/* expose snapshot over center viewport */ void gui_post_expose(dt_lib_module_t *self, cairo_t *cri, int32_t width, int32_t height, int32_t pointerx, int32_t pointery) { dt_lib_snapshots_t *d = (dt_lib_snapshots_t *)self->data; // convert to image coordinates: double x_start = width > darktable.thumbnail_width ? (width - darktable.thumbnail_width) *.5f:0; double y_start = height > darktable.thumbnail_height ? (height- darktable.thumbnail_height)*.5f:0; if(d->snapshot_image) { d->vp_width = width; d->vp_height = height; /* check if mouse pointer is on draggable area */ double xp = pointerx/d->vp_width; double yp = pointery/d->vp_height; double xpt = xp*0.01; double ypt = yp*0.01; gboolean mouse_over_control = d->vertical ? ((xp > d->vp_xpointer-xpt && xp < d->vp_xpointer+xpt)?TRUE:FALSE) : ((yp > d->vp_ypointer-ypt && yp < d->vp_ypointer+ypt)?TRUE:FALSE); /* set x,y,w,h of surface depending on split align and invert */ double x = d->vertical ? (d->inverted?width*d->vp_xpointer:0) : 0; double y = d->vertical ? 0 : (d->inverted?height*d->vp_ypointer:0); double w = d->vertical ? (d->inverted?(width * (1.0 - d->vp_xpointer)):width * d->vp_xpointer) : width; double h = d->vertical ? height : (d->inverted?(height * (1.0 - d->vp_ypointer)):height * d->vp_ypointer); cairo_set_source_surface(cri, d->snapshot_image, x_start, y_start); //cairo_rectangle(cri, 0, 0, width*d->vp_xpointer, height); cairo_rectangle(cri,x,y,w,h); cairo_fill(cri); /* draw the split line */ cairo_set_source_rgb(cri, .7, .7, .7); cairo_set_line_width(cri, (mouse_over_control ? 2.0 : 0.5) ); if(d->vertical) { cairo_move_to(cri, width*d->vp_xpointer, 0.0f); cairo_line_to(cri, width*d->vp_xpointer, height); } else { cairo_move_to(cri, 0.0f, height*d->vp_ypointer); cairo_line_to(cri, width, height*d->vp_ypointer); } cairo_stroke(cri); /* if mouse over control lets draw center rotate control, hide if split is dragged */ if(!d->dragging && mouse_over_control) { cairo_set_line_width(cri,0.5); double s = width*HANDLE_SIZE; dtgtk_cairo_paint_refresh(cri, (d->vertical ? width*d->vp_xpointer : width*0.5)-(s*0.5), (d->vertical ? height*0.5 : height*d->vp_ypointer)-(s*0.5), s,s,0); } } }
/* This file is part of darktable, copyright (c) 2009--2011 johannes hanika. copyright (c) 2012 tobias ellinghaus. copyright (c) 2014 henrik andersson. darktable 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 3 of the License, or (at your option) any later version. darktable 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 darktable. If not, see <http://www.gnu.org/licenses/>. */ #include "bauhaus/bauhaus.h" #include "common/camera_control.h" #include "common/darktable.h" #include "common/image_cache.h" #include "common/mipmap_cache.h" #include "control/conf.h" #include "control/control.h" #include "control/jobs.h" #include "dtgtk/button.h" #include "gui/accelerators.h" #include "gui/gtk.h" #include "gui/guides.h" #include "libs/lib.h" #include "libs/lib_api.h" #include <gdk/gdkkeysyms.h> typedef enum dt_lib_live_view_flip_t { FLAG_FLIP_NONE = 0, FLAG_FLIP_HORIZONTAL = 1<<0, FLAG_FLIP_VERTICAL = 1<<1, FLAG_FLIP_BOTH = FLAG_FLIP_HORIZONTAL|FLAG_FLIP_VERTICAL } dt_lib_live_view_flip_t; typedef enum dt_lib_live_view_overlay_t { OVERLAY_NONE = 0, OVERLAY_SELECTED, OVERLAY_ID } dt_lib_live_view_overlay_t; #define HANDLE_SIZE 0.02 static const cairo_operator_t _overlay_modes[] = { CAIRO_OPERATOR_OVER, CAIRO_OPERATOR_XOR, CAIRO_OPERATOR_ADD, CAIRO_OPERATOR_SATURATE #if(CAIRO_VERSION >= CAIRO_VERSION_ENCODE(1, 