/* * Copyright (C) 2006-2008 Andreas Persson * * This program is free software; you can redistribute it and/or * modify it under the terms of the GNU General Public License as * published by the Free Software Foundation; either version 2, or (at * your option) any later version. * * This program is distributed in the hope that it will be useful, but * WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU * General Public License for more details. * * You should have received a copy of the GNU General Public License * along with program; see the file COPYING. If not, write to the Free * Software Foundation, Inc., 51 Franklin St, Fifth Floor, Boston, MA * 02110-1301 USA. */ #include "dimregionchooser.h" #include DimRegionChooser::DimRegionChooser() { // get_window() would return 0 because the Gdk::Window has not yet been realized // So we can only allocate the colors here - the rest will happen in on_realize(). Glib::RefPtr colormap = get_default_colormap(); black = Gdk::Color("black"); white = Gdk::Color("white"); red = Gdk::Color("#8070ff"); blue = Gdk::Color("blue"); green = Gdk::Color("green"); colormap->alloc_color(black); colormap->alloc_color(white); colormap->alloc_color(red); colormap->alloc_color(blue); colormap->alloc_color(green); instrument = 0; region = 0; dimregno = -1; focus_line = 0; resize.active = false; cursor_is_resize = false; h = 20; set_flags(Gtk::CAN_FOCUS); add_events(Gdk::BUTTON_PRESS_MASK | Gdk::POINTER_MOTION_MASK | Gdk::POINTER_MOTION_HINT_MASK); for (int i = 0 ; i < 256 ; i++) dimvalue[i] = 0; } DimRegionChooser::~DimRegionChooser() { } void DimRegionChooser::on_realize() { // We need to call the base on_realize() Gtk::DrawingArea::on_realize(); // Now we can allocate any additional resources we need Glib::RefPtr window = get_window(); gc = Gdk::GC::create(window); } bool DimRegionChooser::on_expose_event(GdkEventExpose* event) { if (!region) return true; // This is where we draw on the window int w = get_width(); Glib::RefPtr window = get_window(); Glib::RefPtr context = get_pango_context(); Glib::RefPtr layout = Pango::Layout::create(context); window->clear(); // draw labels on the left (reflecting the dimension type) int y = 0; double maxwidth = 0; for (int i = 0 ; i < region->Dimensions ; i++) { int nbZones = region->pDimensionDefinitions[i].zones; if (nbZones) { const char* dstr; char dstrbuf[10]; switch (region->pDimensionDefinitions[i].dimension) { case gig::dimension_none: dstr="none"; break; case gig::dimension_samplechannel: dstr="samplechannel"; break; case gig::dimension_layer: dstr="layer"; break; case gig::dimension_velocity: dstr="velocity"; break; case gig::dimension_channelaftertouch: dstr="channelaftertouch"; break; case gig::dimension_releasetrigger: dstr="releasetrigger"; break; case gig::dimension_keyboard: dstr="keyboard"; break; case gig::dimension_roundrobin: dstr="roundrobin"; break; case gig::dimension_random: dstr="random"; break; case gig::dimension_smartmidi: dstr="smartmidi"; break; case gig::dimension_roundrobinkeyboard: dstr="roundrobinkeyboard"; break; case gig::dimension_modwheel: dstr="modwheel"; break; case gig::dimension_breath: dstr="breath"; break; case gig::dimension_foot: dstr="foot"; break; case gig::dimension_portamentotime: dstr="portamentotime"; break; case gig::dimension_effect1: dstr="effect1"; break; case gig::dimension_effect2: dstr="effect2"; break; case gig::dimension_genpurpose1: dstr="genpurpose1"; break; case gig::dimension_genpurpose2: dstr="genpurpose2"; break; case gig::dimension_genpurpose3: dstr="genpurpose3"; break; case gig::dimension_genpurpose4: dstr="genpurpose4"; break; case gig::dimension_sustainpedal: dstr="sustainpedal"; break; case gig::dimension_portamento: dstr="portamento"; break; case gig::dimension_sostenutopedal: dstr="sostenutopedal"; break; case gig::dimension_softpedal: dstr="softpedal"; break; case