Metadata-Version: 2.1
Name: bimpy
Version: 0.1.1
Summary: bimpy - bundled imgui for python
Home-page: https://github.com/podgorskiy/bimpy
Author: Stanislav Pidhorskyi
Author-email: stanislav@podgorskiy.com
License: MIT
Keywords: imgui ui
Platform: UNKNOWN
Classifier: Development Status :: 4 - Beta
Classifier: License :: OSI Approved :: MIT License
Classifier: Programming Language :: Python :: 2.7
Classifier: Programming Language :: Python :: 3.5
Classifier: Programming Language :: Python :: 3.6
Classifier: Programming Language :: Python :: 3.7
Classifier: Programming Language :: Python :: 3.8
Description-Content-Type: text/markdown

bimpy - bundled imgui for python 
================================

<img src="doc_sources/logo.svg">

<h4 align="center">
<strong>bimpy</strong> is a a native extension for Python built with C++ and <a href="https://github.com/pybind/pybind11"></a> that provides bindings to <a href="https://github.com/ocornut/imgui">dear imgui</a> and distributed as a self-contained package bundled with <a href="https://github.com/glfw/glfw">glfw</a> and <a href="https://github.com/skaslev/gl3w">gl3w</a>
</h4>

<p align="center">
  <a href="https://badge.fury.io/py/bimpy"><img src="https://badge.fury.io/py/bimpy.svg" alt="PyPI version" height="18"></a>
  <a href="https://pepy.tech/project/bimpy"><img src="https://pepy.tech/badge/bimpy"></a>
  <a href="https://opensource.org/licenses/MIT"><img src="https://img.shields.io/pypi/l/bimpy"></a>
  <a href="https://api.travis-ci.com/podgorskiy/bimpy.svg?branch=master"><img src="https://travis-ci.org/podgorskiy/bimpy.svg?branch=master"></a>
</p>


Features:

* Immediate mode UI with python. The API is kept as close to the original dear imgui as possible.

* **bimpy** already has all necessary functionality for window/OpenGL context creation and hides those details from the user.

* **bimpy** can display images from ndarrays, PIL Images, numpy arrays, etc., 

* **bimpy** works on Windows, GNU Linux, and macOS.

* **bimpy** does not have dependencies and can be easily built from sources. Building relies only on distutils.


# Hello world with bimpy

Core API tries to map to the Dear ImGui as close as possible. There is additional API, such as `bimpy.App` class that simplifies **bimpy** usage

<table>
<tr><td>

Core API

</td> <td> 

Using `bimpy.App` class </td>
</tr>
<tr>
<td>

```python
import bimpy as bp

ctx = bp.Context()

ctx.init(600, 600, "Hello")

s = bp.String()
f = bp.Float()

while not ctx.should_close():
    with ctx:
        bp.text("Hello, world!")

        if bp.button("OK"):
            print(s.value)

        bp.input_text('string', str, 256)

        bp.slider_float("float", f, 0, 1)
```

</td>
<td> 

```python
import bimpy as bp


class App(bp.App):
    def __init__(self):
        super(App, self).__init__(title='Test')
        self.s = bp.String()
        self.f = bp.Float()

    def on_update(self):
        bp.text("Hello, world!")

        if bp.button("OK"):
            print(self.s.value)

        bp.input_text('string', self.s, 256)

        bp.slider_float("float", self.f, 0, 1)


app = App()
app.run()
```

</td>
</tr>
</table>



![Screenshot from 2020-12-05 08-38-39](https://user-images.githubusercontent.com/3229783/101244661-bfe01600-36d5-11eb-9d39-3d19c091abba.png)


# Display images


Display PIL image:

<table>
<tr><td>

```python
import bimpy
from PIL import Image

ctx = bimpy.Context()
ctx.init(800, 800, "Image")

image = Image.open("test.png")
im = bimpy.Image(image)

while not ctx.should_close():
    with ctx:
        bimpy.text("Display PIL Image")
        bimpy.image(im)
```

</td> <td> 

![Screenshot from 2020-12-06 06-58-02](https://user-images.githubusercontent.com/3229783/101279465-743e7280-3790-11eb-9364-137c336b78a2.png)



</td>
</tr>
</table>


Similarly, numpy arrays with 2 dimensions, 3 dimensions (2, 3 or 4 channels) of type **np.uint8** can be displayed.


Display numpy, ndarray image:

<table>
<tr><td>

```python
import bimpy
from PIL import Image
import numpy as np

ctx = bimpy.Context()
ctx.init(800, 800, "Image")

image = np.asarray(Image.open("3.png"), dtype=np.uint8)
im = bimpy.Image(image)

while not ctx.should_close():
    with ctx:
        bimpy.text("Display Image of type:")
        bimpy.same_line()
        bimpy.text(str(type(image)))
        bimpy.image(im)
```

</td> <td> 

![Screenshot from 2020-12-06 07-05-08](https://user-images.githubusercontent.com/3229783/101279636-8ff64880-3791-11eb-8646-9957b0c42d1a.png)

</td>
</tr>
</table>

More examples here: https://github.com/podgorskiy/bimpy/blob/master/examples/image.py

Non-english text
================

Use builtin `bp.load_fonts` to load fonts with CJK, cyrillic, greek  characters

<table>
<tr><td>

```python
import bimpy as bp


ctx = bp.Context()

ctx.init(600, 600, "Hello")

bp.load_fonts(
    chinese=True, 
    latin_ext=True, 
    japanese=True, 
    cyrillic=True
)


while not ctx.should_close():
    with ctx:
        chinese = u"學而不思則罔，思而不學則殆。"
        japanese = u"二兎を追う者は一兎をも得ず。 "

        hiragana = u"あ い う え お か ..."
        katakana = u"ア イ ウ エ オ カ ..."
        kanji = "川 月 木 心 火 左 北 今..."

        ukrainian = "Садок вишневий коло..."
        polish = "Hej, tam gdzieś z nad..."
        russian = "Ночь, улица, фонарь, ..."

        bp.text('Chinese:')
        bp.indent()
        bp.text(chinese)
        bp.unindent()
        bp.text('Japanese:')
        bp.indent()
        bp.text(japanese)
        bp.bullet_text("hiragana: " + hiragana)
        bp.bullet_text("katakana: " + katakana)
        bp.bullet_text("kanji: " + kanji)
        bp.unindent()
        bp.separator()
        bp.text('Ukrainian:')
        bp.indent()
        bp.text(ukrainian)
        bp.unindent()
        bp.separator()
        bp.text('Polish:')
        bp.indent()
        bp.text(polish)
        bp.unindent()
        bp.separator()
        bp.text('Russian:')
        bp.indent()
        bp.text(russian)
        bp.unindent()
        bp.separator()

```

</td> <td> 

![Screenshot from 2020-12-06 08-31-13](https://user-images.githubusercontent.com/3229783/101281665-4b24de80-379e-11eb-8170-fe09d6bfa894.png)

</td>
</tr>
</table>


Install
=======

Installation is easy since the package does not have dependencies:

```shell
pip install bimpy
```

Or you can build and install from sources:

```shell
python setup.py install
```

All c/c++ sources are built with distutils. All you need is a compiler with C++11 support.

Windows users, who use python 2.7 may encounter problems, because on Windows, python 2.7 uses MSVC 9.0, which doesn't have support for c++11. However, you still can build it with more recent MSVC (for example MSVC 14.0, which is Visual C++ 2015) using the commands below:

```shell
call "%VS140COMNTOOLS%\VsDevCmd.bat"
set VS90COMNTOOLS=%VS140COMNTOOLS%
python setup.py install
```

If building on Linux, the following dependencies will be needed:

```shell
sudo apt-get install mesa-common-dev libxi-dev libxinerama-dev libxrandr-dev libxcursor-dev
```

To build all wheels for linux package distribution (manylinux) run `build_manylinux_wheels.sh`.

