#include "profilegraphics.h" #include #include #include #include #include #include #include #include #include #include #include #include #include "../color.h" #include "../display.h" #include "../dive.h" #include "../profile.h" #include #include #define SAC_COLORS_START_IDX SAC_1 #define SAC_COLORS 9 #define VELOCITY_COLORS_START_IDX VELO_STABLE #define VELOCITY_COLORS 5 static struct graphics_context last_gc; static double plot_scale = SCALE_SCREEN; typedef enum { /* SAC colors. Order is important, the SAC_COLORS_START_IDX define above. */ SAC_1, SAC_2, SAC_3, SAC_4, SAC_5, SAC_6, SAC_7, SAC_8, SAC_9, /* Velocity colors. Order is still important, ref VELOCITY_COLORS_START_IDX. */ VELO_STABLE, VELO_SLOW, VELO_MODERATE, VELO_FAST, VELO_CRAZY, /* gas colors */ PO2, PO2_ALERT, PN2, PN2_ALERT, PHE, PHE_ALERT, PP_LINES, /* Other colors */ TEXT_BACKGROUND, ALERT_BG, ALERT_FG, EVENTS, SAMPLE_DEEP, SAMPLE_SHALLOW, SMOOTHED, MINUTE, TIME_GRID, TIME_TEXT, DEPTH_GRID, MEAN_DEPTH, DEPTH_TOP, DEPTH_BOTTOM, TEMP_TEXT, TEMP_PLOT, SAC_DEFAULT, BOUNDING_BOX, PRESSURE_TEXT, BACKGROUND, CEILING_SHALLOW, CEILING_DEEP, CALC_CEILING_SHALLOW, CALC_CEILING_DEEP } color_indice_t; #define COLOR(x, y, z) QVector() << x << y << z; /* profile_color[color indice] = COLOR(screen color, b/w printer color, color printer}} printer & screen colours could be different */ QMap > profile_color; void fill_profile_color() { profile_color[SAC_1] = COLOR(FUNGREEN1, BLACK1_LOW_TRANS, FUNGREEN1); profile_color[SAC_2] = COLOR(APPLE1, BLACK1_LOW_TRANS, APPLE1); profile_color[SAC_3] = COLOR(ATLANTIS1, BLACK1_LOW_TRANS, ATLANTIS1); profile_color[SAC_4] = COLOR(ATLANTIS2, BLACK1_LOW_TRANS, ATLANTIS2); profile_color[SAC_5] = COLOR(EARLSGREEN1, BLACK1_LOW_TRANS, EARLSGREEN1); profile_color[SAC_6] = COLOR(HOKEYPOKEY1, BLACK1_LOW_TRANS, HOKEYPOKEY1); profile_color[SAC_7] = COLOR(TUSCANY1, BLACK1_LOW_TRANS, TUSCANY1); profile_color[SAC_8] = COLOR(CINNABAR1, BLACK1_LOW_TRANS, CINNABAR1); profile_color[SAC_9] = COLOR(REDORANGE1, BLACK1_LOW_TRANS, REDORANGE1); profile_color[VELO_STABLE] = COLOR(CAMARONE1, BLACK1_LOW_TRANS, CAMARONE1); profile_color[VELO_SLOW] = COLOR(LIMENADE1, BLACK1_LOW_TRANS, LIMENADE1); profile_color[VELO_MODERATE] = COLOR(RIOGRANDE1, BLACK1_LOW_TRANS, RIOGRANDE1); profile_color[VELO_FAST] = COLOR(PIRATEGOLD1, BLACK1_LOW_TRANS, PIRATEGOLD1); profile_color[VELO_CRAZY] = COLOR(RED1, BLACK1_LOW_TRANS, RED1); profile_color[PO2] = COLOR(APPLE1, BLACK1_LOW_TRANS, APPLE1); profile_color[PO2_ALERT] = COLOR(RED1, BLACK1_LOW_TRANS, RED1); profile_color[PN2] = COLOR(BLACK1_LOW_TRANS, BLACK1_LOW_TRANS, BLACK1_LOW_TRANS); profile_color[PN2_ALERT] = COLOR(RED1, BLACK1_LOW_TRANS, RED1); profile_color[PHE] = COLOR(PEANUT, BLACK1_LOW_TRANS, PEANUT); profile_color[PHE_ALERT] = COLOR(RED1, BLACK1_LOW_TRANS, RED1); profile_color[PP_LINES] = COLOR(BLACK1_HIGH_TRANS, BLACK1_HIGH_TRANS, BLACK1_HIGH_TRANS); profile_color[TEXT_BACKGROUND] = COLOR(CONCRETE1_LOWER_TRANS, WHITE1, CONCRETE1_LOWER_TRANS); profile_color[ALERT_BG] = COLOR(BROOM1_LOWER_TRANS, BLACK1_LOW_TRANS, BROOM1_LOWER_TRANS); profile_color[ALERT_FG] = COLOR(BLACK1_LOW_TRANS, BLACK1_LOW_TRANS, BLACK1_LOW_TRANS); profile_color[EVENTS] = COLOR(REDORANGE1, BLACK1_LOW_TRANS, REDORANGE1); profile_color[SAMPLE_DEEP] = COLOR(PERSIANRED1, BLACK1_LOW_TRANS, PERSIANRED1); profile_color[SAMPLE_SHALLOW] = COLOR(PERSIANRED1, BLACK1_LOW_TRANS, PERSIANRED1); profile_color[SMOOTHED] = COLOR(REDORANGE1_HIGH_TRANS, BLACK1_LOW_TRANS, REDORANGE1_HIGH_TRANS); profile_color[MINUTE] = COLOR(MEDIUMREDVIOLET1_HIGHER_TRANS, BLACK1_LOW_TRANS, MEDIUMREDVIOLET1_HIGHER_TRANS); profile_color[TIME_GRID] = COLOR(WHITE1, BLACK1_HIGH_TRANS, TUNDORA1_MED_TRANS); profile_color[TIME_TEXT] = COLOR(FORESTGREEN1, BLACK1_LOW_TRANS, FORESTGREEN1); profile_color[DEPTH_GRID] = COLOR(WHITE1, BLACK1_HIGH_TRANS, TUNDORA1_MED_TRANS); profile_color[MEAN_DEPTH] = COLOR(REDORANGE1_MED_TRANS, BLACK1_LOW_TRANS, REDORANGE1_MED_TRANS); profile_color[DEPTH_BOTTOM] = COLOR(GOVERNORBAY1_MED_TRANS, BLACK1_HIGH_TRANS, GOVERNORBAY1_MED_TRANS); profile_color[DEPTH_TOP] = COLOR(MERCURY1_MED_TRANS, WHITE1_MED_TRANS, MERCURY1_MED_TRANS); profile_color[TEMP_TEXT] = COLOR(GOVERNORBAY2, BLACK1_LOW_TRANS, GOVERNORBAY2); profile_color[TEMP_PLOT] = COLOR(ROYALBLUE2_LOW_TRANS, BLACK1_LOW_TRANS, ROYALBLUE2_LOW_TRANS); profile_color[SAC_DEFAULT] = COLOR(WHITE1, BLACK1_LOW_TRANS, FORESTGREEN1); profile_color[BOUNDING_BOX] = COLOR(WHITE1, BLACK1_LOW_TRANS, TUNDORA1_MED_TRANS); profile_color[PRESSURE_TEXT] = COLOR(KILLARNEY1, BLACK1_LOW_TRANS, KILLARNEY1); profile_color[BACKGROUND] = COLOR(SPRINGWOOD1, BLACK1_LOW_TRANS, SPRINGWOOD1); profile_color[CEILING_SHALLOW] = COLOR(REDORANGE1_HIGH_TRANS, BLACK1_HIGH_TRANS, REDORANGE1_HIGH_TRANS); profile_color[CEILING_DEEP] = COLOR(RED1_MED_TRANS, BLACK1_HIGH_TRANS, RED1_MED_TRANS); profile_color[CALC_CEILING_SHALLOW] = COLOR(FUNGREEN1_HIGH_TRANS, BLACK1_HIGH_TRANS, FUNGREEN1_HIGH_TRANS); profile_color[CALC_CEILING_DEEP] = COLOR(APPLE1_HIGH_TRANS, BLACK1_HIGH_TRANS, APPLE1_HIGH_TRANS); } #undef