done with the pixel presicion // if (X2-X1)/NX (or Y) is not a exact pixel number the position of // the top rigth corner may be wrong. int i, j, icol, ix, iy, w, h, current_icol; current_icol = -1; w = TMath::Max((x2-x1)/(nx),1); h = TMath::Max((y1-y2)/(ny),1); ix = x1; for (i = 0; i < nx; i++) { iy = y1-h; for (j = 0; j < ny; j++) { icol = ic[i+(nx*j)]; if (icol != current_icol) { XSetForeground(fDisplay, *gGCfill, GetColor(icol).fPixel); current_icol = icol; } XFillRectangle(fDisplay, gCws->fDrawing, *gGCfill, ix, iy, w, h); iy = iy-h; } ix = ix+w; } } //______________________________________________________________________________ void TGX11::DrawFillArea(int n, TPoint *xyt) { // Fill area described by polygon. // n : number of points // xy(2,n) : list of points XPoint *xy = (XPoint*)xyt; if (gFillHollow) XDrawLines(fDisplay, gCws->fDrawing, *gGCfill, xy, n, CoordModeOrigin); else { XFillPolygon(fDisplay, gCws->fDrawing, *gGCfill, xy, n, Nonconvex, CoordModeOrigin); } } //______________________________________________________________________________ void TGX11::DrawLine(int x1, int y1, int x2, int y2) { // Draw a line. // x1,y1 : begin of line // x2,y2 : end of line if (gLineStyle == LineSolid) XDrawLine(fDisplay, gCws->fDrawing, *gGCline, x1, y1, x2, y2); else { XSetDashes(fDisplay, *gGCdash, gDashOffset, gDashList, gDashSize); XDrawLine(fDisplay, gCws->fDrawing, *gGCdash, x1, y1, x2, y2); } } //______________________________________________________________________________ void TGX11::DrawPolyLine(int n, TPoint *xyt) { // Draw a line through all points. // n : number of points // xy : list of points XPoint *xy = (XPoint*)xyt; const Int_t kMaxPoints = 1000001; if (n > kMaxPoints) { int ibeg = 0; int iend = kMaxPoints - 1; while (iend < n) { DrawPolyLine( kMaxPoints, &xyt[ibeg] ); ibeg = iend; iend += kMaxPoints - 1; } if (ibeg < n) { int npt = n - ibeg; DrawPolyLine( npt, &xyt[ibeg] ); } } else if (n > 1) { if (gLineStyle == LineSolid) XDrawLines(fDisplay, gCws->fDrawing, *gGCline, xy, n, CoordModeOrigin); else { int i; XSetDashes(fDisplay, *gGCdash, gDashOffset, gDashList, gDashSize); XDrawLines(fDisplay, gCws->fDrawing, *gGCdash, xy, n, CoordModeOrigin); // calculate length of line to update dash offset for (i = 1; i < n; i++) { int dx = xy[i].x - xy[i-1].x; int dy = xy[i].y - xy[i-1].y; if (dx < 0) dx = - dx; if (dy < 0) dy = - dy; gDashOffset += dx > dy ? dx : dy; } gDashOffset %= gDashLength; } } else { int px,py; px=xy[0].x; py=xy[0].y; XDrawPoint(fDisplay, gCws->fDrawing, gLineStyle == LineSolid ? *gGCline : *gGCdash, px, py); } } //______________________________________________________________________________ void TGX11::DrawPolyMarker(int n, TPoint *xyt) { // Draw n markers with the current attributes at position x, y. // n : number of markers to draw // xy : x,y coordinates of markers XPoint *xy = (XPoint*)xyt; if (gMarker.n <= 0) { const int kNMAX = 1000000; int nt = n/kNMAX; for (int it=0;it<=nt;it++) { if (it < nt) { XDrawPoints(fDisplay, gCws->fDrawing, *gGCmark, &xy[it*kNMAX], kNMAX, CoordModeOrigin); } else { XDrawPoints(fDisplay, gCws->fDrawing, *gGCmark, &xy[it*kNMAX], n-it*kNMAX, CoordModeOrigin); } } } else { int r = gMarker.n / 2; int m; for (m = 0; m < n; m++) { int hollow = 0; switch (gMarker.type) { int i; case 0: // hollow circle XDrawArc(fDisplay, gCws->fDrawing, *gGCmark, xy[m].x - r, xy[m].y - r, gMarker.n, gMarker.n, 0, 360*64); break; case 1: // filled circle XFillArc(fDisplay, gCws->fDrawing, *gGCmark, xy[m].x - r, xy[m].y - r, gMarker.n, gMarker.n, 0, 360*64); break; case 2: // hollow polygon hollow = 1; case 3: // filled polygon for (i = 0; i < gMarker.n; i++) { gMarker.xy[i].x += xy[m].x; gMarker.xy[i].y += xy[m].y; } if (hollow) XDrawLines(fDisplay, gCws->fDrawing, *gGCmark, gMarker.xy, gMarker.n, CoordModeOrigin); else XFillPolygon(fDisplay, gCws->fDrawing, *gGCmark, gMarker.xy, gMarker.n, Nonconvex, CoordModeOrigin); for (i = 0; i < gMarker.n; i++) { gMarker.xy[i].x -= xy[m].x; gMarker.xy[i].y -= xy[m].y; } break; case 4: // segmented line for (i = 0; i < gMarker.n; i += 2) XDrawLine(fDisplay, gCws->fDrawing, *gGCmark, xy[m].x + gMarker.xy[i].x, xy[m].y + gMarker.xy[i].y, xy[m].x + gMarker.xy[i+1].x, xy[m].y + gMarker.xy[i+1].y); break; } } } } //______________________________________________________________________________ void TGX11::DrawText(int x, int y, float angle, float mgn, const char *text, ETextMode mode) { // Draw a text string using current font. // mode : drawing mode // mode=0 : the background is not drawn (kClear) // mode=1 : the background is drawn (kOpaque) // x,y : text position // angle : text angle // mgn : magnification factor // text : text string XRotSetMagnification(mgn); if (!text) return; switch (mode) { case kClear: XRotDrawAlignedString(fDisplay, gTextFont, angle, gCws->fDrawing, *gGCtext, x, y, (char*)text, fTextAlign); break; case kOpaque: XRotDrawAlignedImageString(fDisplay, gTextFont, angle, gCws->fDrawing, *gGCtext, x, y, (char*)text, fTextAlign); break; default: break; } } //______________________________________________________________________________ void TGX11::FindBestVisual() { // Find best visual, i.e. the one with the most planes and TrueColor or // DirectColor. Sets fVisual, fDepth, fRootWin, fColormap, fBlackPixel // and fWhitePixel. Int_t findvis = gEnv->GetValue("X11.FindBestVisual", 1); Visual *vis = DefaultVisual(fDisplay, fScreenNumber); if (((vis->c_class != TrueColor && vis->c_class != DirectColor) || DefaultDepth(fDisplay, fScreenNumber) < 15) && findvis) { // try to find better visual static XVisualInfo templates[] = { // Visual, visualid, screen, depth, class , red_mask, green_mask, blue_mask, colormap_size, bits_per_rgb { 0 , 0 , 0 , 24 , TrueColor , 0 , 0 , 0 , 0 , 0 }, { 0 , 0 , 0 , 32 , TrueColor , 0 , 0 , 0 , 0 , 0 }, { 0 , 0 , 0 , 16 , TrueColor , 0 , 0 , 0 , 0 , 0 }, { 0 , 0 , 0 , 15 , TrueColor , 0 , 0 , 0 , 0 , 0 }, // no suitable TrueColorMode found - now do the same thing to DirectColor { 0 , 0 , 0 , 24 , DirectColor, 0 , 0 , 0 , 0 , 0 }, { 0 , 0 , 0 , 32 , DirectColor, 0 , 0 , 0 , 0 , 0 }, { 0 , 0 , 0 , 16 , DirectColor, 0 , 0 , 0 , 0 , 0 }, { 0 , 0 , 0 , 15 , DirectColor, 0 , 0 , 0 , 0 , 0 }, { 0 , 0 , 0 , 0 , 0 , 0 , 0 , 0 , 0 , 0 }, }; Int_t nitems = 0; XVisualInfo *vlist = 0; for (Int_t i = 0; templates[i].depth != 0; i++) { Int_t mask = VisualScreenMask|VisualDepthMask|VisualClassMask; templates[i].screen = fScreenNumber; if ((vlist = XGetVisualInfo(fDisplay, mask, &(templates[i]), &nitems))) { FindUsableVisual(vlist, nitems); XFree(vlist); vlist = 0; if (fVisual) break; } } } fRootWin = RootWindow(fDisplay, fScreenNumber); if (!fVisual) { fDepth = DefaultDepth(fDisplay, fScreenNumber); fVisual = DefaultVisual(fDisplay, fScreenNumber); fVisRootWin = fRootWin; if (fDepth > 1) fColormap = DefaultColormap(fDisplay, fScreenNumber); fBlackPixel = BlackPixel(fDisplay, fScreenNumber); fWhitePixel = WhitePixel(fDisplay, fScreenNumber); } if (gDebug > 1) Printf("Selected visual 0x%lx: depth %d, class %d, colormap: %s", fVisual->visualid, fDepth, fVisual->c_class, fColormap == DefaultColormap(fDisplay, fScreenNumber) ? "default" : "custom"); } //______________________________________________________________________________ static Int_t DummyX11ErrorHandler(Display *, XErrorEvent *) { // Dummy error handler for X11. Used by FindUsableVisual(). return 0; } //______________________________________________________________________________ void TGX11::FindUsableVisual(XVisualInfo *vlist, Int_t nitems) { // Check if visual is usable, if so set fVisual, fDepth, fColormap, // fBlackPixel and fWhitePixel. Int_t (*oldErrorHandler)(Display *, XErrorEvent *) = XSetErrorHandler(DummyX11ErrorHandler); XSetWindowAttributes attr; memset(&attr, 0, sizeof(attr)); Window root = RootWindow(fDisplay, fScreenNumber); for (Int_t i = 0; i < nitems; i++) { Window w = None, wjunk; UInt_t width, height, ujunk; Int_t junk; // try and use default colormap when possible if (vlist[i].visual == DefaultVisual(fDisplay, fScreenNumber)) { attr.colormap = DefaultColormap(fDisplay, fScreenNumber); } else { attr.colormap = XCreateColormap(fDisplay, root, vlist[i].visual, AllocNone); } static XColor black_xcol = { 0, 0x0000, 0x0000, 0x0000, DoRed|DoGreen|DoBlue, 0 }; static XColor white_xcol = { 0, 0xFFFF, 0xFFFF, 0xFFFF, DoRed|DoGreen|DoBlue, 0 }; XAllocColor(fDisplay, attr.colormap, &black_xcol); XAllocColor(fDisplay, attr.colormap, &white_xcol); attr.border_pixel = black_xcol.pixel; attr.override_redirect = True; w = XCreateWindow(fDisplay, root, -20, -20, 10, 10, 0, vlist[i].depth, CopyFromParent, vlist[i].visual, CWColormap|CWBorderPixel|CWOverrideRedirect, &attr); if (w != None && XGetGeometry(fDisplay, w, &wjunk, &junk, &junk, &width, &height, &ujunk, &ujunk)) { fVisual = vlist[i].visual; fDepth = vlist[i].depth; fColormap = attr.colormap; fBlackPixel = black_xcol.pixel; fWhitePixel = white_xcol.pixel; fVisRootWin = w; break; } if (attr.colormap != DefaultColormap(fDisplay, fScreenNumber)) XFreeColormap(fDisplay, attr.colormap); } XSetErrorHandler(oldErrorHandler); } //______________________________________________________________________________ void TGX11::GetCharacterUp(Float_t &chupx, Float_t &chupy) { // Return character up vector. chupx = fCharacterUpX; chupy = fCharacterUpY; } //______________________________________________________________________________ XColor_t &TGX11::GetColor(Int_t cid) { // Return reference to internal color structure associated // to color index cid. XColor_t *col = (XColor_t*) fColors->GetValue(cid); if (!col) { col = new XColor_t; fColors->Add(cid, (Long_t) col); } return *col; } //______________________________________________________________________________ Window_t TGX11::GetCurrentWindow() const { // Return current window pointer. Protected method used by TGX11TTF. return (Window_t)(gCws ? gCws->fDrawing : 0); } //______________________________________________________________________________ GC *TGX11::GetGC(Int_t which) const { // Return desired Graphics Context ("which" maps directly on gGCList[]). // Protected method used by TGX11TTF. if (which >= kMAXGC || which < 0) { Error("GetGC", "trying to get illegal GC (which = %d)", which); return 0; } return &gGClist[which]; } //______________________________________________________________________________ Int_t TGX11::GetDoubleBuffer(int wid) { // Query the double buffer value for the window wid. gTws = &fWindows[wid]; if (!gTws->fOpen) return -1; else return gTws->fDoubleBuffer; } //______________________________________________________________________________ void TGX11::GetGeometry(int wid, int &x, int &y, unsigned int &w, unsigned int &h) { // Return position and size of window wid. // wid : window identifier // x,y : window position (output) // w,h : window size (output) // if wid < 0 the size of the display is returned Window junkwin=0; if (wid < 0) { x = 0; y = 0; w = DisplayWidth(fDisplay,fScreenNumber); h = DisplayHeight(fDisplay,fScreenNumber); } else { Window root; unsigned int border, depth; unsigned int width, height; gTws = &fWindows[wid]; XGetGeometry(fDisplay, gTws->fWindow, &root, &x, &y, &width, &height, &border, &depth); XTranslateCoordinates(fDisplay, gTws->fWindow, fRootWin, 0, 0, &x, &y, &junkwin); if (width >= 65535) width = 1; if (height >= 65535) height = 1; if (width > 0 && height > 0) { gTws->fWidth = width; gTws->fHeight = height; } w = gTws->fWidth; h = gTws->fHeight; } } //______________________________________________________________________________ const char *TGX11::DisplayName(const char *dpyName) { // Return hostname on which the display is opened. return XDisplayName(dpyName); } //______________________________________________________________________________ ULong_t TGX11::GetPixel(Color_t ci) { // Return pixel value associated to specified ROOT color number. TColor *color = gROOT->GetColor(ci); if (color) SetRGB(ci, color->GetRed(), color->GetGreen(), color->GetBlue()); // else // Warning("GetPixel", "color with index %d not defined", ci); XColor_t &col = GetColor(ci); return col.fPixel; } //______________________________________________________________________________ void TGX11::GetPlanes(int &nplanes) { // Get maximum number of planes. nplanes = fDepth; } //______________________________________________________________________________ void TGX11::GetRGB(int index, float &r, float &g, float &b) { // Get rgb values for color "index". if (index == 0) { r = g = b = 1.0; } else if (index == 1) { r = g = b = 0.0; } else { XColor_t &col = GetColor(index); r = ((float) col.fRed) / ((float) kBIGGEST_RGB_VALUE); g = ((float) col.fGreen) / ((float) kBIGGEST_RGB_VALUE); b = ((float) col.fBlue) / ((float) kBIGGEST_RGB_VALUE); } } //______________________________________________________________________________ void TGX11::GetTextExtent(unsigned int &w, unsigned int &h, char *mess) { // Return the size of a character string. // iw : text width // ih : text height // mess : message w=0; h=0; if (strlen(mess)==0) return; XPoint *cBox; XRotSetMagnification(fTextMagnitude); cBox = XRotTextExtents(fDisplay, gTextFont, 0., 0, 0, mess, 0); w = cBox[2].x; h = -cBox[2].y; free((char *)cBox); } //______________________________________________________________________________ Window_t TGX11::GetWindowID(int wid) { // Return the X11 window identifier. // wid : Workstation identifier (input) return (Window_t) fWindows[wid].fWindow; } //______________________________________________________________________________ void TGX11::MoveWindow(int wid, int x, int y) { // Move the window wid. // wid : Window identifier. // x : x new window position // y : y new window position gTws = &fWindows[wid]; if (!gTws->fOpen) return; XMoveWindow(fDisplay, gTws->fWindow, x, y); } //______________________________________________________________________________ Int_t TGX11::OpenDisplay(Display *disp) { // Open the display. Return -1 if the opening fails, 0 when ok. Pixmap pixmp1, pixmp2; XColor fore, back; char **fontlist; int fontcount = 0; int i; if (fDisplay) return 0; fDisplay = disp; fScreenNumber = DefaultScreen(fDisplay); FindBestVisual(); GetColor(1).fDefined = kTRUE; // default foreground GetColor(1).fPixel = fBlackPixel; GetColor(0).fDefined = kTRUE; // default background GetColor(0).fPixel = fWhitePixel; // Inquire the the XServer Vendor char vendor[132]; strcpy(vendor, XServerVendor(fDisplay)); // Create primitives graphic contexts for (i = 0; i < kMAXGC; i++) gGClist[i] = XCreateGC(fDisplay, fVisRootWin, 0, 0); XGCValues values; if (XGetGCValues(fDisplay, *gGCtext, GCForeground|GCBackground, &values)) { XSetForeground(fDisplay, *gGCinvt, values.background); XSetBackground(fDisplay, *gGCinvt, values.foreground); } else { Error("OpenDisplay", "cannot get GC values"); } // Turn-off GraphicsExpose and NoExpose event reporting for the pixmap // manipulation GC, this to prevent these events from being stacked up // without ever being processed and thereby wasting a lot of memory. XSetGraphicsExposures(fDisplay, *gGCpxmp, False); // Create input echo graphic context XGCValues echov; echov.foreground = fBlackPixel; echov.background = fWhitePixel; if (strstr(vendor,"Hewlett")) echov.function = GXxor; else echov.function = GXinvert; gGCecho = XCreateGC(fDisplay, fVisRootWin, GCForeground | GCBackground | GCFunction, &echov); // Load a default Font static int isdisp = 0; if (!isdisp) { for (i = 0; i < kMAXFONT; i++) { gFont[i].id = 0; strcpy(gFont[i].name, " "); } fontlist = XListFonts(fDisplay, "*courier*", 1, &fontcount); if (fontcount != 0) { gFont[gCurrentFontNumber].id = XLoadQueryFont(fDisplay, fontlist[0]); gTextFont = gFont[gCurrentFontNumber].id; strcpy(gFont[gCurrentFontNumber].name, "*courier*"); gCurrentFontNumber++; XFreeFontNames(fontlist); } else { // emergency: try fixed font fontlist = XListFonts(fDisplay, "fixed", 1, &fontcount); if (fontcount != 0) { gFont[gCurrentFontNumber].id = XLoadQueryFont(fDisplay, fontlist[0]); gTextFont = gFont[gCurrentFontNumber].id; strcpy(gFont[gCurrentFontNumber].name, "fixed"); gCurrentFontNumber++; XFreeFontNames(fontlist); } else { Warning("OpenDisplay", "no default font loaded"); } } isdisp = 1; } // Create a null cursor pixmp1 = XCreateBitmapFromData(fDisplay, fRootWin, null_cursor_bits, 16, 16); pixmp2 = XCreateBitmapFromData(fDisplay, fRootWin, null_cursor_bits, 16, 16); gNullCursor = XCreatePixmapCursor(fDisplay,pixmp1,pixmp2,&fore,&back,0,0); // Create cursors fCursors[kBottomLeft] = XCreateFontCursor(fDisplay, XC_bottom_left_corner); fCursors[kBottomRight] = XCreateFontCursor(fDisplay, XC_bottom_right_corner); fCursors[kTopLeft] = XCreateFontCursor(fDisplay, XC_top_left_corner); fCursors[kTopRight] = XCreateFontCursor(fDisplay, XC_top_right_corner); fCursors[kBottomSide] = XCreateFontCursor(fDisplay, XC_bottom_side); fCursors[kLeftSide] = XCreateFontCursor(fDisplay, XC_left_side); fCursors[kTopSide] = XCreateFontCursor(fDisplay, XC_top_side); fCursors[kRightSide] = XCreateFontCursor(fDisplay, XC_right_side); fCursors[kMove] = XCreateFontCursor(fDisplay, XC_fleur); fCursors[kCross] = XCreateFontCursor(fDisplay, XC_tcross); fCursors[kArrowHor] = XCreateFontCursor(fDisplay, XC_sb_h_double_arrow); fCursors[kArrowVer] = XCreateFontCursor(fDisplay, XC_sb_v_double_arrow); fCursors[kHand] = XCreateFontCursor(fDisplay, XC_hand2); fCursors[kRotate] = XCreateFontCursor(fDisplay, XC_exchange); fCursors[kPointer] = XCreateFontCursor(fDisplay, XC_left_ptr); fCursors[kArrowRight] = XCreateFontCursor(fDisplay, XC_arrow); fCursors[kCaret] = XCreateFontCursor(fDisplay, XC_xterm); fCursors[kWatch] = XCreateFontCursor(fDisplay, XC_watch); fCursors[kNoDrop] = XCreateFontCursor(fDisplay, XC_pirate); // Setup color information fRedDiv = fGreenDiv = fBlueDiv = fRedShift = fGreenShift = fBlueShift = -1; if (fVisual->c_class == TrueColor) { for (i = 0; i < int(sizeof(fVisual->blue_mask)*kBitsPerByte); i++) { if (fBlueShift == -1 && ((fVisual->blue_mask >> i) & 1)) fBlueShift = i; if ((fVisual->blue_mask >> i) == 1) { fBlueDiv = sizeof(UShort_t)*kBitsPerByte - i - 1 + fBlueShift; break; } } for (i = 0; i < int(sizeof(fVisual->green_mask)*kBitsPerByte); i++) { if (fGreenShift == -1 && ((fVisual->green_mask >> i) & 1)) fGreenShift = i; if ((fVisual->green_mask >> i) == 1) { fGreenDiv = sizeof(UShort_t)*kBitsPerByte - i - 1 + fGreenShift; break; } } for (i = 0; i < int(sizeof(fVisual->red_mask)*kBitsPerByte); i++) { if (fRedShift == -1 && ((fVisual->red_mask >> i) & 1)) fRedShift = i; if ((fVisual->red_mask >> i) == 1) { fRedDiv = sizeof(UShort_t)*kBitsPerByte - i - 1 + fRedShift; break; } } //printf("fRedDiv = %d, fGreenDiv = %d, fBlueDiv = %d, fRedShift = %d, fGreenShift = %d, fBlueShift = %d\n", // fRedDiv, fGreenDiv, fBlueDiv, fRedShift, fGreenShift, fBlueShift); } return 0; } //______________________________________________________________________________ Int_t TGX11::OpenPixmap(unsigned int w, unsigned int h) { // Open a new pixmap. // w,h : Width and height of the pixmap. Window root; unsigned int wval, hval; int xx, yy, i, wid; unsigned int ww, hh, border, depth; wval = w; hval = h; // Select next free window number again: for (wid = 0; wid < fMaxNumberOfWindows; wid++) if (!fWindows[wid].fOpen) { fWindows[wid].fOpen = 1; gCws = &fWindows[wid]; break; } if (wid == fMaxNumberOfWindows) { int newsize = fMaxNumberOfWindows + 10; fWindows = (XWindow_t*) TStorage::ReAlloc(fWindows, newsize*sizeof(XWindow_t), fMaxNumberOfWindows*sizeof(XWindow_t)); for (i = fMaxNumberOfWindows; i < newsize; i++) fWindows[i].fOpen = 0; fMaxNumberOfWindows = newsize; goto again; } gCws->fWindow = XCreatePixmap(fDisplay, fRootWin, wval, hval, fDepth); XGetGeometry(fDisplay, gCws->fWindow, &root, &xx, &yy, &ww, &hh, &border, &depth); for (i = 0; i < kMAXGC; i++) XSetClipMask(fDisplay, gGClist[i], None); SetColor(*gGCpxmp, 0); XFillRectangle(fDisplay, gCws->fWindow, *gGCpxmp, 0, 0, ww, hh); SetColor(*gGCpxmp, 1); // Initialise the window structure gCws->fDrawing = gCws->fWindow; gCws->fBuffer = 0; gCws->fDoubleBuffer = 0; gCws->fIsPixmap = 1; gCws->fClip = 0; gCws->fWidth = wval; gCws->fHeight = hval; gCws->fNewColors = 0; gCws->fShared = kFALSE; return wid; } //______________________________________________________________________________ Int_t TGX11::InitWindow(ULong_t win) { // Open window and return window number. // Return -1 if window initialization fails. XSetWindowAttributes attributes; ULong_t attr_mask = 0; int wid; int xval, yval; unsigned int wval, hval, border, depth; Window root; Window wind = (Window) win; XGetGeometry(fDisplay, wind, &root, &xval, &yval, &wval, &hval, &border, &depth); // Select next free window number again: for (wid = 0; wid < fMaxNumberOfWindows; wid++) if (!fWindows[wid].fOpen) { fWindows[wid].fOpen = 1; fWindows[wid].fDoubleBuffer = 0; gCws = &fWindows[wid]; break; } if (wid == fMaxNumberOfWindows) { int newsize = fMaxNumberOfWindows + 10; fWindows = (XWindow_t*) TStorage::ReAlloc(fWindows, newsize*sizeof(XWindow_t), fMaxNumberOfWindows*sizeof(XWindow_t)); for (int i = fMaxNumberOfWindows; i < newsize; i++) fWindows[i].fOpen = 0; fMaxNumberOfWindows = newsize; goto again; } // Create window attributes.background_pixel = GetColor(0).fPixel; attr_mask |= CWBackPixel; attributes.border_pixel = GetColor(1).fPixel; attr_mask |= CWBorderPixel; attributes.event_mask = NoEventMask; attr_mask |= CWEventMask; attributes.backing_store = Always; attr_mask |= CWBackingStore; attributes.bit_gravity = NorthWestGravity; attr_mask |= CWBitGravity; if (fColormap) { attributes.colormap = fColormap; attr_mask |= CWColormap; } gCws->fWindow = XCreateWindow(fDisplay, wind, xval, yval, wval, hval, 0, fDepth, InputOutput, fVisual, attr_mask, &attributes); XMapWindow(fDisplay, gCws->fWindow); XFlush(fDisplay); // Initialise the window structure gCws->fDrawing = gCws->fWindow; gCws->fBuffer = 0; gCws->fDoubleBuffer = 0; gCws->fIsPixmap = 0; gCws->fClip = 0; gCws->fWidth = wval; gCws->fHeight = hval; gCws->fNewColors = 0; gCws->fShared = kFALSE; return wid; } //______________________________________________________________________________ Int_t TGX11::AddWindow(ULong_t qwid, UInt_t w, UInt_t h) { // Register a window created by Qt as a ROOT window (like InitWindow()). Int_t wid; // Select next free window number again: for (wid = 0; wid < fMaxNumberOfWindows; wid++) if (!fWindows[wid].fOpen) { fWindows[wid].fOpen = 1; fWindows[wid].fDoubleBuffer = 0; gCws = &fWindows[wid]; break; } if (wid == fMaxNumberOfWindows) { int newsize = fMaxNumberOfWindows + 10; fWindows = (XWindow_t*) TStorage::ReAlloc(fWindows, newsize*sizeof(XWindow_t), fMaxNumberOfWindows*sizeof(XWindow_t)); for (int i = fMaxNumberOfWindows; i < newsize; i++) fWindows[i].fOpen = 0; fMaxNumberOfWindows = newsize; goto again; } gCws->fWindow = qwid; //init Xwindow_t struct gCws->fDrawing = gCws->fWindow; gCws->fBuffer = 0; gCws->fDoubleBuffer = 0; gCws->fIsPixmap = 0; gCws->fClip = 0; gCws->fWidth = w; gCws->fHeight = h; gCws->fNewColors = 0; gCws->fShared = kTRUE; return wid; } //______________________________________________________________________________ void TGX11::RemoveWindow(ULong_t qwid) { // Remove a window created by Qt (like CloseWindow1()). SelectWindow((int)qwid); if (gCws->fBuffer) XFreePixmap(fDisplay, gCws->fBuffer); if (gCws->fNewColors) { if (fRedDiv == -1) XFreeColors(fDisplay, fColormap, gCws->fNewColors, gCws->fNcolors, 0); delete [] gCws->fNewColors; gCws->fNewColors = 0; } gCws->fOpen = 0; // make first window in list the current window for (Int_t wid = 0; wid < fMaxNumberOfWindows; wid++) if (fWindows[wid].fOpen) { gCws = &fWindows[wid]; return; } gCws = 0; } //______________________________________________________________________________ void TGX11::QueryPointer(int &ix, int &iy) { // Query pointer position. // ix : X coordinate of pointer // iy : Y coordinate of pointer // (both coordinates are relative to the origin of the root window) Window root_return, child_return; int win_x_return, win_y_return; int root_x_return, root_y_return; unsigned int mask_return; XQueryPointer(fDisplay,gCws->fWindow, &root_return, &child_return, &root_x_return, &root_y_return, &win_x_return, &win_y_return, &mask_return); ix = root_x_return; iy = root_y_return; } //______________________________________________________________________________ void TGX11::RemovePixmap(Drawable *pix) { // Remove the pixmap pix. XFreePixmap(fDisplay,*pix); } //______________________________________________________________________________ Int_t TGX11::RequestLocator(int mode, int ctyp, int &x, int &y) { // Request Locator position. // x,y : cursor position at moment of button press (output) // ctyp : cursor type (input) // ctyp=1 tracking cross // ctyp=2 cross-hair // ctyp=3 rubber circle // ctyp=4 rubber band // ctyp=5 rubber rectangle // // mode : input mode // mode=0 request // mode=1 sample // // Request locator: // return button number 1 = left is pressed // 2 = middle is pressed // 3 = right is pressed // in sample mode: // 11 = left is released // 12 = middle is released // 13 = right is released // -1 = nothing is pressed or released // -2 = leave the window // else = keycode (keyboard is pressed) static int xloc = 0; static int yloc = 0; static int xlocp = 0; static int ylocp = 0; static Cursor cursor = 0; XEvent event; int button_press; int radius; // Change the cursor shape if (cursor == 0) { if (ctyp > 1) { XDefineCursor(fDisplay, gCws->fWindow, gNullCursor); XSetForeground(fDisplay, gGCecho, GetColor(0).fPixel); } else { cursor = XCreateFontCursor(fDisplay, XC_crosshair); XDefineCursor(fDisplay, gCws->fWindow, cursor); } } // Event loop button_press = 0; while (button_press == 0) { switch (ctyp) { case 1 : break; case 2 : XDrawLine(fDisplay, gCws->fWindow, gGCecho, xloc, 0, xloc, gCws->fHeight); XDrawLine(fDisplay, gCws->fWindow, gGCecho, 0, yloc, gCws->fWidth, yloc); break; case 3 : radius = (int) TMath::Sqrt((double)((xloc-xlocp)*(xloc-xlocp) + (yloc-ylocp)*(yloc-ylocp))); XDrawArc(fDisplay, gCws->fWindow, gGCecho, xlocp-radius, ylocp-radius, 2*radius, 2*radius, 0, 23040); break; case 4 : XDrawLine(fDisplay, gCws->fWindow, gGCecho, xlocp, ylocp, xloc, yloc); break; case 5 : XDrawRectangle(fDisplay, gCws->fWindow, gGCecho, TMath::Min(xlocp,xloc), TMath::Min(ylocp,yloc), TMath::Abs(xloc-xlocp), TMath::Abs(yloc-ylocp)); break; default: break; } while (XEventsQueued( fDisplay, QueuedAlready) > 1) { XNextEvent(fDisplay, &event); } XWindowEvent(fDisplay, gCws->fWindow, gMouseMask, &event); switch (ctyp) { case 1 : break; case 2 : XDrawLine(fDisplay, gCws->fWindow, gGCecho, xloc, 0, xloc, gCws->fHeight); XDrawLine(fDisplay, gCws->fWindow, gGCecho, 0, yloc, gCws->fWidth, yloc); break; case 3 : radius = (int) TMath::Sqrt((double)((xloc-xlocp)*(xloc-xlocp) + (yloc-ylocp)*(yloc-ylocp))); XDrawArc(fDisplay, gCws->fWindow, gGCecho, xlocp-radius, ylocp-radius, 