/* * Copyright (C) 2010 Paul Davis * Copyright (C) 2017-2018 Robin Gareus * * 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 of the License, 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 this program; if not, write to the Free Software Foundation, Inc., * 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA. */ #include #include #include #include #include #include "pbd/compose.h" #include "pbd/controllable.h" #include "pbd/error.h" #include "gtkmm2ext/colors.h" #include "gtkmm2ext/gui_thread.h" #include "gtkmm2ext/rgb_macros.h" #include "gtkmm2ext/utils.h" #include "widgets/ardour_button.h" #include "widgets/tooltips.h" #include "widgets/ui_config.h" #include "pbd/i18n.h" #define BASELINESTRETCH (1.25) #define TRACKHEADERBTNW (3.10) using namespace Gtk; using namespace Glib; using namespace PBD; using namespace ArdourWidgets; using std::max; using std::min; using namespace std; ArdourButton::Element ArdourButton::default_elements = ArdourButton::Element (ArdourButton::Edge|ArdourButton::Body|ArdourButton::Text); ArdourButton::Element ArdourButton::led_default_elements = ArdourButton::Element (ArdourButton::default_elements|ArdourButton::Indicator); ArdourButton::Element ArdourButton::just_led_default_elements = ArdourButton::Element (ArdourButton::Edge|ArdourButton::Body|ArdourButton::Indicator); ArdourButton::Tweaks ArdourButton::default_tweaks = ArdourButton::Tweaks (0); ArdourButton::ArdourButton (Element e, bool toggle) : _markup (false) , _elements (e) , _icon (ArdourIcon::NoIcon) , _icon_render_cb (0) , _icon_render_cb_data (0) , _tweaks (default_tweaks) , _char_pixel_width (0) , _char_pixel_height (0) , _char_avg_pixel_width (0) , _width_padding (1.75) , _custom_font_set (false) , _text_width (0) , _text_height (0) , _diameter (0) , _corner_radius (3.5) , _corner_mask (0xf) , _angle(0) , _xalign(.5) , _yalign(.5) , fill_inactive_color (0) , fill_active_color (0) , text_active_color(0) , text_inactive_color(0) , led_active_color(0) , led_inactive_color(0) , led_custom_color (0) , use_custom_led_color (false) , convex_pattern (0) , concave_pattern (0) , led_inset_pattern (0) , _led_rect (0) , _act_on_release (true) , _auto_toggle (toggle) , _led_left (false) , _distinct_led_click (false) , _hovering (false) , _focused (false) , _fixed_colors_set (false) , _fallthrough_to_parent (false) , _layout_ellipsize_width (-1) , _ellipsis (Pango::ELLIPSIZE_NONE) , _update_colors (true) , _pattern_height (0) { UIConfigurationBase::instance().ColorsChanged.connect (sigc::mem_fun (*this, &ArdourButton::color_handler)); /* This is not provided by gtkmm */ signal_grab_broken_event().connect (sigc::mem_fun (*this, &ArdourButton::on_grab_broken_event)); add_events (Gdk::TOUCH_BEGIN_MASK | Gdk::TOUCH_END_MASK); } ArdourButton::ArdourButton (const std::string& str, Element e, bool toggle) : _markup (false) , _elements (e) , _icon (ArdourIcon::NoIcon) , _tweaks (default_tweaks) , _char_pixel_width (0) , _char_pixel_height (0) , _char_avg_pixel_width (0) , _width_padding (1.75) , _custom_font_set (false) , _text_width (0) , _text_height (0) , _diameter (0) , _corner_radius (3.5) , _corner_mask (0xf) , _angle(0) , _xalign(.5) , _yalign(.5) , fill_inactive_color (0) , fill_active_color (0) , text_active_color(0) , text_inactive_color(0) , led_active_color(0) , led_inactive_color(0) , led_custom_color (0) , use_custom_led_color (false) , outline_color (0) , convex_pattern (0) , concave_pattern (0) , led_inset_pattern (0) , _led_rect (0) , _act_on_release (true) , _auto_toggle (toggle) , _led_left (false) , _distinct_led_click (false) , _hovering (false) , _focused (false) , _fixed_colors_set (false) , _fallthrough_to_parent (false) , _layout_ellipsize_width (-1) , _ellipsis (Pango::ELLIPSIZE_NONE) , _update_colors (true) , _pattern_height (0) { set_text (str); UIConfigurationBase::instance().ColorsChanged.connect (sigc::mem_fun (*this, &ArdourButton::color_handler)); UIConfigurationBase::instance().DPIReset.connect (sigc::mem_fun (*this, &ArdourButton::on_name_changed)); /* This is not provided by gtkmm */ signal_grab_broken_event().connect (sigc::mem_fun (*this, &ArdourButton::on_grab_broken_event)); add_events (Gdk::TOUCH_BEGIN_MASK | Gdk::TOUCH_END_MASK); } ArdourButton::~ArdourButton() { delete _led_rect; if (convex_pattern) { cairo_pattern_destroy (convex_pattern); } if (concave_pattern) { cairo_pattern_destroy (concave_pattern); } if (led_inset_pattern) { cairo_pattern_destroy (led_inset_pattern); } } void ArdourButton::set_layout_font (const Pango::FontDescription& fd) { ensure_layout (); if (_layout) { _layout->set_font_description (fd); queue_resize (); _char_pixel_width = 0; _char_pixel_height = 0; _custom_font_set = true; } } void ArdourButton::set_text_internal () { assert (_layout); if (_markup) { _layout->set_markup (_text); } else { _layout->set_text (_text); } } void ArdourButton::set_text (const std::string& str, bool markup) { if (!