/* -*- Mode: C; tab-width: 8; indent-tabs-mode: t; c-basic-offset: 8 -*- */
/*
* e-cell.c - base class for cell renderers in e-table
* Copyright 1999, 2000, 2001, Ximian, Inc.
*
* Authors:
* Miguel de Icaza <miguel@ximian.com>
* Chris Lahey <clahey@ximian.com>
*
* This library is free software; you can redistribute it and/or
* modify it under the terms of the GNU Library General Public
* License, version 2, as published by the Free Software Foundation.
*
* This library 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
* Library General Public License for more details.
*
* You should have received a copy of the GNU Library General Public
* License along with this library; if not, write to the Free Software
* Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA
* 02111-1307, USA.
*/
#include <config.h>
#include "gal/util/e-util.h"
#include "e-cell.h"
#define PARENT_TYPE GTK_TYPE_OBJECT
#define ECVIEW_EC_CLASS(v) (E_CELL_GET_CLASS (v->ecell))
static ECellView *
ec_new_view (ECell *ecell, ETableModel *table_model, void *e_table_item_view)
{
return NULL;
}
static void
ec_realize (ECellView *e_cell)
{
}
static void
ec_kill_view (ECellView *ecell_view)
{
}
static void
ec_unrealize (ECellView *e_cell)
{
}
static void
ec_draw (ECellView *ecell_view, GdkDrawable *drawable,
int model_col, int view_col, int row, ECellFlags flags,
int x1, int y1, int x2, int y2)
{
g_error ("e-cell-draw invoked\n");
}
static gint
ec_event (ECellView *ecell_view, GdkEvent *event, int model_col, int view_col, int row, ECellFlags flags, ECellActions *actions)
{
g_error ("e-cell-event invoked\n");
return 0;
}
static gint
ec_height (ECellView *ecell_view, int model_col, int view_col, int row)
{
g_error ("e-cell-height invoked\n");
return 0;
}
static void
ec_focus (ECellView *ecell_view, int model_col, int view_col, int row, int x1, int y1, int x2, int y2)
{
ecell_view->focus_col = view_col;
ecell_view->focus_row = row;
ecell_view->focus_x1 = x1;
ecell_view->focus_y1 = y1;
ecell_view->focus_x2 = x2;
ecell_view->focus_y2 = y2;
}
static void
ec_unfocus (ECellView *ecell_view)
{
ecell_view->focus_col = -1;
ecell_view->focus_row = -1;
ecell_view->focus_x1 = -1;
ecell_view->focus_y1 = -1;
ecell_view->focus_x2 = -1;
ecell_view->focus_y2 = -1;
}
static void *
ec_enter_edit (ECellView *ecell_view, int model_col, int view_col, int row)
{
return NULL;
}
static void
ec_leave_edit (ECellView *ecell_view, int model_col, int view_col, int row, void *context)
{
}
static void *
ec_save_state (ECellView *ecell_view, int model_col, int view_col, int row, void *context)
{
return NULL;
}
static void
ec_load_state (ECellView *ecell_view, int model_col, int view_col, int row, void *context, void *save_state)
{
}
static void
ec_free_state (ECellView *ecell_view, int model_col, int view_col, int row, void *save_state)
{
}
static void
ec_show_tooltip (ECellView *ecell_view, int model_col, int view_col, int row, int col_width, ETableTooltip *tooltip)
{
/* Do nothing */
}
static void
e_cell_class_init (GtkObjectClass *object_class)
{
ECellClass *ecc = (ECellClass *) object_class;
ecc->realize = ec_realize;
ecc->unrealize = ec_unrealize;
ecc->new_view = ec_new_view;
ecc->kill_view = ec_kill_view;
ecc->draw = ec_draw;
ecc->event = ec_event;
ecc->focus = ec_focus;
ecc->unfocus = ec_unfocus;
ecc->height = ec_height;
ecc->enter_edit = ec_enter_edit;
ecc->leave_edit = ec_leave_edit;
ecc->save_state = ec_save_state;
ecc->load_state = ec_load_state;
ecc->free_state = ec_free_state;
ecc->print = NULL;
ecc->print_height = NULL;
ecc->max_width = NULL;
ecc->max_width_by_row = NULL;
ecc->show_tooltip = ec_show_tooltip;
}
static void
e_cell_init (GtkObject *object)
{
}
E_MAKE_TYPE(e_cell, "ECell", ECell, e_cell_class_init, e_cell_init, PARENT_TYPE)
/**
* e_cell_event:
* @ecell_view: The ECellView where the event will be dispatched
* @event: The GdkEvent.
* @model_col: the column in the model
* @view_col: the column in the view
* @row: the row
* @flags: flags about the current state
* @actions: A second return value in case the cell wants to take some action (specifically grabbing & ungrabbing)
*
* Dispatches the event @event to the @ecell_view for.
*
* Returns: processing state from the GdkEvent handling.
