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base: CopterExpress:v0.26-alpha.1
Branches Tags
CopterExpress:master CopterExpress:bookworm CopterExpress:cleanup-build CopterExpress:backup-debs CopterExpress:fix-deps CopterExpress:bullseye CopterExpress:rtui CopterExpress:symlink-assets CopterExpress:save-debs CopterExpress:rtl8812au CopterExpress:simple-offboard-update CopterExpress:known_vertical CopterExpress:roswww-static-target CopterExpress:navigate-feedforward CopterExpress:terrain-frame CopterExpress:simulator CopterExpress:geographiclibs-datasets-cmake CopterExpress:test-raw-build CopterExpress:hitl CopterExpress:fix-build CopterExpress:clover-docs-docker CopterExpress:strict-warnings CopterExpress:vuepress CopterExpress:test_results CopterExpress:fix-gpio CopterExpress:web-params CopterExpress:install CopterExpress:22-armhf-update-os CopterExpress:ci-monitor CopterExpress:melodic-devel CopterExpress:web-improve CopterExpress:clover-mini CopterExpress:reduce-size CopterExpress:fix-builder CopterExpress:take_off_service CopterExpress:dec-depth CopterExpress:22 CopterExpress:raspios_64bit CopterExpress:ros-book CopterExpress:new-readme CopterExpress:travis_size_check CopterExpress:roslaunch_editor CopterExpress:www-header CopterExpress:buster-py3 CopterExpress:vpe-publisher-improve CopterExpress:clever4 CopterExpress:sitl-tests CopterExpress:md-indent-workaround CopterExpress:aruco_mapping CopterExpress:nti2019-novgorod CopterExpress:nti2019
CopterExpress:v0.25 CopterExpress:v0.26-alpha.1 CopterExpress:v0.24 CopterExpress:v0.24-alpha.1 CopterExpress:v0.23 CopterExpress:v0.23-rc.5 CopterExpress:v0.23-rc.4 CopterExpress:v0.23-rc.3 CopterExpress:v0.23-rc.2 CopterExpress:v0.23-rc.1 CopterExpress:v0.22 CopterExpress:0.21.3 CopterExpress:v0.22-alpha.6 CopterExpress:0.21.2 CopterExpress:v0.22-alpha.5 CopterExpress:v0.22-alpha.4 CopterExpress:v0.21.2-qboard.3 CopterExpress:v0.21.2-qboard.2 CopterExpress:v0.21.2-qboard.1 CopterExpress:v0.21.2 CopterExpress:v0.21.2-rc.1 CopterExpress:0.21.1 CopterExpress:v0.21.1 CopterExpress:v0.22-alpha.3 CopterExpress:v0.21 CopterExpress:v0.21-alpha.2 CopterExpress:v0.22-alpha.2 CopterExpress:v0.22-alpha.1 CopterExpress:v0.21-alpha.1 CopterExpress:v0.20-rc.3 CopterExpress:v0.20 CopterExpress:v0.20-rc.2 CopterExpress:v0.20-rc.1 CopterExpress:v0.20-alpha.1 CopterExpress:v0.19 CopterExpress:v0.19-rc.2 CopterExpress:v0.19-rc.1 CopterExpress:v0.19-alpha.3 CopterExpress:v0.19-alpha.2 CopterExpress:v0.19-alpha.1 CopterExpress:v0.19-alpha CopterExpress:v0.18 CopterExpress:v0.18-rc.1 CopterExpress:v0.17 CopterExpress:v0.17-rc.3 CopterExpress:v0.17-rc.2 CopterExpress:v0.17-rc.1 CopterExpress:v0.16-nti2019.01 CopterExpress:v0.16-nti2019.0 CopterExpress:v0.16 CopterExpress:v0.16-alpha.4 CopterExpress:v0.16-alpha.3 CopterExpress:v0.16-alpha.2 CopterExpress:v0.16-alpha.1 CopterExpress:v0.15.1 CopterExpress:v0.15 CopterExpress:v0.14 CopterExpress:v0.13 CopterExpress:v0.12 CopterExpress:v0.11.4 CopterExpress:v0.11.3 CopterExpress:v0.11.2 CopterExpress:v0.11.1 CopterExpress:v0.11 CopterExpress:v0.10.1 CopterExpress:v0.10 CopterExpress:v0.9 CopterExpress:v0.8.1 CopterExpress:v0.8 CopterExpress:v0.7 CopterExpress:v0.6 CopterExpress:v0.5 CopterExpress:v0.4 CopterExpress:v0.3
..
compare: CopterExpress:v0.20-alpha.1
Branches Tags
CopterExpress:master CopterExpress:bookworm CopterExpress:cleanup-build CopterExpress:backup-debs CopterExpress:fix-deps CopterExpress:bullseye CopterExpress:rtui CopterExpress:symlink-assets CopterExpress:save-debs CopterExpress:rtl8812au CopterExpress:simple-offboard-update CopterExpress:known_vertical CopterExpress:roswww-static-target CopterExpress:navigate-feedforward CopterExpress:terrain-frame CopterExpress:simulator CopterExpress:geographiclibs-datasets-cmake CopterExpress:test-raw-build CopterExpress:hitl CopterExpress:fix-build CopterExpress:clover-docs-docker CopterExpress:strict-warnings CopterExpress:vuepress CopterExpress:test_results CopterExpress:fix-gpio CopterExpress:web-params CopterExpress:install CopterExpress:22-armhf-update-os CopterExpress:ci-monitor CopterExpress:melodic-devel CopterExpress:web-improve CopterExpress:clover-mini CopterExpress:reduce-size CopterExpress:fix-builder CopterExpress:take_off_service CopterExpress:dec-depth CopterExpress:22 CopterExpress:raspios_64bit CopterExpress:ros-book CopterExpress:new-readme CopterExpress:travis_size_check CopterExpress:roslaunch_editor CopterExpress:www-header CopterExpress:buster-py3 CopterExpress:vpe-publisher-improve CopterExpress:clever4 CopterExpress:sitl-tests CopterExpress:md-indent-workaround CopterExpress:aruco_mapping CopterExpress:nti2019-novgorod CopterExpress:nti2019
CopterExpress:v0.25 CopterExpress:v0.26-alpha.1 CopterExpress:v0.24 CopterExpress:v0.24-alpha.1 CopterExpress:v0.23 CopterExpress:v0.23-rc.5 CopterExpress:v0.23-rc.4 CopterExpress:v0.23-rc.3 CopterExpress:v0.23-rc.2 CopterExpress:v0.23-rc.1 CopterExpress:v0.22 CopterExpress:0.21.3 CopterExpress:v0.22-alpha.6 CopterExpress:0.21.2 CopterExpress:v0.22-alpha.5 CopterExpress:v0.22-alpha.4 CopterExpress:v0.21.2-qboard.3 CopterExpress:v0.21.2-qboard.2 CopterExpress:v0.21.2-qboard.1 CopterExpress:v0.21.2 CopterExpress:v0.21.2-rc.1 CopterExpress:0.21.1 CopterExpress:v0.21.1 CopterExpress:v0.22-alpha.3 CopterExpress:v0.21 CopterExpress:v0.21-alpha.2 CopterExpress:v0.22-alpha.2 CopterExpress:v0.22-alpha.1 CopterExpress:v0.21-alpha.1 CopterExpress:v0.20-rc.3 CopterExpress:v0.20 CopterExpress:v0.20-rc.2 CopterExpress:v0.20-rc.1 CopterExpress:v0.20-alpha.1 CopterExpress:v0.19 CopterExpress:v0.19-rc.2 CopterExpress:v0.19-rc.1 CopterExpress:v0.19-alpha.3 CopterExpress:v0.19-alpha.2 CopterExpress:v0.19-alpha.1 CopterExpress:v0.19-alpha CopterExpress:v0.18 CopterExpress:v0.18-rc.1 CopterExpress:v0.17 CopterExpress:v0.17-rc.3 CopterExpress:v0.17-rc.2 CopterExpress:v0.17-rc.1 CopterExpress:v0.16-nti2019.01 CopterExpress:v0.16-nti2019.0 CopterExpress:v0.16 CopterExpress:v0.16-alpha.4 CopterExpress:v0.16-alpha.3 CopterExpress:v0.16-alpha.2 CopterExpress:v0.16-alpha.1 CopterExpress:v0.15.1 CopterExpress:v0.15 CopterExpress:v0.14 CopterExpress:v0.13 CopterExpress:v0.12 CopterExpress:v0.11.4 CopterExpress:v0.11.3 CopterExpress:v0.11.2 CopterExpress:v0.11.1 CopterExpress:v0.11 CopterExpress:v0.10.1 CopterExpress:v0.10 CopterExpress:v0.9 CopterExpress:v0.8.1 CopterExpress:v0.8 CopterExpress:v0.7 CopterExpress:v0.6 CopterExpress:v0.5 CopterExpress:v0.4 CopterExpress:v0.3

23 Commits
v0.26-alph ... v0.20-alph

Author SHA1 Message Date
Alexey Rogachevskiy
cda7858fb9 clover: Update ros3djs, THREE.js 2020-03-19 21:44:16 +03:00
Alexey Rogachevskiy
a01d199890 selfcheck: Be more Python3-compatible 2020-03-19 21:21:21 +03:00
Alexey Rogachevskiy
63a792b29d aruco_pose: Use python2 shebang 
This shebang will be ignored with newer dynamic_reconfigure packages, and its presence should allow builds to succeed when older dynamic_reconfigure is used.
 2020-03-18 21:46:09 +03:00
Alexey Rogachevskiy
360eb02909 Revert "aruco_pose: Use bash trampoline for dynamic_reconfigure" 
This reverts commit 6b9d90d3d7.

Newer dynamic_reconfigure uses PYTHON_EXECUTABLE CMake substitution, eliminating the need for a shebang (or a trampoline).
 2020-03-18 21:44:39 +03:00
Alexey Rogachevskiy
688b4e3acb aruco_pose: Convert largemap test to ros_pytest 2020-03-18 21:05:49 +03:00
Alexey Rogachevskiy
8042669ade clever: Remove shebang from basic.py test 
Tests executed by ros_pytest are not meant to have shebangs anyway.
 2020-03-18 20:47:09 +03:00
Alexey Rogachevskiy
6b9d90d3d7 aruco_pose: Use bash trampoline for dynamic_reconfigure 2020-03-18 19:17:17 +03:00
Alexey Rogachevskiy
4f110d4eaa builder: Install rpi_ws281x for Python 2 and 3 2020-03-18 17:10:50 +03:00
Alexey Rogachevskiy
f7eda0be97 Merge remote-tracking branch 'origin/master' into buster-python3 2020-03-18 16:03:02 +03:00
Alexey Rogachevskiy
1da2f76758 builder: Use pip3 for butterfly installation 2020-03-18 16:00:04 +03:00
Alexey Rogachevskiy
60a77a35a5 builder: Make pip refer to pip2 by default 
This may break rosdep down the line, but it seems to call `pip3` explicitly
 2020-03-18 15:58:12 +03:00
Alexey Rogachevskiy
0ffde38b8b builder: Install ptvsd for python2 explicitly 2020-02-20 21:43:48 +03:00
Alexey Rogachevskiy
99632bf554 Merge remote-tracking branch 'origin/master' into buster-python3 2020-02-20 15:44:08 +03:00
Alexey Rogachevskiy
d44a80b357 builder: Don't try to deactivate nonexistent venv 2020-02-19 13:24:42 +03:00
Alexey Rogachevskiy
77189b5f5f builder: Install butterfly system-wide 2020-02-17 14:52:24 +03:00
Alexey Rogachevskiy
b37a32d4dc builder: Add pip for python2 back 2020-02-17 14:44:41 +03:00
Alexey Rogachevskiy
b359414377 builder: Drop python2 tests 2020-02-12 23:29:04 +03:00
Alexey Rogachevskiy
6d4dd6956f tests: Use python3 for most of it, python2 for cv2 2020-02-12 22:18:03 +03:00
Alexey Rogachevskiy
cb26f0933e builder: Fix python3.yaml identation 2020-02-11 19:44:51 +03:00
Alexey Rogachevskiy
d944f57ebb builder: Put python3.yaml into image 2020-02-11 19:20:54 +03:00
Alexey Rogachevskiy
ad430284de builder: Fix typo (meodic -> melodic) 2020-02-11 18:59:23 +03:00
Alexey Rogachevskiy
b5cf47fdb5 tests: Create ServiceProxy during validation 2020-02-11 18:53:17 +03:00
Alexey Rogachevskiy
99f24abf8d builder: Build against python3 2020-02-11 18:46:23 +03:00
1273 changed files with 4283 additions and 130204 deletions
Expand all files Collapse all files

3
.gitattributes vendored
View File

@@ -3,7 +3,4 @@ roslib.js linguist-vendored
eventemitter2.js linguist-vendored
ros3d.js linguist-vendored
three.min.js linguist-vendored
json-to-pretty-yaml.js linguist-vendored
aruco_pose/vendor/* linguist-vendored
blockly/* linguist-vendored
highlight/* linguist-vendored

40
.github/workflows/build-image.yaml vendored
View File

@@ -1,40 +0,0 @@
name: RPi image
on:
push:
branches: [ '*' ]
pull_request:
branches: [ master ]
release:
types: [ created ]
workflow_dispatch:
jobs:
build:
runs-on: ubuntu-latest
steps:
- uses: actions/checkout@v2
- name: Build image
run: |
docker run --privileged --rm -v /dev:/dev -v $(pwd):/builder/repo -e TRAVIS_TAG="${{ github.event.release.tag_name }}" sfalexrog/img-tool:qemu-update
# - name: Compress image
# run: |
# cd images && sudo chmod -R 777 . && zip -9 $(echo clover_*).zip clover_* && ls -lh . && unzip -l clover_*.zip
- name: Compress image using 7-Zip
run: |
cd images && sudo chmod -R 777 . && 7z a -mx=9 $(echo *_*).7z *_* && ls -lh . && 7z l *_*.7z
- name: Upload image
uses: softprops/action-gh-release@v1
if: ${{ github.event_name == 'release' }}
with:
files: images/*_*.zip
prerelease: true
env:
GITHUB_TOKEN: ${{ secrets.GITHUB_TOKEN }}
- name: Upload image to artifacts
if: ${{ github.event_name == 'workflow_dispatch' || github.ref != 'refs/heads/master' }}
uses: actions/upload-artifact@v4
with:
name: image
path: images/*_*.7z
retention-days: 1

52
.github/workflows/build.yml vendored
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@@ -1,52 +0,0 @@
name: Build
on:
push:
branches: [ '*' ]
pull_request:
branches: [ master ]
workflow_dispatch:
jobs:
# melodic:
# runs-on: ubuntu-latest
# steps:
# - uses: actions/checkout@v2
# - name: Native Melodic build
# run: |
# docker run --rm -v $(pwd):/root/catkin_ws/src/clover ros:melodic-ros-base /root/catkin_ws/src/clover/builder/standalone-install.sh
noetic:
runs-on: ubuntu-latest
container: ros:noetic-ros-base
defaults:
run:
working-directory: catkin_ws
shell: bash
steps:
- uses: actions/checkout@v2
with:
path: catkin_ws/src/clover
- name: Install requirements
run: apt-get update && apt-get -y install python3-pip fakeroot python3-bloom debhelper dpkg-dev
- name: Install dependencies
run: rosdep update && rosdep install --from-paths src --ignore-src -y
- name: Install GeographicLib datasets
run: wget -qO- https://raw.githubusercontent.com/mavlink/mavros/master/mavros/scripts/install_geographiclib_datasets.sh | bash
- name: catkin_make
run: source /opt/ros/$ROS_DISTRO/setup.bash && catkin_make
- name: Run tests
run: source devel/setup.bash && catkin_make run_tests && catkin_test_results
- name: Build Debian packages
run: |
source devel/setup.bash
for file in `find . -name "package.xml"`; do
cd $(dirname ${file})
bloom-generate rosdebian --os-name ubuntu --os-version $(lsb_release -cs) --ros-distro $ROS_DISTRO
fakeroot debian/rules binary
cd -
done
- uses: actions/upload-artifact@v3
with:
name: debian-packages
path: catkin_ws/src/clover/*.deb
retention-days: 1

89
.github/workflows/docs.yml vendored
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@@ -1,89 +0,0 @@
name: Documentation
on:
push:
branches: [ '*' ]
pull_request:
branches: [ '*' ]
workflow_dispatch:
permissions:
contents: read
pages: write
id-token: write
defaults:
run:
shell: bash
jobs:
docs:
runs-on: ubuntu-22.04
steps:
- uses: actions/checkout@v2
- name: Use Node.js
uses: actions/setup-node@v1
with: { node-version: '10' }
- name: Setup tools
run: |
sudo sh -c "echo ttf-mscorefonts-installer msttcorefonts/accepted-mscorefonts-eula select true | debconf-set-selections"
sudo apt-get update && sudo apt-get install -y calibre msttcorefonts
builder/assets/install_gitbook.sh
npm install markdownlint-cli@0.28.1 -g # FIXME: https://github.com/DavidAnson/markdownlint/issues/435
npm install svgexport -g
gitbook -V
markdownlint -V
- name: Run markdownlint
run: markdownlint docs
- name: Check Assets
run: |
./check_assets_size.py
./check_unused_assets.py
- name: Build GitBook
run: |
gitbook install
gitbook build
- name: Generate PDF
id: generate-pdf
env:
GITBOOK_SKIP_PDF: ${{ secrets.GITBOOK_SKIP_PDF }}
continue-on-error: ${{ env.GITBOOK_SKIP_PDF != '' }}
if: ${{ github.event_name == 'push' }}
run: |
for i in 1 2 3 4; do gitbook pdf ./ _book/clover.pdf && break || sleep 1; done
sudo apt-get -q install ghostscript
gs -sDEVICE=pdfwrite -dCompatibilityLevel=1.4 -dPDFSETTINGS=/default -dNOPAUSE -dQUIET -dBATCH -dDetectDuplicateImages -dCompressFonts=true -r150 -sOutputFile=_book/clover_ru_compressed.pdf _book/clover_ru.pdf
gs -sDEVICE=pdfwrite -dCompatibilityLevel=1.4 -dPDFSETTINGS=/default -dNOPAUSE -dQUIET -dBATCH -dDetectDuplicateImages -dCompressFonts=true -r150 -sOutputFile=_book/clover_en_compressed.pdf _book/clover_en.pdf
rm _book/clover_ru.pdf && mv _book/clover_ru_compressed.pdf _book/clover_ru.pdf
rm _book/clover_en.pdf && mv _book/clover_en_compressed.pdf _book/clover_en.pdf
ls -lah _book/clover*.pdf
echo '::set-output name=GITBOOK_PDF_OK::1'
- name: Download older PDFs
if: ${{ !steps.generate-pdf.outputs.GITBOOK_PDF_OK }}
run: |
rm -f _book/clover*.pdf
wget --no-verbose https://clover.coex.tech/clover_ru.pdf -P _book/
wget --no-verbose https://clover.coex.tech/clover_en.pdf -P _book/
- name: Upload artifact
# if: ${{ github.event_name == 'push' && github.ref == 'refs/heads/master' }}
uses: actions/upload-pages-artifact@v1
with:
path: _book
deploy-docs:
if: ${{ github.event_name == 'push' && github.ref == 'refs/heads/master' }}
concurrency:
group: "pages"
cancel-in-progress: true
environment:
name: github-pages
url: ${{ steps.deployment.outputs.page_url }}
runs-on: ubuntu-latest
needs: docs
steps:
- name: Deploy to GitHub Pages
env:
FREEZE_DOCS: ${{ secrets.FREEZE_DOCS }}
if: ${{ !env.FREEZE_DOCS }}
id: deployment
uses: actions/deploy-pages@v1

19
.github/workflows/editorconfig.yaml vendored
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@@ -1,19 +0,0 @@
name: Editorconfig
on:
push:
branches: [ '*' ]
pull_request:
branches: [ master ]
workflow_dispatch:
jobs:
editorconfig:
runs-on: ubuntu-latest
steps:
- uses: actions/checkout@v2
- name: .editorconfig Linter
run: |
wget --no-verbose https://github.com/okalachev/editorconfig-checker/releases/download/1.2.1-disable-spaces-amount/ec-linux-amd64
chmod +x ec-linux-amd64
./ec-linux-amd64 -spaces-after-tabs -e "roslib.js|ros3d.js|eventemitter2.js|json-to-pretty-yaml.js|draw.cpp|BinUtils.swift|\.idea|apps/android/app|blockly/|clover_blocks/programs/|highlight/|python.js|Assets.xcassets|test_parser_pass.txt|test_node_failure.txt|aruco_pose/vendor|\.stl|\.dxf|\.dae|\.material"

3
.gitignore vendored
View File

@@ -4,6 +4,3 @@
node_modules/
_book/
package-lock.json
clover_blocks/programs/*.*
!clover_blocks/programs/examples/*
/.vscode/

13
.markdownlint.json
View File

@@ -21,9 +21,7 @@
"ROS",
"ROS Kinetic",
"ROS Melodic",
"ROS Noetic",
"OpenCV",
"OpenVPN",
"Gazebo",
"GitHub",
"FPV",
@@ -108,14 +106,9 @@
"UDP",
"QR",
"Li-ion",
"Nvidia",
"VirtualBox",
"VMware",
"DuoCam"
"Nvidia"
],
"code_blocks": false,
"html_elements": false
"code_blocks": false
},
"MD045": false,
"MD051": false
"MD045": false
}

120
.travis.yml Normal file
View File

@@ -0,0 +1,120 @@
sudo: required
language: generic
services:
- docker
env:
global:
- DOCKER="sfalexrog/img-tool:qemu-update"
- TARGET_REPO="https://github.com/${TRAVIS_REPO_SLUG}.git"
- if [[ -z ${TRAVIS_TAG} ]]; then IMAGE_VERSION="${TRAVIS_COMMIT}}"; else IMAGE_VERSION="${TRAVIS_TAG}"; fi
- IMAGE_NAME="$(basename -s '.git' ${TARGET_REPO})_${IMAGE_VERSION}.img"
git:
depth: 50
jobs:
fast_finish: true
include:
- stage: Build
name: "Raspberry Pi Image Build"
cache:
directories:
- imgcache
before_script:
- docker pull ${DOCKER}
# Check if there are any cached images, copy them to our "images" directory
- if [ -n "$(ls -A imgcache/*.zip)" ]; then mkdir -p images && cp imgcache/*.zip images; fi
script:
- if [[ -z ${TRAVIS_TAG} && "${TRAVIS_PULL_REQUEST}" != "false" ]]; then
echo "Commit range is ${TRAVIS_COMMIT_RANGE}" &&
if [ $(git diff --name-only ${TRAVIS_COMMIT_RANGE} | grep -v ^"docs/" | wc -l) -eq 0 ]; then
echo " === Docs-only change; skipping build ===" &&
export SKIP_BUILD=true;
fi;
fi
- if [ -z ${SKIP_BUILD} ]; then
docker run --privileged --rm -v /dev:/dev -v $(pwd):/builder/repo -e TRAVIS_TAG="${TRAVIS_TAG}" ${DOCKER};
fi
before_cache:
- cp images/*.zip imgcache
before_deploy:
# Set up git user name and tag this commit
- git config --local user.name "goldarte"
- git config --local user.email "goldartt@gmail.com"
- sudo chmod -R 777 *
- cd images && zip ${IMAGE_NAME}.zip ${IMAGE_NAME}
deploy:
provider: releases
api_key: ${GITHUB_OAUTH_TOKEN}
file: ${IMAGE_NAME}.zip
skip_cleanup: true
on:
tags: true
draft: true
name: ${TRAVIS_TAG}
- stage: Build
name: "Native Kinetic build"
env:
- NATIVE_DOCKER=ros:kinetic-ros-base
before_script:
- docker pull ${NATIVE_DOCKER}
script:
- docker run --rm -v $(pwd):/root/catkin_ws/src/clover ${NATIVE_DOCKER} /root/catkin_ws/src/clover/builder/standalone-install.sh
- stage: Build
name: "Native Melodic build"
env:
- NATIVE_DOCKER=ros:melodic-ros-base
before_script:
- docker pull ${NATIVE_DOCKER}
script:
- docker run --rm -v $(pwd):/root/catkin_ws/src/clover ${NATIVE_DOCKER} /root/catkin_ws/src/clover/builder/standalone-install.sh
- stage: Build
name: "Documentation"
language: node_js
node_js:
- "10"
before_script:
- npm install gitbook-cli -g
- npm install markdownlint-cli -g
- gitbook -V
- markdownlint -V
script:
- markdownlint docs
- ./check_assets_size.py
- ./check_unused_assets.py
- gitbook install
- gitbook build
deploy:
provider: pages
local-dir: _book
skip-cleanup: true
github-token: ${GITHUB_OAUTH_TOKEN}
keep-history: true
target-branch: master
repo: CopterExpress/clever.coex.tech
fqdn: clever.coex.tech
verbose: true
on:
branch: master
- stage: Annotate
name: Auto-generate changelog
language: python
python: 3.6
install:
- pip install GitPython PyGithub
script:
- PYTHONUNBUFFERED=1 python ./gen_changelog.py
- stage: Build
name: Editorconfig-lint
language: generic
before_script:
- wget https://github.com/okalachev/editorconfig-checker/releases/download/1.2.1-disable-spaces-amount/ec-linux-amd64
- chmod +x ec-linux-amd64
script:
- ./ec-linux-amd64 -spaces-after-tabs -e "roslib.js|ros3d.js|eventemitter2.js|draw.cpp|BinUtils.swift|\.idea|apps/android/app|Assets.xcassets|test_parser_pass.txt|test_node_failure.txt|aruco_pose/vendor|\.stl|\.dxf"
stages:
- Build
- Annotate
# More info there
# https://github.com/travis-ci/travis-ci/issues/6893
# https://docs.travis-ci.com/user/customizing-the-build/
# https://docs.travis-ci.com/user/deployment/releases
# https://docs.travis-ci.com/user/environment-variables/

108
README.md
View File

@@ -1,47 +1,103 @@
# clover🍀: create autonomous drones easily
# CLEVER
<img src="docs/assets/clover42-main-margin.png" align="right" width="400px" alt="COEX Clover Drone">
<img src="docs/assets/clever4-front-white.png" align="right" width="400px" alt="CLEVER drone">
Clover is an open source [ROS](https://www.ros.org)-based framework, providing user-friendly tools to control [PX4](https://px4.io)-powered drones. Clover is available as a ROS package, but is shipped mainly as a preconfigured image for Raspberry Pi. Once you've installed Raspberry Pi on your drone and flashed the image to its microSD card, taking the drone up in the air is a matter of minutes.
CLEVER (Russian: *"Клевер"*, meaning *"Clover"*) is an educational programmable drone kit consisting of an unassembled quadcopter, open source software and documentation. The kit includes Pixhawk/Pixracer autopilot running PX4 firmware, Raspberry Pi 3 as companion computer, a camera for computer vision navigation as well as additional sensors and peripheral devices.
COEX Clover Drone is an educational programmable drone kit, suited perfectly for running clover software. The kit is shipped unassembled and includes Pixracer-compatible autopilot running PX4 firmware, Raspberry Pi 4 as a companion computer, a camera for computer vision navigation as well as additional sensors and peripheral devices. Batteries included.
Copter Express has implemented a large number of different autonomous drone projects using exactly the same platform: [automated pizza delivery](https://www.youtube.com/watch?v=hmkAoZOtF58) in Samara and Kazan, coffee delivery in Skolkovo Innovation Center, [autonomous quadcopter with charging station](https://www.youtube.com/watch?v=RjX6nUqw1mI) for site monitoring and security, winning drones on [Robocross-2016](https://www.youtube.com/watch?v=dGbDaz_VmYU) and [Robocross-2017](https://youtu.be/AQnd2CRczbQ) competitions and many others.
The main documentation is available at [https://clover.coex.tech](https://clover.coex.tech/). Official website: [coex.tech/clover](https://coex.tech/clover).
**The main documentation is available [on Gitbook](https://clever.coex.tech/).**
[__Support us on Kickstarter!__](https://www.kickstarter.com/projects/copterexpress/cloverdrone)
## Video compilation
[![Clover Drone Kit autonomy compilation](http://img.youtube.com/vi/u3omgsYC4Fk/hqdefault.jpg)](https://youtu.be/u3omgsYC4Fk)
Clover drone is used on a wide range of educational events, including [Copter Hack](https://www.youtube.com/watch?v=xgXheg3TTs4), WorldSkills Drone Operation competition, [Autonomous Vehicles Track of NTI Olympics 20162020](https://www.youtube.com/watch?v=E1_ehvJRKxg), Quadro Hack 2019 (National University of Science and Technology MISiS), Russian Robot Olympiad (autonomous flights), and others.
Use it to learn how to assemble, configure, pilot and program autonomous CLEVER drone.
## Raspberry Pi image
Preconfigured image for Raspberry Pi with installed and configured software, ready to fly, is available [in the Releases section](https://github.com/CopterExpress/clover/releases).
**Preconfigured image for Raspberry Pi 3 with installed and configured software, ready to fly, is available [in the Releases section](https://github.com/CopterExpress/clever/releases).**
![GitHub Workflow Status](https://img.shields.io/github/actions/workflow/status/CopterExpress/clover/build-image.yaml?branch=master)
![GitHub all releases](https://img.shields.io/github/downloads/CopterExpress/clover/total)
[![Build Status](https://travis-ci.org/CopterExpress/clever.svg?branch=master)](https://travis-ci.org/CopterExpress/clever)
Image features:
Image includes:
* Raspbian Buster
* [ROS Noetic](http://wiki.ros.org/noetic)
* ROS Melodic
* Configured networking
* OpenCV
* [`mavros`](http://wiki.ros.org/mavros)
* Periphery drivers for ROS ([GPIO](https://clover.coex.tech/en/gpio.html), [LED strip](https://clover.coex.tech/en/leds.html), etc)
* `aruco_pose` package for marker-assisted navigation
* `clover` package for autonomous drone control
* mavros
* Periphery drivers (`pigpiod`, `rpi_ws281x`, etc)
* CLEVER software bundle for autonomous drone control
API description for autonomous flights is available [on GitBook](https://clover.coex.tech/en/simple_offboard.html).
API description (in Russian) for autonomous flights is available [on GitBook](https://clever.coex.tech/simple_offboard.html).
For manual package installation and running see [`clover` package documentation](clover/README.md).
## Manual installation
## Support
Install ROS Melodic according to the [documentation](http://wiki.ros.org/melodic/Installation), then [create a Catkin workspace](http://wiki.ros.org/catkin/Tutorials/create_a_workspace).
[![Telegram Support Chat](https://img.shields.io/endpoint?label=Support%20Chat&url=https%3A%2F%2Ftelegram-badge-4mbpu8e0fit4.runkit.sh%2F%3Furl%3Dhttps%3A%2F%2Ft.me%2FCOEXHelpDesk)](https://t.me/COEXHelpdesk)
Clone this repo to directory `~/catkin_ws/src/clever`:
```bash
cd ~/catkin_ws/src
git clone https://github.com/CopterExpress/clever.git clever
```
All the required ROS packages (including `mavros` and `opencv`) can be installed using `rosdep`:
```bash
cd ~/catkin_ws/
rosdep install -y --from-paths src --ignore-src
```
Build ROS packages (on memory constrained platforms you might be going to need to use `-j1` key):
```bash
cd ~/catkin_ws
catkin_make -j1
```
To complete `mavros` install you'll need to install `geographiclib` datasets:
```bash
curl https://raw.githubusercontent.com/mavlink/mavros/master/mavros/scripts/install_geographiclib_datasets.sh | sudo bash
```
You may optionally install udev rules to provide `/dev/px4fmu` symlink to your PX4-based flight controller connected over USB. Copy `99-px4fmu.rules` to your `/lib/udev/rules.d` folder:
```bash
cd ~/catkin_ws/src/clever/clever/config
sudo cp 99-px4fmu.rules /lib/udev/rules.d
```
Alternatively you may change the `fcu_url` property in `mavros.launch` file to point to your flight controller device.
## Running
Enable systemd service `roscore` (if not running):
```bash
sudo systemctl enable /home/<username>/catkin_ws/src/clever/builder/assets/roscore.service
sudo systemctl start roscore
```
To start connection to SITL, use:
```bash
roslaunch clever sitl.launch
```
To start connection to the flight controller, use:
```bash
roslaunch clever clever.launch
```
> Note that the package is configured to connect to `/dev/px4fmu` by default (see [previous section](#manual-installation)). Install udev rules or specify path to your FCU device in `mavros.launch`.
Also, you can enable and start the systemd service:
```bash
sudo systemctl enable /home/<username>/catkin_ws/src/clever/deploy/clever.service
sudo systemctl start clever
```
## License
While the Clover platform source code is available under the MIT License, note, that the [documentation](docs/) is licensed under the Creative Commons Attribution-NonCommercial-ShareAlike 4.0 International License.
While the Clever platform source code is available under the MIT License, note, that the [documentation](docs/) is licensed under the Creative Commons Attribution-NonCommercial-ShareAlike 4.0 International License.

0
apps/CATKIN_IGNORE
View File

3
apps/ios/cleverrc/README.md
View File

@@ -1,4 +1,5 @@
# iOS-приложение для управления Клевером
iOS-приложение для управления Клевером
--------------------------------------
Для установки зависимостей необходим [CocoaPods](https://cocoapods.org):

8
aruco_pose/CHANGELOG.rst
View File

@@ -1,8 +0,0 @@
^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^
Changelog for package aruco_pose
^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^
0.21.1 (2020-11-17)
-------------------
* First release of aruco_pose package to ROS
* Contributors: Alamoris, Alexey Rogachevskiy, Arthur Golubtsov, Ilya Petrov, Oleg Kalachev

55
aruco_pose/CMakeLists.txt
View File

@@ -1,6 +1,8 @@
cmake_minimum_required(VERSION 3.0)
project(aruco_pose)
add_definitions(-std=c++11 -Wall -g)
## Compile as C++11, supported in ROS Kinetic and newer
add_compile_options(-std=c++11)
@@ -22,21 +24,13 @@ find_package(catkin REQUIRED COMPONENTS
dynamic_reconfigure
)
# Workaround for OpenCV 3/4 support
set(_opencv_version 4)
find_package(OpenCV ${_opencv_version} QUIET COMPONENTS core imgproc calib3d)
if (NOT OpenCV_FOUND)
message(STATUS "Did not find OpenCV 4, searching for OpenCV 3")
set(_opencv_version 3)
endif()
find_package(OpenCV ${_opencv_version} REQUIRED COMPONENTS core imgproc calib3d)
if ("${OpenCV_VERSION_MINOR}" LESS "9")
find_package(OpenCV 3 REQUIRED COMPONENTS core imgproc calib3d)
if ("${OpenCV_VERSION_MINOR}" LESS "3")
message(STATUS "OpenCV version too low, using vendored ArUco package")
include(vendor/VendorOpenCV.cmake)
else()
message(STATUS "Using system OpenCV ArUco package")
find_package(OpenCV ${_opencv_version} REQUIRED COMPONENTS aruco)
find_package(OpenCV 3 REQUIRED COMPONENTS aruco)
endif()
message(STATUS "OpenCV include dirs: ${OpenCV_INCLUDE_DIRS}")
message(STATUS "OpenCV libraries: ${OpenCV_LIBRARIES}")
@@ -83,10 +77,11 @@ add_message_files(
)
## Generate services in the 'srv' folder
add_service_files(
FILES
SetMarkers.srv
)
# add_service_files(
# FILES
# Service1.srv
# Service2.srv
# )
## Generate actions in the 'action' folder
# add_action_files(
@@ -118,8 +113,7 @@ generate_messages(
## Generate dynamic reconfigure parameters in the 'cfg' folder
generate_dynamic_reconfigure_options(
cfg/Detector.cfg
cfg/Map.cfg
cfg/DetectorParams.cfg
)
###################################
@@ -180,13 +174,6 @@ target_link_libraries(aruco_pose
${OpenCV_LIBRARIES}
)
# Prevent aruco_pose from having undefined symbols
set_property(TARGET aruco_pose
APPEND
PROPERTY LINK_FLAGS
-Wl,--no-undefined
)
#############
## Install ##
#############
@@ -202,11 +189,11 @@ set_property(TARGET aruco_pose
# )
## Mark executables and/or libraries for installation
install(TARGETS ${PROJECT_NAME}
ARCHIVE DESTINATION ${CATKIN_PACKAGE_LIB_DESTINATION}
LIBRARY DESTINATION ${CATKIN_PACKAGE_LIB_DESTINATION}
RUNTIME DESTINATION ${CATKIN_PACKAGE_BIN_DESTINATION}
)
# install(TARGETS ${PROJECT_NAME} ${PROJECT_NAME}_node
# ARCHIVE DESTINATION ${CATKIN_PACKAGE_LIB_DESTINATION}
# LIBRARY DESTINATION ${CATKIN_PACKAGE_LIB_DESTINATION}
# RUNTIME DESTINATION ${CATKIN_PACKAGE_BIN_DESTINATION}
# )
## Mark cpp header files for installation
# install(DIRECTORY include/${PROJECT_NAME}/
@@ -222,14 +209,6 @@ install(TARGETS ${PROJECT_NAME}
# DESTINATION ${CATKIN_PACKAGE_SHARE_DESTINATION}
# )
catkin_install_python(PROGRAMS src/genmap.py
DESTINATION ${CATKIN_PACKAGE_BIN_DESTINATION}
)
install(DIRECTORY launch DESTINATION ${CATKIN_PACKAGE_SHARE_DESTINATION})
install(DIRECTORY map DESTINATION ${CATKIN_PACKAGE_SHARE_DESTINATION})
#############
## Testing ##
#############
@@ -250,6 +229,4 @@ if (CATKIN_ENABLE_TESTING)
add_rostest(test/test_parser_empty_map.test)
add_rostest(test/test_node_failure.test)
add_rostest(test/largemap.test)
add_rostest(test/crash_opencv.test)
add_rostest(test/duplicate.test)
endif()

9
aruco_pose/README.md
View File

@@ -43,8 +43,7 @@ It's recommended to run it within the same nodelet manager with the camera nodel
* `~frame_id_prefix` (*string*) prefix for TF transforms names, marker's ID is appended (default: `aruco_`)
* `~length` (*double*) markers' sides length
* `~length_override` (*map*) lengths of markers with specified ids
* `~known_vertical` (*string*) known vertical (Z axis) of all the markers as a frame
* `~flip_vertical` flip vertical vector
* `~known_tilt` (*string*) known tilt (pitch and roll) of all the markers as a frame
### Topics
@@ -52,7 +51,6 @@ It's recommended to run it within the same nodelet manager with the camera nodel
* `image_raw` (*sensor_msgs/Image*) camera image
* `camera_info` (*sensor_msgs/CameraInfo*) camera calibration info
* `map_markers` (*aruco_pose/MarkerArray*) list of markers to disable TF transform publishing
#### Published
@@ -72,12 +70,10 @@ It's recommended to run it within the same nodelet manager with the camera nodel
* `~map` path to text file with markers list
* `~frame_id` published frame id (default: `aruco_map`)
* `~known_vertical` known vertical (Z axis) of markers map as a frame
* `~flip_vertical` flip vertical vector
* `~known_tilt` debug image width
* `~image_width` debug image width (default: 2000)
* `~image_height` debug image height (default: 2000)
* `~image_margin`  debug image margin (default: 200)
* `~image_axis` whether debug image should contain axis (default: true)
* `~dictionary` (*int*)  ArUco dictionary (default: 2) - should be the same as `dictionary` parameter of `aruco_detect` nodelet
Map file has one marker per line with the following line format:
@@ -101,7 +97,6 @@ See examples in [`map`](map/) directory.
#### Published
* `~pose` (*geometry_msgs/PoseWithCovarianceStamped*) estimated map pose
* `~map` (*aruco_pose/MarkerArray*) list of markers in the loaded map
* `~image` (*sensor_msgs/Image*) planarized map image
* `~visualization` (*visualization_msgs/MarkerArray*) markers map visualization for rviz
* `~debug` (*sensor_msgs/Image*) debug image with detected markers and map axis

9
aruco_pose/cfg/Detector.cfg → aruco_pose/cfg/DetectorParams.cfg
View File

@@ -4,17 +4,10 @@ PACKAGE = "aruco_pose"
from dynamic_reconfigure.parameter_generator_catkin import *
import cv2.aruco
try:
p = cv2.aruco.DetectorParameters_create()
except AttributeError:
p = cv2.aruco.DetectorParameters()
p = cv2.aruco.DetectorParameters_create()
gen = ParameterGenerator()
gen.add("enabled", bool_t, 0, "if detection enabled", True)
gen.add("length", double_t, 0, "markers' side length", min=0, max=10)
gen.add("adaptiveThreshConstant", double_t, 0,
"Constant for adaptive thresholding before finding contours",
p.adaptiveThreshConstant, 0, 100)

14
aruco_pose/cfg/Map.cfg
View File

@@ -1,14 +0,0 @@
#!/usr/bin/env python
PACKAGE = "aruco_pose"
from dynamic_reconfigure.parameter_generator_catkin import *
gen = ParameterGenerator()
gen.add("enabled", bool_t, 0, "if map detection enabled", True)
gen.add("map", str_t, 0, "full path for the map file")
gen.add("image_axis", bool_t, 0, "debug image axis", default=True)
exit(gen.generate(PACKAGE, "aruco_pose", "Map"))

1
aruco_pose/map/cmit.txt
View File

@@ -1,4 +1,3 @@
# id length x y z rot_z rot_y rot_x
0 0.33 0.0 9.0 0 0 0 0
1 0.33 1.0 9.0 0 0 0 0
2 0.33 2.0 9.0 0 0 0 0

1
aruco_pose/map/office.txt
View File

@@ -1,4 +1,3 @@
# id length x y z rot_z rot_y rot_x
107 0.33 0 0 0 0 0 0
106 0.33 0.77 0 0 0 0 0
105 0.33 0 0.77 0 0 0 0

1
aruco_pose/map/office_ceiling.txt
View File

@@ -1,4 +1,3 @@
# id length x y z rot_z rot_y rot_x
14 0.365 0.000 0.0 0 0 0 0
15 0.365 1.335 0.0 0 0 0 0
30 0.365 2.865 0.0 0 0 0 0

7
aruco_pose/package.xml
View File

@@ -1,7 +1,7 @@
<?xml version="1.0"?>
<package format="3">
<package format="2">
<name>aruco_pose</name>
<version>0.24.0</version>
<version>0.0.1</version>
<description>Positioning with ArUco markers</description>
<maintainer email="okalachev@gmail.com">Oleg Kalachev</maintainer>
@@ -28,9 +28,6 @@
<depend>sensor_msgs</depend>
<depend>rostest</depend>
<depend>dynamic_reconfigure</depend>
<depend>pluginlib</depend>
<depend condition="$ROS_PYTHON_VERSION == 2">python-docopt</depend>
<depend condition="$ROS_PYTHON_VERSION == 3">python3-docopt</depend>
<test_depend>image_publisher</test_depend>
<test_depend>ros_pytest</test_depend>

140
aruco_pose/src/aruco_detect.cpp
View File

@@ -48,9 +48,7 @@
#include <aruco_pose/Marker.h>
#include <aruco_pose/MarkerArray.h>
#include <aruco_pose/DetectorConfig.h>
#include <aruco_pose/SetMarkers.h>
#include "draw.h"
#include "utils.h"
#include <memory>
#include <functional>
@@ -60,24 +58,21 @@ using cv::Mat;
class ArucoDetect : public nodelet::Nodelet {
private:
std::unique_ptr<tf2_ros::TransformBroadcaster> br_;
std::unique_ptr<tf2_ros::Buffer> tf_buffer_;
std::unique_ptr<tf2_ros::TransformListener> tf_listener_;
ros::NodeHandle nh_, nh_priv_;
tf2_ros::TransformBroadcaster br_;
tf2_ros::Buffer tf_buffer_;
tf2_ros::TransformListener tf_listener_{tf_buffer_};
std::shared_ptr<dynamic_reconfigure::Server<aruco_pose::DetectorConfig>> dyn_srv_;
bool enabled_ = true;
cv::Ptr<cv::aruco::Dictionary> dictionary_;
cv::Ptr<cv::aruco::DetectorParameters> parameters_;
image_transport::Publisher debug_pub_;
image_transport::CameraSubscriber img_sub_;
ros::Publisher markers_pub_, vis_markers_pub_;
ros::Subscriber map_markers_sub_;
ros::ServiceServer set_markers_srv_;
bool estimate_poses_, send_tf_, flip_vertical_, auto_flip_, use_map_markers_;
bool waiting_for_map_;
bool estimate_poses_, send_tf_, auto_flip_;
double length_;
ros::Duration transform_timeout_;
std::unordered_map<int, double> length_override_;
std::string frame_id_prefix_, known_vertical_;
std::string frame_id_prefix_, known_tilt_;
Mat camera_matrix_, dist_coeffs_;
aruco_pose::MarkerArray array_;
std::unordered_set<int> map_markers_ids_;
@@ -86,50 +81,45 @@ private:
public:
virtual void onInit()
{
ros::NodeHandle& nh_ = getNodeHandle();
ros::NodeHandle& nh_priv_ = getPrivateNodeHandle();
br_.reset(new tf2_ros::TransformBroadcaster());
tf_buffer_.reset(new tf2_ros::Buffer());
tf_listener_.reset(new tf2_ros::TransformListener(*tf_buffer_, nh_));
nh_ = getNodeHandle();
nh_priv_ = getPrivateNodeHandle();
int dictionary;
dictionary = nh_priv_.param("dictionary", 2);
estimate_poses_ = nh_priv_.param("estimate_poses", true);
send_tf_ = nh_priv_.param("send_tf", true);
use_map_markers_ = nh_priv_.param("use_map_markers", false);
waiting_for_map_ = use_map_markers_;
nh_priv_.param("dictionary", dictionary, 2);
nh_priv_.param("estimate_poses", estimate_poses_, true);
nh_priv_.param("send_tf", send_tf_, true);
if (estimate_poses_ && !nh_priv_.getParam("length", length_)) {
NODELET_FATAL("can't estimate marker's poses as ~length parameter is not defined");
ros::shutdown();
}
readLengthOverride(nh_priv_);
transform_timeout_ = ros::Duration(nh_priv_.param("transform_timeout", 0.02));
readLengthOverride();
known_vertical_ = nh_priv_.param("known_vertical", nh_priv_.param("known_tilt", std::string(""))); // known_tilt is an old name
flip_vertical_ = nh_priv_.param<bool>("flip_vertical", false);
auto_flip_ = nh_priv_.param("auto_flip", false);
nh_priv_.param<std::string>("known_tilt", known_tilt_, "");
nh_priv_.param("auto_flip", auto_flip_, false);
frame_id_prefix_ = nh_priv_.param<std::string>("frame_id_prefix", "aruco_");
nh_priv_.param<std::string>("frame_id_prefix", frame_id_prefix_, "aruco_");
camera_matrix_ = cv::Mat::zeros(3, 3, CV_64F);
dist_coeffs_ = cv::Mat::zeros(8, 1, CV_64F);
dictionary_ = cv::aruco::getPredefinedDictionary(static_cast<cv::aruco::PREDEFINED_DICTIONARY_NAME>(dictionary));
parameters_ = cv::aruco::DetectorParameters::create();
parameters_->cornerRefinementMethod = cv::aruco::CORNER_REFINE_SUBPIX;
image_transport::ImageTransport it(nh_);
image_transport::ImageTransport it_priv(nh_priv_);
dyn_srv_ = std::make_shared<dynamic_reconfigure::Server<aruco_pose::DetectorConfig>>(nh_priv_);
dyn_srv_->setCallback(std::bind(&ArucoDetect::paramCallback, this, std::placeholders::_1, std::placeholders::_2));
set_markers_srv_ = nh_priv_.advertiseService("set_length_override", &ArucoDetect::setMarkers, this);
map_markers_sub_ = nh_.subscribe("map_markers", 1, &ArucoDetect::mapMarkersCallback, this);
debug_pub_ = it_priv.advertise("debug", 1);
markers_pub_ = nh_priv_.advertise<aruco_pose::MarkerArray>("markers", 1);
vis_markers_pub_ = nh_priv_.advertise<visualization_msgs::MarkerArray>("visualization", 1);
img_sub_ = it.subscribeCamera("image_raw", 1, &ArucoDetect::imageCallback, this);
map_markers_sub_ = nh_.subscribe("map_markers", 1, &ArucoDetect::mapMarkersCallback, this);
dyn_srv_ = std::make_shared<dynamic_reconfigure::Server<aruco_pose::DetectorConfig>>(nh_priv_);
dynamic_reconfigure::Server<aruco_pose::DetectorConfig>::CallbackType cb;
cb = std::bind(&ArucoDetect::paramCallback, this, std::placeholders::_1, std::placeholders::_2);
dyn_srv_->setCallback(cb);
NODELET_INFO("ready");
}
@@ -137,16 +127,13 @@ public:
private:
void imageCallback(const sensor_msgs::ImageConstPtr& msg, const sensor_msgs::CameraInfoConstPtr &cinfo)
{
if (!enabled_) return;
if (waiting_for_map_) return;
Mat image = cv_bridge::toCvShare(msg)->image;
Mat image = cv_bridge::toCvShare(msg, "bgr8")->image;
vector<int> ids;
vector<vector<cv::Point2f>> corners, rejected;
vector<cv::Vec3d> rvecs, tvecs;
vector<cv::Point3f> obj_points;
geometry_msgs::TransformStamped vertical;
geometry_msgs::TransformStamped snap_to;
// Detect markers
cv::aruco::detectMarkers(image, dictionary_, corners, ids, parameters_, rejected);
@@ -181,20 +168,18 @@ private:
}
}
if (!known_vertical_.empty()) {
if (!known_tilt_.empty()) {
try {
vertical = tf_buffer_->lookupTransform(msg->header.frame_id, known_vertical_,
msg->header.stamp, transform_timeout_);
snap_to = tf_buffer_.lookupTransform(msg->header.frame_id, known_tilt_,
msg->header.stamp, ros::Duration(0.02));
} catch (const tf2::TransformException& e) {
NODELET_WARN_THROTTLE(5, "can't retrieve known vertical: %s", e.what());
NODELET_WARN_THROTTLE(5, "can't snap: %s", e.what());
}
}
}
array_.markers.reserve(ids.size());
aruco_pose::Marker marker;
vector<geometry_msgs::TransformStamped> transforms;
transforms.reserve(ids.size());
geometry_msgs::TransformStamped transform;
transform.header.stamp = msg->header.stamp;
transform.header.frame_id = msg->header.frame_id;
@@ -207,38 +192,25 @@ private:
if (estimate_poses_) {
fillPose(marker.pose, rvecs[i], tvecs[i]);
// apply known vertical (if enabled and vertical frame available)
if (!known_vertical_.empty() && !vertical.header.frame_id.empty()) {
applyVertical(marker.pose.orientation, vertical.transform.rotation, false, auto_flip_);
// snap orientation (if enabled and snap frame available)
if (!known_tilt_.empty() && !snap_to.header.frame_id.empty()) {
snapOrientation(marker.pose.orientation, snap_to.transform.rotation, auto_flip_);
}
// TODO: check IDs are unique
if (send_tf_) {
transform.child_frame_id = getChildFrameId(ids[i]);
// check if such static transform is in the map
if (map_markers_ids_.find(ids[i]) == map_markers_ids_.end()) {
// check if a markers with that id is already added
bool send = true;
for (auto &t : transforms) {
if (t.child_frame_id == transform.child_frame_id) {
send = false;
break;
}
}
if (send) {
transform.transform.rotation = marker.pose.orientation;
fillTranslation(transform.transform.translation, tvecs[i]);
transforms.push_back(transform);
}
transform.transform.rotation = marker.pose.orientation;
fillTranslation(transform.transform.translation, tvecs[i]);
br_.sendTransform(transform);
}
}
}
array_.markers.push_back(marker);
}
if (send_tf_) {
br_->sendTransform(transforms);
}
}
markers_pub_.publish(array_);
@@ -265,7 +237,8 @@ private:
cv::aruco::drawDetectedMarkers(debug, corners, ids); // draw markers
if (estimate_poses_)
for (unsigned int i = 0; i < ids.size(); i++)
_drawAxis(debug, camera_matrix_, dist_coeffs_, rvecs[i], tvecs[i], getMarkerLength(ids[i]));
cv::aruco::drawAxis(debug, camera_matrix_, dist_coeffs_,
rvecs[i], tvecs[i], getMarkerLength(ids[i]));
cv_bridge::CvImage out_msg;
out_msg.header.frame_id = msg->header.frame_id;
@@ -353,10 +326,10 @@ private:
return frame_id_prefix_ + std::to_string(id);
}
void readLengthOverride(ros::NodeHandle& nh)
void readLengthOverride()
{
std::map<std::string, double> length_override;
nh.getParam("length_override", length_override);
nh_priv_.getParam("length_override", length_override);
for (auto const& item : length_override) {
length_override_[std::stoi(item.first)] = item.second;
}
@@ -372,47 +345,16 @@ private:
}
}
bool setMarkers(aruco_pose::SetMarkers::Request& req, aruco_pose::SetMarkers::Response& res)
{
for (auto const& marker : req.markers) {
if (marker.id > 999) {
res.message = "Invalid marker id: " + std::to_string(marker.id);
ROS_ERROR("%s", res.message.c_str());
return true;
}
if (!std::isfinite(marker.length) || marker.length <= 0) {
res.message = "Invalid marker " + std::to_string(marker.id) + " length: " + std::to_string(marker.length);
ROS_ERROR("%s", res.message.c_str());
return true;
}
}
for (auto const& marker : req.markers) {
length_override_[marker.id] = marker.length;
}
res.success = true;
return true;
}
void mapMarkersCallback(const aruco_pose::MarkerArray& msg)
{
map_markers_ids_.clear();
for (auto const& marker : msg.markers) {
map_markers_ids_.insert(marker.id);
if (use_map_markers_) {
if (length_override_.find(marker.id) == length_override_.end()) {
length_override_[marker.id] = marker.length;
}
}
}
waiting_for_map_ = false;
}
void paramCallback(aruco_pose::DetectorConfig &config, uint32_t level)
{
enabled_ = config.enabled && config.length > 0;
length_ = config.length;
parameters_->adaptiveThreshConstant = config.adaptiveThreshConstant;
parameters_->adaptiveThreshWinSizeMin = config.adaptiveThreshWinSizeMin;
parameters_->adaptiveThreshWinSizeMax = config.adaptiveThreshWinSizeMax;