(_elements & Text)) { return; } if (_text == str && _markup == markup) { return; } _text = str; _markup = markup; if (!get_realized()) { return; } ensure_layout (); if (_layout && _layout->get_text() != _text) { set_text_internal (); /* on_size_request() will fill in _text_width/height * so queue it even if _sizing_text != "" */ if (_sizing_texts.empty ()) { queue_resize (); } else { _layout->get_pixel_size (_text_width, _text_height); CairoWidget::set_dirty (); } } } void ArdourButton::set_sizing_text (std::string const& str) { if (_sizing_texts.size () == 1 && _sizing_texts.front() == str) { return; } _sizing_texts.clear (); _sizing_texts.push_back (str); queue_resize (); } void ArdourButton::set_sizing_texts (std::vector const& s) { _sizing_texts = s; queue_resize (); } void ArdourButton::set_angle (const double angle) { _angle = angle; } void ArdourButton::set_alignment (const float xa, const float ya) { _xalign = xa; _yalign = ya; } /* TODO make this a dedicated function elsewhere. * * Option 1: * virtual ArdourButton::render_vector_icon() * ArdourIconButton::render_vector_icon * * Option 2: * ARDOUR_UI_UTILS::render_vector_icon() */ void ArdourButton::render (Cairo::RefPtr const& ctx, cairo_rectangle_t*) { cairo_t* cr = ctx->cobj(); uint32_t text_color; uint32_t led_color; const bool boxy = (_tweaks & ForceBoxy) | boxy_buttons (); const bool flat = (_tweaks & ForceFlat) | flat_buttons (); const float corner_radius = boxy ? 0 : std::max(2.f, _corner_radius * UIConfigurationBase::instance().get_ui_scale()); const float scale = UIConfigurationBase::instance().get_ui_scale(); if (_update_colors) { set_colors (); } if (get_height() != _pattern_height) { build_patterns (); } if ( active_state() == Gtkmm2ext::ExplicitActive ) { bool led = (_elements & Indicator)==Indicator; text_color = led ? text_inactive_color : text_active_color; led_color = led_active_color; } else { text_color = text_inactive_color; led_color = led_inactive_color; } if (use_custom_led_color) { led_color = led_custom_color; } void (*rounded_function)(cairo_t*, double, double, double, double, double); if (corner_radius) { switch (_corner_mask) { case 0x1: /* upper left only */ rounded_function = Gtkmm2ext::rounded_top_left_rectangle; break; case 0x2: /* upper right only */ rounded_function = Gtkmm2ext::rounded_top_right_rectangle; break; case 0x3: /* upper only */ rounded_function = Gtkmm2ext::rounded_top_rectangle; break; /* should really have functions for lower right, lower left, lower only, but for now, we don't */ default: rounded_function = Gtkmm2ext::rounded_rectangle; } } else { rounded_function = Gtkmm2ext::rectangle; } // draw edge (filling a rect underneath, rather than stroking a border on top, allows the corners to be lighter-weight. if ((_elements & (Body|Edge)) == (Body|Edge)) { rounded_function (cr, 0, 0, get_width(), get_height(), corner_radius + 1.5); Gtkmm2ext::set_source_rgba (cr, outline_color); cairo_fill(cr); } // background fill if ((_elements & Body)==Body) { rounded_function (cr, 1, 1, get_width() - 2, get_height() - 2, corner_radius); if (active_state() == Gtkmm2ext::ImplicitActive && !((_elements & Indicator)==Indicator)) { Gtkmm2ext::set_source_rgba (cr, fill_inactive_color); cairo_fill (cr); } else if ( (active_state() == Gtkmm2ext::ExplicitActive) && !((_elements & Indicator)==Indicator) ) { //background color Gtkmm2ext::set_source_rgba (cr, fill_active_color); cairo_fill (cr); } else { //inactive, or it has an indicator //background color Gtkmm2ext::set_source_rgba (cr, fill_inactive_color); } cairo_fill (cr); } // IMPLICIT ACTIVE: draw a border of the active color if ((_elements & Body)==Body) { if (active_state() == Gtkmm2ext::ImplicitActive && !((_elements & Indicator)==Indicator)) { cairo_set_line_width (cr, 2.0); rounded_function (cr, 2, 2, get_width() - 4, get_height() - 4, corner_radius-0.5); Gtkmm2ext::set_source_rgba (cr, fill_active_color); cairo_stroke (cr); } } //show the "convex" or "concave" gradient if (!flat && (_elements & Body)==Body) { if ( active_state() == Gtkmm2ext::ExplicitActive && ( !