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11
.gitattributes vendored
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@ -1,11 +0,0 @@
# SPDX-FileCopyrightText: 2024 Justin Myers for Adafruit Industries
#
# SPDX-License-Identifier: Unlicense
.py text eol=lf
.rst text eol=lf
.txt text eol=lf
.yaml text eol=lf
.toml text eol=lf
.license text eol=lf
.md text eol=lf

13
.github/PULL_REQUEST_TEMPLATE/adafruit_circuitpython_pr.md vendored
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@ -1,13 +0,0 @@
# SPDX-FileCopyrightText: 2021 Adafruit Industries
#
# SPDX-License-Identifier: MIT
Thank you for contributing! Before you submit a pull request, please read the following.
Make sure any changes you're submitting are in line with the CircuitPython Design Guide, available here: https://docs.circuitpython.org/en/latest/docs/design_guide.html
If your changes are to documentation, please verify that the documentation builds locally by following the steps found here: https://adafru.it/build-docs
Before submitting the pull request, make sure you've run Pylint and Black locally on your code. You can do this manually or using pre-commit. Instructions are available here: https://adafru.it/check-your-code
Please remove all of this text before submitting. Include an explanation or list of changes included in your PR, as well as, if applicable, a link to any related issues.

67
.github/workflows/build.yml vendored
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@ -10,5 +10,68 @@ jobs:
test: test:
runs-on: ubuntu-latest runs-on: ubuntu-latest
steps: steps:
- name: Run Build CI workflow - name: Dump GitHub context
uses: adafruit/workflows-circuitpython-libs/build@main env:
GITHUB_CONTEXT: ${{ toJson(github) }}
run: echo "$GITHUB_CONTEXT"
- name: Translate Repo Name For Build Tools filename_prefix
id: repo-name
run: |
echo ::set-output name=repo-name::$(
echo ${{ github.repository }} |
awk -F '\/' '{ print tolower($2) }' |
tr '_' '-'
)
- name: Set up Python 3.6
uses: actions/setup-python@v1
with:
python-version: 3.6
- name: Versions
run: |
python3 --version
- name: Checkout Current Repo
uses: actions/checkout@v1
with:
submodules: true
- name: Checkout tools repo
uses: actions/checkout@v2
with:
repository: adafruit/actions-ci-circuitpython-libs
path: actions-ci
- name: Install dependencies
# (e.g. - apt-get: gettext, etc; pip: circuitpython-build-tools, requirements.txt; etc.)
run: |
source actions-ci/install.sh
- name: Pip install pylint, Sphinx, pre-commit
run: |
pip install --force-reinstall pylint Sphinx sphinx-rtd-theme pre-commit
- name: Library version
run: git describe --dirty --always --tags
- name: Pre-commit hooks
run: |
pre-commit run --all-files
- name: Run tests
run: |
cd tests/ && python -m unittest discover
cd ..
- name: Build assets
run: circuitpython-build-bundles --filename_prefix ${{ steps.repo-name.outputs.repo-name }} --library_location .
- name: Archive bundles
uses: actions/upload-artifact@v2
with:
name: bundles
path: ${{ github.workspace }}/bundles/
- name: Build docs
working-directory: docs
run: sphinx-build -E -W -b html . _build/html
- name: Check For setup.py
id: need-pypi
run: |
echo ::set-output name=setup-py::$( find . -wholename './setup.py' )
- name: Build Python package
if: contains(steps.need-pypi.outputs.setup-py, 'setup.py')
run: |
pip install --upgrade setuptools wheel twine readme_renderer testresources
python setup.py sdist
python setup.py bdist_wheel --universal
twine check dist/*

19
.github/workflows/failure-help-text.yml vendored
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@ -1,19 +0,0 @@
# SPDX-FileCopyrightText: 2021 Scott Shawcroft for Adafruit Industries
#
# SPDX-License-Identifier: MIT
name: Failure help text
on:
workflow_run:
workflows: ["Build CI"]
types:
- completed
jobs:
post-help:
runs-on: ubuntu-latest
if: ${{ github.event.workflow_run.conclusion == 'failure' && github.event.workflow_run.event == 'pull_request' }}
steps:
- name: Post comment to help
uses: adafruit/circuitpython-action-library-ci-failed@v1

85
.github/workflows/release.yml vendored Normal file
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@ -0,0 +1,85 @@
# SPDX-FileCopyrightText: 2017 Scott Shawcroft, written for Adafruit Industries
#
# SPDX-License-Identifier: MIT
name: Release Actions
on:
release:
types: [published]
jobs:
upload-release-assets:
runs-on: ubuntu-latest
steps:
- name: Dump GitHub context
env:
GITHUB_CONTEXT: ${{ toJson(github) }}
run: echo "$GITHUB_CONTEXT"
- name: Translate Repo Name For Build Tools filename_prefix
id: repo-name
run: |
echo ::set-output name=repo-name::$(
echo ${{ github.repository }} |
awk -F '\/' '{ print tolower($2) }' |
tr '_' '-'
)
- name: Set up Python 3.6
uses: actions/setup-python@v1
with:
python-version: 3.6
- name: Versions
run: |
python3 --version
- name: Checkout Current Repo
uses: actions/checkout@v1
with:
submodules: true
- name: Checkout tools repo
uses: actions/checkout@v2
with:
repository: adafruit/actions-ci-circuitpython-libs
path: actions-ci
- name: Install deps
run: |
source actions-ci/install.sh
- name: Build assets
run: circuitpython-build-bundles --filename_prefix ${{ steps.repo-name.outputs.repo-name }} --library_location .
- name: Upload Release Assets
# the 'official' actions version does not yet support dynamically
# supplying asset names to upload. @csexton's version chosen based on
# discussion in the issue below, as its the simplest to implement and
# allows for selecting files with a pattern.
# https://github.com/actions/upload-release-asset/issues/4
#uses: actions/upload-release-asset@v1.0.1
uses: csexton/release-asset-action@master
with:
pattern: "bundles/*"
github-token: ${{ secrets.GITHUB_TOKEN }}
upload-pypi:
runs-on: ubuntu-latest
steps:
- uses: actions/checkout@v1
- name: Check For setup.py
id: need-pypi
run: |
echo ::set-output name=setup-py::$( find . -wholename './setup.py' )
- name: Set up Python
if: contains(steps.need-pypi.outputs.setup-py, 'setup.py')
uses: actions/setup-python@v1
with:
python-version: '3.x'
- name: Install dependencies
if: contains(steps.need-pypi.outputs.setup-py, 'setup.py')
run: |
python -m pip install --upgrade pip
pip install setuptools wheel twine
- name: Build and publish
if: contains(steps.need-pypi.outputs.setup-py, 'setup.py')
env:
TWINE_USERNAME: ${{ secrets.pypi_username }}
TWINE_PASSWORD: ${{ secrets.pypi_password }}
run: |
python setup.py sdist
twine upload dist/*

19
.github/workflows/release_gh.yml vendored
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@ -1,19 +0,0 @@
# SPDX-FileCopyrightText: 2017 Scott Shawcroft, written for Adafruit Industries
#
# SPDX-License-Identifier: MIT
name: GitHub Release Actions
on:
release:
types: [published]
jobs:
upload-release-assets:
runs-on: ubuntu-latest
steps:
- name: Run GitHub Release CI workflow
uses: adafruit/workflows-circuitpython-libs/release-gh@main
with:
github-token: ${{ secrets.GITHUB_TOKEN }}
upload-url: ${{ github.event.release.upload_url }}

19
.github/workflows/release_pypi.yml vendored
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@ -1,19 +0,0 @@
# SPDX-FileCopyrightText: 2017 Scott Shawcroft, written for Adafruit Industries
#
# SPDX-License-Identifier: MIT
name: PyPI Release Actions
on:
release:
types: [published]
jobs:
upload-release-assets:
runs-on: ubuntu-latest
steps:
- name: Run PyPI Release CI workflow
uses: adafruit/workflows-circuitpython-libs/release-pypi@main
with:
pypi-username: ${{ secrets.pypi_username }}
pypi-password: ${{ secrets.pypi_password }}

56
.gitignore vendored
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@ -1,48 +1,18 @@
# SPDX-FileCopyrightText: 2022 Kattni Rembor, written for Adafruit Industries # SPDX-FileCopyrightText: 2017 Scott Shawcroft, written for Adafruit Industries
# #
# SPDX-License-Identifier: MIT # SPDX-License-Identifier: Unlicense
# Do not include files and directories created by your personal work environment, such as the IDE
# you use, except for those already listed here. Pull requests including changes to this file will
# not be accepted.
# This .gitignore file contains rules for files generated by working with CircuitPython libraries,
# including building Sphinx, testing with pip, and creating a virual environment, as well as the
# MacOS and IDE-specific files generated by using MacOS in general, or the PyCharm or VSCode IDEs.
# If you find that there are files being generated on your machine that should not be included in
# your git commit, you should create a .gitignore_global file on your computer to include the
# files created by your personal setup. To do so, follow the two steps below.
# First, create a file called .gitignore_global somewhere convenient for you, and add rules for
# the files you want to exclude from git commits.
# Second, configure Git to use the exclude file for all Git repositories by running the
# following via commandline, replacing "path/to/your/" with the actual path to your newly created
# .gitignore_global file:
# git config --global core.excludesfile path/to/your/.gitignore_global
# CircuitPython-specific files
*.mpy *.mpy
# Python-specific files
__pycache__
*.pyc
# Sphinx build-specific files
_build
# This file results from running `pip -e install .` in a local repository
*.egg-info
# Virtual environment-specific files
.env
.venv
# MacOS-specific files
*.DS_Store
# IDE-specific files
.idea .idea
__pycache__
_build
*.pyc
.env
.python-version
build*/
bundles
*.DS_Store
.eggs
dist
**/*.egg-info
.vscode .vscode
*~

41
.pre-commit-config.yaml
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@ -1,21 +1,34 @@
# SPDX-FileCopyrightText: 2024 Justin Myers for Adafruit Industries # SPDX-FileCopyrightText: 2020 Diego Elio Pettenò
# #
# SPDX-License-Identifier: Unlicense # SPDX-License-Identifier: Unlicense
repos: repos:
- repo: https://github.com/pre-commit/pre-commit-hooks - repo: https://github.com/python/black
rev: v4.5.0 rev: 20.8b1
hooks: hooks:
- id: check-yaml - id: black
- id: end-of-file-fixer - repo: https://github.com/fsfe/reuse-tool
- id: trailing-whitespace rev: v0.12.1
- repo: https://github.com/astral-sh/ruff-pre-commit
rev: v0.3.4
hooks: hooks:
- id: ruff-format - id: reuse
- id: ruff - repo: https://github.com/pre-commit/pre-commit-hooks
args: ["--fix"] rev: v2.3.0
- repo: https://github.com/fsfe/reuse-tool
rev: v3.0.1
hooks: hooks:
- id: reuse - id: check-yaml
- id: end-of-file-fixer
- id: trailing-whitespace
- repo: https://github.com/pycqa/pylint
rev: pylint-2.7.1
hooks:
- id: pylint
name: pylint (library code)
types: [python]
exclude: "^(docs/|examples/|setup.py$)"
- repo: local
hooks:
- id: pylint_examples
name: pylint (examples code)
description: Run pylint rules on "examples/*.py" files
entry: /usr/bin/env bash -c
args: ['([[ ! -d "examples" ]] || for example in $(find . -path "./examples/*.py"); do pylint --disable=missing-docstring,invalid-name $example; done)']
language: system