*/
gint
e_cell_event (ECellView *ecell_view, GdkEvent *event, int model_col, int view_col, int row, ECellFlags flags, ECellActions *actions)
{
return ECVIEW_EC_CLASS(ecell_view)->event (
ecell_view, event, model_col, view_col, row, flags, actions);
}
/**
* e_cell_new_view:
* @ecell: the Ecell that will create the new view
* @table_model: the table model the ecell is bound to
* @e_table_item_view: An ETableItem object (the CanvasItem that reprensents the view of the table)
*
* ECell renderers new to be bound to a table_model and to the actual view
* during their life time to actually render the data. This method is invoked
* by the ETableItem canvas item to instatiate a new view of the ECell.
*
* This is invoked when the ETableModel is attached to the ETableItem (a CanvasItem
* that can render ETableModels in the screen).
*
* Returns: a new ECellView for this @ecell on the @table_model displayed on the @e_table_item_view.
*/
ECellView *
e_cell_new_view (ECell *ecell, ETableModel *table_model, void *e_table_item_view)
{
return E_CELL_GET_CLASS (ecell)->new_view (
ecell, table_model, e_table_item_view);
}
/**
* e_cell_realize:
* @ecell_view: The ECellView to be realized.
*
* This function is invoked to give a chance to the ECellView to allocate
* any resources it needs from Gdk, equivalent to the GtkWidget::realize
* signal.
*/
void
e_cell_realize (ECellView *ecell_view)
{
ECVIEW_EC_CLASS(ecell_view)->realize (ecell_view);
}
/**
* e_cell_kill_view:
* @ecell_view: view to be destroyed.
*
* This method it used to destroy a view of an ECell renderer
*/
void
e_cell_kill_view (ECellView *ecell_view)
{
ECVIEW_EC_CLASS(ecell_view)->kill_view (ecell_view);
}
/**
* e_cell_unrealize:
* @ecell_view: The ECellView to be unrealized.
*
* This function is invoked to give a chance to the ECellView to
* release any resources it allocated during the realize method,
* equivalent to the GtkWidget::unrealize signal.
*/
void
e_cell_unrealize (ECellView *ecell_view)
{
ECVIEW_EC_CLASS(ecell_view)->unrealize (ecell_view);
}
/**
* e_cell_draw:
* @ecell_view: the ECellView to redraw
* @drawable: draw desination
* @model_col: the column in the model being drawn.
* @view_col: the column in the view being drawn (what the model maps to).
* @row: the row being drawn
* @flags: rendering flags.
* @x1: boudary for the rendering
* @y1: boudary for the rendering
* @x2: boudary for the rendering
* @y2: boudary for the rendering
*
* This instructs the ECellView to render itself into the drawable. The
* region to be drawn in given by (x1,y1)-(x2,y2).
*
* The most important flags are %E_CELL_SELECTED and %E_CELL_FOCUSED, other
* flags include alignments and justifications.
*/
void
e_cell_draw (ECellView *ecell_view, GdkDrawable *drawable,
int model_col, int view_col, int row, ECellFlags flags,
int x1, int y1, int x2, int y2)
{
g_return_if_fail (ecell_view != NULL);
g_return_if_fail (row >= 0);
g_return_if_fail (row < e_table_model_row_count(ecell_view->e_table_model));
ECVIEW_EC_CLASS(ecell_view)->draw (ecell_view, drawable, model_col, view_col, row, flags, x1, y1, x2, y2);
}
/**
* e_cell_print:
* @ecell_view: the ECellView to redraw
* @context: The GnomePrintContext where we output our printed data.
* @model_col: the column in the model being drawn.
* @view_col: the column in the view being drawn (what the model maps to).
* @row: the row being drawn
* @width: width
* @height: height
*
* FIXME:
*/
void
e_cell_print (ECellView *ecell_view, GnomePrintContext *context,
int model_col, int view_col, int row,
double width, double height)
{
if (ECVIEW_EC_CLASS(ecell_view)->print)
ECVIEW_EC_CLASS(ecell_view)->print (ecell_view, context, model_col, view_col, row, width, height);
}
/**
* e_cell_print:
*
* FIXME:
*/
gdouble
e_cell_print_height (ECellView *ecell_view, GnomePrintContext *context,
int model_col, int view_col, int row,
double width)
{
if (ECVIEW_EC_CLASS(ecell_view)->print_height)
return ECVIEW_EC_CLASS(ecell_view)->print_height
(ecell_view, context, model_col, view_col, row, width);
else
return 0.0;
}
/**
* e_cell_height:
* @ecell_view: the ECellView.
* @model_col: the column in the model
* @view_col: the column in the view.
* @row: the row to me measured
*
* Returns: the height of the cell at @model_col, @row rendered at
* @view_col, @row.
*/
int
e_cell_height (ECellView *ecell_view, int model_col, int view_col, int row)
{
return ECVIEW_EC_CLASS(ecell_view)->height (ecell_view, model_col, view_col, row);
}
/**
* e_cell_enter_edit:
* @ecell_view: the ECellView that will enter editing
* @model_col: the column in the model
* @view_col: the column in the view
* @row: the row
*
* Notifies the ECellView that it is about to enter editing mode for
* @model_col, @row rendered at @view_col, @row.