((_elements & Indicator)==Indicator) || use_custom_led_color) ) { //concave cairo_set_source (cr, concave_pattern); Gtkmm2ext::rounded_rectangle (cr, 1, 1, get_width() - 2, get_height() - 2, corner_radius); cairo_fill (cr); } else { cairo_set_source (cr, convex_pattern); Gtkmm2ext::rounded_rectangle (cr, 1, 1, get_width() - 2, get_height() - 2, corner_radius); cairo_fill (cr); } } const int text_margin = char_pixel_width(); //Pixbuf, if any if (_pixbuf) { double x = rint((get_width() - _pixbuf->get_width()) * .5); const double y = rint((get_height() - _pixbuf->get_height()) * .5); #if 0 // DEBUG style (print on hover) if (_hovering || (_elements & Inactive)) { printf("%s: p:%dx%d (%dx%d)\n", get_name().c_str(), _pixbuf->get_width(), _pixbuf->get_height(), get_width(), get_height()); } #endif if (_elements & Menu) { //if this is a DropDown with an icon, then we need to //move the icon left slightly to accomomodate the arrow x -= _diameter - 2; } cairo_rectangle (cr, x, y, _pixbuf->get_width(), _pixbuf->get_height()); gdk_cairo_set_source_pixbuf (cr, _pixbuf->gobj(), x, y); cairo_fill (cr); } else /* VectorIcon, IconRenderCallback are exclusive to Pixbuf Icons */ if (_elements & (VectorIcon | IconRenderCallback)) { int vw = get_width(); int vh = get_height(); cairo_save (cr); if (_elements & Menu) { vw -= _diameter + 4; } if (_elements & Indicator) { vw -= _diameter + .5 * text_margin; if (_led_left) { cairo_translate (cr, _diameter + text_margin, 0); } } if (_elements & Text) { vw -= _text_width + text_margin; } if (_elements & VectorIcon) { ArdourIcon::render (cr, _icon, vw, vh, active_state(), text_color); } else { rounded_function (cr, 0, 0, get_width(), get_height(), corner_radius + 1.5); cairo_clip (cr); _icon_render_cb (cr, vw, vh, text_color, _icon_render_cb_data); } cairo_restore (cr); } // Text, if any if (!_pixbuf && ((_elements & Text)==Text) && !_text.empty()) { assert(_layout); #if 0 // DEBUG style (print on hover) if (_hovering || (_elements & Inactive)) { bool layout_font = true; Pango::FontDescription fd = _layout->get_font_description(); if (fd.gobj() == NULL) { layout_font = false; fd = get_pango_context()->get_font_description(); } printf("%s: f:%dx%d aw:%.3f bh:%.0f t:%dx%d (%dx%d) %s\"%s\"\n", get_name().c_str(), char_pixel_width(), char_pixel_height(), char_avg_pixel_width(), ceil(char_pixel_height() * BASELINESTRETCH), _text_width, _text_height, get_width(), get_height(), layout_font ? "L:" : "W:", fd.to_string().c_str()); } #endif cairo_save (cr); cairo_rectangle (cr, 2, 1, get_width() - 4, get_height() - 2); cairo_clip(cr); cairo_new_path (cr); Gtkmm2ext::set_source_rgba (cr, text_color); const double text_ypos = round ((get_height() - _text_height) * .5); if (_elements & Menu) { // always left align (dropdown) cairo_move_to (cr, text_margin, text_ypos); pango_cairo_show_layout (cr, _layout->gobj()); } else if ( (_elements & Indicator) == Indicator) { // left/right align depending on LED position if (_led_left) { cairo_move_to (cr, round (text_margin + _diameter + .5 * char_pixel_width()), text_ypos); } else { cairo_move_to (cr, text_margin, text_ypos); } pango_cairo_show_layout (cr, _layout->gobj()); } else if (VectorIcon == (_elements & VectorIcon)) { cairo_move_to (cr, get_width () - text_margin - _text_width, text_ypos); pango_cairo_show_layout (cr, _layout->gobj()); } else { /* centered text otherwise */ double ww, wh; double xa, ya; ww = get_width(); wh = get_height(); cairo_matrix_t m1; cairo_get_matrix (cr, &m1); cairo_matrix_t m2 = m1; m2.x0 = 0; m2.y0 = 0; cairo_set_matrix (cr, &m2); if (_angle) { cairo_rotate(cr, _angle * M_PI / 180.0); } cairo_device_to_user(cr, &ww, &wh); xa = text_margin + (ww - _text_width - 2 * text_margin) * _xalign; ya = (wh - _text_height) * _yalign; /* quick hack for left/bottom alignment at -90deg * TODO this should be generalized incl rotation. * currently only 'user' of this API is meter_strip.cc */ if (_xalign < 0) xa = ceil(.5 + (ww * fabs(_xalign) + text_margin)); cairo_move_to (cr, round (xa + m1.x0), round (ya + m1.y0)); pango_cairo_update_layout(cr, _layout->gobj()); pango_cairo_show_layout (cr, _layout->gobj()); } cairo_restore (cr); } //Menu "triangle" if (_elements & Menu) { const float trih = ceil(_diameter * .5); const float triw2 = ceil(.577 * _diameter * .5); // 1/sqrt(3) Equilateral triangle //menu arrow cairo_set_source_rgba (cr, 1, 1, 1, 0.4); cairo_move_to(cr, get_width() - triw2 - 3. , rint((get_height() + trih) * .5)); cairo_rel_line_to(cr, -triw2, -trih); cairo_rel_line_to(cr, 2. * triw2, 0); cairo_close_path(cr); cairo_set_source_rgba (cr, 1, 1, 1, 0.4); cairo_fill(cr); cairo_move_to(cr, get_width() - triw2 - 3 , rint((get_height() + trih) * .5)); cairo_rel_line_to(cr, .5 - triw2, .5 - trih); cairo_rel_line_to(cr, 2. * triw2 - 1, 0); cairo_close_path(cr); cairo_set_source_rgba (cr, 0, 0, 0, 0.8); cairo_set_line_width(cr, 1); cairo_stroke(cr); } //Indicator LED if ((_elements & ColorBox)==ColorBox) { cairo_save (cr); /* move to the center of the indicator/led */ if (_elements & (Text | VectorIcon | IconRenderCallback)) { int led_xoff = ceil((char_pixel_width() + _diameter) * .5); if (_led_left) { cairo_translate (cr, led_xoff, get_height() * .5); } else { cairo_translate (cr, get_width() - led_xoff, get_height() * .5); } } else { cairo_translate (cr, get_width() * .5, get_height() * .5); } float size = ceil(std::min (get_width(), get_height())/2 - 3*scale); //black border cairo_set_source_rgb (cr, 0, 0, 0); rounded_function (cr, -size, -size, size*2, size*2, corner_radius - 1*scale); cairo_fill(cr); //inset by 1 px size = size - 1*scale; //led color Gtkmm2ext::set_source_rgba (cr, led_color); rounded_function (cr, -size, -size, size*2, size*2, corner_radius - 2*scale); cairo_fill(cr); cairo_restore (cr); } else if (_elements & Indicator) { cairo_save (cr); /* move to the center of the indicator/led */ if (_elements & (Text | VectorIcon | IconRenderCallback)) { int led_xoff = ceil((char_pixel_width() + _diameter) * .5); if (_led_left) { cairo_translate (cr, led_xoff, get_height() * .5); } else { cairo_translate (cr, get_width() - led_xoff, get_height() * .5); } } else { cairo_translate (cr, get_width() * .5, get_height() * .5); } //inset if (!flat) { cairo_arc (cr, 0, 0, _diameter * .5, 0, 2 * M_PI); cairo_set_source (cr, led_inset_pattern); cairo_fill (cr); } //black ring cairo_set_source_rgb (cr, 0, 0, 0); cairo_arc (cr, 0, 0, _diameter * .5 - 1 * UIConfigurationBase::instance().get_ui_scale(), 0, 2 * M_PI); cairo_fill(cr); //led color Gtkmm2ext::set_source_rgba (cr, led_color); cairo_arc (cr, 0, 0, _diameter * .5 - 3 * UIConfigurationBase::instance().get_ui_scale(), 0, 2 * M_PI); cairo_fill(cr); cairo_restore (cr); } // a transparent overlay to indicate insensitivity if ((visual_state() & Gtkmm2ext::Insensitive)) { rounded_function (cr, 1, 1, get_width() - 2, get_height() - 2, corner_radius); uint32_t ins_color = UIConfigurationBase::instance().color ("gtk_background"); Gtkmm2ext::set_source_rgb_a (cr, ins_color, 0.6); cairo_fill (cr); } // if requested, show hovering if (UIConfigurationBase::instance().get_widget_prelight() && !((visual_state() & Gtkmm2ext::Insensitive))) { if (_hovering) { rounded_function (cr, 1, 1, get_width() - 2, get_height() - 2, corner_radius); cairo_set_source_rgba (cr, 0.905, 0.917, 0.925, 0.2); cairo_fill (cr); } } //user is currently pressing the button. dark outline helps to indicate this if (_grabbed && !(_elements & (Inactive|Menu))) { rounded_function (cr, 1, 1, get_width() - 2, get_height() - 2, corner_radius); cairo_set_line_width(cr, 2); cairo_set_source_rgba (cr, 0.1, 0.1, 0.1, .5); cairo_stroke (cr); } //some buttons (like processor boxes) can be selected (so they can be deleted). Draw a selection indicator if (visual_state() & Gtkmm2ext::Selected) { cairo_set_line_width(cr, 1); cairo_set_source_rgba (cr, 1, 0, 0, 0.8); rounded_function (cr, 0.5, 0.5, get_width() - 1, get_height() - 1, corner_radius); cairo_stroke (cr); } //I guess this means we have keyboard focus. I don't think this works currently // //A: yes, it's keyboard focus and it does work when there's no editor window // (the editor is always the first receiver for KeyDown). // It's needed for eg. the engine-dialog at startup or after closing a session. if (_focused) { rounded_function (cr, 1.5, 1.5, get_width() - 3, get_height() - 3, corner_radius); cairo_set_source_rgba (cr, 0.905, 0.917, 0.925, 0.8); double dashes = 1; cairo_set_dash (cr, &dashes, 1, 0); cairo_set_line_cap (cr, CAIRO_LINE_CAP_BUTT); cairo_set_line_width (cr, 1.0); cairo_stroke (cr); cairo_set_dash (cr, 0, 0, 0); } } void ArdourButton::set_corner_radius (float r) { _corner_radius = r; CairoWidget::set_dirty (); } void ArdourButton::on_realize() { CairoWidget::on_realize (); ensure_layout (); if (_layout) { if (_layout->get_text() != _text) { set_text_internal (); queue_resize (); } } } void ArdourButton::on_size_request (Gtk::Requisition* req) { req->width = req->height = 0; CairoWidget::on_size_request (req); if (_diameter == 0) { const float newdia = rintf (11.f * UIConfigurationBase::instance().get_ui_scale()); if (_diameter != newdia) { _pattern_height = 0; _diameter = newdia; } } if (_elements & Text) { ensure_layout(); set_text_internal (); /* render() needs the size of the displayed text */ _layout->get_pixel_size (_text_width, _text_height); if (_tweaks & OccasionalText) { /* size should not change based on presence or absence * of text. */ } else if (_layout_ellipsize_width > 0 && _sizing_texts.empty()) { req->height = std::max(req->height, (int) ceil(char_pixel_height() * BASELINESTRETCH + 1.0)); req->width += _layout_ellipsize_width / PANGO_SCALE; } else /*if (!_text.empty() || !