10, 0)) , CAIRO_OPERATOR_MULTIPLY, CAIRO_OPERATOR_SCREEN, CAIRO_OPERATOR_OVERLAY, CAIRO_OPERATOR_DARKEN, CAIRO_OPERATOR_LIGHTEN, CAIRO_OPERATOR_COLOR_DODGE, CAIRO_OPERATOR_COLOR_BURN, CAIRO_OPERATOR_HARD_LIGHT, CAIRO_OPERATOR_SOFT_LIGHT, CAIRO_OPERATOR_DIFFERENCE, CAIRO_OPERATOR_EXCLUSION, CAIRO_OPERATOR_HSL_HUE, CAIRO_OPERATOR_HSL_SATURATION, CAIRO_OPERATOR_HSL_COLOR, CAIRO_OPERATOR_HSL_LUMINOSITY #endif }; DT_MODULE(1) typedef struct dt_lib_live_view_t { int imgid; int splitline_rotation; double overlay_x0, overlay_x1, overlay_y0, overlay_y1; double splitline_x, splitline_y; // 0..1 gboolean splitline_dragging; GtkWidget *live_view, *live_view_zoom, *rotate_ccw, *rotate_cw, *flip; GtkWidget *focus_out_small, *focus_out_big, *focus_in_small, *focus_in_big; GtkWidget *guide_selector, *flip_guides, *guides_widgets; GList *guides_widgets_list; GtkWidget *overlay, *overlay_id_box, *overlay_id, *overlay_mode, *overlay_splitline; } dt_lib_live_view_t; static void guides_presets_set_visibility(dt_lib_live_view_t *lib, int which) { if(which == 0) { gtk_widget_set_no_show_all(lib->guides_widgets, TRUE); gtk_widget_hide(lib->guides_widgets); gtk_widget_set_no_show_all(lib->flip_guides, TRUE); gtk_widget_hide(lib->flip_guides); } else { GtkWidget *widget = g_list_nth_data(lib->guides_widgets_list, which - 1); if(widget) { gtk_widget_set_no_show_all(lib->guides_widgets, FALSE); gtk_widget_show_all(lib->guides_widgets); gtk_stack_set_visible_child(GTK_STACK(lib->guides_widgets), widget); } else { gtk_widget_set_no_show_all(lib->guides_widgets, TRUE); gtk_widget_hide(lib->guides_widgets); } gtk_widget_set_no_show_all(lib->flip_guides, FALSE); gtk_widget_show_all(lib->flip_guides); } // TODO: add a support_flip flag to guides to hide the flip gui? } static void guides_presets_changed(GtkWidget *combo, dt_lib_live_view_t *lib) { int which = dt_bauhaus_combobox_get(combo); guides_presets_set_visibility(lib, which); } static void overlay_changed(GtkWidget *combo, dt_lib_live_view_t *lib) { int which = dt_bauhaus_combobox_get(combo); if(which == OVERLAY_NONE) { gtk_widget_set_visible(GTK_WIDGET(lib->overlay_mode), FALSE); gtk_widget_set_visible(GTK_WIDGET(lib->overlay_splitline), FALSE); } else { gtk_widget_set_visible(GTK_WIDGET(lib->overlay_mode), TRUE); gtk_widget_set_visible(GTK_WIDGET(lib->overlay_splitline), TRUE); } if(which == OVERLAY_ID) gtk_widget_set_visible(GTK_WIDGET(lib->overlay_id_box), TRUE); else gtk_widget_set_visible(GTK_WIDGET(lib->overlay_id_box), FALSE); } const char *name(dt_lib_module_t *self) { return _("live view"); } const char **views(dt_lib_module_t *self) { static const char *v[] = {"tethering", NULL}; return v; } uint32_t container(dt_lib_module_t *self) { return DT_UI_CONTAINER_PANEL_RIGHT_CENTER; } void gui_reset(dt_lib_module_t *self) { } int position() { return 998; } void init_key_accels(dt_lib_module_t *self) { dt_accel_register_lib(self, NC_("accel", "toggle live view"), GDK_KEY_v, 0); dt_accel_register_lib(self, NC_("accel", "zoom live view"), GDK_KEY_z, 0); dt_accel_register_lib(self, NC_("accel", "rotate 90 degrees CCW"), 0, 0); dt_accel_register_lib(self, NC_("accel", "rotate 90 degrees CW"), 0, 0); dt_accel_register_lib(self, NC_("accel", "flip horizontally"), 0, 0); dt_accel_register_lib(self, NC_("accel", "move focus point in (big steps)"), 0, 0); dt_accel_register_lib(self, NC_("accel", "move focus point in (small steps)"), 0, 0); dt_accel_register_lib(self, NC_("accel", "move focus point out (small steps)"), 0, 