2*radius, 2*radius, 0, 23040); break; case 4 : XDrawLine(fDisplay, gCws->fWindow, gGCecho, xlocp, ylocp, xloc, yloc); break; case 5 : XDrawRectangle(fDisplay, gCws->fWindow, gGCecho, TMath::Min(xlocp,xloc), TMath::Min(ylocp,yloc), TMath::Abs(xloc-xlocp), TMath::Abs(yloc-ylocp)); break; default: break; } xloc = event.xbutton.x; yloc = event.xbutton.y; switch (event.type) { case LeaveNotify : if (mode == 0) { while (1) { XNextEvent(fDisplay, &event); if (event.type == EnterNotify) break; } } else { button_press = -2; } break; case ButtonPress : button_press = event.xbutton.button ; xlocp = event.xbutton.x; ylocp = event.xbutton.y; XUndefineCursor( fDisplay, gCws->fWindow ); cursor = 0; break; case ButtonRelease : if (mode == 1) { button_press = 10+event.xbutton.button ; xlocp = event.xbutton.x; ylocp = event.xbutton.y; } break; case KeyPress : if (mode == 1) { button_press = event.xkey.keycode; xlocp = event.xbutton.x; ylocp = event.xbutton.y; } break; case KeyRelease : if (mode == 1) { button_press = -event.xkey.keycode; xlocp = event.xbutton.x; ylocp = event.xbutton.y; } break; default : break; } if (mode == 1) { if (button_press == 0) button_press = -1; break; } } x = event.xbutton.x; y = event.xbutton.y; return button_press; } //______________________________________________________________________________ Int_t TGX11::RequestString(int x, int y, char *text) { // Request a string. // x,y : position where text is displayed // text : text displayed (input), edited text (output) // // Request string: // text is displayed and can be edited with Emacs-like keybinding // return termination code (0 for ESC, 1 for RETURN) static Cursor cursor = 0; static int percent = 0; // bell volume Window focuswindow; int focusrevert; XEvent event; KeySym keysym; int key = -1; int len_text = strlen(text); int nt; // defined length of text int pt; // cursor position in text // change the cursor shape if (cursor == 0) { XKeyboardState kbstate; cursor = XCreateFontCursor(fDisplay, XC_question_arrow); XGetKeyboardControl(fDisplay, &kbstate); percent = kbstate.bell_percent; } if (cursor != 0) XDefineCursor(fDisplay, gCws->fWindow, cursor); for (nt = len_text; nt > 0 && text[nt-1] == ' '; nt--) { } pt = nt; XGetInputFocus(fDisplay, &focuswindow, &focusrevert); XSetInputFocus(fDisplay, gCws->fWindow, focusrevert, CurrentTime); while (key < 0) { char keybuf[8]; char nbytes; int dx; int i; XDrawImageString(fDisplay, gCws->fWindow, *gGCtext, x, y, text, nt); dx = XTextWidth(gTextFont, text, nt); XDrawImageString(fDisplay, gCws->fWindow, *gGCtext, x + dx, y, " ", 1); dx = pt == 0 ? 0 : XTextWidth(gTextFont, text, pt); XDrawImageString(fDisplay, gCws->fWindow, *gGCinvt, x + dx, y, pt < len_text ? &text[pt] : " ", 1); XWindowEvent(fDisplay, gCws->fWindow, gKeybdMask, &event); switch (event.type) { case ButtonPress: case EnterNotify: XSetInputFocus(fDisplay, gCws->fWindow, focusrevert, CurrentTime); break; case LeaveNotify: XSetInputFocus(fDisplay, focuswindow, focusrevert, CurrentTime); break; case KeyPress: nbytes = XLookupString(&event.xkey, keybuf, sizeof(keybuf), &keysym, 0); switch (keysym) { // map cursor keys case XK_Left: keybuf[0] = '\002'; // Control-B nbytes = 1; break; case XK_Right: keybuf[0] = '\006'; // Control-F nbytes = 1; break; } if (nbytes == 1) { if (isascii(keybuf[0]) && isprint(keybuf[0])) { // insert character if (nt < len_text) nt++; for (i = nt - 1; i > pt; i--) text[i] = text[i-1]; if (pt < len_text) { text[pt] = keybuf[0]; pt++; } } else switch (keybuf[0]) { // Emacs-like editing keys case '\010': // backspace case '\177': // delete // delete backward if (pt > 0) { for (i = pt; i < nt; i++) text[i-1] = text[i]; text[nt-1] = ' '; nt--; pt--; } break; case '\001': // ^A // beginning of line pt = 0; break; case '\002': // ^B // move backward if (pt > 0) pt--; break; case '\004': // ^D // delete forward if (pt > 0) { for (i = pt; i < nt; i++) text[i-1] = text[i]; text[nt-1] = ' '; pt--; } break; case '\005': // ^E // end of line pt = nt; break; case '\006': // ^F // move forward if (pt < nt) pt++; break; case '\013': // ^K // delete to end of line for (i = pt; i < nt; i++) text[i] = ' '; nt = pt; break; case '\024': // ^T // transpose if (pt > 0) { char c = text[pt]; text[pt] = text[pt-1]; text[pt-1] = c; } break; case '\012': // newline case '\015': // return key = 1; break; case '\033': // escape key = 0; break; default: XBell(fDisplay, percent); } } } } XSetInputFocus(fDisplay, focuswindow, focusrevert, CurrentTime); if (cursor != 0) { XUndefineCursor(fDisplay, gCws->fWindow); cursor = 0; } return key; } //______________________________________________________________________________ void TGX11::RescaleWindow(int wid, unsigned int w, unsigned int h) { // Rescale the window wid. // wid : Window identifier // w : Width // h : Heigth int i; gTws = &fWindows[wid]; if (!gTws->fOpen) return; // don't do anything when size did not change if (gTws->fWidth == w && gTws->fHeight == h) return; XResizeWindow(fDisplay, gTws->fWindow, w, h); if (gTws->fBuffer) { // don't free and recreate pixmap when new pixmap is smaller if (gTws->fWidth < w || gTws->fHeight < h) { XFreePixmap(fDisplay,gTws->fBuffer); gTws->fBuffer = XCreatePixmap(fDisplay, fRootWin, w, h, fDepth); } for (i = 0; i < kMAXGC; i++) XSetClipMask(fDisplay, gGClist[i], None); SetColor(*gGCpxmp, 0); XFillRectangle( fDisplay, gTws->fBuffer, *gGCpxmp, 0, 0, w, h); SetColor(*gGCpxmp, 1); if (gTws->fDoubleBuffer) gTws->fDrawing = gTws->fBuffer; } gTws->fWidth = w; gTws->fHeight = h; } //______________________________________________________________________________ int TGX11::ResizePixmap(int wid, unsigned int w, unsigned int h) { // Resize a pixmap. // wid : pixmap to be resized // w,h : Width and height of the pixmap Window root; unsigned int wval, hval; int xx, yy, i; unsigned int ww, hh, border, depth; wval = w; hval = h; gTws = &fWindows[wid]; // don't do anything when size did not change // if (gTws->fWidth == wval && gTws->fHeight == hval) return 0; // due to round-off errors in TPad::Resize() we might get +/- 1 pixel // change, in those cases don't resize pixmap if (gTws->fWidth >= wval-1 && gTws->fWidth <= wval+1 && gTws->fHeight >= hval-1 && gTws->fHeight <= hval+1) return 0; // don't free and recreate pixmap when new pixmap is smaller if (gTws->fWidth < wval || gTws->fHeight < hval) { XFreePixmap(fDisplay, gTws->fWindow); gTws->fWindow = XCreatePixmap(fDisplay, fRootWin, wval, hval, fDepth); } XGetGeometry(fDisplay, gTws->fWindow, &root, &xx, &yy, &ww, &hh, &border, &depth); for (i = 0; i < kMAXGC; i++) XSetClipMask(fDisplay, gGClist[i], None); SetColor(*gGCpxmp, 0); XFillRectangle(fDisplay, gTws->fWindow, *gGCpxmp, 0, 0, ww, hh); SetColor(*gGCpxmp, 1); // Initialise the window structure gTws->fDrawing = gTws->fWindow; gTws->fWidth = wval; gTws->fHeight = hval; return 1; } //______________________________________________________________________________ void TGX11::ResizeWindow(int wid) { // Resize the current window if necessary. int i; int xval=0, yval=0; Window win, root=0; unsigned int wval=0, hval=0, border=0, depth=0; gTws = &fWindows[wid]; win = gTws->fWindow; XGetGeometry(fDisplay, win, &root, &xval, &yval, &wval, &hval, &border, &depth); if (wval >= 65500) wval = 1; if (hval >= 65500) hval = 1; // don't do anything when size did not change if (gTws->fWidth == wval && gTws->fHeight == hval) return; XResizeWindow(fDisplay, gTws->fWindow, wval, hval); if (gTws->fBuffer) { if (gTws->fWidth < wval || gTws->fHeight < hval) { XFreePixmap(fDisplay,gTws->fBuffer); gTws->fBuffer = XCreatePixmap(fDisplay, fRootWin, wval, hval, fDepth); } for (i = 0; i < kMAXGC; i++) XSetClipMask(fDisplay, gGClist[i], None); SetColor(*gGCpxmp, 0); XFillRectangle(fDisplay, gTws->fBuffer, *gGCpxmp, 0, 0, wval, hval); SetColor(*gGCpxmp, 1); if (gTws->fDoubleBuffer) gTws->fDrawing = gTws->fBuffer; } gTws->fWidth = wval; gTws->fHeight = hval; } //______________________________________________________________________________ void TGX11::SelectWindow(int wid) { // Select window to which subsequent output is directed. XRectangle region; int i; if (wid < 0 || wid >= fMaxNumberOfWindows || !fWindows[wid].fOpen) return; gCws = &fWindows[wid]; if (gCws->fClip && !gCws->fIsPixmap && !gCws->fDoubleBuffer) { region.x = gCws->fXclip; region.y = gCws->fYclip; region.width = gCws->fWclip; region.height = gCws->fHclip; for (i = 0; i < kMAXGC; i++) XSetClipRectangles(fDisplay, gGClist[i], 0, 0, ®ion, 1, YXBanded); } else { for (i = 0; i < kMAXGC; i++) XSetClipMask(fDisplay, gGClist[i], None); } } //______________________________________________________________________________ void TGX11::SetCharacterUp(Float_t chupx, Float_t chupy) { // Set character up vector. if (chupx == fCharacterUpX && chupy == fCharacterUpY) return; if (chupx == 0 && chupy == 0) fTextAngle = 0; else if (chupx == 0 && chupy == 1) fTextAngle = 0; else if (chupx == -1 && chupy == 0) fTextAngle = 90; else if (chupx == 0 && chupy == -1) fTextAngle = 180; else if (chupx == 1 && chupy == 0) fTextAngle = 270; else { fTextAngle = ((TMath::ACos(chupx/TMath::Sqrt(chupx*chupx +chupy*chupy))*180.)