Metadata-Version: 2.1
Name: cv2-tools
Version: 1.0.0
Summary: Library to help the drawing process with OpenCV. Thought to add labels to the images. Classification of images, etc.
Home-page: https://github.com/fernaper/opencv-draw-tools
Author: Fernando Pérez
Author-email: fernaperg@gmail.com
License: MIT
Platform: UNKNOWN
Classifier: Programming Language :: Python :: 3
Classifier: License :: OSI Approved :: MIT License
Classifier: Operating System :: OS Independent
Description-Content-Type: text/markdown
Requires-Dist: numpy
Requires-Dist: python-constraint

# cv2_tools
Library to help the drawing process with OpenCV. Thought to add labels to the images. Classification of images, etc.

![image](https://user-images.githubusercontent.com/18369529/53686731-3dba0500-3d2b-11e9-95e5-e4517c013d14.png)

**Image generated with Intel Openvino Toolkit and drawed with opencv-draw-tools v0.1.9**

## Installation

### Pre-requisites

You will need to install:

* opencv >= 3.6.2
* numpy >= 1.13.3
* python-constraint >= 1.4.0

You can simply execute:
`pip install -r requirements.txt`

Finally you can install the library with:

`pip install opencv-draw-tools-fernaperg`

When you install `opencv-draw-tools`, it will automatically download `numpy` but not opencv becouse in some cases you will need another version.

## Usage

### Test

```
import cv2_tools

print('Name: {}\nVersion:{}\nHelp:{}'.format(cv2_tools.name,cv2_tools.__version__,cv2_tools.help))
webcam_test()
```
### Oriented Object Programming method

Firstly create a SelectorCV2 object. You can pass it optional parameters to configure the output.
```
from cv2_tools.Selection import SelectorCV2
selector = SelectorCV2(color=(200,90,0), filled=True)
```

Also you can configure it later using the method (all optional parameters):
```
selector.set_properties()
```

Now, each time you want to add a selected zone call the method:
```
"""
Coordinates:

(x1,y1)____(x2,y1)
   |          |
   |          |
(x1,y2)____(x2,y2)

Tags (optional parameter):
* It could be a normal string
* A string with '\n'
* A list of strings
* None / '' / [] / False
"""
selector.add_zone((x1,y1,x2,y2),tags=tag)
```

Finally, when you want to draw all the rectangles execute:
```
edited_frame = selector.draw(frame)
```

If you want to use the same object multiple times you can easily change the content inside it:
```
# This method could help change rectangles to
selector.set_range_valid_rectangles( origin, destination)

# This method could help if you know exactly the indexes that you want to keep
# Default = [], so if you just want to clean the buffer call this method without parameters
set_valid_rectangles(indexes)
```

If you want, you can see the example [detect_faces.py](examples/detect_faces.py), it also use an open source library called `face_recognition`.


### Manual method

```
import opencv_draw_tools as cv2_tools


"""
  Draw better rectangles to select zones.
  Keyword arguments:
  frame -- opencv frame object where you want to draw
  position -- touple with 4 elements (x1, y1, x2, y2)
              This elements must be between 0 and 1 in case it is normalized
              or between 0 and frame height/width.
  tags -- list of strings/tags you want to associate to the selected zone (default [])
  tag_position -- position where you want to add the tags, relatively to the selected zone (default None)
                  If None provided it will auto select the zone where it fits better:
                      - First try to put the text on the Bottom Rigth corner
                      - If it doesn't fit, try to put the text on the Bottom Left corner
                      - If it doesn't fit, try to put the text Inside the rectangle
                      - Finally if it doesn't fit, try to put the text On top of the rectangle
  alpha -- transparency of the selected zone on the image (default 0.9)
           1 means totally visible and 0 totally invisible
  color -- color of the selected zone, touple with 3 elements BGR (default (110,70,45) -> dark blue)
           BGR = Blue - Green - Red
  normalized -- boolean parameter, if True, position provided normalized (between 0 and 1) else you should provide concrete values (default False)
  thickness -- thickness of the drawing in pixels (default 2)
  filled -- boolean parameter, if True, will draw a filled rectangle with one-third opacity compared to the rectangle (default False)
  peephole -- boolean parameter, if True, also draw additional effect, so it looks like a peephole
"""
frame = cv2_tools.select_zone(frame, position, tags=[])
```

### Example with Webcam

```
import opencv_draw_tools as cv2_tools
cv2_tools.webcam_test()
```

See `webcam_test()` code:

```
def webcam_test():
    """Reproduce Webcam in real time with a selected zone."""
    print('Launching webcam test')
    cap = cv2.VideoCapture(0)
    f_width = cap.get(3)
    f_height = cap.get(4)
    window_name = 'opencv_draw_tools'
    while True:
        ret, frame = cap.read()
        frame = cv2.flip(frame, 1)
        if ret:
            keystroke = cv2.waitKey(1)
            position = (0.33,0.2,0.66,0.8)
            tags = ['MIT License', '(C) Copyright\n    Fernando\n    Perez\n    Gutierrez']
            frame = select_zone(frame, position, tags=tags, color=(130,58,14), thickness=2, filled=True, normalized=True)
            cv2.imshow(window_name, frame)
            # True if escape 'esc' is pressed
            if keystroke == 27:
                break
    cv2.destroyAllWindows()
    cv2.VideoCapture(0).release()
```