0); dt_accel_register_lib(self, NC_("accel", "move focus point out (big steps)"), 0, 0); } void connect_key_accels(dt_lib_module_t *self) { dt_lib_live_view_t *lib = (dt_lib_live_view_t *)self->data; dt_accel_connect_button_lib(self, "toggle live view", GTK_WIDGET(lib->live_view)); dt_accel_connect_button_lib(self, "zoom live view", GTK_WIDGET(lib->live_view_zoom)); dt_accel_connect_button_lib(self, "rotate 90 degrees CCW", GTK_WIDGET(lib->rotate_ccw)); dt_accel_connect_button_lib(self, "rotate 90 degrees CW", GTK_WIDGET(lib->rotate_cw)); dt_accel_connect_button_lib(self, "flip horizontally", GTK_WIDGET(lib->flip)); dt_accel_connect_button_lib(self, "move focus point in (big steps)", GTK_WIDGET(lib->focus_in_big)); dt_accel_connect_button_lib(self, "move focus point in (small steps)", GTK_WIDGET(lib->focus_in_small)); dt_accel_connect_button_lib(self, "move focus point out (small steps)", GTK_WIDGET(lib->focus_out_small)); dt_accel_connect_button_lib(self, "move focus point out (big steps)", GTK_WIDGET(lib->focus_out_big)); } static void _rotate_ccw(GtkWidget *widget, gpointer user_data) { dt_camera_t *cam = (dt_camera_t *)darktable.camctl->active_camera; cam->live_view_rotation = (cam->live_view_rotation + 1) % 4; // 0 -> 1 -> 2 -> 3 -> 0 -> ... } static void _rotate_cw(GtkWidget *widget, gpointer user_data) { dt_camera_t *cam = (dt_camera_t *)darktable.camctl->active_camera; cam->live_view_rotation = (cam->live_view_rotation + 3) % 4; // 0 -> 3 -> 2 -> 1 -> 0 -> ... } // Congratulations to Simon for being the first one recognizing live view in a screen shot ^^ static void _toggle_live_view_clicked(GtkWidget *widget, gpointer user_data) { if(gtk_toggle_button_get_active(GTK_TOGGLE_BUTTON(widget)) == TRUE) { if(dt_camctl_camera_start_live_view(darktable.camctl) == FALSE) gtk_toggle_button_set_active(GTK_TOGGLE_BUTTON(widget), FALSE); } else { dt_camctl_camera_stop_live_view(darktable.camctl); } } // TODO: using a toggle button would be better, but this setting can also be changed by right clicking on the // canvas (src/views/capture.c). // maybe using a signal would work? i have no idea. static void _zoom_live_view_clicked(GtkWidget *widget, gpointer user_data) { dt_camera_t *cam = (dt_camera_t *)darktable.camctl->active_camera; if(cam->is_live_viewing) { cam->live_view_zoom = !cam->live_view_zoom; if(cam->live_view_zoom == TRUE) dt_camctl_camera_set_property_string(darktable.camctl, NULL, "eoszoom", "5"); else dt_camctl_camera_set_property_string(darktable.camctl, NULL, "eoszoom", "1"); } } static void _focus_button_clicked(GtkWidget *widget, gpointer user_data) { int focus = GPOINTER_TO_INT(user_data); dt_camctl_camera_set_property_choice(darktable.camctl, NULL, "manualfocusdrive", focus); } static void _toggle_flip_clicked(GtkWidget *widget, gpointer user_data) { dt_camera_t *cam = (dt_camera_t *)darktable.camctl->active_camera; cam->live_view_flip = gtk_toggle_button_get_active(GTK_TOGGLE_BUTTON(widget)); } static void _overlay_id_changed(GtkWidget *widget, gpointer user_data) { dt_lib_live_view_t *lib = (dt_lib_live_view_t *)user_data; lib->imgid = gtk_spin_button_get_value(GTK_SPIN_BUTTON(widget)); dt_conf_set_int("plugins/lighttable/live_view/overlay_imgid", lib->imgid); } static void _overlay_mode_changed(GtkWidget *combo, gpointer user_data) { dt_conf_set_int("plugins/lighttable/live_view/overlay_mode", dt_bauhaus_combobox_get(combo)); } static void _overlay_splitline_changed(GtkWidget *combo, gpointer