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AgedImage.cxx
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AgedImage.cxx
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//==============================================================================
// File: AgedImage.cxx
//
// Copyright (c) 2017, Phil Harvey, Queen's University
//==============================================================================
#include <math.h>
#include <stdlib.h>
#include "AgedImage.h"
#include "AgedWindow.h"
#include "PResourceManager.h"
#include "PHitInfoWindow.h"
#include "PSpeaker.h"
#include "PUtils.h"
#include "menu.h"
#include "TStoreEvent.hh"
#include "TStoreLine.hh"
#include "TStoreHelix.hh"
#define STRETCH 4
#define UPDATE_FIT 0x01 // update fit information window
#define UPDATE_HIT_VALS 0x02 // update displays where hit values are used
#define NN_AXES 16
#define NE_AXES 11
const double kMaxR = 175 / AG_SCALE; // maximum radius for helix track
const double kMaxRSq = kMaxR * kMaxR;
const double kFitLineLength = 1.5;
const double kMinMagnification = 0.1;
const double kMaxMagnification = 10;
static Point3 axes_nodes[NN_AXES] = {
{ 0 , 0 , 0 },
{ 1.1 , 0 , 0 },
{ 0 , 1.1 , 0 },
{ 0 , 0 , 1.1 },
{ 1.15, 0.05, -0.05 },
{ 1.25, -0.05, 0.05 },
{ 1.15, -0.05, 0.05 },
{ 1.25, 0.05, -0.05 },
{ 0.05, 1.25, -0.05 },
{ 0 , 1.2 , 0 },
{ -0.05, 1.25, 0.05 },
{ 0 , 1.15, 0 },
{ -0.05, 0.05, 1.15 },
{ 0.05, -0.05, 1.15 },
{ -0.05, 0.05, 1.25 },
{ 0.05, -0.05, 1.25 } };
static int axes_node1[NE_AXES] = { 0,0,0,4,6,8, 9, 9,12,13,14 };
static int axes_node2[NE_AXES] = { 1,2,3,5,7,9,10,11,13,14,15 };
//-----------------------------------------------------------------------------
AgedImage::AgedImage(PImageWindow *owner, Widget canvas)
: PProjImage(owner,canvas)
{
char *msg;
ImageData *data = owner->GetData();
mHitSize = 0;
mMinMagAtan = atan(kMinMagnification);
mMaxMagAtan = atan(kMaxMagnification);
mMarginPix = 2;
mMarginFactor = 1.25;
mProj = data->proj;
mProj.proj_type = IDM_PROJ_3D;
SetDirty(kDirtyAll);
data->mSpeaker->AddListener(this);
/* transform the sun direction */
Transform(&data->sun_dir, 1);
memset(&mAxes, 0, sizeof(mAxes));
memset(&mDet, 0, sizeof(mDet));
initNodes(&mAxes, axes_nodes, NN_AXES);
initEdges(&mAxes, axes_node1, axes_node2, NE_AXES);
msg = loadGeometry(&mDet, IDM_DETECTOR, data->argv);
if (msg) quit(msg);
SetToHome(-1);
if (data->show_detector) {
CalcDetectorShading();
}
}
AgedImage::~AgedImage()
{
freeWireFrame(&mAxes);
freePoly(&mDet);
}
void AgedImage::Listen(int message, void *dataPt)
{
ImageData *data = mOwner->GetData();
switch (message) {
case kMessageDetectorChanged:
if (data->show_detector) {
CalcDetectorShading();
SetDirty(kDirtyDetector);
} else {
SetDirty();
}
break;
case kMessageSmoothTextChanged:
if (data->angle_rad <= 1) {
SetDirty();
}
break;
case kMessageSmoothLinesChanged:
SetDirty();
break;
case kMessageCursorHit:
