gboolean
ghid_note_event_location (GdkEventButton * ev)
{
gint x, y;
gboolean moved;
if (!ev)
{
gdk_window_get_pointer (ghid_port.drawing_area->window, &x, &y, NULL);
event_x = x;
event_y = y;
}
else
{
event_x = ev->x;
event_y = ev->y;
}
gport->view_x = event_x * gport->zoom + gport->view_x0;
gport->view_y = event_y * gport->zoom + gport->view_y0;
moved = MoveCrosshairAbsolute (SIDE_X (gport->view_x),
SIDE_Y (gport->view_y));
if (moved)
{
AdjustAttachedObjects ();
RestoreCrosshair (false);
}
ghid_set_cursor_position_labels ();
return moved;
}
void
ghid_fill_circle (hidGC gc, int cx, int cy, int radius)
{
gint w, h, vr;
w = gport->width * gport->zoom;
h = gport->height * gport->zoom;
if (SIDE_X (cx) < gport->view_x0 - radius
|| SIDE_X (cx) > gport->view_x0 + w + radius
|| SIDE_Y (cy) < gport->view_y0 - radius
|| SIDE_Y (cy) > gport->view_y0 + h + radius)
return;
USE_GC (gc);
vr = Vz (radius);
gdk_draw_arc (gport->drawable, gport->u_gc, TRUE,
Vx (cx) - vr, Vy (cy) - vr, vr * 2, vr * 2, 0, 360 * 64);
}
void
ghid_fill_circle (hidGC gc, Coord cx, Coord cy, Coord radius)
{
gint w, h, vr;
render_priv *priv = gport->render_priv;
w = gport->width * gport->view.coord_per_px;
h = gport->height * gport->view.coord_per_px;
if (SIDE_X (cx) < gport->view.x0 - radius
|| SIDE_X (cx) > gport->view.x0 + w + radius
|| SIDE_Y (cy) < gport->view.y0 - radius
|| SIDE_Y (cy) > gport->view.y0 + h + radius)
return;
USE_GC (gc);
vr = Vz (radius);
gdk_draw_arc (gport->drawable, priv->u_gc, TRUE,
Vx (cx) - vr, Vy (cy) - vr, vr * 2, vr * 2, 0, 360 * 64);
}
void
ghid_draw_rect (hidGC gc, Coord x1, Coord y1, Coord x2, Coord y2)
{
gint w, h, lw;
render_priv *priv = gport->render_priv;
lw = gc->width;
w = gport->width * gport->view.coord_per_px;
h = gport->height * gport->view.coord_per_px;
if ((SIDE_X (x1) < gport->view.x0 - lw
&& SIDE_X (x2) < gport->view.x0 - lw)
|| (SIDE_X (x1) > gport->view.x0 + w + lw
&& SIDE_X (x2) > gport->view.x0 + w + lw)
|| (SIDE_Y (y1) < gport->view.y0 - lw
&& SIDE_Y (y2) < gport->view.y0 - lw)
|| (SIDE_Y (y1) > gport->view.y0 + h + lw
&& SIDE_Y (y2) > gport->view.y0 + h + lw))
return;
x1 = Vx (x1);
y1 = Vy (y1);
x2 = Vx (x2);
y2 = Vy (y2);
if (x1 > x2)
{
gint xt = x1;
x1 = x2;
x2 = xt;
}
if (y1 > y2)
{
gint yt = y1;
y1 = y2;
y2 = yt;
}
USE_GC (gc);
gdk_draw_rectangle (gport->drawable, priv->u_gc, FALSE,
x1, y1, x2 - x1 + 1, y2 - y1 + 1);
}
void
ghid_get_coords (const char *msg, int *x, int *y)
{
if (!ghid_port.has_entered && msg)
ghid_get_user_xy (msg);
if (ghid_port.has_entered)
{
*x = SIDE_X (gport->view_x);
*y = SIDE_Y (gport->view_y);
}
}
void
ghid_draw_rect (hidGC gc, int x1, int y1, int x2, int y2)
{
gint w, h, lw;
lw = gc->width;
w = gport->width * gport->zoom;
h = gport->height * gport->zoom;
if ((SIDE_X (x1) < gport->view_x0 - lw
&& SIDE_X (x2) < gport->view_x0 - lw)