/TMath::Pi())-90; if (chupy < 0) fTextAngle = 180 - fTextAngle; if (TMath::Abs(fTextAngle) <= 0.01) fTextAngle = 0; } fCharacterUpX = chupx; fCharacterUpY = chupy; } //______________________________________________________________________________ void TGX11::SetClipOFF(int wid) { // Turn off the clipping for the window wid. gTws = &fWindows[wid]; gTws->fClip = 0; for (int i = 0; i < kMAXGC; i++) XSetClipMask( fDisplay, gGClist[i], None ); } //______________________________________________________________________________ void TGX11::SetClipRegion(int wid, int x, int y, unsigned int w, unsigned int h) { // Set clipping region for the window wid. // wid : Window indentifier // x,y : origin of clipping rectangle // w,h : size of clipping rectangle; gTws = &fWindows[wid]; gTws->fXclip = x; gTws->fYclip = y; gTws->fWclip = w; gTws->fHclip = h; gTws->fClip = 1; if (gTws->fClip && !gTws->fIsPixmap && !gTws->fDoubleBuffer) { XRectangle region; region.x = gTws->fXclip; region.y = gTws->fYclip; region.width = gTws->fWclip; region.height = gTws->fHclip; for (int i = 0; i < kMAXGC; i++) XSetClipRectangles(fDisplay, gGClist[i], 0, 0, ®ion, 1, YXBanded); } } //______________________________________________________________________________ void TGX11::SetColor(GC gc, int ci) { // Set the foreground color in GC. TColor *color = gROOT->GetColor(ci); if (color) SetRGB(ci, color->GetRed(), color->GetGreen(), color->GetBlue()); // else // Warning("SetColor", "color with index %d not defined", ci); XColor_t &col = GetColor(ci); if (fColormap && !col.fDefined) { col = GetColor(0); } else if (!fColormap && (ci < 0 || ci > 1)) { col = GetColor(0); } if (fDrawMode == kXor) { XGCValues values; XGetGCValues(fDisplay, gc, GCBackground, &values); XSetForeground(fDisplay, gc, col.fPixel ^ values.background); } else { XSetForeground(fDisplay, gc, col.fPixel); // make sure that foreground and background are different XGCValues values; XGetGCValues(fDisplay, gc, GCForeground | GCBackground, &values); if (values.foreground == values.background) XSetBackground(fDisplay, gc, GetColor(!ci).fPixel); } } //______________________________________________________________________________ void TGX11::SetCursor(int wid, ECursor cursor) { // Set the cursor. gTws = &fWindows[wid]; XDefineCursor(fDisplay, gTws->fWindow, fCursors[cursor]); } //______________________________________________________________________________ void TGX11::SetDoubleBuffer(int wid, int mode) { // Set the double buffer on/off on window wid. // wid : Window identifier. // 999 means all the opened windows. // mode : 1 double buffer is on // 0 double buffer is off if (wid == 999) { for (int i = 0; i < fMaxNumberOfWindows; i++) { gTws = &fWindows[i]; if (gTws->fOpen) { switch (mode) { case 1 : SetDoubleBufferON(); break; default: SetDoubleBufferOFF(); break; } } } } else { gTws = &fWindows[wid]; if (!gTws->fOpen) return; switch (mode) { case 1 : SetDoubleBufferON(); return; default: SetDoubleBufferOFF(); return; } } } //______________________________________________________________________________ void TGX11::SetDoubleBufferOFF() { // Turn double buffer mode off. if (!gTws->fDoubleBuffer) return; gTws->fDoubleBuffer = 0; gTws->fDrawing = gTws->fWindow; } //______________________________________________________________________________ void TGX11::SetDoubleBufferON() { // Turn double buffer mode on. if (gTws->fDoubleBuffer || gTws->fIsPixmap) return; if (!gTws->fBuffer) { gTws->fBuffer = XCreatePixmap(fDisplay, fRootWin, gTws->fWidth, gTws->fHeight, fDepth); SetColor(*gGCpxmp, 0); XFillRectangle(fDisplay, gTws->fBuffer, *gGCpxmp, 0, 0, gTws->fWidth, gTws->fHeight); SetColor(*gGCpxmp, 1); } for (int i = 0; i < kMAXGC; i++) XSetClipMask(fDisplay, gGClist[i], None); gTws->fDoubleBuffer = 1; gTws->fDrawing = gTws->fBuffer; } //______________________________________________________________________________ void TGX11::SetDrawMode(EDrawMode mode) { // Set the drawing mode. // mode : drawing mode // mode=1 copy // mode=2 xor // mode=3 invert // mode=4 set the suitable mode for cursor echo according to // the vendor int i; switch (mode) { case kCopy: for (i = 0; i < kMAXGC; i++) XSetFunction(fDisplay, gGClist[i], GXcopy); break; case kXor: for (i = 0; i < kMAXGC; i++) XSetFunction(fDisplay, gGClist[i], GXxor); break; case kInvert: for (i = 0; i < kMAXGC; i++) XSetFunction(fDisplay, gGClist[i], GXinvert); break; } fDrawMode = mode; } //______________________________________________________________________________ void TGX11::SetFillColor(Color_t cindex) { // Set color index for fill areas. if (!gStyle->GetFillColor() && cindex > 1) cindex = 0; if (cindex >= 0) SetColor(*gGCfill, Int_t(cindex)); fFillColor = cindex; // invalidate fill pattern if (gFillPattern != 0) { XFreePixmap(fDisplay, gFillPattern); gFillPattern = 0; } } //______________________________________________________________________________ void TGX11::SetFillStyle(Style_t fstyle) { // Set fill area style. // fstyle : compound fill area interior style // fstyle = 1000*interiorstyle + styleindex if (fFillStyle == fstyle) return; fFillStyle = fstyle; Int_t style = fstyle/1000; Int_t fasi = fstyle%1000; SetFillStyleIndex(style,fasi); } //______________________________________________________________________________ void TGX11::SetFillStyleIndex(Int_t style, Int_t fasi) { // Set fill area style index. static int current_fasi = 0; fFillStyle = 1000*style + fasi; switch (style) { case 1: // solid gFillHollow = 0; XSetFillStyle(fDisplay, *gGCfill, FillSolid); break; case 2: // pattern gFillHollow = 1; break; case 3: // hatch gFillHollow = 0; XSetFillStyle(fDisplay, *gGCfill, FillStippled); if (fasi != current_fasi) { if (gFillPattern != 0) { XFreePixmap(fDisplay, gFillPattern); gFillPattern = 0; } int stn = (fasi >= 1 && fasi <=25) ? fasi : 2; gFillPattern = XCreateBitmapFromData(fDisplay, fRootWin, gStipples[stn], 16, 16); XSetStipple( fDisplay, *gGCfill, gFillPattern ); current_fasi = fasi; } break; default: gFillHollow = 1; } } //______________________________________________________________________________ void TGX11::SetInput(int inp) { // Set input on or off. XSetWindowAttributes attributes; ULong_t attr_mask; if (inp == 1) { attributes.event_mask = gMouseMask | gKeybdMask; attr_mask = CWEventMask; XChangeWindowAttributes(fDisplay, gCws->fWindow, attr_mask, &attributes); } else { attributes.event_mask = NoEventMask; attr_mask = CWEventMask; XChangeWindowAttributes(fDisplay, gCws->fWindow, attr_mask, &attributes); } } //______________________________________________________________________________ void TGX11::SetLineColor(Color_t cindex) { // Set color index for lines. if (cindex < 0) return; TAttLine::SetLineColor(cindex); SetColor(*gGCline, Int_t(cindex)); SetColor(*gGCdash, Int_t(cindex)); } //______________________________________________________________________________ void TGX11::SetLineType(int n, int *dash) { // Set line type. // n : length of dash list // dash(n) : dash segment lengths // // if n <= 0 use solid lines // if n > 0 use dashed lines described by DASH(N) // e.g. N=4,DASH=(6,3,1,3) gives a dashed-dotted line with dash length 6 // and a gap of 7 between dashes if (n <= 0) { gLineStyle = LineSolid; XSetLineAttributes(fDisplay, *gGCline, gLineWidth, gLineStyle, gCapStyle, gJoinStyle); } else { gDashSize = TMath::Min((int)sizeof(gDashList),n); gDashLength = 0; for (int i = 0; i < gDashSize; i++ ) { gDashList[i] = dash[i]; gDashLength += gDashList[i]; } gDashOffset = 0; gLineStyle = LineOnOffDash; XSetLineAttributes(fDisplay, *gGCline, gLineWidth, gLineStyle, gCapStyle, gJoinStyle); XSetLineAttributes(fDisplay, *gGCdash, gLineWidth, gLineStyle, gCapStyle, gJoinStyle); } } //______________________________________________________________________________ void TGX11::SetLineStyle(Style_t lstyle) { // Set line style. static Int_t dashed[2] = {3,3}; static Int_t dotted[2] = {1,2}; static Int_t dasheddotted[4] = {3,4,1,4}; if (fLineStyle != lstyle) { //set style index only if different fLineStyle = lstyle; if (lstyle <= 1 ) { SetLineType(0,0); } else if (lstyle == 2 ) { SetLineType(2,dashed); } else if (lstyle == 3 ) { SetLineType(2,dotted); } else if (lstyle == 4 ) { SetLineType(4,dasheddotted); } else { TString st = (TString)gStyle->GetLineStyleString(lstyle); TObjArray *tokens = st.Tokenize(" "); Int_t nt; nt = tokens->GetEntries(); Int_t *linestyle = new Int_t[nt]; for (Int_t j = 0; j<nt; j++) { Int_t it; sscanf(((TObjString*)tokens->At(j))->GetName(), "%d", &it); linestyle[j] = (Int_t)(it/4); } SetLineType(nt,linestyle); delete [] linestyle; delete tokens; } } } //______________________________________________________________________________ void TGX11::SetLineWidth(Width_t width ) { // Set line width. // width : line width in pixels if (fLineWidth == width) return; if (width == 1) gLineWidth = 0; else gLineWidth = width; fLineWidth = gLineWidth; if (gLineWidth < 0) return; XSetLineAttributes(fDisplay, *gGCline, gLineWidth, gLineStyle, gCapStyle, gJoinStyle); XSetLineAttributes(fDisplay, *gGCdash, gLineWidth, gLineStyle, gCapStyle, gJoinStyle); } //______________________________________________________________________________ void TGX11::SetMarkerColor(Color_t cindex) { // Set color index for markers. if (cindex < 0) return; TAttMarker::SetMarkerColor(cindex); SetColor(*gGCmark, Int_t(cindex)); } //______________________________________________________________________________ void TGX11::SetMarkerSize(Float_t msize) { // Set marker size index. // msize : marker scale factor if (msize == fMarkerSize) return; fMarkerSize = msize; if (msize < 0) return; SetMarkerStyle(-fMarkerStyle); } //______________________________________________________________________________ void TGX11::SetMarkerType(int type, int n, XPoint *xy) { // Set marker type. // type : marker type // n : length of marker description // xy : list of points describing marker shape // // if n == 0 marker is a single point // if TYPE == 0 marker is hollow circle of diameter N // if TYPE == 1 marker is filled circle of diameter N // if TYPE == 2 marker is a hollow polygon describe by line XY // if TYPE == 3 marker is a filled polygon describe by line XY // if TYPE == 4 marker is described by segmented line XY // e.g. TYPE=4,N=4,XY=(-3,0,3,0,0,-3,0,3) sets a plus shape of 7x7 pixels gMarker.type = type; gMarker.n = n < kMAXMK ? n : kMAXMK; if (gMarker.type >= 2) { for (int i = 0; i < gMarker.n; i++) { gMarker.xy[i].x = xy[i].x; gMarker.xy[i].y = xy[i].y; } } } //______________________________________________________________________________ void TGX11::SetMarkerStyle(Style_t markerstyle) { // Set marker style. if (fMarkerStyle == markerstyle) return; static XPoint shape[15]; if (markerstyle >= 31) return; markerstyle = TMath::Abs(markerstyle); fMarkerStyle = markerstyle; Int_t im = Int_t(4*fMarkerSize + 0.5); if (markerstyle == 2) { // + shaped marker shape[0].x = -im; shape[0].y = 0; shape[1].x = im; shape[1].y = 0; shape[2].x = 0 ; shape[2].y = -im; shape[3].x = 0 ; shape[3].y = im; SetMarkerType(4,4,shape); } else if (markerstyle == 3) { // * shaped marker shape[0].x = -im; shape[0].y = 0; shape[1].x = im; shape[1].y = 0; shape[2].x = 0 ; shape[2].y = -im; shape[3].x = 0 ; shape[3].y = im; im = Int_t(0.707*Float_t(im) + 0.5); shape[4].x = -im; shape[4].y = -im; shape[5].x = im; shape[5].y = im; shape[6].x = -im; shape[6].y = im; shape[7].x = im; shape[7].y = -im; SetMarkerType(4,8,shape); } else if (markerstyle == 4 || markerstyle == 24) { // O shaped marker SetMarkerType(0,im*2,shape); } else if (markerstyle == 5) { // X shaped marker im = Int_t(0.707*Float_t(im) + 0.5); shape[0].x = -im; shape[0].y = -im; shape[1].x = im; shape[1].y = im; shape[2].x = -im; shape[2].y = im; shape[3].x = im; shape[3].y = -im; SetMarkerType(4,4,shape); } else if (markerstyle == 6) { // + shaped marker (with 1 pixel) shape[0].x = -1 ; shape[0].y = 0; shape[1].x = 1 ; shape[1].y = 0; shape[2].x = 0 ; shape[2].y = -1; shape[3].x = 0 ; shape[3].y = 1; SetMarkerType(4,4,shape); } else if (markerstyle == 7) { // . shaped marker (with 9 pixel) shape[0].x = -1 ; shape[0].y = 1; shape[1].x = 1 ; shape[1].y = 1; shape[2].x = -1 ; shape[2].y = 0; shape[3].x = 1 ; shape[3].y = 0; shape[4].x = -1 ; shape[4].y = -1; shape[5].x = 1 ; shape[5].y = -1; SetMarkerType(4,6,shape); } else if (markerstyle == 8 || markerstyle == 20) { // O shaped marker (filled) SetMarkerType(1,im*2,shape); } else if (markerstyle == 21) { // here start the old HIGZ symbols // HIGZ full square shape[0].x = -im; shape[0].y = -im; shape[1].x = im; shape[1].y = -im; shape[2].x = im; shape[2].y = im; shape[3].x = -im; shape[3].y = im; shape[4].x = -im; shape[4].y = -im; SetMarkerType(3,5,shape); } else if (markerstyle == 22) { // HIGZ full triangle up shape[0].x = -im; shape[0].y = im; shape[1].x = im; shape[1].y = im; shape[2].x = 0; shape[2].y = -im; shape[3].x = -im; shape[3].y = im; SetMarkerType(3,4,shape); } else if (markerstyle == 23) { // HIGZ full triangle down shape[0].x = 0; shape[0].y = im; shape[1].x = im; shape[1].y = -im; shape[2].x = -im; shape[2].y = -im; shape[3].x = 0; shape[3].y = im; SetMarkerType(3,4,shape); } else if (markerstyle == 25) { // HIGZ open square shape[0].x = -im; shape[0].y = -im; shape[1].x = im; shape[1].y = -im; shape[2].x = im; shape[2].y = im; shape[3].x = -im; shape[3].y = im; shape[4].x = -im; shape[4].y = -im; SetMarkerType(2,5,shape); } else if (markerstyle == 26) { // HIGZ open triangle up shape[0].x = -im; shape[0].y = im; shape[1].x = im; shape[1].y = im; shape[2].x = 0; shape[2].y = -im; shape[3].x = -im; shape[3].y = im; SetMarkerType(2,4,shape); } else if (markerstyle == 27) { // HIGZ open losange Int_t imx = Int_t(2.66*fMarkerSize + 0.5); shape[0].x =-imx; shape[0].y = 0; shape[1].x = 0; shape[1].y = -im; shape[2].x = imx; shape[2].y = 0; shape[3].x = 0; shape[3].y = im; shape[4].x =-imx; shape[4].y = 0; SetMarkerType(2,5,shape); } else if (markerstyle == 28) { // HIGZ open cross Int_t imx = Int_t(1.33*fMarkerSize + 0.5); shape[0].x = -im; shape[0].y =-imx; shape[1].x =-imx; shape[1].y =-imx; shape[2].x =-imx; shape[2].y = -im; shape[3].x = imx; shape[3].y = -im; shape[4].x = imx; shape[4].y =-imx; shape[5].x = im; shape[5].y =-imx; shape[6].x = im; shape[6].y = imx; shape[7].x = imx; shape[7].y = imx; shape[8].x = imx; shape[8].y = im; shape[9].x =-imx; shape[9].y = im; shape[10].x=-imx; shape[10].y= imx; shape[11].x= -im; shape[11].y= imx; shape[12].x= -im; shape[12].y=-imx; SetMarkerType(2,13,shape); } else if (markerstyle == 29) { // HIGZ full star pentagone Int_t im1 = Int_t(0.66*fMarkerSize + 0.5); Int_t im2 = Int_t(2.00*fMarkerSize + 0.5); Int_t im3 = Int_t(2.66*fMarkerSize + 0.5); Int_t im4 = Int_t(1.33*fMarkerSize + 0.5); shape[0].x = -im; shape[0].y = im4; shape[1].x =-im2; shape[1].y =-im1; shape[2].x =-im3; shape[2].y = -im; shape[3].x = 0; shape[3].y =-im2; shape[4].x = im3; shape[4].y = -im; shape[5].x = im2; shape[5].y =-im1; shape[6].x = im; shape[6].y = im4; shape[7].x = im4; shape[7].y = im4; shape[8].x = 0; shape[8].y = im; shape[9].x =-im4; shape[9].y = im4; shape[10].x= -im; shape[10].y= im4; SetMarkerType(3,11,shape); } else if (markerstyle == 30) { // HIGZ open star pentagone Int_t im1 = Int_t(0.66*fMarkerSize + 0.5); Int_t im2 = Int_t(2.00*fMarkerSize + 0.5); Int_t im3 = Int_t(2.66*fMarkerSize + 0.5); Int_t im4 = Int_t(1.33*fMarkerSize + 0.5); shape[0].x = -im; shape[0].y = im4; shape[1].x =-im2; shape[1].y =-im1; shape[2].x =-im3; shape[2].y = -im; shape[3].x = 0; shape[3].y =-im2; shape[4].x = im3; shape[4].y = -im; shape[5].x = im2; shape[5].y =-im1; shape[6].x = im; shape[6].y = im4; shape[7].x = im4; shape[7].y = im4; shape[8].x = 0; shape[8].y = im; shape[9].x =-im4; shape[9].y = im4; shape[10].x= -im; shape[10].y= im4; SetMarkerType(2,11,shape); } else if (markerstyle == 31) { // HIGZ +&&x (kind of star) SetMarkerType(1,im*2,shape); } else { // single dot SetMarkerType(0,0,shape); } } //______________________________________________________________________________ void TGX11::SetOpacity(Int_t percent) { // Set opacity of a window. This image manipulation routine works // by adding to a percent amount of neutral to each pixels RGB. // Since it requires quite some additional color map entries is it // only supported on displays with more than > 8 color planes (> 256 // colors). if (fDepth <= 8) return; if (percent == 0) return; // if 100 percent then just make white ULong_t *orgcolors = 0, *tmpc = 0; Int_t maxcolors = 0, ncolors, ntmpc = 0; // save previous allocated colors, delete at end when not used anymore if (gCws->fNewColors) { tmpc = gCws->fNewColors; ntmpc = gCws->fNcolors; } // get pixmap from server as image XImage *image = XGetImage(fDisplay, gCws->fDrawing, 0, 0, gCws->fWidth, gCws->fHeight, AllPlanes, ZPixmap); // collect different image colors int x, y; for (y = 0; y < (int) gCws->fHeight; y++) { for (x = 0; x < (int) gCws->fWidth; x++) { ULong_t pixel = XGetPixel(image, x, y); CollectImageColors(pixel, orgcolors, ncolors, maxcolors); } } if (ncolors == 0) { XDestroyImage(image); ::operator delete(orgcolors); return; } // create opaque counter parts MakeOpaqueColors(percent, orgcolors, ncolors); // put opaque colors in image for (y = 0; y < (int) gCws->fHeight; y++) { for (x = 0; x < (int) gCws->fWidth; x++) { ULong_t pixel = XGetPixel(image, x, y); Int_t idx = FindColor(pixel, orgcolors, ncolors); XPutPixel(image, x, y, gCws->fNewColors[idx]); } } // put image back in pixmap on server XPutImage(fDisplay, gCws->fDrawing, *gGCpxmp, image, 0, 0, 0, 0, gCws->fWidth, gCws->fHeight); XFlush(fDisplay); // clean up if (tmpc) { if (fRedDiv == -1) XFreeColors(fDisplay, fColormap, tmpc, ntmpc, 