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#!/usr/bin/env python | |
# -*- coding: utf-8 -*- | |
# Needs freetype-py>=1.0 | |
# For more info see: | |
# http://dbader.org/blog/monochrome-font-rendering-with-freetype-and-python | |
# The MIT License (MIT) | |
# | |
# Copyright (c) 2013 Daniel Bader (http://dbader.org) | |
# | |
# Permission is hereby granted, free of charge, to any person obtaining a copy | |
# of this software and associated documentation files (the "Software"), to deal | |
# in the Software without restriction, including without limitation the rights | |
# to use, copy, modify, merge, publish, distribute, sublicense, and/or sell | |
# copies of the Software, and to permit persons to whom the Software is | |
# furnished to do so, subject to the following conditions: | |
# | |
# The above copyright notice and this permission notice shall be included in | |
# all copies or substantial portions of the Software. | |
# | |
# THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR | |
# IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, | |
# FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE | |
# AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER | |
# LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, | |
# OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN | |
# THE SOFTWARE. | |
import freetype | |
class Bitmap(object): | |
""" | |
A 2D bitmap image represented as a list of byte values. Each byte indicates the state | |
of a single pixel in the bitmap. A value of 0 indicates that the pixel is `off` | |
and any other value indicates that it is `on`. | |
""" | |
def __init__(self, width, height, pixels=None): | |
self.width = width | |
self.height = height | |
self.pixels = pixels or bytearray(width * height) | |
def __repr__(self): | |
"""Return a string representation of the bitmap's pixels.""" | |
rows = '' | |
for y in range(self.height): | |
for x in range(self.width): | |
rows += '#' if self.pixels[y * self.width + x] else '.' | |
rows += '\n' | |
return rows | |
def bitblt(self, src, x, y): | |
"""Copy all pixels from `src` into this bitmap""" | |
srcpixel = 0 | |
dstpixel = y * self.width + x | |
row_offset = self.width - src.width | |
for sy in range(src.height): | |
for sx in range(src.width): | |
# Perform an OR operation on the destination pixel and the source pixel | |
# because glyph bitmaps may overlap if character kerning is applied, e.g. | |
# in the string "AVA", the "A" and "V" glyphs must be rendered with | |
# overlapping bounding boxes. | |
self.pixels[dstpixel] = self.pixels[dstpixel] or src.pixels[srcpixel] | |
srcpixel += 1 | |
dstpixel += 1 | |
dstpixel += row_offset | |
class Glyph(object): | |
def __init__(self, pixels, width, height, top, advance_width): | |
self.bitmap = Bitmap(width, height, pixels) | |
# The glyph bitmap's top-side bearing, i.e. the vertical distance from the | |
# baseline to the bitmap's top-most scanline. | |
self.top = top | |
# Ascent and descent determine how many pixels the glyph extends | |
# above or below the baseline. | |
self.descent = max(0, self.height - self.top) | |
self.ascent = max(0, max(self.top, self.height) - self.descent) | |
# The advance width determines where to place the next character horizontally, | |
# that is, how many pixels we move to the right to draw the next glyph. | |
self.advance_width = advance_width | |
@property | |
def width(self): | |
return self.bitmap.width | |
@property | |
def height(self): | |
return self.bitmap.height | |
@staticmethod | |
def from_glyphslot(slot): | |
"""Construct and return a Glyph object from a FreeType GlyphSlot.""" | |
pixels = Glyph.unpack_mono_bitmap(slot.bitmap) | |
width, height = slot.bitmap.width, slot.bitmap.rows | |
top = slot.bitmap_top | |
# The advance width is given in FreeType's 26.6 fixed point format, | |
# which means that the pixel values are multiples of 64. | |
advance_width = slot.advance.x / 64 | |
return Glyph(pixels, width, height, top, advance_width) | |
@staticmethod | |
def unpack_mono_bitmap(bitmap): | |
""" | |
Unpack a freetype FT_LOAD_TARGET_MONO glyph bitmap into a bytearray where each | |
pixel is represented by a single byte. | |
""" | |
# Allocate a bytearray of sufficient size to hold the glyph bitmap. | |
data = bytearray(bitmap.rows * bitmap.width) | |
# Iterate over every byte in the glyph bitmap. Note that we're not | |
# iterating over every pixel in the resulting unpacked bitmap -- | |
# we're iterating over the packed bytes in the input bitmap. | |
for y in range(bitmap.rows): | |
for byte_index in range(bitmap.pitch): | |
# Read the byte that contains the packed pixel data. | |
byte_value = bitmap.buffer[y * bitmap.pitch + byte_index] | |
# We've processed this many bits (=pixels) so far. This determines | |
# where we'll read the next batch of pixels from. | |
num_bits_done = byte_index * 8 | |
# Pre-compute where to write the pixels that we're going | |
# to unpack from the current byte in the glyph bitmap. | |
rowstart = y * bitmap.width + byte_index * 8 | |
# Iterate over every bit (=pixel) that's still a part of the | |
# output bitmap. Sometimes we're only unpacking a fraction of a byte | |
# because glyphs may not always fit on a byte boundary. So we make sure | |
# to stop if we unpack past the current row of pixels. | |
for bit_index in range(min(8, bitmap.width - num_bits_done)): | |