user_data) { dt_conf_set_int("plugins/lighttable/live_view/splitline", dt_bauhaus_combobox_get(combo)); } void gui_init(dt_lib_module_t *self) { self->data = calloc(1, sizeof(dt_lib_live_view_t)); // Setup lib data dt_lib_live_view_t *lib = self->data; lib->splitline_x = lib->splitline_y = 0.5; // Setup gui self->widget = gtk_box_new(GTK_ORIENTATION_VERTICAL, 0); dt_gui_add_help_link(self->widget, "live_view.html#live_view"); GtkWidget *box; box = gtk_box_new(GTK_ORIENTATION_HORIZONTAL, 0); gtk_box_pack_start(GTK_BOX(self->widget), box, TRUE, TRUE, 0); lib->live_view = dtgtk_togglebutton_new(dtgtk_cairo_paint_eye, CPF_STYLE_FLAT | CPF_DO_NOT_USE_BORDER, NULL); lib->live_view_zoom = dtgtk_button_new( dtgtk_cairo_paint_zoom, CPF_STYLE_FLAT | CPF_DO_NOT_USE_BORDER, NULL); // TODO: see _zoom_live_view_clicked lib->rotate_ccw = dtgtk_button_new(dtgtk_cairo_paint_refresh, CPF_STYLE_FLAT | CPF_DO_NOT_USE_BORDER, NULL); lib->rotate_cw = dtgtk_button_new(dtgtk_cairo_paint_refresh, CPF_STYLE_FLAT | CPF_DO_NOT_USE_BORDER | CPF_DIRECTION_UP, NULL); lib->flip = dtgtk_togglebutton_new(dtgtk_cairo_paint_flip, CPF_STYLE_FLAT | CPF_DO_NOT_USE_BORDER | CPF_DIRECTION_UP, NULL); gtk_box_pack_start(GTK_BOX(box), lib->live_view, TRUE, TRUE, 0); gtk_box_pack_start(GTK_BOX(box), lib->live_view_zoom, TRUE, TRUE, 0); gtk_box_pack_start(GTK_BOX(box), lib->rotate_ccw, TRUE, TRUE, 0); gtk_box_pack_start(GTK_BOX(box), lib->rotate_cw, TRUE, TRUE, 0); gtk_box_pack_start(GTK_BOX(box), lib->flip, TRUE, TRUE, 0); gtk_widget_set_tooltip_text(lib->live_view, _("toggle live view")); gtk_widget_set_tooltip_text(lib->live_view_zoom, _("zoom live view")); gtk_widget_set_tooltip_text(lib->rotate_ccw, _("rotate 90 degrees ccw")); gtk_widget_set_tooltip_text(lib->rotate_cw, _("rotate 90 degrees cw")); gtk_widget_set_tooltip_text(lib->flip, _("flip live view horizontally")); g_signal_connect(G_OBJECT(lib->live_view), "clicked", G_CALLBACK(_toggle_live_view_clicked), lib); g_signal_connect(G_OBJECT(lib->live_view_zoom), "clicked", G_CALLBACK(_zoom_live_view_clicked), lib); g_signal_connect(G_OBJECT(lib->rotate_ccw), "clicked", G_CALLBACK(_rotate_ccw), lib); g_signal_connect(G_OBJECT(lib->rotate_cw), "clicked", G_CALLBACK(_rotate_cw), lib); g_signal_connect(G_OBJECT(lib->flip), "clicked", G_CALLBACK(_toggle_flip_clicked), lib); // focus buttons box = gtk_box_new(GTK_ORIENTATION_HORIZONTAL, 0); gtk_box_pack_start(GTK_BOX(self->widget), box, TRUE, TRUE, 0); lib->focus_in_big = dtgtk_button_new(dtgtk_cairo_paint_solid_triangle, CPF_STYLE_FLAT | CPF_DO_NOT_USE_BORDER | CPF_DIRECTION_LEFT, NULL); lib->focus_in_small = dtgtk_button_new(dtgtk_cairo_paint_arrow, CPF_STYLE_FLAT | CPF_DO_NOT_USE_BORDER | CPF_DIRECTION_LEFT, NULL); // TODO icon not centered lib->focus_out_small = dtgtk_button_new(dtgtk_cairo_paint_arrow, CPF_STYLE_FLAT | CPF_DO_NOT_USE_BORDER | CPF_DIRECTION_RIGHT, NULL); // TODO same here lib->focus_out_big = dtgtk_button_new(dtgtk_cairo_paint_solid_triangle, CPF_STYLE_FLAT | CPF_DO_NOT_USE_BORDER | CPF_DIRECTION_RIGHT, NULL); gtk_box_pack_start(GTK_BOX(box), lib->focus_in_big, TRUE, TRUE, 0); gtk_box_pack_start(GTK_BOX(box), lib->focus_in_small, TRUE, TRUE, 0); gtk_box_pack_start(GTK_BOX(box), lib->focus_out_small, TRUE, TRUE, 0); gtk_box_pack_start(GTK_BOX(box), lib->focus_out_big, TRUE, TRUE, 0); gtk_widget_set_tooltip_text(lib->focus_in_big, _("move focus point in (big steps)")); gtk_widget_set_tooltip_text(lib->focus_in_small, _("move focus point in (small steps)")); gtk_widget_set_tooltip_text(lib->focus_out_small, _("move focus