436
.pylintrc Normal file
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@ -0,0 +1,436 @@
# SPDX-FileCopyrightText: 2017 Scott Shawcroft, written for Adafruit Industries
#
# SPDX-License-Identifier: Unlicense
[MASTER]
# A comma-separated list of package or module names from where C extensions may
# be loaded. Extensions are loading into the active Python interpreter and may
# run arbitrary code
extension-pkg-whitelist=
# Add files or directories to the ignore-list. They should be base names, not
# paths.
ignore=CVS
# Add files or directories matching the regex patterns to the ignore-list. The
# regex matches against base names, not paths.
ignore-patterns=
# Python code to execute, usually for sys.path manipulation such as
# pygtk.require().
#init-hook=
# Use multiple processes to speed up Pylint.
jobs=1
# List of plugins (as comma separated values of python modules names) to load,
# usually to register additional checkers.
load-plugins=
# Pickle collected data for later comparisons.
persistent=yes
# Specify a configuration file.
#rcfile=
# Allow loading of arbitrary C extensions. Extensions are imported into the
# active Python interpreter and may run arbitrary code.
unsafe-load-any-extension=no
[MESSAGES CONTROL]
# Only show warnings with the listed confidence levels. Leave empty to show
# all. Valid levels: HIGH, INFERENCE, INFERENCE_FAILURE, UNDEFINED
confidence=
# Disable the message, report, category or checker with the given id(s). You
# can either give multiple identifiers separated by comma (,) or put this
# option multiple times (only on the command line, not in the configuration
# file where it should appear only once).You can also use "--disable=all" to
# disable everything first and then reenable specific checks. For example, if
# you want to run only the similarities checker, you can use "--disable=all
# --enable=similarities". If you want to run only the classes checker, but have
# no Warning level messages displayed, use"--disable=all --enable=classes
# --disable=W"
# disable=import-error,print-statement,parameter-unpacking,unpacking-in-except,old-raise-syntax,backtick,long-suffix,old-ne-operator,old-octal-literal,import-star-module-level,raw-checker-failed,bad-inline-option,locally-disabled,locally-enabled,file-ignored,suppressed-message,useless-suppression,deprecated-pragma,apply-builtin,basestring-builtin,buffer-builtin,cmp-builtin,coerce-builtin,execfile-builtin,file-builtin,long-builtin,raw_input-builtin,reduce-builtin,standarderror-builtin,unicode-builtin,xrange-builtin,coerce-method,delslice-method,getslice-method,setslice-method,no-absolute-import,old-division,dict-iter-method,dict-view-method,next-method-called,metaclass-assignment,indexing-exception,raising-string,reload-builtin,oct-method,hex-method,nonzero-method,cmp-method,input-builtin,round-builtin,intern-builtin,unichr-builtin,map-builtin-not-iterating,zip-builtin-not-iterating,range-builtin-not-iterating,filter-builtin-not-iterating,using-cmp-argument,eq-without-hash,div-method,idiv-method,rdiv-method,exception-message-attribute,invalid-str-codec,sys-max-int,bad-python3-import,deprecated-string-function,deprecated-str-translate-call
disable=print-statement,parameter-unpacking,unpacking-in-except,old-raise-syntax,backtick,long-suffix,old-ne-operator,old-octal-literal,import-star-module-level,raw-checker-failed,bad-inline-option,locally-disabled,locally-enabled,file-ignored,suppressed-message,useless-suppression,deprecated-pragma,apply-builtin,basestring-builtin,buffer-builtin,cmp-builtin,coerce-builtin,execfile-builtin,file-builtin,long-builtin,raw_input-builtin,reduce-builtin,standarderror-builtin,unicode-builtin,xrange-builtin,coerce-method,delslice-method,getslice-method,setslice-method,no-absolute-import,old-division,dict-iter-method,dict-view-method,next-method-called,metaclass-assignment,indexing-exception,raising-string,reload-builtin,oct-method,hex-method,nonzero-method,cmp-method,input-builtin,round-builtin,intern-builtin,unichr-builtin,map-builtin-not-iterating,zip-builtin-not-iterating,range-builtin-not-iterating,filter-builtin-not-iterating,using-cmp-argument,eq-without-hash,div-method,idiv-method,rdiv-method,exception-message-attribute,invalid-str-codec,sys-max-int,bad-python3-import,deprecated-string-function,deprecated-str-translate-call,import-error,bad-continuation,pointless-string-statement
# Enable the message, report, category or checker with the given id(s). You can
# either give multiple identifier separated by comma (,) or put this option
# multiple time (only on the command line, not in the configuration file where
# it should appear only once). See also the "--disable" option for examples.
enable=
[REPORTS]
# Python expression which should return a note less than 10 (10 is the highest
# note). You have access to the variables errors warning, statement which
# respectively contain the number of errors / warnings messages and the total
# number of statements analyzed. This is used by the global evaluation report
# (RP0004).
evaluation=10.0 - ((float(5 * error + warning + refactor + convention) / statement) * 10)
# Template used to display messages. This is a python new-style format string
# used to format the message information. See doc for all details
#msg-template=
# Set the output format. Available formats are text, parseable, colorized, json
# and msvs (visual studio).You can also give a reporter class, eg
# mypackage.mymodule.MyReporterClass.
output-format=text
# Tells whether to display a full report or only the messages
reports=no
# Activate the evaluation score.
score=yes
[REFACTORING]
# Maximum number of nested blocks for function / method body
max-nested-blocks=5
[LOGGING]
# Logging modules to check that the string format arguments are in logging
# function parameter format
logging-modules=logging
[SPELLING]
# Spelling dictionary name. Available dictionaries: none. To make it working
# install python-enchant package.
spelling-dict=
# List of comma separated words that should not be checked.
spelling-ignore-words=
# A path to a file that contains private dictionary; one word per line.
spelling-private-dict-file=
# Tells whether to store unknown words to indicated private dictionary in
# --spelling-private-dict-file option instead of raising a message.
spelling-store-unknown-words=no
[MISCELLANEOUS]
# List of note tags to take in consideration, separated by a comma.
# notes=FIXME,XXX,TODO
notes=FIXME,XXX
[TYPECHECK]
# List of decorators that produce context managers, such as
# contextlib.contextmanager. Add to this list to register other decorators that
# produce valid context managers.
contextmanager-decorators=contextlib.contextmanager
# List of members which are set dynamically and missed by pylint inference
# system, and so shouldn't trigger E1101 when accessed. Python regular
# expressions are accepted.
generated-members=
# Tells whether missing members accessed in mixin class should be ignored. A
# mixin class is detected if its name ends with "mixin" (case insensitive).
ignore-mixin-members=yes
# This flag controls whether pylint should warn about no-member and similar
# checks whenever an opaque object is returned when inferring. The inference
# can return multiple potential results while evaluating a Python object, but
# some branches might not be evaluated, which results in partial inference. In
# that case, it might be useful to still emit no-member and other checks for
# the rest of the inferred objects.
ignore-on-opaque-inference=yes
# List of class names for which member attributes should not be checked (useful
# for classes with dynamically set attributes). This supports the use of
# qualified names.
ignored-classes=optparse.Values,thread._local,_thread._local
# List of module names for which member attributes should not be checked
# (useful for modules/projects where namespaces are manipulated during runtime
# and thus existing member attributes cannot be deduced by static analysis. It
# supports qualified module names, as well as Unix pattern matching.
ignored-modules=board
# Show a hint with possible names when a member name was not found. The aspect
# of finding the hint is based on edit distance.
missing-member-hint=yes
# The minimum edit distance a name should have in order to be considered a
# similar match for a missing member name.
missing-member-hint-distance=1
# The total number of similar names that should be taken in consideration when
# showing a hint for a missing member.
missing-member-max-choices=1
[VARIABLES]
# List of additional names supposed to be defined in builtins. Remember that
# you should avoid to define new builtins when possible.
additional-builtins=
# Tells whether unused global variables should be treated as a violation.
allow-global-unused-variables=yes
# List of strings which can identify a callback function by name. A callback
# name must start or end with one of those strings.
callbacks=cb_,_cb
# A regular expression matching the name of dummy variables (i.e. expectedly
# not used).
dummy-variables-rgx=_+$|(_[a-zA-Z0-9_]*[a-zA-Z0-9]+?$)|dummy|^ignored_|^unused_
# Argument names that match this expression will be ignored. Default to name
# with leading underscore
ignored-argument-names=_.*|^ignored_|^unused_
# Tells whether we should check for unused import in __init__ files.
init-import=no
# List of qualified module names which can have objects that can redefine
# builtins.
redefining-builtins-modules=six.moves,future.builtins
[FORMAT]
# Expected format of line ending, e.g. empty (any line ending), LF or CRLF.
# expected-line-ending-format=
expected-line-ending-format=LF
# Regexp for a line that is allowed to be longer than the limit.
ignore-long-lines=^\s*(# )?<?https?://\S+>?$
# Number of spaces of indent required inside a hanging or continued line.
indent-after-paren=4
# String used as indentation unit. This is usually " " (4 spaces) or "\t" (1
# tab).
indent-string=' '
# Maximum number of characters on a single line.
max-line-length=100
# Maximum number of lines in a module
max-module-lines=1000
# List of optional constructs for which whitespace checking is disabled. `dict-
# separator` is used to allow tabulation in dicts, etc.: {1 : 1,\n222: 2}.
# `trailing-comma` allows a space between comma and closing bracket: (a, ).
# `empty-line` allows space-only lines.
no-space-check=trailing-comma,dict-separator
# Allow the body of a class to be on the same line as the declaration if body
# contains single statement.
single-line-class-stmt=no
# Allow the body of an if to be on the same line as the test if there is no
# else.
single-line-if-stmt=no
[SIMILARITIES]
# Ignore comments when computing similarities.
ignore-comments=yes
# Ignore docstrings when computing similarities.
ignore-docstrings=yes
# Ignore imports when computing similarities.
ignore-imports=yes
# Minimum lines number of a similarity.
min-similarity-lines=12
[BASIC]
# Naming hint for argument names
argument-name-hint=(([a-z][a-z0-9_]{2,30})|(_[a-z0-9_]*))$
# Regular expression matching correct argument names
argument-rgx=(([a-z][a-z0-9_]{2,30})|(_[a-z0-9_]*))$
# Naming hint for attribute names
attr-name-hint=(([a-z][a-z0-9_]{2,30})|(_[a-z0-9_]*))$
# Regular expression matching correct attribute names
attr-rgx=(([a-z][a-z0-9_]{2,30})|(_[a-z0-9_]*))$
# Bad variable names which should always be refused, separated by a comma
bad-names=foo,bar,baz,toto,tutu,tata
# Naming hint for class attribute names
class-attribute-name-hint=([A-Za-z_][A-Za-z0-9_]{2,30}|(__.*__))$
# Regular expression matching correct class attribute names
class-attribute-rgx=([A-Za-z_][A-Za-z0-9_]{2,30}|(__.*__))$
# Naming hint for class names
# class-name-hint=[A-Z_][a-zA-Z0-9]+$
class-name-hint=[A-Z_][a-zA-Z0-9_]+$
# Regular expression matching correct class names
# class-rgx=[A-Z_][a-zA-Z0-9]+$
class-rgx=[A-Z_][a-zA-Z0-9_]+$
# Naming hint for constant names
const-name-hint=(([A-Z_][A-Z0-9_]*)|(__.*__))$
# Regular expression matching correct constant names
const-rgx=(([A-Z_][A-Z0-9_]*)|(__.*__))$
# Minimum line length for functions/classes that require docstrings, shorter
# ones are exempt.
docstring-min-length=-1
# Naming hint for function names
function-name-hint=(([a-z][a-z0-9_]{2,30})|(_[a-z0-9_]*))$
# Regular expression matching correct function names
function-rgx=(([a-z][a-z0-9_]{2,30})|(_[a-z0-9_]*))$
# Good variable names which should always be accepted, separated by a comma
# good-names=i,j,k,ex,Run,_
good-names=r,g,b,w,i,j,k,n,x,y,z,ex,ok,Run,_
# Include a hint for the correct naming format with invalid-name
include-naming-hint=no
# Naming hint for inline iteration names
inlinevar-name-hint=[A-Za-z_][A-Za-z0-9_]*$
# Regular expression matching correct inline iteration names
inlinevar-rgx=[A-Za-z_][A-Za-z0-9_]*$
# Naming hint for method names
method-name-hint=(([a-z][a-z0-9_]{2,30})|(_[a-z0-9_]*))$
# Regular expression matching correct method names
method-rgx=(([a-z][a-z0-9_]{2,30})|(_[a-z0-9_]*))$
# Naming hint for module names
module-name-hint=(([a-z_][a-z0-9_]*)|([A-Z][a-zA-Z0-9]+))$
# Regular expression matching correct module names
module-rgx=(([a-z_][a-z0-9_]*)|([A-Z][a-zA-Z0-9]+))$
# Colon-delimited sets of names that determine each other's naming style when
# the name regexes allow several styles.
name-group=
# Regular expression which should only match function or class names that do
# not require a docstring.
no-docstring-rgx=^_
# List of decorators that produce properties, such as abc.abstractproperty. Add
# to this list to register other decorators that produce valid properties.
property-classes=abc.abstractproperty
# Naming hint for variable names
variable-name-hint=(([a-z][a-z0-9_]{2,30})|(_[a-z0-9_]*))$
# Regular expression matching correct variable names
variable-rgx=(([a-z][a-z0-9_]{2,30})|(_[a-z0-9_]*))$
[IMPORTS]
# Allow wildcard imports from modules that define __all__.
allow-wildcard-with-all=no
# Analyse import fallback blocks. This can be used to support both Python 2 and
# 3 compatible code, which means that the block might have code that exists
# only in one or another interpreter, leading to false positives when analysed.
analyse-fallback-blocks=no
# Deprecated modules which should not be used, separated by a comma
deprecated-modules=optparse,tkinter.tix
# Create a graph of external dependencies in the given file (report RP0402 must
# not be disabled)
ext-import-graph=
# Create a graph of every (i.e. internal and external) dependencies in the
# given file (report RP0402 must not be disabled)
import-graph=
# Create a graph of internal dependencies in the given file (report RP0402 must
# not be disabled)
int-import-graph=
# Force import order to recognize a module as part of the standard
# compatibility libraries.
known-standard-library=
# Force import order to recognize a module as part of a third party library.
known-third-party=enchant
[CLASSES]
# List of method names used to declare (i.e. assign) instance attributes.
defining-attr-methods=__init__,__new__,setUp
# List of member names, which should be excluded from the protected access
# warning.
exclude-protected=_asdict,_fields,_replace,_source,_make
# List of valid names for the first argument in a class method.
valid-classmethod-first-arg=cls
# List of valid names for the first argument in a metaclass class method.
valid-metaclass-classmethod-first-arg=mcs
[DESIGN]
# Maximum number of arguments for function / method
max-args=5
# Maximum number of attributes for a class (see R0902).
# max-attributes=7
max-attributes=11
# Maximum number of boolean expressions in a if statement
max-bool-expr=5
# Maximum number of branch for function / method body
max-branches=12
# Maximum number of locals for function / method body
max-locals=15
# Maximum number of parents for a class (see R0901).
max-parents=7
# Maximum number of public methods for a class (see R0904).
max-public-methods=20
# Maximum number of return / yield for function / method body
max-returns=6
# Maximum number of statements in function / method body
max-statements=50
# Minimum number of public methods for a class (see R0903).
min-public-methods=1
[EXCEPTIONS]
# Exceptions that will emit a warning when being caught. Defaults to
# "Exception"
overgeneral-exceptions=Exception

22
.readthedocs.yaml
View file

@ -1,22 +0,0 @@
# SPDX-FileCopyrightText: 2021 ladyada for Adafruit Industries
#
# SPDX-License-Identifier: Unlicense
# Read the Docs configuration file
# See https://docs.readthedocs.io/en/stable/config-file/v2.html for details
# Required
version: 2
sphinx:
configuration: docs/conf.py
build:
os: ubuntu-lts-latest
tools:
python: "3"
python:
install:
- requirements: docs/requirements.txt
- requirements: requirements.txt

7
.readthedocs.yml Normal file
View file

@ -0,0 +1,7 @@
# SPDX-FileCopyrightText: 2017 Scott Shawcroft, written for Adafruit Industries
#
# SPDX-License-Identifier: Unlicense
python:
version: 3
requirements_file: requirements.txt

11
LICENSES/BSD-3-Clause.txt
View file

@ -1,11 +0,0 @@
Copyright (c) <year> <owner>.
Redistribution and use in source and binary forms, with or without modification, are permitted provided that the following conditions are met:
1. Redistributions of source code must retain the above copyright notice, this list of conditions and the following disclaimer.
2. Redistributions in binary form must reproduce the above copyright notice, this list of conditions and the following disclaimer in the documentation and/or other materials provided with the distribution.
3. Neither the name of the copyright holder nor the names of its contributors may be used to endorse or promote products derived from this software without specific prior written permission.
THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT HOLDER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.

30
README.rst
View file

@ -2,10 +2,10 @@ Introduction
============ ============
.. image:: https://readthedocs.org/projects/adafruit-circuitpython-pioasm/badge/?version=latest .. image:: https://readthedocs.org/projects/adafruit-circuitpython-pioasm/badge/?version=latest
:target: https://docs.circuitpython.org/projects/pioasm/en/latest/ :target: https://circuitpython.readthedocs.io/projects/pioasm/en/latest/
:alt: Documentation Status :alt: Documentation Status
.. image:: https://raw.githubusercontent.com/adafruit/Adafruit_CircuitPython_Bundle/main/badges/adafruit_discord.svg .. image:: https://img.shields.io/discord/327254708534116352.svg
:target: https://adafru.it/discord :target: https://adafru.it/discord
:alt: Discord :alt: Discord
@ -13,9 +13,9 @@ Introduction
:target: https://github.com/adafruit/Adafruit_CircuitPython_PIOASM/actions :target: https://github.com/adafruit/Adafruit_CircuitPython_PIOASM/actions
:alt: Build Status :alt: Build Status
.. image:: https://img.shields.io/endpoint?url=https://raw.githubusercontent.com/astral-sh/ruff/main/assets/badge/v2.json .. image:: https://img.shields.io/badge/code%20style-black-000000.svg
:target: https://github.com/astral-sh/ruff :target: https://github.com/psf/black
:alt: Code Style: Ruff :alt: Code Style: Black
Simple assembler to convert pioasm to bytes Simple assembler to convert pioasm to bytes
@ -32,6 +32,8 @@ This is easily achieved by downloading
Installing from PyPI Installing from PyPI
===================== =====================
.. note:: This library is not available on PyPI yet. Install documentation is included
as a standard element. Stay tuned for PyPI availability!
On supported GNU/Linux systems like the Raspberry Pi, you can install the driver locally `from On supported GNU/Linux systems like the Raspberry Pi, you can install the driver locally `from
PyPI <https://pypi.org/project/adafruit-circuitpython-pioasm/>`_. To install for current user: PyPI <https://pypi.org/project/adafruit-circuitpython-pioasm/>`_. To install for current user:
@ -51,8 +53,8 @@ To install in a virtual environment in your current project:
.. code-block:: shell .. code-block:: shell
mkdir project-name && cd project-name mkdir project-name && cd project-name
python3 -m venv .venv python3 -m venv .env
source .venv/bin/activate source .env/bin/activate
pip3 install adafruit-circuitpython-pioasm pip3 install adafruit-circuitpython-pioasm
Usage Example Usage Example
@ -75,7 +77,7 @@ Usage Example
sm = rp2pio.StateMachine( sm = rp2pio.StateMachine(
assembled, assembled,
frequency=4000, frequency=80,
init=adafruit_pioasm.assemble("set pindirs 1"), init=adafruit_pioasm.assemble("set pindirs 1"),
first_set_pin=board.LED, first_set_pin=board.LED,
) )
@ -83,16 +85,14 @@ Usage Example
time.sleep(120) time.sleep(120)
Documentation
=============
API documentation for this library can be found on `Read the Docs <https://docs.circuitpython.org/projects/pioasm/en/latest/>`_.
For information on building library documentation, please check out `this guide <https://learn.adafruit.com/creating-and-sharing-a-circuitpython-library/sharing-our-docs-on-readthedocs#sphinx-5-1>`_.
Contributing Contributing
============ ============
Contributions are welcome! Please read our `Code of Conduct Contributions are welcome! Please read our `Code of Conduct
<https://github.com/adafruit/Adafruit_CircuitPython_PIOASM/blob/master/CODE_OF_CONDUCT.md>`_ <https://github.com/adafruit/Adafruit_CircuitPython_PIOASM/blob/master/CODE_OF_CONDUCT.md>`_
before contributing to help this project stay welcoming. before contributing to help this project stay welcoming.
Documentation
=============
For information on building library documentation, please check out `this guide <https://learn.adafruit.com/creating-and-sharing-a-circuitpython-library/sharing-our-docs-on-readthedocs#sphinx-5-1>`_.