165
aruco_pose/src/aruco_map.cpp
View File

@@ -19,13 +19,11 @@
#include <vector>
#include <fstream>
#include <algorithm>
#include <memory>
#include <ros/ros.h>
#include <nodelet/nodelet.h>
#include <pluginlib/class_list_macros.h>
#include <image_transport/image_transport.h>
#include <cv_bridge/cv_bridge.h>
#include <dynamic_reconfigure/server.h>
#include <tf/transform_datatypes.h>
#include <tf2_ros/buffer.h>
#include <tf2_ros/transform_listener.h>
@@ -43,7 +41,6 @@
#include <aruco_pose/MarkerArray.h>
#include <aruco_pose/Marker.h>
#include <aruco_pose/MapConfig.h>
#include <opencv2/opencv.hpp>
#include <opencv2/aruco.hpp>
@@ -61,6 +58,7 @@ typedef message_filters::sync_policies::ExactTime<Image, CameraInfo, MarkerArray
class ArucoMap : public nodelet::Nodelet {
private:
ros::NodeHandle nh_, nh_priv_;
ros::Publisher img_pub_, pose_pub_, markers_pub_, vis_markers_pub_;
image_transport::Publisher debug_pub_;
message_filters::Subscriber<Image> image_sub_;
@@ -77,53 +75,50 @@ private:
tf2_ros::StaticTransformBroadcaster static_br_;
tf2_ros::Buffer tf_buffer_;
tf2_ros::TransformListener tf_listener_{tf_buffer_};
std::shared_ptr<dynamic_reconfigure::Server<aruco_pose::MapConfig>> dyn_srv_;
bool enabled_ = true;
std::string type_;
visualization_msgs::MarkerArray vis_array_;
std::string known_vertical_, map_, markers_frame_, markers_parent_frame_;
std::string known_tilt_, map_, markers_frame_, markers_parent_frame_;
int image_width_, image_height_, image_margin_;
bool flip_vertical_, auto_flip_, image_axis_, put_markers_count_to_covariance_;
bool auto_flip_, image_axis_;
public:
virtual void onInit()
{
ros::NodeHandle &nh_ = getNodeHandle();
ros::NodeHandle &nh_priv_ = getPrivateNodeHandle();
nh_ = getNodeHandle();
nh_priv_ = getPrivateNodeHandle();
image_transport::ImageTransport it_priv(nh_priv_);
// TODO: why image_transport doesn't work here?
img_pub_ = nh_priv_.advertise<sensor_msgs::Image>("image", 1, true);
markers_pub_ = nh_priv_.advertise<aruco_pose::MarkerArray>("map", 1, true);
markers_pub_ = nh_priv_.advertise<aruco_pose::MarkerArray>("markers", 1, true);
board_ = cv::makePtr<cv::aruco::Board>();
board_->dictionary = cv::aruco::getPredefinedDictionary(
static_cast<cv::aruco::PREDEFINED_DICTIONARY_NAME>(nh_priv_.param("dictionary", 2)));
camera_matrix_ = cv::Mat::zeros(3, 3, CV_64F);
dist_coeffs_ = cv::Mat::zeros(8, 1, CV_64F);
type_ = nh_priv_.param<std::string>("type", "map");
transform_.child_frame_id = nh_priv_.param<std::string>("frame_id", "aruco_map");
known_vertical_ = nh_priv_.param("known_vertical", nh_priv_.param("known_tilt", std::string(""))); // known_tilt is an old name
flip_vertical_ = nh_priv_.param<bool>("flip_vertical", false);
auto_flip_ = nh_priv_.param("auto_flip", false);
image_width_ = nh_priv_.param("image_width" , 2000);
image_height_ = nh_priv_.param("image_height", 2000);
image_margin_ = nh_priv_.param("image_margin", 200);
image_axis_ = nh_priv_.param("image_axis", true);
put_markers_count_to_covariance_ = nh_priv_.param("put_markers_count_to_covariance", false);
markers_parent_frame_ = nh_priv_.param<std::string>("markers/frame_id", transform_.child_frame_id);
markers_frame_ = nh_priv_.param<std::string>("markers/child_frame_id_prefix", "");
std::string type, map;
nh_priv_.param<std::string>("type", type, "map");
nh_priv_.param<std::string>("frame_id", transform_.child_frame_id, "aruco_map");
nh_priv_.param<std::string>("known_tilt", known_tilt_, "");
nh_priv_.param("auto_flip", auto_flip_, false);
nh_priv_.param("image_width", image_width_, 2000);
nh_priv_.param("image_height", image_height_, 2000);
nh_priv_.param("image_margin", image_margin_, 200);
nh_priv_.param("image_axis", image_axis_, true);
nh_priv_.param<std::string>("markers/frame_id", markers_parent_frame_, transform_.child_frame_id);
nh_priv_.param<std::string>("markers/child_frame_id_prefix", markers_frame_, "");
// createStripLine();
if (type_ == "map") {
map_ = nh_priv_.param<std::string>("map" , "");
loadMap(map_);
} else if (type_ == "gridboard") {
createGridBoard(nh_priv_);
if (type == "map") {
param(nh_priv_, "map", map);
loadMap(map);
} else if (type == "gridboard") {
createGridBoard();
} else {
NODELET_FATAL("unknown type: %s", type_.c_str());
NODELET_FATAL("unknown type: %s", type.c_str());
ros::shutdown();
}
@@ -131,8 +126,6 @@ public:
vis_markers_pub_ = nh_priv_.advertise<visualization_msgs::MarkerArray>("visualization", 1, true);
debug_pub_ = it_priv.advertise("debug", 1);
publishMap();
image_sub_.subscribe(nh_, "image_raw", 1);
info_sub_.subscribe(nh_, "camera_info", 1);
markers_sub_.subscribe(nh_, "markers", 1);
@@ -140,11 +133,10 @@ public:
sync_.reset(new message_filters::Synchronizer<SyncPolicy>(SyncPolicy(10), image_sub_, info_sub_, markers_sub_));
sync_->registerCallback(boost::bind(&ArucoMap::callback, this, _1, _2, _3));
dyn_srv_ = std::make_shared<dynamic_reconfigure::Server<aruco_pose::MapConfig>>(nh_priv_);
dynamic_reconfigure::Server<aruco_pose::MapConfig>::CallbackType cb;
cb = std::bind(&ArucoMap::paramCallback, this, std::placeholders::_1, std::placeholders::_2);
dyn_srv_->setCallback(cb);
publishMarkersFrames();
publishMarkers();
publishMapImage();
vis_markers_pub_.publish(vis_array_);
NODELET_INFO("ready");
}
@@ -153,9 +145,6 @@ public:
const sensor_msgs::CameraInfoConstPtr& cinfo,
const aruco_pose::MarkerArrayConstPtr& markers)
{
if (!enabled_) return;
if (markers->markers.empty()) return; // map not loaded
int valid = 0;
int count = markers->markers.size();
std::vector<int> ids;
@@ -179,21 +168,7 @@ public:
corners.push_back(marker_corners);
}
if (put_markers_count_to_covariance_) {
// HACK: pass markers count using covariance field
int valid_markers = 0;
for (auto const &marker : markers->markers) {
for (auto const &board_marker : board_->ids) {
if (board_marker == marker.id) {
valid_markers++;
break;
}
}
}
pose_.pose.covariance[0] = valid_markers;
}
if (known_vertical_.empty()) {
if (known_tilt_.empty()) {
// simple estimation
valid = cv::aruco::estimatePoseBoard(corners, ids, board_, camera_matrix_, dist_coeffs_,
rvec, tvec, false);
@@ -207,7 +182,7 @@ public:
} else {
Mat obj_points, img_points;
// estimation with known vertical
// estimation with "snapping"
cv::aruco::getBoardObjectAndImagePoints(board_, corners, ids, obj_points, img_points);
if (obj_points.empty()) goto publish_debug;
@@ -219,11 +194,11 @@ public:
fillTransform(transform_.transform, rvec, tvec);
try {
geometry_msgs::TransformStamped vertical = tf_buffer_.lookupTransform(markers->header.frame_id,
known_vertical_, markers->header.stamp, ros::Duration(0.02));
applyVertical(transform_.transform.rotation, vertical.transform.rotation, flip_vertical_, auto_flip_);
geometry_msgs::TransformStamped snap_to = tf_buffer_.lookupTransform(markers->header.frame_id,
known_tilt_, markers->header.stamp, ros::Duration(0.02));
snapOrientation(transform_.transform.rotation, snap_to.transform.rotation, auto_flip_);
} catch (const tf2::TransformException& e) {
NODELET_WARN_THROTTLE(1, "can't retrieve known vertical: %s", e.what());
NODELET_WARN_THROTTLE(1, "can't snap: %s", e.what());
}
geometry_msgs::TransformStamped shift;
@@ -295,17 +270,9 @@ publish_debug:
std::ifstream f(filename);
std::string line;
clearMarkers();
if (map_ == "") {
NODELET_INFO("No map loaded");
return;
}
if (!f.good()) {
NODELET_ERROR("%s - %s", strerror(errno), filename.c_str());
map_ = "";
return;
NODELET_FATAL("%s - %s", strerror(errno), filename.c_str());
ros::shutdown();
}
while (std::getline(f, line)) {
@@ -331,10 +298,9 @@ publish_debug:
s.putback(first);
} else {
// Probably garbage data; inform user and throw an exception, possibly killing nodelet
NODELET_ERROR("Malformed input: %s", line.c_str());
map_ = "";
clearMarkers();
return;
NODELET_FATAL("Malformed input: %s", line.c_str());
ros::shutdown();
throw std::runtime_error("Malformed input");
}
if (!(s >> id >> length >> x >> y)) {
@@ -365,15 +331,7 @@ publish_debug:
NODELET_INFO("loading %s complete (%d markers)", filename.c_str(), static_cast<int>(board_->ids.size()));
}
void publishMap()
{
publishMarkersFrames();
publishMarkers();
publishMapImage();
vis_markers_pub_.publish(vis_array_);
}
void createGridBoard(ros::NodeHandle& nh)
void createGridBoard()
{
NODELET_INFO("generate gridboard");
NODELET_WARN("gridboard maps are deprecated");
@@ -381,15 +339,15 @@ publish_debug:
int markers_x, markers_y, first_marker;
double markers_side, markers_sep_x, markers_sep_y;
std::vector<int> marker_ids;
markers_x = nh.param("markers_x", 10);
markers_y = nh.param("markers_y", 10);
first_marker = nh.param("first_marker", 0);
nh_priv_.param<int>("markers_x", markers_x, 10);
nh_priv_.param<int>("markers_y", markers_y, 10);
nh_priv_.param<int>("first_marker", first_marker, 0);
param(nh, "markers_side", markers_side);
param(nh, "markers_sep_x", markers_sep_x);
param(nh, "markers_sep_y", markers_sep_y);
param(nh_priv_, "markers_side", markers_side);
param(nh_priv_, "markers_sep_x", markers_sep_x);
param(nh_priv_, "markers_sep_y", markers_sep_y);
if (nh.getParam("marker_ids", marker_ids)) {
if (nh_priv_.getParam("marker_ids", marker_ids)) {
if ((unsigned int)(markers_x * markers_y) != marker_ids.size()) {
NODELET_FATAL("~marker_ids length should be equal to ~markers_x * ~markers_y");
ros::shutdown();
@@ -414,15 +372,6 @@ publish_debug:
}
}
void clearMarkers()
{
board_->ids.clear();
board_->objPoints.clear();
markers_.markers.clear();
vis_array_.markers.clear();
markers_transforms_.clear();
}
// void createStripLine()
// {
// visualization_msgs::Marker marker;
@@ -445,7 +394,7 @@ publish_debug:
int num_markers = board_->dictionary->bytesList.rows;
if (num_markers <= id) {
NODELET_ERROR("Marker id %d is not in dictionary; current dictionary contains %d markers. "
"Please see https://github.com/CopterExpress/clover/blob/master/aruco_pose/README.md#parameters for details",
"Please see https://github.com/CopterExpress/clever/blob/master/aruco_pose/README.md#parameters for details",
id, num_markers);
return;
}
@@ -519,7 +468,7 @@ publish_debug:
vis_marker.pose.position.x = x;
vis_marker.pose.position.y = y;
vis_marker.pose.position.z = z;
tf::quaternionTFToMsg(q, vis_marker.pose.orientation);
tf::quaternionTFToMsg(q, marker.pose.orientation);
vis_marker.frame_locked = true;
vis_array_.markers.push_back(vis_marker);
@@ -562,22 +511,6 @@ publish_debug:
msg.image = image;
img_pub_.publish(msg.toImageMsg());
}
void paramCallback(aruco_pose::MapConfig &config, uint32_t level)
{
// https://github.com/CopterExpress/clover/commit/2cd334c474e3ed04ef65ca1ba7f08ab535a3dc6d#diff-942723f9452c398ae93f1a91427f9a7b614be5e5871f8a3e590f324d804f0d58R356
enabled_ = config.enabled;
if (type_ == "map" && config.map != map_) {
map_ = config.map;
loadMap(map_);
publishMap();
}
if (config.image_axis != image_axis_) {
image_axis_ = config.image_axis;
publishMapImage();
}
}
};
PLUGINLIB_EXPORT_CLASS(ArucoMap, nodelet::Nodelet)

