/* The GIMP -- an image manipulation program * Copyright (C) 1995 Spencer Kimball and Peter Mattis * * 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., 675 Mass Ave, Cambridge, MA 02139, USA. */ #include #include #include #include "appenv.h" #include "actionarea.h" #include "gimpbrushlist.h" #include "devices.h" #include "interface.h" #include "gimprc.h" #include "patterns.h" #include "palette.h" #include "session.h" #include "tools.h" #include "libgimp/gimpintl.h" #define CELL_SIZE 20 /* The size of the preview cells */ #define PREVIEW_EVENT_MASK GDK_EXPOSURE_MASK | \ GDK_BUTTON_PRESS_MASK | \ GDK_BUTTON_RELEASE_MASK | \ GDK_BUTTON1_MOTION_MASK | \ GDK_ENTER_NOTIFY_MASK | \ GDK_LEAVE_NOTIFY_MASK #define BRUSH_PREVIEW 1 #define PATTERN_PREVIEW 2 typedef struct _DeviceInfo DeviceInfo; struct _DeviceInfo { guint32 device; /* device ID */ gchar *name; short is_init; /* has the user used it? */ short is_present; /* is the device currently present */ /* gdk_input options - for not present devices */ GdkInputMode mode; gint num_axes; GdkAxisUse *axes; gint num_keys; GdkDeviceKey *keys; GimpBrushP brush; GPatternP pattern; ToolType tool; unsigned char foreground[3]; }; typedef struct _DeviceInfoDialog DeviceInfoDialog; struct _DeviceInfoDialog { int num_devices; guint32 current; guint32 *ids; GtkWidget *shell; GtkWidget *table; GtkWidget **frames; GtkWidget **tools; GtkWidget **colors; GtkWidget **brushes; GtkWidget **patterns; GtkWidget **eventboxes; }; /* Local Data */ GList *devices_info = NULL; DeviceInfoDialog *deviceD = NULL; GtkWidget *device_bpopup = NULL; /* Can't share since differnt depths */ GtkWidget *device_bpreview = NULL; GtkWidget *device_patpopup = NULL; GtkWidget *device_patpreview = NULL; /* If true, don't update device information dialog */ int suppress_update = FALSE; /* Local functions */ static void input_dialog_destroy_callback (GtkWidget *, gpointer); void input_dialog_able_callback (GtkWidget *w, guint32 deviceid, gpointer data); static void devices_save_current_info (void); static void devices_write_rc_device (DeviceInfo *device_info, FILE *fp); static void devices_write_rc (void); static void device_status_destroy_callback (void); static void devices_close_callback (GtkWidget *, gpointer); static void device_status_update_current (); static gint brush_preview_events (GtkWidget *, GdkEvent *, int); static gint pattern_preview_events (GtkWidget *, GdkEvent *, int); /* Global data */ int current_device = GDK_CORE_POINTER; /* the action area structure */ static ActionAreaItem action_items[] = { { N_("Close"), devices_close_callback, NULL, NULL }, { N_("Save"), (ActionCallback)devices_write_rc, NULL, NULL }, }; void create_input_dialog (void) { static GtkWidget *inputd = NULL; if (!inputd) { inputd = gtk_input_dialog_new(); gtk_container_border_width (GTK_CONTAINER (GTK_DIALOG(inputd)->action_area), 2); gtk_signal_connect (GTK_OBJECT(GTK_INPUT_DIALOG(inputd)->save_button), "clicked", GTK_SIGNAL_FUNC(devices_write_rc), NULL); gtk_signal_connect (GTK_OBJECT(GTK_INPUT_DIALOG(inputd)->close_button), "clicked", GTK_SIGNAL_FUNC(devices_close_callback), inputd); gtk_signal_connect (GTK_OBJECT(inputd), "destroy", (GtkSignalFunc)input_dialog_destroy_callback, &inputd); gtk_signal_connect (GTK_OBJECT(inputd), "enable_device", GTK_SIGNAL_FUNC(input_dialog_able_callback), NULL); gtk_signal_connect (GTK_OBJECT(inputd), "disable_device", GTK_SIGNAL_FUNC(input_dialog_able_callback), NULL); gtk_widget_show (inputd); } else { if (!GTK_WIDGET_MAPPED(inputd)) gtk_widget_show(inputd); else gdk_window_raise(inputd->window); } } void input_dialog_able_callback (GtkWidget *w, guint32 deviceid, gpointer data) { device_status_update (deviceid); } static void input_dialog_destroy_callback (GtkWidget *w, gpointer call_data) { *((GtkWidget **)call_data) = NULL; } void devices_init (void) { GList *tmp_list; /* Create device info structures for present devices */ tmp_list = gdk_input_list_devices (); while (tmp_list) { GdkDeviceInfo *gdk_info = (GdkDeviceInfo *)tmp_list->data; DeviceInfo *device_info = g_new (DeviceInfo, 1); device_info->device = gdk_info->deviceid; device_info->name = g_strdup (gdk_info->name); device_info->is_init = FALSE; device_info->is_present = TRUE; device_info->mode = gdk_info->mode; device_info->num_axes = gdk_info->num_axes; device_info->axes = NULL; device_info->brush = NULL; device_info->pattern = NULL; device_info->tool = RECT_SELECT; device_info->foreground[0] = 0; device_info->foreground[1] = 0; device_info->foreground[2] = 0; devices_info = g_list_append (devices_info, device_info); tmp_list = tmp_list->next; } } void devices_restore() { char *gimp_dir; char filename[MAXPATHLEN]; GList *tmp_list; DeviceInfo *device_info; /* Augment with information from rc file */ gimp_dir = gimp_directory (); if (gimp_dir) { sprintf (filename, "%s/devicerc", gimp_dir); parse_gimprc_file (filename); } tmp_list = devices_info; device_info = NULL; while (tmp_list) { if (((DeviceInfo *)tmp_list->data)->device == current_device) { device_info = (DeviceInfo *)tmp_list->data; break; } tmp_list = tmp_list->next; } g_return_if_fail (device_info != NULL); suppress_update = TRUE; if (device_info->is_init) { if (device_info->brush) select_brush (device_info->brush); gtk_widget_activate (tool_info[(int) device_info->tool].tool_widget); palette_set_foreground (device_info->foreground[0], device_info->foreground[1], device_info->foreground[2]); if (device_info->pattern) select_pattern(device_info->pattern); } suppress_update = FALSE; } void devices_rc_update (gchar *name, DeviceValues values, GdkInputMode mode, gint num_axes, GdkAxisUse *axes, gint num_keys, GdkDeviceKey *keys, gchar *brush_name, ToolType tool, guchar foreground[],gchar *pattern_name) { GList *tmp_list; DeviceInfo *device_info; /* Find device if we have it */ tmp_list = devices_info; device_info = NULL; while (tmp_list) { if (!strcmp (((DeviceInfo *)tmp_list->data)->name, name)) { device_info = (DeviceInfo *)tmp_list->data; break; } tmp_list = tmp_list->next; } if (!device_info) { device_info = g_new (DeviceInfo, 1); device_info->name = g_strdup (name); device_info->is_present = FALSE; if (values & DEVICE_AXES) { device_info->num_axes = num_axes; device_info->axes = g_new (GdkAxisUse, num_axes); memcpy (device_info->axes, axes, num_axes * sizeof (GdkAxisUse)); } else { device_info->num_axes = 0; device_info->axes = NULL; } if (values & DEVICE_KEYS) { device_info->num_keys = num_keys; device_info->keys = g_new (GdkDeviceKey, num_keys); memcpy (device_info->keys, axes, num_keys * sizeof (GdkDeviceKey)); } if (values & DEVICE_MODE) device_info->mode = mode; else device_info->mode = GDK_MODE_DISABLED; device_info->brush = NULL; device_info->pattern = NULL; device_info->tool = RECT_SELECT; device_info->foreground[0] = 0; device_info->foreground[1] = 0; device_info->foreground[2] = 0; devices_info = g_list_append (devices_info, device_info); } else { GdkDeviceInfo *gdk_info = NULL; /* Quiet gcc */ tmp_list = gdk_input_list_devices(); while (tmp_list) { GdkDeviceInfo *info = (GdkDeviceInfo *)tmp_list->data; if (info->deviceid == device_info->device) { gdk_info = info; break; } tmp_list = tmp_list->next; } if (gdk_info != NULL) { if (values & DEVICE_MODE) gdk_input_set_mode (gdk_info->deviceid, mode); if ((values & DEVICE_AXES) && num_axes >= gdk_info->num_axes) gdk_input_set_axes (gdk_info->deviceid, axes); if ((values & DEVICE_KEYS) && num_keys >= gdk_info->num_keys) { int i; for (i=0; inum_keys); i++) gdk_input_set_key (gdk_info->deviceid, i, keys[i].keyval, keys[i].modifiers); } } else { g_warning (_("devices_rc_update called multiple times for not present device\n")); return; } } if (values & (DEVICE_PATTERN | DEVICE_BRUSH | DEVICE_TOOL | DEVICE_FOREGROUND)) device_info->is_init = TRUE; if (values & DEVICE_BRUSH) { device_info->brush = gimp_brush_list_get_brush(brush_list, brush_name); } if (values & DEVICE_PATTERN) { device_info->pattern = pattern_list_get_pattern(pattern_list,pattern_name); } if (values & DEVICE_TOOL) device_info->tool = tool; if (values & DEVICE_FOREGROUND) { device_info->foreground[0] = foreground[0]; device_info->foreground[1] = foreground[1]; device_info->foreground[2] = foreground[2]; } } void select_device (guint32 new_device) { GList *tmp_list; DeviceInfo *device_info; suppress_update = TRUE; /* store old information */ devices_save_current_info(); /* Now see if there is already information about the new device */ tmp_list = devices_info; device_info = NULL; while (tmp_list) { if (((DeviceInfo *)tmp_list->data)->device == new_device) { device_info = (DeviceInfo *)tmp_list->data; break; } tmp_list = tmp_list->next; } current_device = new_device; if (device_info->is_init) { if (device_info->brush) select_brush (device_info->brush); gtk_widget_activate (tool_info[(int) device_info->tool].tool_widget); palette_set_foreground (device_info->foreground[0], device_info->foreground[1], device_info->foreground[2]); if (device_info->pattern) select_pattern(device_info->pattern); } suppress_update = FALSE; device_status_update_current (); } gint devices_check_change (GdkEvent *event) { guint32 device; switch (event->type) { case GDK_MOTION_NOTIFY: device = ((GdkEventMotion *)event)->deviceid; break; case GDK_BUTTON_PRESS: case GDK_BUTTON_RELEASE: device = ((GdkEventButton *)event)->deviceid; break; case GDK_PROXIMITY_OUT: device = ((GdkEventProximity *)event)->deviceid; break; default: device = current_device; } if (device != current_device) { select_device (device); return TRUE; } else return FALSE; } static void devices_save_current_info (void) { GList *tmp_list; DeviceInfo *device_info; tmp_list = devices_info; device_info = NULL; while (tmp_list) { if (((DeviceInfo *)tmp_list->data)->device == current_device) { device_info = (DeviceInfo *)tmp_list->data; break; } tmp_list = tmp_list->next; } device_info->is_init = TRUE; device_info->device = current_device; device_info->brush = get_active_brush (); device_info->pattern = get_active_pattern(); if (active_tool_type >= 0) device_info->tool = active_tool_type; else device_info->tool = RECT_SELECT; palette_get_foreground (&device_info->foreground[0], &device_info->foreground[1], &device_info->foreground[2]); } static void devices_write_rc_device (DeviceInfo *device_info, FILE *fp) { GdkDeviceInfo *gdk_info; GList *tmp_list; gchar *mode = NULL; /* Quiet gcc */ int i; gdk_info = NULL; if (device_info->is_present) { /* gdk_input_list_devices returns an internal list, so we shouldn't free it afterwards */ tmp_list = gdk_input_list_devices(); while (tmp_list) { GdkDeviceInfo *info = (GdkDeviceInfo *)tmp_list->data; if (info->deviceid == device_info->device) { gdk_info = info; break; } tmp_list = tmp_list->next; } } fprintf(fp, "(device \"%s\"",device_info->name); switch (gdk_info ? gdk_info->mode : device_info->mode) { case GDK_MODE_DISABLED: mode = "disabled"; break; case GDK_MODE_SCREEN: mode = "screen"; break; case GDK_MODE_WINDOW: mode = "window"; break; } fprintf(fp, "\n (mode %s)",mode); fprintf(fp, "\n (axes %d",gdk_info ? gdk_info->num_axes : device_info->num_axes); for (i=0; i<(gdk_info ? gdk_info->num_axes : device_info->num_axes); i++) { gchar *axis_type = NULL; /* Quiet gcc */ switch (gdk_info ? gdk_info->axes[i] : device_info->axes[i]) { case GDK_AXIS_IGNORE: axis_type = "ignore"; break; case GDK_AXIS_X: axis_type = "x"; break; case GDK_AXIS_Y: axis_type = "y"; break; case GDK_AXIS_PRESSURE: axis_type = "pressure"; break; case GDK_AXIS_XTILT: axis_type = "xtilt"; break; case GDK_AXIS_YTILT: axis_type = "ytilt"; break; } fprintf(fp, " %s",axis_type); } fprintf(fp,")"); fprintf(fp, "\n (keys %d", gdk_info ? gdk_info->num_keys : device_info->num_keys); for (i=0; i<(gdk_info ? gdk_info->num_keys : device_info->num_keys); i++) { GdkModifierType modifiers = gdk_info ? gdk_info->keys[i].modifiers : device_info->keys[i].modifiers; guint keyval = gdk_info ? gdk_info->keys[i].keyval : device_info->keys[i].keyval; if (keyval) { /* FIXME: integrate this back with menus_install_accelerator */ char accel[64]; char t2[2]; accel[0] = '\0'; if (modifiers & GDK_CONTROL_MASK) strcat (accel, ""); if (modifiers & GDK_SHIFT_MASK) strcat (accel, ""); if (modifiers & GDK_MOD1_MASK) strcat (accel, ""); t2[0] = keyval; t2[1] = '\0'; strcat (accel, t2); fprintf (fp, " \"%s\"",accel); } else fprintf (fp, " \"\""); } fprintf(fp,")"); if (device_info->is_init) { if (device_info->brush) fprintf(fp, "\n (brush \"%s\")",device_info->brush->name); if (device_info->pattern) fprintf(fp, "\n (pattern \"%s\")",device_info->pattern->name); if (device_info->tool) fprintf(fp, "\n (tool \"%s\")", tool_info[device_info->tool].tool_name); fprintf(fp, "\n (foreground %d %d %d)", device_info->foreground[0], device_info->foreground[1], device_info->foreground[2]); } fprintf(fp,")\n"); } static void devices_write_rc (void) { char *gimp_dir; char filename[512]; FILE *fp; devices_save_current_info(); gimp_dir = gimp_directory (); if ('\000' != gimp_dir[0]) { sprintf (filename, "%s/devicerc", gimp_dir); fp = fopen (filename, "wb"); if (!fp) return; g_list_foreach (devices_info, (GFunc)devices_write_rc_device, fp); fclose (fp); } } void create_device_status (void) { GtkWidget *label; GList *tmp_list; DeviceInfo *device_info; int i; if (deviceD == NULL) { deviceD = g_new (DeviceInfoDialog, 1); deviceD->shell = gtk_dialog_new (); gtk_window_set_title (GTK_WINDOW(deviceD->shell), _("Device Status")); gtk_window_set_policy (GTK_WINDOW (deviceD->shell), FALSE, FALSE, TRUE); session_set_window_geometry (deviceD->shell, &device_status_session_info, TRUE); deviceD->num_devices = 0; tmp_list = devices_info; while (tmp_list) { if (((DeviceInfo *)tmp_list->data)->is_present) deviceD->num_devices++; tmp_list = tmp_list->next; } deviceD->table = gtk_table_new (deviceD->num_devices, 5, FALSE); gtk_container_border_width (GTK_CONTAINER(deviceD->table), 3); gtk_container_add (GTK_CONTAINER(GTK_DIALOG(deviceD->shell)->vbox), deviceD->table); gtk_widget_realize (deviceD->table); gtk_widget_show (deviceD->table); deviceD->ids = g_new (guint32, deviceD->num_devices); deviceD->frames = g_new (GtkWidget *, deviceD->num_devices); deviceD->tools = g_new (GtkWidget *, deviceD->num_devices); deviceD->colors = g_new (GtkWidget *, deviceD->num_devices); deviceD->brushes = g_new (GtkWidget *, deviceD->num_devices); deviceD->patterns = g_new (GtkWidget *, deviceD->num_devices); deviceD->eventboxes = g_new (GtkWidget *, deviceD->num_devices); tmp_list = devices_info; i=0; while (tmp_list) { if (!