662
adafruit_pioasm.py
View file

@ -11,549 +11,167 @@ Simple assembler to convert pioasm to bytes
* Author(s): Scott Shawcroft * Author(s): Scott Shawcroft
""" """
try:
from typing import Any, List, Sequence
except ImportError:
pass
import array import array
import re import re
splitter = re.compile(r",\s*|\s+(?:,\s*)?").split splitter = re.compile(r",\s*|\s+(?:,\s*)?").split
mov_splitter = re.compile("!|~|::").split
__version__ = "0.0.0+auto.0" __version__ = "0.0.0-auto.0"
__repo__ = "https://github.com/adafruit/Adafruit_CircuitPython_PIOASM.git" __repo__ = "https://github.com/adafruit/Adafruit_CircuitPython_PIOASM.git"
CONDITIONS = ["", "!x", "x--", "!y", "y--", "x!=y", "pin", "!osre"] CONDITIONS = ["", "!x", "x--", "!y", "y--", "x!=y", "pin", "!osre"]
IN_SOURCES = ["pins", "x", "y", "null", None, None, "isr", "osr"] IN_SOURCES = ["pins", "x", "y", "null", None, None, "isr", "osr"]
OUT_DESTINATIONS = ["pins", "x", "y", "null", "pindirs", "pc", "isr", "exec"] OUT_DESTINATIONS = ["pins", "x", "y", "null", "pindirs", "pc", "isr", "exec"]
WAIT_SOURCES = ["gpio", "pin", "irq", None] WAIT_SOURCES = ["gpio", "pin", "irq", None]
MOV_DESTINATIONS_V0 = ["pins", "x", "y", None, "exec", "pc", "isr", "osr"] MOV_DESTINATIONS = ["pins", "x", "y", None, "exec", "pc", "isr", "osr"]
MOV_DESTINATIONS_V1 = ["pins", "x", "y", "pindirs", "exec", "pc", "isr", "osr"]
MOV_SOURCES = ["pins", "x", "y", "null", None, "status", "isr", "osr"] MOV_SOURCES = ["pins", "x", "y", "null", None, "status", "isr", "osr"]
MOV_OPS = [None, "~", "::", None] MOV_OPS = [None, "~", "::", None]
SET_DESTINATIONS = ["pins", "x", "y", None, "pindirs", None, None, None] SET_DESTINATIONS = ["pins", "x", "y", None, "pindirs", None, None, None]
FIFO_TYPES = {
"auto": 0,
"txrx": 0,
"tx": 0,
"rx": 0,
"txput": 1,
"txget": 1,
"putget": 1,
}
class Program: def assemble(text_program):
"""Encapsulates a program's instruction stream and configuration flags """Converts pioasm text to encoded instruction bytes"""
# pylint: disable=too-many-branches,too-many-statements,too-many-locals
Example:: assembled = []
program_name = None
program = adafruit_pioasm.Program(...) labels = {}
state_machine = rp2pio.StateMachine(program.assembled, ..., **program.pio_kwargs) instructions = []
sideset_count = 0
""" for line in text_program.split("\n"):
line = line.strip()
assembled: array.array if not line:
"""The assembled PIO program instructions""" continue
public_labels: dict[str, int] if ";" in line:
"""The offset of any labels declared public"""
pio_kwargs: dict[str, Any]
"""Settings from assembler directives to pass to the StateMachine constructor"""
def __init__(self, text_program: str, *, build_debuginfo: bool = False) -> None:
"""Converts pioasm text to encoded instruction bytes"""
assembled: List[int] = []
program_name = None
labels = {}
public_labels = {}
linemap = []
instructions: List[str] = []
sideset_count = 0
sideset_enable = 0
sideset_pindirs = False
wrap = None
wrap_target = None
offset = -1
pio_version = 0
fifo_type = "auto"
mov_status_type = None
mov_status_n = None
in_count = None
in_shift_right = None
auto_push = None
push_threshold = None
out_count = None
out_shift_right = None
auto_pull = None
pull_threshold = None
set_count = None
def require_before_instruction():
if len(instructions) != 0:
raise RuntimeError(f"{words[0]} must be before first instruction")
def require_version(required_version, instruction):
if pio_version < required_version:
raise RuntimeError(f"{instruction} requires .pio_version {required_version}")
def int_in_range(arg, low, high, what, radix=0):
result = int(arg, radix)
if low <= result < high:
return result
raise RuntimeError(f"{what} must be at least {low} and less than {high}, got {result}")
def parse_rxfifo_brackets(arg, fifo_dir):
require_version(1, line)
if fifo_type != "putget" and fifo_type != fifo_dir:
raise RuntimeError(
f"FIFO must be configured for '{fifo_dir}' or 'putget' for {line}"
)
if arg.endswith("[y]"):
return 0b1000
return int_in_range(arg[7:-1], 0, 8, "rxfifo index")
for i, line in enumerate(text_program.split("\n")):
line = line.split(";")[0].strip() line = line.split(";")[0].strip()
if not line: if line.startswith(".program"):
continue if program_name:
words = line.split() raise RuntimeError("Multiple programs not supported")
if line.startswith(".program"): program_name = line.split()[1]
if program_name: elif line.startswith(".wrap_target"):
raise RuntimeError("Multiple programs not supported") if len(instructions) > 0:
program_name = line.split()[1] raise RuntimeError("wrap_target not supported")
elif line.startswith(".pio_version"): elif line.startswith(".wrap"):
require_before_instruction() pass
pio_version = int_in_range(words[1], 0, 2, ".pio_version") elif line.startswith(".side_set"):
elif line.startswith(".origin"): sideset_count = int(line.split()[1])
require_before_instruction() elif line.endswith(":"):
offset = int_in_range(words[1], 0, 32, ".origin") label = line[:-1]
elif line.startswith(".wrap_target"): if label in labels:
wrap_target = len(instructions) raise SyntaxError(f"Duplicate label {repr(label)}")
elif line.startswith(".wrap"): labels[label] = len(instructions)
if len(instructions) == 0: elif line:
raise RuntimeError("Cannot have .wrap as first instruction") # Only add as an instruction if the line isn't empty
wrap = len(instructions) - 1 instructions.append(line)
elif line.startswith(".side_set"):
sideset_count = int(line.split()[1], 0)
sideset_enable = "opt" in line
sideset_pindirs = "pindirs" in line
elif line.startswith(".fifo"):
require_before_instruction()
fifo_type = line.split()[1]
required_version = FIFO_TYPES.get(fifo_type)
if required_version is None:
raise RuntimeError(f"Invalid fifo type {fifo_type}")
require_version(required_version, line)
elif line.startswith(".mov_status"):
require_before_instruction()
required_version = 0
mov_status_n = 0
mov_status_type = words[1]
if words[1] in {"txfifo", "rxfifo"}:
if words[2] != "<":
raise RuntimeError(f"Invalid {line}")
mov_status_n = int_in_range(words[3], 0, 32, words[1])
elif words[1] == "irq":
required_version = 1
idx = 2
if words[idx] == "next":
mov_status_n = 0x10
idx += 1
elif words[idx] == "prev":
mov_status_n = 0x8
idx += 1
else:
mov_status_n = 0
if words[idx] != "set":
raise RuntimeError(f"Invalid {line})")
mov_status_n |= int_in_range(words[idx + 1], 0, 8, "mov_status irq")
require_version(required_version, line)
elif words[0] == ".out":
require_before_instruction()
out_count = int_in_range(words[1], 1, 33, ".out count")
auto_pull = False
idx = 2 max_delay = 2 ** (5 - sideset_count) - 1
if idx < len(words) and words[idx] == "left": assembled = []
out_shift_right = False for instruction in instructions:
idx += 1 # print(instruction)
elif idx < len(words) and words[idx] == "right": instruction = splitter(instruction.strip())
out_shift_right = True delay = 0
idx += 1 if instruction[-1].endswith("]"): # Delay
delay = int(instruction[-1].strip("[]"))
if delay > max_delay:
raise RuntimeError("Delay too long:", delay)
instruction.pop()
if len(instruction) > 1 and instruction[-2] == "side":
sideset_value = int(instruction[-1])
if sideset_value > 2 ** sideset_count:
raise RuntimeError("Sideset value too large")
delay |= sideset_value << (5 - sideset_count)
instruction.pop()
instruction.pop()
if idx < len(words) and words[idx] == "auto": if instruction[0] == "nop":
auto_pull = True # mov delay y op y
idx += 1 assembled.append(0b101_00000_010_00_010)
elif instruction[0] == "jmp":
if idx < len(words): # instr delay cnd addr
pull_threshold = int_in_range(words[idx], 1, 33, ".out threshold") assembled.append(0b000_00000_000_00000)
idx += 1 target = instruction[-1]
if target[:1] in "0123456789":
elif words[0] == ".in": assembled[-1] |= int(target)
require_before_instruction() elif instruction[-1] in labels:
in_count = int_in_range(words[1], 32 if pio_version == 0 else 1, 33, ".in count") assembled[-1] |= labels[target]
auto_push = False
idx = 2
if idx < len(words) and words[idx] == "left":
in_shift_right = False
idx += 1
elif idx < len(words) and words[idx] == "right":
in_shift_right = True
idx += 1
if idx < len(words) and words[idx] == "auto":
auto_push = True
idx += 1
if idx < len(words):
push_threshold = int_in_range(words[idx], 1, 33, ".in threshold")
idx += 1
elif words[0] == ".set":
require_before_instruction()
set_count = int_in_range(words[1], 5 if pio_version == 0 else 1, 6, ".set count")
elif line.endswith(":"):
label = line[:-1]
if line.startswith("public "):
label = label[7:]
public_labels[label] = len(instructions)
if label in labels:
raise SyntaxError(f"Duplicate label {repr(label)}")
labels[label] = len(instructions)
elif line:
# Only add as an instruction if the line isn't empty
instructions.append(line)
linemap.append(i)
mov_destinations: Sequence[str | None]
if pio_version >= 1:
mov_destinations = MOV_DESTINATIONS_V1
else:
mov_destinations = MOV_DESTINATIONS_V0
max_delay = 2 ** (5 - sideset_count - sideset_enable) - 1
assembled = []
for line in instructions:
instruction = splitter(line.strip())
delay = 0
if (
len(instruction) > 1
and instruction[-1].startswith("[")
and instruction[-1].endswith("]")
): # Delay
delay = int(instruction[-1].strip("[]"), 0)
if delay < 0:
raise RuntimeError("Delay negative:", delay)
if delay > max_delay:
raise RuntimeError("Delay too long:", delay)
instruction.pop()
if len(instruction) > 2 and instruction[-2] == "side":
if sideset_count == 0:
raise RuntimeError("No side_set count set")
sideset_value = int(instruction[-1], 0)
if sideset_value >= 2**sideset_count:
raise RuntimeError("Sideset value too large")
delay |= sideset_value << (5 - sideset_count - sideset_enable)
delay |= sideset_enable << 4
instruction.pop()
instruction.pop()
if instruction[0] == "nop":
# mov delay y op y
assembled.append(0b101_00000_010_00_010)
elif instruction[0] == "jmp":
# instr delay cnd addr
assembled.append(0b000_00000_000_00000)
target = instruction[-1]
if target[:1] in "0123456789":
assembled[-1] |= int(target, 0)
elif instruction[-1] in labels:
assembled[-1] |= labels[target]
else:
raise SyntaxError(f"Invalid jmp target {repr(target)}")
if len(instruction) > 2:
try:
assembled[-1] |= CONDITIONS.index(instruction[1]) << 5
except ValueError as exc:
raise ValueError(f"Invalid jmp condition '{instruction[1]}'") from exc
elif instruction[0] == "wait":
# instr delay p sr index
assembled.append(0b001_00000_0_00_00000)
polarity = int(instruction[1], 0)
source = instruction[2]
if not 0 <= polarity <= 1:
raise RuntimeError("Invalid polarity")
assembled[-1] |= polarity << 7
if instruction[2] == "jmppin":
require_version(1, "wait jmppin")
num = 0
if len(instruction) > 3:
if len(instruction) < 5 or instruction[3] != "+":
raise RuntimeError("invalid wait jmppin")
num = int_in_range(instruction[4], 0, 4, "wait jmppin offset")
assembled[-1] |= num
assembled[-1] |= 0b11 << 5 # JMPPIN wait source
else:
idx = 3
assembled[-1] |= WAIT_SOURCES.index(instruction[2]) << 5
if source == "irq":
if instruction[idx] == "next":
require_version(1, "wait irq next")
assembled[-1] |= 0b11000
idx += 1
elif instruction[idx] == "prev":
require_version(1, "wait irq prev")
assembled[-1] |= 0b01000
idx += 1
limit = 8
# The flag index is decoded in the same way as the IRQ
# index field, decoding down from the two MSBs
if instruction[-1] == "rel":
if assembled[-1] & 0b11000:
raise RuntimeError("cannot use next/prev with rel")
assembled[-1] |= 0b10000
else:
limit = 32
num = int_in_range(instruction[idx], 0, limit, "wait {instruction[2]}")
assembled[-1] |= num
elif instruction[0] == "in":
# instr delay src count
assembled.append(0b010_00000_000_00000)
source = instruction[1]
try:
assembled[-1] |= IN_SOURCES.index(source) << 5
except ValueError as exc:
raise ValueError(f"Invalid in source '{source}'") from exc
count = int(instruction[-1], 0)
if not 1 <= count <= 32:
raise RuntimeError("Count out of range")
assembled[-1] |= count & 0x1F # 32 is 00000 so we mask the top
elif instruction[0] == "out":
# instr delay dst count
assembled.append(0b011_00000_000_00000)
destination = instruction[1]
try:
assembled[-1] |= OUT_DESTINATIONS.index(destination) << 5
except ValueError as exc:
raise ValueError(f"Invalid out destination '{destination}'") from exc
count = int(instruction[-1], 0)
if not 1 <= count <= 32:
raise RuntimeError("Count out of range")
assembled[-1] |= count & 0x1F # 32 is 00000 so we mask the top
elif instruction[0] == "push" or instruction[0] == "pull":
# instr delay d i b zero
assembled.append(0b100_00000_0_0_0_00000)
if instruction[0] == "pull":
assembled[-1] |= 0x80
if instruction[-1] == "block" or not instruction[-1].endswith("block"):
assembled[-1] |= 0x20
if len(instruction) > 1 and instruction[1] in {"ifempty", "iffull"}:
assembled[-1] |= 0x40
elif instruction[0] == "mov":
# instr delay dst op src
if instruction[1].startswith("rxfifo["): # mov rxfifo[], isr
assembled.append(0b100_00000_0001_1_000)
if instruction[2] != "isr":
raise ValueError("mov rxfifo[] source must be isr")
assembled[-1] ^= parse_rxfifo_brackets(instruction[1], "txput")
elif instruction[2].startswith("rxfifo["): # mov osr, rxfifo[]
assembled.append(0b100_00000_1001_1_000)
if instruction[1] != "osr":
raise ValueError("mov ,rxfifo[] target must be osr")
assembled[-1] ^= parse_rxfifo_brackets(instruction[2], "txget")
else:
assembled.append(0b101_00000_000_00_000)
assembled[-1] |= mov_destinations.index(instruction[1]) << 5
source = instruction[-1]
source_split = mov_splitter(source)
if len(source_split) == 1:
try:
assembled[-1] |= MOV_SOURCES.index(source)
except ValueError as exc:
raise ValueError(f"Invalid mov source '{source}'") from exc
else:
assembled[-1] |= MOV_SOURCES.index(source_split[1])
if source[:1] == "!":
assembled[-1] |= 0x08
elif source[:1] == "~":
assembled[-1] |= 0x08
elif source[:2] == "::":
assembled[-1] |= 0x10
else:
raise RuntimeError("Invalid mov operator:", source[:1])
if len(instruction) > 3:
assembled[-1] |= MOV_OPS.index(instruction[-2]) << 3
elif instruction[0] == "irq":
# instr delay z c w tp/idx
assembled.append(0b110_00000_0_0_0_00000)
irq_type = 0
idx = 1
if instruction[idx] == "wait":
assembled[-1] |= 0x20
idx += 1
elif instruction[idx] == "clear":
assembled[-1] |= 0x40
idx += 1
if instruction[idx] == "prev":
irq_type = 1
require_version(1, "irq prev")
idx += 1
elif instruction[idx] == "next":
irq_type = 3
require_version(1, "irq next")
idx += 1
if instruction[-1] == "rel":
if irq_type != 0:
raise RuntimeError("cannot use next/prev with rel")
irq_type = 2
instruction.pop()
assembled[-1] |= irq_type << 3
num = int_in_range(instruction[idx], 0, 8, "irq index")
assembled[-1] |= num
instruction.pop()
elif instruction[0] == "set":
# instr delay dst data
assembled.append(0b111_00000_000_00000)
try:
assembled[-1] |= SET_DESTINATIONS.index(instruction[1]) << 5
except ValueError as exc:
raise ValueError(f"Invalid set destination '{instruction[1]}'") from exc
value = int(instruction[-1], 0)
if not 0 <= value <= 31:
raise RuntimeError("Set value out of range")
assembled[-1] |= value
else: else:
raise RuntimeError(f"Unknown instruction: {instruction[0]}") raise SyntaxError(f"Invalid jmp target {repr(target)}")
assembled[-1] |= delay << 8
# print(bin(assembled[-1]))
self.pio_kwargs = { if len(instruction) > 2:
"sideset_enable": sideset_enable, assembled[-1] |= CONDITIONS.index(instruction[1]) << 5
}
if offset != -1: elif instruction[0] == "wait":
self.pio_kwargs["offset"] = offset # instr delay p sr index
assembled.append(0b001_00000_0_00_00000)
if pio_version != 0: polarity = int(instruction[1])
self.pio_kwargs["pio_version"] = pio_version if not 0 <= polarity <= 1:
raise RuntimeError("Invalid polarity")
if sideset_count != 0: assembled[-1] |= polarity << 7
self.pio_kwargs["sideset_pin_count"] = sideset_count assembled[-1] |= WAIT_SOURCES.index(instruction[2]) << 5
if sideset_pindirs: num = int(instruction[3])
self.pio_kwargs["sideset_pindirs"] = sideset_pindirs if not 0 <= num <= 31:
raise RuntimeError("Wait num out of range")
if wrap is not None: assembled[-1] |= num
self.pio_kwargs["wrap"] = wrap if instruction[-1] == "rel":
if wrap_target is not None: assembled[-1] |= 0x10 # Set the high bit of the irq value
self.pio_kwargs["wrap_target"] = wrap_target elif instruction[0] == "in":
# instr delay src count
if fifo_type != "auto": assembled.append(0b010_00000_000_00000)
self.pio_kwargs["fifo_type"] = fifo_type assembled[-1] |= IN_SOURCES.index(instruction[1]) << 5
count = int(instruction[-1])
if mov_status_type is not None: if not 1 <= count <= 32:
self.pio_kwargs["mov_status_type"] = mov_status_type raise RuntimeError("Count out of range")
self.pio_kwargs["mov_status_n"] = mov_status_n assembled[-1] |= count & 0x1F # 32 is 00000 so we mask the top
elif instruction[0] == "out":
if set_count is not None: # instr delay dst count
self.pio_kwargs["set_pin_count"] = set_count assembled.append(0b011_00000_000_00000)
assembled[-1] |= OUT_DESTINATIONS.index(instruction[1]) << 5
if out_count not in {None, 32}: count = int(instruction[-1])
self.pio_kwargs["out_pin_count"] = out_count if not 1 <= count <= 32:
raise RuntimeError("Count out of range")
if out_shift_right is not None: assembled[-1] |= count & 0x1F # 32 is 00000 so we mask the top
self.pio_kwargs["out_shift_right"] = out_shift_right elif instruction[0] == "push" or instruction[0] == "pull":
# instr delay d i b zero
if auto_pull is not None: assembled.append(0b100_00000_0_0_0_00000)
self.pio_kwargs["auto_pull"] = auto_pull if instruction[0] == "pull":
assembled[-1] |= 0x80
if pull_threshold is not None: if instruction[-1] == "block" or not instruction[-1].endswith("block"):
self.pio_kwargs["pull_threshold"] = pull_threshold assembled[-1] |= 0x20
if len(instruction) > 1 and instruction[1] in ("ifempty", "iffull"):
if in_count not in {None, 32}: assembled[-1] |= 0x40
self.pio_kwargs["in_pin_count"] = in_count elif instruction[0] == "mov":
# instr delay dst op src
if in_shift_right is not None: assembled.append(0b101_00000_000_00_000)
self.pio_kwargs["in_shift_right"] = in_shift_right assembled[-1] |= MOV_DESTINATIONS.index(instruction[1]) << 5
assembled[-1] |= MOV_SOURCES.index(instruction[-1])
if auto_push is not None: if len(instruction) > 3:
self.pio_kwargs["auto_push"] = auto_push assembled[-1] |= MOV_OPS.index(instruction[-2]) << 3
elif instruction[0] == "irq":
if push_threshold is not None: # instr delay z c w index
self.pio_kwargs["push_threshold"] = push_threshold assembled.append(0b110_00000_0_0_0_00000)
if instruction[-1] == "rel":
self.assembled = array.array("H", assembled) assembled[-1] |= 0x10 # Set the high bit of the irq value
instruction.pop()
self.debuginfo = (linemap, text_program) if build_debuginfo else None num = int(instruction[-1])
if not 0 <= num <= 7:
self.public_labels = public_labels raise RuntimeError("Interrupt index out of range")
assembled[-1] |= num
@classmethod if len(instruction) == 3: # after rel has been removed
def from_file(cls, filename: str, **kwargs) -> "Program": if instruction[1] == "wait":
"""Assemble a PIO program in a file""" assembled[-1] |= 0x20
with open(filename, encoding="utf-8") as i: elif instruction[1] == "clear":
program = i.read() assembled[-1] |= 0x40
return cls(program, **kwargs) # All other values are the default of set without waiting
elif instruction[0] == "set":
def print_c_program(self, name: str, qualifier: str = "const") -> None: # instr delay dst data
"""Print the program into a C program snippet""" assembled.append(0b111_00000_000_00000)
if self.debuginfo is None: assembled[-1] |= SET_DESTINATIONS.index(instruction[1]) << 5
linemap = [] value = int(instruction[-1])
program_lines = [] if not 0 <= value <= 31:
raise RuntimeError("Set value out of range")
assembled[-1] |= value
else: else:
linemap = self.debuginfo[0][:] # Use a copy since we destroy it raise RuntimeError("Unknown instruction:" + instruction[0])
program_lines = self.debuginfo[1].split("\n") assembled[-1] |= delay << 8
# print(hex(assembled[-1]))
print( return array.array("H", assembled)
f"{qualifier} int {name}_wrap = {self.pio_kwargs.get('wrap', len(self.assembled)-1)};"
)
print(f"{qualifier} int {name}_wrap_target = {self.pio_kwargs.get('wrap_target', 0)};")
sideset_pin_count = self.pio_kwargs.get("sideset_pin_count", 0)
print(f"{qualifier} int {name}_sideset_pin_count = {sideset_pin_count};")
print(f"{qualifier} bool {name}_sideset_enable = {+self.pio_kwargs['sideset_enable']};")
print(f"{qualifier} uint16_t {name}[] = " + "{")
last_line = 0
if linemap:
for inst in self.assembled:
next_line = linemap[0]
del linemap[0]
while last_line < next_line:
line = program_lines[last_line]
if line:
print(f" // {line}")
last_line += 1
line = program_lines[last_line]
print(f" 0x{inst:04x}, // {line}")
last_line += 1
while last_line < len(program_lines):
line = program_lines[last_line]
if line:
print(f" // {line}")
last_line += 1
else:
for i in range(0, len(self.assembled), 8):
print(" " + ", ".join("0x%04x" % i for i in self.assembled[i : i + 8]))
print("};")
print()
def assemble(program_text: str) -> array.array:
"""Converts pioasm text to encoded instruction bytes
In new code, prefer to use the `Program` class so that the extra arguments
such as the details about side-set pins can be easily passsed to the
``StateMachine`` constructor."""
return Program(program_text).assembled