|| (SIDE_X (x1) > gport->view_x0 + w + lw
&& SIDE_X (x2) > gport->view_x0 + w + lw)
|| (SIDE_Y (y1) < gport->view_y0 - lw
&& SIDE_Y (y2) < gport->view_y0 - lw)
|| (SIDE_Y (y1) > gport->view_y0 + h + lw
&& SIDE_Y (y2) > gport->view_y0 + h + lw))
return;
x1 = Vx (x1);
y1 = Vy (y1);
x2 = Vx (x2);
y2 = Vy (y2);
if (x1 > x2)
{
gint xt = x1;
x1 = x2;
x2 = xt;
}
if (y1 > y2)
{
gint yt = y1;
y1 = y2;
y2 = yt;
}
USE_GC (gc);
gdk_draw_rectangle (gport->drawable, gport->u_gc, FALSE,
x1, y1, x2 - x1 + 1, y2 - y1 + 1);
}
void
ghid_fill_rect (hidGC gc, int x1, int y1, int x2, int y2)
{
gint w, h, lw, xx, yy;
lw = gc->width;
w = gport->width * gport->zoom;
h = gport->height * gport->zoom;
if ((SIDE_X (x1) < gport->view_x0 - lw
&& SIDE_X (x2) < gport->view_x0 - lw)
|| (SIDE_X (x1) > gport->view_x0 + w + lw
&& SIDE_X (x2) > gport->view_x0 + w + lw)
|| (SIDE_Y (y1) < gport->view_y0 - lw
&& SIDE_Y (y2) < gport->view_y0 - lw)
|| (SIDE_Y (y1) > gport->view_y0 + h + lw
&& SIDE_Y (y2) > gport->view_y0 + h + lw))
return;
x1 = Vx (x1);
y1 = Vy (y1);
x2 = Vx (x2);
y2 = Vy (y2);
if (x2 < x1)
{
xx = x1;
x1 = x2;
x2 = xx;
}
if (y2 < y1)
{
yy = y1;
y1 = y2;
y2 = yy;
}
USE_GC (gc);
gdk_draw_rectangle (gport->drawable, gport->u_gc, TRUE,
x1, y1, x2 - x1 + 1, y2 - y1 + 1);
}
void
ghid_draw_arc (hidGC gc, Coord cx, Coord cy,
Coord xradius, Coord yradius, Angle start_angle, Angle delta_angle)
{
gint vrx, vry;
gint w, h, radius;
render_priv *priv = gport->render_priv;
w = gport->width * gport->view.coord_per_px;
h = gport->height * gport->view.coord_per_px;
radius = (xradius > yradius) ? xradius : yradius;
if (SIDE_X (cx) < gport->view.x0 - radius
|| SIDE_X (cx) > gport->view.x0 + w + radius
|| SIDE_Y (cy) < gport->view.y0 - radius
|| SIDE_Y (cy) > gport->view.y0 + h + radius)
return;
USE_GC (gc);
vrx = Vz (xradius);
vry = Vz (yradius);
if (gport->view.flip_x)
{
start_angle = 180 - start_angle;
delta_angle = -delta_angle;
}
if (gport->view.flip_y)
{
start_angle = -start_angle;
delta_angle = -delta_angle;
}
/* make sure we fall in the -180 to +180 range */
start_angle = NormalizeAngle (start_angle);
if (start_angle >= 180) start_angle -= 360;
gdk_draw_arc (gport->drawable, priv->u_gc, 0,
Vx (cx) - vrx, Vy (cy) - vry,
vrx * 2, vry * 2, (start_angle + 180) * 64, delta_angle * 64);
}
void
ghid_draw_arc (hidGC gc, int cx, int cy,
int xradius, int yradius, int start_angle, int delta_angle)
{
gint vrx, vry;
gint w, h, radius;
w = gport->width * gport->zoom;
h = gport->height * gport->zoom;
radius = (xradius > yradius) ? xradius : yradius;
if (SIDE_X (cx) < gport->view_x0 - radius
|| SIDE_X (cx) > gport->view_x0 + w + radius
|| SIDE_Y (cy) < gport->view_y0 - radius
|| SIDE_Y (cy) > gport->view_y0 + h + radius)
return;
USE_GC (gc);
vrx = Vz (xradius);
vry = Vz (yradius);
if (ghid_flip_x)
{
start_angle = 180 - start_angle;