*/
void *
e_cell_enter_edit (ECellView *ecell_view, int model_col, int view_col, int row)
{
return ECVIEW_EC_CLASS(ecell_view)->enter_edit (ecell_view, model_col, view_col, row);
}
/**
* e_cell_leave_edit:
* @ecell_view: the ECellView that will leave editing
* @model_col: the column in the model
* @view_col: the column in the view
* @row: the row
* @edit_context: the editing context
*
* Notifies the ECellView that editing is finished at @model_col, @row
* rendered at @view_col, @row.
*/
void
e_cell_leave_edit (ECellView *ecell_view, int model_col, int view_col, int row, void *edit_context)
{
ECVIEW_EC_CLASS(ecell_view)->leave_edit (ecell_view, model_col, view_col, row, edit_context);
}
/**
* e_cell_save_state:
* @ecell_view: the ECellView to save
* @model_col: the column in the model
* @view_col: the column in the view
* @row: the row
* @edit_context: the editing context
*
* Returns: The save state.
*
* Requests that the ECellView return a void * representing the state
* of the ECell. This is primarily intended for things like selection
* or scrolling.
*/
void *
e_cell_save_state (ECellView *ecell_view, int model_col, int view_col, int row, void *edit_context)
{
if (ECVIEW_EC_CLASS(ecell_view)->save_state)
return ECVIEW_EC_CLASS(ecell_view)->save_state (ecell_view, model_col, view_col, row, edit_context);
else
return NULL;
}
/**
* e_cell_load_state:
* @ecell_view: the ECellView to load
* @model_col: the column in the model
* @view_col: the column in the view
* @row: the row
* @edit_context: the editing context
* @save_state: the save state to load from
*
* Requests that the ECellView load from the given save state.
*/
void
e_cell_load_state (ECellView *ecell_view, int model_col, int view_col, int row, void *edit_context, void *save_state)
{
if (ECVIEW_EC_CLASS(ecell_view)->load_state)
ECVIEW_EC_CLASS(ecell_view)->load_state (ecell_view, model_col, view_col, row, edit_context, save_state);
}
/**
* e_cell_load_state:
* @ecell_view: the ECellView
* @model_col: the column in the model
* @view_col: the column in the view
* @row: the row
* @edit_context: the editing context
* @save_state: the save state to free
*
* Requests that the ECellView free the given save state.
*/
void
e_cell_free_state (ECellView *ecell_view, int model_col, int view_col, int row, void *save_state)
{
if (ECVIEW_EC_CLASS(ecell_view)->free_state)
ECVIEW_EC_CLASS(ecell_view)->free_state (ecell_view, model_col, view_col, row, save_state);
}
/**
* e_cell_max_width:
* @ecell_view: the ECellView that will leave editing
* @model_col: the column in the model
* @view_col: the column in the view.
*
* Returns: the maximum width for the ECellview at @model_col which
* is being rendered as @view_col
*/
int
e_cell_max_width (ECellView *ecell_view, int model_col, int view_col)
{
return ECVIEW_EC_CLASS(ecell_view)->max_width
(ecell_view, model_col, view_col);
}
/**
* e_cell_max_width_by_row:
* @ecell_view: the ECellView that we are curious about
* @model_col: the column in the model
* @view_col: the column in the view.
* @row: The row in the model.
*
* Returns: the maximum width for the ECellview at @model_col which
* is being rendered as @view_col for the data in @row.
*/
int
e_cell_max_width_by_row (ECellView *ecell_view, int model_col, int view_col, int row)
{
if (ECVIEW_EC_CLASS(ecell_view)->max_width_by_row)
return ECVIEW_EC_CLASS(ecell_view)->max_width_by_row
(ecell_view, model_col, view_col, row);
else
return e_cell_max_width (ecell_view, model_col, view_col);
}
/**
* e_cell_max_width_by_row_implemented:
* @ecell_view: the ECellView that we are curious about
* @model_col: the column in the model
* @view_col: the column in the view.
* @row: The row in the model.
*
* Returns: the maximum width for the ECellview at @model_col which
* is being rendered as @view_col for the data in @row.
*/
gboolean
e_cell_max_width_by_row_implemented (ECellView *ecell_view)
{
return (ECVIEW_EC_CLASS(ecell_view)->max_width_by_row != NULL);
}
void
e_cell_show_tooltip (ECellView *ecell_view, int model_col, int view_col,
int row, int col_width, ETableTooltip *tooltip)
{
ECVIEW_EC_CLASS(ecell_view)->show_tooltip
(ecell_view, model_col, view_col, row, col_width, tooltip);
}
gchar *
e_cell_get_bg_color(ECellView *ecell_view, int row)
{
if (ECVIEW_EC_CLASS(ecell_view)->get_bg_color)
return ECVIEW_EC_CLASS(ecell_view)->get_bg_color (ecell_view, row);
else
return NULL;
}
void
e_cell_style_set(ECellView *ecell_view, GtkStyle *previous_style)
{
if (ECVIEW_EC_CLASS(ecell_view)->style_set)
ECVIEW_EC_CLASS(ecell_view)->style_set (ecell_view, previous_style);
}