3
docs/api.rst
View file

@ -4,8 +4,5 @@
.. If your library file(s) are nested in a directory (e.g. /adafruit_foo/foo.py) .. If your library file(s) are nested in a directory (e.g. /adafruit_foo/foo.py)
.. use this format as the module name: "adafruit_foo.foo" .. use this format as the module name: "adafruit_foo.foo"
API Reference
#############
.. automodule:: adafruit_pioasm .. automodule:: adafruit_pioasm
:members: :members:

31
docs/conf.py
View file

@ -1,8 +1,9 @@
# -*- coding: utf-8 -*-
# SPDX-FileCopyrightText: 2017 Scott Shawcroft, written for Adafruit Industries # SPDX-FileCopyrightText: 2017 Scott Shawcroft, written for Adafruit Industries
# #
# SPDX-License-Identifier: MIT # SPDX-License-Identifier: MIT
import datetime
import os import os
import sys import sys
@ -15,7 +16,6 @@ sys.path.insert(0, os.path.abspath(".."))
# ones. # ones.
extensions = [ extensions = [
"sphinx.ext.autodoc", "sphinx.ext.autodoc",
"sphinxcontrib.jquery",
"sphinx.ext.intersphinx", "sphinx.ext.intersphinx",
"sphinx.ext.napoleon", "sphinx.ext.napoleon",
"sphinx.ext.todo", "sphinx.ext.todo",
@ -29,8 +29,8 @@ extensions = [
intersphinx_mapping = { intersphinx_mapping = {
"python": ("https://docs.python.org/3", None), "python": ("https://docs.python.org/3.4", None),
"CircuitPython": ("https://docs.circuitpython.org/en/latest/", None), "CircuitPython": ("https://circuitpython.readthedocs.io/en/latest/", None),
} }
# Show the docstring from both the class and its __init__() method. # Show the docstring from both the class and its __init__() method.
@ -46,12 +46,7 @@ master_doc = "index"
# General information about the project. # General information about the project.
project = "Adafruit PIOASM Library" project = "Adafruit PIOASM Library"
creation_year = "2021" copyright = "2021 Scott Shawcroft"
current_year = str(datetime.datetime.now().year)
year_duration = (
current_year if current_year == creation_year else creation_year + " - " + current_year
)
copyright = year_duration + " Scott Shawcroft"
author = "Scott Shawcroft" author = "Scott Shawcroft"
# The version info for the project you're documenting, acts as replacement for # The version info for the project you're documenting, acts as replacement for
@ -68,7 +63,7 @@ release = "1.0"
# #
# This is also used if you do content translation via gettext catalogs. # This is also used if you do content translation via gettext catalogs.
# Usually you set "language" from the command line for these cases. # Usually you set "language" from the command line for these cases.
language = "en" language = None
# List of patterns, relative to source directory, that match files and # List of patterns, relative to source directory, that match files and
# directories to ignore when looking for source files. # directories to ignore when looking for source files.
@ -106,9 +101,19 @@ napoleon_numpy_docstring = False
# The theme to use for HTML and HTML Help pages. See the documentation for # The theme to use for HTML and HTML Help pages. See the documentation for
# a list of builtin themes. # a list of builtin themes.
# #
import sphinx_rtd_theme on_rtd = os.environ.get("READTHEDOCS", None) == "True"
html_theme = "sphinx_rtd_theme" if not on_rtd: # only import and set the theme if we're building docs locally
try:
import sphinx_rtd_theme
html_theme = "sphinx_rtd_theme"
html_theme_path = [sphinx_rtd_theme.get_html_theme_path(), "."]
except:
html_theme = "default"
html_theme_path = ["."]
else:
html_theme_path = ["."]
# Add any paths that contain custom static files (such as style sheets) here, # Add any paths that contain custom static files (such as style sheets) here,
# relative to this directory. They are copied after the builtin static files, # relative to this directory. They are copied after the builtin static files,

13
docs/index.rst
View file

@ -14,12 +14,6 @@ Table of Contents
examples examples
.. toctree::
:caption: Syntax
:maxdepth: 3
syntax
.. toctree:: .. toctree::
:caption: API Reference :caption: API Reference
:maxdepth: 3 :maxdepth: 3
@ -30,7 +24,6 @@ Table of Contents
:caption: Tutorials :caption: Tutorials
Getting Started with Raspberry Pi Pico and CircuitPython <https://learn.adafruit.com/getting-started-with-raspberry-pi-pico-circuitpython> Getting Started with Raspberry Pi Pico and CircuitPython <https://learn.adafruit.com/getting-started-with-raspberry-pi-pico-circuitpython>
An Introduction to RP2040 PIO with CircuitPython <https://learn.adafruit.com/intro-to-rp2040-pio-with-circuitpython>
.. toctree:: .. toctree::
:caption: Related Products :caption: Related Products
@ -43,10 +36,8 @@ Table of Contents
.. toctree:: .. toctree::
:caption: Other Links :caption: Other Links
Download from GitHub <https://github.com/adafruit/Adafruit_CircuitPython_PIOASM/releases/latest> Download <https://github.com/adafruit/Adafruit_CircuitPython_PIOASM/releases/latest>
Download Library Bundle <https://circuitpython.org/libraries> CircuitPython Reference Documentation <https://circuitpython.readthedocs.io>
CircuitPython Reference Documentation <https://docs.circuitpython.org>
CircuitPython rp2pio Reference Documentation <https://docs.circuitpython.org/en/latest/shared-bindings/rp2pio>
CircuitPython Support Forum <https://forums.adafruit.com/viewforum.php?f=60> CircuitPython Support Forum <https://forums.adafruit.com/viewforum.php?f=60>
Discord Chat <https://adafru.it/discord> Discord Chat <https://adafru.it/discord>
Adafruit Learning System <https://learn.adafruit.com> Adafruit Learning System <https://learn.adafruit.com>

7
docs/requirements.txt
View file

@ -1,7 +0,0 @@
# SPDX-FileCopyrightText: 2021 Kattni Rembor for Adafruit Industries
#
# SPDX-License-Identifier: Unlicense
sphinx
sphinxcontrib-jquery
sphinx-rtd-theme