SetDirty(kDirtyCursor);
break;
case kMessageEventCleared:
case kMessageFitLinesChanged:
case kMessageHitSizeChanged:
case kMessageFitSizeChanged:
SetDirty();
break;
case kMessageNewEvent:
SetDirty(kDirtyAll);
break;
case kMessageFitChanged:
SetDirty(kDirtyFit);
break;
case kMessageAngleFormatChanged:
if (mProj.theta || mProj.phi || mProj.gamma) {
SetDirty();
}
break;
default:
PProjImage::Listen(message,dataPt);
break;
}
}
void AgedImage::CalcGrab3(int x,int y)
{
float al,fr;
CalcGrab2(x,y);
al = sqrt(mGrabX*mGrabX + mGrabY*mGrabY);
mGrabZ = cos(al);
if (!al) fr = 0;
else fr = sin(al)/al;
mGrabX *= fr;
mGrabY *= fr;
}
void AgedImage::CalcGrab2(int x,int y)
{
/*
** Calculate distance from center (xc,yc) expressed as a fraction of r
*/
mGrabX = mProj.pt[0] + (x - mProj.xcen)/(float)mProj.xscl;
mGrabY = mProj.pt[1] - (y - mProj.ycen)/(float)mProj.yscl;
}
void AgedImage::HandleEvents(XEvent *event)
{
float xl,yl,zl;
Vector3 v1;
float theta, phi, alpha;
Matrix3 tmp;
ImageData *data = mOwner->GetData();
static int rotate_flag;
static int update_flags;
static int last_x, last_y;
static int didDrag = 0;
switch (event->type) {
case kTimerEvent:
SetCursor(CURSOR_MOVE_4);
didDrag = 1;
break;
case ButtonPress:
if (HandleButton3(event)) return;
if (!sButtonDown) {
if (IsInLabel(event->xbutton.x, event->xbutton.y)) {
ShowLabel(!IsLabelOn());
SetCursorForPos(event->xbutton.x, event->xbutton.y);
break;
}
XGrabPointer(data->display, XtWindow(mCanvas),0,
PointerMotionMask | ButtonPressMask | ButtonReleaseMask,
GrabModeAsync, GrabModeAsync, None, None, CurrentTime);
sButtonDown = event->xbutton.button;
switch (sButtonDown) {
case Button1:
rotate_flag = 1;
break;
case Button2:
rotate_flag = 0;
break;
default:
sButtonDown = 0;
break;
}
if (sButtonDown) {
if (rotate_flag) {
CalcGrab3(event->xbutton.x, event->xbutton.y);
} else {
CalcGrab2(event->xbutton.x, event->xbutton.y);
}
last_x = event->xbutton.x;
last_y = event->xbutton.y;
didDrag = 0;
ArmTimer();
}
update_flags = 0;
}
break;
case ButtonRelease:
if (sButtonDown == (int)event->xbutton.button) {
ResetTimer();
if (!didDrag) {
int oldSticky = data->cursor_sticky;
int oldCursor = data->cursor_hit;
data->cursor_sticky ^= 1;
data->cursor_hit = -1;
data->last_cur_x = event->xmotion.x;
data->last_cur_y = event->xmotion.y;
FindNearestHit();
if (data->cursor_hit == -1) data->cursor_sticky = 0;
if (oldCursor >= 0 && oldCursor == data->cursor_hit &&
!data->cursor_sticky && oldSticky)
{
sendMessage(data, kMessageAddOverlay);
}
sendMessage(data, kMessageCursorHit, this);
}
SetCursor(CURSOR_XHAIR);
XUngrabPointer(data->display, CurrentTime);
sButtonDown = 0;
/*
** Update all necessary windows after grab is released
*/
if (update_flags & UPDATE_HIT_VALS) {
sendMessage(data, kMessageHitsChanged);
}
if (update_flags & UPDATE_FIT) {
sendMessage(data, kMessageFitChanged);
}
}
break;
case MotionNotify:
if (!sButtonDown) {