COLOR struct text_render_options{ double size; color_indice_t color; double hpos, vpos; }; extern struct ev_select *ev_namelist; extern int evn_allocated; extern int evn_used; ProfileGraphicsView::ProfileGraphicsView(QWidget* parent) : QGraphicsView(parent), toolTip(0) , dive(0), diveDC(0) { gc.printer = false; setScene(new QGraphicsScene()); setBackgroundBrush(QColor("#F3F3E6")); scene()->installEventFilter(this); setRenderHint(QPainter::Antialiasing); setRenderHint(QPainter::HighQualityAntialiasing); setRenderHint(QPainter::SmoothPixmapTransform); defaultPen.setJoinStyle(Qt::RoundJoin); defaultPen.setCapStyle(Qt::RoundCap); defaultPen.setWidth(2); defaultPen.setCosmetic(true); setHorizontalScrollBarPolicy (Qt::ScrollBarAlwaysOff); setVerticalScrollBarPolicy (Qt::ScrollBarAlwaysOff); fill_profile_color(); } void ProfileGraphicsView::wheelEvent(QWheelEvent* event) { if (!toolTip) return; setTransformationAnchor(QGraphicsView::AnchorUnderMouse); // Scale the view / do the zoom QPoint toolTipPos = mapFromScene(toolTip->pos()); double scaleFactor = 1.15; if (event->delta() > 0 && zoomLevel <= 10) { scale(scaleFactor, scaleFactor); zoomLevel++; } else if (zoomLevel >= 0) { // Zooming out scale(1.0 / scaleFactor, 1.0 / scaleFactor); zoomLevel--; } toolTip->setPos(mapToScene(toolTipPos).x(), mapToScene(toolTipPos).y()); } void ProfileGraphicsView::mouseMoveEvent(QMouseEvent* event) { if (!toolTip) return; toolTip->refresh(&gc, mapToScene(event->pos())); QPoint toolTipPos = mapFromScene(toolTip->pos()); double dx = sceneRect().x(); double dy = sceneRect().y(); ensureVisible(event->pos().x() + dx, event->pos().y() + dy, 1, 1); toolTip->setPos(mapToScene(toolTipPos).x(), mapToScene(toolTipPos).y()); if (zoomLevel < 0) QGraphicsView::mouseMoveEvent(event); } bool ProfileGraphicsView::eventFilter(QObject* obj, QEvent* event) { // This will "Eat" the default tooltip behavior. if (event->type() == QEvent::GraphicsSceneHelp) { event->ignore(); return true; } return QGraphicsView::eventFilter(obj, event); } static void plot_set_scale(scale_mode_t scale) { switch (scale) { default: case SC_SCREEN: plot_scale = SCALE_SCREEN; break; case SC_PRINT: plot_scale = SCALE_PRINT; break; } } void ProfileGraphicsView::showEvent(QShowEvent* event) { // Program just opened, // but the dive was not ploted. // force a replot by modifying the dive // hold by the view, and issuing a plot. if (dive) { dive = 0; plot(get_dive(selected_dive)); } } void ProfileGraphicsView::clear() { scene()->clear(); resetTransform(); zoomLevel = 0; toolTip = 0; } void ProfileGraphicsView::refresh() { plot(current_dive, TRUE); } void ProfileGraphicsView::plot(struct dive *d, bool forceRedraw) { struct divecomputer *dc; if (d) dc = select_dc(&d->dc); if (!forceRedraw && dive == d && (d && dc == diveDC)) return; clear(); dive = d; diveDC = d ? dc : NULL; if (!isVisible() || !dive) { return; } scene()->setSceneRect(0,0, viewport()->width()-50, viewport()->height()-50); QSettings s; s.beginGroup("ProfileMap"); QPointF toolTipPos = s.value("tooltip_position", QPointF(0,0)).toPointF(); s.endGroup(); toolTip = new ToolTipItem(); toolTip->setPos(toolTipPos); scene()->addItem(toolTip); // Fix this for printing / screen later. // plot_set_scale(scale_mode_t); if (!dc->samples) { static struct sample fake[4]; static struct divecomputer fakedc; fakedc = dive->dc; fakedc.sample = fake; fakedc.samples = 4; /* The dive has no samples, so create a few fake ones. This assumes an ascent/descent rate of 9 m/min, which is just below the limit for FAST. */ int duration = dive->dc.duration.seconds; int maxdepth = dive->dc.maxdepth.mm; int asc_desc_time = dive->dc.maxdepth.mm*60/9000; if (asc_desc_time * 2 >= duration) asc_desc_time = duration / 2; fake[1].time.seconds = asc_desc_time; fake[1].depth.mm = maxdepth; fake[2].time.seconds = duration - asc_desc_time; fake[2].depth.mm = maxdepth; fake[3].time.seconds = duration * 1.00; fakedc.events = dc->events; dc = &fakedc; } /* * Set up limits that are independent of * the dive computer */ calculate_max_limits(dive, dc, &gc); QRectF profile_grid_area = scene()->sceneRect(); gc.maxx = (profile_grid_area.width() - 2 * profile_grid_area.x()); gc.maxy = (profile_grid_area.height() - 2 * profile_grid_area.y()); /* This is per-dive-computer. Right now we just do the first one */ gc.pi = *create_plot_info(dive, dc, &gc); /* Depth profile */ plot_depth_profile(); plot_events(dc); /* Temperature profile */ plot_temperature_profile(); /* Cylinder pressure plot */ plot_cylinder_pressure(dive, dc); /* Text on top of all graphs.. */ plot_temperature_text(); plot_depth_text(); plot_cylinder_pressure_text(); plot_deco_text(); /* Bounding box */ QPen pen = defaultPen; pen.setColor(profile_color[TIME_GRID].at(0)); QGraphicsRectItem *rect = new QGraphicsRectItem(profile_grid_area); rect->setPen(pen); scene()->addItem(rect); /* Put the dive computer name in the lower left corner */ QString nick(get_dc_nickname(dc->model, dc->deviceid)); if (nick.isEmpty()) nick = QString(dc->model); if (nick.isEmpty()) nick = tr("unknown divecomputer"); gc.leftx = 0; gc.rightx = 1.0; gc.topy = 0; gc.bottomy = 1.0; text_render_options_t computer = {DC_TEXT_SIZE, TIME_TEXT, LEFT, TOP}; diveComputer = plot_text(&computer, QPointF(gc.leftx, gc.bottomy), nick); // The Time ruler should be right after the DiveComputer: timeMarkers->setPos(0, diveComputer->y()); if (PP_GRAPHS_ENABLED) { plot_pp_gas_profile(); plot_pp_text(); } /* now shift the translation back by half the margin; * this way we can draw the vertical scales on both sides */ //cairo_translate(gc->cr, -drawing_area->x / 2.0, 0); //gc->maxx += drawing_area->x; //gc->leftx = -(drawing_area->x / drawing_area->width) / 2.0; //gc->rightx = 1.0 - gc->leftx; plot_depth_scale(); #if 0 if (gc->printer) { free(pi->entry); last_pi_entry = pi->entry = NULL; pi->nr = 0; } #endif QRectF r = scene()->itemsBoundingRect(); scene()->setSceneRect(r.x() - 15, r.y() -15, r.width() + 30, r.height() + 30); if (zoomLevel == 0) { fitInView(sceneRect()); } } void ProfileGraphicsView::plot_depth_scale() { int i, maxdepth, marker; static text_render_options_t tro = {DEPTH_TEXT_SIZE, SAMPLE_DEEP, RIGHT, MIDDLE}; /* Depth markers: every 30 ft or 10 m*/ maxdepth = get_maxdepth(&gc.pi); gc.topy = 0; gc.bottomy = maxdepth; switch (prefs.units.length) { case units::METERS: marker = 10000; break; case units::FEET: marker = 9144; break; /* 30 ft */ } QColor c(profile_color[DEPTH_GRID].first()); /* don't write depth labels all the way to the bottom as * there may be other graphs below the depth plot (like * partial pressure graphs) where this would look out * of place - so we only make sure that we print the next * marker below the actual maxdepth of the dive */ depthMarkers = new QGraphicsRectItem(); for (i = marker; i <= gc.pi.maxdepth + marker; i += marker) { double d = get_depth_units(i, NULL, NULL); plot_text(&tro, QPointF(-0.002, i), QString::number(d), depthMarkers); } scene()->addItem(depthMarkers); depthMarkers->setPos(depthMarkers->pos().x() - 10, 0); } void ProfileGraphicsView::plot_pp_text() { double pp, dpp, m; int hpos; static text_render_options_t tro = {PP_TEXT_SIZE, PP_LINES, LEFT, MIDDLE}; setup_pp_limits(&gc); pp = floor(gc.pi.maxpp * 10.0) / 10.0 + 0.2; dpp = pp > 4 ? 1.0 : 0.5; hpos = gc.pi.entry[gc.pi.nr - 1].sec; QColor c = profile_color[PP_LINES].first(); for (m = 0.0; m <= pp; m += dpp) { QGraphicsLineItem *item = new QGraphicsLineItem(SCALEGC(0, m), SCALEGC(hpos, m)); QPen pen(defaultPen); pen.setColor(c); item->setPen(pen); scene()->addItem(item); plot_text(&tro, QPointF(hpos + 30, m), QString::number(m)); } } void ProfileGraphicsView::plot_pp_gas_profile() { int i; struct plot_data *entry; struct plot_info *pi = &gc.pi; setup_pp_limits(&gc); QColor c; QPointF from, to; if (prefs.pp_graphs.pn2) { c = profile_color[PN2].first(); entry = pi->entry; from = QPointF(SCALEGC(entry->sec, entry->pn2)); for (i = 1; i < pi->nr; i++) { entry++; if (entry->pn2 < prefs.pp_graphs.pn2_threshold) { to = QPointF(SCALEGC(entry->sec, entry->pn2)); QGraphicsLineItem *item = new QGraphicsLineItem(from.x(), from.y(), to.x(), to.y()); QPen pen(defaultPen); pen.setColor(c); item->setPen(pen); scene()->addItem(item); from = to; } else { from = QPointF(SCALEGC(entry->sec, entry->pn2)); } } c = profile_color[PN2_ALERT].first(); entry = pi->entry; from = QPointF(SCALEGC(entry->sec, entry->pn2)); for (i = 1; i < pi->nr; i++) { entry++; if (entry->pn2 >= prefs.pp_graphs.pn2_threshold) { to = QPointF(SCALEGC(entry->sec, entry->pn2)); QGraphicsLineItem *item = new QGraphicsLineItem(from.x(), from.y(), to.x(), to.y()); QPen pen(defaultPen); pen.setColor(c); item->setPen(pen); scene()->addItem(item); from = to; } else { from = QPointF(SCALEGC(entry->sec, entry->pn2)); } } } if (prefs.pp_graphs.phe) { c = profile_color[PHE].first(); entry = pi->entry; from = QPointF(SCALEGC(entry->sec, entry->phe)); for (i = 1; i < pi->nr; i++) { entry++; if (entry->phe < prefs.pp_graphs.phe_threshold) { to = QPointF(SCALEGC(entry->sec, entry->phe)); QGraphicsLineItem *item = new QGraphicsLineItem(from.x(), from.y(), to.x(), to.y()); QPen pen(defaultPen); pen.setColor(c); item->setPen(pen); scene()->addItem(item); from = to; } else { from = QPointF(SCALEGC(entry->sec, entry->phe)); } } c = profile_color[PHE_ALERT].first(); entry = pi->entry; from = QPointF(SCALEGC(entry->sec, entry->phe)); for (i = 1; i < pi->nr; i++) { entry++; if (entry->phe >= prefs.pp_graphs.phe_threshold) { to = QPointF(SCALEGC(entry->sec, entry->phe)); QGraphicsLineItem *item = new QGraphicsLineItem(from.x(), from.y(), to.x(), to.y()); QPen pen(defaultPen); pen.setColor(c); item->setPen(pen); scene()->addItem(item); from = to; } else { from = QPointF(SCALEGC(entry->sec, entry->phe)); } } } if (prefs.pp_graphs.po2) { c = profile_color[PO2].first(); entry = pi->entry; from = QPointF(SCALEGC(entry->sec, entry->po2)); for (i = 1; i < pi->nr; i++) { entry++; if (entry->po2 < prefs.pp_graphs.po2_threshold) { to = QPointF(SCALEGC(entry->sec, entry->po2)); QGraphicsLineItem *item = new QGraphicsLineItem(from.x(), from.y(), to.x(), to.y()); QPen pen(defaultPen); pen.setColor(c); item->setPen(pen); scene()->addItem(item); from = to; } else { from = QPointF(SCALEGC(entry->sec, entry->po2)); } } c = profile_color[PO2_ALERT].first(); entry = pi->entry; from = QPointF(SCALEGC(entry->sec, entry->po2)); for (i = 1; i < pi->nr; i++) { entry++; if (entry->po2 >= prefs.pp_graphs.po2_threshold) { to = QPointF(SCALEGC(entry->sec, entry->po2)); QGraphicsLineItem *item = new QGraphicsLineItem(from.x(), from.y(), to.x(), to.y()); item->setPen(QPen(c)); scene()->addItem(item); from = to; } else { from = QPointF(SCALEGC(entry->sec, entry->po2)); } } } } void ProfileGraphicsView::plot_deco_text() { if (prefs.profile_calc_ceiling) { float x = gc.leftx + (gc.rightx - gc.leftx) / 2; float y = gc.topy = 1.0; static text_render_options_t tro = {PRESSURE_TEXT_SIZE, PRESSURE_TEXT, CENTER, -0.2}; gc.bottomy = 0.0; plot_text(&tro, QPointF(x, y), QString("GF %1/%2").arg(prefs.gflow).arg(prefs.gfhigh)); } } void ProfileGraphicsView::plot_cylinder_pressure_text() { int i; int mbar, cyl; int seen_cyl[MAX_CYLINDERS] = { FALSE, }; int last_pressure[MAX_CYLINDERS] = { 0, }; int last_time[MAX_CYLINDERS] = { 0, }; struct plot_data *entry; struct plot_info *pi = &gc.pi; if (!get_cylinder_pressure_range(&gc)) return; cyl = -1; for (i = 0; i < pi->nr; i++) { entry = pi->entry + i; mbar = GET_PRESSURE(entry); if (!mbar) continue; if (cyl != entry->cylinderindex) { cyl = entry->cylinderindex; if (!seen_cyl[cyl]) { plot_pressure_value(mbar, entry->sec, LEFT, BOTTOM); seen_cyl[cyl] = TRUE; } } last_pressure[cyl] = mbar; last_time[cyl] = entry->sec; } for (cyl = 0; cyl < MAX_CYLINDERS; cyl++) { if (last_time[cyl]) { plot_pressure_value(last_pressure[cyl], last_time[cyl], CENTER, TOP); } } } void ProfileGraphicsView::plot_pressure_value(int mbar, int sec, double xalign, double yalign) { int pressure; const char *unit; pressure = get_pressure_units(mbar, &unit); static text_render_options_t tro = {PRESSURE_TEXT_SIZE, PRESSURE_TEXT, xalign, yalign}; plot_text(&tro, QPointF(sec, mbar), QString("%1 %2").arg(pressure).arg(unit)); } void ProfileGraphicsView::plot_depth_text() { int maxtime, maxdepth; /* Get plot scaling limits */ maxtime = get_maxtime(&gc.pi); maxdepth = get_maxdepth(&gc.pi); gc.leftx = 0; gc.rightx = maxtime; gc.topy = 0; gc.bottomy = maxdepth; plot_text_samples(); } void ProfileGraphicsView::plot_text_samples() { static text_render_options_t deep = {14, SAMPLE_DEEP, CENTER, TOP}; static text_render_options_t shallow = {14, SAMPLE_SHALLOW, CENTER, BOTTOM}; int i; int last = -1; struct plot_info* pi = &gc.pi; for (i = 0; i < pi->nr; i++) { struct plot_data *entry = pi->entry + i; if (entry->depth < 2000) continue; if ((entry == entry->max[2]) && entry->depth / 100 != last) { plot_depth_sample(entry, &deep); last = entry->depth / 100; } if ((entry == entry->min[2]) && entry->depth / 100 != last) { plot_depth_sample(entry, &shallow); last = entry->depth / 100; } if (entry->depth != last) last = -1; } } void ProfileGraphicsView::plot_depth_sample(struct plot_data *entry,text_render_options_t *tro) { int sec = entry->sec, decimals; double d; d = get_depth_units(entry->depth, &decimals, NULL); plot_text(tro, QPointF(sec, entry->depth), QString("%1").arg(d, 0, 'f', 1)); } void ProfileGraphicsView::plot_temperature_text() { int i; int last = -300, sec = 0; int last_temperature = 0, last_printed_temp = 0; plot_info *pi = &gc.pi; if (!setup_temperature_limits(&gc)) return; for (i = 0; i < pi->nr; i++) { struct plot_data *entry = pi->entry+i; int mkelvin = entry->temperature; sec = entry->sec; if (!mkelvin) continue; last_temperature = mkelvin; /* don't print a temperature * if it's been less than 5min and less than a 2K change OR * if it's been less than 2min OR if the change from the * last print is less than .4K (and therefore less than 1F) */ if (((sec < last + 300) && (abs(mkelvin - last_printed_temp) < 2000)) || (sec < last + 120) || (abs(mkelvin - last_printed_temp) < 400)) continue; last = sec; if (mkelvin > 200000) plot_single_temp_text(sec,mkelvin); last_printed_temp = mkelvin; } /* it would be nice to print the end temperature, if it's * different or