efl.evas.Rect
Class¶
- class efl.evas.Rect(*args, **kargs)¶
Bases:
object
Type to store and manipulate rectangular coordinates.
This class provides the description of a rectangle and means to access and modify its properties in an easy way.
Usage example:
>>> r1 = Rect(10, 20, 30, 40) >>> r2 = Rect((0, 0), (100, 100)) >>> r1 Rect(x=10, y=20, w=30, h=40) >>> r2 Rect(x=0, y=0, w=100, h=100) >>> r1.contains(r2) False >>> r2.contains(r1) True >>> r1 in r2 # same as r2.contains(r1) True >>> r1.intercepts(r2) True
Attention
This is not a graphical object! Do not confuse with
efl.evas.Rectangle
.- area¶
- Type
(int w, int h)
- bottom¶
- Type
int
- bottom_left¶
- Type
(int x, int y)
- bottom_right¶
- Type
(int x, int y)
- center¶
- Type
(int x, int y)
- center_x¶
- Type
int
- center_y¶
- Type
int
- clamp(obj)¶
Returns a new Rect that represents current moved inside given parameter.
If given rectangle is smaller, it’ll be centered.
- Parameters
obj –
- Return type
- clip(obj)¶
Returns a new Rect that represents current cropped inside parameter.
- Parameters
obj –
- Return type
- contains(obj)¶
Checks if this rectangle contains given rectangle.
- Parameters
obj –
- Return type
bool
- contains_point(x, y)¶
Checks if this rectangle contains the given point.
- Parameters
x (int) –
y (int) –
- Return type
bool
- cx¶
cx: ‘int’
- cy¶
cy: ‘int’
- h¶
- Type
int
- height¶
- Type
int
- inflate(amount_w, amount_h)¶
Returns a new Rect that represents current inflated by given amount.
- Parameters
amount_x (int) –
amount_y (int) –
- Return type
- intercepts(obj)¶
Deprecated since version 1.14: Use intersects() instead
- intersects(obj)¶
Checks if this rectangle and the given rectangle intersect.
- Parameters
obj –
- Return type
bool
- left¶
- Type
int
- move_by(offset_x, offset_y)¶
Returns a new Rect that represents current moved by given offsets.
- Parameters
offset_x (int) –
offset_y (int) –
- Return type
- normalize()¶
Normalize coordinates so both width and height are positive.
- pos¶
- Type
(int x, int y)
- right¶
- Type
int
- size¶
- Type
(int w, int h)
- top¶
- Type
int
- top_left¶
- Type
(int x, int y)
- top_right¶
- Type
(int x, int y)
- w¶
- Type
int
- width¶
- Type
int
- x¶
- Type
int
- x0¶
x0: ‘int’
- x1¶
x1: ‘int’
- y¶
- Type
int
- y0¶
y0: ‘int’
- y1¶
y1: ‘int’