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| DRIVERS.md | ||
| FONT_TO_PY.md | ||
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| README.md | ||
| driver_test.py | ||
| font_test.py | ||
| font_to_py.py | ||
| writer.py | ||
README.md
MicroPython font handling
This is an attempt to offer a standard method of creating and deploying fonts to MicroPython display drivers.
Introduction
MicroPython platforms generally have limited RAM, but more abundant storage in the form of flash memory. Font files tend to be relatively large. The conventional technique of rendering strings to a device involves loading the entire font into RAM. This is fast but RAM intensive. The alternative of storing the font as a random access file and loading individual characters into RAM on demand is too slow for reasonable performance on most display devices.
This alternative implements a font as a Python source file, with the data being
declared as bytes objects. Such a file may be frozen as bytecode. On import
very little RAM is used, yet the data may be accessed fast. Note that the use
of frozen bytecode is entirely optional: font files may be imported in the
normal way if RAM usage is not an issue.
It is intended that the resultant file be usable with two varieties of display devices and drivers. These comprise:
- Drivers using
bytearrayinstances as frame buffers, including the officialframebufferclass. - Drivers for displays where the frame buffer is implemented in the display device hardware.
The proposed solution
This consists of three components:
- font_to_py.py This is a utility intended to be run on a PC and converts a font file to Python source. See below.
- The Writer class (writer.py) This facilitates writing text to a device given a suitably designed device driver. See here.
- A device driver specification. This includes an example for rendering text to an SSD1306 device with arbitrary fonts. Also described in the above reference.
font_to_py.py
This is a command line utility written in Python 3 to be run on a PC. It takes
as input a font file in ttf or otf form together with a height in pixels
and outputs a Python source file containing the font data. Fixed and variable
pitch rendering are supported. The design has the following aims:
- Independence of specific display hardware.
- The path from font file to Python code to be fully open source.
The first is achieved by supplying hardware specific arguments to the utility. These define horizontal or vertical mapping and the bit order for font data.
The second is achieved by using Freetype and the Freetype Python bindings. Its use is documented here. This also details measurements of RAM usage when importing fonts stored as frozen bytecode.
Limitations
Only the ASCII character set from chr(32) to chr(126) is supported.
Kerning is not supported. Fonts are one bit per pixel. This does not rule out
colour displays: the device driver can add colour information at the rendering
stage. It does assume that all pixels of a character are rendered identically.
Converting font files programmatically works best for larger fonts. For small fonts, like the 8*8 default used by the SSD1306 driver, it is best to use binary font files: these are hand designed for rendering at a specific size.
Font file interface
A font file is imported in the usual way e.g. import font14. It contains
the following methods which return values defined by the arguments which were
provided to font-to-py:
height Returns height in pixels.
max_width Returns maximum width of a glyph in pixels.
hmap Returns True if font is horizontally mapped. Should return True
reverse Returns True if bit reversal was specified. Should return False
monospaced Returns True if monospaced rendering was specified.
Glyphs are returned with the get_ch method. Its argument is a character
and it returns the following values:
- A
memoryviewobject containg the glyph bytes. - The height in pixels.
- The character width in pixels.
Licence
All code is released under the MIT licence.