if the last temperature print has been more * than a quarter of the dive back */ if (last_temperature > 200000 && ((abs(last_temperature - last_printed_temp) > 500) || ((double)last / (double)sec < 0.75))) plot_single_temp_text(sec, last_temperature); } void ProfileGraphicsView::plot_single_temp_text(int sec, int mkelvin) { double deg; const char *unit; static text_render_options_t tro = {TEMP_TEXT_SIZE, TEMP_TEXT, LEFT, TOP}; deg = get_temp_units(mkelvin, &unit); plot_text(&tro, QPointF(sec, mkelvin), QString("%1%2").arg(deg, 0, 'f', 1).arg(unit)); //"%.2g%s" } void ProfileGraphicsView::plot_cylinder_pressure(struct dive *dive, struct divecomputer *dc) { int i; int last = -1, last_index = -1; int lift_pen = FALSE; int first_plot = TRUE; int sac = 0; struct plot_data *last_entry = NULL; if (!get_cylinder_pressure_range(&gc)) return; QPointF from, to; for (i = 0; i < gc.pi.nr; i++) { int mbar; struct plot_data *entry = gc.pi.entry + i; mbar = GET_PRESSURE(entry); if (entry->cylinderindex != last_index) { lift_pen = TRUE; last_entry = NULL; } if (!mbar) { lift_pen = TRUE; continue; } if (!last_entry) { last = i; last_entry = entry; sac = get_local_sac(entry, gc.pi.entry + i + 1, dive); } else { int j; sac = 0; for (j = last; j < i; j++) sac += get_local_sac(gc.pi.entry + j, gc.pi.entry + j + 1, dive); sac /= (i - last); if (entry->sec - last_entry->sec >= SAC_WINDOW) { last++; last_entry = gc.pi.entry + last; } } QColor c = get_sac_color(sac, dive->sac); if (lift_pen) { if (!first_plot && entry->cylinderindex == last_index) { /* if we have a previous event from the same tank, * draw at least a short line */ int prev_pr; prev_pr = GET_PRESSURE(entry - 1); QGraphicsLineItem *item = new QGraphicsLineItem(SCALEGC((entry-1)->sec, prev_pr), SCALEGC(entry->sec, mbar)); QPen pen(defaultPen); pen.setColor(c); item->setPen(pen); scene()->addItem(item); } else { first_plot = FALSE; from = QPointF(SCALEGC(entry->sec, mbar)); } lift_pen = FALSE; } else { to = QPointF(SCALEGC(entry->sec, mbar)); QGraphicsLineItem *item = new QGraphicsLineItem(from.x(), from.y(), to.x(), to.y()); QPen pen(defaultPen); pen.setColor(c); item->setPen(pen); scene()->addItem(item); } from = QPointF(SCALEGC(entry->sec, mbar)); last_index = entry->cylinderindex; } } /* set the color for the pressure plot according to temporary sac rate * as compared to avg_sac; the calculation simply maps the delta between * sac and avg_sac to indexes 0 .. (SAC_COLORS - 1) with everything * more than 6000 ml/min below avg_sac mapped to 0 */ QColor ProfileGraphicsView::get_sac_color(int sac, int avg_sac) { int sac_index = 0; int delta = sac - avg_sac + 7000; if (!gc.printer) { sac_index = delta / 2000; if (sac_index < 0) sac_index = 0; if (sac_index > SAC_COLORS - 1) sac_index = SAC_COLORS - 1; return profile_color[ (color_indice_t) (SAC_COLORS_START_IDX + sac_index)].first(); } return profile_color[SAC_DEFAULT].first(); } void ProfileGraphicsView::plot_events(struct divecomputer *dc) { struct event *event = dc->events; // if (gc->printer) { // return; // } while (event) { plot_one_event(event); event = event->next; } } void ProfileGraphicsView::plot_one_event(struct event *ev) { int i, depth = 0; struct plot_info *pi = &gc.pi; /* is plotting of this event disabled? */ if (ev->name) { for (i = 0; i < evn_used; i++) { if (! strcmp(ev->name, ev_namelist[i].ev_name)) { if (ev_namelist[i].plot_ev) break; else return; } } } if (ev->time.seconds < 30 && !strcmp(ev->name, "gaschange")) /* a gas change in the first 30 seconds is the way of some dive computers * to tell us the gas that is used; let's not plot a marker for that */ return; for (i = 0; i < pi->nr; i++) { struct plot_data *data = pi->entry + i; if (ev->time.seconds < data->sec) break; depth = data->depth; } /* draw a little triangular marker and attach tooltip */ int x = SCALEXGC(ev->time.seconds); int y = SCALEYGC(depth); EventItem *item = new EventItem(); item->setPos(x, y); scene()->addItem(item); /* we display the event on screen - so translate */ QString name = tr(ev->name); if (ev->value) { if (ev->name && name == "gaschange") { unsigned int he = ev->value >> 16; unsigned int o2 = ev->value & 0xffff; name += ": "; name += (he) ? QString("%1/%2").arg(o2, he) : (o2 == 21) ? name += tr("air") : QString("%1% %2").arg(o2).arg("O" UTF8_SUBSCRIPT_2); } else if (ev->name && !strcmp(ev->name, "SP change")) { name += QString(":%1").arg((double) ev->value / 1000); } else { name += QString(":%1").arg(ev->value); } } else if (ev->name && name == "SP change") { name += tr("Bailing out to OC"); } else { name += ev->flags == SAMPLE_FLAGS_BEGIN ? tr("Starts with space!"," begin") : ev->flags == SAMPLE_FLAGS_END ? tr("Starts with space!", " end") : ""; } //item->setToolTipController(toolTip); //item->addToolTip(name); item->setToolTip(name); } void