point out (small steps)")); gtk_widget_set_tooltip_text(lib->focus_out_big, _("move focus point out (big steps)")); // Near 3 g_signal_connect(G_OBJECT(lib->focus_in_big), "clicked", G_CALLBACK(_focus_button_clicked), GINT_TO_POINTER(2)); // Near 1 g_signal_connect(G_OBJECT(lib->focus_in_small), "clicked", G_CALLBACK(_focus_button_clicked), GINT_TO_POINTER(0)); // Far 1 g_signal_connect(G_OBJECT(lib->focus_out_small), "clicked", G_CALLBACK(_focus_button_clicked), GINT_TO_POINTER(4)); // Far 3 g_signal_connect(G_OBJECT(lib->focus_out_big), "clicked", G_CALLBACK(_focus_button_clicked), GINT_TO_POINTER(6)); // Guides lib->guide_selector = dt_bauhaus_combobox_new(NULL); dt_bauhaus_widget_set_label(lib->guide_selector, NULL, _("guides")); gtk_box_pack_start(GTK_BOX(self->widget), lib->guide_selector, TRUE, TRUE, 0); lib->guides_widgets = gtk_stack_new(); gtk_stack_set_homogeneous(GTK_STACK(lib->guides_widgets), FALSE); gtk_box_pack_start(GTK_BOX(self->widget), lib->guides_widgets, TRUE, TRUE, 0); dt_bauhaus_combobox_add(lib->guide_selector, _("none")); int i = 0; for(GList *iter = darktable.guides; iter; iter = g_list_next(iter), i++) { GtkWidget *widget = NULL; dt_guides_t *guide = (dt_guides_t *)iter->data; dt_bauhaus_combobox_add(lib->guide_selector, _(guide->name)); if(guide->widget) { // generate some unique name so that we can have the same name several times char name[5]; snprintf(name, sizeof(name), "%d", i); widget = guide->widget(NULL, guide->user_data); gtk_widget_show_all(widget); gtk_stack_add_named(GTK_STACK(lib->guides_widgets), widget, name); } lib->guides_widgets_list = g_list_append(lib->guides_widgets_list, widget); } gtk_widget_set_no_show_all(lib->guides_widgets, TRUE); gtk_widget_set_tooltip_text(lib->guide_selector, _("display guide lines to help compose your photograph")); g_signal_connect(G_OBJECT(lib->guide_selector), "value-changed", G_CALLBACK(guides_presets_changed), lib); lib->flip_guides = dt_bauhaus_combobox_new(NULL); dt_bauhaus_widget_set_label(lib->flip_guides, NULL, _("flip")); dt_bauhaus_combobox_add(lib->flip_guides, _("none")); dt_bauhaus_combobox_add(lib->flip_guides, _("horizontally")); dt_bauhaus_combobox_add(lib->flip_guides, _("vertically")); dt_bauhaus_combobox_add(lib->flip_guides, _("both")); gtk_widget_set_tooltip_text(lib->flip_guides, _("flip guides")); gtk_box_pack_start(GTK_BOX(self->widget), lib->flip_guides, TRUE, TRUE, 0); lib->overlay = dt_bauhaus_combobox_new(NULL); dt_bauhaus_widget_set_label(lib->overlay, NULL, _("overlay")); dt_bauhaus_combobox_add(lib->overlay, _("none")); dt_bauhaus_combobox_add(lib->overlay, _("selected image")); dt_bauhaus_combobox_add(lib->overlay, _("id")); gtk_widget_set_tooltip_text(lib->overlay, _("overlay another image over the live view")); g_signal_connect(G_OBJECT(lib->overlay), "value-changed", G_CALLBACK(overlay_changed), lib); gtk_box_pack_start(GTK_BOX(self->widget), lib->overlay, TRUE, TRUE, 0); lib->overlay_id_box = gtk_box_new(GTK_ORIENTATION_HORIZONTAL, 0); GtkWidget *label = gtk_label_new(_("image id")); gtk_widget_set_halign(label, GTK_ALIGN_START); lib->overlay_id = gtk_spin_button_new_with_range(0, 1000000000, 1); gtk_spin_button_set_digits(GTK_SPIN_BUTTON(lib->overlay_id), 0); gtk_widget_set_tooltip_text(lib->overlay_id, _("enter image id of the overlay manually")); g_signal_connect(G_OBJECT(lib->overlay_id), "value-changed", G_CALLBACK(_overlay_id_changed), lib); gtk_spin_button_set_value(GTK_SPIN_BUTTON(lib->overlay_id), dt_conf_get_int("plugins/lighttable/live_view/overlay_imgid")); gtk_box_pack_start(GTK_BOX(lib->overlay_id_box), label, TRUE, TRUE, 