gig::dimension_genpurpose5: dstr="genpurpose5"; break; case gig::dimension_genpurpose6: dstr="genpurpose6"; break; case gig::dimension_genpurpose7: dstr="genpurpose7"; break; case gig::dimension_genpurpose8: dstr="genpurpose8"; break; case gig::dimension_effect1depth: dstr="effect1depth"; break; case gig::dimension_effect2depth: dstr="effect2depth"; break; case gig::dimension_effect3depth: dstr="effect3depth"; break; case gig::dimension_effect4depth: dstr="effect4depth"; break; case gig::dimension_effect5depth: dstr="effect5depth"; break; default: sprintf(dstrbuf, "%d", region->pDimensionDefinitions[i].dimension); dstr = dstrbuf; break; } layout->set_text(dstr); Pango::Rectangle rectangle = layout->get_logical_extents(); double text_w = double(rectangle.get_width()) / Pango::SCALE; if (text_w > maxwidth) maxwidth = text_w; double text_h = double(rectangle.get_height()) / Pango::SCALE; Glib::RefPtr fg = get_style()->get_fg_gc(get_state()); window->draw_layout(fg, 4, int(y + (h - text_h) / 2 + 0.5), layout); } y += h; } // draw dimensions' zones areas y = 0; int bitpos = 0; label_width = int(maxwidth + 10); for (int i = 0 ; i < region->Dimensions ; i++) { int nbZones = region->pDimensionDefinitions[i].zones; if (nbZones) { // draw focus rectangle around dimension's label and zones if (has_focus() && focus_line == i) { Gdk::Rectangle farea(0, y, 150, 20); get_style()->paint_focus(window, get_state(), farea, *this, "", 0, y, label_width, 20); } Glib::RefPtr black = get_style()->get_black_gc(); // draw top and bottom lines of dimension's zones window->draw_line(black, label_width, y, w - 1, y); window->draw_line(black, w - 1, y + h - 1, label_width, y + h - 1); // erase whole dimension's zones area window->draw_rectangle(get_style()->get_white_gc(), true, label_width + 1, y + 1, (w - label_width - 2), h - 2); int c = 0; if (dimregno >= 0) { int mask = ~(((1 << region->pDimensionDefinitions[i].bits) - 1) << bitpos); c = dimregno & mask; // mask away this dimension } bool customsplits = ((region->pDimensionDefinitions[i].split_type == gig::split_type_normal && region->pDimensionRegions[c]->DimensionUpperLimits[i]) || (region->pDimensionDefinitions[i].dimension == gig::dimension_velocity && region->pDimensionRegions[c]->VelocityUpperLimit)); // draw dimension's zone borders if (customsplits) { window->draw_line(black, label_width, y + 1, label_width, y + h - 2); for (int j = 0 ; j < nbZones ; j++) { gig::DimensionRegion *d = region->pDimensionRegions[c + (j << bitpos)]; int upperLimit = d->DimensionUpperLimits[i]; if (!upperLimit) upperLimit = d->VelocityUpperLimit; int v = upperLimit + 1; int x = int((w - label_width - 1) * v / 128.0 + 0.5); window->draw_line(black, label_width + x, y + 1, label_width + x, y + h - 2); } } else { for (int j = 0 ; j <= nbZones ; j++) { int x = int((w - label_width - 1) * j / double(nbZones) + 0.5); window->draw_line(black, label_width + x, y + 1, label_width + x, y + h - 2); } } // draw fill for currently selected zone if (dimregno >= 0) { gc->set_foreground(red); int dr = (dimregno >> bitpos) & ((1 << region->pDimensionDefinitions[i].bits) - 1); if (customsplits) { int x1 = 0; for (int j = 0 ; j < nbZones ; j++) { gig::DimensionRegion *d = region->pDimensionRegions[c + (j << bitpos)]; int upperLimit = d->DimensionUpperLimits[i]; if (!upperLimit) upperLimit = d->VelocityUpperLimit; int v = upperLimit + 1; int x2 = int((w - label_width - 1) * v / 128.0 + 0.5); if (j == dr && x1 < x2) { window->draw_rectangle(gc, true, label_width + x1 + 1, y + 1, (x2 - x1) - 1, h - 2); break; } x1 = x2; } } else { if (dr < nbZones) { int x1 = int((w - label_width - 1) * dr / double(nbZones) + 0.5); int x2 = int((w - label_width - 1) * (dr + 1) / double(nbZones) + 0.5); window->draw_rectangle(gc, true, label_width + x1 + 1, y + 1, (x2 - x1) - 1, h - 2); } } } y += h; } bitpos += region->pDimensionDefinitions[i].bits; } return