// let the base class handle pointer motion
PProjImage::HandleEvents(event);
sendMessage(data, kMessage3dCursorMotion, (void *)this);
break;
}
if (event->xmotion.is_hint) break;
if (!didDrag) {
int dx = last_x - event->xbutton.x;
int dy = last_y - event->xbutton.y;
// must surpass motion threshold before activating grab
if (dx>-4 && dx<4 && dy>-4 && dy<4) break;
SetCursor(CURSOR_MOVE_4);
didDrag = 1;
ResetTimer();
}
xl = mGrabX;
yl = mGrabY;
zl = mGrabZ;
/*
** Shift detector
*/
if (!rotate_flag) {
CalcGrab2(event->xbutton.x, event->xbutton.y);
mProj.pt[0] += xl - mGrabX;
mProj.pt[1] += yl - mGrabY;
mGrabX = xl;
mGrabY = yl;
SetDirty(kDirtyAll);
mOwner->SetScrolls();
Draw();
break;
}
CalcGrab3(event->xmotion.x, event->xmotion.y);
v1[0] = yl*mGrabZ - zl*mGrabY; /* calculate axis of rotation */
v1[1] = zl*mGrabX - xl*mGrabZ;
v1[2] = xl*mGrabY - yl*mGrabX;
unitVector(v1); /* (necessary for phi calculation) */
if (v1[0] || v1[1]) theta = atan2(v1[1],v1[0]);
else theta = 0;
phi = acos(v1[2]);
alpha = -vectorLen(mGrabX-xl, mGrabY-yl, mGrabZ-zl);
getRotMatrix(tmp, theta, phi, alpha);
matrixMult(mProj.rot, tmp);
RotationChanged();
SetDirty(kDirtyAll);
break;
default:
PProjImage::HandleEvents(event);
break;
}
}
/*
** Set scrollbars to proper location
*/
void AgedImage::SetScrolls()
{
int pos;
pos = kScrollMax - (int)(kScrollMax * (atan(mProj.mag)-mMinMagAtan) / (mMaxMagAtan-mMinMagAtan) + 0.5);
mOwner->SetScrollValue(kScrollLeft, pos);
pos = (kScrollMax/2) + (int)(kScrollMax*mSpinAngle/(4*PI));
mOwner->SetScrollValue(kScrollBottom, pos);
if (mProj.pt[2] >= mProj.proj_max) {
pos = kScrollMax;
} else if (mProj.pt[2] <= mProj.proj_min) {
pos = 0;
} else {
pos = (int)(kScrollMax*(1.0-atan(STRETCH/(mProj.pt[2]-mProj.proj_min))/(PI/2))+0.5);
}
mOwner->SetScrollValue(kScrollRight, pos);
}
void AgedImage::ScrollValueChanged(EScrollBar bar, int value)
{
int val;
float t;
switch (bar) {
case kScrollRight:
val = kScrollMax - value;
if (val == 0) {
mProj.pt[2] = mProj.proj_max;
} else if (val == kScrollMax) {
mProj.pt[2] = mProj.proj_min;
} else {
t = val * (PI/(2*kScrollMax));
mProj.pt[2] = STRETCH / tan(t) + mProj.proj_min;
}
SetDirty(kDirtyAll);
break;
case kScrollLeft:
mProj.mag = tan(mMinMagAtan + (mMaxMagAtan-mMinMagAtan) * (kScrollMax - value) / kScrollMax);
Resize();
break;
case kScrollBottom: {
Matrix3 rot;
float newSpin = (value - kScrollMax/2) * (4*PI) /kScrollMax;
get3DMatrix(rot,0.0,0.0,mSpinAngle-newSpin);
mSpinAngle = newSpin;
matrixMult(rot,mProj.rot);
memcpy(mProj.rot,rot,sizeof(rot));
RotationChanged();
SetDirty(kDirtyAll);
} break;
default:
break;
}
}
void AgedImage::Resize()
{
mProj.xsiz = mWidth;
mProj.ysiz = mHeight;
mProj.xcen = mWidth/2;
mProj.ycen = mHeight/2;
mProj.xscl = (int)(0.4 * mProj.mag * (mProj.xsiz<mProj.ysiz ? mProj.xsiz : mProj.ysiz));
if (mProj.xscl < 1) mProj.xscl = 1;
mProj.yscl = mProj.xscl;
SetDirty(kDirtyAll);
}
void AgedImage::TransformHits()
{
int i;