88
docs/syntax.rst
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@ -1,88 +0,0 @@
This chapter documents the language features accepted by the `adafruit_pioasm`
assembler. The dialect is intended to be a compatible subset of the one in the
pico-sdk's ``pioasm`` program (which does not produce CircuitPython-compatible
output).
For full details, refer to the relevant chapter in the RP2040 or RP2350 datasheet.
In this informal grammar, ``<angle brackets>`` represent some text, usually a single
word or number. ``{curly brackets}`` represent an element that is optional.
``|`` represents alternatives. ``...`` indicates further arguments that are
explained in the official datasheet.
Lines
~~~~~
First, any portion of the line starting with the comment character ``;`` is removed.
Then, extra whitespace is removed and the line is parsed.
Each line may be:
* blank
* a directive
* a label
* an instruction, possibly with side-set and delay information
Directives
----------
* ``.program <identifier>``: Accepts a program name, which should be a valid Python identifier
* ``.pio_version <number>``: The numeric version of the PIO peripheral to target. Version 0, the default, is in the RP2040. Version 1 is in RP2350
* ``.origin <number>``: The required load address of the program. If specified and not ``-1``, this will be stored in ``pio_kwargs["offset"]``
* ``.wrap``, ``.wrap_target``: This pair of directives set the range of instructions for implicit looping, by placing values in ``pio_kwargs``
* ``.side_set <number> {opt}``: Controls the side-set behavior and sets ``pio_kwargs["sideset_enable"]`` and ``pio_kwargs["sideset_pin_count"]``
* ``.fifo <identifier>``: Sets the FIFO mode. As a CircuitPython extension, ``auto`` (the default) automatically chooses among ``txrx``, ``tx``, and ``rx`` modes
* ``.mov_status ...``: Controls what information the ``mov status`` instruction accesses, by placing values in ``pio_kwargs``
* ``.out <count> {{left|right}} {{auto}}``: Settings that control how the ``out`` instruction works, including shift direction and whether auto pull is enabled, by placing values in ``pio_kwargs``
* ``.in <count> {{left|right}} {{auto}}``: Settings that control how the ``in`` instruction works, including shift direction and whether auto push is enabled, by placing values in ``pio_kwargs``
* ``.set <count>``: Settings that control how the ``set`` instruction works, including shift direction and whether auto push is enabled, by placing values in ``pio_kwargs``
Labels
------
* ``<identifier>:`` creates a label which may be referred to by a ``jmp`` instruction.
Instructions
------------
* ``nop``
* ``jmp <number|name>``
* ``wait ...``
* ``in ...``
* ``out ...``
* ``push ...``
* ``pull ...``
* ``mov ...``
* ``mov rxfifo[y|number], isr`` (requires PIO version 1 and compatible ``.fifo`` setting)
* ``mov osr, rxfifo[y|number]`` (requires PIO version 1 and compatible ``.fifo`` setting)
* ``irq <number> {rel}``
* ``irq next|prev <number>``. (requires PIO version 1) adafruit_pioasm follows sdk pioasm in placing ``next`` and ``prev`` before the IRQ number. The datasheet (version 05c4754) implies a different syntax.
* ``set ...``
Side-set and delay
------------------
The next part of each line can contain "side-set" and "delay" information, in order.
* ``side <number>``: Set the side-set pins to ``number``
* ``[<number>]``: Add ``number`` extra delay cycles to this instruction
The range of these numbers depends on the count of side-set pins and whether side-set is
optional. If side-set is not optional, a missing ``side <number>`` is treated the same as
``side 0``.
Unsupported Features
--------------------
In places where a numeric value is needed, only a valid Python numeric literal
is accepted. Arithmetic is not supported.
Whitespace is not accepted in certain places, for instance within an instruction delay.
It must be written ``[7]`` not ``[ 7 ]``.
Extra commas that would not be acceptable to sdk pioasm are not always diagnosed.
Extra words in some locations that would not be acceptable to sdk pioasm are not always diagnosed.
CircuitPython extensions
------------------------
* ``.fifo auto``: By default, CircuitPython joins the TX and RX fifos if a PIO program only receives or transmits. The ``.fifo auto`` directive makes this explicit.

3
docs/syntax.rst.license
View file

@ -1,3 +0,0 @@
SPDX-FileCopyrightText: 2024 Jeff Epler, written for Adafruit Industries
SPDX-License-Identifier: MIT

7
examples/getting-started/README.md Normal file
View file

@ -0,0 +1,7 @@
<!--
SPDX-FileCopyrightText: 2020 Jeff Epler, written for Adafruit Industries
SPDX-License-Identifier: MIT
-->
These examples are adapted from [Getting started with MicroPython on the Raspberry Pi Pico](https://www.adafruit.com/product/4898). You can also get an [electonic copy](https://hackspace.raspberrypi.org/books/micropython-pico/). PIO is covered in Appendix C.

14
examples/pioasm_led_brightness.py → examples/getting-started/led_brightness.py
View file

@ -5,10 +5,8 @@
# Adapted from the an example in Appendix C of RPi_PiPico_Digital_v10.pdf # Adapted from the an example in Appendix C of RPi_PiPico_Digital_v10.pdf
import time import time
import board import board
import rp2pio import rp2pio
import adafruit_pioasm import adafruit_pioasm
led_quarter_brightness = adafruit_pioasm.assemble( led_quarter_brightness = adafruit_pioasm.assemble(
@ -32,14 +30,20 @@ led_full_brightness = adafruit_pioasm.assemble(
) )
while True: while True:
sm = rp2pio.StateMachine(led_quarter_brightness, frequency=10000, first_set_pin=board.LED) sm = rp2pio.StateMachine(
led_quarter_brightness, frequency=10000, first_set_pin=board.LED
)
time.sleep(1) time.sleep(1)
sm.deinit() sm.deinit()
sm = rp2pio.StateMachine(led_half_brightness, frequency=10000, first_set_pin=board.LED) sm = rp2pio.StateMachine(
led_half_brightness, frequency=10000, first_set_pin=board.LED
)
time.sleep(1) time.sleep(1)
sm.deinit() sm.deinit()
sm = rp2pio.StateMachine(led_full_brightness, frequency=10000, first_set_pin=board.LED) sm = rp2pio.StateMachine(
led_full_brightness, frequency=10000, first_set_pin=board.LED
)
time.sleep(1) time.sleep(1)
sm.deinit() sm.deinit()

7
examples/pico-examples/README.md Normal file
View file

@ -0,0 +1,7 @@
<!--
SPDX-FileCopyrightText: 2020 Jeff Epler, written for Adafruit Industries
SPDX-License-Identifier: MIT
-->
These examples are adapted from the pio folder of the [Raspberry Pi Pico SDK Examples](https://github.com/raspberrypi/pico-examples).

2
examples/pioasm_blink.py → examples/pico-examples/blink.py
View file

@ -6,10 +6,8 @@
import array import array
import time import time
import board import board
import rp2pio import rp2pio
import adafruit_pioasm import adafruit_pioasm
blink = adafruit_pioasm.assemble( blink = adafruit_pioasm.assemble(

4
examples/pioasm_hello.py → examples/pico-examples/hello.py
View file

@ -5,10 +5,8 @@
# Adapted from the example https://github.com/raspberrypi/pico-examples/tree/master/pio/hello_pio # Adapted from the example https://github.com/raspberrypi/pico-examples/tree/master/pio/hello_pio
import time import time
import board import board
import rp2pio import rp2pio
import adafruit_pioasm import adafruit_pioasm
hello = """ hello = """
@ -27,7 +25,7 @@ assembled = adafruit_pioasm.assemble(hello)
sm = rp2pio.StateMachine( sm = rp2pio.StateMachine(
assembled, assembled,
frequency=4000, frequency=2000,
first_out_pin=board.LED, first_out_pin=board.LED,
) )
print("real frequency", sm.frequency) print("real frequency", sm.frequency)

164
examples/pioasm_7seg.py
View file

@ -1,164 +0,0 @@
# SPDX-FileCopyrightText: 2022 Jeff Epler, written for Adafruit Industries
#
# SPDX-License-Identifier: MIT
"""Drive a 7-segment display entirely from the PIO peripheral
By updating the buffer being written to the display, the shown digits can be changed.
The main program just counts up, looping back to 0000 after 9999.
This example is designed for a Raspberry Pi Pico and bare LED display. For
simplicity, it is wired without any current limiting resistors, instead relying
on a combination of the RP2040's pin drive strength and the 1/4 duty cycle to
limit LED current to an acceptable level, and longevity of the display was not
a priority.
Before integrating a variant of this example code in a project, evaluate
whether your design needs to add current-limiting resistors.
https://www.adafruit.com/product/4864
https://www.adafruit.com/product/865
Wiring:
* Pico GP15 to LED matrix 1 (E SEG)
* Pico GP14 to LED matrix 2 (D SEG)
* Pico GP13 to LED matrix 3 (DP SEG)
* Pico GP12 to LED matrix 4 (C SEG)
* Pico GP11 to LED matrix 5 (G SEG)
* Pico GP10 to LED matrix 6 (COM4)
* Pico GP9 to LED matrix 7 (COLON COM)
* Pico GP22 to LED matrix 8 (COLON SEG)
* Pico GP21 to LED matrix 9 (B SEG)
* Pico GP20 to LED matrix 10 (COM3)
* Pico GP19 to LED matrix 11 (COM2)
* Pico GP18 to LED matrix 12 (F SEG)
* Pico GP17 to LED matrix 13 (A SEG)
* Pico GP16 to LED matrix 14 (COM1)
"""
import array
import time
import board
import rp2pio
import adafruit_pioasm
_program = adafruit_pioasm.Program(
"""
out pins, 14 ; set the pins to their new state
"""
)
# Display Pins 1-7 are GP 15-9
# Display Pins 8-12 are GP 22-16
COM1_WT = 1 << 7
COM2_WT = 1 << 10
COM3_WT = 1 << 11
COM4_WT = 1 << 1
COMC_WT = 1 << 0
SEGA_WT = 1 << 8
SEGB_WT = 1 << 12
SEGC_WT = 1 << 3
SEGD_WT = 1 << 5
SEGE_WT = 1 << 6
SEGF_WT = 1 << 9
SEGG_WT = 1 << 2
SEGDP_WT = 1 << 4
SEGCOL_WT = 1 << 13
ALL_COM = COM1_WT | COM2_WT | COM3_WT | COM4_WT | COMC_WT
SEG_WT = [
SEGA_WT,
SEGB_WT,
SEGC_WT,
SEGD_WT,
SEGE_WT,
SEGF_WT,
SEGG_WT,
SEGDP_WT,
SEGCOL_WT,
]
COM_WT = [COM1_WT, COM2_WT, COM3_WT, COM4_WT, COMC_WT]
DIGITS = [
0b0111111, # 0
0b0000110, # 1
0b1011011, # 2
0b1001111, # 3
0b1100110, # 4
0b1101101, # 5
0b1111100, # 6
0b0000111, # 7
0b1111111, # 8
0b1101111, # 9
]
def make_digit_wt(v):
val = ALL_COM
seg = DIGITS[v]
for i in range(8):
if seg & (1 << i):
val |= SEG_WT[i]
return val
DIGITS_WT = [make_digit_wt(i) for i in range(10)]
class SMSevenSegment:
def __init__(self, first_pin=board.GP9):
self._buf = array.array("H", (DIGITS_WT[0] & ~COM_WT[i] for i in range(4)))
self._sm = rp2pio.StateMachine(
_program.assembled,
frequency=4000,
first_out_pin=first_pin,
out_pin_count=14,
auto_pull=True,
pull_threshold=14,
**_program.pio_kwargs,
)
self._sm.background_write(loop=self._buf)
def __enter__(self):
return self
def __exit__(self, exc_type, exc_value, traceback):
self.deinit()
def deinit(self):
self._sm.deinit()
def __setitem__(self, i, v):
if v is None:
self._buf[i] = 0
else:
self._buf[i] = DIGITS_WT[v] & ~COM_WT[i]
def set_number(self, number):
for j in range(4):
self[3 - j] = number % 10
number //= 10
def count(start=0):
val = start
while True:
yield val
val += 1
def main():
with SMSevenSegment(board.GP9) as s:
for i in count():
s.set_number(i)
time.sleep(0.05)
if __name__ == "__main__":
main()

249
examples/pioasm_7seg_fader.py
View file

@ -1,249 +0,0 @@
# SPDX-FileCopyrightText: 2022 Jeff Epler, written for Adafruit Industries
#
# SPDX-License-Identifier: MIT
"""Drive a 7-segment display entirely from the PIO peripheral
Each segment is driven with a 'breathing' waveform that runs at its own pace.
It also demonstrates the use of `asyncio` to perform multiple tasks.
This example is designed for a Raspberry Pi Pico and bare LED display. For
simplicity, it is wired without any current limiting resistors, instead relying
on a combination of the RP2040's pin drive strength and the 1/45 duty cycle to
limit LED current to an acceptable level, and longevity of the display was not
a priority.
Before integrating a variant of this example code in a project, evaluate
whether your design needs to add current-limiting resistors.
https://www.adafruit.com/product/4864
https://www.adafruit.com/product/865
Wiring:
* Pico GP15 to LED matrix 1 (E SEG)
* Pico GP14 to LED matrix 2 (D SEG)
* Pico GP13 to LED matrix 3 (DP SEG)
* Pico GP12 to LED matrix 4 (C SEG)
* Pico GP11 to LED matrix 5 (G SEG)
* Pico GP10 to LED matrix 6 (COM4)
* Pico GP9 to LED matrix 7 (COLON COM)
* Pico GP22 to LED matrix 8 (COLON SEG)
* Pico GP21 to LED matrix 9 (B SEG)
* Pico GP20 to LED matrix 10 (COM3)
* Pico GP19 to LED matrix 11 (COM2)
* Pico GP18 to LED matrix 12 (F SEG)
* Pico GP17 to LED matrix 13 (A SEG)
* Pico GP16 to LED matrix 14 (COM1)
"""
import array
import asyncio
import random
import board
import rp2pio
from ulab import numpy as np
import adafruit_pioasm
_pio_source = """
mov pins, null ; turn all pins off
pull
out pindirs, {n} ; set the new direction
pull
out pins, {n} ; set the new values
pull
out y, 32
delay:
jmp y--, delay
"""
# Display Pins 1-7 are GP 15-9 [need to re-wire 9]
# Display Pins 8-12 are GP 22-16 [need to re-wire 22]
# GP# Display# Function
# 15 (+ 6) 1 E SEG
# 14 (+ 5) 2 D SEG
# 13 (+ 4) 3 DP SEG
# 12 (+ 3) 4 C SEG
# 11 (+ 2) 5 G SEG
# 10 (+ 1) 6 COM4
# 9 (+ 0) 7 COLON COM
# 22 (+13) 8 COLON SEG
# 21 (+12) 9 B SEG
# 20 (+11) 10 COM3
# 19 (+10) 11 COM2
# 18 (+ 9) 12 F SEG
# 17 (+ 8) 13 A SEG
# 16 (+ 7) 14 COM1
COM1_WT = 1 << 7
COM2_WT = 1 << 10
COM3_WT = 1 << 11
COM4_WT = 1 << 1
COMC_WT = 1 << 0
SEGA_WT = 1 << 8
SEGB_WT = 1 << 12
SEGC_WT = 1 << 3
SEGD_WT = 1 << 5
SEGE_WT = 1 << 6
SEGF_WT = 1 << 9
SEGG_WT = 1 << 2
SEGDP_WT = 1 << 4
SEGCOL_WT = 1 << 13
ALL_COM = COM1_WT | COM2_WT | COM3_WT | COM4_WT | COMC_WT
SEG_WT = [
SEGA_WT,
SEGB_WT,
SEGC_WT,
SEGD_WT,
SEGE_WT,
SEGF_WT,
SEGG_WT,
SEGDP_WT,
SEGCOL_WT,
]
COM_WT = [COM1_WT, COM2_WT, COM3_WT, COM4_WT, COMC_WT]
DIGITS = [
0b0111111, # 0
0b0000110, # 1
0b1011011, # 2
0b1001111, # 3
0b1100110, # 4
0b1101101, # 5
0b1111100, # 6
0b0000111, # 7
0b1111111, # 8
0b1101111, # 9
]
def make_digit_wt(v):
val = ALL_COM
seg = DIGITS[v]
for i in range(8):
if seg & (1 << i):
val |= SEG_WT[i]
return val
class LedFader:
def __init__(self, first_pin, pin_count, cathode_weights, anode_weights, levels=64):
self._cathode_weights = cathode_weights
self._anode_weights = anode_weights
self._stream = array.array("L", [0, 0, 1]) * (1 + len(cathode_weights) * len(anode_weights))
self._levels = levels
self._max_count = levels * len(self)
self._total = len(self)
program = adafruit_pioasm.Program(_pio_source.format(n=pin_count))
self._sm = rp2pio.StateMachine(
program.assembled,
frequency=125_000_000,
first_out_pin=first_pin,
out_pin_count=14,
auto_pull=True,
pull_threshold=14,
**program.pio_kwargs,
)
print(f"Note: approximate refresh rate {self._sm.frequency / self._max_count:.0f}Hz")
self._sm.background_write(loop=self._stream)
def __enter__(self):
return self
def __exit__(self, exc_type, exc_value, traceback):
self.deinit()
def deinit(self):
self._sm.deinit()
def __setitem__(self, i, v):
if not 0 <= v < self._levels:
raise ValueError()
c = i % len(self._cathode_weights)
r = i // len(self._cathode_weights)
if not v:
self._total = self._total - self._stream[3 * i + 2] + 1
self._stream[3 * i] = 0
self._stream[3 * i + 1] = 0
self._stream[3 * i + 2] = 1
else:
self._total = self._total - self._stream[3 * i + 2] + v
self._stream[3 * i] = self._cathode_weights[c] | self._anode_weights[r]
self._stream[3 * i + 1] = self._cathode_weights[c]
self._stream[3 * i + 2] = v
self._stream[3 * len(self) + 2] = self._max_count - self._total
def __len__(self):
return len(self._stream) // 3 - 1
class CyclicSignal:
def __init__(self, data, phase=0):
self._data = data
self._phase = 0
self.phase = phase
self._scale = len(self._data) - 1
@property
def phase(self):
return self._phase
@phase.setter
def phase(self, value):
self._phase = value % 1
@property
def value(self):
idxf = self._phase * len(self._data)
idx = int(idxf)
frac = idxf % 1
idx1 = (idx + 1) % len(self._data)
val = self._data[idx]
val1 = self._data[idx1]
return val + (val1 - val) * frac
def advance(self, delta):
self._phase = (self._phase + delta) % 1
sine = (np.sin(np.linspace(0, 2 * np.pi, 50, endpoint=False)) * 0.5 + 0.5) ** 2.2 * 64
async def segment_throbber(c, i):
signal = CyclicSignal(sine, random.random())
velocity = random.random() * 0.04 + 0.005
while True:
signal.advance(velocity)
c[i] = int(signal.value)
await asyncio.sleep(0)
async def main():
with LedFader(
board.GP9,
14,
(
SEGA_WT,
SEGB_WT,
SEGC_WT,
SEGD_WT,
SEGE_WT,
SEGF_WT,
SEGG_WT,
SEGDP_WT,
SEGCOL_WT,
),
(COM1_WT, COM2_WT, COM3_WT, COM4_WT, COMC_WT),
) as c:
await asyncio.gather(*(segment_throbber(c, i) for i in range(len(c))))
asyncio.run(main())

100
examples/pioasm_background_morse.py
View file

@ -1,100 +0,0 @@
# SPDX-FileCopyrightText: 2022 Jeff Epler, written for Adafruit Industries
#
# SPDX-License-Identifier: MIT
"""Demonstrate background writing, including loop writing, with morse code.
On any rp2040 board with board.LED, this will alternately send 'SOS' and 'TEST'
via the LED, demonstrating that Python code continues to run while the morse
code data is transmitted. Alternately, change one line below to make it send
'TEST' forever in a loop, again while Python code continues to run.
The combination of "LED status" and duration is sent to the PIO as 16-bit number:
The top bit is 1 if the LED is turned on and 0 otherwise. The other 15 bits form a delay
value from 1 to 32767. A subset of the morse code 'alphabit' is created, with everthing
based on the 'DIT duration' of about 128ms (1MHz / 32 / 4000).
https://en.wikipedia.org/wiki/Morse_code
"""
import array
import time
from board import LED
from rp2pio import StateMachine
from adafruit_pioasm import Program
# This program turns the LED on or off depending on the first bit of the value,
# then delays a length of time given by the next 15 bits of the value.
# By correctly choosing the durations, a message in morse code can be sent.
pio_code = Program(
"""
out x, 1
mov pins, x
out x, 15
busy_wait:
jmp x--, busy_wait [31]
"""
)
# The top bit of the command is the LED value, on or off
LED_ON = 0x8000
LED_OFF = 0x0000
# The other 15 bits are a delay duration.
# It must be the case that 4 * DIT_DURATION < 32768
DIT_DURATION = 4000
DAH_DURATION = 3 * DIT_DURATION
# Build up some elements of morse code, based on the wikipedia article.
DIT = array.array("H", [LED_ON | DIT_DURATION, LED_OFF | DIT_DURATION])
DAH = array.array("H", [LED_ON | DAH_DURATION, LED_OFF | DIT_DURATION])
# That is, two more DAH-length gaps for a total of three
LETTER_SPACE = array.array("H", [LED_OFF | (2 * DAH_DURATION)])
# That is, four more DAH-length gaps (after a letter space) for a total of seven
WORD_SPACE = array.array("H", [LED_OFF | (4 * DIT_DURATION)])
# Letters and words can be created by concatenating ("+") the elements
E = DIT + LETTER_SPACE
O = DAH + DAH + DAH + LETTER_SPACE
S = DIT + DIT + DIT + LETTER_SPACE
T = DAH + LETTER_SPACE
SOS = S + O + S + WORD_SPACE
TEST = T + E + S + T + WORD_SPACE
sm = StateMachine(
pio_code.assembled,
frequency=1_000_000,
first_out_pin=LED,
pull_threshold=16,
auto_pull=True,
out_shift_right=False,
**pio_code.pio_kwargs,
)
