logdiag/liblogdiag/ld-types.c
Přemysl Janouch 1277b6eaaf Add support for LdDiagramConnection to LdCanvas.
Heavy LdCanvas refactoring, some modifications to ld-types.

It just wasn't possible for me to further work with an old,
2000 lines long file without shuffling everything around
at the same time.
2011-02-07 01:10:17 +01:00

366 lines
8.4 KiB
C

/*
* ld-types.c
*
* This file is a part of logdiag.
* Copyright Přemysl Janouch 2010 - 2011. All rights reserved.
*
* See the file LICENSE for licensing information.
*
*/
#include <math.h>
#include <string.h>
#include "liblogdiag.h"
#include "config.h"
/**
* SECTION:ld-types
* @short_description: Simple data types
*
* #LdPoint defines coordinates of a point.
*
* #LdPointArray defines an array of points.
*
* #LdRectangle defines the position and size of a rectangle.
*/
#define DEFINE_BOXED_TYPE(TypeName, type_name) \
GType \
type_name ## _get_type (void) \
{ \
static GType our_type = 0; \
if (our_type == 0) \
our_type = g_boxed_type_register_static \
(g_intern_static_string (#TypeName), \
(GBoxedCopyFunc) type_name ## _copy, \
(GBoxedFreeFunc) type_name ## _free); \
return our_type; \
}
DEFINE_BOXED_TYPE (LdPoint, ld_point)
DEFINE_BOXED_TYPE (LdPointArray, ld_point_array)
DEFINE_BOXED_TYPE (LdRectangle, ld_rectangle)
#define DEFINE_BOXED_TRIVIAL_COPY(TypeName, type_name) \
TypeName * \
type_name ## _copy (const TypeName *self) \
{ \
TypeName *new_copy; \
g_return_val_if_fail (self != NULL, NULL); \
new_copy = g_slice_new (TypeName); \
*new_copy = *self; \
return new_copy; \
}
#define DEFINE_BOXED_TRIVIAL_FREE(TypeName, type_name) \
void \
type_name ## _free (TypeName *self) \
{ \
g_return_if_fail (self != NULL); \
g_slice_free (TypeName, self); \
}
/**
* ld_point_copy:
* @self: an #LdPoint structure.
*
* Makes a copy of the structure.
* The result must be freed by ld_point_free().
*
* Return value: a copy of @self.
*/
DEFINE_BOXED_TRIVIAL_COPY (LdPoint, ld_point)
/**
* ld_point_free:
* @self: an #LdPoint structure.
*
* Frees the structure created with ld_point_copy().
*/
DEFINE_BOXED_TRIVIAL_FREE (LdPoint, ld_point)
/**
* ld_point_distance:
* @self: an #LdPoint structure.
* @x: the X coordinate of the second point.
* @y: the Y coordinate of the second point.
*
* Compute the distance between two points.
*/
gdouble
ld_point_distance (const LdPoint *self, gdouble x, gdouble y)
{
gdouble dx, dy;
g_return_val_if_fail (self != NULL, -1);
dx = self->x - x;
dy = self->y - y;
return sqrt (dx * dx + dy * dy);
}
/**
* ld_point_array_new:
*
* Create a new #LdPointArray.
*
* Return value: (transfer full): an #LdPointArray structure.
*/
LdPointArray *
ld_point_array_new (void)
{
return ld_point_array_sized_new (0);
}
/**
* ld_point_array_sized_new:
* @preallocated: the number of points preallocated.
*
* Create a new #LdPointArray and preallocate storage for @preallocated items.
*
* Return value: (transfer full): an #LdPointArray structure.
*/
LdPointArray *
ld_point_array_sized_new (guint preallocated)
{
LdPointArray *new_array;
new_array = g_slice_new (LdPointArray);
new_array->length = 0;
new_array->size = preallocated;
new_array->points = g_malloc0 (preallocated * sizeof (LdPoint));
return new_array;
}
/**
* ld_point_array_copy:
* @self: an #LdPointArray structure.
*
* Makes a copy of the structure.
* The result must be freed by ld_point_array_free().
*
* Return value: (transfer full): a copy of @self.
*/
LdPointArray *
ld_point_array_copy (const LdPointArray *self)
{
LdPointArray *new_array;
g_return_val_if_fail (self != NULL, NULL);
new_array = g_slice_new (LdPointArray);
new_array->length = self->length;
new_array->size = self->size;
new_array->points = g_memdup (self->points, self->size * sizeof (LdPoint));
return new_array;
}
/**
* ld_point_array_free:
* @self: an #LdPointArray structure.
*
* Frees the structure created with ld_point_array_copy().
*/
void
ld_point_array_free (LdPointArray *self)
{
g_return_if_fail (self != NULL);
g_free (self->points);
g_slice_free (LdPointArray, self);
}
/**
* ld_point_array_insert:
* @self: an #LdPointArray structure.
* @points: an array of points to be inserted.
* @pos: the position at which the points should be inserted. This number
* must not be bigger than the number of points already present
* in the array. Negative values append to the array.