ImageData *data = mOwner->GetData();
int num = data->hits.num_nodes;
#ifdef PRINT_DRAWS
Printf(":transform 3-D\n");
#endif
if (num) {
Node *node = data->hits.nodes;
Transform(node,num);
float *pt = mProj.pt;
if (pt[2] < mProj.proj_max) {
for (i=0; i<num; ++i,++node) {
float dot = (pt[0] - node->xr) * node->xr +
(pt[1] - node->yr) * node->yr +
(pt[2] - node->zr) * node->zr;
if (dot > 0) node->flags |= NODE_HID;
}
} else {
for (i=0; i<num; ++i,++node) {
if (node->zr > 0) node->flags |= NODE_HID;
}
}
}
/* must do this to save mLastImage */
PProjImage::TransformHits();
}
/* the rotation matrix has changed */
void AgedImage::RotationChanged()
{
matrixTranspose(mProj.rot,mProj.inv);
/* calculate current viewing angles */
// theta is the angle from the z axis to the viewing direction
if (mProj.rot[2][2]) {
mProj.theta = acos(mProj.rot[2][2]) - PI/2;
} else {
mProj.theta = 0;
}
// phi is the angle from the x axis to the viewing direction
// measured CCW in the x-y plane
if (mProj.rot[2][0]!=1.0 || mProj.rot[2][1]) {
double len = sqrt(mProj.rot[2][0]*mProj.rot[2][0] + mProj.rot[2][1]*mProj.rot[2][1]);
if (len) {
double dx = mProj.rot[2][0] / len;
double dy = mProj.rot[2][1] / len;
mProj.phi = atan2(dy,dx);
} else {
mProj.phi = 0;
}
} else {
mProj.phi = 0;
}
// gamma is the CW angle between the projected z axis and 'up' on the screen
if (mProj.rot[0][2] || mProj.rot[1][2]) {
mProj.gamma = atan2(mProj.rot[0][2], mProj.rot[1][2]);
} else {
mProj.gamma = 0;
}
}
void AgedImage::SetToHome(int n)
{
mProj.pt[0] = mProj.pt[1] = 0;
if (n < 0) {
mProj.pt[2] = 5; //mProj.proj_max;
mProj.mag = 0.70;
}
mProj.theta = 0.;
mProj.phi = 0.;
mProj.gamma = 0.;
mSpinAngle = 0.;
if (n <= 0) {
/* set home position to z left, y up */
mProj.rot[0][0] = 0; mProj.rot[0][1] = 0; mProj.rot[0][2] = -1;
mProj.rot[1][0] = 0; mProj.rot[1][1] = 1; mProj.rot[1][2] = 0;
mProj.rot[2][0] = 1; mProj.rot[2][1] = 0; mProj.rot[2][2] = 0;
} else {
// set to top position - x right, y up
mProj.rot[0][0] = -1; mProj.rot[0][1] = 0; mProj.rot[0][2] = 0;
mProj.rot[1][0] = 0; mProj.rot[1][1] = 1; mProj.rot[1][2] = 0;
mProj.rot[2][0] = 0; mProj.rot[2][1] = 0; mProj.rot[2][2] = -1;
}
RotationChanged();
Resize();
}
/*
** Calculate shading for detector faces
*/
void AgedImage::CalcDetectorShading()
{
ImageData *data = mOwner->GetData();
Face *face = mDet.faces;
Face *lface = face + mDet.num_faces;
Face *mface = face + mDet.num_faces / 2;
Node *n2 = &data->sun_dir;
// half the colours to use on each cylinder
int hcol = data->det_cols * 3 / 8;
// first colour for lighter outside cylinder
int col0 = data->det_cols - hcol * 2;
for (; face<mface; ++face) {
double dot = face->norm.x*n2->x3 + face->norm.y*n2->y3 + face->norm.z*n2->z3;
face->flags = (((int)((dot + 1) * hcol) + col0) << FACE_COL_SHFT)
| (face->flags & FACE_HID); /* preserve hidden flags */
}
for (; face<lface; ++face) {
