kopia lustrzana https://github.com/peterhinch/micropython-font-to-py
183 wiersze
6.6 KiB
Markdown
183 wiersze
6.6 KiB
Markdown
# font_to_py.py
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Convert a font file to Python source code. The principal reason for doing this
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is to save RAM on resource-limited targets: the font file may be incorporated
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into a firmware build such that it occupies flash memory rather than scarce
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RAM. Python code built into firmware is known as frozen bytecode.
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###### [Main README](./README.md)
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# Dependencies
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The utility requires Python 3.2 or greater, also `freetype` which may be
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installed using `pip3`. On Linux at a root prompt:
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```shell
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# apt-get install python3-pip
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# pip3 install freetype-py
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```
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# Usage
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`font_to_py.py` is a command line utility written in Python 3. It is run on a
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PC. It takes as input a font file with a `ttf` or `otf` extension and a
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required height in pixels and outputs a Python 3 source file. The pixel layout
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is determined by command arguments. By default fonts are stored in variable
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pitch form. This may be overidden by a command line argument.
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By default the ASCII character set (ordinal values 32 to 126 inclusive) is
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supported. Command line arguments can modify this range as required, if
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necessary to include extended ASCII characters up to 255.
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Further arguments ensure that the byte contents and layout are correct for the
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target display hardware. Their usage should be specified in the documentation
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for the device driver.
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Example usage to produce a file `myfont.py` with height of 23 pixels:
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`font_to_py.py FreeSans.ttf 23 myfont.py`
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## Arguments
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### Mandatory positional arguments:
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1. Font file path. Must be a ttf or otf file.
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2. Height in pixels.
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3. Output file path. Filename must have a .py extension.
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### Optional arguments:
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* -f or --fixed If specified, all characters will have the same width. By
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default fonts are assumed to be variable pitch.
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* -x or --xmap Specifies horizontal mapping (default is vertical).
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* -r or --reverse Specifies bit reversal in each font byte.
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* -s or --smallest Ordinal value of smallest character to be stored. Default
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32 (ASCII space).
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* -l or --largest Ordinal value of largest character to be stored. Default 126.
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* -e or --errchar Ordinal value of character to be rendered if an attempt is
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made to display an out-of-range character. Default 63 (ASCII "?").
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* -c or --charset Option to restrict the characters in the font to a specific
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set. See below.
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* -k or --charset_file Obtain the character set from a file. Typical use is
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for alternative character sets such as Cyrillic: the file must contain the
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character set to be included. An example file is `cyrillic`.
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The -c option reduces the size of the font file. If the font file is frozen as
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bytecode this will not reduce RAM usage but it will conserve flash. An example
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usage for a digital clock font:
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```shell
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$ font_to_py.py Arial.ttf 20 arial_clock.py -c 1234567890:
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```
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Example usage with the -k option:
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```shell
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font_to_py.py FreeSans.ttf 20 freesans_cyr_20.py -k cyrillic_subset
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```
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If a character set is specified, `--smallest` and `--largest` should not be
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specified: these values are computed from the charcater set.
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Any requirement for arguments -xr will be specified in the device driver
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documentation. Bit reversal is required by some display hardware.
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There have been reports that producing extended ASCII characters (ordinal
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value > 127) from ttf files is unreliable. If the expected results are not
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achieved, use an otf font. This may be a limitation of the `freetype` library.
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### Output
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The specified height is a target. The algorithm gets as close to the target
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height as possible (usually within one pixel). The actual height achieved is
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displayed on completion, along with the width of the widest character.
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A warning is output if the output filename does not have a .py extension as the
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creation of a binary font file may not be intended.
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## The font file
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Assume that the you have employed the utility to create a file `myfont.py`. In
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your code you will issue
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```python
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import myfont
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```
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The `myfont` module name will then be used to instantiate a `Writer` object
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to render strings on demand. A practical example may be studied
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[here](./writer/writer_demo.py).
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The detailed layout of the Python file may be seen [here](./writer/DRIVERS.md).
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### Binary font files
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There is an option to create a binary font file, specified with a `-b` or
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`--binary` command line argument. In this instance the output filename must
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not have a `.py` extension. This is primarily intended for the e-paper driver
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in applications where the file is to be stored on the display's internal flash
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memory rather than using frozen Python modules.
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The technique of accessing character data from a random access file is slow
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and thus probably only applicable to devices such as e-paper where the update
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time is slow.
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Binary files currently support only the standard ASCII character set. There is
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no error character: the device driver must ensure that seeks are within range.
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Consequently the following arguments are invalid:
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* -s or --smallest
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* -l or --largest
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* -e or --errchar
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# Dependencies, links and licence
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The code is released under the MIT licence. It requires Python 3.2 or later.
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The module relies on [Freetype](https://www.freetype.org/) which is included in most Linux distributions.
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It uses the [Freetype Python bindings](http://freetype-py.readthedocs.io/en/latest/index.html)
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which will need to be installed.
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My solution draws on the excellent example code written by Daniel Bader. This
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may be viewed [here](https://dbader.org/blog/monochrome-font-rendering-with-freetype-and-python) and [here](https://gist.github.com/dbader/5488053).
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# Appendix: RAM utilisation Test Results
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The supplied `freesans20.py` and `courier20.py` files were frozen as bytecode
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on a Pyboard V1.0. The following code was pasted at the REPL:
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```python
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import gc, micropython
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gc.collect()
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micropython.mem_info()
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import freesans20
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gc.collect()
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micropython.mem_info()
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import courier20
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gc.collect()
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micropython.mem_info()
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def foo():
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addr, height, width = freesans20.get_ch('a')
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foo()
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gc.collect()
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micropython.mem_info()
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print(len(freesans20._font) + len(freesans20._index))
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```
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The memory used was 1712, 2032, 2384 and 2416 bytes. As increments over the
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prior state this corresponds to 320, 352 and 32 bytes. The `print` statement
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shows the RAM which would be consumed by the data arrays: this was 3956 bytes
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for `freesans20`.
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The `foo()` function emulates the behaviour of a device driver in rendering a
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character to a display. The local variables constitute memory which is
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reclaimed on exit from the function. Its additional RAM use was 16 bytes.
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## Conclusion
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With a font of height 20 pixels RAM saving was an order of magnitude. The
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saving will be greater if larger fonts are used as RAM usage is independent of
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the array sizes.
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