# To simply repeat 'TEST' forever, change to 'if True':
if False:
print("Sending out TEST forever", end="")
sm.background_write(loop=TEST)
while True:
print(end=".")
time.sleep(0.1)
# But instead, let's alternate SOS and TEST, forever:
while True:
for plain, morse in (
("SOS", SOS),
("TEST", TEST),
):
print(f"Sending out {plain}", end="")
sm.background_write(morse)
sm.clear_txstall()
while not sm.txstall:
print(end=".")
time.sleep(0.1)
print()
print("Message all sent to StateMachine (including emptying FIFO)")
print()

211
examples/pioasm_i2s_codec.py
View file

@ -1,211 +0,0 @@
# SPDX-FileCopyrightText: 2024 Tim Chinowsky
# SPDX-License-Identifier: MIT
import array
import board
import rp2pio
import adafruit_pioasm
# Implement extended multichannel I2S interface like that used by audio codecs
# such as the TAC5212. In extended I2S, "Left" and "Right" can each contain
# multiple channels, so for instance 8 channels of audio can be sent as a "left"
# containing 4 channels and a "right" containing 4 channels.
# In this implementation the number of bits per sample, sample rate, and
# number of channels can be independently specified. The number of channels must
# be even, to divide evenly between left and right.
# Ramped test data containing the requested number of sample sets (one set = one
# sample for each channel) and spanning the specified number of bits will be generated
# and sent out over I2S on the specified pins.
# Data will be preceded and followed by a set of zeros for convenience.
# (Some protocol analyzers have trouble analyzing serial data at the the beginning
# and end of a data set)
# At the same time that I2S data is sent out the out_pin, I2S data will be received
# on the in_pin. If the output is looped back (connected) to the input, the data
# received should be the same as the data sent.
# Some samples run in loopback configuration:
# bits per sample: 16
# sample rate: 48000
# channels: 4
# sample sets: 4
# actual sample frequency 47984.6 Hz
# bit clock 3071017.0 Hz
# write: 00000000 00000000 00000000 00000000
# read: 00000000 00000000 00000000 00000000
# write: 00000000 00001111 00002222 00003333
# read: 00000000 00001111 00002222 00003333
# write: 00004444 00005555 00006666 00007777
# read: 00004444 00005555 00006666 00007777
# write: 00008888 00009999 0000aaaa 0000bbbb
# read: 00008888 00009999 0000aaaa 0000bbbb
# write: 0000cccc 0000dddd 0000eeee 0000ffff
# read: 0000cccc 0000dddd 0000eeee 0000ffff
# write: 00000000 00000000 00000000 00000000
# read: 00000000 00000000 00000000 00000000
# bits per sample: 24
# sample rate: 24000
# channels: 8
# sample sets: 5
# actual sample frequency 23987.7 Hz
# bit clock 4605642.0 Hz
# write: 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000
# read: 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000
# write: 00000000 00069069 000d20d2 0013b13b 001a41a4 0020d20d 00276276 002df2df
# read: 00000000 00069069 000d20d2 0013b13b 001a41a4 0020d20d 00276276 002df2df
# write: 00348348 003b13b1 0041a41a 00483482 004ec4ec 00555554 005be5be 00627626
# read: 00348348 003b13b1 0041a41a 00483482 004ec4ec 00555554 005be5be 00627626
# write: 00690690 006f96f8 00762762 007cb7ca 00834834 0089d89c 00906904 0096f96c
# read: 00690690 006f96f8 00762762 007cb7ca 00834834 0089d89c 00906904 0096f96c
# write: 009d89d8 00a41a40 00aaaaa8 00b13b10 00b7cb7c 00be5be4 00c4ec4c 00cb7cb4
# read: 009d89d8 00a41a40 00aaaaa8 00b13b10 00b7cb7c 00be5be4 00c4ec4c 00cb7cb4
# write: 00d20d20 00d89d88 00df2df0 00e5be58 00ec4ec4 00f2df2c 00f96f94 00ffffff
# read: 00d20d20 00d89d88 00df2df0 00e5be58 00ec4ec4 00f2df2c 00f96f94 00ffffff
# write: 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000
# read: 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000
def i2s_codec(
channels=2,
sample_rate=48000,
bits=16,
bclk_pin=None,
out_pin=None,
in_pin=None,
):
i2s_clock = sample_rate * channels * bits
pio_clock = 4 * i2s_clock
pio_code = """
.program i2s_codec
.side_set 2
; at program start we initialize the bit count top
; (which may be >32) with data
; pulled from the input fifo
pull noblock ; first empty the input fifo
pull noblock
pull noblock
pull noblock
out null, 32 ; then clear OSR so we can get a new value
pull block ; then get the bit count top value from the fifo
; /--- LRCLK
; |/-- BCLK
; ||
mov x, osr; side 0b01 [1] ; save it in x
out null, 32 side 0b00 [1]
mov y, x side 0b01 [1] ; start of main loop (wrap target=8)
bitloop1:
out pins 1 side 0b00
in pins 1 side 0b00
jmp y-- bitloop1 side 0b01 [1]
out pins 1 side 0b10
in pins 1 side 0b10
mov y, x side 0b11 [1]
bitloop0:
out pins 1 side 0b10
in pins 1 side 0b10
jmp y-- bitloop0 side 0b11 [1]
out pins 1 side 0b00
in pins 1 side 0b00
"""
pio_params = {
"frequency": pio_clock,
"first_out_pin": out_pin,
"first_in_pin": in_pin,
"first_sideset_pin": bclk_pin,
"sideset_pin_count": 2,
"auto_pull": True,
"auto_push": True,
"out_shift_right": False,
"in_shift_right": False,
"pull_threshold": bits,
"push_threshold": bits,
"wait_for_txstall": False,
"wrap_target": 8,
}
pio_instructions = adafruit_pioasm.assemble(pio_code)
i2s_clock = sample_rate * channels * bits
pio_clock = 4 * i2s_clock
pio = rp2pio.StateMachine(pio_instructions, **pio_params)
return pio
def spaced_samples(length, bits):
max_int = (1 << bits) - 1
if length == 1:
return [0]
step = max_int / (length - 1)
result = [round(i * step) for i in range(length)]
result[0] = 0
result[-1] = max_int
return result
while True:
print()
BITS = int(input("# bits per sample: "))
SAMPLE_RATE = int(input("# sample rate: "))
CHANNELS = int(input("# channels: "))
SAMPLE_SETS = int(input("# sample sets: "))
n_samples = CHANNELS * SAMPLE_SETS
buffer_type = "L"
buffer_width = 32
data = [0] * CHANNELS + spaced_samples(n_samples, BITS) + [0] * CHANNELS
# initialize pio bit count top value by sending it at the start of output data
bit_count_top = BITS * (CHANNELS // 2) - 2
buffer_out = array.array(
buffer_type, [bit_count_top] + [d << (buffer_width - BITS) for d in data]
)
buffer_in = array.array(buffer_type, [0] * len(data))
PIO = i2s_codec(
channels=CHANNELS,
bits=BITS,
sample_rate=SAMPLE_RATE,
out_pin=board.D9,
in_pin=board.D10,
bclk_pin=board.D5, # L/R signal will be one pin higher, i.e. D6
)
print()
print(f"# actual sample frequency {PIO.frequency/4/CHANNELS/BITS:9.1f} Hz")
print(f"# bit clock {PIO.frequency/4:9.1f} Hz")
print()
PIO.write_readinto(buffer_out, buffer_in)
start = 0
line_length = CHANNELS
while start < len(buffer_in):
print("# write: ", end="")
for i in range(start, min(len(data), start + line_length)):
print(f"{data[i]:0{buffer_width/4}x} ", end=" ")
print()
print("# read: ", end="")
for i in range(start, min(len(buffer_in), start + line_length)):
print(f"{buffer_in[i]:0{buffer_width/4}x} ", end=" ")
print()
print()
start += line_length
PIO.deinit()
del PIO

4
examples/pioasm_i2sout.py
View file

@ -5,11 +5,9 @@
import array import array
import math import math
import time import time
import board import board
import digitalio import digitalio
import rp2pio import rp2pio
import adafruit_pioasm import adafruit_pioasm
trigger = digitalio.DigitalInOut(board.D4) trigger = digitalio.DigitalInOut(board.D4)
@ -21,7 +19,7 @@ length = 8000 // 440
# signed 16 bit # signed 16 bit
s16 = array.array("h", [0] * length) s16 = array.array("h", [0] * length)
for i in range(length): for i in range(length):
s16[i] = int(math.sin(math.pi * 2 * i / length) * (2**15)) s16[i] = int(math.sin(math.pi * 2 * i / length) * (2 ** 15))
print(s16[i]) print(s16[i])
program = """ program = """

25
examples/pioasm_neopixel.py
View file

@ -3,29 +3,24 @@
# SPDX-License-Identifier: MIT # SPDX-License-Identifier: MIT
import time import time
import rp2pio
import board import board
import microcontroller import microcontroller
import rp2pio
import adafruit_pioasm import adafruit_pioasm
# NeoPixels are 800khz bit streams. We are choosing zeros as <312ns hi, 936 lo> # NeoPixels are 800khz bit streams. Zeroes are 1/3 duty cycle (~416ns) and ones
# and ones as <700 ns hi, 556 ns lo>. # are 2/3 duty cycle (~833ns).
# The first two instructions always run while only one of the two final
# instructions run per bit. We start with the low period because it can be
# longer while waiting for more data.
program = """ program = """
.program ws2812 .program ws2812
.side_set 1 .side_set 1
.wrap_target .wrap_target
bitloop: bitloop:
out x 1 side 0 [6]; Drive low. Side-set still takes place before instruction stalls. out x 1 side 0 [1]; Side-set still takes place when instruction stalls
jmp !x do_zero side 1 [3]; Branch on the bit we shifted out previous delay. Drive high. jmp !x do_zero side 1 [1]; Branch on the bit we shifted out. Positive pulse
do_one: do_one:
jmp bitloop side 1 [4]; Continue driving high, for a one (long pulse) jmp bitloop side 1 [1]; Continue driving high, for a long pulse
do_zero: do_zero:
nop side 0 [4]; Or drive low, for a zero (short pulse) nop side 0 [1]; Or drive low, for a short pulse
.wrap .wrap
""" """
@ -40,7 +35,7 @@ else:
sm = rp2pio.StateMachine( sm = rp2pio.StateMachine(
assembled, assembled,
frequency=12_800_000, # to get appropriate sub-bit times in PIO program frequency=800000 * 6, # 800khz * 6 clocks per bit
first_sideset_pin=NEOPIXEL, first_sideset_pin=NEOPIXEL,
auto_pull=True, auto_pull=True,
out_shift_right=False, out_shift_right=False,

143
examples/pioasm_neopixel_bg.py
View file

@ -1,143 +0,0 @@
# SPDX-FileCopyrightText: 2022 Jeff Epler, written for Adafruit Industries
#
# SPDX-License-Identifier: MIT
"""Demonstrate background writing with NeoPixels
The NeoPixelBackground class defined here is largely compatible with the
standard NeoPixel class, except that the ``show()`` method returns immediately,
writing data to the LEDs in the background, and setting `auto_write` to true
causes the data to be continuously sent to the LEDs all the time.
Writing the LED data in the background will allow more time for your
Python code to run, so it may be possible to slightly increase the refresh
rate of your LEDs or do more complicated processing.
Because the pixelbuf storage is also being written out 'live', it is possible
(even with auto-show 'false') to experience tearing, where the LEDs are a
combination of old and new values at the same time.
The demonstration code, under ``if __name__ == '__main__':`` is intended
for the Adafruit MacroPad, with 12 NeoPixel LEDs. It shows a cycling rainbow
pattern across all the LEDs.
"""
import struct
import adafruit_pixelbuf
from rp2pio import StateMachine
from adafruit_pioasm import Program
# Pixel color order constants
RGB = "RGB"
"""Red Green Blue"""
GRB = "GRB"
"""Green Red Blue"""
RGBW = "RGBW"
"""Red Green Blue White"""
GRBW = "GRBW"
"""Green Red Blue White"""
# NeoPixels are 800khz bit streams. We are choosing zeros as <312ns hi, 936 lo>
# and ones as <700 ns hi, 556 ns lo>.
_program = Program(
"""
.side_set 1 opt
.wrap_target
pull block side 0
out y, 32 side 0 ; get count of NeoPixel bits
bitloop:
pull ifempty side 0 ; drive low
out x 1 side 0 [5]
jmp !x do_zero side 1 [3] ; drive high and branch depending on bit val
jmp y--, bitloop side 1 [4] ; drive high for a one (long pulse)
jmp end_sequence side 0 ; sequence is over
do_zero:
jmp y--, bitloop side 0 [4] ; drive low for a zero (short pulse)
end_sequence:
pull block side 0 ; get fresh delay value
out y, 32 side 0 ; get delay count
wait_reset:
jmp y--, wait_reset side 0 ; wait until delay elapses
.wrap
"""
)
class NeoPixelBackground(adafruit_pixelbuf.PixelBuf):
def __init__(self, pin, n, *, bpp=3, brightness=1.0, auto_write=True, pixel_order=None):
if not pixel_order:
pixel_order = GRB if bpp == 3 else GRBW
elif isinstance(pixel_order, tuple):
order_list = [RGBW[order] for order in pixel_order]
pixel_order = "".join(order_list)
byte_count = bpp * n
bit_count = byte_count * 8
padding_count = -byte_count % 4
# backwards, so that dma byteswap corrects it!
header = struct.pack(">L", bit_count - 1)
trailer = b"\0" * padding_count + struct.pack(">L", 3840)
self._sm = StateMachine(
_program.assembled,
auto_pull=False,
first_sideset_pin=pin,
out_shift_right=False,
pull_threshold=32,
frequency=12_800_000,
**_program.pio_kwargs,
)
self._first = True
super().__init__(
n,
brightness=brightness,
byteorder=pixel_order,
auto_write=False,
header=header,
trailer=trailer,
)
self._auto_write = False
self._auto_writing = False
self.auto_write = auto_write
@property
def auto_write(self):
return self._auto_write
@auto_write.setter
def auto_write(self, value):
self._auto_write = bool(value)
if not value and self._auto_writing:
self._sm.background_write()
self._auto_writing = False
elif value:
self.show()
def _transmit(self, buf):
if self._auto_write:
if not self._auto_writing:
self._sm.background_write(loop=memoryview(buf).cast("L"), swap=True)
self._auto_writing = True
else:
self._sm.background_write(memoryview(buf).cast("L"), swap=True)
if __name__ == "__main__":
import board
import rainbowio
import supervisor
NEOPIXEL = board.NEOPIXEL
NUM_PIXELS = 12
pixels = NeoPixelBackground(NEOPIXEL, NUM_PIXELS)
while True:
# Around 1 cycle per second
pixels.fill(rainbowio.colorwheel(supervisor.ticks_ms() // 4))

2
examples/pioasm_pdm.py
View file

@ -4,11 +4,9 @@
import array import array
import time import time
import board import board
import digitalio import digitalio
import rp2pio import rp2pio
import adafruit_pioasm import adafruit_pioasm
trigger = digitalio.DigitalInOut(board.D4) trigger = digitalio.DigitalInOut(board.D4)

28
examples/pioasm_print_c_program.py
View file

@ -1,28 +0,0 @@
# SPDX-FileCopyrightText: 2021 Scott Shawcroft, written for Adafruit Industries
# SPDX-FileCopyrightText: 2022 Jeff Epler, written for Adafruit Industries
#
# SPDX-License-Identifier: MIT
import adafruit_pioasm
# NeoPixels are 800khz bit streams. Zeroes are 1/3 duty cycle (~416ns) and ones
# are 2/3 duty cycle (~833ns).
text_program = """
.program ws2812
.side_set 1
.wrap_target
bitloop:
out x 1 side 0 [1]; Side-set still takes place when instruction stalls
jmp !x do_zero side 1 [1]; Branch on the bit we shifted out. Positive pulse
do_one:
jmp bitloop side 1 [1]; Continue driving high, for a long pulse
do_zero:
nop side 0 [1]; Or drive low, for a short pulse
.wrap
"""
program = adafruit_pioasm.Program(text_program, build_debuginfo=True)
program.print_c_program("pio_ws2812", qualifier="static const")
program = adafruit_pioasm.Program(text_program, build_debuginfo=False)
program.print_c_program("pio_ws2812_short")

263
examples/pioasm_pulsegroup.py
View file

@ -1,263 +0,0 @@
# SPDX-FileCopyrightText: 2022 Jeff Epler, written for Adafruit Industries
#
# SPDX-License-Identifier: MIT
#
# Heavy inspiration from Pimoroni's "PWM Cluster":
# https://github.com/pimoroni/pimoroni-pico/blob/main/drivers/pwm/pwm_cluster.cpp
# https://github.com/pimoroni/pimoroni-pico/blob/main/drivers/pwm/pwm_cluster.pio
import array
import adafruit_ticks
import board
import rp2pio
import ulab.numpy as np
from adafruit_motor import servo
import adafruit_pioasm
_cycle_count = 3
_program = adafruit_pioasm.Program(
"""
.wrap_target
out pins, 32 ; Immediately set the pins to their new state
out y, 32 ; Set the counter
count_check:
jmp y-- delay ; Check if the counter is 0, and if so wrap around.
; If not decrement the counter and jump to the delay
.wrap
delay:
jmp count_check [1] ; Wait a few cycles then jump back to the loop
"""
)
class PulseItem:
def __init__(self, group, index, phase, maxval):
self._group = group
self._index = index
self._phase = phase
self._value = 0
self._maxval = maxval
self._turn_on = self._turn_off = None
self._mask = 1 << index
@property
def frequency(self):
return self._group.frequency
@property
def duty_cycle(self):
return self._value
@duty_cycle.setter
def duty_cycle(self, value):
if value < 0 or value > self._maxval:
raise ValueError(f"value must be in the range(0, {self._maxval+1})")
self._value = value
self._recalculate()
@property
def phase(self):
return self._phase
@phase.setter
def phase(self, phase):
if phase < 0 or phase >= self._maxval:
raise ValueError(f"phase must be in the range(0, {self._maxval})")
self._phase = phase
self._recalculate()
def _recalculate(self):
self._turn_on = self._get_turn_on()
self._turn_off = self._get_turn_off()
self._group._maybe_update()
def _get_turn_on(self):
maxval = self._maxval
if self._value == 0:
return None
if self._value == self._maxval:
return 0
return self.phase % maxval
def _get_turn_off(self):
maxval = self._maxval
if self._value == 0:
return None
if self._value == self._maxval:
return None
return (self._value + self.phase) % maxval
def __str__(self):
return f"<PulseItem: {self.duty_cycle=} {self.phase=} {self._turn_on=} {self._turn_off=}>"
class PulseGroup:
def __init__(
self,
first_pin,
pin_count,
period=0.02,
maxval=65535,
stagger=False,
auto_update=True,
):
"""Create a pulse group with the given characteristics"""
self._frequency = round(1 / period)
pio_frequency = round((1 + maxval) * _cycle_count / period)
self._sm = rp2pio.StateMachine(
_program.assembled,
frequency=pio_frequency,
first_out_pin=first_pin,
out_pin_count=pin_count,
auto_pull=True,
pull_threshold=32,
**_program.pio_kwargs,
)
self._auto_update = auto_update
self._items = [
PulseItem(self, i, round(maxval * i / pin_count) if stagger else 0, maxval)
for i in range(pin_count)
]
self._maxval = maxval
@property
def frequency(self):
return self._frequency
def __enter__(self):
return self
def __exit__(self, exc_type, exc_value, traceback):
self.deinit()
def deinit(self):
self._sm.deinit()
del self._items[:]
def __getitem__(self, i):
"""Get an individual pulse generator"""
return self._items[i]
def __len__(self):
return len(self._items)
def update(self):
changes = {0: [0, 0]}
for i in self._items:
turn_on = i._turn_on
turn_off = i._turn_off
mask = i._mask
if turn_on is not None:
this_change = changes.get(turn_on)
if this_change:
this_change[0] |= mask
else:
changes[turn_on] = [mask, 0]
# start the cycle 'on'
if turn_off is not None and turn_off < turn_on:
changes[0][0] |= mask
if turn_off is not None:
this_change = changes.get(turn_off)
if this_change:
this_change[1] |= mask
else:
changes[turn_off] = [0, mask]
def make_sequence():
sorted_changes = sorted(changes.items())
# Note that the first change time is always 0! Loop over range(len) is
# to reduce allocations
old_time = 0
value = 0
for time, (turn_on, turn_off) in sorted_changes:
if time != 0: # never occurs on the first iteration
yield time - old_time - 1
old_time = time
value = (value | turn_on) & ~turn_off
yield value
# the final delay value
yield self._maxval - old_time
buf = array.array("L", make_sequence())
self._sm.background_write(loop=buf)
def _maybe_update(self):
if self._auto_update:
self.update()
@property
def auto_update(self):
return self.auto_update
@auto_update.setter
def auto_update(self, value):
self.auto_update = bool(value)