true; } void DimRegionChooser::on_size_request(GtkRequisition* requisition) { *requisition = GtkRequisition(); requisition->height = region ? nbDimensions * 20 : 0; requisition->width = 800; } void DimRegionChooser::set_region(gig::Region* region) { this->region = region; dimregno = 0; nbDimensions = 0; if (region) { int bitcount = 0; for (int dim = 0 ; dim < region->Dimensions ; dim++) { if (region->pDimensionDefinitions[dim].bits == 0) continue; nbDimensions++; int z = std::min(dimvalue[region->pDimensionDefinitions[dim].dimension], region->pDimensionDefinitions[dim].zones - 1); dimregno |= (z << bitcount); bitcount += region->pDimensionDefinitions[dim].bits; } dimreg = region->pDimensionRegions[dimregno]; } else { dimreg = 0; } dimregion_selected(); queue_resize(); } void DimRegionChooser::get_dimregions(const gig::Region* region, bool stereo, std::set& dimregs) const { int dimregno = 0; int bitcount = 0; int stereo_bit = 0; for (int dim = 0 ; dim < region->Dimensions ; dim++) { if (region->pDimensionDefinitions[dim].bits == 0) continue; if (stereo && region->pDimensionDefinitions[dim].dimension == gig::dimension_samplechannel) { stereo_bit = (1 << bitcount); } else { int z = std::min(dimvalue[region->pDimensionDefinitions[dim].dimension], region->pDimensionDefinitions[dim].zones - 1); dimregno |= (z << bitcount); } bitcount += region->pDimensionDefinitions[dim].bits; } dimregs.insert(region->pDimensionRegions[dimregno]); if (stereo_bit) dimregs.insert(region->pDimensionRegions[dimregno | stereo_bit]); } bool DimRegionChooser::on_button_release_event(GdkEventButton* event) { if (resize.active) { get_window()->pointer_ungrab(event->time); resize.active = false; if (region->pDimensionDefinitions[resize.dimension].dimension == gig::dimension_velocity) { int bitpos = 0; for (int j = 0 ; j < resize.dimension ; j++) { bitpos += region->pDimensionDefinitions[j].bits; } int mask = ~(((1 << region->pDimensionDefinitions[resize.dimension].bits) - 1) << bitpos); int c = dimregno & mask; // mask away this dimension if (region->pDimensionRegions[c]->DimensionUpperLimits[resize.dimension] == 0) { // the velocity dimension didn't previously have // custom v3 splits, so we initialize all splits with // default values int nbZones = region->pDimensionDefinitions[resize.dimension].zones; for (int j = 0 ; j < nbZones ; j++) { gig::DimensionRegion *d = region->pDimensionRegions[c + (j << bitpos)]; d->DimensionUpperLimits[resize.dimension] = int(128.0 * (j + 1) / nbZones - 1); } } if (region->pDimensionRegions[c]->VelocityUpperLimit == 0) { // the velocity dimension didn't previously have // custom v2 splits, so we initialize all splits with // default values int nbZones = region->pDimensionDefinitions[resize.dimension].zones; for (int j = 0 ; j < nbZones ; j++) { gig::DimensionRegion *d = region->pDimensionRegions[c + (j << bitpos)]; d->VelocityUpperLimit = int(128.0 * (j + 1) / nbZones - 1); } } gig::DimensionRegion *d = region->pDimensionRegions[c + resize.offset]; // update both v2 and v3 values d->DimensionUpperLimits[resize.dimension] = resize.pos - 1; d->VelocityUpperLimit = resize.pos - 1; } else { for (int i = 0 ; i < region->DimensionRegions ; ) { if (region->pDimensionRegions[i]->DimensionUpperLimits[resize.dimension] == 0) { // the dimension didn't previously have custom // limits, so we have to set default limits for // all the dimension regions int bitpos = 0; for (int j = 0 ; j < resize.dimension ; j++) { bitpos += region->pDimensionDefinitions[j].bits; } int nbZones = region->pDimensionDefinitions[resize.dimension].zones; for (int j = 0 ; j < nbZones ; j++) { gig::DimensionRegion *d = region->pDimensionRegions[i + (j << bitpos)]; d->DimensionUpperLimits[resize.dimension] = int(128.0 * (j + 1) / nbZones - 1); } } gig::DimensionRegion *d = region->pDimensionRegions[i + resize.offset]; d->DimensionUpperLimits[resize.dimension] = resize.pos - 1; int bitpos = 0; int j; for (j = 0 ; j < region->Dimensions ; j++) { if (j != resize.dimension) { int maxzones = 1 << region->pDimensionDefinitions[j].bits; int dimj = (i >> bitpos) & (maxzones - 1); if (dimj + 1 < region->pDimensionDefinitions[j].zones) break; } bitpos += region->pDimensionDefinitions[j].bits; } if (j == region->Dimensions) break; i = (i & ~((1 << bitpos) - 1)) + (1 << bitpos); } } region_changed(); if (!is_in_resize_zone(event->x, event->y) && cursor_is_resize) { get_window()->set_cursor(); cursor_is_resize = false; } } return true; } bool DimRegionChooser::on_button_press_event(GdkEventButton* event) { int w = get_width(); if (region && event->y < nbDimensions * h && event->x >= label_width && event->x < w) { if (is_in_resize_zone(event->x, event->y)) { Gdk::Cursor double_arrow(Gdk::SB_H_DOUBLE_ARROW); get_window()->pointer_grab(false, Gdk::BUTTON_RELEASE_MASK | Gdk::POINTER_MOTION_MASK | Gdk::POINTER_MOTION_HINT_MASK, double_arrow, event->time); resize.active = true; } else { int ydim = int(event->y / h); int dim; for (dim = 0 ; dim < region->Dimensions ; dim++) { if (region->pDimensionDefinitions[dim].bits == 0) continue; if (ydim == 0) break; ydim--; } int nbZones = region->pDimensionDefinitions[dim].zones; int z = -1; int bitpos = 0; for (int i = 0 ; i < dim ; i++) { bitpos += region->pDimensionDefinitions[i].bits; } int i = dim; if (dimregno < 0) dimregno = 0; int mask = ~(((1 << region->pDimensionDefinitions[i].bits) - 1) << bitpos); int c = dimregno & mask; // mask away this dimension bool customsplits = ((region->pDimensionDefinitions[i].split_type == gig::split_type_normal && region->pDimensionRegions[c]->DimensionUpperLimits[i]) || (region->pDimensionDefinitions[i].dimension == gig::dimension_velocity && region->pDimensionRegions[c]->VelocityUpperLimit)); if (customsplits) { int val = int((event->x - label_width) * 128 / (w - label_width - 1)); if (region->pDimensionRegions[c]->DimensionUpperLimits[i]) { for (z = 0 ; z < nbZones ; z++) { gig::DimensionRegion *d = region->pDimensionRegions[c + (z << bitpos)]; if (val <= d->DimensionUpperLimits[i]) break; } } else { for (z = 0 ; z < nbZones ; z++) { gig::DimensionRegion *d = region->pDimensionRegions[c + (z << bitpos)]; if (val <= d->VelocityUpperLimit) break; } } } else { z = int((event->x - label_width) * nbZones / (w - label_width - 1)); } printf("dim=%d z=%d dimensionsource=%d split_type=%d zones=%d zone_size=%f\n", dim, z, region->pDimensionDefinitions[dim].dimension, region->pDimensionDefinitions[dim].split_type, region->pDimensionDefinitions[dim].zones, region->pDimensionDefinitions[dim].zone_size); dimvalue[region->pDimensionDefinitions[dim].dimension] = z; dimregno = c | (z << bitpos); focus_line = dim; if (has_focus()) queue_draw(); else grab_focus(); dimreg = region->pDimensionRegions[dimregno]; dimregion_selected(); } } return true; } bool DimRegionChooser::on_motion_notify_event(GdkEventMotion* event) { Glib::RefPtr window = get_window(); int x, y; Gdk::ModifierType state = Gdk::ModifierType(0); window->get_pointer(x, y, state); if (resize.active) { int w = get_width(); int k = int((x - label_width) * 128.0 / (w - label_width - 1) + 0.5); if (k < resize.min) k = resize.min; else if (k > resize.max) k = resize.max; if (k < 2) k = 2; // k is upper limit + 1, upper limit 0 is forbidden if (k != resize.pos) { Glib::RefPtr black = get_style()->get_black_gc(); Glib::RefPtr white = get_style()->get_white_gc(); int prevx = int((w - label_width - 1) * resize.pos / 128.0 + 0.5) + label_width; int x = int((w - label_width - 1) * k / 128.0 + 0.5) + label_width; int y = resize.dimension * h; if (resize.selected == resize.none) { if (resize.pos != resize.min && resize.pos != resize.max) { window->draw_line(white, prevx, y + 1, prevx, y + h - 2); } } else { gc->set_foreground(red); Glib::RefPtr left; Glib::RefPtr right; if (resize.selected == resize.left) { left = gc; right = white; } else { left = white; right = gc; } if (k > resize.pos) { int xx = resize.pos == resize.min ? 1 : 0; window->draw_rectangle(left, true, prevx + xx, y + 1, x - prevx - xx, h - 2); } else { int xx = resize.pos == resize.max ? 0 : 1; window->draw_rectangle(right, true, x, y + 1, prevx - x + xx, h - 2); } } window->draw_line(black, x, y + 1, x, y + h - 2); resize.pos = k; } } else { if (is_in_resize_zone(x, y)) { if (!cursor_is_resize) { Gdk::Cursor double_arrow(Gdk::SB_H_DOUBLE_ARROW); window->set_cursor(double_arrow); cursor_is_resize = true; } } else if (cursor_is_resize) { window->set_cursor(); cursor_is_resize = false; } } return true; } bool DimRegionChooser::is_in_resize_zone(double x, double y) { int w = get_width(); if (region && y < nbDimensions * h && x >= label_width && x < w) { int ydim = int(y / h); int dim; int bitpos = 0; for (dim = 0 ; dim < region->Dimensions ; dim++) { if (region->pDimensionDefinitions[dim].bits == 0) continue; if (ydim == 0) break; ydim--; bitpos += region->pDimensionDefinitions[dim].bits; } int nbZones = region->pDimensionDefinitions[dim].zones; int c = 0; if (dimregno >= 0) { int mask = ~(((1 << region->pDimensionDefinitions[dim].bits) - 1) << bitpos); c = dimregno & mask; // mask away this dimension } const bool customsplits = ((region->pDimensionDefinitions[dim].split_type == gig::split_type_normal && region->pDimensionRegions[c]->DimensionUpperLimits[dim]) || (region->pDimensionDefinitions[dim].dimension == gig::dimension_velocity && region->pDimensionRegions[c]->VelocityUpperLimit)); // dimensions of split_type_bit cannot be resized if (region->pDimensionDefinitions[dim].split_type != gig::split_type_bit) { int prev_limit = 0; for (int iZone = 0 ; iZone < nbZones - 1 ; iZone++) { gig::DimensionRegion *d = region->pDimensionRegions[c + (iZone << bitpos)]; const int upperLimit = (customsplits) ? (d->DimensionUpperLimits[dim]) ? d->DimensionUpperLimits[dim] : d->VelocityUpperLimit : (iZone+1) * (int)region->pDimensionDefinitions[dim].zone_size - 1; int limit = upperLimit + 1; int limitx = int((w - label_width - 1) * limit / 128.0 + 0.5) + label_width; if (x <= limitx - 2) break; if (x <= limitx + 2) { resize.dimension = dim; resize.offset = iZone << bitpos; resize.pos = limit; resize.min = prev_limit; int dr = (dimregno >> bitpos) & ((1 << region->pDimensionDefinitions[dim].bits) - 1); resize.selected = dr == iZone ? resize.left : dr == iZone + 1 ? resize.right : resize.none; iZone++; gig::DimensionRegion *d = region->pDimensionRegions[c + (iZone << bitpos)]; const int upperLimit = (customsplits) ? (d->DimensionUpperLimits[dim]) ? d->DimensionUpperLimits[dim] : d->VelocityUpperLimit : (iZone+1) * (int)region->pDimensionDefinitions[dim].zone_size - 1; int limit = upperLimit + 1; resize.max = limit; return true; } prev_limit = limit; } } } return false; } sigc::signal& DimRegionChooser::signal_dimregion_selected() { return dimregion_selected; } sigc::signal& DimRegionChooser::signal_region_changed() { return region_changed; } bool DimRegionChooser::on_focus(Gtk::DirectionType direction) { // TODO: kolla att region finns osv, dvs att det går att sätta // fokus. if (direction == Gtk::DIR_TAB_FORWARD || direction == Gtk::DIR_DOWN) { if (!has_focus()) { focus_line = 0; grab_focus(); return true; } else { if (focus_line + 1 < region->Dimensions) { focus_line++; queue_draw(); return true; } else { return false; } } } else if (direction == Gtk::DIR_TAB_BACKWARD || direction == Gtk::DIR_UP) { if (!has_focus()) { focus_line = region->Dimensions - 1; grab_focus(); return true; } else { if (focus_line > 0) { focus_line--; queue_draw(); return true; } else { return false; } } } else if (!has_focus()) { // TODO: kolla att focus_line finns! grab_focus(); return true; } else { // TODO: öka eller minska värde! } }