ProfileGraphicsView::plot_depth_profile() { int i, incr; int sec, depth; struct plot_data *entry; int maxtime, maxdepth, marker, maxline; int increments[8] = { 10, 20, 30, 60, 5*60, 10*60, 15*60, 30*60 }; /* Get plot scaling limits */ maxtime = get_maxtime(&gc.pi); maxdepth = get_maxdepth(&gc.pi); gc.maxtime = maxtime; /* Time markers: at most every 10 seconds, but no more than 12 markers. * We start out with 10 seconds and increment up to 30 minutes, * depending on the dive time. * This allows for 6h dives - enough (I hope) for even the craziest * divers - but just in case, for those 8h depth-record-breaking dives, * we double the interval if this still doesn't get us to 12 or fewer * time markers */ i = 0; while (maxtime / increments[i] > 12 && i < 7) i++; incr = increments[i]; while (maxtime / incr > 12) incr *= 2; gc.leftx = 0; gc.rightx = maxtime; gc.topy = 0; gc.bottomy = 1.0; last_gc = gc; QColor c = profile_color[TIME_GRID].at(0); for (i = incr; i < maxtime; i += incr) { QGraphicsLineItem *item = new QGraphicsLineItem(SCALEGC(i, 0), SCALEGC(i, 1)); QPen pen(defaultPen); pen.setColor(c); item->setPen(pen); scene()->addItem(item); } timeMarkers = new QGraphicsRectItem(); /* now the text on the time markers */ struct text_render_options tro = {DEPTH_TEXT_SIZE, TIME_TEXT, CENTER, LINE_DOWN}; if (maxtime < 600) { /* Be a bit more verbose with shorter dives */ for (i = incr; i < maxtime; i += incr) plot_text(&tro, QPointF(i, 0), QString("%1:%2").arg(i/60).arg(i%60), timeMarkers); } else { /* Only render the time on every second marker for normal dives */ for (i = incr; i < maxtime; i += 2 * incr) plot_text(&tro, QPointF(i, 0), QString("%1").arg(QString::number(i/60)), timeMarkers); } timeMarkers->setPos(0,0); scene()->addItem(timeMarkers); /* Depth markers: every 30 ft or 10 m*/ gc.leftx = 0; gc.rightx = 1.0; gc.topy = 0; gc.bottomy = maxdepth; switch (prefs.units.length) { case units::METERS: marker = 10000; break; case units::FEET: marker = 9144; break; /* 30 ft */ } maxline = MAX(gc.pi.maxdepth + marker, maxdepth * 2 / 3); c = profile_color[DEPTH_GRID].at(0); for (i = marker; i < maxline; i += marker) { QGraphicsLineItem *item = new QGraphicsLineItem(SCALEGC(0, i), SCALEGC(1, i)); QPen pen(defaultPen); pen.setColor(c); item->setPen(pen); scene()->addItem(item); } gc.leftx = 0; gc.rightx = maxtime; c = profile_color[MEAN_DEPTH].at(0); /* Show mean depth */ if (! gc.printer) { QGraphicsLineItem *item = new QGraphicsLineItem(SCALEGC(0, gc.pi.meandepth), SCALEGC(gc.pi.entry[gc.pi.nr - 1].sec, gc.pi.meandepth)); QPen pen(defaultPen); pen.setColor(c); item->setPen(pen); scene()->addItem(item); } #if 0 /* * These are good for debugging text placement etc, * but not for actual display.. */ if (0) { plot_smoothed_profile(gc, pi); plot_minmax_profile(gc, pi); } #endif /* Do the depth profile for the neat fill */ gc.topy = 0; gc.bottomy = maxdepth; entry = gc.pi.entry; QPolygonF p; QLinearGradient pat(0.0,0.0,0.0,scene()->height()); QGraphicsPolygonItem *neatFill = NULL; p.append(QPointF(SCALEGC(0, 0))); for (i = 0; i < gc.pi.nr; i++, entry++) p.append(QPointF(SCALEGC(entry->sec, entry->depth))); /* Show any ceiling we may have encountered */ if (prefs.profile_dc_ceiling) { for (i = gc.pi.nr - 1; i >= 0; i--, entry--) { if (entry->ndl) { /* non-zero NDL implies this is a safety stop, no ceiling */ p.append(QPointF(SCALEGC(entry->sec, 0))); } else if (entry->stopdepth < entry->depth) { p.append(QPointF(SCALEGC(entry->sec, entry->stopdepth))); } else { p.append(QPointF(SCALEGC(entry->sec, entry->depth))); } } } pat.setColorAt(1, profile_color[DEPTH_BOTTOM].first()); pat.setColorAt(0, profile_color[DEPTH_TOP].first()); neatFill = new QGraphicsPolygonItem(); neatFill->setPolygon(p); neatFill->setBrush(QBrush(pat)); neatFill->setPen(QPen(QBrush(Qt::transparent),0)); scene()->addItem(neatFill); /* if the user wants the deco ceiling more visible, do that here (this * basically draws over the background that we had allowed to shine * through so far) */ if (prefs.profile_dc_ceiling && prefs.profile_red_ceiling) { p.clear(); pat.setColorAt(0, profile_color[CEILING_SHALLOW].first()); pat.setColorAt(1, profile_color[CEILING_DEEP].first()); entry = gc.pi.entry; p.append(QPointF(SCALEGC(0, 0))); for (i = 0; i < gc.pi.nr; i++, entry++) { if (entry->ndl == 0 && entry->stopdepth) { if (entry->ndl == 0 && entry->stopdepth < entry->depth) { p.append(QPointF(SCALEGC(entry->sec, entry->stopdepth))); } else { p.append(QPointF(SCALEGC(entry->sec, entry->depth))); } } else { p.append(QPointF(SCALEGC(entry->sec, 0))); } } neatFill = new QGraphicsPolygonItem(); neatFill->setBrush(QBrush(pat)); neatFill->setPolygon(p); neatFill->setPen(QPen(QBrush(Qt::NoBrush),0)); scene()->addItem(neatFill); } /* finally, plot the calculated ceiling over all this */ if (prefs.profile_calc_ceiling) { pat.setColorAt(0, profile_color[CALC_CEILING_SHALLOW].first()); pat.setColorAt(1, profile_color[CALC_CEILING_DEEP].first()); entry = gc.pi.entry; p.clear(); p.append(QPointF(SCALEGC(0, 0))); for (i = 0; i < gc.pi.nr; i++, entry++) { if (entry->ceiling) p.append(QPointF(SCALEGC(entry->sec, entry->ceiling))); else p.append(QPointF(SCALEGC(entry->sec, 0))); } p.append(QPointF(SCALEGC((entry-1)->sec, 0))); neatFill = new QGraphicsPolygonItem(); neatFill->setPolygon(p); neatFill->setPen(QPen(QBrush(Qt::NoBrush),0)); neatFill->setBrush(pat); scene()->addItem(neatFill); } /* plot the calculated ceiling for all tissues */ if (prefs.calc_all_tissues){ int k; for (k=0; k<16; k++){ if (prefs.profile_calc_ceiling) { pat.setColorAt(0, profile_color[CALC_CEILING_SHALLOW].first()); pat.setColorAt(1, QColor(100, 100, 100, 50)); entry = gc.pi.entry; p.clear(); p.append(QPointF(SCALEGC(0, 0))); for (i = 0; i < gc.pi.nr; i++, entry++) { if ((entry->ceilings)[k]) p.append(QPointF(SCALEGC(entry->sec, (entry->ceilings)[k]))); else p.append(QPointF(SCALEGC(entry->sec, 0))); } p.append(QPointF(SCALEGC((entry-1)->sec, 0))); neatFill = new QGraphicsPolygonItem(); neatFill->setPolygon(p); neatFill->setBrush(pat); scene()->addItem(neatFill); } } } /* next show where we have been bad and crossed the dc's ceiling */ if (prefs.profile_dc_ceiling) { pat.setColorAt(0, profile_color[CEILING_SHALLOW].first()); pat.setColorAt(1, profile_color[CEILING_DEEP].first()); entry = gc.pi.entry; p.clear(); p.append(QPointF(SCALEGC(0, 0))); for (i = 0; i < gc.pi.nr; i++, entry++) p.append(QPointF(SCALEGC(entry->sec, entry->depth))); for (i = gc.pi.nr - 1; i >= 0; i--, entry--) { if (entry->ndl == 0 && entry->stopdepth > entry->depth) { p.append(QPointF(SCALEGC(entry->sec, entry->stopdepth))); } else { p.append(QPointF(SCALEGC(entry->sec, entry->depth))); } } } neatFill = new QGraphicsPolygonItem(); neatFill->setPolygon(p); neatFill->setPen(QPen(QBrush(Qt::NoBrush),0)); neatFill->setBrush(QBrush(pat)); scene()->addItem(neatFill); /* Now do it again for the velocity colors */ entry = gc.pi.entry; for (i = 1; i < gc.pi.nr; i++) { entry++; sec = entry->sec; /* we want to draw the segments in different colors * representing the vertical velocity, so we need to * chop this into short segments */ depth = entry->depth; QGraphicsLineItem *item = new QGraphicsLineItem(SCALEGC(entry[-1].sec, entry[-1].depth), SCALEGC(sec, depth)); QPen pen(defaultPen); pen.setColor(profile_color[ (color_indice_t) (VELOCITY_COLORS_START_IDX + entry->velocity)].first()); item->setPen(pen); scene()->addItem(item); } } QGraphicsSimpleTextItem *ProfileGraphicsView::plot_text(text_render_options_t *tro,const QPointF& pos, const QString& text, QGraphicsItem *parent) { QFontMetrics fm(font()); double dx = tro->hpos * (fm.width(text)); double dy = tro->vpos * (fm.height()); QGraphicsSimpleTextItem *item = new QGraphicsSimpleTextItem(text, parent); QPointF point(SCALEGC(pos.x(), pos.y())); // This is neded because of the SCALE macro. item->setPos(point.x() + dx, point.y() + dy); item->setBrush(QBrush(profile_color[tro->color].first())); item->setFlag(QGraphicsItem::ItemIgnoresTransformations); if (!parent) scene()->addItem(item); return item; } void ProfileGraphicsView::resizeEvent(QResizeEvent *event) { fitInView(sceneRect()); } void ProfileGraphicsView::plot_temperature_profile() { int last = 0; if (!setup_temperature_limits(&gc)) return; QPointF from; QPointF to; QColor color = profile_color[TEMP_PLOT].first(); for (int i = 0; i < gc.pi.nr; i++) { struct plot_data *entry = gc.pi.entry + i; int mkelvin = entry->temperature; int sec = entry->sec; if (!mkelvin) { if (!last) continue; mkelvin = last; } if (last) { to = QPointF(SCALEGC(sec, mkelvin)); QGraphicsLineItem *item = new QGraphicsLineItem(from.x(), from.y(), to.x(), to.y()); QPen pen(defaultPen); pen.setColor(color); item->setPen(pen); scene()->addItem(item); from = to; } else { from = QPointF(SCALEGC(sec, mkelvin)); } last = mkelvin; } } void ToolTipItem::addToolTip(const QString& toolTip, const QIcon& icon) { QGraphicsPixmapItem *iconItem = 0; double yValue = title->boundingRect().height() + SPACING; Q_FOREACH(ToolTip t, toolTips) { yValue += t.second->boundingRect().height(); } if (!icon.isNull()) { iconItem = new QGraphicsPixmapItem(icon.pixmap(ICON_SMALL,ICON_SMALL), this); iconItem->setPos(SPACING, yValue); } QGraphicsSimpleTextItem *textItem = new QGraphicsSimpleTextItem(toolTip, this); textItem->setPos(SPACING + ICON_SMALL + SPACING, yValue); textItem->setBrush(QBrush(Qt::white)); textItem->setFlag(ItemIgnoresTransformations); toolTips[toolTip] = qMakePair(iconItem, textItem); expand(); } void ToolTipItem::removeToolTip(const QString& toolTip) { ToolTip toBeRemoved = toolTips[toolTip]; delete toBeRemoved.first; delete toBeRemoved.second; toolTips.remove(toolTip); int