0); gtk_box_pack_start(GTK_BOX(lib->overlay_id_box), lib->overlay_id, TRUE, TRUE, 0); gtk_box_pack_start(GTK_BOX(self->widget), lib->overlay_id_box, TRUE, TRUE, 0); gtk_widget_show(lib->overlay_id); gtk_widget_show(label); lib->overlay_mode = dt_bauhaus_combobox_new(NULL); dt_bauhaus_widget_set_label(lib->overlay_mode, NULL, _("overlay mode")); dt_bauhaus_combobox_add(lib->overlay_mode, C_("blendmode", "normal")); dt_bauhaus_combobox_add(lib->overlay_mode, C_("blendmode", "xor")); dt_bauhaus_combobox_add(lib->overlay_mode, C_("blendmode", "add")); dt_bauhaus_combobox_add(lib->overlay_mode, C_("blendmode", "saturate")); #if(CAIRO_VERSION >= CAIRO_VERSION_ENCODE(1, 10, 0)) dt_bauhaus_combobox_add(lib->overlay_mode, C_("blendmode", "multiply")); dt_bauhaus_combobox_add(lib->overlay_mode, C_("blendmode", "screen")); dt_bauhaus_combobox_add(lib->overlay_mode, C_("blendmode", "overlay")); dt_bauhaus_combobox_add(lib->overlay_mode, C_("blendmode", "darken")); dt_bauhaus_combobox_add(lib->overlay_mode, C_("blendmode", "lighten")); dt_bauhaus_combobox_add(lib->overlay_mode, C_("blendmode", "color dodge")); dt_bauhaus_combobox_add(lib->overlay_mode, C_("blendmode", "color burn")); dt_bauhaus_combobox_add(lib->overlay_mode, C_("blendmode", "hard light")); dt_bauhaus_combobox_add(lib->overlay_mode, C_("blendmode", "soft light")); dt_bauhaus_combobox_add(lib->overlay_mode, C_("blendmode", "difference")); dt_bauhaus_combobox_add(lib->overlay_mode, C_("blendmode", "exclusion")); dt_bauhaus_combobox_add(lib->overlay_mode, C_("blendmode", "HSL hue")); dt_bauhaus_combobox_add(lib->overlay_mode, C_("blendmode", "HSL saturation")); dt_bauhaus_combobox_add(lib->overlay_mode, C_("blendmode", "HSL color")); dt_bauhaus_combobox_add(lib->overlay_mode, C_("blendmode", "HSL luminosity")); #endif gtk_widget_set_tooltip_text(lib->overlay_mode, _("mode of the overlay")); dt_bauhaus_combobox_set(lib->overlay_mode, dt_conf_get_int("plugins/lighttable/live_view/overlay_mode")); g_signal_connect(G_OBJECT(lib->overlay_mode), "value-changed", G_CALLBACK(_overlay_mode_changed), lib); gtk_box_pack_start(GTK_BOX(self->widget), lib->overlay_mode, TRUE, TRUE, 0); lib->overlay_splitline = dt_bauhaus_combobox_new(NULL); dt_bauhaus_widget_set_label(lib->overlay_splitline, NULL, _("split line")); dt_bauhaus_combobox_add(lib->overlay_splitline, _("off")); dt_bauhaus_combobox_add(lib->overlay_splitline, _("on")); gtk_widget_set_tooltip_text(lib->overlay_splitline, _("only draw part of the overlay")); dt_bauhaus_combobox_set(lib->overlay_splitline, dt_conf_get_int("plugins/lighttable/live_view/splitline")); g_signal_connect(G_OBJECT(lib->overlay_splitline), "value-changed", G_CALLBACK(_overlay_splitline_changed), lib); gtk_box_pack_start(GTK_BOX(self->widget), lib->overlay_splitline, TRUE, TRUE, 0); gtk_widget_set_visible(GTK_WIDGET(lib->overlay_mode), FALSE); gtk_widget_set_visible(GTK_WIDGET(lib->overlay_id_box), FALSE); gtk_widget_set_visible(GTK_WIDGET(lib->overlay_splitline), FALSE); gtk_widget_set_no_show_all(GTK_WIDGET(lib->overlay_mode), TRUE); gtk_widget_set_no_show_all(GTK_WIDGET(lib->overlay_id_box), TRUE); gtk_widget_set_no_show_all(GTK_WIDGET(lib->overlay_splitline), TRUE); guides_presets_set_visibility(lib, 0); } void gui_cleanup(dt_lib_module_t *self) { // dt_lib_live_view_t *lib = self->data; // g_list_free(lib->guides_widgets_list); // INTENTIONAL. it's supposed to be leaky until