G4RTXScanner.cc

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// $Id$
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//
 
#ifdef G4VIS_BUILD_RAYTRACERX_DRIVER
 
#include "G4RTXScanner.hh"
 
#include "G4TheRayTracer.hh"
#include "G4RayTracerXViewer.hh"
#include "G4ViewParameters.hh"
#include <X11/Xlib.h>
#include <X11/Xutil.h>
#include <X11/Xatom.h>
 
extern "C" {
  Bool G4RayTracerXScannerWaitForNotify (Display*, XEvent* e, char* arg) {
    return (e->type == MapNotify) && (e->xmap.window == (Window) arg);
  }
}
 
G4RTXScanner::G4RTXScanner():
  G4VRTScanner(), theNRow(0), theNColumn(0), theStep(0)
  ,theIRow(0), theIColumn(0)
  ,display(0), win(0), scmap(0)
{
  theGSName = "RayTracerX";
  theGSNickname = "RayTracerX";
}
 
G4RTXScanner::~G4RTXScanner() {}
 
const G4String& G4RTXScanner::GetGSName() const
{return theGSName;}
 
const G4String& G4RTXScanner::GetGSNickname() const
{return theGSNickname;}
 
void G4RTXScanner::Initialize(G4int nRow, G4int nColumn) {
  theNRow = nRow;
  theNColumn = nColumn;
  G4int nMax = std::max (nRow, nColumn);
  theStep = 1;
  if (nMax > 3) {
    for (;;) {
      theStep *= 3;
      if (theStep > nMax) break;
    }
  }
  theIRow = theStep / 2;
  theIColumn = theStep / 2 - theStep;
}
 
G4bool G4RTXScanner::Coords(G4int& iRow, G4int& iColumn)
{
  // Increment column...
  theIColumn += theStep;
 
  // Skip coordinates covered in the previous scan...
  if ((theIColumn + (3 * theStep) / 2 + 1)%(3 * theStep) == 0 &&
      (theIRow + (3 * theStep) / 2 + 1)%(3 * theStep) == 0)
    theIColumn += theStep;
 
  //  If necessary, increment row...
  if (theIColumn >= theNColumn) {
    theIColumn = theStep / 2;
    theIRow += theStep;
  }
 
  // Return if finished...
  if (theIRow >= theNRow && theStep <= 1) return false;
 
  // Start next scan if necessary...
  if (theIRow >= theNRow) {
    theStep /= 3;
    theIRow = theStep / 2;
    theIColumn = theStep / 2;
  }
 
  // Return current row and column...
  iRow = theIRow;
  iColumn = theIColumn;
  return true;
}
 
G4bool G4RTXScanner::GetXWindow(const G4String& name, G4ViewParameters& vp)
{
  display = XOpenDisplay(0);  // Use display defined by DISPLAY environment.
  if (!display) {
    G4cerr << "G4RTXScanner::Initialize(): cannot get display."
       << G4endl;
    return false;
  }
 
  int screen_num = DefaultScreen(display);
 
  // Window size and position...
  int xOffset = 0, yOffset = 0;
  XSizeHints* size_hints = XAllocSizeHints();
  unsigned int width, height;
  const G4String& XGeometryString = vp.GetXGeometryString();
  if (!XGeometryString.empty()) {
    G4int geometryResultMask = XParseGeometry
      ((char*)XGeometryString.c_str(),
       &xOffset, &yOffset, &width, &height);
    if (geometryResultMask & (WidthValue | HeightValue)) {
      if (geometryResultMask & XValue) {
    if (geometryResultMask & XNegative) {
      xOffset = DisplayWidth(display, screen_num) + xOffset - width;
    }
    size_hints->flags |= PPosition;
    size_hints->x = xOffset;
      }
      if (geometryResultMask & YValue) {
    if (geometryResultMask & YNegative) {
      yOffset = DisplayHeight(display, screen_num) + yOffset - height;
    }
    size_hints->flags |= PPosition;
    size_hints->y = yOffset;
      }
    } else {
      G4cout << "ERROR: Geometry string \""
         << XGeometryString
         << "\" invalid.  Using \"600x600\"."
         << G4endl;
      width = 600;
      height = 600;
    }
  } else {
    G4cout << "ERROR: Geometry string \""
       << XGeometryString
       << "\" is empty.  Using \"600x600\"."
       << G4endl;
    width = 600;
    height = 600;
  }
  size_hints->width = width;
  size_hints->height = height;
  size_hints->flags |= PSize;
 
  win = XCreateSimpleWindow
    (display, RootWindow(display, screen_num),
     xOffset, yOffset, width, height,
     0,                                 // Border width.
     WhitePixel(display, screen_num),   // Border colour.
     BlackPixel(display, screen_num));  // Background colour.
 
  XGCValues values;
  gc = XCreateGC(display, win, 0, &values);
 
  int nMaps;
  Status status = XGetRGBColormaps
    (display, RootWindow(display, screen_num),
     &scmap, &nMaps, XA_RGB_BEST_MAP);
  if (!status) {
    system("xstdcmap -best");  // ...and try again...
    status = XGetRGBColormaps
      (display, RootWindow(display, screen_num),
       &scmap, &nMaps, XA_RGB_BEST_MAP);
    if (!status) {
      G4cerr <<
    "G4RTXScanner::Initialize(): cannot get color map."
    "\n  Perhaps your system does not support RGB_BEST_MAP."
         << G4endl;
      return false;
    }
  }
  if (!scmap->colormap) {
    G4cerr << "G4RTXScanner::Initialize(): color map empty."
       << G4endl;
    return false;
  }
 
  XWMHints* wm_hints = XAllocWMHints();
  XClassHint* class_hint = XAllocClassHint();
  const char* window_name = name.c_str();
  XTextProperty windowName;
  XStringListToTextProperty((char**)&window_name, 1, &windowName);
 
  XSetWMProperties(display, win, &windowName, &windowName,
           0, 0, size_hints, wm_hints, class_hint);
 
  XMapWindow(display, win);
 
  // Wait for window to appear (wait for an "map notify" event).
  XSelectInput(display, win, StructureNotifyMask);
  XEvent event;
  XIfEvent (display, &event, G4RayTracerXScannerWaitForNotify, (char*) win);
 
  return true;
}
 
void G4RTXScanner::Draw
(unsigned char red, unsigned char green, unsigned char blue)
// Draw coloured square at current position.
{
  unsigned long pixel_value = scmap->base_pixel +
    ((unsigned long) ((red * scmap->red_max) / 256.) * scmap->red_mult) +
    ((unsigned long) ((green * scmap->green_max) / 256.) * scmap->green_mult) +
    ((unsigned long) ((blue * scmap->blue_max) / 256.) * scmap->blue_mult);
  XSetForeground(display, gc, pixel_value);
 
  if (theStep > 1) {
    XFillRectangle(display, win, gc,
           theIColumn - theStep / 2,
           theIRow - theStep / 2,
           theStep, theStep);
  } else {
    XDrawPoint(display, win, gc, theIColumn, theIRow);
  }
 
  XFlush(display);
}
 
#endif