890
aruco_pose/src/draw.cpp
View File

@@ -3,11 +3,26 @@
#include "draw.h"
#include <math.h>
#include <vector>
using namespace cv;
using namespace cv::aruco;
static void _cvProjectPoints2( const CvMat* object_points, const CvMat* rotation_vector,
const CvMat* translation_vector, const CvMat* camera_matrix,
const CvMat* distortion_coeffs, CvMat* image_points,
CvMat* dpdrot CV_DEFAULT(NULL), CvMat* dpdt CV_DEFAULT(NULL),
CvMat* dpdf CV_DEFAULT(NULL), CvMat* dpdc CV_DEFAULT(NULL),
CvMat* dpddist CV_DEFAULT(NULL),
double aspect_ratio CV_DEFAULT(0));
static void _projectPoints( InputArray objectPoints,
InputArray rvec, InputArray tvec,
InputArray cameraMatrix, InputArray distCoeffs,
OutputArray imagePoints,
OutputArray jacobian = noArray(),
double aspectRatio = 0 );
void _drawPlanarBoard(Board *_board, Size outSize, OutputArray _img, int marginSize,
int borderBits, bool drawAxis) {
@@ -127,194 +142,35 @@ void _drawPlanarBoard(Board *_board, Size outSize, OutputArray _img, int marginS
}
}
/**
* @brief Convert point coordinates from world space to camera space.
*
* @param points A vector of points in world space.
* @param rvec Rotation matrix or Rodrigues rotation vector.
* @param tvec Translation vector from world to camera space.
*
* @return A vector of points in camera space.
*/
template<typename CvPointType>
static std::vector<CvPointType> worldToCamera(const std::vector<CvPointType>& points,
const cv::Mat& rvec, const cv::Mat& tvec)
/* Draw a (potentially partially visible) line. */
static void linePartial(InputOutputArray image, Point3f p1, Point3f p2, const Scalar& color,
int thickness = 1, int lineType = LINE_8, int shift = 0)
{
// We operate with CV_64F matrices internally to avoid precision loss
cv::Mat rvec_64f;
cv::Mat tvec_64f;
rvec.convertTo(rvec_64f, CV_64F);
tvec.convertTo(tvec_64f, CV_64F);
// Convert Rodrigues vector to rotation matrix
cv::Mat rmat;
if ((rvec_64f.cols == 3 && rvec_64f.rows == 1) ||
(rvec_64f.cols == 1 && rvec_64f.rows == 3))
{
Rodrigues(rvec_64f, rmat);
// If both points are behind the screen, don't draw anything
if (p1.z <= 0 && p2.z <= 0) {
return;
}
else
{
rmat = rvec_64f.clone();
Point2f p1p{p1.x, p1.y};
Point2f p2p{p2.x, p2.y};
// If points are on the different sides of the plane, compute intersection point
if (p1.z * p2.z < 0) {
// Compute intersection point with the screen
// We denote alpha as such:
// xi = (1 - alpha) * x1 + alpha * x2
// yi = (1 - alpha) * y1 + alpha * y2
// zi = (1 - alpha) * z1 + alpha * z2 = 0
// Thus, alpha can be expressed as
// alpha = z1 / (z1 - z2)
float alpha = p1.z / (p1.z - p2.z);
Point2f pi{(1 - alpha) * p1.x + alpha * p2.x, (1 - alpha) * p1.y + alpha * p2.y};
// Now, if z1 is negative, we draw the line from (xi, yi) to (x2, y2), else we draw from (x1, y1) to (xi, yi)
if (p1.z < 0) {
p1p = pi;
} else {
p2p = pi;
}
}
// Make sure tvec has a size of (3, 1)
if (tvec_64f.rows == 1)
{
tvec_64f = tvec_64f.t();
}
std::vector<CvPointType> result;
result.reserve(points.size());
for(const auto& point : points)
{
// Calculate point coordinates in camera frame
// static_casts are here to silence potential narrowing conversion warnings
CvPointType camPoint{
static_cast<decltype(CvPointType::x)>(point.x * rmat.at<double>(0,0) + point.y * rmat.at<double>(0,1) + point.z * rmat.at<double>(0,2) + tvec_64f.at<double>(0)),
static_cast<decltype(CvPointType::y)>(point.x * rmat.at<double>(1,0) + point.y * rmat.at<double>(1,1) + point.z * rmat.at<double>(1,2) + tvec_64f.at<double>(1)),
static_cast<decltype(CvPointType::z)>(point.x * rmat.at<double>(2,0) + point.y * rmat.at<double>(2,1) + point.z * rmat.at<double>(2,2) + tvec_64f.at<double>(2))
};
result.push_back(camPoint);
}
return result;
}
/**
* @brief Project points from camera space to screen space, applying distortion in the process.
*
* @param points A vector of points in camera space.
* @param cameraMatrix OpenCV intrinsic camera matrix.
* @param distCoeffs OpenCV distortion model coefficients.
*
* @return A vector of points in screen space.
*/
template<typename CvPointType>
static std::vector<CvPointType> cameraToScreen(const std::vector<CvPointType>& points,
const cv::Mat& cameraMatrix,
const cv::Mat& distCoeffs)
{
// We operate with CV_64F matrices internally to avoid precision loss
cv::Mat cm_64f; // camera matrix, CV_64F
cv::Mat dc_64f; // distortion coefficients, CV_64F
cameraMatrix.convertTo(cm_64f, CV_64F);
distCoeffs.convertTo(dc_64f, CV_64F);
// Make sure distortion vector has a size of (N, 1)
if (dc_64f.rows == 1)
{
dc_64f = dc_64f.t();
}
// We will always use 12 distortion coefficients,
// and we can safely pad missing ones with zeroes
dc_64f.resize(12, 0.0);
std::vector<CvPointType> result;
result.reserve(points.size());
for(const auto& point : points)
{
// Apply perspective projection, preserving initial Z coordinate
// Always use double-precision
cv::Point3d camPoint{
point.x / point.z,
point.y / point.z,
point.z
};
// Apply distortion
// Note that we do not consider tilted sensor distortion
// r^2 - distance from the image center squared
double r2 = camPoint.x * camPoint.x + camPoint.y * camPoint.y;
// r^4 - same, but to the 4th power
double r4 = r2 * r2;
// r^6 - same, but to the 6th power
double r6 = r4 * r2;
// tg1 - first tangential shift factor (2 * x * y)
double tg1 = 2 * camPoint.x * camPoint.y;
// tg2 - second tangential shift factor (r^2 + 2 * x^2)
double tg2 = r2 + 2 * camPoint.x * camPoint.x;
// tg3 - third tangential shift factor (r^2 + 2 * y^2)
double tg3 = r2 + 2 * camPoint.y * camPoint.y;
// polynomial distortion factor (numerator)
double pndist = 1 + dc_64f.at<double>(0) * r2 + dc_64f.at<double>(1) * r4 + dc_64f.at<double>(4) * r6;
// polynomial distortion factror (denominator)
double pddist = 1.0 / (1 + dc_64f.at<double>(5) * r2 + dc_64f.at<double>(6) * r4 + dc_64f.at<double>(7) * r6);
// Distorted point coordinates (always double-precision)
cv::Point3d distortedPoint{
camPoint.x * pndist * pddist + dc_64f.at<double>(2) * tg1 + dc_64f.at<double>(3) * tg2 + dc_64f.at<double>(8) * r2 + dc_64f.at<double>(9) * r4,
camPoint.y * pndist * pddist + dc_64f.at<double>(2) * tg3 + dc_64f.at<double>(3) * tg1 + dc_64f.at<double>(10) * r2 + dc_64f.at<double>(11) * r4,
camPoint.z
};
// Convert to screen space
// We use static_cast here to silence potential warnings about narrowing conversions
// (we expect that to be the case)
CvPointType screenPoint{
static_cast<decltype(CvPointType::x)>(distortedPoint.x * cm_64f.at<double>(0, 0) + cm_64f.at<double>(0, 2)),
static_cast<decltype(CvPointType::y)>(distortedPoint.y * cm_64f.at<double>(1, 1) + cm_64f.at<double>(1, 2)),
static_cast<decltype(CvPointType::z)>(distortedPoint.z)
};
result.push_back(screenPoint);
}
return result;
}
/**
* @brief Clip a line against a clip plane.
*
* This function "clips" a line (described by two points in *camera space*)
* against a clip plane that is `clipPlaneDistance` meters away from the
* camera focal point. If both points are further away from the focal point
* than `clipPlaneDistance`, they will be returned unmodified. If one of the
* points is behind the clipping plane, a point *on* the clipping plane will
* be computed and returned as one of the points.
*
* If none of the points are visible, an empty vector will be returned.
*
* @param p1 First point on the line, in camera space.
* @param p2 Second point on the line, in camera space.
* @param clipPlaneDistance Distance from the focal point to the clipping plane.
* @return A vector of zero or two points on the clipped line, in camera space.
*/
static std::vector<Point3f> lineClip(Point3f p1, Point3f p2, float clipPlaneDistance = 0.1f)
{
// We don't need to compute an intersection if both points are
// behind us
if (p1.z < clipPlaneDistance && p2.z < clipPlaneDistance)
{
return {};
}
// We don't need to compute an intersection if both points are
// in front of us
if (p1.z > clipPlaneDistance && p2.z > clipPlaneDistance)
{
return {p1, p2};
}
// We don't really want to compute an intersection if both Z coordinates
// are sufficiently close to each other
if (std::abs(p1.z - p2.z) < 0.0001) // The number here is chosen arbitrarily
{
return {p1, p2};
}
// We compute the intersection as such:
// zi = (1 - alpha) * p1.z + alpha * p2.z = clipPlaneDistance
// alpha = (p1.z - clipPlaneDistance) / (p1.z - p2.z)
double alpha = (p1.z - clipPlaneDistance) / (p1.z - p2.z);
Point3f clipPlanePoint{
static_cast<float>((1 - alpha) * p1.x + alpha * p2.x),
static_cast<float>((1 - alpha) * p1.y + alpha * p2.y),
clipPlaneDistance
};
if (p1.z < clipPlaneDistance)
{
return {clipPlanePoint, p2};
}
else
{
return {p1, clipPlanePoint};
}
// Unreachable?
line(image, p1p, p2p, color, thickness, lineType, shift);
}
void _drawAxis(InputOutputArray _image, InputArray _cameraMatrix, InputArray _distCoeffs,
@@ -330,23 +186,647 @@ void _drawAxis(InputOutputArray _image, InputArray _cameraMatrix, InputArray _di
axisPoints.push_back(Point3f(length, 0, 0));
axisPoints.push_back(Point3f(0, length, 0));
axisPoints.push_back(Point3f(0, 0, length));
auto camAxisPoints = worldToCamera(axisPoints, _rvec.getMat(), _tvec.getMat());
auto axisX = cameraToScreen(lineClip(camAxisPoints[0], camAxisPoints[1]), _cameraMatrix.getMat(), _distCoeffs.getMat());
auto axisY = cameraToScreen(lineClip(camAxisPoints[0], camAxisPoints[2]), _cameraMatrix.getMat(), _distCoeffs.getMat());
auto axisZ = cameraToScreen(lineClip(camAxisPoints[0], camAxisPoints[3]), _cameraMatrix.getMat(), _distCoeffs.getMat());
if (axisX.size() > 0)
{
line(_image, Point2f{axisX[0].x, axisX[0].y}, Point2f{axisX[1].x, axisX[1].y},
Scalar(0, 0, 255), 3);
}
if (axisY.size() > 0)
{
line(_image, Point2f{axisY[0].x, axisY[0].y}, Point2f{axisY[1].x, axisY[1].y},
Scalar(0, 255, 0), 3);
}
if (axisZ.size() > 0)
{
line(_image, Point2f{axisZ[0].x, axisZ[0].y}, Point2f{axisZ[1].x, axisZ[1].y},
Scalar(255, 0, 0), 3);
}
std::vector<Point3f> imagePointsZ;
_projectPoints(axisPoints, _rvec, _tvec, _cameraMatrix, _distCoeffs, imagePointsZ);
// draw axis lines
linePartial(_image, imagePointsZ[0], imagePointsZ[1], Scalar(0, 0, 255), 3);
linePartial(_image, imagePointsZ[0], imagePointsZ[2], Scalar(0, 255, 0), 3);
linePartial(_image, imagePointsZ[0], imagePointsZ[3], Scalar(255, 0, 0), 3);
}
static CvMat _cvMat(const cv::Mat& m)
{
CvMat self;
CV_DbgAssert(m.dims <= 2);
self = cvMat(m.rows, m.dims == 1 ? 1 : m.cols, m.type(), m.data);
self.step = (int)m.step[0];
self.type = (self.type & ~cv::Mat::CONTINUOUS_FLAG) | (m.flags & cv::Mat::CONTINUOUS_FLAG);
return self;
}
static void _projectPoints( InputArray _opoints,
InputArray _rvec,
InputArray _tvec,
InputArray _cameraMatrix,
InputArray _distCoeffs,
OutputArray _ipoints,
OutputArray _jacobian,
double aspectRatio )
{
Mat opoints = _opoints.getMat();
int npoints = opoints.checkVector(3), depth = opoints.depth();
CV_Assert(npoints >= 0 && (depth == CV_32F || depth == CV_64F));
CvMat dpdrot, dpdt, dpdf, dpdc, dpddist;
CvMat *pdpdrot = 0, *pdpdt = 0, *pdpdf = 0, *pdpdc = 0, *pdpddist = 0;
CV_Assert(_ipoints.needed());
_ipoints.create(npoints, 1, CV_MAKETYPE(depth, 3), -1, true);
Mat imagePoints = _ipoints.getMat();
CvMat c_imagePoints = _cvMat(imagePoints);
CvMat c_objectPoints = _cvMat(opoints);
Mat cameraMatrix = _cameraMatrix.getMat();
Mat rvec = _rvec.getMat(), tvec = _tvec.getMat();
CvMat c_cameraMatrix = _cvMat(cameraMatrix);
CvMat c_rvec = _cvMat(rvec), c_tvec = _cvMat(tvec);
double dc0buf[5] = {0};
Mat dc0(5, 1, CV_64F, dc0buf);
Mat distCoeffs = _distCoeffs.getMat();
if (distCoeffs.empty())
distCoeffs = dc0;
CvMat c_distCoeffs = _cvMat(distCoeffs);
int ndistCoeffs = distCoeffs.rows + distCoeffs.cols - 1;
Mat jacobian;
if (_jacobian.needed())
{
_jacobian.create(npoints * 2, 3 + 3 + 2 + 2 + ndistCoeffs, CV_64F);
jacobian = _jacobian.getMat();
pdpdrot = &(dpdrot = _cvMat(jacobian.colRange(0, 3)));
pdpdt = &(dpdt = _cvMat(jacobian.colRange(3, 6)));
pdpdf = &(dpdf = _cvMat(jacobian.colRange(6, 8)));
pdpdc = &(dpdc = _cvMat(jacobian.colRange(8, 10)));
pdpddist = &(dpddist = _cvMat(jacobian.colRange(10, 10 + ndistCoeffs)));
}
_cvProjectPoints2(&c_objectPoints, &c_rvec, &c_tvec, &c_cameraMatrix, &c_distCoeffs,
&c_imagePoints, pdpdrot, pdpdt, pdpdf, pdpdc, pdpddist, aspectRatio);
}
namespace _detail
{
template <typename FLOAT>
void computeTiltProjectionMatrix(FLOAT tauX,
FLOAT tauY,
Matx<FLOAT, 3, 3>* matTilt = 0,
Matx<FLOAT, 3, 3>* dMatTiltdTauX = 0,
Matx<FLOAT, 3, 3>* dMatTiltdTauY = 0,
Matx<FLOAT, 3, 3>* invMatTilt = 0)
{
FLOAT cTauX = cos(tauX);
FLOAT sTauX = sin(tauX);
FLOAT cTauY = cos(tauY);
FLOAT sTauY = sin(tauY);
Matx<FLOAT, 3, 3> matRotX = Matx<FLOAT, 3, 3>(1,0,0,0,cTauX,sTauX,0,-sTauX,cTauX);
Matx<FLOAT, 3, 3> matRotY = Matx<FLOAT, 3, 3>(cTauY,0,-sTauY,0,1,0,sTauY,0,cTauY);
Matx<FLOAT, 3, 3> matRotXY = matRotY * matRotX;
Matx<FLOAT, 3, 3> matProjZ = Matx<FLOAT, 3, 3>(matRotXY(2,2),0,-matRotXY(0,2),0,matRotXY(2,2),-matRotXY(1,2),0,0,1);
if (matTilt)
{
// Matrix for trapezoidal distortion of tilted image sensor
*matTilt = matProjZ * matRotXY;
}
if (dMatTiltdTauX)
{
// Derivative with respect to tauX
Matx<FLOAT, 3, 3> dMatRotXYdTauX = matRotY * Matx<FLOAT, 3, 3>(0,0,0,0,-sTauX,cTauX,0,-cTauX,-sTauX);
Matx<FLOAT, 3, 3> dMatProjZdTauX = Matx<FLOAT, 3, 3>(dMatRotXYdTauX(2,2),0,-dMatRotXYdTauX(0,2),
0,dMatRotXYdTauX(2,2),-dMatRotXYdTauX(1,2),0,0,0);
*dMatTiltdTauX = (matProjZ * dMatRotXYdTauX) + (dMatProjZdTauX * matRotXY);
}
if (dMatTiltdTauY)
{
// Derivative with respect to tauY
Matx<FLOAT, 3, 3> dMatRotXYdTauY = Matx<FLOAT, 3, 3>(-sTauY,0,-cTauY,0,0,0,cTauY,0,-sTauY) * matRotX;
Matx<FLOAT, 3, 3> dMatProjZdTauY = Matx<FLOAT, 3, 3>(dMatRotXYdTauY(2,2),0,-dMatRotXYdTauY(0,2),
0,dMatRotXYdTauY(2,2),-dMatRotXYdTauY(1,2),0,0,0);
*dMatTiltdTauY = (matProjZ * dMatRotXYdTauY) + (dMatProjZdTauY * matRotXY);
}
if (invMatTilt)
{
FLOAT inv = 1./matRotXY(2,2);
Matx<FLOAT, 3, 3> invMatProjZ = Matx<FLOAT, 3, 3>(inv,0,inv*matRotXY(0,2),0,inv,inv*matRotXY(1,2),0,0,1);
*invMatTilt = matRotXY.t()*invMatProjZ;
}
}
}
static const char* cvDistCoeffErr = "Distortion coefficients must be 1x4, 4x1, 1x5, 5x1, 1x8, 8x1, 1x12, 12x1, 1x14 or 14x1 floating-point vector";
static void _cvProjectPoints2Internal( const CvMat* objectPoints,
const CvMat* r_vec,
const CvMat* t_vec,
const CvMat* A,
const CvMat* distCoeffs,
CvMat* imagePoints, CvMat* dpdr CV_DEFAULT(NULL),
CvMat* dpdt CV_DEFAULT(NULL), CvMat* dpdf CV_DEFAULT(NULL),
CvMat* dpdc CV_DEFAULT(NULL), CvMat* dpdk CV_DEFAULT(NULL),
CvMat* dpdo CV_DEFAULT(NULL),
double aspectRatio CV_DEFAULT(0) )
{
Ptr<CvMat> matM, _m;
Ptr<CvMat> _dpdr, _dpdt, _dpdc, _dpdf, _dpdk;
Ptr<CvMat> _dpdo;
int i, j, count;
int calc_derivatives;
const CvPoint3D64f* M;
CvPoint3D64f* m;
double r[3], R[9], dRdr[27], t[3], a[9], k[14] = {0,0,0,0,0,0,0,0,0,0,0,0,0,0}, fx, fy, cx, cy;
Matx33d matTilt = Matx33d::eye();
Matx33d dMatTiltdTauX(0,0,0,0,0,0,0,-1,0);
Matx33d dMatTiltdTauY(0,0,0,0,0,0,1,0,0);
CvMat _r, _t, _a = cvMat( 3, 3, CV_64F, a ), _k;