delta_angle = -delta_angle;
}
if (ghid_flip_y)
{
start_angle = -start_angle;
delta_angle = -delta_angle;
}
/* make sure we fall in the -180 to +180 range */
start_angle = (start_angle + 360 + 180) % 360 - 180;
gdk_draw_arc (gport->drawable, gport->u_gc, 0,
Vx (cx) - vrx, Vy (cy) - vry,
vrx * 2, vry * 2, (start_angle + 180) * 64, delta_angle * 64);
}
static void
ghid_draw_grid (void)
{
static GdkPoint *points = 0;
static int npoints = 0;
int x1, y1, x2, y2, n, i;
double x, y;
if (!Settings.DrawGrid)
return;
if (Vz (PCB->Grid) < MIN_GRID_DISTANCE)
return;
if (!gport->grid_gc)
{
if (gdk_color_parse (Settings.GridColor, &gport->grid_color))
{
gport->grid_color.red ^= gport->bg_color.red;
gport->grid_color.green ^= gport->bg_color.green;
gport->grid_color.blue ^= gport->bg_color.blue;
gdk_color_alloc (gport->colormap, &gport->grid_color);
}
gport->grid_gc = gdk_gc_new (gport->drawable);
gdk_gc_set_function (gport->grid_gc, GDK_XOR);
gdk_gc_set_foreground (gport->grid_gc, &gport->grid_color);
}
x1 = GRIDFIT_X (SIDE_X (gport->view_x0), PCB->Grid);
y1 = GRIDFIT_Y (SIDE_Y (gport->view_y0), PCB->Grid);
x2 = GRIDFIT_X (SIDE_X (gport->view_x0 + gport->view_width - 1), PCB->Grid);
y2 =
GRIDFIT_Y (SIDE_Y (gport->view_y0 + gport->view_height - 1), PCB->Grid);
if (x1 > x2)
{
int tmp = x1;
x1 = x2;
x2 = tmp;
}
if (y1 > y2)
{
int tmp = y1;
y1 = y2;
y2 = tmp;
}
if (Vx (x1) < 0)
x1 += PCB->Grid;
if (Vy (y1) < 0)
y1 += PCB->Grid;
if (Vx (x2) >= gport->width)
x2 -= PCB->Grid;
if (Vy (y2) >= gport->height)
y2 -= PCB->Grid;
n = (int) ((x2 - x1) / PCB->Grid + 0.5) + 1;
if (n > npoints)
{
npoints = n + 10;
points = (GdkPoint *)realloc (points, npoints * sizeof (GdkPoint));
}
n = 0;
for (x = x1; x <= x2; x += PCB->Grid)
{
points[n].x = Vx (x);
n++;
}
if (n == 0)
return;
for (y = y1; y <= y2; y += PCB->Grid)
{
int vy = Vy (y);
for (i = 0; i < n; i++)
points[i].y = vy;
gdk_draw_points (gport->drawable, gport->grid_gc, points, n);
}
}
static void
ghid_draw_grid (void)
{
static GdkPoint *points = 0;
static int npoints = 0;
Coord x1, y1, x2, y2, x, y;
int n, i;
render_priv *priv = gport->render_priv;
if (!Settings.DrawGrid)
return;
if (Vz (PCB->Grid) < MIN_GRID_DISTANCE)
return;
if (!priv->grid_gc)
{
if (gdk_color_parse (Settings.GridColor, &gport->grid_color))
{
gport->grid_color.red ^= gport->bg_color.red;
gport->grid_color.green ^= gport->bg_color.green;
gport->grid_color.blue ^= gport->bg_color.blue;
gdk_color_alloc (gport->colormap, &gport->grid_color);
}
priv->grid_gc = gdk_gc_new (gport->drawable);
gdk_gc_set_function (priv->grid_gc, GDK_XOR);
gdk_gc_set_foreground (priv->grid_gc, &gport->grid_color);
gdk_gc_set_clip_origin (priv->grid_gc, 0, 0);
set_clip (priv, priv->grid_gc);
}
x1 = GridFit (SIDE_X (gport->view.x0), PCB->Grid, PCB->GridOffsetX);
y1 = GridFit (SIDE_Y (gport->view.y0), PCB->Grid, PCB->GridOffsetY);