_sizing_texts.empty()) */ { req->height = std::max(req->height, (int) ceil(char_pixel_height() * BASELINESTRETCH + 1.0)); req->width += rint(_width_padding * char_pixel_width()); // padding int sizing_text_width = 0, sizing_text_height = 0; for (auto const& txt : _sizing_texts) { _layout->set_text (txt); /* use sizing text */ int w, h; _layout->get_pixel_size (w, h); sizing_text_width = max(sizing_text_width, w); sizing_text_width = max(sizing_text_width, h); } if (!_sizing_texts.empty()) { set_text_internal (); /* restore display text */ } else { _layout->get_pixel_size (sizing_text_width, sizing_text_height); } req->width += sizing_text_width; } /* XXX hack (surprise). Deal with two common rotation angles */ if (_angle == 90 || _angle == 270) { /* do not swap text width or height because we rely on these being the un-rotated values in ::render() */ swap (req->width, req->height); } } else { _text_width = 0; _text_height = 0; } if (_pixbuf) { req->width += _pixbuf->get_width() + char_pixel_width(); req->height = std::max(req->height, _pixbuf->get_height() + 4); } if ((_elements & Indicator) || (_tweaks & OccasionalLED)) { req->width += ceil (_diameter + char_pixel_width()); req->height = std::max (req->height, (int) lrint (_diameter) + 4); } if ((_elements & Menu)) { req->width += _diameter + 4; } if (_elements & (VectorIcon | IconRenderCallback)) { const int wh = std::max (8., std::max (ceil (TRACKHEADERBTNW * char_avg_pixel_width()), ceil (char_pixel_height() * BASELINESTRETCH + 1.))); req->width += wh; req->height = std::max(req->height, wh); } /* Tweaks to mess the nice stuff above up again. */ if (_tweaks & TrackHeader) { // forget everything above and just use a fixed square [em] size // "TrackHeader Buttons" are single letter (usually uppercase) // a SizeGroup is much less efficient (lots of gtk work under the hood for each track) const int wh = std::max (rint (TRACKHEADERBTNW * char_avg_pixel_width()), ceil (char_pixel_height() * BASELINESTRETCH + 1.)); req->width = wh; req->height = wh; } else if (_tweaks & (Square | ExpandtoSquare)) { if (_squaresize.has_value ()) { req->width = std::max (req->width, _squaresize.value ()); } // currerntly unused (again) if (req->width < req->height) req->width = req->height; if (req->height < req->width) req->height = req->width; } else if (_sizing_texts.empty() && _text_width > 0 && !(_elements & Menu)) { // properly centered text for those elements that are centered // (no sub-pixel offset) if ((req->width - _text_width) & 1) { ++req->width; } if ((req->height - _text_height) & 1) { ++req->height; } } #if 0 printf("REQ: %s: %dx%d\n", get_name().c_str(), req->width, req->height); #endif } /** * This sets the colors used for rendering based on the name of the button, and * thus uses information from the GUI config data. */ void ArdourButton::set_colors () { _update_colors = false; std::string name = get_name(); bool failed = false; outline_color = UIConfigurationBase::instance().color (string_compose ("%1: outline", name), &failed); if (failed) { outline_color = UIConfigurationBase::instance().color ("generic button: outline"); } if (_fixed_colors_set == 0x3) { return; } if (!(_fixed_colors_set & 0x1)) { fill_active_color = UIConfigurationBase::instance().color (string_compose ("%1: fill active", name), &failed); if (failed) { fill_active_color = UIConfigurationBase::instance().color ("generic button: fill active"); } } if (!(_fixed_colors_set & 0x2)) { fill_inactive_color = UIConfigurationBase::instance().color (string_compose ("%1: fill", name), &failed); if (failed) { fill_inactive_color = UIConfigurationBase::instance().color ("generic button: fill"); } } text_active_color = Gtkmm2ext::contrasting_text_color (fill_active_color); text_inactive_color = Gtkmm2ext::contrasting_text_color (fill_inactive_color); led_active_color = UIConfigurationBase::instance().color (string_compose ("%1: led active", name), &failed); if (failed) { led_active_color = UIConfigurationBase::instance().color ("generic button: led active"); } /* The inactive color for the LED is just a fairly dark version of the * active color. */ Gtkmm2ext::HSV inactive (led_active_color); inactive.v = 0.35; led_inactive_color = inactive.color (); } /** * This sets the colors used for rendering based on two fixed values, rather * than basing them on the button name, and thus information in the GUI config * data. */ void ArdourButton::set_fixed_colors (const uint32_t color_active, const uint32_t color_inactive) { set_active_color (color_active); set_inactive_color (color_inactive); } void ArdourButton::set_active_color (const uint32_t color) { _fixed_colors_set |= 0x1; fill_active_color = color; unsigned char r, g, b, a; UINT_TO_RGBA(color, &r, &g, &b, &a); double white_contrast = (max (double(r), 255.) - min (double(r), 255.)) + (max (double(g), 255.) - min (double(g), 255.)) + (max (double(b), 255.) - min (double(b), 255.)); double black_contrast = (max (double(r), 0.) - min (double(r), 0.)) + (max (double(g), 0.) - min (double(g), 0.)) + (max (double(b), 0.) - min (double(b), 0.)); text_active_color = (white_contrast > black_contrast) ? RGBA_TO_UINT(255, 255, 255, 255) : /* use white */ RGBA_TO_UINT( 0, 0, 0, 255); /* use black */ /* XXX what about led colors ? */ CairoWidget::set_dirty (); } void ArdourButton::set_inactive_color (const uint32_t color) { _fixed_colors_set |= 0x2; fill_inactive_color = color; unsigned char r, g, b, a; UINT_TO_RGBA(color, &r, &g, &b, &a); double white_contrast = (max (double(r), 255.) - min (double(r), 255.)) + (max (double(g), 255.) - min (double(g), 255.)) + (max (double(b), 255.) - min (double(b), 255.)); double black_contrast = (max (double(r), 0.) - min (double(r), 0.)) + (max (double(g), 0.) - min (double(g), 0.)) + (max (double(b), 0.) - min (double(b), 0.)); text_inactive_color = (white_contrast > black_contrast) ? RGBA_TO_UINT(255, 255, 255, 255) : /* use white */ RGBA_TO_UINT( 0, 0, 0, 255); /* use black */ /* XXX what about led colors ? */ CairoWidget::set_dirty (); } void ArdourButton::reset_fixed_colors () { if (_fixed_colors_set == 0) { return; } _fixed_colors_set = 0; _update_colors = true; CairoWidget::set_dirty (); } void ArdourButton::build_patterns () { if (convex_pattern) { cairo_pattern_destroy (convex_pattern); convex_pattern = 0; } if (concave_pattern) { cairo_pattern_destroy (concave_pattern); concave_pattern = 0; } if (led_inset_pattern) { cairo_pattern_destroy (led_inset_pattern); led_inset_pattern = 0; } //convex gradient convex_pattern = cairo_pattern_create_linear (0.0, 0, 0.0, get_height()); cairo_pattern_add_color_stop_rgba (convex_pattern, 0.0, 0,0,0, 0.0); cairo_pattern_add_color_stop_rgba (convex_pattern, 1.0, 0,0,0, 0.35); //concave gradient concave_pattern = cairo_pattern_create_linear (0.0, 0, 0.0, get_height()); cairo_pattern_add_color_stop_rgba (concave_pattern, 0.0, 0,0,0, 0.5); cairo_pattern_add_color_stop_rgba (concave_pattern, 0.7, 0,0,0, 0.0); led_inset_pattern = cairo_pattern_create_linear (0.0, 0.0, 0.0, _diameter); cairo_pattern_add_color_stop_rgba (led_inset_pattern, 0, 0,0,0, 0.4); cairo_pattern_add_color_stop_rgba (led_inset_pattern, 1, 1,1,1, 0.7); _pattern_height = get_height() ; } void ArdourButton::set_led_left (bool yn) { _led_left = yn; } bool ArdourButton::on_touch_begin_event (GdkEventTouch *ev) { printf ("ArdourButton::on_touch_begin_event finger %d\n", ev->sequence); focus_handler (this); CairoWidget::set_dirty (); if (!_act_on_release) { if (_action) { _action->activate (); } else if (_auto_toggle) { set_active (!get_active ()); signal_clicked (); } } return true; } bool ArdourButton::on_touch_end_event (GdkEventTouch *ev) { printf ("ArdourButton::on_touch_end_event finger: %d\n", ev->sequence); CairoWidget::set_dirty (); if (_act_on_release && _auto_toggle && !_action) { set_active (!get_active ()); } signal_clicked (); if (_act_on_release && _action) { _action->activate (); } return true; } bool ArdourButton::on_button_press_event (GdkEventButton *ev) { focus_handler (this); if (ev->type == GDK_2BUTTON_PRESS || ev->type == GDK_3BUTTON_PRESS) { return _fallthrough_to_parent ? false : true; } if (ev->button == 1 && (_elements & Indicator) && _led_rect && _distinct_led_click) { if (ev->x >= _led_rect->x && ev->x < _led_rect->x + _led_rect->width && ev->y >= _led_rect->y && ev->y < _led_rect->y + _led_rect->height) { return true; } } if (binding_proxy.button_press_handler (ev)) { return true; } _grabbed = true; CairoWidget::set_dirty (); if (ev->button == 1 && !_act_on_release) { if (_action) { _action->activate (); return true; } else if (_auto_toggle) { set_active (!get_active ()); signal_clicked (); return true; } } return _fallthrough_to_parent ? false : true; } bool ArdourButton::on_button_release_event (GdkEventButton *ev) { if (ev->type == GDK_2BUTTON_PRESS || ev->type == GDK_3BUTTON_PRESS) { return _fallthrough_to_parent ? false : true; } if (ev->button == 1 && _hovering && (_elements & Indicator) && _led_rect && _distinct_led_click) { if (ev->x >= _led_rect->x && ev->x < _led_rect->x + _led_rect->width && ev->y >= _led_rect->y && ev->y < _led_rect->y + _led_rect->height) { signal_led_clicked(ev); /* EMIT SIGNAL */ return true; } } _grabbed = false; CairoWidget::set_dirty (); if (ev->button == 1 && _hovering) { if (_act_on_release && _auto_toggle && !