# Unpack the next pixel from the current glyph byte. | |
bit = byte_value & (1 << (7 - bit_index)) | |
# Write the pixel to the output bytearray. We ensure that `off` | |
# pixels have a value of 0 and `on` pixels have a value of 1. | |
data[rowstart + bit_index] = 1 if bit else 0 | |
return data | |
class Font(object): | |
def __init__(self, filename, size): | |
self.face = freetype.Face(filename) | |
self.face.set_pixel_sizes(0, size) | |
def glyph_for_character(self, char): | |
# Let FreeType load the glyph for the given character and tell it to render | |
# a monochromatic bitmap representation. | |
self.face.load_char(char, freetype.FT_LOAD_RENDER | freetype.FT_LOAD_TARGET_MONO) | |
return Glyph.from_glyphslot(self.face.glyph) | |
def render_character(self, char): | |
glyph = self.glyph_for_character(char) | |
return glyph.bitmap | |
def kerning_offset(self, previous_char, char): | |
""" | |
Return the horizontal kerning offset in pixels when rendering `char` | |
after `previous_char`. | |
Use the resulting offset to adjust the glyph's drawing position to | |
reduces extra diagonal whitespace, for example in the string "AV" the | |
bitmaps for "A" and "V" may overlap slightly with some fonts. In this | |
case the glyph for "V" has a negative horizontal kerning offset as it is | |
moved slightly towards the "A". | |
""" | |
kerning = self.face.get_kerning(previous_char, char) | |
# The kerning offset is given in FreeType's 26.6 fixed point format, | |
# which means that the pixel values are multiples of 64. | |
return kerning.x / 64 | |
def text_dimensions(self, text): | |
"""Return (width, height, baseline) of `text` rendered in the current font.""" | |
width = 0 | |
max_ascent = 0 | |
max_descent = 0 | |
previous_char = None | |
# For each character in the text string we get the glyph | |
# and update the overall dimensions of the resulting bitmap. | |
for char in text: | |
glyph = self.glyph_for_character(char) | |
max_ascent = max(max_ascent, glyph.ascent) | |
max_descent = max(max_descent, glyph.descent) | |
kerning_x = self.kerning_offset(previous_char, char) | |
# With kerning, the advance width may be less than the width of the glyph's bitmap. | |
# Make sure we compute the total width so that all of the glyph's pixels | |
# fit into the returned dimensions. | |
width += max(glyph.advance_width + kerning_x, glyph.width + kerning_x) | |
previous_char = char | |
height = max_ascent + max_descent | |
return (width, height, max_descent) | |
def render_text(self, text, width=None, height=None, baseline=None): | |
""" | |
Render the given `text` into a Bitmap and return it. | |
If `width`, `height`, and `baseline` are not specified they are computed using | |
the `text_dimensions' method. | |
""" | |
if None in (width, height, baseline): | |
width, height, baseline = self.text_dimensions(text) | |
x = 0 | |
previous_char = None | |
outbuffer = Bitmap(width, height) | |
for char in text: | |
glyph = self.glyph_for_character(char) | |
# Take kerning information into account before we render the | |
# glyph to the output bitmap. | |
x += self.kerning_offset(previous_char, char) | |
# The vertical drawing position should place the glyph | |
# on the baseline as intended. | |
y = height - glyph.ascent - baseline | |
outbuffer.bitblt(glyph.bitmap, x, y) | |
x += glyph.advance_width | |
previous_char = char | |
return outbuffer | |
if __name__ == '__main__': | |
# Be sure to place 'helvetica.ttf' (or any other ttf / otf font file) in the working directory. | |
fnt = Font('helvetica.ttf', 24) | |
# Single characters | |
ch = fnt.render_character('e') | |
print(repr(ch)) | |
# Multiple characters | |
txt = fnt.render_text('hello') | |
print(repr(txt)) | |
# Kerning | |
print(repr(fnt.render_text('AV Wa'))) | |
# Choosing the baseline correctly | |
print(repr(fnt.render_text('hello, world.'))) |
This solved my problem. Thank you very much!!
I've been using this to display text on an LED Dot Matrix and it works great. I added some additional utilities to center text in a given space and render multiple lines of text.
Here's a link to my gist of the updates: https://gist.github.com/joesolly/1345da1c0a1ff1aadc5f06d58a65c1bd
I also use this in my own little pet project on an RPi 3. I did some profiling, hoping to get a few more frames on my display. One of the findings is that render_text()
and text_dimensions()
both compute glyphs for all the characters in the given text. I moved the glyph computation a little earlier and passed them on to text_dimensions()
. On paper this almost doubles text rendering performance.
This is the particular change: tanuva/pyserdisp@c5cd07b
Ah nice, thanks for sharing @tanuva! :) I might've done something like that in the "production" version of this code that I used in my rpi project: https://github.com/dbader/piradio ... but it's been a while. In any case thanks for posting that tip here!
By adding a functools.lru_cache
to glyph_for_character
, I get a 10x speedup for a simple sentence like hello world, i miss you.
This is awesome! Thank you
Thanks for this it is really useful!
To make this work on Python 3 one needs to enforce integer division. In other words modify line 105 to:
and line 181 to: