pimoroni-pico/libraries/pico_graphics/README.md

# Pico Graphics <!-- omit in toc -->

Pico Graphics is a tiny graphics library for 16-bit RGB565 displays.

It supports drawing text, primitive and individual pixels and includes basic types such as `rect` and `point` brimming with methods to help you develop games and applications.

- [Function Reference](#function-reference)
  - [Types](#types)
    - [rect](#rect)
      - [rect.empty](#rectempty)
      - [rect.contains](#rectcontains)
      - [rect.intersects](#rectintersects)
      - [rect.intersection](#rectintersection)
      - [rect.inflate & rect.deflate](#rectinflate--rectdeflate)
    - [point](#point)
      - [point.clamp](#pointclamp)
      - [operators](#operators)
  - [Pens & Clipping](#pens--clipping)
    - [set_pen](#set_pen)
    - [create_pen](#create_pen)
    - [set_clip & remove_clip](#set_clip--remove_clip)
  - [Pixels](#pixels)
    - [pixel](#pixel)
    - [pixel_span](#pixel_span)
  - [Primitives](#primitives)
    - [rectangle](#rectangle)
    - [circle](#circle)
  - [Text](#text)
  - [Change Font](#change-font)

## Function Reference

### Types

#### rect

The `rect` type describes a rectangle in terms of its x, y position, width and height.

##### rect.empty

```c++
bool rect::empty();
```

##### rect.contains

```c++
bool rect::contains(const rect &p);
```

`contains` allows you to check if a `rect` contains a specific `point`. This can be useful for checking collissions (have I clicked on something?):

```c++
point cursor(50, 50);
rect widget(0, 0, 100, 100);
bool hover = widet.contains(cursor);
```

##### rect.intersects

```c++
bool rect::intersects(const rect &r);
```

`intersects` allows you to check if a `rect` intersects or overlaps another `rect`, for example these rectangles do not intersect:

```c++
rect a(10, 10, 10, 10);
rect b(30, 10, 10, 10);
a.intersects(b) == false
```

And these do:

```c++
rect a(10, 10, 10, 10);
rect b(15, 10, 10, 10);
a.intersects(b) == true
```

##### rect.intersection

```c++
rect rect::intersection(const rect &r);
```

`intersection` takes an input `rect` and returns a new `rect` that describes the region in which the two `rect`s overlap. For example:

```c++
rect a(0, 0, 10, 20);
rect b(0, 0, 20, 10);
rect c = a.intersection(b);
```

In this case `c` would equal `rect c(0, 0, 10, 10);` since this is the region that `a` and `b` overlap.


##### rect.inflate & rect.deflate

```c++
void rect::inflate(int32_t v);
void rect::declate(int32_t v);
```

`inflate` will inflate a `rect`, like a balooon, by adding the number of pixels you specify to all sides. For example:

```c++
rect box(10, 10, 10, 10);
box.inflate(10);
```

Would inflate our `box` to start at 0,0 and be 30x30 pixels in size.

`deflate` does the opposite:

```c++
rect box(10, 10, 10, 10);
box.deflate(1);
```

Would deflate our `box` to start at `11,11` and be 8x8 pixels in size.

Since `rectangle` *always* draws a filled rectangle, this can be useful to add an outline of your desired thickness:

```c++
rect box(10, 10, 100, 100);
box.inflate(1); // Inflate our box by 1px on all sides
screen.set_pen(255, 255, 255); // White outline
screen.rectangle(box);
box.deflate(1); // Return to our original box size
screen.set_pen(0, 0, 0); /// Black fill
screen.rectangle(box);
```

#### point

The `point` type descrives a single point - synonymous with a pixel - in terms of its x and y position.

##### point.clamp

```c++
point point::clamp(const rect &r);
```

A point can be clamped within the confines of a `rect`. This is useful for keeping - for example - a cursor within the bounds of the screen:

```c++
point cursor(10, 1000);       // A point, far outside the bounds of our screen
cursor.clamp(screen.bounds)); // Clamp to the screen
```

##### operators

TODO

### Pens & Clipping

#### set_pen

In order to draw anything with Pico Graphics you must first set the pen to your desired colour, there are two ways to do this:

```c++
void PicoGraphics::set_pen(uint8_t r, uint8_t g, uint8_t b);
void PicoGraphics::set_pen(uint16_t p);
```

The former uses 8-bit R, G and B values which are clipped to 5, 6 and 5 bits respectively to form a 16-bit colour. Internally it uses `create_pen`.

The latter takes a 16-bit colour directly and is a great way to save a few cycles if you're working with a constant palette of colours.

#### create_pen

```c++
uint16_t PicoGraphics::create_pen(uint8_t r, uint8_t g, uint8_t b);
```

Create pen takes R, G and B values, clamps them to 5, 6 and 5 bits respectively and joins them into a `uint16_t` pen that represents a single 16-bit colour.

Creating your pens up front and storing them as `uint16_t` can speed up switching colours.

#### set_clip & remove_clip

```c++
void PicoGraphics::set_clip(const rect &r);
void PicoGraphics::remove_clip();
```

`set_clip` applies a clipping rectangle to the drawing surface. Any pixels outside of this rectangle will not be drawn. By default drawing operations are clipped to `bounds` since it's impossible to draw outside of the buffer.

`remove_clip` sets the surface clipping rectangle back to the surface `bounds`.

### Pixels

#### pixel

```c++
void PicoGraphics::pixel(const point &p);
```

`pixel` sets the pixel at `point p` to the current `pen`.

#### pixel_span

```c++
void PicoGraphics::pixel_span(const point &p, int32_t l)
```

`pixel_span` draws a horizontal line of pixels of length `int32_t l` starting at `point p`.

### Primitives

#### rectangle

```c++
void PicoGraphics::rectangle(const rect &r) ;
```

`rectangle` draws a filled rectangle described by `rect`.

#### circle

```c++
PicoGraphics::circle(const point &p, int32_t radius) 
```

`circle` draws a filled circle centered on `point p` with radius `int32_t radius`.

### Text

```c++
void PicoGraphics::text(const std::string &t, const point &p, int32_t wrap, uint8_t scale);
```

`text` allows you to draw a string at `point p`, with a maximum line-width of `int32_t wrap`.

The 6x6 and 6x8 pixel font characters are encoded in `font6_data.hpp` and `font8_data.hpp` along with their character widths so that text can be drawn variable-width.

You can scale text with `uint8_t scale` for 12x12, 18x18, etc character sizes.

### Change Font

```c++
void PicoGraphics::set_font(const Font *font);
```


`set_font` allows you to change the font that PicoGraphics uses to draw text.

If you:

```c++
#include "font8_data.hpp"
```

Then you can: `set_font(&font8);` to use a font with upper/lowercase characters.
Documentation (#5) * Add Pico Display README * Add PicoGraphics README * Add Pico Explorer README * Pico Display Python README * Add Pico Unicorn demo.py * Add Pico Unicorn MicroPython docs * Add Pico Unicorn C++ README * Add Pico RGB Keypad README 2021-01-27 09:36:08 +00:00			`# Pico Graphics <!-- omit in toc -->`

			`Pico Graphics is a tiny graphics library for 16-bit RGB565 displays.`

			It supports drawing text, primitive and individual pixels and includes basic types such as `rect` and `point` brimming with methods to help you develop games and applications.

			`- [Function Reference](#function-reference)`
			`- [Types](#types)`
			`- [rect](#rect)`
			`- [rect.empty](#rectempty)`
			`- [rect.contains](#rectcontains)`
			`- [rect.intersects](#rectintersects)`
			`- [rect.intersection](#rectintersection)`
			`- [rect.inflate & rect.deflate](#rectinflate--rectdeflate)`
			`- [point](#point)`
			`- [point.clamp](#pointclamp)`
			`- [operators](#operators)`
			`- [Pens & Clipping](#pens--clipping)`
			`- [set_pen](#set_pen)`
			`- [create_pen](#create_pen)`
			`- [set_clip & remove_clip](#set_clip--remove_clip)`
			`- [Pixels](#pixels)`
			`- [pixel](#pixel)`
			`- [pixel_span](#pixel_span)`
			`- [Primitives](#primitives)`
			`- [rectangle](#rectangle)`
			`- [circle](#circle)`
			`- [Text](#text)`
Add set_font to docs 2021-02-23 17:32:58 +00:00			`- [Change Font](#change-font)`
Documentation (#5) * Add Pico Display README * Add PicoGraphics README * Add Pico Explorer README * Pico Display Python README * Add Pico Unicorn demo.py * Add Pico Unicorn MicroPython docs * Add Pico Unicorn C++ README * Add Pico RGB Keypad README 2021-01-27 09:36:08 +00:00
			`## Function Reference`

			`### Types`

			`#### rect`

			The `rect` type describes a rectangle in terms of its x, y position, width and height.

			`##### rect.empty`

			```c++
			`bool rect::empty();`
			```

			`##### rect.contains`

			```c++
			`bool rect::contains(const rect &p);`
			```

			`contains` allows you to check if a `rect` contains a specific `point`. This can be useful for checking collissions (have I clicked on something?):

			```c++
			`point cursor(50, 50);`
			`rect widget(0, 0, 100, 100);`
			`bool hover = widet.contains(cursor);`
			```

			`##### rect.intersects`

			```c++
			`bool rect::intersects(const rect &r);`
			```

			`intersects` allows you to check if a `rect` intersects or overlaps another `rect`, for example these rectangles do not intersect:

			```c++
			`rect a(10, 10, 10, 10);`
			`rect b(30, 10, 10, 10);`
			`a.intersects(b) == false`
			```

			`And these do:`

			```c++
			`rect a(10, 10, 10, 10);`
			`rect b(15, 10, 10, 10);`
			`a.intersects(b) == true`
			```

			`##### rect.intersection`

			```c++
			`rect rect::intersection(const rect &r);`
			```

			`intersection` takes an input `rect` and returns a new `rect` that describes the region in which the two `rect`s overlap. For example:

			```c++
			`rect a(0, 0, 10, 20);`
			`rect b(0, 0, 20, 10);`
			`rect c = a.intersection(b);`
			```

			In this case `c` would equal `rect c(0, 0, 10, 10);` since this is the region that `a` and `b` overlap.


			`##### rect.inflate & rect.deflate`

			```c++
			`void rect::inflate(int32_t v);`
			`void rect::declate(int32_t v);`
			```

			`inflate` will inflate a `rect`, like a balooon, by adding the number of pixels you specify to all sides. For example:

			```c++
			`rect box(10, 10, 10, 10);`
			`box.inflate(10);`
			```

			Would inflate our `box` to start at 0,0 and be 30x30 pixels in size.

			`deflate` does the opposite:

			```c++
			`rect box(10, 10, 10, 10);`
			`box.deflate(1);`
			```

			Would deflate our `box` to start at `11,11` and be 8x8 pixels in size.

			Since `rectangle` always draws a filled rectangle, this can be useful to add an outline of your desired thickness:

			```c++
			`rect box(10, 10, 100, 100);`
			`box.inflate(1); // Inflate our box by 1px on all sides`
			`screen.set_pen(255, 255, 255); // White outline`
			`screen.rectangle(box);`
			`box.deflate(1); // Return to our original box size`
			`screen.set_pen(0, 0, 0); /// Black fill`
			`screen.rectangle(box);`
			```

			`#### point`

			The `point` type descrives a single point - synonymous with a pixel - in terms of its x and y position.