lua is fixed. free(self->data); self->data = NULL; } void view_enter(struct dt_lib_module_t *self,struct dt_view_t *old_view,struct dt_view_t *new_view) { // disable buttons that won't work with this camera // TODO: initialize tethering mode outside of libs/camera.s so we can use darktable.camctl->active_camera // here dt_lib_live_view_t *lib = self->data; const dt_camera_t *cam = darktable.camctl->active_camera; if(cam == NULL) cam = darktable.camctl->wanted_camera; gboolean sensitive = cam && cam->can_live_view_advanced; gtk_widget_set_sensitive(lib->live_view_zoom, sensitive); gtk_widget_set_sensitive(lib->focus_in_big, sensitive); gtk_widget_set_sensitive(lib->focus_in_small, sensitive); gtk_widget_set_sensitive(lib->focus_out_big, sensitive); gtk_widget_set_sensitive(lib->focus_out_small, sensitive); } // TODO: find out where the zoom window is and draw overlay + grid accordingly #define MARGIN 20 #define BAR_HEIGHT 18 /* see libs/camera.c */ void gui_post_expose(dt_lib_module_t *self, cairo_t *cr, int32_t width, int32_t height, int32_t pointerx, int32_t pointery) { dt_camera_t *cam = (dt_camera_t *)darktable.camctl->active_camera; dt_lib_live_view_t *lib = self->data; if(cam->is_live_viewing == FALSE || cam->live_view_zoom == TRUE) return; dt_pthread_mutex_lock(&cam->live_view_pixbuf_mutex); if(GDK_IS_PIXBUF(cam->live_view_pixbuf) == FALSE) { dt_pthread_mutex_unlock(&cam->live_view_pixbuf_mutex); return; } double w = width - (MARGIN * 2.0f); double h = height - (MARGIN * 2.0f) - BAR_HEIGHT; gint pw = gdk_pixbuf_get_width(cam->live_view_pixbuf); gint ph = gdk_pixbuf_get_height(cam->live_view_pixbuf); lib->overlay_x0 = lib->overlay_x1 = lib->overlay_y0 = lib->overlay_y1 = 0.0; gboolean use_splitline = (dt_bauhaus_combobox_get(lib->overlay_splitline) == 1); // OVERLAY int imgid = 0; switch(dt_bauhaus_combobox_get(lib->overlay)) { case OVERLAY_SELECTED: imgid = dt_view_tethering_get_selected_imgid(darktable.view_manager); break; case OVERLAY_ID: imgid = lib->imgid; break; } if(imgid > 0) { cairo_save(cr); const dt_image_t *img = dt_image_cache_testget(darktable.image_cache, imgid, 'r'); // if the user points at this image, we really want it: if(!img) img = dt_image_cache_get(darktable.image_cache, imgid, 'r'); const float imgwd = 0.97f; dt_mipmap_buffer_t buf; dt_mipmap_size_t mip = dt_mipmap_cache_get_matching_size(darktable.mipmap_cache, imgwd * w, imgwd * h); dt_mipmap_cache_get(darktable.mipmap_cache, &buf, imgid, mip, 0, 'r'); float scale = 1.0; cairo_surface_t *surface = NULL; if(buf.buf) { const int32_t stride = cairo_format_stride_for_width(CAIRO_FORMAT_RGB24, buf.width); surface = cairo_image_surface_create_for_data(buf.buf, CAIRO_FORMAT_RGB24, buf.width, buf.height, stride); scale = fminf(fminf(w, pw) / (float)buf.width, fminf(h, ph) / (float)buf.height); } // draw centered and fitted: cairo_translate(cr, width / 2.0, (height + BAR_HEIGHT) / 2.0f); cairo_scale(cr, scale, scale); if(buf.buf) { cairo_translate(cr, -.5f * buf.width, -.5f * buf.height); if(use_splitline) { double x0, y0, x1, y1; switch(lib->splitline_rotation) { case 0: x0 = 0.0; y0 = 0.0; x1 = buf.width * lib->splitline_x; y1 = buf.height; break; case 1: x0 = 0.0; y0 = 0.0; x1 = buf.width; y1 = buf.height * lib->splitline_y; break; case 2: x0 = buf.width * lib->splitline_x; y0 = 0.0; x1 = buf.width; y1 = buf.height; break; case 3: x0 = 0.0; y0 = buf.height * lib->splitline_y; x1 = buf.width; y1 = buf.height; break; default: fprintf(stderr, "OMFG, the world will collapse, this shouldn't be reachable!