_action) { set_active (!get_active ()); } signal_clicked (); if (_act_on_release) { if (_action) { _action->activate (); return true; } } } return _fallthrough_to_parent ? false : true; } void ArdourButton::set_distinct_led_click (bool yn) { _distinct_led_click = yn; setup_led_rect (); } void ArdourButton::color_handler () { _update_colors = true; CairoWidget::set_dirty (); } void ArdourButton::on_size_allocate (Allocation& alloc) { CairoWidget::on_size_allocate (alloc); setup_led_rect (); if (_layout) { /* re-center text */ //_layout->get_pixel_size (_text_width, _text_height); } if (_tweaks & ExpandtoSquare && alloc.get_width () != alloc.get_height ()) { if (!_squaresize.has_value ()) { _squaresize = std::max (alloc.get_width (), alloc.get_height ()); queue_resize (); } else { /* allow widget to shink next time */ _squaresize.reset (); } } } void ArdourButton::set_controllable (std::shared_ptr c) { watch_connection.disconnect (); binding_proxy.set_controllable (c); } void ArdourButton::watch () { std::shared_ptr c (binding_proxy.get_controllable ()); if (!c) { warning << _("button cannot watch state of non-existing Controllable\n") << endmsg; return; } c->Changed.connect (watch_connection, invalidator(*this), std::bind (&ArdourButton::controllable_changed, this), gui_context()); } void ArdourButton::controllable_changed () { float val = binding_proxy.get_controllable()->get_value(); if (fabs (val) >= 0.5f) { set_active_state (Gtkmm2ext::ExplicitActive); } else { unset_active_state (); } CairoWidget::set_dirty (); } void ArdourButton::set_related_action (RefPtr act) { Gtkmm2ext::Activatable::set_related_action (act); if (_action) { action_tooltip_changed (); action_sensitivity_changed (); Glib::RefPtr tact = Glib::RefPtr::cast_dynamic (_action); if (tact) { action_toggled (); tact->signal_toggled().connect (sigc::mem_fun (*this, &ArdourButton::action_toggled)); } _action->connect_property_changed ("sensitive", sigc::mem_fun (*this, &ArdourButton::action_sensitivity_changed)); _action->connect_property_changed ("visible", sigc::mem_fun (*this, &ArdourButton::action_visibility_changed)); _action->connect_property_changed ("tooltip", sigc::mem_fun (*this, &ArdourButton::action_tooltip_changed)); } } void ArdourButton::action_toggled () { Glib::RefPtr tact = Glib::RefPtr::cast_dynamic (_action); if (tact) { if (tact->get_active()) { set_active_state (Gtkmm2ext::ExplicitActive); } else { unset_active_state (); } } } void ArdourButton::on_style_changed (const RefPtr& style) { CairoWidget::on_style_changed (style); Glib::RefPtr const& new_style = get_style(); CairoWidget::set_dirty (); _update_colors = true; _char_pixel_width = 0; _char_pixel_height = 0; if (!_custom_font_set && _layout && _layout->get_font_description () != new_style->get_font ()) { _layout->set_font_description (new_style->get_font ()); queue_resize (); } else if (get_realized()) { queue_resize (); } } void ArdourButton::on_name_changed () { _char_pixel_width = 0; _char_pixel_height = 0; _diameter = 0; _update_colors = true; if (get_realized()) { queue_resize (); } } void ArdourButton::setup_led_rect () { if (!(_elements & Indicator)) { delete _led_rect; _led_rect = 0; return; } if (!_led_rect) { _led_rect = new cairo_rectangle_t; } if (_elements & Text) { if (_led_left) { _led_rect->x = char_pixel_width(); } else { _led_rect->x = get_width() - char_pixel_width() + _diameter; } } else { /* centered */ _led_rect->x = .5 * get_width() - _diameter; } _led_rect->y = .5 * (get_height() - _diameter); _led_rect->width = _diameter; _led_rect->height = _diameter; } void ArdourButton::set_image (const RefPtr& img) { _elements = (ArdourButton::Element) (_elements & ~ArdourButton::Text); _pixbuf = img; if (get_realized()) { queue_resize (); } } void ArdourButton::set_active_state (Gtkmm2ext::ActiveState s) { bool changed = (_active_state != s); CairoWidget::set_active_state (s); if (changed) { _update_colors = true; CairoWidget::set_dirty (); } } void ArdourButton::set_visual_state (Gtkmm2ext::VisualState s) { bool changed = (_visual_state != s); CairoWidget::set_visual_state (s); if (changed) { _update_colors = true; CairoWidget::set_dirty (); } } bool ArdourButton::on_focus_in_event (GdkEventFocus* ev) { _focused = true; CairoWidget::set_dirty (); return CairoWidget::on_focus_in_event (ev); } bool ArdourButton::on_focus_out_event (GdkEventFocus* ev) { _focused = false; CairoWidget::set_dirty (); return CairoWidget::on_focus_out_event (ev); } bool ArdourButton::on_key_release_event (GdkEventKey *ev) { if (_act_on_release && _focused && (ev->keyval == GDK_space || ev->keyval == GDK_Return)) { if (_auto_toggle && !_action) { set_active (!get_active ()); } signal_clicked(); if (_action) { _action->activate (); } return true; } return CairoWidget::on_key_release_event (ev); } bool ArdourButton::on_key_press_event (GdkEventKey *ev) { if (!_act_on_release && _focused && (ev->keyval == GDK_space || ev->keyval == GDK_Return)) { if (_auto_toggle && !