CvMat matR = cvMat( 3, 3, CV_64F, R ), _dRdr = cvMat( 3, 9, CV_64F, dRdr );
double *dpdr_p = 0, *dpdt_p = 0, *dpdk_p = 0, *dpdf_p = 0, *dpdc_p = 0;
double* dpdo_p = 0;
int dpdr_step = 0, dpdt_step = 0, dpdk_step = 0, dpdf_step = 0, dpdc_step = 0;
int dpdo_step = 0;
bool fixedAspectRatio = aspectRatio > FLT_EPSILON;
if( !CV_IS_MAT(objectPoints) || !CV_IS_MAT(r_vec) ||
!CV_IS_MAT(t_vec) || !CV_IS_MAT(A) ||
/*!CV_IS_MAT(distCoeffs) ||*/ !CV_IS_MAT(imagePoints) )
CV_Error( CV_StsBadArg, "One of required arguments is not a valid matrix" );
int total = objectPoints->rows * objectPoints->cols * CV_MAT_CN(objectPoints->type);
if(total % 3 != 0)
{
//we have stopped support of homogeneous coordinates because it cause ambiguity in interpretation of the input data
CV_Error( CV_StsBadArg, "Homogeneous coordinates are not supported" );
}
count = total / 3;
if( CV_IS_CONT_MAT(objectPoints->type) &&
(CV_MAT_DEPTH(objectPoints->type) == CV_32F || CV_MAT_DEPTH(objectPoints->type) == CV_64F)&&
((objectPoints->rows == 1 && CV_MAT_CN(objectPoints->type) == 3) ||
(objectPoints->rows == count && CV_MAT_CN(objectPoints->type)*objectPoints->cols == 3) ||
(objectPoints->rows == 3 && CV_MAT_CN(objectPoints->type) == 1 && objectPoints->cols == count)))
{
matM.reset(cvCreateMat( objectPoints->rows, objectPoints->cols, CV_MAKETYPE(CV_64F,CV_MAT_CN(objectPoints->type)) ));
cvConvert(objectPoints, matM);
}
else
{
// matM = cvCreateMat( 1, count, CV_64FC3 );
// cvConvertPointsHomogeneous( objectPoints, matM );
CV_Error( CV_StsBadArg, "Homogeneous coordinates are not supported" );
}
if( CV_IS_CONT_MAT(imagePoints->type) &&
(CV_MAT_DEPTH(imagePoints->type) == CV_32F || CV_MAT_DEPTH(imagePoints->type) == CV_64F) &&
((imagePoints->rows == 1 && CV_MAT_CN(imagePoints->type) == 3) ||
(imagePoints->rows == count && CV_MAT_CN(imagePoints->type)*imagePoints->cols == 3) ||
(imagePoints->rows == 3 && CV_MAT_CN(imagePoints->type) == 1 && imagePoints->cols == count)))
{
_m.reset(cvCreateMat( imagePoints->rows, imagePoints->cols, CV_MAKETYPE(CV_64F,CV_MAT_CN(imagePoints->type)) ));
cvConvert(imagePoints, _m);
}
else
{
// _m = cvCreateMat( 1, count, CV_64FC2 );
CV_Error( CV_StsBadArg, "Homogeneous coordinates are not supported" );
}
M = (CvPoint3D64f*)matM->data.db;
m = (CvPoint3D64f*)_m->data.db;
if( (CV_MAT_DEPTH(r_vec->type) != CV_64F && CV_MAT_DEPTH(r_vec->type) != CV_32F) ||
(((r_vec->rows != 1 && r_vec->cols != 1) ||
r_vec->rows*r_vec->cols*CV_MAT_CN(r_vec->type) != 3) &&
((r_vec->rows != 3 && r_vec->cols != 3) || CV_MAT_CN(r_vec->type) != 1)))
CV_Error( CV_StsBadArg, "Rotation must be represented by 1x3 or 3x1 "
"floating-point rotation vector, or 3x3 rotation matrix" );
if( r_vec->rows == 3 && r_vec->cols == 3 )
{
_r = cvMat( 3, 1, CV_64FC1, r );
cvRodrigues2( r_vec, &_r );
cvRodrigues2( &_r, &matR, &_dRdr );
cvCopy( r_vec, &matR );
}
else
{
_r = cvMat( r_vec->rows, r_vec->cols, CV_MAKETYPE(CV_64F,CV_MAT_CN(r_vec->type)), r );
cvConvert( r_vec, &_r );
cvRodrigues2( &_r, &matR, &_dRdr );
}
if( (CV_MAT_DEPTH(t_vec->type) != CV_64F && CV_MAT_DEPTH(t_vec->type) != CV_32F) ||
(t_vec->rows != 1 && t_vec->cols != 1) ||
t_vec->rows*t_vec->cols*CV_MAT_CN(t_vec->type) != 3 )
CV_Error( CV_StsBadArg,
"Translation vector must be 1x3 or 3x1 floating-point vector" );
_t = cvMat( t_vec->rows, t_vec->cols, CV_MAKETYPE(CV_64F,CV_MAT_CN(t_vec->type)), t );
cvConvert( t_vec, &_t );
if( (CV_MAT_TYPE(A->type) != CV_64FC1 && CV_MAT_TYPE(A->type) != CV_32FC1) ||
A->rows != 3 || A->cols != 3 )
CV_Error( CV_StsBadArg, "Instrinsic parameters must be 3x3 floating-point matrix" );
cvConvert( A, &_a );
fx = a[0]; fy = a[4];
cx = a[2]; cy = a[5];
if( fixedAspectRatio )
fx = fy*aspectRatio;
if( distCoeffs )
{
if( !CV_IS_MAT(distCoeffs) ||
(CV_MAT_DEPTH(distCoeffs->type) != CV_64F &&
CV_MAT_DEPTH(distCoeffs->type) != CV_32F) ||
(distCoeffs->rows != 1 && distCoeffs->cols != 1) ||
(distCoeffs->rows*distCoeffs->cols*CV_MAT_CN(distCoeffs->type) != 4 &&
distCoeffs->rows*distCoeffs->cols*CV_MAT_CN(distCoeffs->type) != 5 &&
distCoeffs->rows*distCoeffs->cols*CV_MAT_CN(distCoeffs->type) != 8 &&
distCoeffs->rows*distCoeffs->cols*CV_MAT_CN(distCoeffs->type) != 12 &&
distCoeffs->rows*distCoeffs->cols*CV_MAT_CN(distCoeffs->type) != 14) )
CV_Error( CV_StsBadArg, cvDistCoeffErr );
_k = cvMat( distCoeffs->rows, distCoeffs->cols,
CV_MAKETYPE(CV_64F,CV_MAT_CN(distCoeffs->type)), k );
cvConvert( distCoeffs, &_k );
if(k[12] != 0 || k[13] != 0)
{
_detail::computeTiltProjectionMatrix(k[12], k[13],
&matTilt, &dMatTiltdTauX, &dMatTiltdTauY);
}
}
if( dpdr )
{
if( !CV_IS_MAT(dpdr) ||
(CV_MAT_TYPE(dpdr->type) != CV_32FC1 &&
CV_MAT_TYPE(dpdr->type) != CV_64FC1) ||
dpdr->rows != count*2 || dpdr->cols != 3 )
CV_Error( CV_StsBadArg, "dp/drot must be 2Nx3 floating-point matrix" );
if( CV_MAT_TYPE(dpdr->type) == CV_64FC1 )
{
_dpdr.reset(cvCloneMat(dpdr));
}
else
_dpdr.reset(cvCreateMat( 2*count, 3, CV_64FC1 ));
dpdr_p = _dpdr->data.db;
dpdr_step = _dpdr->step/sizeof(dpdr_p[0]);
}
if( dpdt )
{
if( !CV_IS_MAT(dpdt) ||
(CV_MAT_TYPE(dpdt->type) != CV_32FC1 &&
CV_MAT_TYPE(dpdt->type) != CV_64FC1) ||
dpdt->rows != count*2 || dpdt->cols != 3 )
CV_Error( CV_StsBadArg, "dp/dT must be 2Nx3 floating-point matrix" );
if( CV_MAT_TYPE(dpdt->type) == CV_64FC1 )
{
_dpdt.reset(cvCloneMat(dpdt));
}
else
_dpdt.reset(cvCreateMat( 2*count, 3, CV_64FC1 ));
dpdt_p = _dpdt->data.db;
dpdt_step = _dpdt->step/sizeof(dpdt_p[0]);
}
if( dpdf )
{
if( !CV_IS_MAT(dpdf) ||
(CV_MAT_TYPE(dpdf->type) != CV_32FC1 && CV_MAT_TYPE(dpdf->type) != CV_64FC1) ||
dpdf->rows != count*2 || dpdf->cols != 2 )
CV_Error( CV_StsBadArg, "dp/df must be 2Nx2 floating-point matrix" );
if( CV_MAT_TYPE(dpdf->type) == CV_64FC1 )
{
_dpdf.reset(cvCloneMat(dpdf));
}
else
_dpdf.reset(cvCreateMat( 2*count, 2, CV_64FC1 ));
dpdf_p = _dpdf->data.db;
dpdf_step = _dpdf->step/sizeof(dpdf_p[0]);
}
if( dpdc )
{
if( !CV_IS_MAT(dpdc) ||
(CV_MAT_TYPE(dpdc->type) != CV_32FC1 && CV_MAT_TYPE(dpdc->type) != CV_64FC1) ||
dpdc->rows != count*2 || dpdc->cols != 2 )
CV_Error( CV_StsBadArg, "dp/dc must be 2Nx2 floating-point matrix" );
if( CV_MAT_TYPE(dpdc->type) == CV_64FC1 )
{
_dpdc.reset(cvCloneMat(dpdc));
}
else
_dpdc.reset(cvCreateMat( 2*count, 2, CV_64FC1 ));
dpdc_p = _dpdc->data.db;
dpdc_step = _dpdc->step/sizeof(dpdc_p[0]);
}
if( dpdk )
{
if( !CV_IS_MAT(dpdk) ||
(CV_MAT_TYPE(dpdk->type) != CV_32FC1 && CV_MAT_TYPE(dpdk->type) != CV_64FC1) ||
dpdk->rows != count*2 || (dpdk->cols != 14 && dpdk->cols != 12 && dpdk->cols != 8 && dpdk->cols != 5 && dpdk->cols != 4 && dpdk->cols != 2) )
CV_Error( CV_StsBadArg, "dp/df must be 2Nx14, 2Nx12, 2Nx8, 2Nx5, 2Nx4 or 2Nx2 floating-point matrix" );
if( !distCoeffs )
CV_Error( CV_StsNullPtr, "distCoeffs is NULL while dpdk is not" );
if( CV_MAT_TYPE(dpdk->type) == CV_64FC1 )
{
_dpdk.reset(cvCloneMat(dpdk));
}
else
_dpdk.reset(cvCreateMat( dpdk->rows, dpdk->cols, CV_64FC1 ));
dpdk_p = _dpdk->data.db;
dpdk_step = _dpdk->step/sizeof(dpdk_p[0]);
}
if( dpdo )
{
if( !CV_IS_MAT( dpdo ) || ( CV_MAT_TYPE( dpdo->type ) != CV_32FC1
&& CV_MAT_TYPE( dpdo->type ) != CV_64FC1 )
|| dpdo->rows != count * 2 || dpdo->cols != count * 3 )
CV_Error( CV_StsBadArg, "dp/do must be 2Nx3N floating-point matrix" );
if( CV_MAT_TYPE( dpdo->type ) == CV_64FC1 )
{
_dpdo.reset( cvCloneMat( dpdo ) );
}
else
_dpdo.reset( cvCreateMat( 2 * count, 3 * count, CV_64FC1 ) );
cvZero(_dpdo);
dpdo_p = _dpdo->data.db;
dpdo_step = _dpdo->step / sizeof( dpdo_p[0] );
}
calc_derivatives = dpdr || dpdt || dpdf || dpdc || dpdk || dpdo;
for( i = 0; i < count; i++ )
{
double X = M[i].x, Y = M[i].y, Z = M[i].z;
double x = R[0]*X + R[1]*Y + R[2]*Z + t[0];
double y = R[3]*X + R[4]*Y + R[5]*Z + t[1];
double z = R[6]*X + R[7]*Y + R[8]*Z + t[2];
double r2, r4, r6, a1, a2, a3, cdist, icdist2;
double xd, yd, xd0, yd0, invProj;
Vec3d vecTilt;
Vec3d dVecTilt;
Matx22d dMatTilt;
Vec2d dXdYd;
double z0 = z;
z = z ? 1./z : 1;
x *= z; y *= z;
r2 = x*x + y*y;
r4 = r2*r2;
r6 = r4*r2;
a1 = 2*x*y;
a2 = r2 + 2*x*x;
a3 = r2 + 2*y*y;
cdist = 1 + k[0]*r2 + k[1]*r4 + k[4]*r6;
icdist2 = 1./(1 + k[5]*r2 + k[6]*r4 + k[7]*r6);
xd0 = x*cdist*icdist2 + k[2]*a1 + k[3]*a2 + k[8]*r2+k[9]*r4;
yd0 = y*cdist*icdist2 + k[2]*a3 + k[3]*a1 + k[10]*r2+k[11]*r4;
// additional distortion by projecting onto a tilt plane
vecTilt = matTilt*Vec3d(xd0, yd0, 1);
invProj = vecTilt(2) ? 1./vecTilt(2) : 1;
xd = invProj * vecTilt(0);
yd = invProj * vecTilt(1);
m[i].x = xd*fx + cx;
m[i].y = yd*fy + cy;
m[i].z = z; // Just put the projected Z coordinate here, we mainly care about the sign
if( calc_derivatives )
{
if( dpdc_p )
{
dpdc_p[0] = 1; dpdc_p[1] = 0; // dp_xdc_x; dp_xdc_y
dpdc_p[dpdc_step] = 0;
dpdc_p[dpdc_step+1] = 1;
dpdc_p += dpdc_step*2;
}
if( dpdf_p )
{
if( fixedAspectRatio )
{
dpdf_p[0] = 0; dpdf_p[1] = xd*aspectRatio; // dp_xdf_x; dp_xdf_y
dpdf_p[dpdf_step] = 0;
dpdf_p[dpdf_step+1] = yd;
}
else
{
dpdf_p[0] = xd; dpdf_p[1] = 0;
dpdf_p[dpdf_step] = 0;
dpdf_p[dpdf_step+1] = yd;
}
dpdf_p += dpdf_step*2;
}
for (int row = 0; row < 2; ++row)
for (int col = 0; col < 2; ++col)
dMatTilt(row,col) = matTilt(row,col)*vecTilt(2)
- matTilt(2,col)*vecTilt(row);
double invProjSquare = (invProj*invProj);
dMatTilt *= invProjSquare;
if( dpdk_p )
{
dXdYd = dMatTilt*Vec2d(x*icdist2*r2, y*icdist2*r2);
dpdk_p[0] = fx*dXdYd(0);
dpdk_p[dpdk_step] = fy*dXdYd(1);
dXdYd = dMatTilt*Vec2d(x*icdist2*r4, y*icdist2*r4);
dpdk_p[1] = fx*dXdYd(0);
dpdk_p[dpdk_step+1] = fy*dXdYd(1);
if( _dpdk->cols > 2 )
{
dXdYd = dMatTilt*Vec2d(a1, a3);
dpdk_p[2] = fx*dXdYd(0);
dpdk_p[dpdk_step+2] = fy*dXdYd(1);
dXdYd = dMatTilt*Vec2d(a2, a1);
dpdk_p[3] = fx*dXdYd(0);
dpdk_p[dpdk_step+3] = fy*dXdYd(1);
if( _dpdk->cols > 4 )
{
dXdYd = dMatTilt*Vec2d(x*icdist2*r6, y*icdist2*r6);
dpdk_p[4] = fx*dXdYd(0);
dpdk_p[dpdk_step+4] = fy*dXdYd(1);
if( _dpdk->cols > 5 )
{
dXdYd = dMatTilt*Vec2d(
x*cdist*(-icdist2)*icdist2*r2, y*cdist*(-icdist2)*icdist2*r2);
dpdk_p[5] = fx*dXdYd(0);
dpdk_p[dpdk_step+5] = fy*dXdYd(1);
dXdYd = dMatTilt*Vec2d(
x*cdist*(-icdist2)*icdist2*r4, y*cdist*(-icdist2)*icdist2*r4);
dpdk_p[6] = fx*dXdYd(0);
dpdk_p[dpdk_step+6] = fy*dXdYd(1);
dXdYd = dMatTilt*Vec2d(
x*cdist*(-icdist2)*icdist2*r6, y*cdist*(-icdist2)*icdist2*r6);
dpdk_p[7] = fx*dXdYd(0);
dpdk_p[dpdk_step+7] = fy*dXdYd(1);
if( _dpdk->cols > 8 )
{
dXdYd = dMatTilt*Vec2d(r2, 0);
dpdk_p[8] = fx*dXdYd(0); //s1
dpdk_p[dpdk_step+8] = fy*dXdYd(1); //s1
dXdYd = dMatTilt*Vec2d(r4, 0);
dpdk_p[9] = fx*dXdYd(0); //s2
dpdk_p[dpdk_step+9] = fy*dXdYd(1); //s2
dXdYd = dMatTilt*Vec2d(0, r2);
dpdk_p[10] = fx*dXdYd(0);//s3
dpdk_p[dpdk_step+10] = fy*dXdYd(1); //s3
dXdYd = dMatTilt*Vec2d(0, r4);
dpdk_p[11] = fx*dXdYd(0);//s4
dpdk_p[dpdk_step+11] = fy*dXdYd(1); //s4
if( _dpdk->cols > 12 )
{
dVecTilt = dMatTiltdTauX * Vec3d(xd0, yd0, 1);
dpdk_p[12] = fx * invProjSquare * (
dVecTilt(0) * vecTilt(2) - dVecTilt(2) * vecTilt(0));
dpdk_p[dpdk_step+12] = fy*invProjSquare * (
dVecTilt(1) * vecTilt(2) - dVecTilt(2) * vecTilt(1));
dVecTilt = dMatTiltdTauY * Vec3d(xd0, yd0, 1);
dpdk_p[13] = fx * invProjSquare * (
dVecTilt(0) * vecTilt(2) - dVecTilt(2) * vecTilt(0));
dpdk_p[dpdk_step+13] = fy * invProjSquare * (
dVecTilt(1) * vecTilt(2) - dVecTilt(2) * vecTilt(1));
}
}
}
}
}
dpdk_p += dpdk_step*2;
}
if( dpdt_p )
{
double dxdt[] = { z, 0, -x*z }, dydt[] = { 0, z, -y*z };
for( j = 0; j < 3; j++ )
{
double dr2dt = 2*x*dxdt[j] + 2*y*dydt[j];
double dcdist_dt = k[0]*dr2dt + 2*k[1]*r2*dr2dt + 3*k[4]*r4*dr2dt;
double dicdist2_dt = -icdist2*icdist2*(k[5]*dr2dt + 2*k[6]*r2*dr2dt + 3*k[7]*r4*dr2dt);
double da1dt = 2*(x*dydt[j] + y*dxdt[j]);
double dmxdt = (dxdt[j]*cdist*icdist2 + x*dcdist_dt*icdist2 + x*cdist*dicdist2_dt +
k[2]*da1dt + k[3]*(dr2dt + 4*x*dxdt[j]) + k[8]*dr2dt + 2*r2*k[9]*dr2dt);
double dmydt = (dydt[j]*cdist*icdist2 + y*dcdist_dt*icdist2 + y*cdist*dicdist2_dt +
k[2]*(dr2dt + 4*y*dydt[j]) + k[3]*da1dt + k[10]*dr2dt + 2*r2*k[11]*dr2dt);
dXdYd = dMatTilt*Vec2d(dmxdt, dmydt);
dpdt_p[j] = fx*dXdYd(0);
dpdt_p[dpdt_step+j] = fy*dXdYd(1);
}
dpdt_p += dpdt_step*2;
}
if( dpdr_p )
{
double dx0dr[] =
{
X*dRdr[0] + Y*dRdr[1] + Z*dRdr[2],
X*dRdr[9] + Y*dRdr[10] + Z*dRdr[11],
X*dRdr[18] + Y*dRdr[19] + Z*dRdr[20]
};
double dy0dr[] =
{
X*dRdr[3] + Y*dRdr[4] + Z*dRdr[5],
X*dRdr[12] + Y*dRdr[13] + Z*dRdr[14],
X*dRdr[21] + Y*dRdr[22] + Z*dRdr[23]
};
double dz0dr[] =
{
X*dRdr[6] + Y*dRdr[7] + Z*dRdr[8],
X*dRdr[15] + Y*dRdr[16] + Z*dRdr[17],
X*dRdr[24] + Y*dRdr[25] + Z*dRdr[26]
};
for( j = 0; j < 3; j++ )
{
double dxdr = z*(dx0dr[j] - x*dz0dr[j]);
double dydr = z*(dy0dr[j] - y*dz0dr[j]);
double dr2dr = 2*x*dxdr + 2*y*dydr;
double dcdist_dr = (k[0] + 2*k[1]*r2 + 3*k[4]*r4)*dr2dr;
double dicdist2_dr = -icdist2*icdist2*(k[5] + 2*k[6]*r2 + 3*k[7]*r4)*dr2dr;
double da1dr = 2*(x*dydr + y*dxdr);
double dmxdr = (dxdr*cdist*icdist2 + x*dcdist_dr*icdist2 + x*cdist*dicdist2_dr +
k[2]*da1dr + k[3]*(dr2dr + 4*x*dxdr) + (k[8] + 2*r2*k[9])*dr2dr);
double dmydr = (dydr*cdist*icdist2 + y*dcdist_dr*icdist2 + y*cdist*dicdist2_dr +
k[2]*(dr2dr + 4*y*dydr) + k[3]*da1dr + (k[10] + 2*r2*k[11])*dr2dr);
dXdYd = dMatTilt*Vec2d(dmxdr, dmydr);
dpdr_p[j] = fx*dXdYd(0);
dpdr_p[dpdr_step+j] = fy*dXdYd(1);
}
dpdr_p += dpdr_step*2;
}
if( dpdo_p )
{
double dxdo[] = { z * ( R[0] - x * z * z0 * R[6] ),
z * ( R[1] - x * z * z0 * R[7] ),
z * ( R[2] - x * z * z0 * R[8] ) };
double dydo[] = { z * ( R[3] - y * z * z0 * R[6] ),
z * ( R[4] - y * z * z0 * R[7] ),
z * ( R[5] - y * z * z0 * R[8] ) };
for( j = 0; j < 3; j++ )
{
double dr2do = 2 * x * dxdo[j] + 2 * y * dydo[j];
double dr4do = 2 * r2 * dr2do;
double dr6do = 3 * r4 * dr2do;
double da1do = 2 * y * dxdo[j] + 2 * x * dydo[j];
double da2do = dr2do + 4 * x * dxdo[j];
double da3do = dr2do + 4 * y * dydo[j];
double dcdist_do
= k[0] * dr2do + k[1] * dr4do + k[4] * dr6do;
double dicdist2_do = -icdist2 * icdist2
* ( k[5] * dr2do + k[6] * dr4do + k[7] * dr6do );
double dxd0_do = cdist * icdist2 * dxdo[j]
+ x * icdist2 * dcdist_do + x * cdist * dicdist2_do
+ k[2] * da1do + k[3] * da2do + k[8] * dr2do
+ k[9] * dr4do;
double dyd0_do = cdist * icdist2 * dydo[j]
+ y * icdist2 * dcdist_do + y * cdist * dicdist2_do
+ k[2] * da3do + k[3] * da1do + k[10] * dr2do
+ k[11] * dr4do;
dXdYd = dMatTilt * Vec2d( dxd0_do, dyd0_do );
dpdo_p[i * 3 + j] = fx * dXdYd( 0 );
dpdo_p[dpdo_step + i * 3 + j] = fy * dXdYd( 1 );
}
dpdo_p += dpdo_step * 2;
}
}
}
if( _m != imagePoints )
cvConvert( _m, imagePoints );
if( _dpdr != dpdr )
cvConvert( _dpdr, dpdr );
if( _dpdt != dpdt )
cvConvert( _dpdt, dpdt );
if( _dpdf != dpdf )
cvConvert( _dpdf, dpdf );
if( _dpdc != dpdc )
cvConvert( _dpdc, dpdc );
if( _dpdk != dpdk )
cvConvert( _dpdk, dpdk );
if( _dpdo != dpdo )
cvConvert( _dpdo, dpdo );
}
static void _cvProjectPoints2( const CvMat* objectPoints,
const CvMat* r_vec,
const CvMat* t_vec,
const CvMat* A,
const CvMat* distCoeffs,
CvMat* imagePoints, CvMat* dpdr,
CvMat* dpdt, CvMat* dpdf,
CvMat* dpdc, CvMat* dpdk,
double aspectRatio )
{
_cvProjectPoints2Internal( objectPoints, r_vec, t_vec, A, distCoeffs, imagePoints, dpdr, dpdt,
dpdf, dpdc, dpdk, NULL, aspectRatio );
}

