/*---------------------------------------------------------------------- Parameters: Description: ----------------------------------------------------------------------*/ static void event_handler(Event *event, DIMAGE *dimage) { #if 0 int x, y ; float scale, dx, dy ; x = event_x(event) ; y = event_y(event) ; scale = dimage->scale ; if (event_id(event) == MS_MIDDLE) { if (event_is_down(event)) { if (processed) { dx = *HIPSFpix(offsetImage, x, y) ; dy = *HIPSFseq_pix(offsetImage, x, y, 1) ; XVprintf(xvf, 0, "offset at (%d, %d) = (%2.3f, %2.3f)", x, y, dx, dy) ; } else dx = dy = 0.0f ; showOffsetArea(x,y, dx, dy) ; switch (filter_type) { case FILTER_EXPONENTIAL: calculateExponentialKernel(gradImage, x, y, filter_size, filter_parm, kernelImage, dx, dy) ; break ; case FILTER_EXP_LAPLACIAN: calculateExponentialKernel(laplacianImage, x, y, filter_size, filter_parm, kernelImage, dx, dy) ; break ; case FILTER_EXP_SUM: tmpImage = HipsAdd(laplacianImage, gradImage, tmpImage) ; calculateExponentialKernel(tmpImage, x, y, filter_size, filter_parm, kernelImage, dx, dy) ; break ; default: return ; } XVshowImage(xvf, FILTER_IMAGE, kernelImage, 0) ; XVshowImageTitle(xvf, FILTER_IMAGE, "filter at (%d, %d) ", x, y) ; } } #endif }
void ShowDeadl(XButtonEvent *ie) { struct p_i_l_type *from; struct p_i_object *pip; int first = TRUE; char string[LINEMAX]; if (figure_modified) ClearDeadl(); if (p_invars == NULL) { ShowInfoDialog("Sorry, no up-to-date Deadlocks available",mainwin); return; } DehighlightDeadl(); fix_x = event_x(ie) / zoom_level; fix_y = event_y(ie) / zoom_level; if ((cur_place = near_place_obj(fix_x, fix_y)) == NULL) { StatusPrintf(""); ShowShowDialog(""); return; } for (from = p_invars = p_invars->next; first || (p_invars != from); first = FALSE, p_invars = p_invars->next) { for (pip = p_invars->i_l; pip != NULL; pip = pip->next) if (pip->p_p == cur_place) goto found; } sprintf(string,"place %s is not contained in any minimal deadlock",cur_place->tag); StatusPrintf(string); ShowShowDialog(string); return; found: DisplayDeadl(); }
/************************************************************************ * * * Mouse event Graphics-tool: Zoom. * * This function will be called if there is an event related to Zoom. * * */ Routine_type Zoom_routine::process(Event *e) { static float left; // Starting positions of zoom cursors static float right; static float top; static float bottom; static int prevx; static int prevy; static short firstx; // first x mouse cursor value static short firsty; // first y mouse cursor value static Imginfo *z_imginfo; // Hold the selected image information static Gframe *z_gframe; // Hold the selected frame info Gframe *gframe; // loop for selected frame int nth; // loop counter Imginfo *iptr; // image information pointer short x = event_x(e); short y = event_y(e); int nfrms; switch (event_action(e)) { case LOC_DRAG: // Execute only if there is a selected zoomed lines. if (Zoomf::zline == 0){ return(ROUTINE_FRAME_SELECT); } // Move the zoom-lines to which the cursor points z_imginfo->move_zlines(x - firstx, y - firsty, left, right, top, bottom, Zoomf::color, Zoomf::zline); if (Zoomf::bind){ // Move zoom-lines for all selected frames nfrms = 0; for (nth=1, gframe=Frame_select::get_selected_frame(nth); gframe; nth++, gframe=Frame_select::get_selected_frame(nth)) { if ((iptr = gframe->imginfo) && (iptr != z_imginfo) && nfrms < Zoomf::max_tracks) { iptr->replace_zlines(z_imginfo->zlinex1, z_imginfo->zlinex2, z_imginfo->zliney1, z_imginfo->zliney2, Zoomf::color); nfrms++; } } /* for */ } /* if (Zoomf::bind) */ prevx = x; prevy = y; return(ROUTINE_DONE); case ACTION_SELECT: if (event_is_down(e)) { // Move zoom-lines. Note that we search for all frames for (nth=1, gframe=Frame_select::get_selected_frame(nth); gframe; nth++, gframe=Frame_select::get_selected_frame(nth)) { // A frame should contains an image and the cursor should be // within image boundary if ((iptr = gframe->imginfo) && com_point_in_rect(x, y, iptr->pixstx - Zoomf::aperture, iptr->pixsty - Zoomf::aperture, iptr->pixstx + iptr->pixwd + Zoomf::aperture, iptr->pixsty + iptr->pixht + Zoomf::aperture)) { // If no selected zoom-line, it means that it moves all // zoom lines if (!