			`##### point.clamp`

			```c++
			`point point::clamp(const rect &r);`
			```

			A point can be clamped within the confines of a `rect`. This is useful for keeping - for example - a cursor within the bounds of the screen:

			```c++
			`point cursor(10, 1000); // A point, far outside the bounds of our screen`
			`cursor.clamp(screen.bounds)); // Clamp to the screen`
			```

			`##### operators`

			`TODO`

			`### Pens & Clipping`

			`#### set_pen`

			`In order to draw anything with Pico Graphics you must first set the pen to your desired colour, there are two ways to do this:`

			```c++
			`void PicoGraphics::set_pen(uint8_t r, uint8_t g, uint8_t b);`
			`void PicoGraphics::set_pen(uint16_t p);`
			```

			The former uses 8-bit R, G and B values which are clipped to 5, 6 and 5 bits respectively to form a 16-bit colour. Internally it uses `create_pen`.

			`The latter takes a 16-bit colour directly and is a great way to save a few cycles if you're working with a constant palette of colours.`

			`#### create_pen`

			```c++
			`uint16_t PicoGraphics::create_pen(uint8_t r, uint8_t g, uint8_t b);`
			```

			Create pen takes R, G and B values, clamps them to 5, 6 and 5 bits respectively and joins them into a `uint16_t` pen that represents a single 16-bit colour.

			Creating your pens up front and storing them as `uint16_t` can speed up switching colours.

			`#### set_clip & remove_clip`

			```c++
			`void PicoGraphics::set_clip(const rect &r);`
			`void PicoGraphics::remove_clip();`
			```

			`set_clip` applies a clipping rectangle to the drawing surface. Any pixels outside of this rectangle will not be drawn. By default drawing operations are clipped to `bounds` since it's impossible to draw outside of the buffer.

			`remove_clip` sets the surface clipping rectangle back to the surface `bounds`.

			`### Pixels`

			`#### pixel`

			```c++
			`void PicoGraphics::pixel(const point &p);`
			```

			`pixel` sets the pixel at `point p` to the current `pen`.

			`#### pixel_span`

			```c++
			`void PicoGraphics::pixel_span(const point &p, int32_t l)`
			```

			`pixel_span` draws a horizontal line of pixels of length `int32_t l` starting at `point p`.

			`### Primitives`

			`#### rectangle`

			```c++
			`void PicoGraphics::rectangle(const rect &r) ;`
			```

			`rectangle` draws a filled rectangle described by `rect`.

			`#### circle`

			```c++
			`PicoGraphics::circle(const point &p, int32_t radius)`
			```

			`circle` draws a filled circle centered on `point p` with radius `int32_t radius`.

			`### Text`

			```c++
			`void PicoGraphics::text(const std::string &t, const point &p, int32_t wrap, uint8_t scale);`
			```

			`text` allows you to draw a string at `point p`, with a maximum line-width of `int32_t wrap`.

Add set_font to docs 2021-02-23 17:32:58 +00:00			The 6x6 and 6x8 pixel font characters are encoded in `font6_data.hpp` and `font8_data.hpp` along with their character widths so that text can be drawn variable-width.
Documentation (#5) * Add Pico Display README * Add PicoGraphics README * Add Pico Explorer README * Pico Display Python README * Add Pico Unicorn demo.py * Add Pico Unicorn MicroPython docs * Add Pico Unicorn C++ README * Add Pico RGB Keypad README 2021-01-27 09:36:08 +00:00
			You can scale text with `uint8_t scale` for 12x12, 18x18, etc character sizes.

Add set_font to docs 2021-02-23 17:32:58 +00:00			`### Change Font`

			```c++
			`void PicoGraphics::set_font(const Font *font);`
			```


			`set_font` allows you to change the font that PicoGraphics uses to draw text.

			`If you:`

			```c++
			`#include "font8_data.hpp"`
			```

			Then you can: `set_font(&font8);` to use a font with upper/lowercase characters.