x2 = GridFit (SIDE_X (gport->view.x0 + gport->view.width - 1),
PCB->Grid, PCB->GridOffsetX);
y2 = GridFit (SIDE_Y (gport->view.y0 + gport->view.height - 1),
PCB->Grid, PCB->GridOffsetY);
if (x1 > x2)
{
Coord tmp = x1;
x1 = x2;
x2 = tmp;
}
if (y1 > y2)
{
Coord tmp = y1;
y1 = y2;
y2 = tmp;
}
if (Vx (x1) < 0)
x1 += PCB->Grid;
if (Vy (y1) < 0)
y1 += PCB->Grid;
if (Vx (x2) >= gport->width)
x2 -= PCB->Grid;
if (Vy (y2) >= gport->height)
y2 -= PCB->Grid;
n = (x2 - x1) / PCB->Grid + 1;
if (n > npoints)
{
npoints = n + 10;
points = (GdkPoint *)realloc (points, npoints * sizeof (GdkPoint));
}
n = 0;
for (x = x1; x <= x2; x += PCB->Grid)
{
points[n].x = Vx (x);
n++;
}
if (n == 0)
return;
for (y = y1; y <= y2; y += PCB->Grid)
{
for (i = 0; i < n; i++)
points[i].y = Vy (y);
gdk_draw_points (gport->drawable, priv->grid_gc, points, n);
}
}
/* Callback when the user clicks on a PCB node in the right node treeview.
*/
static void
node_selection_changed_cb (GtkTreeSelection * selection, gpointer data)
{
GtkTreeIter iter;
GtkTreeModel *model;
LibraryMenuType *node_net;
LibraryEntryType *node;
static gchar *node_name;
gint x0, y0, margin;
if (selection_holdoff) /* PCB is highlighting, user is not selecting */
return;
/* Toggle off the previous selection. Look up node_name to make sure
| it still exists. This toggling can get out of sync if a node is
| toggled selected, then the net that includes the node is selected
| then unselected.
*/
if ((node = node_get_node_from_name (node_name, &node_net)) != NULL)
{
/* If net node belongs to has been highlighted/unhighighed, toggling
| if off here will get our on/off toggling out of sync.
*/
if (node_net == node_selected_net)
SelectPin (node, TRUE);
g_free (node_name);
node_name = NULL;
}
/* Get the selected treeview row.
*/
if (!gtk_tree_selection_get_selected (selection, &model, &iter))
{
if (node)
ghid_invalidate_all ();
return;
}
/* From the treeview row, extract the node pointer stored there and
| we've got a pointer to the LibraryEntryType (node) the row
| represents.
*/
gtk_tree_model_get (model, &iter, NODE_LIBRARY_COLUMN, &node, -1);
dup_string (&node_name, node->ListEntry);
node_selected_net = selected_net;
/* Now just toggle a select of the node on the layout and pan.
*/
SelectPin (node, TRUE);
IncrementUndoSerialNumber ();
margin = gport->view_width / 20;
if ( Crosshair.X < gport->view_x0 + margin
|| Crosshair.X > gport->view_x0 + gport->view_width - margin
|| Crosshair.Y < gport->view_y0 + margin
|| Crosshair.Y > gport->view_y0 + gport->view_height - margin
)
{
x0 = SIDE_X (Crosshair.X) - gport->view_width / 2;
y0 = SIDE_Y (Crosshair.Y) - gport->view_height / 2;
gport->view_x0 = x0;
gport->view_y0 = y0;
ghid_pan_fixup ();
gui->set_crosshair (Crosshair.X, Crosshair.Y, HID_SC_WARP_POINTER);
}
ghid_screen_update();
}