((DeviceInfo *)tmp_list->data)->is_present) { tmp_list = tmp_list->next; i++; continue; } device_info = (DeviceInfo *)tmp_list->data; deviceD->ids[i] = device_info->device; deviceD->frames[i] = gtk_frame_new (NULL); gtk_frame_set_shadow_type (GTK_FRAME(deviceD->frames[i]), GTK_SHADOW_OUT); gtk_table_attach (GTK_TABLE(deviceD->table), deviceD->frames[i], 0, 1, i, i+1, GTK_FILL, GTK_FILL, 2, 0); label = gtk_label_new (device_info->name); gtk_misc_set_padding (GTK_MISC(label), 2, 0); gtk_container_add (GTK_CONTAINER(deviceD->frames[i]), label); gtk_widget_show(label); deviceD->eventboxes[i] = gtk_event_box_new(); deviceD->tools[i] = gtk_pixmap_new (create_tool_pixmap(deviceD->table, RECT_SELECT), NULL); gtk_container_add (GTK_CONTAINER (deviceD->eventboxes[i]),deviceD->tools[i]); gtk_table_attach (GTK_TABLE(deviceD->table), deviceD->eventboxes[i], 1, 2, i, i+1, 0, 0, 2, 2); deviceD->colors[i] = gtk_preview_new (GTK_PREVIEW_COLOR); gtk_widget_set_events (deviceD->colors[i], PREVIEW_EVENT_MASK); gtk_preview_size (GTK_PREVIEW (deviceD->colors[i]), CELL_SIZE, CELL_SIZE); gtk_table_attach (GTK_TABLE(deviceD->table), deviceD->colors[i], 2, 3, i, i+1, 0, 0, 2, 2); deviceD->brushes[i] = gtk_preview_new (GTK_PREVIEW_GRAYSCALE); gtk_preview_size (GTK_PREVIEW (deviceD->brushes[i]), CELL_SIZE, CELL_SIZE); gtk_widget_set_events (deviceD->brushes[i], PREVIEW_EVENT_MASK); gtk_signal_connect (GTK_OBJECT (deviceD->brushes[i]), "event", (GtkSignalFunc) brush_preview_events, (gpointer)i); gtk_table_attach (GTK_TABLE(deviceD->table), deviceD->brushes[i], 3, 4, i, i+1, 0, 0, 2, 2); deviceD->patterns[i] = gtk_preview_new (GTK_PREVIEW_COLOR); gtk_preview_size (GTK_PREVIEW (deviceD->patterns[i]), CELL_SIZE, CELL_SIZE); gtk_widget_set_events (deviceD->patterns[i], PREVIEW_EVENT_MASK); gtk_signal_connect (GTK_OBJECT (deviceD->patterns[i]), "event", (GtkSignalFunc) pattern_preview_events, (gpointer)i); gtk_table_attach (GTK_TABLE(deviceD->table), deviceD->patterns[i], 4, 5, i, i+1, 0, 0, 2, 2); if (device_info->is_present) device_status_update (device_info->device); tmp_list = tmp_list->next; i++; } action_items[0].user_data = deviceD->shell; build_action_area (GTK_DIALOG (deviceD->shell), action_items, 2, 0); deviceD->current = 0xffffffff; /* random, but doesn't matter */ device_status_update_current (); gtk_widget_show (deviceD->shell); gtk_signal_connect (GTK_OBJECT (deviceD->shell), "destroy", GTK_SIGNAL_FUNC(device_status_destroy_callback), NULL); } else { if (!GTK_WIDGET_MAPPED(deviceD->shell)) gtk_widget_show(deviceD->shell); else gdk_window_raise(deviceD->shell->window); } } static void device_status_destroy_callback (void) { g_free(deviceD->ids); g_free(deviceD->frames); g_free(deviceD->tools); g_free(deviceD->eventboxes); g_free(deviceD->colors); g_free(deviceD->brushes); g_free(deviceD->patterns); g_free(deviceD); deviceD = NULL; } static void devices_close_callback (GtkWidget *w, gpointer data) { gtk_widget_hide (GTK_WIDGET(data)); } void device_status_free (void) { /* Save device status on exit */ if(save_device_status) devices_write_rc(); if (deviceD) { session_get_window_info (deviceD->shell, &device_status_session_info); device_status_destroy_callback (); } } static void device_status_update_current () { int i; if (deviceD) { for (i=0; inum_devices; i++) { if (deviceD->ids[i] == deviceD->current) gtk_frame_set_shadow_type (GTK_FRAME(deviceD->frames[i]), GTK_SHADOW_OUT); else if (deviceD->ids[i] == current_device) gtk_frame_set_shadow_type (GTK_FRAME(deviceD->frames[i]), GTK_SHADOW_IN); } deviceD->current = current_device; } } static void brush_popup_open (int preview_id, int x, int y, GimpBrushP brush) { gint x_org, y_org; gint scr_w, scr_h; gchar *src, *buf; /* make sure the popup exists and is not visible */ if (device_bpopup == NULL) { GtkWidget *frame; device_bpopup = gtk_window_new (GTK_WINDOW_POPUP); gtk_window_set_policy (GTK_WINDOW (device_bpopup), FALSE, FALSE, TRUE); frame = gtk_frame_new (NULL); gtk_frame_set_shadow_type (GTK_FRAME (frame), GTK_SHADOW_OUT); gtk_container_add (GTK_CONTAINER (device_bpopup), frame); gtk_widget_show (frame); device_bpreview = gtk_preview_new (GTK_PREVIEW_GRAYSCALE); gtk_container_add (GTK_CONTAINER (frame), device_bpreview); gtk_widget_show (device_bpreview); } else { gtk_widget_hide (device_bpopup); } /* decide where to put the popup */ gdk_window_get_origin (deviceD->brushes[preview_id]->window, &x_org, &y_org); scr_w = gdk_screen_width (); scr_h = gdk_screen_height (); x = x_org + x - (brush->mask->width >> 1); y = y_org + y - (brush->mask->height >> 1); x = (x < 0) ? 0 : x; y = (y < 0) ? 0 : y; x = (x + brush->mask->width > scr_w) ? scr_w - brush->mask->width : x; y = (y + brush->mask->height > scr_h) ? scr_h - brush->mask->height : y; gtk_preview_size (GTK_PREVIEW (device_bpreview), brush->mask->width, brush->mask->height); gtk_widget_popup (device_bpopup, x, y); /* Draw the brush */ buf = g_new (gchar, brush->mask->width); src = (gchar *)temp_buf_data (brush->mask); for (y = 0; y < brush->mask->height; y++) { /* Invert the mask for display. We're doing this because * a value of 255 in the mask means it is full intensity. * However, it makes more sense for full intensity to show * up as black in this brush preview window... */ for (x = 0; x < brush->mask->width; x++) buf[x] = 255 - src[x]; gtk_preview_draw_row (GTK_PREVIEW (device_bpreview), (guchar *)buf, 0, y, brush->mask->width); src += brush->mask->width; } g_free(buf); /* Draw the brush preview */ gtk_widget_draw (device_bpreview, NULL); } static void pattern_popup_open (int preview_id, int x, int y, GPatternP pattern) { gint x_org, y_org; gint scr_w, scr_h; gchar *src, *buf; /* make sure the popup exists and is not visible */ if (device_patpopup == NULL) { GtkWidget *frame; device_patpopup = gtk_window_new (GTK_WINDOW_POPUP); gtk_window_set_policy (GTK_WINDOW (device_patpopup), FALSE, FALSE, TRUE); frame = gtk_frame_new (NULL); gtk_frame_set_shadow_type (GTK_FRAME (frame), GTK_SHADOW_OUT); gtk_container_add (GTK_CONTAINER (device_patpopup), frame); gtk_widget_show (frame); device_patpreview = gtk_preview_new (GTK_PREVIEW_COLOR); gtk_container_add (GTK_CONTAINER (frame), device_patpreview); gtk_widget_show (device_patpreview); } else { gtk_widget_hide (device_patpopup); } /* decide where to put the popup */ gdk_window_get_origin (deviceD->patterns[preview_id]->window, &x_org, &y_org); scr_w = gdk_screen_width (); scr_h = gdk_screen_height (); x = x_org + x - (pattern->mask->width >> 1); y = y_org + y - (pattern->mask->height >> 1); x = (x < 0) ? 0 : x; y = (y < 0) ? 0 : y; x = (x + pattern->mask->width > scr_w) ? scr_w - pattern->mask->width : x; y = (y + pattern->mask->height > scr_h) ? scr_h - pattern->mask->height : y; gtk_preview_size (GTK_PREVIEW (device_patpreview), pattern->mask->width, pattern->mask->height); gtk_widget_popup (device_patpopup, x, y); /* Draw the pattern */ buf = g_new (gchar, pattern->mask->width * 3); src = (gchar *)temp_buf_data (pattern->mask); for (y = 0; y < pattern->mask->height; y++) { if (pattern->mask->bytes == 1) for (x = 0; x < pattern->mask->width; x++) { buf[x*3+0] = src[x]; buf[x*3+1] = src[x]; buf[x*3+2] = src[x]; } else for (x = 0; x < pattern->mask->width; x++) { buf[x*3+0] = src[x*3+0]; buf[x*3+1] = src[x*3+1]; buf[x*3+2] = src[x*3+2]; } gtk_preview_draw_row (GTK_PREVIEW (device_patpreview), (guchar *)buf, 0, y, pattern->mask->width); src += pattern->mask->width * pattern->mask->bytes; } g_free(buf); /* Draw the brush preview */ gtk_widget_draw (device_patpreview, NULL); } static void device_popup_close (int type) { if(type == BRUSH_PREVIEW) { if (device_bpopup != NULL) gtk_widget_hide (device_bpopup); } else if (type == PATTERN_PREVIEW) { if (device_patpopup != NULL) gtk_widget_hide (device_patpopup); } } static gint device_preview_events (GtkWidget *widget, GdkEvent *event, int deviceid, int type) { GList *tmp_list; DeviceInfo *device_info; GdkEventButton *bevent; GimpBrushP brush; GPatternP pattern; switch (event->type) { case GDK_EXPOSE: break; case GDK_BUTTON_PRESS: bevent = (GdkEventButton *) event; if (bevent->button == 1) { tmp_list = devices_info; while (tmp_list) { device_info = (DeviceInfo *)tmp_list->data; if (device_info->device == deviceD->ids[deviceid]) break; tmp_list = tmp_list->next; } if(tmp_list == NULL) { g_message(_("Failed to find device_info\n")); break; /* Error no device info */ } if(type == BRUSH_PREVIEW) { brush = device_info->brush; /* Show the brush popup window if the brush is too large */ if (brush->mask->width > CELL_SIZE || brush->mask->height > CELL_SIZE) brush_popup_open (deviceid, bevent->x, bevent->y, brush); } else if(type == PATTERN_PREVIEW) { pattern = device_info->pattern; /* Show the pattern popup window if the pattern is too large */ if (pattern->mask->width > CELL_SIZE || pattern->mask->height > CELL_SIZE) pattern_popup_open (deviceid, bevent->x, bevent->y, pattern); } } break; case GDK_BUTTON_RELEASE: bevent = (GdkEventButton *) event; if (bevent->button == 1) { /* Ungrab the pointer */ gdk_pointer_ungrab (bevent->time); /* Close the device preview popup window */ device_popup_close (type); } break; case GDK_DELETE: break; default: break; } return FALSE; } static gint brush_preview_events (GtkWidget *widget, GdkEvent *event, int deviceid) { return(device_preview_events(widget,event,deviceid,BRUSH_PREVIEW)); } static gint pattern_preview_events (GtkWidget *widget, GdkEvent *event, int deviceid) { return(device_preview_events(widget,event,deviceid,PATTERN_PREVIEW)); } static void device_update_brush(GimpBrushP brush,int preview_id) { guchar buffer[CELL_SIZE]; TempBuf * brush_buf; unsigned char * src, *s = NULL; unsigned char *b; int width,height; int offset_x, offset_y; int yend; int ystart; int i, j; /* Set the tip to be the name of the brush */ gtk_tooltips_set_tip(tool_tips,deviceD->brushes[preview_id],brush->name,NULL); brush_buf = brush->mask; /* Get the pointer into the brush mask data */ src = mask_buf_data (brush_buf); /* Limit to cell size */ width = (brush_buf->width > CELL_SIZE) ? CELL_SIZE: brush_buf->width; height = (brush_buf->height > CELL_SIZE) ? CELL_SIZE: brush_buf->height; /* Set buffer to white */ memset(buffer, 255, sizeof(buffer)); for (i = 0; i < CELL_SIZE; i++) gtk_preview_draw_row (GTK_PREVIEW(deviceD->brushes[preview_id]), buffer, 0, i, CELL_SIZE); offset_x = ((CELL_SIZE - width) >> 1); offset_y = ((CELL_SIZE - height) >> 1); ystart = BOUNDS (offset_y, 0, CELL_SIZE); yend = BOUNDS (offset_y + height, 0, CELL_SIZE); for (i = ystart; i < yend; i++) { /* Invert the mask for display. We're doing this because * a value of 255 in the mask means it is full intensity. * However, it makes more sense for full intensity to show * up as black in this brush preview window... */ s = src; b = buffer; for (j = 0; j < width ; j++) *b++ = 255 - *s++; gtk_preview_draw_row (GTK_PREVIEW(deviceD->brushes[preview_id]), buffer, offset_x, i, width); src += brush_buf->width; } } static void device_update_pattern(GPatternP pattern,int preview_id) { guchar *buffer = NULL; TempBuf * pattern_buf; unsigned char * src, *s = NULL; unsigned char *b; int rowstride; int width,height; int offset_x, offset_y; int yend; int ystart; int i, j; /* Set the tip to be the name of the brush */ gtk_tooltips_set_tip(tool_tips,deviceD->patterns[preview_id],pattern->name,NULL); buffer = g_new (guchar, pattern->mask->width * 3); pattern_buf = pattern->mask; /* Limit to cell size */ width = (pattern_buf->width > CELL_SIZE) ? CELL_SIZE: pattern_buf->width; height = (pattern_buf->height > CELL_SIZE) ? CELL_SIZE: pattern_buf->height; /* Set buffer to white */ memset(buffer, 255, sizeof(buffer)); for (i = 0; i < CELL_SIZE; i++) gtk_preview_draw_row (GTK_PREVIEW(deviceD->patterns[preview_id]), buffer, 0, i, CELL_SIZE); offset_x = ((CELL_SIZE - width) >> 1); offset_y = ((CELL_SIZE - height) >> 1); ystart = BOUNDS (offset_y, 0, CELL_SIZE); yend = BOUNDS (offset_y + height, 0, CELL_SIZE); /* Get the pointer into the brush mask data */ rowstride = pattern_buf->width * pattern_buf->bytes; src = mask_buf_data (pattern_buf) + (ystart - offset_y) * rowstride; for (i = ystart; i < yend; i++) { /* Invert the mask for display. We're doing this because * a value of 255 in the mask means it is full intensity. * However, it makes more sense for full intensity to show * up as black in this brush preview window... */ s = src; b = buffer; if (pattern_buf->bytes == 1) for (j = 0; j < width; j++) { *b++ = *s; *b++ = *s; *b++ = *s++; } else for (j = 0; j < width; j++) { *b++ = *s++; *b++ = *s++; *b++ = *s++; } gtk_preview_draw_row (GTK_PREVIEW(deviceD->patterns[preview_id]), buffer, offset_x, i, width); src += rowstride; } g_free(buffer); } void device_status_update (guint32 deviceid) { int i, j; guchar buffer[CELL_SIZE*3]; gchar ttbuf[20]; /* [xxx,xxx,xxx] + null */ GList *tmp_list; DeviceInfo *device_info; GdkDeviceInfo *gdk_info; if (deviceD && !suppress_update) { if (deviceid == current_device) { devices_save_current_info(); } tmp_list = devices_info; while (tmp_list) { device_info = (DeviceInfo *)tmp_list->data; if (device_info->device == deviceid) break; tmp_list = tmp_list->next; } g_return_if_fail (tmp_list != NULL); tmp_list = gdk_input_list_devices(); while (tmp_list) { gdk_info = (GdkDeviceInfo *)tmp_list->data; if (gdk_info->deviceid == deviceid) break; tmp_list = tmp_list->next; } g_return_if_fail (tmp_list != NULL); for (i=0; inum_devices; i++) { if (deviceD->ids[i] == deviceid) break; } g_return_if_fail (inum_devices); if (gdk_info->mode == GDK_MODE_DISABLED) { gtk_widget_hide (deviceD->frames[i]); gtk_widget_hide (deviceD->tools[i]); gtk_widget_hide (deviceD->eventboxes[i]); gtk_widget_hide (deviceD->colors[i]); gtk_widget_hide (deviceD->brushes[i]); gtk_widget_hide (deviceD->patterns[i]); } else { gtk_widget_show (deviceD->frames[i]); gtk_pixmap_set (GTK_PIXMAP (deviceD->tools[i]), create_tool_pixmap (deviceD->table, device_info->tool), NULL); gtk_widget_draw (deviceD->tools[i], NULL); gtk_widget_show (deviceD->tools[i]); gtk_widget_show (deviceD->eventboxes[i]); gtk_tooltips_set_tip(tool_tips,deviceD->eventboxes[i], tool_info[(int) device_info->tool].tool_desc, NULL); if(!device_info->is_init) return; /* None of the entries have been set */ for (j=0;jforeground[0]; buffer[j+1] = device_info->foreground[1]; buffer[j+2] = device_info->foreground[2]; } for (j=0;jcolors[i]), buffer, 0, j, CELL_SIZE); gtk_widget_draw (deviceD->colors[i], NULL); gtk_widget_show (deviceD->colors[i]); /* Set the tip to be the RGB value */ sprintf(ttbuf,"[%3d,%3d,%3d]", device_info->foreground[0], device_info->foreground[1], device_info->foreground[2]); gtk_tooltips_set_tip(tool_tips,deviceD->colors[i],ttbuf,NULL); device_update_brush(device_info->brush,i); gtk_widget_draw (deviceD->brushes[i],NULL); gtk_widget_show (deviceD->brushes[i]); device_update_pattern(device_info->pattern,i); gtk_widget_draw (deviceD->patterns[i],NULL); gtk_widget_show (deviceD->patterns[i]); } } }