0); delete [] tmpc; } XDestroyImage(image); ::operator delete(orgcolors); } //______________________________________________________________________________ void TGX11::CollectImageColors(ULong_t pixel, ULong_t *&orgcolors, Int_t &ncolors, Int_t &maxcolors) { // Collect in orgcolors all different original image colors. if (maxcolors == 0) { ncolors = 0; maxcolors = 100; orgcolors = (ULong_t*) ::operator new(maxcolors*sizeof(ULong_t)); } for (int i = 0; i < ncolors; i++) if (pixel == orgcolors[i]) return; if (ncolors >= maxcolors) { orgcolors = (ULong_t*) TStorage::ReAlloc(orgcolors, maxcolors*2*sizeof(ULong_t), maxcolors*sizeof(ULong_t)); maxcolors *= 2; } orgcolors[ncolors++] = pixel; } //______________________________________________________________________________ void TGX11::MakeOpaqueColors(Int_t percent, ULong_t *orgcolors, Int_t ncolors) { // Get RGB values for orgcolors, add percent neutral to the RGB and // allocate fNewColors. if (ncolors == 0) return; XColor *xcol = new XColor[ncolors]; int i; for (i = 0; i < ncolors; i++) { xcol[i].pixel = orgcolors[i]; xcol[i].red = xcol[i].green = xcol[i].blue = 0; xcol[i].flags = DoRed | DoGreen | DoBlue; } QueryColors(fColormap, xcol, ncolors); UShort_t add = percent * kBIGGEST_RGB_VALUE / 100; Int_t val; for (i = 0; i < ncolors; i++) { val = xcol[i].red + add; if (val > kBIGGEST_RGB_VALUE) val = kBIGGEST_RGB_VALUE; xcol[i].red = (UShort_t) val; val = xcol[i].green + add; if (val > kBIGGEST_RGB_VALUE) val = kBIGGEST_RGB_VALUE; xcol[i].green = (UShort_t) val; val = xcol[i].blue + add; if (val > kBIGGEST_RGB_VALUE) val = kBIGGEST_RGB_VALUE; xcol[i].blue = (UShort_t) val; if (!AllocColor(fColormap, &xcol[i])) Warning("MakeOpaqueColors", "failed to allocate color %hd, %hd, %hd", xcol[i].red, xcol[i].green, xcol[i].blue); // assumes that in case of failure xcol[i].pixel is not changed } gCws->fNewColors = new ULong_t[ncolors]; gCws->fNcolors = ncolors; for (i = 0; i < ncolors; i++) gCws->fNewColors[i] = xcol[i].pixel; delete [] xcol; } //______________________________________________________________________________ Int_t TGX11::FindColor(ULong_t pixel, ULong_t *orgcolors, Int_t ncolors) { // Returns index in orgcolors (and fNewColors) for pixel. for (int i = 0; i < ncolors; i++) if (pixel == orgcolors[i]) return i; Error("FindColor", "did not find color, should never happen!"); return 0; } //______________________________________________________________________________ void TGX11::SetRGB(int cindex, float r, float g, float b) { // Set color intensities for given color index. // cindex : color index // r,g,b : red, green, blue intensities between 0.0 and 1.0 if (fColormap) { XColor xcol; xcol.red = (UShort_t)(r * kBIGGEST_RGB_VALUE); xcol.green = (UShort_t)(g * kBIGGEST_RGB_VALUE); xcol.blue = (UShort_t)(b * kBIGGEST_RGB_VALUE); xcol.flags = DoRed || DoGreen || DoBlue; XColor_t &col = GetColor(cindex); if (col.fDefined) { // if color is already defined with same rgb just return if (col.fRed == xcol.red && col.fGreen == xcol.green && col.fBlue == xcol.blue) return; col.fDefined = kFALSE; if (fRedDiv == -1) XFreeColors(fDisplay, fColormap, &col.fPixel, 1, 0); } if (AllocColor(fColormap, &xcol)) { col.fDefined = kTRUE; col.fPixel = xcol.pixel; col.fRed = xcol.red; col.fGreen = xcol.green; col.fBlue = xcol.blue; } } } //______________________________________________________________________________ void TGX11::SetTextAlign(Short_t talign) { // Set text alignment. // txalh : horizontal text alignment // txalv : vertical text alignment Int_t txalh = talign/10; Int_t txalv = talign%10; fTextAlignH = txalh; fTextAlignV = txalv; switch (txalh) { case 0 : case 1 : switch (txalv) { //left case 1 : fTextAlign = 7; //bottom break; case 2 : fTextAlign = 4; //center break; case 3 : fTextAlign = 1; //top break; } break; case 2 : switch (txalv) { //center case 1 : fTextAlign = 8; //bottom break; case 2 : fTextAlign = 5; //center break; case 3 : fTextAlign = 2; //top break; } break; case 3 : switch (txalv) { //right case 1 : fTextAlign = 9; //bottom break; case 2 : fTextAlign = 6; //center break; case 3 : fTextAlign = 3; //top break; } break; } TAttText::SetTextAlign(fTextAlign); } //______________________________________________________________________________ void TGX11::SetTextColor(Color_t cindex) { // Set color index for text. if (cindex < 0) return; TAttText::SetTextColor(cindex); SetColor(*gGCtext, Int_t(cindex)); XGCValues values; if (XGetGCValues(fDisplay, *gGCtext, GCForeground | GCBackground, &values)) { XSetForeground( fDisplay, *gGCinvt, values.background ); XSetBackground( fDisplay, *gGCinvt, values.foreground ); } else { Error("SetTextColor", "cannot get GC values"); } XSetBackground(fDisplay, *gGCtext, GetColor(0).fPixel); } //______________________________________________________________________________ Int_t TGX11::SetTextFont(char *fontname, ETextSetMode mode) { // Set text font to specified name. // mode : loading flag // mode=0 : search if the font exist (kCheck) // mode=1 : search the font and load it if it exists (kLoad) // font : font name // // Set text font to specified name. This function returns 0 if // the specified font is found, 1 if not. char **fontlist; int fontcount; int i; if (mode == kLoad) { for (i = 0; i < kMAXFONT; i++) { if (strcmp(fontname, gFont[i].name) == 0) { gTextFont = gFont[i].id; XSetFont(fDisplay, *gGCtext, gTextFont->fid); XSetFont(fDisplay, *gGCinvt, gTextFont->fid); return 0; } } } fontlist = XListFonts(fDisplay, fontname, 1, &fontcount); if (fontcount != 0) { if (mode == kLoad) { if (gFont[gCurrentFontNumber].id) XFreeFont(fDisplay, gFont[gCurrentFontNumber].id); gTextFont = XLoadQueryFont(fDisplay, fontlist[0]); XSetFont(fDisplay, *gGCtext, gTextFont->fid); XSetFont(fDisplay, *gGCinvt, gTextFont->fid); gFont[gCurrentFontNumber].id = gTextFont; strcpy(gFont[gCurrentFontNumber].name,fontname); gCurrentFontNumber++; if (gCurrentFontNumber == kMAXFONT) gCurrentFontNumber = 0; } XFreeFontNames(fontlist); return 0; } else { return 1; } } //______________________________________________________________________________ void TGX11::SetTextFont(Font_t fontnumber) { // Set current text font number. fTextFont = fontnumber; } //______________________________________________________________________________ void TGX11::SetTextSize(Float_t textsize) { // Set current text size. fTextSize = textsize; } //______________________________________________________________________________ void TGX11::Sync(int mode) { // Set synchronisation on or off. // mode : synchronisation on/off // mode=1 on // mode<>0 off switch (mode) { case 1 : XSynchronize(fDisplay,1); break; default: XSynchronize(fDisplay,0); break; } } //______________________________________________________________________________ void TGX11::UpdateWindow(int mode) { // Update display. // mode : (1) update // (0) sync // // Synchronise client and server once (not permanent). // Copy the pixmap gCws->fDrawing on the window gCws->fWindow // if the double buffer is on. if (gCws->fDoubleBuffer) { XCopyArea(fDisplay, gCws->fDrawing, gCws->fWindow, *gGCpxmp, 0, 0, gCws->fWidth, gCws->fHeight, 0, 0); } if (mode == 1) { XFlush(fDisplay); } else { XSync(fDisplay, False); } } //______________________________________________________________________________ void TGX11::Warp(Int_t ix, Int_t iy, Window_t id) { // Set pointer position. // ix : New X coordinate of pointer // iy : New Y coordinate of pointer // Coordinates are relative to the origin of the window id // or to the origin of the current window if id == 0. if (!id) { // Causes problems when calling ProcessEvents()... BadWindow //XWarpPointer(fDisplay, None, gCws->fWindow, 0, 0, 0, 0, ix, iy); } else { XWarpPointer(fDisplay, None, (Window) id, 0, 0, 0, 0, ix, iy); } } //______________________________________________________________________________ void TGX11::WritePixmap(int wid, unsigned int w, unsigned int h, char *pxname) { // Write the pixmap wid in the bitmap file pxname. // wid : Pixmap address // w,h : Width and height of the pixmap. // lenname : pixmap name length // pxname : pixmap name unsigned int wval, hval; wval = w; hval = h; gTws = &fWindows[wid]; XWriteBitmapFile(fDisplay, pxname, gTws->fDrawing, wval, hval, -1, -1); } // // Functions for GIFencode() // static FILE *gOut; // output unit used WriteGIF and PutByte static XImage *gXimage = 0; // image used in WriteGIF and GetPixel extern "C" { int GIFquantize(UInt_t width, UInt_t height, Int_t *ncol, Byte_t *red, Byte_t *green, Byte_t *blue, Byte_t *outputBuf, Byte_t *outputCmap); long GIFencode(int Width, int Height, Int_t Ncol, Byte_t R[], Byte_t G[], Byte_t B[], Byte_t ScLine[], void (*get_scline) (int, int, Byte_t *), void (*pb)(Byte_t)); int GIFdecode(Byte_t *gifArr, Byte_t *pixArr, int *Width, int *Height, int *Ncols, Byte_t *R, Byte_t *G, Byte_t *B); int GIFinfo(Byte_t *gifArr, int *Width, int *Height, int *Ncols); } //______________________________________________________________________________ static void GetPixel(int y, int width, Byte_t *scline) { // Get pixels in line y and put in array scline. for (int i = 0; i < width; i++) scline[i] = Byte_t(XGetPixel(gXimage, i, y)); } //______________________________________________________________________________ static void PutByte(Byte_t b) { // Put byte b in output stream. if (ferror(gOut) == 0) fputc(b, gOut); } //______________________________________________________________________________ void TGX11::ImgPickPalette(XImage *image, Int_t &ncol, Int_t *&R, Int_t *&G, Int_t *&B) { // Returns in R G B the ncol colors of the palette used by the image. // The image pixels are changed to index values in these R G B arrays. // This produces a colormap with only the used colors (so even on displays // with more than 8 planes we will be able to create GIF's when the image // contains no more than 256 different colors). If it does contain more // colors we will have to use GIFquantize to reduce the number of colors. // The R G B arrays must be deleted by the caller. ULong_t *orgcolors = 0; Int_t maxcolors = 0, ncolors; // collect different image colors int x, y; for (x = 0; x < (int) gCws->fWidth; x++) { for (y = 0; y < (int) gCws->fHeight; y++) { ULong_t pixel = XGetPixel(image, x, y); CollectImageColors(pixel, orgcolors, ncolors, maxcolors); } } // get RGB values belonging to pixels XColor *xcol = new XColor[ncolors]; int i; for (i = 0; i < ncolors; i++) { xcol[i].pixel = orgcolors[i]; xcol[i].red = xcol[i].green = xcol[i].blue = 0; xcol[i].flags = DoRed | DoGreen | DoBlue; } QueryColors(fColormap, xcol, ncolors); // create RGB arrays and store RGB's for each color and set number of colors // (space must be delete by caller) R = new Int_t[ncolors]; G = new Int_t[ncolors]; B = new Int_t[ncolors]; for (i = 0; i < ncolors; i++) { R[i] = xcol[i].red; G[i] = xcol[i].green; B[i] = xcol[i].blue; } ncol = ncolors; // update image with indices (pixels) into the new RGB colormap for (x = 0; x < (int) gCws->fWidth; x++) { for (y = 0; y < (int) gCws->fHeight; y++) { ULong_t pixel = XGetPixel(image, x, y); Int_t idx = FindColor(pixel, orgcolors, ncolors); XPutPixel(image, x, y, idx); } } // cleanup delete [] xcol; ::operator delete(orgcolors); } //______________________________________________________________________________ Int_t TGX11::WriteGIF(char *name) { // Writes the current window into GIF file. Returns 1 in case of success, // 0 otherwise. Byte_t scline[2000], r[256], b[256], g[256]; Int_t *red, *green, *blue; Int_t ncol, maxcol, i; if (gXimage) { XDestroyImage(gXimage); gXimage = 0; } gXimage = XGetImage(fDisplay, gCws->fDrawing, 0, 0, gCws->fWidth, gCws->fHeight, AllPlanes, ZPixmap); ImgPickPalette(gXimage, ncol, red, green, blue); if (ncol > 256) { //GIFquantize(...); Error("WriteGIF", "can not create GIF of image containing more than 256 colors"); delete [] red; delete [] green; delete [] blue; return 0; } maxcol = 0; for (i = 0; i < ncol; i++) { if (maxcol < red[i] ) maxcol = red[i]; if (maxcol < green[i] ) maxcol = green[i]; if (maxcol < blue[i] ) maxcol = blue[i]; r[i] = 0; g[i] = 0; b[i] = 0; } if (maxcol != 0) { for (i = 0; i < ncol; i++) { r[i] = red[i] * 255/maxcol; g[i] = green[i] * 255/maxcol; b[i] = blue[i] * 255/maxcol; } } gOut = fopen(name, "w+"); if (gOut) { GIFencode(gCws->fWidth, gCws->fHeight, ncol, r, g, b, scline, ::GetPixel, PutByte); fclose(gOut); i = 1; } else { Error("WriteGIF","cannot write file: %s",name); i = 0; } delete [] red; delete [] green; delete [] blue; return i; } //______________________________________________________________________________ void TGX11::PutImage(int offset,int itran,int x0,int y0,int nx,int ny,int xmin, int ymin,int xmax,int ymax, unsigned char *image,Drawable_t wid) { // Draw image. const int maxSegment = 20; int i, n, x, y, xcur, x1, x2, y1, y2; unsigned char *jimg, *jbase, icol; int nlines[256]; XSegment lines[256][maxSegment]; Drawable_t id; if (wid) { id = wid; } else { id = gCws->fDrawing; } for (i = 0; i < 256; i++) nlines[i] = 0; x1 = x0 + xmin; y1 = y0 + ny - ymax - 1; x2 = x0 + xmax; y2 = y0 + ny - ymin - 1; jbase = image + (ymin-1)*nx + xmin; for (y = y2; y >= y1; y--) { xcur = x1; jbase += nx; for (jimg = jbase, icol = *jimg++, x = x1+1; x <= x2; jimg++, x++) { if (icol != *jimg) { if (icol != itran) { n = nlines[icol]++; lines[icol][n].x1 = xcur; lines[icol][n].y1 = y; lines[icol][n].x2 = x-1; lines[icol][n].y2 = y; if (nlines[icol] == maxSegment) { SetColor(*gGCline,(int)icol+offset); XDrawSegments(fDisplay,id,*gGCline,&lines[icol][0], maxSegment); nlines[icol] = 0; } } icol = *jimg; xcur = x; } } if (icol != itran) { n = nlines[icol]++; lines[icol][n].x1 = xcur; lines[icol][n].y1 = y; lines[icol][n].x2 = x-1; lines[icol][n].y2 = y; if (nlines[icol] == maxSegment) { SetColor(*gGCline,(int)icol+offset); XDrawSegments(fDisplay,id,*gGCline,&lines[icol][0], maxSegment); nlines[icol] = 0; } } } for (i = 0; i < 256; i++) { if (nlines[i] != 0) { SetColor(*gGCline,i+offset); XDrawSegments(fDisplay,id,*gGCline,&lines[i][0],nlines[i]); } } } //______________________________________________________________________________ Pixmap_t TGX11::ReadGIF(int x0, int y0, const char *file, Window_t id) { // If id is NULL - loads the specified gif file at position [x0,y0] in the // current window. Otherwise creates pixmap from gif file FILE *fd; Seek_t filesize; unsigned char *gifArr, *pixArr, red[256], green[256], blue[256], *j1, *j2, icol; int i, j, k, width, height, ncolor, irep, offset; float rr, gg, bb; Pixmap_t pic = 0; fd = fopen(file, "r"); if (!fd) { Error("ReadGIF", "unable to open GIF file"); return pic; } fseek(fd, 0L, 2); filesize = Seek_t(ftell(fd)); fseek(fd, 0L, 0); if (!(gifArr = (unsigned char *) calloc(filesize+256,1))) { Error("ReadGIF", "unable to allocate array for gif"); fclose(fd); return pic; } if (fread(gifArr, filesize, 1, fd) != 1) { Error("ReadGIF", "GIF file read failed"); free(gifArr); fclose(fd); return pic; } fclose(fd); irep = GIFinfo(gifArr, &width, &height, &ncolor); if (irep != 0) { free(gifArr); return pic; } if (!(pixArr = (unsigned char *) calloc((width*height),1))) { Error("ReadGIF", "unable to allocate array for image"); free(gifArr); return pic; } irep = GIFdecode(gifArr, pixArr, &width, &height, &ncolor, red, green, blue); if (irep != 0) { free(gifArr); free(pixArr); return pic; } // S E T P A L E T T E offset = 8; for (i = 0; i < ncolor; i++) { rr = red[i]/255.; gg = green[i]/255.; bb = blue[i]/255.; j = i+offset; SetRGB(j,rr,gg,bb); } // O U T P U T I M A G E for (i = 1; i <= height/2; i++) { j1 = pixArr + (i-1)*width; j2 = pixArr + (height-i)*width; for (k = 0; k < width; k++) { icol = *j1; *j1++ = *j2; *j2++ = icol; } } if (id) pic = CreatePixmap(id, width, height); PutImage(offset,-1,x0,y0,width,height,0,0,width-1,height-1,pixArr,pic); free(gifArr); free(pixArr); if (pic) return pic; else if (gCws->fDrawing) return (Pixmap_t)gCws->fDrawing; return 0; } //______________________________________________________________________________ unsigned char *TGX11::GetColorBits(Drawable_t /*wid*/, Int_t /*x*/, Int_t /*y*/, UInt_t /*w*/, UInt_t /*h*/) { // Returns an array of pixels created from a part of drawable (defined by x, y, w, h) // in format: // b1, g1, r1, 0, b2, g2, r2, 0 ... bn, gn, rn, 0 .. // // Pixels are numbered from left to right and from top to bottom. // By default all pixels from the whole drawable are returned. // // Note that return array is 32-bit aligned return 0; } //______________________________________________________________________________ Pixmap_t TGX11::CreatePixmapFromData(unsigned char * /*bits*/, UInt_t /*width*/, UInt_t /*height*/) { // create pixmap from RGB data. RGB data is in format : // b1, g1, r1, 0, b2, g2, r2, 0 ... bn, gn, rn, 0 .. // // Pixels are numbered from left to right and from top to bottom. // Note that data must be 32-bit aligned return (Pixmap_t)0; } //______________________________________________________________________________ Int_t TGX11::AddPixmap(ULong_t pixid, UInt_t w, UInt_t h) { // Register pixmap created by gVirtualGL // w,h : Width and height of the pixmap. //register new pixmap Int_t wid = 0; // Select next free window number for (; wid < fMaxNumberOfWindows; ++wid) if (!fWindows[wid].fOpen) break; if (wid == fMaxNumberOfWindows) { Int_t newsize = fMaxNumberOfWindows + 10; fWindows = (XWindow_t*) TStorage::ReAlloc( fWindows, newsize * sizeof(XWindow_t), fMaxNumberOfWindows*sizeof(XWindow_t) ); for (Int_t i = fMaxNumberOfWindows; i < newsize; ++i) fWindows[i].fOpen = 0; fMaxNumberOfWindows = newsize; } fWindows[wid].fOpen = 1; gCws = fWindows + wid; gCws->fWindow = pixid; gCws->fDrawing = gCws->fWindow; gCws->fBuffer = 0; gCws->fDoubleBuffer = 0; gCws->fIsPixmap = 1; gCws->fClip = 0; gCws->fWidth = w; gCws->fHeight = h; gCws->fNewColors = 0; gCws->fShared = kFALSE; return wid; }
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