double dot = face->norm.x*n2->x3 + face->norm.y*n2->y3 + face->norm.z*n2->z3;
face->flags = ((int)((dot + 1) * hcol) << FACE_COL_SHFT)
| (face->flags & FACE_HID); /* preserve hidden flags */
}
}
/* ----------------------------------------------------------------------------
** Main Aged 3-D drawing routine
*/
void AgedImage::DrawSelf()
{
ImageData *data = mOwner->GetData();
XSegment segments[MAX_EDGES], *sp;
XPoint point[6];
int i,j,n,num;
Node *n1,*n2;
Node nod[6];
Edge *edge, *last;
Face *face, *lface;
if (IsDirty() == kDirtyCursor) return; // don't draw if just our cursor changed
/*
** recalculate necessary values for display
*/
if (IsDirty() & kDirtyAll) {
if (IsDirty() & kDirtyHits) {
TransformHits();
}
if (IsDirty() & kDirtyAxes) {
Transform(mAxes.nodes, mAxes.num_nodes);
}
if ((IsDirty() & kDirtyDetector) && data->show_detector) {
Vector3 ip;
transformPoly(&mDet,&mProj);
vectorMult(mProj.inv,mProj.pt,ip);
}
}
/*
** Start drawing
*/
#ifdef PRINT_DRAWS
Printf("draw 3-D image\n");
#endif
PImageCanvas::DrawSelf(); // let the base class clear the drawing area
// transform hits for this image if necessary
if (data->mLastImage != this) {
TransformHits();
}
SetFont(data->hist_font);
#ifdef ANTI_ALIAS
SetFont(data->xft_hist_font);
#endif
/* draw projection angles */
if (mProj.theta || mProj.phi || mProj.gamma) DrawAngles(0,kAngleAll);
/*
** Draw detector
*/
if (data->show_detector) {
mDrawable->Comment("Detector");
lface= mDet.faces + mDet.num_faces;
n2 = &data->sun_dir;
for (face=mDet.faces; face<lface; ++face) {
if (face->flags & FACE_HID) continue;
num = face->num_nodes;
for (i=0,n=0; i<num; ++i) {
n1 = face->nodes[i];
if (n1->flags & NODE_OUT) ++n; /* count # of nodes behind proj screen */
point[i].x = n1->x;
point[i].y = n1->y;
}
if (n<num) {
SetForeground(FIRST_DET_COL + (face->flags>>FACE_COL_SHFT));
FillPolygon(point,num);
#if 1
// draw lines along back edges
for (i=0; i<num; ++i) {
j = (i + 1) % num;
segments[i].x1 = point[i].x;
segments[i].y1 = point[i].y;
segments[i].x2 = point[j].x;
segments[i].y2 = point[j].y;
}
SetForeground(HID_COL);
DrawSegments(segments, num);
#endif
}
}
for (face=mDet.faces; face<lface; ++face) {
if (!(face->flags & FACE_HID)) continue;
num = face->num_nodes;
for (i=0,n=0; i<num; ++i) {
n1 = face->nodes[i];
if (n1->flags & NODE_OUT) ++n; /* count # of nodes behind proj screen */
segments[i].x1 = n1->x;
segments[i].y1 = n1->y;
}
if (n<num) {
for (i=0; i<num; ++i) {
j = (i + 1) % num;
segments[i].x2 = segments[j].x1;
segments[i].y2 = segments[j].y1;
}
SetForeground(FRAME_COL);
DrawSegments(segments, num);
}
}
}
/*
** Draw axes
*/
mDrawable->Comment("Axes and Sun vector");
edge = mAxes.edges;
last = edge + mAxes.num_edges;
for (sp=segments; edge<last; ++edge) {
n1 = edge->n1;
n2 = edge->n2;
if (n1->flags & n2->flags & (NODE_HID | NODE_OUT)) continue;
sp->x1 = n1->x;
sp->y1 = n1->y;
sp->x2 = n2->x;
sp->y2 = n2->y;
++sp;
}
SetForeground(AXES_COL);
SetLineWidth(2);