\n"); dt_pthread_mutex_unlock(&cam->live_view_pixbuf_mutex); return; } cairo_rectangle(cr, x0, y0, x1, y1); cairo_clip(cr); } cairo_set_source_surface(cr, surface, 0, 0); // set filter no nearest: // in skull mode, we want to see big pixels. // in 1 iir mode for the right mip, we want to see exactly what the pipe gave us, 1:1 pixel for pixel. // in between, filtering just makes stuff go unsharp. if((buf.width <= 8 && buf.height <= 8) || fabsf(scale - 1.0f) < 0.01f) cairo_pattern_set_filter(cairo_get_source(cr), CAIRO_FILTER_NEAREST); cairo_rectangle(cr, 0, 0, buf.width, buf.height); int overlay_modes_index = dt_bauhaus_combobox_get(lib->overlay_mode); if(overlay_modes_index >= 0) { cairo_operator_t mode = _overlay_modes[overlay_modes_index]; cairo_set_operator(cr, mode); } cairo_fill(cr); cairo_set_operator(cr, CAIRO_OPERATOR_OVER); cairo_surface_destroy(surface); } cairo_restore(cr); if(buf.buf) dt_mipmap_cache_release(darktable.mipmap_cache, &buf); if(img) dt_image_cache_read_release(darktable.image_cache, img); // ON CANVAS CONTROLS if(use_splitline) { scale = fminf(1.0, fminf(w / pw, h / ph)); // image coordinates lib->overlay_x0 = 0.5 * (width - pw * scale); lib->overlay_y0 = 0.5 * (height - ph * scale + BAR_HEIGHT); lib->overlay_x1 = lib->overlay_x0 + pw * scale; lib->overlay_y1 = lib->overlay_y0 + ph * scale; // splitline position to absolute coords: double sl_x = lib->overlay_x0 + lib->splitline_x * pw * scale; double sl_y = lib->overlay_y0 + lib->splitline_y * ph * scale; int x0 = sl_x, y0 = 0.0, x1 = x0, y1 = height; if(lib->splitline_rotation % 2 != 0) { x0 = 0.0; y0 = sl_y; x1 = width; y1 = y0; } gboolean mouse_over_control = (lib->splitline_rotation % 2 == 0) ? (fabs(sl_x - pointerx) < 5) : (fabs(sl_y - pointery) < 5); cairo_save(cr); cairo_set_source_rgb(cr, .7, .7, .7); cairo_set_line_width(cr, (mouse_over_control ? 2.0 : 0.5)); cairo_move_to(cr, x0, y0); cairo_line_to(cr, x1, y1); cairo_stroke(cr); /* if mouse over control lets draw center rotate control, hide if split is dragged */ if(!lib->splitline_dragging && mouse_over_control) { cairo_set_line_width(cr, 0.5); double s = width * HANDLE_SIZE; dtgtk_cairo_paint_refresh(cr, sl_x - (s * 0.5), sl_y - (s * 0.5), s, s, 1, NULL); } cairo_restore(cr); } } // GUIDES if(cam->live_view_rotation % 2 == 1) { gint tmp = pw; pw = ph; ph = tmp; } float scale = 1.0; // if(cam->live_view_zoom == FALSE) // { if(pw > w) scale = w / pw; if(ph > h) scale = fminf(scale, h / ph); // } double sw = scale * pw; double sh = scale * ph; // draw guides int guide_flip = dt_bauhaus_combobox_get(lib->flip_guides); double left = (width - sw) * 0.5; double top = (height + BAR_HEIGHT - sh) * 0.5; double dashes = 5.0; cairo_save(cr); cairo_rectangle(cr, left, top, sw, sh); cairo_clip(cr); cairo_set_dash(cr, &dashes, 1, 0); // Move coordinates to local center selection. cairo_translate(cr, (sw / 2 + left), (sh / 2 + top)); // Flip horizontal. if(guide_flip & FLAG_FLIP_HORIZONTAL) cairo_scale(cr, -1, 1); // Flip vertical. if(guide_flip & FLAG_FLIP_VERTICAL) cairo_scale(cr, 1, -1); int which = dt_bauhaus_combobox_get(lib->guide_selector); dt_guides_t *guide = (dt_guides_t *)g_list_nth_data(darktable.guides, which - 1); if(guide) { guide->draw(cr, -sw / 2, -sh / 2, sw, sh, 1.0, guide->user_data); cairo_stroke_preserve(cr); cairo_set_dash(cr, &dashes, 0, 0); cairo_set_source_rgba(cr, .3, .3, .3, .8); cairo_stroke(cr); } cairo_restore(cr); dt_pthread_mutex_unlock(&cam->live_view_pixbuf_mutex); }