* @length: count of points in @points.
*
* Insert points into the array.
*/
void
ld_point_array_insert (LdPointArray *self, LdPoint *points,
gint pos, guint length)
{
guint new_size;
g_return_if_fail (self != NULL);
g_return_if_fail (points != NULL);
g_return_if_fail (pos <= (signed) self->length);
new_size = self->size ? self->size : 1;
while (self->length + length > new_size)
new_size <<= 1;
if (new_size != self->size)
ld_point_array_set_size (self, new_size);
if (pos < 0)
pos = self->length;
g_memmove (self->points + pos + length, self->points + pos,
(self->length - pos) * sizeof (LdPoint));
memcpy (self->points + pos, points, length * sizeof (LdPoint));
self->length += length;
}
/**
* ld_point_array_remove:
* @self: an #LdPointArray structure.
* @pos: the position at which the points should be removed.
* Negative values are relative to the end of the array.
* @length: count of points to remove.
*
* Remove points from the array. The array may be resized as a result.
*/
void
ld_point_array_remove (LdPointArray *self, gint pos, guint length)
{
guint new_size;
g_return_if_fail (self != NULL);
if (pos < 0)
{
pos += self->length;
if (pos < 0)
{
length += pos;
pos = 0;
}
}
if ((unsigned) pos >= self->length)
return;
if (pos + length > self->length)
length = self->length - pos;
g_memmove (self->points + pos, self->points + pos + length,
(self->length - pos) * sizeof (LdPoint));
self->length -= length;
new_size = self->size;
while (new_size >> 2 > self->length)
new_size >>= 1;
if (new_size != self->size)
ld_point_array_set_size (self, new_size);
}
/**
* ld_point_array_set_size:
* @self: an #LdPointArray structure.
* @size: the new size.
*
* Change size of the array.
*/
void ld_point_array_set_size (LdPointArray *self, guint size)
{
g_return_if_fail (self != NULL);
if (self->size == size)
return;
self->points = g_realloc (self->points, size * sizeof (LdPoint));
if (self->length > size)
self->length = size;
if (self->size < size)
memset (self->points + self->length, 0, size - self->length);
self->size = size;
}
/**
* ld_rectangle_copy:
* @self: an #LdRectangle structure.
*
* Makes a copy of the structure.
* The result must be freed by ld_rectangle_free().
*
* Return value: a copy of @self.
*/
DEFINE_BOXED_TRIVIAL_COPY (LdRectangle, ld_rectangle)
/**
* ld_rectangle_free:
* @self: an #LdRectangle structure.
*
* Frees the structure created with ld_rectangle_copy().
*/
DEFINE_BOXED_TRIVIAL_FREE (LdRectangle, ld_rectangle)
/**
* ld_rectangle_intersects:
* @self: an #LdRectangle structure.
* @rect: an #LdRectangle to be checked for intersection.
*
* Return value: %TRUE if the two rectangles intersect.
*/
gboolean
ld_rectangle_intersects (const LdRectangle *self, const LdRectangle *rect)
{
g_return_val_if_fail (self != NULL, FALSE);
g_return_val_if_fail (rect != NULL, FALSE);
return !(self->x > rect->x + rect->width
|| self->y > rect->y + rect->height
|| self->x + self->width < rect->x
|| self->y + self->height < rect->y);
}
/**
* ld_rectangle_contains:
* @self: an #LdRectangle structure.
* @rect: an #LdRectangle to be checked for containment.
*
* Return value: %TRUE if @self fully contains @rect.
*/
gboolean
ld_rectangle_contains (const LdRectangle *self, const LdRectangle *rect)
{
g_return_val_if_fail (self != NULL, FALSE);
g_return_val_if_fail (rect != NULL, FALSE);
return (self->x <= rect->x
&& self->y <= rect->y
&& self->x + self->width >= rect->x + rect->width
&& self->y + self->height >= rect->y + rect->height);
}
/**
* ld_rectangle_contains_point:
* @self: an #LdRectangle structure.
* @point: the point to be checked.
*
* Return value: %TRUE if the rectangle contains the specified point.
*/
gboolean
ld_rectangle_contains_point (const LdRectangle *self, const LdPoint *point)
{
g_return_val_if_fail (self != NULL, FALSE);
g_return_val_if_fail (point != NULL, FALSE);
return (point->x >= self->x && point->x <= self->x + self->width
&& point->y >= self->y && point->y <= self->y + self->height);
}
/**
* ld_rectangle_extend:
* @self: an #LdRectangle structure.
* @border: the border by which the rectangle should be extended.
*
* Extend a rectangle on all sides.
*/
void
ld_rectangle_extend (LdRectangle *self, gdouble border)
{
g_return_if_fail (self != NULL);
self->x -= border;
self->y -= border;
self->width += 2 * border;
self->height += 2 * border;
}