DrawSegments(segments,sp-segments);
SetLineWidth(THICK_LINE_WIDTH);
TStoreEvent *evt = data->agEvent;
if (!evt) return;
/*
** Draw space points
*/
const TObjArray *points = evt->GetSpacePoints();
if (points && points->GetEntries() > 0 && data->wSpStyle != IDM_SP_NONE) {
num = points->GetEntries();
HitInfo *hi = data->hits.hit_info;
int bit_mask = data->bit_mask;
int sz = (int)(data->hit_size * 2 + 0.5);
double scl = data->hit_size / AG_SCALE;
for (i=0, n1=data->hits.nodes; i<num; ++i, ++hi, ++n1) {
if (hi->flags & bit_mask) continue; /* only consider unmasked hits */
SetForeground(FIRST_SCALE_COL + hi->hit_val);
switch (data->wSpStyle) {
case IDM_SP_ERRORS: {
TSpacePoint* spi = (TSpacePoint*) points->At(i);
nod[0].x3 = nod[1].x3 = nod[2].x3 = nod[3].x3 = nod[4].x3 = nod[5].x3 = n1->x3;
nod[0].y3 = nod[1].y3 = nod[2].y3 = nod[3].y3 = nod[4].y3 = nod[5].y3 = n1->y3;
nod[0].z3 = nod[1].z3 = nod[2].z3 = nod[3].z3 = nod[4].z3 = nod[5].z3 = n1->z3;
nod[0].x3 -= spi->GetErrX() * scl;
nod[1].x3 += spi->GetErrX() * scl;
nod[2].y3 -= spi->GetErrY() * scl;
nod[3].y3 += spi->GetErrY() * scl;
nod[4].z3 -= spi->GetErrZ() * scl;
nod[5].z3 += spi->GetErrZ() * scl;
Transform(nod,6);
for (j=0, sp=segments; j<6; j+=2, ++sp) {
sp->x1 = nod[j].x;
sp->y1 = nod[j].y;
sp->x2 = nod[j+1].x;
sp->y2 = nod[j+1].y;
}
DrawSegments(segments, 3);
} break;
case IDM_SP_SQUARES:
FillRectangle(n1->x-sz, n1->y-sz, sz*2+1, sz*2+1);
break;
case IDM_SP_CIRCLES:
FillArc(n1->x, n1->y, sz, sz);
break;
}
}
}
#if 0 //TEST
if (points) {
for (int i=0; i<num; ++i) {
TSpacePoint* spi = (TSpacePoint*) points->At(i);
double x=spi->GetX(),y=spi->GetY(),z=spi->GetZ();
if (x*x+y*y>100) continue;
printf(">>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>\n");
printf("%d) %g %g %g %lx %lx %lx time=%g h=%g r=%g phi=%g wire=%d pad=%d\n",
i,x,y,z,
*(unsigned long *)&x, *(unsigned long *)&y, *(unsigned long *)&z,
spi->GetTime(),spi->GetHeight(),spi->GetR(),spi->GetPhi(),spi->GetWire(),spi->GetPad());
}
}
#endif
/*
** Draw fit lines
*/
const TObjArray *lines = evt->GetLineArray();
if (data->show_fit && lines) {
for (i=0, sp=segments; i<lines->GetEntries(); ++i) {
TStoreLine *line = (TStoreLine *)lines->At(i);
nod[0].x3 = line->GetPoint()->X() / AG_SCALE;
nod[1].x3 = nod[0].x3 + line->GetDirection()->X() * kFitLineLength;
nod[0].y3 = line->GetPoint()->Y() / AG_SCALE;
nod[1].y3 = nod[0].y3 + line->GetDirection()->Y() * kFitLineLength;
nod[0].z3 = line->GetPoint()->Z() / AG_SCALE;
nod[1].z3 = nod[0].z3 + line->GetDirection()->Z() * kFitLineLength;
Transform(nod, 2);
sp->x1 = nod[0].x;
sp->y1 = nod[0].y;
sp->x2 = nod[1].x;
sp->y2 = nod[1].y;
int col = FIT_BAD_COL + line->GetStatus();
if (col < FIT_BAD_COL || col > FIT_PHOTON_COL) col = FIT_BAD_COL;
SetForeground(col);
DrawSegments(segments, 1);
}
}
/*
** Draw fit helices
*/
const TObjArray *helices = evt->GetHelixArray();
if (data->show_fit && helices) {