toolTipIndex = 0; // We removed a toolTip, let's move the others to the correct location Q_FOREACH(ToolTip t, toolTips) { double yValue = title->boundingRect().height() + SPACING + toolTipIndex * ICON_SMALL + SPACING; // Icons can be null. if (t.first) t.first->setPos(SPACING, yValue); t.second->setPos(SPACING + ICON_SMALL + SPACING, yValue); toolTipIndex++; } expand(); } void ToolTipItem::refresh(struct graphics_context *gc, QPointF pos) { clear(); int time = (pos.x() * gc->maxtime) / scene()->sceneRect().width(); char buffer[500]; get_plot_details(gc, time, buffer, 500); addToolTip(QString(buffer)); QList items = scene()->items(pos, Qt::IntersectsItemShape, Qt::DescendingOrder, transform()); Q_FOREACH(QGraphicsItem *item, items) { if (!item->toolTip().isEmpty()) addToolTip(item->toolTip()); } } void ToolTipItem::clear() { Q_FOREACH(ToolTip t, toolTips) { delete t.first; delete t.second; } toolTips.clear(); expand(); } void ToolTipItem::setRect(const QRectF& r) { // qDeleteAll(childItems()); delete background; rectangle = r; setBrush(QBrush(Qt::white)); setPen(QPen(Qt::black, 0.5)); // Creates a 2pixels border QPainterPath border; border.addRoundedRect(-4, -4, rectangle.width() + 8, rectangle.height() + 10, 3, 3); border.addRoundedRect(-1, -1, rectangle.width() + 3, rectangle.height() + 4, 3, 3); setPath(border); QPainterPath bg; bg.addRoundedRect(-1, -1, rectangle.width() + 3, rectangle.height() + 4, 3, 3); QColor c = QColor(Qt::black); c.setAlpha(155); QGraphicsPathItem *b = new QGraphicsPathItem(bg, this); b->setFlag(ItemStacksBehindParent); b->setFlags(ItemIgnoresTransformations); b->setBrush(c); b->setPen(QPen(QBrush(Qt::transparent), 0)); b->setZValue(-10); background = b; updateTitlePosition(); } void ToolTipItem::collapse() { QPropertyAnimation *animation = new QPropertyAnimation(this, "rect"); animation->setDuration(100); animation->setStartValue(boundingRect()); animation->setEndValue(QRect(0, 0, ICON_SMALL, ICON_SMALL)); animation->start(QAbstractAnimation::DeleteWhenStopped); } void ToolTipItem::expand() { if (!title) { return; } QRectF nextRectangle; double width = 0, height = title->boundingRect().height() + SPACING; Q_FOREACH(ToolTip t, toolTips) { if (t.second->boundingRect().width() > width) width = t.second->boundingRect().width(); height += t.second->boundingRect().height(); } /* Left padding, Icon Size, space, right padding */ width += SPACING + ICON_SMALL + SPACING + SPACING; if (width < title->boundingRect().width() + SPACING*2) width = title->boundingRect().width() + SPACING*2; if (height < ICON_SMALL) height = ICON_SMALL; nextRectangle.setWidth(width); nextRectangle.setHeight(height); QPropertyAnimation *animation = new QPropertyAnimation(this, "rect"); animation->setDuration(100); animation->setStartValue(rectangle); animation->setEndValue(nextRectangle); animation->start(QAbstractAnimation::DeleteWhenStopped); } ToolTipItem::ToolTipItem(QGraphicsItem* parent): QGraphicsPathItem(parent), background(0) { title = new QGraphicsSimpleTextItem(tr("Information"), this); separator = new QGraphicsLineItem(this); setFlag(ItemIgnoresTransformations); setFlag(ItemIsMovable); updateTitlePosition(); setZValue(99); } void ToolTipItem::updateTitlePosition() { if (rectangle.width() < title->boundingRect().width() + SPACING*4) { QRectF newRect = rectangle; newRect.setWidth(title->boundingRect().width() + SPACING*4); newRect.setHeight(newRect.height() ? newRect.height() : ICON_SMALL); setRect(newRect); } title->setPos(boundingRect().width()/2 - title->boundingRect().width()/2 -1, 0); title->setFlag(ItemIgnoresTransformations); title->setPen(QPen(Qt::white, 1)); title->setBrush(Qt::white); if (toolTips.size() > 0) { double x1 = 0; double y1 = title->pos().y() + SPACING/2 + title->boundingRect().height(); double x2 = boundingRect().width() - 10; double y2 = y1; separator->setLine(x1, y1, x2, y2); separator->setFlag(ItemIgnoresTransformations); separator->setPen(QPen(Qt::white)); separator->show(); } else { separator->hide(); } } EventItem::EventItem(QGraphicsItem* parent): QGraphicsPolygonItem(parent) { setFlag(ItemIgnoresTransformations); setFlag(ItemIsFocusable); setAcceptHoverEvents(true); QPolygonF poly; poly.push_back(QPointF(-8, 16)); poly.push_back(QPointF(8, 16)); poly.push_back(QPointF(0, 0)); poly.push_back(QPointF(-8, 16)); QPen defaultPen ; defaultPen.setJoinStyle(Qt::RoundJoin); defaultPen.setCapStyle(Qt::RoundCap); defaultPen.setWidth(2); defaultPen.setCosmetic(true); QPen pen = defaultPen; pen.setBrush(QBrush(profile_color[ALERT_BG].first())); setPolygon(poly); setBrush(QBrush(profile_color[ALERT_BG].first())); setPen(pen); QGraphicsLineItem *line = new QGraphicsLineItem(0,5,0,10, this); line->setPen(QPen(Qt::black, 2)); QGraphicsEllipseItem *ball = new QGraphicsEllipseItem(-1, 12, 2,2, this); ball->setBrush(QBrush(Qt::black)); }