_action) { set_active (!get_active ()); } signal_clicked(); if (_action) { _action->activate (); } return true; } return CairoWidget::on_key_release_event (ev); } bool ArdourButton::on_enter_notify_event (GdkEventCrossing* ev) { _hovering = (_elements & Inactive) ? false : true; if (UIConfigurationBase::instance().get_widget_prelight()) { CairoWidget::set_dirty (); } std::shared_ptr c (binding_proxy.get_controllable ()); if (c) { PBD::Controllable::GUIFocusChanged (std::weak_ptr (c)); } return CairoWidget::on_enter_notify_event (ev); } bool ArdourButton::on_leave_notify_event (GdkEventCrossing* ev) { _hovering = false; if (UIConfigurationBase::instance().get_widget_prelight()) { CairoWidget::set_dirty (); } if (binding_proxy.get_controllable()) { PBD::Controllable::GUIFocusChanged (std::weak_ptr ()); } return CairoWidget::on_leave_notify_event (ev); } bool ArdourButton::on_grab_broken_event(GdkEventGrabBroken* grab_broken_event) { /* Our implicit grab due to a button_press was broken by another grab: * the button will not get any button_release event if the mouse leaves * while the grab is taken, so unpress ourselves */ _grabbed = false; CairoWidget::set_dirty (); return true; } void ArdourButton::set_tweaks (Tweaks t) { if (_tweaks != t) { _tweaks = t; _squaresize.reset (); if (get_realized()) { queue_resize (); } } } void ArdourButton::action_sensitivity_changed () { if (_action->property_sensitive ()) { set_visual_state (Gtkmm2ext::VisualState (visual_state() & ~Gtkmm2ext::Insensitive)); } else { set_visual_state (Gtkmm2ext::VisualState (visual_state() | Gtkmm2ext::Insensitive)); } } void ArdourButton::set_layout_ellipsize_width (int w) { if (_layout_ellipsize_width == w) { return; } _layout_ellipsize_width = w; if (!_layout) { return; } if (_layout_ellipsize_width > 3 * PANGO_SCALE) { _layout->set_width (_layout_ellipsize_width - 3 * PANGO_SCALE); } if (get_realized ()) { queue_resize (); } } void ArdourButton::set_text_ellipsize (Pango::EllipsizeMode e) { if (_ellipsis == e) { return; } _ellipsis = e; if (!_layout) { return; } _layout->set_ellipsize(_ellipsis); if (_layout_ellipsize_width > 3 * PANGO_SCALE) { _layout->set_width (_layout_ellipsize_width - 3 * PANGO_SCALE); } if (get_realized ()) { queue_resize (); } } void ArdourButton::set_width_padding (float p) { if (_width_padding == p) { return; } _width_padding = p; if (get_realized ()) { queue_resize (); } } void ArdourButton::ensure_layout () { if (!_layout) { ensure_style (); _layout = Pango::Layout::create (get_pango_context()); _layout->set_font_description (get_style()->get_font()); _layout->set_ellipsize(_ellipsis); if (_layout_ellipsize_width > 3 * PANGO_SCALE) { _layout->set_width (_layout_ellipsize_width - 3* PANGO_SCALE); } } } void ArdourButton::recalc_char_pixel_geometry () { if (_char_pixel_height > 0 && _char_pixel_width > 0) { return; } ensure_layout(); // NB. this is not static, since the geometry is different // depending on the font used. int w, h; std::string x = _("@ABCDEFGHIJLKMNOPQRSTUVWXYZabcdefghijklmnopqrstuvwxyz0123456789"); _layout->set_text (x); _layout->get_pixel_size (w, h); _char_pixel_height = std::max(4, h); // number of actual chars in the string (not bytes) // Glib to the rescue. Glib::ustring gx(x); _char_avg_pixel_width = w / (float)gx.size(); _char_pixel_width = std::max(4, (int) ceil (_char_avg_pixel_width)); set_text_internal (); /* restore display text */ } void ArdourButton::action_visibility_changed () { if (_action->property_visible ()) { show (); } else { hide (); } } void ArdourButton::action_tooltip_changed () { string str = _action->property_tooltip().get_value(); set_tooltip (*this, str); } void ArdourButton::set_elements (Element e) { _elements = e; CairoWidget::set_dirty (); } void ArdourButton::add_elements (Element e) { _elements = (ArdourButton::Element) (_elements | e); CairoWidget::set_dirty (); } void ArdourButton::set_icon (ArdourIcon::Icon i) { _icon = i; _icon_render_cb = 0; _icon_render_cb_data = 0; _elements = (ArdourButton::Element) ((_elements | VectorIcon) & ~(ArdourButton::Text | IconRenderCallback)); CairoWidget::set_dirty (); } void ArdourButton::set_icon (rendercallback_t cb, void* d) { if (!cb) { _elements = (ArdourButton::Element) ((_elements | ArdourButton::Text) & ~(IconRenderCallback | VectorIcon)); _icon_render_cb = 0; _icon_render_cb_data = 0; } else { _elements = (ArdourButton::Element) ((_elements | IconRenderCallback) & ~(ArdourButton::Text | VectorIcon)); _icon_render_cb = cb; _icon_render_cb_data = d; } CairoWidget::set_dirty (); } void ArdourButton::set_custom_led_color (uint32_t c, bool useit) { if (led_custom_color == c && use_custom_led_color == useit) { return; } led_custom_color = c; use_custom_led_color = useit; CairoWidget::set_dirty (); }