def __str__(self):
return f"<PulseGroup({len(self)})>"
class CyclicSignal:
def __init__(self, data, phase=0):
self._data = data
self._phase = 0
self.phase = phase
self._scale = len(self._data) - 1
@property
def phase(self):
return self._phase
@phase.setter
def phase(self, value):
self._phase = value % 1
@property
def value(self):
idxf = self._phase * len(self._data)
idx = int(idxf)
frac = idxf % 1
idx1 = (idx + 1) % len(self._data)
val = self._data[idx]
val1 = self._data[idx1]
return val + (val1 - val) * frac
def advance(self, delta):
self._phase = (self._phase + delta) % 1
if __name__ == "__main__":
pulsers = PulseGroup(board.SERVO_1, 18, auto_update=False)
# Set the phase of each servo so that servo 0 starts at offset 0ms, servo 1
# at offset 2.5ms, ...
# For up to 8 servos, this means their duty cycles do not overlap. Otherwise,
# servo 9 is also at offset 0ms, etc.
for j, p in enumerate(pulsers):
p.phase = 8192 * (j % 8)
servos = [servo.Servo(p) for p in pulsers]
sine = np.sin(np.linspace(0, 2 * np.pi, 50, endpoint=False)) * 0.5 + 0.5
print(sine)
signals = [CyclicSignal(sine, j / len(servos)) for j in range(len(servos))]
t0 = adafruit_ticks.ticks_ms()
while True:
t1 = adafruit_ticks.ticks_ms()
for servo, signal in zip(servos, signals):
signal.advance((t1 - t0) / 8000)
servo.fraction = signal.value
pulsers.update()
print(adafruit_ticks.ticks_diff(t1, t0), "ms")
t0 = t1

86
examples/pioasm_rp2350_fifo.py
View file

@ -1,86 +0,0 @@
# SPDX-FileCopyrightText: 2024 Jeff Epler, written for Adafruit Industries
#
# SPDX-License-Identifier: MIT
"""A PIO demo that uses the FIFO in random access mode
Random access mode is a new feature of the PIO peripheral of the RP2350.
This demo is not compatible with the original RP2040 or Raspberry Pi
Pico.
Wiring:
* LED with current limiting resistor on GP25 (Pico 2 standard location)
The LED will blink in several patterns depending on the values loaded in the 'rxfifo' registers
"""
import array
import time
import board
import rp2pio
import adafruit_pioasm
program = adafruit_pioasm.Program(
"""
.pio_version 1
.set 1
.fifo txget
; LED on time taken from rxfifo[0]
mov osr, rxfifo[0]
mov x, osr
set pins, 1
xloop1:
jmp x--, xloop1
; LED off time taken from rxfifo[1]
mov osr, rxfifo[1]
mov x, osr
set pins, 0
xloop2:
jmp x--, xloop2
"""
)
def assign_uint32s(ar, off, *args):
"""Assign multiple 32-bit registers within an AddressRange"""
vv = b"".join(v.to_bytes(4, "little") for v in args)
ar[off : off + 4 * len(args)] = vv
print(program.pio_kwargs)
sm = rp2pio.StateMachine(
program.assembled,
first_set_pin=board.GP25,
frequency=10_000_000,
**program.pio_kwargs,
)
fifo = sm.rxfifo
# Set non-zero register entries & re-start the state machine at its offset.
# this is needed because the default register value could represent a very long delay
fifo[0:4] = b"\1\0\0\0"
fifo[4:8] = b"\1\0\0\0"
sm.run(array.array("H", [sm.offset]))
while True:
# equal blinks
assign_uint32s(fifo, 0, 2000000, 2000000)
time.sleep(1)
# small on time
assign_uint32s(fifo, 0, 1000000, 3000000)
time.sleep(1)
# small off time
assign_uint32s(fifo, 0, 3000000, 1000000)
time.sleep(1)
# slower blinks
assign_uint32s(fifo, 0, 3000000, 3000000)
time.sleep(1)

4
examples/pioasm_simpletest.py
View file

@ -3,10 +3,8 @@
# SPDX-License-Identifier: MIT # SPDX-License-Identifier: MIT
import time import time
import board
import rp2pio import rp2pio
import board
import adafruit_pioasm import adafruit_pioasm
squarewave = """ squarewave = """

54
examples/pioasm_txuart.py
View file

@ -1,54 +0,0 @@
# SPDX-FileCopyrightText: 2021 Jeff Epler, written for Adafruit Industries
#
# SPDX-License-Identifier: MIT
import rp2pio
import adafruit_pioasm
code = adafruit_pioasm.Program(
"""
.program uart_tx
.side_set 1 opt
; An 8n1 UART transmit program.
; OUT pin 0 and side-set pin 0 are both mapped to UART TX pin.
pull side 1 [7] ; Assert stop bit, or stall with line in idle state
set x, 7 side 0 [7] ; Preload bit counter, assert start bit for 8 clocks
bitloop: ; This loop will run 8 times (8n1 UART)
out pins, 1 ; Shift 1 bit from OSR to the first OUT pin
jmp x-- bitloop [6] ; Each loop iteration is 8 cycles.
"""
)
class TXUART:
def __init__(self, *, tx, baudrate=9600):
self.pio = rp2pio.StateMachine(
code.assembled,
first_out_pin=tx,
first_sideset_pin=tx,
frequency=8 * baudrate,
initial_sideset_pin_state=1,
initial_sideset_pin_direction=1,
initial_out_pin_state=1,
initial_out_pin_direction=1,
**code.pio_kwargs,
)
@property
def timeout(self):
return 0
@property
def baudrate(self):
return self.pio.frequency // 8
@baudrate.setter
def baudrate(self, frequency):
self.pio.frequency = frequency * 8
def write(self, buf):
return self.pio.write(buf)

17
examples/pioasm_wrap.py
View file

@ -1,17 +0,0 @@
# SPDX-FileCopyrightText: 2022 Jeff Epler, written for Adafruit Industries
# SPDF-FileCopyrightText: 2020 Raspberry Pi (Trading) Ltd.
#
# SPDX-License-Identifier: BSD-3-Clause
import adafruit_pioasm
program = adafruit_pioasm.Program(
"""
set pindirs, 1
.wrap_target
set pins, 0
set pins, 1
.wrap""",
build_debuginfo=True,
)
program.print_c_program("test")

9
examples/pioasm_rotaryencoder.py → examples/rotaryencoder.py
View file

@ -5,12 +5,11 @@
# This example is adapted in part from micropython: # This example is adapted in part from micropython:
# https://github.com/micropython/micropython/pull/6894/files # https://github.com/micropython/micropython/pull/6894/files
import array import adafruit_pioasm
import board import board
import rp2pio import rp2pio
import array
import adafruit_pioasm import digitalio
class IncrementalEncoder: class IncrementalEncoder:
@ -112,6 +111,8 @@ encoder = IncrementalEncoder(board.GP2, board.GP3)
old_value = None old_value = None
while True: while True:
gen()
value = encoder.value value = encoder.value
if old_value != value: if old_value != value:
print("Encoder:", value) print("Encoder:", value)

1
examples/pioasm_rxuart.py → examples/rxuart.py
View file

@ -3,7 +3,6 @@
# SPDX-License-Identifier: MIT # SPDX-License-Identifier: MIT
import rp2pio import rp2pio
import adafruit_pioasm import adafruit_pioasm
code = adafruit_pioasm.assemble( code = adafruit_pioasm.assemble(

3
optional_requirements.txt
View file

@ -1,3 +0,0 @@
# SPDX-FileCopyrightText: 2022 Alec Delaney, for Adafruit Industries
#
# SPDX-License-Identifier: Unlicense

47
pyproject.toml
View file

@ -1,45 +1,6 @@
# SPDX-FileCopyrightText: 2022 Alec Delaney for Adafruit Industries # SPDX-FileCopyrightText: 2020 Diego Elio Pettenò
# #
# SPDX-License-Identifier: MIT # SPDX-License-Identifier: Unlicense
[build-system] [tool.black]
requires = [ target-version = ['py35']
"setuptools",
"wheel",
"setuptools-scm",
]
[project]
name = "adafruit-circuitpython-pioasm"
description = "Simple assembler to convert pioasm to bytes"
version = "0.0.0+auto.0"
readme = "README.rst"
authors = [
{name = "Adafruit Industries", email = "circuitpython@adafruit.com"}
]
urls = {Homepage = "https://github.com/adafruit/Adafruit_CircuitPython_PIOASM"}
keywords = [
"adafruit",
"blinka",
"circuitpython",
"micropython",
"pioasm",
"rp2040",
]
license = {text = "MIT"}
classifiers = [
"Intended Audience :: Developers",
"Topic :: Software Development :: Libraries",
"Topic :: Software Development :: Embedded Systems",
"Topic :: System :: Hardware",
"License :: OSI Approved :: MIT License",
"Programming Language :: Python :: 3",
]
dynamic = ["dependencies", "optional-dependencies"]
[tool.setuptools]
py-modules = ["adafruit_pioasm"]
[tool.setuptools.dynamic]
dependencies = {file = ["requirements.txt"]}
optional-dependencies = {optional = {file = ["optional_requirements.txt"]}}

5
requirements.txt
View file

@ -1,5 +1,6 @@
# SPDX-FileCopyrightText: 2022 Alec Delaney, for Adafruit Industries # SPDX-FileCopyrightText: 2017 Scott Shawcroft, written for Adafruit Industries
# SPDX-FileCopyrightText: Copyright (c) 2021 Scott Shawcroft for Adafruit Industries LLC
# #
# SPDX-License-Identifier: Unlicense # SPDX-License-Identifier: MIT
Adafruit-Blinka Adafruit-Blinka

112
ruff.toml
View file

@ -1,112 +0,0 @@
# SPDX-FileCopyrightText: 2024 Tim Cocks for Adafruit Industries
#
# SPDX-License-Identifier: MIT
target-version = "py38"
line-length = 100
[lint]
preview = true
select = ["I", "PL", "UP"]
extend-select = [
"D419", # empty-docstring
"E501", # line-too-long
"W291", # trailing-whitespace
"PLC0414", # useless-import-alias
"PLC2401", # non-ascii-name
"PLC2801", # unnecessary-dunder-call
"PLC3002", # unnecessary-direct-lambda-call
"E999", # syntax-error
"PLE0101", # return-in-init
"F706", # return-outside-function
"F704", # yield-outside-function
"PLE0116", # continue-in-finally
"PLE0117", # nonlocal-without-binding
"PLE0241", # duplicate-bases
"PLE0302", # unexpected-special-method-signature
"PLE0604", # invalid-all-object
"PLE0605", # invalid-all-format
"PLE0643", # potential-index-error
"PLE0704", # misplaced-bare-raise
"PLE1141", # dict-iter-missing-items
"PLE1142", # await-outside-async
"PLE1205", # logging-too-many-args
"PLE1206", # logging-too-few-args
"PLE1307", # bad-string-format-type
"PLE1310", # bad-str-strip-call
"PLE1507", # invalid-envvar-value
"PLE2502", # bidirectional-unicode
"PLE2510", # invalid-character-backspace
"PLE2512", # invalid-character-sub
"PLE2513", # invalid-character-esc
"PLE2514", # invalid-character-nul
"PLE2515", # invalid-character-zero-width-space
"PLR0124", # comparison-with-itself
"PLR0202", # no-classmethod-decorator
"PLR0203", # no-staticmethod-decorator
"UP004", # useless-object-inheritance
"PLR0206", # property-with-parameters
"PLR0904", # too-many-public-methods
"PLR0911", # too-many-return-statements
"PLR0912", # too-many-branches
"PLR0913", # too-many-arguments
"PLR0914", # too-many-locals
"PLR0915", # too-many-statements
"PLR0916", # too-many-boolean-expressions
"PLR1702", # too-many-nested-blocks
"PLR1704", # redefined-argument-from-local
"PLR1711", # useless-return
"C416", # unnecessary-comprehension
"PLR1733", # unnecessary-dict-index-lookup
"PLR1736", # unnecessary-list-index-lookup
# ruff reports this rule is unstable
#"PLR6301", # no-self-use
"PLW0108", # unnecessary-lambda
"PLW0120", # useless-else-on-loop
"PLW0127", # self-assigning-variable
"PLW0129", # assert-on-string-literal
"B033", # duplicate-value
"PLW0131", # named-expr-without-context
"PLW0245", # super-without-brackets
"PLW0406", # import-self
"PLW0602", # global-variable-not-assigned
"PLW0603", # global-statement
"PLW0604", # global-at-module-level
# fails on the try: import typing used by libraries
#"F401", # unused-import
"F841", # unused-variable
"E722", # bare-except
"PLW0711", # binary-op-exception
"PLW1501", # bad-open-mode
"PLW1508", # invalid-envvar-default
"PLW1509", # subprocess-popen-preexec-fn
"PLW2101", # useless-with-lock
"PLW3301", # nested-min-max
]
ignore = [
"PLR2004", # magic-value-comparison
"UP030", # format literals
"PLW1514", # unspecified-encoding
"PLR0913", # too-many-arguments
"PLR0915", # too-many-statements
"PLR0917", # too-many-positional-arguments
"PLR0904", # too-many-public-methods
"PLR0912", # too-many-branches
"PLR0916", # too-many-boolean-expressions
"PLR6301", # could-be-static no-self-use
"PLC0415", # import outside toplevel
"PLC2701", # private import
"PLW2901", # loop var overwrite
"PLR1702", # too many nested blocks
"PLR1714", # multiple comparisons
"PLR0914", # too many local vars
]
[format]
line-ending = "lf"

60
setup.py Normal file
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# SPDX-FileCopyrightText: 2017 Scott Shawcroft, written for Adafruit Industries
# SPDX-FileCopyrightText: Copyright (c) 2021 Scott Shawcroft for Adafruit Industries LLC
#
# SPDX-License-Identifier: MIT
"""A setuptools based setup module.
See:
https://packaging.python.org/en/latest/distributing.html
https://github.com/pypa/sampleproject
"""
from setuptools import setup, find_packages
# To use a consistent encoding
from codecs import open
from os import path
here = path.abspath(path.dirname(__file__))
# Get the long description from the README file
with open(path.join(here, "README.rst"), encoding="utf-8") as f:
long_description = f.read()
setup(
name="adafruit-circuitpython-pioasm",
use_scm_version=True,
setup_requires=["setuptools_scm"],
description="Simple assembler to convert pioasm to bytes",
long_description=long_description,
long_description_content_type="text/x-rst",
# The project's main homepage.
url="https://github.com/adafruit/Adafruit_CircuitPython_PIOASM",
# Author details
author="Adafruit Industries",
author_email="circuitpython@adafruit.com",
install_requires=[
"Adafruit-Blinka",
],
# Choose your license
license="MIT",
# See https://pypi.python.org/pypi?%3Aaction=list_classifiers
classifiers=[
"Development Status :: 3 - Alpha",
"Intended Audience :: Developers",
"Topic :: Software Development :: Libraries",
"Topic :: System :: Hardware",
"License :: OSI Approved :: MIT License",
"Programming Language :: Python :: 3",
"Programming Language :: Python :: 3.4",
"Programming Language :: Python :: 3.5",
],
# What does your project relate to?
keywords="adafruit blinka circuitpython micropython pioasm rp2040",
# You can just specify the packages manually here if your project is
# simple. Or you can use find_packages().
# TODO: IF LIBRARY FILES ARE A PACKAGE FOLDER,
# CHANGE `py_modules=['...']` TO `packages=['...']`
py_modules=["adafruit_pioasm"],
)

1239
tests/all_pio_instructions.py
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50
tests/pytest_helpers.py
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# SPDX-FileCopyrightText: 2021 Jeff Epler, written for Adafruit Industries
#
# SPDX-License-Identifier: MIT
"""
Pytest helper functions
"""
try:
from typing import Any, List, Optional, Type
except ImportError:
pass
import pytest
import adafruit_pioasm
def nice_opcode(opcode: int) -> str:
nice = f"{opcode:016b}"
return nice[:3] + "_" + nice[3:8] + "_" + nice[8:]
def assert_assembles_to(source: str, expected: List[int]) -> None:
actual = adafruit_pioasm.assemble(source)
expected_bin = [nice_opcode(x) for x in expected]
actual_bin = [nice_opcode(x) for x in actual]
assert (
expected_bin == actual_bin
), f"Assembling {source!r}: Expected {expected_bin}, got {actual_bin}"
def assert_assembly_fails(
source: str, match: Optional[str] = None, errtype: Type[Exception] = RuntimeError
) -> None:
with pytest.raises(errtype, match=match):
adafruit_pioasm.assemble(source)
# if match:
# with pytest.raises(errtype, match=match):
# adafruit_pioasm.assemble(source)
# else:
# with pytest.raises(errtype):
# adafruit_pioasm.assemble(source)
def assert_pio_kwargs(source: str, **kw: Any) -> None:
program = adafruit_pioasm.Program(source)
assert (
kw == program.pio_kwargs
), f"Assembling {source!r}: Expected {kw}, got {program.pio_kwargs}"

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tests/test_all.py
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# SPDX-FileCopyrightText: 2024 Jeff Epler, written for Adafruit Industries
#
# SPDX-License-Identifier: MIT
import all_pio_instructions
import pytest
from pytest_helpers import assert_assembles_to
def _assert_one(expected, instruction_in, fifo="putget"):
program = f"""
.program all_pio
.pio_version 1
.fifo {fifo}
{instruction_in}
"""
assert_assembles_to(program, [expected])
def assert_one(expected, instruction_in):
if isinstance(instruction_in, str):
return _assert_one(expected, instruction_in)
return _assert_one(expected, instruction_in[0], **instruction_in[1])
@pytest.mark.parametrize("arg", all_pio_instructions.all_instruction.items())
def test_all(arg):
expected = arg[0]
instruction = arg[1]
assert_one(expected, instruction)

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tests/test_in.py
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# SPDX-FileCopyrightText: KB Sriram
#
# SPDX-License-Identifier: MIT
"""
Tests in
"""
import pytest
from pytest_helpers import assert_assembles_to, assert_assembly_fails
@pytest.mark.parametrize(
"source,expected",
[
("pins", 0b000),
("x", 0b001),
("y", 0b010),
("null", 0b011),
("isr", 0b110),
("osr", 0b111),
],
)
def test_in_sources(source: str, expected: int) -> None:
# delay src bitcount
encoding = 0b010_00000_000_10001
# add in the expected source
encoding |= expected << 5
assert_assembles_to(f"in {source}, 17", [encoding])
@pytest.mark.parametrize("delay", [0, 1, 9, 17, 31])
def test_in_delay(delay: int) -> None:
# delay src bitcount
encoding = 0b010_00000_000_10001
# add in the expected delay
encoding |= delay << 8
assert_assembles_to(f"in pins, 17 [{delay}]", [encoding])
@pytest.mark.parametrize("bitcount", [1, 9, 17, 32])
def test_in_bitcount(bitcount: int) -> None:
# delay dst bitcount
encoding = 0b010_00000_000_00000
# add in the expected bitcount. Note that
# 32 should be encoded as 0, which we do by
# masking the bitcount with 0x1f
encoding |= bitcount & 0x1F
assert_assembles_to(f"in pins, {bitcount}", [encoding])
def test_in_delay_with_sideset() -> None:
source = [
".side_set 2",
"in pins 17 side 2 [5]",
]
assert_assembles_to("\n".join(source), [0b010_10_101_000_10001])
def test_in_bad_source() -> None:
assert_assembly_fails("in bad, 17", match="Invalid in source 'bad'", errtype=ValueError)
def test_in_bad_bitcount() -> None:
assert_assembly_fails("in pins, 0", match="Count out of range", errtype=RuntimeError)

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tests/test_label.py
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# SPDX-FileCopyrightText: 2024 Jeff Epler for Adafruit Industries
#
# SPDX-License-Identifier: MIT
"""
Tests out
"""
from pytest_helpers import assert_assembly_fails
import adafruit_pioasm
def test_label() -> None:
source = [
" jmp label1",
"label1:",
" jmp label2",
"public label2:",
" nop",
]
program = adafruit_pioasm.Program("\n".join(source))
assert program.public_labels == {"label2": 2}
# Test each combination of public/privagte label duplication
source = [
"label1:\n",
"nop\n",
"public label1:\n",
"nop\n",
]
assert_assembly_fails("\n".join(source), match="Duplicate label", errtype=SyntaxError)
source = [
"label1:\n",
" nop\n",
"label1:\n",
" nop\n",
]
assert_assembly_fails("\n".join(source), match="Duplicate label", errtype=SyntaxError)
source = [
"public label1:\n",
" nop\n",
"label1:\n",
" nop\n",
]
assert_assembly_fails("\n".join(source), match="Duplicate label", errtype=SyntaxError)
source = [
"public label1:\n",
" nop\n",
"public label1:\n",
" nop\n",
]
assert_assembly_fails("\n".join(source), match="Duplicate label", errtype=SyntaxError)

35
tests/test_misc.py
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@ -1,35 +0,0 @@
# SPDX-FileCopyrightText: KB Sriram
#
# SPDX-License-Identifier: MIT
"""
Tests out
"""
from pytest_helpers import assert_assembly_fails
def test_invalid_sideset() -> None:
source = [
".side_set 2",
"side 2 [5]",
]
assert_assembly_fails(
"\n".join(source), match="Unknown instruction: side", errtype=RuntimeError