For testing/debugging there is a CMakeList.txt included. It is not used by setup.py, but can be handy in order to build/debug package from certain IDEs.

How to use it?
==============

Intro
-----

**bimpy** is python binding for `dear imgui <https://github.com/ocornut/imgui>`__ and tries to match the C++ API. Also, it has some additional functions to create a window and some other differences.

It has binding for the most functions from **dear imgui**. All functions are renamed from **CamelCase** to **snake_case**, which is more common for python. For example ``ImGui::InputText`` is mapped to ``bimpy.input_text``.

Context and window
------------------

First of all, you need to import **bimpy**

```python
import bimpy
```

Distinctively from **dear imgui**, bimpy does not have global state (**dear imgui** has it by default, but it has an option not to have one). So, you will need to create a context.

```python
ctx = bimpy.Context(width, height, name)
```

Where integers *width* and *height* specify the size of the window, and string *name* is a caption of the window.

All calls to **bimpy**'s API must be within *with* statement applied to the context object:

```python
with ctx:
    bimpy.text("Hello, world!")
```


And there must be only one *with* statement applied to the context object per frame.

Or, a second option is to manualy call ``ctx.new_frame()`` before all API calls, and then ``ctx.render()`` after.

```python
ctx.new_frame()
bimpy.text("Hello, world!")
ctx.render()
```


You can have multiple *Context* objects for multiple windows, however, API is not thread-safe.

Variables
------------------

All **imgui** API that provides user input (such as *InputText*, *SliderFloat*, etc.) modifies the variable through the reference to it. However, in python, such objects as integers, floats and strings are passed always by value. Because of this, **bimpy** provides special wrappers, that allow passing those variables by reference.

For example, to use *slider_float*, you will need first to create a variable that will hold the state:

```python
f = bimpy.Float();
```

You can access the value in the following way: ``f.value``

To use it with *slider_float* simply pass it to that function:

```python
bimpy.slider_float("float slider", f, 0.0, 1.0)
```


All **imgui** input functions that provide multiple inputs, like *SliderFloat2*, *SliderInt4*, *InputInt3*, etc. are mapped to equivalent functions, but instead of passing an array of variables, you need to list all variables in the argument list:

```python
f1 = bimpy.Float();
f2 = bimpy.Float();
f3 = bimpy.Float();

while(not ctx.should_close()):
	with ctx:
		bimpy.slider_float3("float", f1, f2, f3, 0.0, 1.0)
```

Draw commands
------------------
Some draw commands are exposed. In contrast to C++ API, the exposed functions are not methods of **ImDrawList**, but global functions. All drawing functions should be called inside the *begin/end* calls of a window.

List of exposed drawing functions:

```python
    add_circle(centre: _bimpy.Vec2, radius: float, col: int, num_segments: int=12, thickness: float=1.0) -> None
    add_circle_filled(centre: _bimpy.Vec2, radius: float, col: int, num_segments: int=12) -> None
    add_line(a: _bimpy.Vec2, b: _bimpy.Vec2, col: int, thickness: float=1.0) -> None
    add_quad(a: _bimpy.Vec2, b: _bimpy.Vec2, c: _bimpy.Vec2, d: _bimpy.Vec2, col: int, thickness: float=1.0) -> None
    add_quad_filled(a: _bimpy.Vec2, b: _bimpy.Vec2, c: _bimpy.Vec2, d: _bimpy.Vec2, col: int) -> None
    add_rect(a: _bimpy.Vec2, b: _bimpy.Vec2, col: int, rounding: float=0.0, rounding_corners_flags: int=Corner.All, thickness: float=1.0) -> None
    add_rect_filled(a: _bimpy.Vec2, b: _bimpy.Vec2, col: int, rounding: float=0.0, rounding_corners_flags: int=Corner.All) -> None
    add_rect_filled_multicolor(a: _bimpy.Vec2, b: _bimpy.Vec2, col_upr_left: int, col_upr_right: int, col_bot_right: int, col_bot_lefs: int) -> None
    add_triangle(a: _bimpy.Vec2, b: _bimpy.Vec2, c: _bimpy.Vec2, col: int, thickness: float=1.0) -> None
    add_triangle_filled(a: _bimpy.Vec2, b: _bimpy.Vec2, c: _bimpy.Vec2, col: int) -> None
```