for (i=0, sp=segments; i<helices->GetEntries(); ++i, ++sp) {
TStoreHelix *helix = (TStoreHelix *)helices->At(i);
const int kNumPoints = 100;
double r = 1 / (2 * helix->GetC());
double xc = -(r + helix->GetD()) * sin(helix->GetPhi0());
double yc = (r + helix->GetD()) * cos(helix->GetPhi0());
double x0 = helix->GetX0();
double y0 = helix->GetY0();
double z0 = helix->GetZ0();
double scl = PI / kNumPoints;
double rla = r * helix->GetLambda();
// decide which direction to draw
if (helix->GetFBeta() * helix->GetMomentumV().Z() * rla > 0) {
scl *= -1;
}
n1 = n2 = 0;
int last = 0;
for (j=0, sp=segments; j<kNumPoints; ++j) {
// draw one half turn (or less) of the helix
double phi = helix->GetPhi0() + j * scl;
n1 = n2;
n2 = nod + (j & 1);
n2->x3 = (xc + r * sin(phi)) / AG_SCALE;
n2->y3 = (yc - r * cos(phi)) / AG_SCALE;
n2->z3 = (z0 + rla * j * scl) / AG_SCALE;
double r2sq = n2->x3*n2->x3 + n2->y3*n2->y3;
if (r2sq > kMaxRSq) {
if (!j) break;
// draw line to maximum
double r1 = sqrt(n1->x3*n1->x3 + n1->y3*n1->y3);
double f = (kMaxR - r1) / (sqrt(r2sq) - r1);
n2->x3 = n1->x3 + f * (n2->x3 - n1->x3);
n2->y3 = n1->y3 + f * (n2->y3 - n1->y3);
n2->z3 = n1->z3 + f * (n2->z3 - n1->z3);
last = 1;
}
Transform(n2,1);
if (!n1 || (n1->flags & n2->flags & (NODE_HID | NODE_OUT))) continue;
sp->x1 = n1->x;
sp->y1 = n1->y;
sp->x2 = n2->x;
sp->y2 = n2->y;
++sp;
if (last) break;
}
int col = FIT_BAD_COL + helix->GetStatus();
if (col < FIT_BAD_COL || col > FIT_PHOTON_COL) col = FIT_BAD_COL;
SetForeground(col);
DrawSegments(segments, sp - segments);
#if 1 //TEST
// draw X0,Y0,Z0
nod[0].x3 = x0 / AG_SCALE;
nod[0].y3 = y0 / AG_SCALE;
nod[0].z3 = z0 / AG_SCALE;
Transform(nod,1);
int sz = (int)(data->fit_size * 3 + 0.5);
FillArc(nod[0].x, nod[0].y, sz, sz);
#endif
}
}
/*
** Draw fit vertex
*/
if (data->show_fit && evt->GetVertex().X() > -998) {
nod[0].x3 = evt->GetVertex().X() / AG_SCALE;
nod[0].y3 = evt->GetVertex().Y() / AG_SCALE;
nod[0].z3 = evt->GetVertex().Z() / AG_SCALE;
Transform(nod,1);
int sz = (int)(data->fit_size * 3 + 0.5);
SetForeground(VERTEX_COL);
FillArc(nod[0].x, nod[0].y, sz, sz);
}
/*
** Restore default drawing parameters
*/
SetLineWidth(THICK_LINE_WIDTH);
SetForeground(TEXT_COL);
}
void AgedImage::AfterDrawing()
{
ImageData *data = mOwner->GetData();
/*
** Draw the cursor
*/
if (data->cursor_hit >= 0) {
Node *node, tmp;
node = data->hits.nodes + data->cursor_hit;
// remap only the node for this single hit if necessary
if (data->mLastImage != this) {
memcpy(&tmp, node, sizeof(Node));
tmp.flags &= ~(NODE_OUT | NODE_HID);
Transform(&tmp, 1);
node = &tmp;
}
if (!(node->flags & NODE_OUT)) {
SetLineWidth(2);
SetForeground(data->cursor_sticky ? SELECT_COL : CURSOR_COL);
int sz = (int)(data->hit_size * 4 + 0.5);
if (data->wSpStyle == IDM_SP_SQUARES) {
DrawRectangle(node->x-sz, node->y-sz, sz*2+1, sz*2+1);
} else {
DrawArc(node->x, node->y, sz, sz);
}
SetLineWidth(1);
}
}
}