(Zoomf::zline=gframe->imginfo->select_zoom_lines(x, y, Zoomf::aperture, Zoomf::zline))) { Zoomf::zline |= ZLINE_ALL; } prevx = firstx = x; prevy = firsty = y; z_gframe = gframe; z_imginfo = gframe->imginfo; left = z_imginfo->zlinex1; right = z_imginfo->zlinex2; top = z_imginfo->zliney1; bottom = z_imginfo->zliney2; return(ROUTINE_DONE); } /* if com_point_in_rect(...) */ } /* for */ // Nothing to zoom return(ROUTINE_FRAME_SELECT); } else { // event_is_up(e) // Execute only if there is a selected zoomed line. if (Zoomf::zline == 0){ return(ROUTINE_FRAME_SELECT); } // Move the zoom-lines to which the cursor points z_imginfo->move_zlines(x - firstx, y - firsty, left, right, top, bottom, Zoomf::color, Zoomf::zline); /*z_imginfo->move_zlines(x, y, prevx, prevy, Zoomf::color, Zoomf::zline);*/ if (Zoomf::bind){ // Move zoom-lines for all selected frames for (nth=1, gframe=Frame_select::get_selected_frame(nth); gframe; nth++, gframe=Frame_select::get_selected_frame(nth)) { if ((iptr = gframe->imginfo) && (iptr != z_imginfo)) { iptr->replace_zlines(z_imginfo->zlinex1, z_imginfo->zlinex2, z_imginfo->zliney1, z_imginfo->zliney2, Zoomf::color); } } /* for */ } /* if (Zoomf::bind) */ Zoomf::zline = 0; return(ROUTINE_DONE); } /* event_is_up */ break; default: break; } /* switch */ return(ROUTINE_DONE); }
static void canvas_event_proc(Xv_Window, Event *event) { int i; register int x, y; // location of mouse pointer on canvas float fx; // Normalized location of mouse on canvas float fy; register int x0, y0; float dis; static int knot = -1; // Which knot mouse controls (-1=>none) static float mctl = 0.5; // Relative Y distance of ctl point from here static float fyother = 0; // Y position of other line end x = (int) event_x(event); y = (int) event_y(event); fx = (float)x / (vsi.canvas_width - 1); fy = (float)(vsi.canvas_height - 1 - y) / (vsi.canvas_height - 1); switch (event_action(event)){ case ACTION_SELECT: case ACTION_ADJUST: if (event_is_down(event)){ /*fprintf(stderr,"%.4f, %.4f, k=%.3f\n", fx, fy, knot2logparm(fx, fy));/*CMP*/ /* Find out which knot we want to change */ /* See if mouse pointer <= 2 * G_APERTURE pixels from a knot. */ int tst = 4 * G_APERTURE * G_APERTURE; knot = -1; for (i=0; i<vsi.nknots[vsi.myknots]; i++){ x0 = (int)(vsi.knotlists[vsi.myknots][i].x * (vsi.canvas_width - 1) + 0.5); y0 = (int)(vsi.canvas_height * (1-vsi.knotlists[vsi.myknots][i].y) + 0.5); if ((dis=(x-x0)*(x-x0) + (y-y0)*(y-y0)) <= tst){ knot = i; tst = dis; } } if (vsi.myknots == LIN_KNOTS || vsi.myknots == SPL_KNOTS){ if (event_action(event) == ACTION_SELECT){ if (knot < 0){ knot = create_knot(fx, fy); } }else{ // ACTION_ADJUST // Cannot delete end points if (knot > 0 && knot < vsi.nknots[vsi.myknots]-1){ delete_knot(knot); } knot = -1; } }else if (vsi.myknots == CRV_KNOTS){ // Remember relative position of control knot if (knot == 0){ fyother = vsi.knotlists[vsi.myknots][2].y; }else if (knot == 2){ fyother = vsi.knotlists[vsi.myknots][0].y; } if (fabs(fyother - fy) > 5.0 / (1 + vsi.canvas_height)){ mctl = ((vsi.knotlists[vsi.myknots][1].y - fy) / (fyother-fy)); } } }else{ /* (event_is_up) */ set_func_command(); func_update(); report_state(); // Notify client of new settings knot = -1; return; } break; case LOC_DRAG: if (knot == -1){ return; } break; default: return; } // Apply constraints to adjustment of knots if (fy < 0){ // Always stay on canvas fy = 0; }else if (fy > 1){ fy = 1; } if (vsi.myknots == CRV_KNOTS){ // Special contraints for these if (knot == 0 || knot == 2){ // Keep control knot between end points /*fprintf(stderr,"knot=%d, mctl=%f, fyother=%f, fy=%f\n", knot, mctl, fyother, fy);/*CMP*/ vsi.knotlists[vsi.myknots][1].y = fy + mctl * (fyother - fy); }else if (knot == 1){ fy = bound(fy, vsi.knotlists[vsi.myknots][0].y, vsi.knotlists[vsi.myknots][2].y); } } if (knot > 0 && knot < vsi.nknots[vsi.myknots] - 1){ // Knots cannot move past neighbors in x direction if (fx <= vsi.knotlists[vsi.myknots][knot-1].x){ fx = (vsi.knotlists[vsi.myknots][knot-1].x + 1.0 / (vsi.canvas_width - 1)); }else if (fx >= vsi.knotlists[vsi.myknots][knot+1].x){ fx = (vsi.knotlists[vsi.myknots][knot+1].x - 1.0 / (vsi.canvas_width - 1)); } vsi.knotlists[vsi.myknots][knot].x = fx; vsi.knotlists[vsi.myknots][knot].y = fy; }else if (knot == 0){ // First knot stays at left edge vsi.knotlists[vsi.myknots][knot].x = 0; vsi.knotlists[vsi.myknots][knot].y = fy; }else if (knot == vsi.nknots[vsi.myknots] - 1){ // Last knot at right edge vsi.knotlists[vsi.myknots][knot].x = 1; vsi.knotlists[vsi.myknots][knot].y = fy; } func_update(); }