Simple usage example below:

![hello-world](https://i.imgur.com/MU5Vhfl.png)

```python
	import bimpy
	import numpy as np

	ctx = bimpy.Context()

	ctx.init(1200, 1200, "Draw Commands Test")

	with ctx:
		bimpy.themes.set_light_theme()

	DATA_POINTS = bimpy.Int(30)
	CLASTERS = bimpy.Int(4)

	std = bimpy.Float(0.5)

	colors = [0x4b19e6, 0x4bb43c, 0x19e1ff, 0xc88200, 0x3182f5, 0xb41e91, 0xf0f046, 0xf032e6, 0xd2f53c,
			  0xfabebe, 0x008080, 0xe6beff, 0xaa6e28, 0xfffac8, 0x800000, 0xaaffc3, 0x808000, 0xffd8b1,
			  0x000080, 0x808080, 0xFFFFFF, 0x000000]

	datapoints = []


	def generate_fake_data():
		datapoints.clear()
		for i in range(CLASTERS.value):
			x = np.random.normal(size=(DATA_POINTS.value, 2))
			alpha = np.random.rand()
			scale = std.value * np.random.rand(2) * np.eye(2, 2)
			position = np.random.rand(2) * 5
			rotation = np.array([[np.cos(alpha), np.sin(alpha)], [-np.sin(alpha), np.cos(alpha)]])
			x = np.matmul(x, scale)
			x = np.matmul(x, rotation)
			x += position
			datapoints.append((x, rotation, position, scale))

	axis = x = np.array([[-1, 0], [1, 0], [0, -1], [0, 1]])

	while not ctx.should_close():
		ctx.new_frame()

		bimpy.set_next_window_pos(bimpy.Vec2(20, 20), bimpy.Condition.Once)
		bimpy.set_next_window_size(bimpy.Vec2(800, 600), bimpy.Condition.Once)
		bimpy.begin("Drawings")

		window_pos = bimpy.get_window_pos()

		center = bimpy.Vec2(100, 100) + window_pos
		m = 100.0
		for i in range(len(datapoints)):
			(x, R, P, S) = datapoints[i]

			for j in range(x.shape[0]):
				point = bimpy.Vec2(x[j, 0], x[j, 1])
				bimpy.add_circle_filled(point * m + center, 5, 0xAF000000 + colors[i], 100)

			axis_ = np.matmul(axis, S * 2.0)
			axis_ = np.matmul(axis_, R) + P

			bimpy.add_line(
				center + bimpy.Vec2(axis_[0, 0], axis_[0, 1]) * m,
				center + bimpy.Vec2(axis_[1, 0], axis_[1, 1]) * m,
				0xFFFF0000, 1)

			bimpy.add_line(
				center + bimpy.Vec2(axis_[2, 0], axis_[2, 1]) * m,
				center + bimpy.Vec2(axis_[3, 0], axis_[3, 1]) * m,
				0xFFFF0000, 1)

		bimpy.end()

		bimpy.set_next_window_pos(bimpy.Vec2(20, 640), bimpy.Condition.Once)
		bimpy.set_next_window_size(bimpy.Vec2(800, 140), bimpy.Condition.Once)
		bimpy.begin("Controls")

		bimpy.input_int("Data points count", DATA_POINTS)
		bimpy.input_int("Clasters count", CLASTERS)

		bimpy.slider_float("std", std, 0.0, 3.0)

		if bimpy.button("Generate data"):
			generate_fake_data()

		bimpy.end()

		ctx.render()
```


Acknowledgements
================

* robobuggy https://github.com/gfannes
* njazz https://github.com/njazz
* Florian Rott https://github.com/sauberfred
* zakx https://github.com/zakx
* Joel Linn https://github.com/JoelLinn


