xtd - Reference Guide  0.1.2
Modern c++17/20 framework to create console, GUI and unit test applications on Windows, macOS, Linux, iOS and android.
Loading...
Searching...
No Matches
rectangle.h
Go to the documentation of this file.
1
4#pragma once
5#include <cmath>
6#include <cstdint>
7#include <ostream>
8#include <xtd/object.h>
9#include <xtd/ustring.h>
10#include "../drawing_export.h"
11#include "point.h"
12#include "size.h"
13#include "rectangle_f.h"
14
16namespace xtd {
18 namespace drawing {
26 public:
27 static const rectangle empty;
28
29 rectangle() = default;
30 rectangle(int32_t x, int32_t y, int32_t width, int32_t height) : x_(x), y_(y), width_(width), height_(height) {}
31 rectangle(const point& location, const drawing::size& size) : rectangle(location.x(), location.y(), size.width(), size.height()) {}
32
34 rectangle(const rectangle&) = default;
35 rectangle& operator=(const rectangle&) = default;
36 operator rectangle_f() const {return rectangle_f(static_cast<float>(x_), static_cast<float>(y_), static_cast<float>(width_), static_cast<float>(height_));}
37 bool operator==(const rectangle& value) const {return x_ == value.x_ && y_ == value.y_ && width_ == value.width_ && height_ == value.height_;}
38 bool operator!=(const rectangle& value) const {return !operator==(value);}
40
41 int32_t bottom() const {return y_ + height_;}
42
43 int32_t height() const {return height_;}
44 void height(int32_t height) {height_ = height;}
45
46 bool is_empty() const {return *this == rectangle::empty;}
47
48 int32_t left() const {return x_;}
49 void left(int32_t left) {x_ = left;}
50
51 point location() const {return {x_, y_};}
52 void location(const point& location) {
53 x_ = location.x();
54 y_ = location.y();
55 }
56
57 int32_t right() const {return x_ + width_;}
58
59 drawing::size size() const {return {width_, height_};}
60 void size(const drawing::size& size) {
61 width_ = size.width();
62 height_ = size.height();
63 }
64
65 int32_t top() const {return y_;}
66 void top(int32_t top) {y_ = top;}
67
68 int32_t x() const {return x_;}
69 void x(int32_t x) {x_ = x;}
70
71 int32_t y() const {return y_;}
72 void y(int32_t y) {y_ = y;}
73
74 int32_t width() const {return width_;}
75 void width(int32_t width) {width_ = width;}
76
77 static rectangle ceiling(const rectangle_f& rect) {return rectangle(static_cast<int32_t>(std::ceil(rect.x())), static_cast<int32_t>(std::ceil(rect.y())), static_cast<int32_t>(std::ceil(rect.width())), static_cast<int32_t>(std::ceil(rect.height())));}
78
79 bool contains(const point& pt) const {return contains(pt.x(), pt.y());}
80 bool contains(const rectangle& rect) const {return x_ <= rect.x_ && (rect.x_ + rect.width_) <= (x_ + width_) && y_ <= rect.y_ && (rect.y_ + rect.height_) <= (y_ + height_);}
81 bool contains(int32_t x, int32_t y) const {return x_ <= x && x < x_ + width_ && y_ <= y && y < y_ + height_;}
82
83 static rectangle from_ltrb(int32_t left, int32_t top, int32_t right, int32_t bottom) {return rectangle(left, top, right - left, bottom - top);}
84
85 void inflate(const drawing::size& sz) {inflate(sz.width(), sz.height());}
86 void inflate(int width, int height) {
87 width_ += width;
88 height_ += height;
89 }
90 static rectangle inflate(const rectangle& rect, const drawing::size& sz) {return inflate(rect, sz.width(), sz.height());}
91 static rectangle inflate(const rectangle& rect, int width, int height) {
92 auto result = rect;
93 result.inflate(width, height);
94 return result;
95 }
96
97 bool intersects_with(const rectangle& rect) const {return (rect.x_ < x_ + width_) && (x_ < (rect.x_ + rect.width_)) && (rect.y_ < y_ + height_) && (y_ < rect.y_ + rect.height_);}
98
99 static rectangle make_intersect(const rectangle& a, const rectangle& b) {
100 auto result = a;
101 result.make_intersect(b);
102 return result;
103 }
104 void make_intersect(const rectangle& rect);
105
106 static rectangle make_union(const rectangle& a, const rectangle& b) {
107 auto result = a;
108 result.make_union(b);
109 return result;
110 }
111 void make_union(const rectangle& rect);
112
113 void offset(const point& pt) {offset(pt.x(), pt.y());}
114 void offset(int32_t dx, int32_t dy) {
115 x_ += dx;
116 y_ += dy;
117 }
118 static rectangle offset(const rectangle& rect, const point& pt) {return offset(rect, pt.x(), pt.y());}
119 static rectangle offset(const rectangle& rect, int x, int y) {
120 auto result = rect;
121 result.offset(x, y);
122 return result;
123 }
124
125 static rectangle round(const rectangle_f& rect) {return rectangle(static_cast<int32_t>(std::round(rect.x())), static_cast<int32_t>(std::round(rect.y())), static_cast<int32_t>(std::round(rect.width())), static_cast<int32_t>(std::round(rect.height())));}
126
127 static rectangle trunc(const rectangle_f& rect) {return rectangle(static_cast<int32_t>(std::trunc(rect.x())), static_cast<int32_t>(std::trunc(rect.y())), static_cast<int32_t>(std::trunc(rect.width())), static_cast<int32_t>(std::trunc(rect.height())));}
128
129 xtd::ustring to_string() const noexcept override {return "{x=" + std::to_string(x_) + ", y=" + std::to_string(y_) + ", width=" + std::to_string(width_) + ", height=" + std::to_string(height_) + "}";}
130
132 friend std::ostream& operator<<(std::ostream& os, const xtd::drawing::rectangle& rectangle) noexcept {return os << rectangle.to_string();}
134
135 private:
136 int32_t x_ = 0;
137 int32_t y_ = 0;
138 int32_t width_ = 0;
139 int32_t height_ = 0;
140 };
141 }
142}
Represents an ordered pair of integer x- and y-coordinates that defines a point in a two-dimensional ...
Definition point.h:48
int32_t y() const
Gets the y-coordinate of this point.
Definition point.h:205
int32_t x() const
Gets the x-coordinate of this point.
Definition point.h:159
Stores a set of four floating-points that represent the location and size of a rectangle.
Definition rectangle_f.h:28
Stores a set of four integers that represent the location and size of a rectangle.
Definition rectangle.h:25
xtd::ustring to_string() const noexcept override
Returns a std::string that represents the current object.
Definition rectangle.h:129
Stores an ordered pair of integers, which specify a height and width.
Definition size.h:25
int32_t width() const
Gets the horizontal component of this Size class.
Definition size.h:67
int32_t height() const
Gets he vertical component of this Size Class.
Definition size.h:57
Supports all classes in the xtd class hierarchy and provides low-level services to derived classes....
Definition object.h:26
Represents text as a sequence of UTF-8 code units.
Definition ustring.h:48
#define drawing_export_
Define shared library export.
Definition drawing_export.h:13
@ a
The A key.
@ y
The Y key.
@ b
The B key.
@ x
The X key.
The xtd namespace contains all fundamental classes to access Hardware, Os, System,...
Definition system_report.h:17
Contains xtd::object class.
Contains xtd::drawing::point class.
Contains xtd::drawing::rectangle_f class.
Contains xtd::drawing::size class.
Contains xtd::ustring class.