)
source = [
".side_set 2",
"side 2",
]
assert_assembly_fails(
"\n".join(source), match="Unknown instruction: side", errtype=RuntimeError
)
def test_invalid_delay() -> None:
assert_assembly_fails("[5]", match=r"Unknown instruction: \[5\]", errtype=RuntimeError)
def test_invalid_instruction() -> None:
assert_assembly_fails("bad", match=r"Unknown instruction: bad", errtype=RuntimeError)

27
tests/test_mov.py
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# SPDX-FileCopyrightText: 2021 Jeff Epler, written for Adafruit Industries
#
# SPDX-License-Identifier: MIT
"""
Tests mov
"""
from pytest_helpers import assert_assembles_to, assert_assembly_fails
def test_mov_non_happy() -> None:
# non happy path
assert_assembly_fails("mov x, blah", match="Invalid mov source 'blah'", errtype=ValueError)
def test_mov_invert() -> None:
# test moving and inverting
assert_assembles_to("mov x, ~ x", [0b101_00000_001_01_001])
assert_assembles_to("mov x, ~x", [0b101_00000_001_01_001])
assert_assembles_to("mov x, !x", [0b101_00000_001_01_001])
def test_mov_reverse() -> None:
# test moving and reversing bits
assert_assembles_to("mov x, :: x", [0b101_00000_001_10_001])
assert_assembles_to("mov x, ::x", [0b101_00000_001_10_001])

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tests/test_nop.py
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# SPDX-FileCopyrightText: 2021 Jeff Epler, written for Adafruit Industries
#
# SPDX-License-Identifier: MIT
"""
Tests nop
"""
from pytest_helpers import assert_assembles_to, assert_assembly_fails, assert_pio_kwargs
def test_nonsense() -> None:
assert_assembly_fails("nope")
def test_nop() -> None:
assert_assembles_to("nop", [0b101_00000_010_00_010])
assert_assembles_to("nop\nnop", [0b101_00000_010_00_010, 0b101_00000_010_00_010])
assert_assembles_to("nop [1]", [0b101_00001_010_00_010])
assert_assembles_to("nop [31]", [0b101_11111_010_00_010])
assert_assembles_to(".side_set 1\nnop side 1", [0b101_10000_010_00_010])
assert_assembles_to(".side_set 1\nnop side 1 [15]", [0b101_11111_010_00_010])
def test_sideset_opt() -> None:
assert_assembles_to(".side_set 1 opt\nnop side 1", [0b101_11000_010_00_010])
assert_assembles_to(".side_set 1 opt\nnop side 0", [0b101_10000_010_00_010])
assert_assembles_to(".side_set 1 opt\nnop side 0 [1]", [0b101_10001_010_00_010])
assert_assembles_to(".side_set 1 opt\nnop [1]", [0b101_00001_010_00_010])
assert_assembles_to(".side_set 1 opt\nnop [7]", [0b101_00111_010_00_010])
assert_assembles_to(".side_set 1 opt\nnop side 1 [1]", [0b101_11001_010_00_010])
assert_assembles_to(".side_set 1 opt\nnop side 0 [7]", [0b101_10111_010_00_010])
def test_set() -> None:
# non happy path
assert_assembly_fails("set isr, 1", match="Invalid set destination 'isr'", errtype=ValueError)
def test_jmp() -> None:
assert_assembles_to("l:\njmp l", [0b000_00000_000_00000])
assert_assembles_to("l:\njmp 7", [0b000_00000_000_00111])
assert_assembles_to("jmp l\nl:", [0b000_00000_000_00001])
assert_assembles_to("jmp !x, l\nl:", [0b000_00000_001_00001])
assert_assembles_to("jmp x--, l\nl:", [0b000_00000_010_00001])
assert_assembles_to("jmp !y, l\nl:", [0b000_00000_011_00001])
assert_assembles_to("jmp y--, l\nl:", [0b000_00000_100_00001])
assert_assembles_to("jmp x!=y, l\nl:", [0b000_00000_101_00001])
assert_assembles_to("jmp pin, l\nl:", [0b000_00000_110_00001])
assert_assembles_to("jmp !osre, l\nl:", [0b000_00000_111_00001])
# non happy path
assert_assembly_fails(
"jmp x--., l\nl:", match="Invalid jmp condition 'x--.'", errtype=ValueError
)
def test_wait() -> None:
assert_assembles_to("wait 0 gpio 0", [0b001_00000_0_00_00000])
assert_assembles_to("wait 0 gpio 1", [0b001_00000_0_00_00001])
assert_assembles_to("wait 1 gpio 2", [0b001_00000_1_00_00010])
assert_assembles_to("wait 0 pin 0", [0b001_00000_0_01_00000])
assert_assembles_to("wait 0 pin 1", [0b001_00000_0_01_00001])
assert_assembles_to("wait 1 pin 2", [0b001_00000_1_01_00010])
assert_assembles_to("wait 0 irq 0", [0b001_00000_0_10_00000])
assert_assembles_to("wait 0 irq 0 rel", [0b001_00000_0_10_10000])
assert_assembles_to("wait 1 irq 0", [0b001_00000_1_10_00000])
assert_assembles_to("wait 0 irq 1 rel", [0b001_00000_0_10_10001])
def test_limits() -> None:
assert_assembly_fails(".side_set 1\nnop side 2")
assert_assembly_fails(".side_set 1\nnop side 2 [1]")
assert_assembly_fails("nop [32]")
assert_assembly_fails(".side_set 1\nnop side 0 [16]")
assert_assembly_fails(".side_set 1 opt\nnop side 0 [8]")
def test_cls() -> None:
assert_pio_kwargs("", sideset_enable=False)
assert_pio_kwargs(".side_set 1", sideset_pin_count=1, sideset_enable=False)
assert_pio_kwargs(".side_set 3 opt", sideset_pin_count=3, sideset_enable=True)

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tests/test_out.py
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# SPDX-FileCopyrightText: KB Sriram
#
# SPDX-License-Identifier: MIT
"""
Tests out
"""
import pytest
from pytest_helpers import assert_assembles_to, assert_assembly_fails
@pytest.mark.parametrize(
"destination,expected",
[
("pins", 0b000),
("x", 0b001),
("y", 0b010),
("null", 0b011),
("pindirs", 0b100),
("pc", 0b101),
("isr", 0b110),
("exec", 0b111),
],
)
def test_out_destinations(destination: str, expected: int) -> None:
# delay dst bitcount
encoding = 0b011_00000_000_10001
# add in the expected destination
encoding |= expected << 5
assert_assembles_to(f"out {destination}, 17", [encoding])
@pytest.mark.parametrize("delay", [0, 1, 9, 17, 31])
def test_out_delay(delay: int) -> None:
# delay dst bitcount
encoding = 0b011_00000_000_10001
# add in the expected delay
encoding |= delay << 8
assert_assembles_to(f"out pins, 17 [{delay}]", [encoding])
@pytest.mark.parametrize("bitcount", [1, 9, 17, 32])
def test_out_bitcount(bitcount: int) -> None:
# delay dst bitcount
encoding = 0b011_00000_000_00000
# add in the expected bitcount. Note that
# 32 should be encoded as 0, which we do by
# masking the bitcount with 0x1f
encoding |= bitcount & 0x1F
assert_assembles_to(f"out pins, {bitcount}", [encoding])
def test_out_delay_with_sideset() -> None:
source = [
".side_set 2",
"out pins 17 side 2 [5]",
]
assert_assembles_to("\n".join(source), [0b011_10_101_000_10001])
def test_out_bad_destination() -> None:
assert_assembly_fails("out bad, 17", match="Invalid out destination 'bad'", errtype=ValueError)
def test_out_bad_bitcount() -> None:
assert_assembly_fails("out pins, 0", match="Count out of range", errtype=RuntimeError)

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tests/test_print_c_program.py
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# SPDX-FileCopyrightText: 2025 Jeff Epler, written for Adafruit Industries
#
# SPDX-License-Identifier: MIT
import contextlib
import io
import adafruit_pioasm
def test_print_c_program():
output = io.StringIO()
with contextlib.redirect_stdout(output):
adafruit_pioasm.Program(".side_set 1 opt").print_c_program("mood")
c_program = output.getvalue()
assert "True" not in c_program
assert "sideset_enable = 1" in c_program

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tests/test_pseudo.py
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# SPDX-FileCopyrightText: 2021 Jeff Epler, written for Adafruit Industries
#
# SPDX-License-Identifier: MIT
"""
Tests pseudo-ops
"""
from pytest_helpers import assert_assembly_fails, assert_pio_kwargs
def test_offset() -> None:
assert_pio_kwargs(".origin 7", offset=7, sideset_enable=False)
assert_assembly_fails("nop\n.origin 7")
def test_sideset_pindirs() -> None:
assert_pio_kwargs(
".side_set 2 opt pindirs",
sideset_pin_count=2,
sideset_enable=True,
sideset_pindirs=True,
)
assert_pio_kwargs(
".side_set 2 pindirs",
sideset_pin_count=2,
sideset_enable=False,
sideset_pindirs=True,
)
# Setting not emitted (as =False) for backwards compat
assert_pio_kwargs(".side_set 2", sideset_pin_count=2, sideset_enable=False)

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tests/test_radix.py
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# SPDX-FileCopyrightText: 2021 Jeff Epler, written for Adafruit Industries
#
# SPDX-License-Identifier: MIT
"""
Tests radix
"""
from pytest_helpers import assert_assembles_to
def test_octal() -> None:
assert_assembles_to(".side_set 0o1\nset x, 0o11", [0b111_00000_001_01001])
def test_binary() -> None:
assert_assembles_to(".side_set 0b101\nnop side 0b10001", [0b101_10001_010_00_010])
def test_hex() -> None:
assert_assembles_to(".side_set 0x0\nnop [0x10]", [0b101_10000_010_00_010])

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tests/test_version.py
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# SPDX-FileCopyrightText: 2024 Jeff Epler, written for Adafruit Industries
#
# SPDX-License-Identifier: MIT
"""
Tests version dependent instructions
"""
from pytest_helpers import assert_assembles_to, assert_assembly_fails, assert_pio_kwargs
def test_version() -> None:
assert_pio_kwargs(".pio_version 0", sideset_enable=0)
assert_pio_kwargs(".pio_version 1", pio_version=1, sideset_enable=0)
assert_assembly_fails(".pio_version muffin", errtype=ValueError)
assert_assembly_fails(".pio_version -1")
def test_fifo() -> None:
assert_pio_kwargs(".fifo txrx", sideset_enable=0, fifo_type="txrx")
assert_pio_kwargs(".fifo auto", sideset_enable=0)
assert_assembly_fails(".fifo txput")
assert_pio_kwargs(
".pio_version 1\n.fifo txput",
pio_version=1,
sideset_enable=0,
fifo_type="txput",
)
def test_mov_status() -> None:
assert_pio_kwargs(
".mov_status txfifo < 5",
sideset_enable=0,
mov_status_type="txfifo",
mov_status_n=5,
)
assert_pio_kwargs(
".mov_status rxfifo < 8",
sideset_enable=0,
mov_status_type="rxfifo",
mov_status_n=8,
)
assert_assembly_fails(".mov_status rxfifo < -1")
assert_assembly_fails(".mov_status rxfifo < 33")
assert_assembly_fails(".mov_status irq next set 3")
assert_pio_kwargs(
".pio_version 1\n.mov_status irq prev set 3",
pio_version=1,
sideset_enable=0,
mov_status_type="irq",
mov_status_n=3 | 0x8,
)
assert_pio_kwargs(
".pio_version 1\n.mov_status irq next set 3",
pio_version=1,
sideset_enable=0,
mov_status_type="irq",
mov_status_n=3 | 0x10,
)
assert_pio_kwargs(
".pio_version 1\n.mov_status irq set 3",
pio_version=1,
sideset_enable=0,
mov_status_type="irq",
mov_status_n=3,
)
assert_assembly_fails(".pio_version 1\n.mov_status irq prev set 9")
def test_dot_in() -> None:
assert_pio_kwargs(
".in 32 left auto 11",
sideset_enable=0,
auto_push=True,
push_threshold=11,
in_shift_right=False,
)
assert_assembly_fails(".in 16")
assert_pio_kwargs(
".pio_version 1\n.in 16 right",
pio_version=1,
sideset_enable=0,
in_pin_count=16,
auto_push=False,
in_shift_right=True,
)
def test_dot_out() -> None:
assert_pio_kwargs(
".out 32 left auto 11",
sideset_enable=0,
auto_pull=True,
pull_threshold=11,
out_shift_right=False,
)
assert_pio_kwargs(
".out 16 right",
sideset_enable=0,
out_pin_count=16,
auto_pull=False,
out_shift_right=True,
)
def test_dot_set() -> None:
assert_pio_kwargs(".set 5", sideset_enable=0, set_pin_count=5)
assert_assembly_fails(".set 16")
assert_assembly_fails(".pio_version 1\n.set 16")
assert_assembly_fails(".set 3")
assert_pio_kwargs(
".pio_version 1\n.set 3 right", pio_version=1, sideset_enable=0, set_pin_count=3
)
def test_irq_v1() -> None:
assert_assembly_fails("irq next 7")
assert_assembly_fails(".pio_version 1\nirq next 7 rel")
assert_assembles_to(".pio_version 1\nirq next 5", [0b110_00000_0_0_0_11_101])
assert_assembles_to(".pio_version 1\nirq wait prev 1", [0b110_00000_0_0_1_01_001])
def test_mov_v1() -> None:
assert_assembly_fails("mov osr, rxfifo[y]")
assert_assembly_fails(".pio_version 1\nmov osr, rxfifo[y]")
prefix = ".pio_version 1\n.fifo putget\n"
assert_assembly_fails(prefix + "mov osr, rxfifo[8]")
assert_assembles_to(prefix + "mov rxfifo[y], isr", [0b100_00000_0001_0_000])
assert_assembles_to(prefix + "mov osr, rxfifo[1]", [0b100_00000_1001_1_001])
assert_assembly_fails("mov pindirs, null", errtype=ValueError)
assert_assembles_to(prefix + "mov pindirs, null", [0b101_00000_01100011])
def test_wait_v1() -> None:
assert_assembly_fails("wait 0 jmppin")
assert_assembly_fails("wait 0 irq next 5")
prefix = ".pio_version 1\n"
assert_assembly_fails(prefix + "wait 0 jmppin +")
assert_assembly_fails(prefix + "wait 0 jmppin + 7")
assert_assembles_to(prefix + "wait 0 jmppin + 3", [0b001_00000_0_11_00011])
assert_assembles_to(prefix + "wait 1 jmppin", [0b001_00000_1_11_00000])
assert_assembles_to(prefix + "wait 0 irq next 5", [0b001_00000_0_10_11_101])
assert_assembles_to(prefix + "wait 1 irq prev 4", [0b001_00000_1_10_01_100])

19
tests/test_wrap.py
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@ -1,19 +0,0 @@
# SPDX-FileCopyrightText: 2021 Jeff Epler, written for Adafruit Industries
#
# SPDX-License-Identifier: MIT
"""
Tests wrap
"""
from pytest_helpers import assert_assembly_fails, assert_pio_kwargs
def test_wrap() -> None:
assert_assembly_fails(".wrap")
assert_pio_kwargs(
"nop\n.wrap_target\nnop\nnop\n.wrap",
sideset_enable=False,
wrap=2,
wrap_target=1,
)

69
tests/testpioasm.py Normal file
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@ -0,0 +1,69 @@
# SPDX-FileCopyrightText: 2021 Jeff Epler, written for Adafruit Industries
#
# SPDX-License-Identifier: MIT
# pylint: disable=missing-module-docstring,invalid-name,missing-function-docstring,missing-class-docstring
import pathlib
import sys
import unittest
sys.path.insert(0, str(pathlib.Path(__file__).absolute().parent.parent))
import adafruit_pioasm # pylint: disable=wrong-import-position
def nice_opcode(o):
o = f"{o:016b}"
return o[:3] + "_" + o[3:8] + "_" + o[8:]
class TestNop(unittest.TestCase):
def assertAssemblesTo(self, source, expected):
actual = adafruit_pioasm.assemble(source)
expected_bin = [nice_opcode(x) for x in expected]
actual_bin = [nice_opcode(x) for x in actual]
self.assertEqual(
expected_bin,
actual_bin,
f"Assembling {source!r}: Expected {expected_bin}, got {actual_bin}",
)
def assertAssemblyFails(self, source):
self.assertRaises(RuntimeError, adafruit_pioasm.assemble, source)
def testNonsense(self):
self.assertAssemblyFails("nope")
def testNop(self):
self.assertAssemblesTo("nop", [0b101_00000_010_00_010])
self.assertAssemblesTo(
"nop\nnop", [0b101_00000_010_00_010, 0b101_00000_010_00_010]
)
self.assertAssemblesTo("nop [1]", [0b101_00001_010_00_010])
self.assertAssemblesTo(".side_set 1\nnop side 1", [0b101_10000_010_00_010])
self.assertAssemblesTo(".side_set 1\nnop side 1 [1]", [0b101_10001_010_00_010])
def testJmp(self):
self.assertAssemblesTo("l:\njmp l", [0b000_00000_000_00000])
self.assertAssemblesTo("l:\njmp 7", [0b000_00000_000_00111])
self.assertAssemblesTo("jmp l\nl:", [0b000_00000_000_00001])
self.assertAssemblesTo("jmp !x, l\nl:", [0b000_00000_001_00001])
self.assertAssemblesTo("jmp x--, l\nl:", [0b000_00000_010_00001])
self.assertAssemblesTo("jmp !y, l\nl:", [0b000_00000_011_00001])
self.assertAssemblesTo("jmp y--, l\nl:", [0b000_00000_100_00001])
self.assertAssemblesTo("jmp x!=y, l\nl:", [0b000_00000_101_00001])
self.assertAssemblesTo("jmp pin, l\nl:", [0b000_00000_110_00001])
self.assertAssemblesTo("jmp !osre, l\nl:", [0b000_00000_111_00001])
def testWait(self):
self.assertAssemblesTo("wait 0 gpio 0", [0b001_00000_0_00_00000])
self.assertAssemblesTo("wait 0 gpio 1", [0b001_00000_0_00_00001])
self.assertAssemblesTo("wait 1 gpio 2", [0b001_00000_1_00_00010])
self.assertAssemblesTo("wait 0 pin 0", [0b001_00000_0_01_00000])
self.assertAssemblesTo("wait 0 pin 1", [0b001_00000_0_01_00001])
self.assertAssemblesTo("wait 1 pin 2", [0b001_00000_1_01_00010])
self.assertAssemblesTo("wait 0 irq 0", [0b001_00000_0_10_00000])
self.assertAssemblesTo("wait 0 irq 0 rel", [0b001_00000_0_10_10000])
self.assertAssemblesTo("wait 1 irq 0", [0b001_00000_1_10_00000])
self.assertAssemblesTo("wait 0 irq 1 rel", [0b001_00000_0_10_10001])

128
tools/make_all.py
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@ -1,128 +0,0 @@
# SPDX-FileCopyrightText: 2024 Jeff Epler, written for Adafruit Industries
#
# SPDX-License-Identifier: MIT
"""
Generate test cases for adafruit_pioasm, with expected results from sdk pioasm
"""
import re
from subprocess import check_output
PIOASM = "/home/jepler/src/circuitpython/ports/raspberrypi/sdk/tools/pioasm/build/pioasm"
def assemble_one_instruction(instruction_in):
if isinstance(instruction_in, str):
return _assemble_one_instruction(instruction_in)
return _assemble_one_instruction(instruction_in[0], **instruction_in[1])
def _assemble_one_instruction(instruction_in, fifo="putget"):
nops = "\n".join("nop" for _ in range(31))
program = f"""
.program all_pio
.pio_version 1
.fifo {fifo}
{instruction_in}
{nops}
"""
output = check_output([PIOASM, "/dev/stdin", "/dev/stdout"], input=program, encoding="utf-8")
return int(re.search("0x[0-9a-f]{4}", output).group(0), 16)
def all_jmp():
for i in range(32):
yield f"jmp {i}"
for cond in "!x", "x--", "!y", "y--", "x!=y", "pin", "!osre":
yield f"jmp {cond} {i}"
def all_wait():
for polarity in range(2):
yield f"wait {polarity} jmppin"
for source in "gpio", "pin":
for i in range(32):
yield f"wait {polarity} {source} {i}"
for i in range(8):
yield f"wait {polarity} irq {i} rel"
for what in "prev", "next":
yield f"wait {polarity} irq {what} {i}"
for i in range(1, 4):
yield f"wait {polarity} jmppin + {i}"
def all_in():
for source in "pins", "x", "y", "null", "isr", "osr":
for bit_count in range(1, 33):
yield f"in {source} {bit_count}"
def all_out():
for dest in "pins", "x", "y", "null", "pindirs", "pc", "isr", "exec":
for bit_count in range(1, 33):
yield f"out {dest} {bit_count}"
def all_push():
yield "push", {"fifo": "txrx"}
yield "push iffull block", {"fifo": "txrx"}
yield "push iffull noblock", {"fifo": "txrx"}
def all_pull():
yield "pull", {"fifo": "txrx"}
yield "pull ifempty block", {"fifo": "txrx"}
yield "pull ifempty noblock", {"fifo": "txrx"}
def all_mov():
for dest in ("pins", "x", "y", "pindirs", "exec", "pc", "isr", "osr"):
for source in ("pins", "x", "y", "null", "status", "isr", "osr"):
for operator in "", "~", "::":
yield f"mov {dest} {operator}{source}"
for where in 0, 1, 2, 3, "y":
yield f"mov rxfifo[{where}], isr"
yield f"mov osr, rxfifo[{where}]"
def all_irq():
for i in range(8):
yield f"irq {i}"
yield f"irq {i} rel"
for what in "prev", "next":
yield f"irq {what} {i}"
def all_set():
for dest in ("pins", "x", "y", "pindirs"):
for i in range(32):
yield f"set {dest} {i}"
def all_instructions():
yield from all_jmp()
yield from all_wait()
yield from all_in()
yield from all_out()
yield from all_push()
yield from all_pull()
yield from all_mov()
yield from all_irq()
yield from all_set()
if __name__ == "__main__":
print(
"""\
# SPDX-FileCopyrightText: 2024 Jeff Epler, written for Adafruit Industries
#
# SPDX-License-Identifier: MIT
# fmt: off
"""
)
print("all_instruction = {")
for instr in all_instructions():
assembled = assemble_one_instruction(instr)
print(f" {assembled}: {instr!r},")
print("}")