28
aruco_pose/src/genmap.py
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@@ -1,4 +1,4 @@
#!/usr/bin/env python
#!/usr/bin/env python3
# Copyright (C) 2018 Copter Express Technologies
#
@@ -13,7 +13,7 @@
Generate map file for aruco_map nodelet.
Usage:
genmap.py <length> <x> <y> <dist_x> <dist_y> [<first>] [<x0>] [<y0>] [--top-left | --bottom-left] [-o <filename>]
genmap.py <length> <x> <y> <dist_x> <dist_y> [<first>] [--top-left | --bottom-left]
genmap.py (-h | --help)
Options:
@@ -23,20 +23,15 @@ Options:
<dist_x> Distance between markers along X axis
<dist_y> Distance between markers along Y axis
<first> First marker ID [default: 0]
<x0> X coordinate for the first marker [default: 0]
<y0> Y coordinate for the first marker [default: 0]
--top-left First marker is on top-left (default)
--bottom-left First marker is on bottom-left
-o <filename> Output map file name in the 'map' subdirectory of aruco_pose package
Example:
rosrun aruco_pose genmap.py 0.33 2 4 1 1 0 -o test_map.txt
rosrun aruco_pose genmap.py 0.33 2 4 1 1 0 > $(catkin_find aruco_pose map)/test_map.txt
"""
from __future__ import print_function
import sys
from os import path
from docopt import docopt
@@ -44,27 +39,20 @@ arguments = docopt(__doc__)
length = float(arguments['<length>'])
first = int(arguments['<first>'] if arguments['<first>'] is not None else 0)
x0 = float(arguments['<x0>'] if arguments['<x0>'] is not None else 0)
y0 = float(arguments['<y0>'] if arguments['<y0>'] is not None else 0)
markers_x = int(arguments['<x>'])
markers_y = int(arguments['<y>'])
dist_x = float(arguments['<dist_x>'])
dist_y = float(arguments['<dist_y>'])
bottom_left = arguments['--bottom-left']
if arguments['-o'] is None:
output = sys.stdout
else:
output = open(path.join(path.dirname(__file__), '..', 'map', arguments['-o']), 'w')
max_y = (markers_y - 1) * dist_y
max_y = y0 + (markers_y - 1) * dist_y
output.write('# id\tlength\tx\ty\tz\trot_z\trot_y\trot_x\n')
print('# id\tlength\tx\ty\tz\trot_z\trot_y\trot_x')
for y in range(markers_y):
for x in range(markers_x):
pos_x = x0 + x * dist_x
pos_y = y0 + y * dist_y
pos_x = x * dist_x
pos_y = y * dist_y
if not bottom_left:
pos_y = max_y - pos_y
output.write('{}\t{}\t{}\t{}\t{}\t{}\t{}\t{}\n'.format(first, length, pos_x, pos_y, 0, 0, 0, 0))
print('{}\t{}\t{}\t{}\t{}\t{}\t{}\t{}\t'.format(first, length, pos_x, pos_y, 0, 0, 0, 0))
first += 1

29
aruco_pose/src/utils.h
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@@ -35,7 +35,9 @@ static void parseCameraInfo(const sensor_msgs::CameraInfoConstPtr& cinfo, cv::Ma
for (unsigned int i = 0; i < 3; ++i)
for (unsigned int j = 0; j < 3; ++j)
matrix.at<double>(i, j) = cinfo->K[3 * i + j];
dist = cv::Mat(cinfo->D, true);
for (unsigned int k = 0; k < cinfo->D.size(); k++)
dist.at<double>(k) = cinfo->D[k];
}
inline void rotatePoint(cv::Point3f& p, cv::Point3f origin, float angle)
@@ -106,25 +108,26 @@ inline bool isFlipped(tf::Quaternion& q)
return (abs(pitch) > M_PI / 2) || (abs(roll) > M_PI / 2);
}
/* Apply a vertical to an orientation */
inline void applyVertical(geometry_msgs::Quaternion& orientation, const geometry_msgs::Quaternion& vertical,
bool flip_vertical = false, bool auto_flip = false) // editorconfig-checker-disable-line
/* Set roll and pitch from "from" to "to", keeping yaw */
inline void snapOrientation(geometry_msgs::Quaternion& to, const geometry_msgs::Quaternion& from, bool auto_flip = false)
{
tf::Quaternion _vertical, _orientation;
tf::quaternionMsgToTF(vertical, _vertical);
tf::quaternionMsgToTF(orientation, _orientation);
tf::Quaternion _from, _to;
tf::quaternionMsgToTF(from, _from);
tf::quaternionMsgToTF(to, _to);
if (flip_vertical || (auto_flip && !isFlipped(_orientation))) {
static const tf::Quaternion flip = tf::createQuaternionFromRPY(M_PI, 0, 0);
_vertical *= flip; // flip vertical
if (auto_flip) {
if (!isFlipped(_from)) {
static const tf::Quaternion flip = tf::createQuaternionFromRPY(M_PI, 0, 0);
_from *= flip; // flip "from"
}
}
auto diff = tf::Matrix3x3(_orientation).transposeTimes(tf::Matrix3x3(_vertical));
auto diff = tf::Matrix3x3(_to).transposeTimes(tf::Matrix3x3(_from));
double _, yaw;
diff.getRPY(_, _, yaw);
auto q = tf::createQuaternionFromRPY(0, 0, -yaw);
_vertical = _vertical * q; // set yaw from orientation to vertical
tf::quaternionTFToMsg(_vertical, orientation); // set vertical to orientation
_from = _from * q; // set yaw from "to" to "from"
tf::quaternionTFToMsg(_from, to); // set "from" to "to"
}
inline void transformToPose(const geometry_msgs::Transform& transform, geometry_msgs::Pose& pose)

7
aruco_pose/srv/SetMarkers.srv
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@@ -1,7 +0,0 @@
# * Add or change markers in the map
# * Change markers' properties, e. g. lengths
Marker[] markers # if length or pose is nan - remove from map
---
bool success
string message

34
aruco_pose/test/basic.py
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@@ -6,7 +6,7 @@ import tf2_geometry_msgs
from geometry_msgs.msg import PoseWithCovarianceStamped
from sensor_msgs.msg import Image
from aruco_pose.msg import MarkerArray
from visualization_msgs.msg import MarkerArray as VisMarkerArray, Marker as VisMarker
from visualization_msgs.msg import MarkerArray as VisMarkerArray
@pytest.fixture
@@ -143,7 +143,7 @@ def test_map_image(node):
assert img.encoding in ('mono8', 'rgb8')
def test_map_markers(node):
markers = rospy.wait_for_message('aruco_map/map', MarkerArray, timeout=5)
markers = rospy.wait_for_message('aruco_map/markers', MarkerArray, timeout=5)
assert markers.markers[0].id == 1
assert markers.markers[1].id == 2
assert markers.markers[2].id == 3
@@ -199,36 +199,6 @@ def test_map_markers(node):
def test_map_visualization(node):
vis = rospy.wait_for_message('aruco_map/visualization', VisMarkerArray, timeout=5)
assert len(vis.markers) == 7
assert vis.markers[0].header.frame_id == 'aruco_map'
assert vis.markers[0].type == VisMarker.CUBE
assert vis.markers[0].action == VisMarker.ADD
assert vis.markers[0].pose.position.x == 0
assert vis.markers[0].pose.position.y == 0
assert vis.markers[0].pose.position.z == 0
assert vis.markers[0].pose.orientation.x == 0
assert vis.markers[0].pose.orientation.y == 0
assert vis.markers[0].pose.orientation.z == 0
assert vis.markers[0].pose.orientation.w == 1
assert vis.markers[0].scale.x == approx(0.33)
assert vis.markers[0].scale.y == approx(0.33)
assert vis.markers[0].scale.z == approx(0.001)
assert vis.markers[1].pose.position.x == 1
assert vis.markers[1].pose.position.y == 0
assert vis.markers[1].pose.position.z == 0
assert vis.markers[1].pose.orientation.x == 0
assert vis.markers[1].pose.orientation.y == 0
assert vis.markers[1].pose.orientation.z == 0
assert vis.markers[1].pose.orientation.w == 1
# non-zero yaw marker:
assert vis.markers[4].scale.x == approx(0.5)
assert vis.markers[4].pose.position.x == approx(0.5)
assert vis.markers[4].pose.position.y == 2
assert vis.markers[4].pose.position.z == 0
assert vis.markers[4].pose.orientation.x == 0
assert vis.markers[4].pose.orientation.y == 0
assert vis.markers[4].pose.orientation.z == approx(0.5646424733950354)
assert vis.markers[4].pose.orientation.w == approx(0.8253356149096783)
def test_map_debug(node):
img = rospy.wait_for_message('aruco_map/debug', Image, timeout=5)

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18
aruco_pose/test/crash_opencv.py
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@@ -1,18 +0,0 @@
import rospy
import pytest
from visualization_msgs.msg import MarkerArray as VisMarkerArray
@pytest.fixture
def node():
return rospy.init_node('aruco_pose_opencv_crash', anonymous=True)
def test_opencv_crashes_img01(node):
rospy.wait_for_message('aruco_detect_01/visualization', VisMarkerArray, timeout=5)
def test_opencv_crashes_img02(node):
rospy.wait_for_message('aruco_detect_02/visualization', VisMarkerArray, timeout=5)
def test_opencv_crashes_img03(node):
rospy.wait_for_message('aruco_detect_03/visualization', VisMarkerArray, timeout=5)

51
aruco_pose/test/crash_opencv.test
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@@ -1,51 +0,0 @@
<launch>
<arg name="corner_method" default="2"/>
<node pkg="image_publisher" type="image_publisher" name="imgpub_01" args="$(find aruco_pose)/test/crash_image_01.png">
<param name="frame_id" value="main_camera_optical"/>
<param name="publish_rate" value="10"/>
<param name="camera_info_url" value="file://$(find aruco_pose)/test/camera_info.yaml" />
</node>
<node pkg="image_publisher" type="image_publisher" name="imgpub_02" args="$(find aruco_pose)/test/crash_image_02.png">
<param name="frame_id" value="main_camera_optical"/>
<param name="publish_rate" value="10"/>
<param name="camera_info_url" value="file://$(find aruco_pose)/test/camera_info.yaml" />
</node>
<node pkg="image_publisher" type="image_publisher" name="imgpub_03" args="$(find aruco_pose)/test/crash_image_03.png">
<param name="frame_id" value="main_camera_optical"/>
<param name="publish_rate" value="10"/>
<param name="camera_info_url" value="file://$(find aruco_pose)/test/camera_info.yaml" />
</node>
<node pkg="nodelet" type="nodelet" name="nodelet_manager_01" args="manager"/>
<node pkg="nodelet" clear_params="true" type="nodelet" name="aruco_detect_01" args="load aruco_pose/aruco_detect nodelet_manager_01">
<remap from="image_raw" to="imgpub_01/image_raw"/>
<remap from="camera_info" to="imgpub_01/camera_info"/>
<param name="length" value="0.33"/>
<param name="cornerRefinementMethod" value="$(arg corner_method)"/>
</node>
<node pkg="nodelet" type="nodelet" name="nodelet_manager_02" args="manager"/>
<node pkg="nodelet" clear_params="true" type="nodelet" name="aruco_detect_02" args="load aruco_pose/aruco_detect nodelet_manager_02">
<remap from="image_raw" to="imgpub_02/image_raw"/>
<remap from="camera_info" to="imgpub_02/camera_info"/>
<param name="length" value="0.33"/>
<param name="cornerRefinementMethod" value="$(arg corner_method)"/>
</node>
<node pkg="nodelet" type="nodelet" name="nodelet_manager_03" args="manager"/>
<node pkg="nodelet" clear_params="true" type="nodelet" name="aruco_detect_03" args="load aruco_pose/aruco_detect nodelet_manager_03">
<remap from="image_raw" to="imgpub_03/image_raw"/>
<remap from="camera_info" to="imgpub_03/camera_info"/>
<param name="length" value="0.33"/>
<param name="cornerRefinementMethod" value="$(arg corner_method)"/>
</node>
<param name="test_module" value="$(find aruco_pose)/test/crash_opencv.py"/>
<test test-name="crash_opencv" pkg="ros_pytest" type="ros_pytest_runner"/>
</launch>

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8
aruco_pose/test/duplicate.py
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@@ -1,8 +0,0 @@
import pytest
import subprocess
def test_no_tf_repeated_data():
# `/rosout` acts weirdly inside rostest, so using a subprocess
cmd = """python -c 'import rospy, tf; rospy.init_node("foo"); listener = tf.TransformListener(); rospy.sleep(2)'"""
output = str(subprocess.check_output(cmd, shell=True, stderr=subprocess.STDOUT))
assert 'TF_REPEATED_DATA' not in output, 'TF_REPEATED_DATA was logged on duplicate markers'

21
aruco_pose/test/duplicate.test
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@@ -1,21 +0,0 @@
<launch>
<node pkg="image_publisher" type="image_publisher" name="main_camera" args="$(find aruco_pose)/test/duplicate.png">
<param name="frame_id" value="main_camera_optical"/>
<param name="publish_rate" value="10"/>
<param name="camera_info_url" value="file://$(find aruco_pose)/test/camera_info.yaml" />
</node>
<node pkg="nodelet" type="nodelet" name="nodelet_manager" args="manager" required="true"/>
<node pkg="nodelet" clear_params="true" type="nodelet" name="aruco_detect" args="load aruco_pose/aruco_detect nodelet_manager" required="true">
<remap from="image_raw" to="main_camera/image_raw"/>
<remap from="camera_info" to="main_camera/camera_info"/>
<param name="length" value="0.33"/>
<param name="estimate_poses" value="true"/>
<param name="send_tf" value="true"/>
<param name="cornerRefinementMethod" value="1"/>
</node>
<param name="test_module" value="$(find aruco_pose)/test/duplicate.py"/>
<test test-name="aruco_pose_test" pkg="ros_pytest" type="ros_pytest_runner"/>
</launch>

31
aruco_pose/test/largemap.py
View File

@@ -1,26 +1,19 @@
#!/usr/bin/env python
import sys
import unittest
import json
import rospy
import rostest
import pytest
from sensor_msgs.msg import Image
from visualization_msgs.msg import MarkerArray as VisMarkerArray
@pytest.fixture
def node():
return rospy.init_node('test_aruco_largemap', anonymous=True)
class TestArucoPose(unittest.TestCase):
def setUp(self):
rospy.init_node('test_aruco_largemap', anonymous=True)
def test_large_map_image(node):
img = rospy.wait_for_message('aruco_map/image', Image, timeout=5)
assert img.width == 2000
assert img.height == 2000
assert img.encoding in ('mono8', 'rgb8')
def test_map_image(self):
img = rospy.wait_for_message('aruco_map/image', Image, timeout=5)
self.assertEqual(img.width, 2000)
self.assertEqual(img.height, 2000)
self.assertIn(img.encoding, ('mono8', 'rgb8'))
def test_map_visualization(self):
vis = rospy.wait_for_message('aruco_map/visualization', VisMarkerArray, timeout=5)
rostest.rosrun('aruco_pose', 'test_aruco_largemap', TestArucoPose, sys.argv)
def test_large_map_visualization(node):
vis = rospy.wait_for_message('aruco_map/visualization', VisMarkerArray, timeout=5)
assert len(vis.markers) == 11

3
aruco_pose/test/largemap.test
View File

@@ -9,5 +9,6 @@
<param name="map" value="$(find aruco_pose)/test/largemap.txt"/>
</node>
<test test-name="test_aruco_pose_largemap" pkg="aruco_pose" type="largemap.py"/>
<param name="test_module" value="$(find aruco_pose)/test/largemap.py"/>
<test test-name="test_node_pass" pkg="ros_pytest" type="ros_pytest_runner"/>
</launch>

5
aruco_pose/test/test_node_failure.py
View File

@@ -2,7 +2,6 @@ import rospy
import pytest
from visualization_msgs.msg import MarkerArray as VisMarkerArray
from aruco_pose.msg import MarkerArray
@pytest.fixture
@@ -10,5 +9,5 @@ def node():
return rospy.init_node('aruco_pose_test', anonymous=True)
def test_node_failure(node):
assert rospy.wait_for_message('aruco_map/visualization', VisMarkerArray, timeout=5).markers == []
assert rospy.wait_for_message('aruco_map/map', MarkerArray, timeout=5).markers == []
with pytest.raises(rospy.exceptions.ROSException):
rospy.wait_for_message('aruco_map/visualization', VisMarkerArray, timeout=5)

3
aruco_pose/vendor/VendorOpenCV.cmake vendored
View File

@@ -7,7 +7,6 @@ endif()
message(STATUS "Adding vendored aruco_pose OpenCV module")
add_library(_opencv_aruco STATIC
vendor/aruco/src/apriltag_quad_thresh.cpp
vendor/aruco/src/aruco.cpp
vendor/aruco/src/charuco.cpp
vendor/aruco/src/dictionary.cpp
@@ -24,7 +23,7 @@ target_compile_definitions(_opencv_aruco PRIVATE
CV_OVERRIDE=override
)
target_compile_options(_opencv_aruco PRIVATE
-fpic -fPIC -fvisibility=hidden
-fpic -fPIC
)
target_include_directories(_opencv_aruco PUBLIC

14
aruco_pose/vendor/aruco/src/apriltag_quad_thresh.cpp vendored
View File

@@ -94,7 +94,7 @@ void ptsort_(struct pt *pts, int sz)
// Use stack storage if it's not too big.
cv::AutoBuffer<struct pt, 1024> _tmp_stack(sz);
memcpy(_tmp_stack, pts, sizeof(struct pt) * sz);
memcpy(_tmp_stack.data(), pts, sizeof(struct pt) * sz);
int asz = sz/2;
int bsz = sz - asz;
@@ -470,11 +470,11 @@ int quad_segment_agg(int sz, struct line_fit_pt *lfps, int indices[4]){
int rvalloc_pos = 0;
int rvalloc_size = 3*sz;
cv::AutoBuffer<struct remove_vertex, 0> rvalloc_(std::max(1, rvalloc_size));
memset(rvalloc_, 0, sizeof(rvalloc_[0]) * rvalloc_.size()); // TODO Add AutoBuffer zero fill
struct remove_vertex *rvalloc = rvalloc_;
memset(rvalloc_.data(), 0, sizeof(rvalloc_[0]) * rvalloc_.size()); // TODO Add AutoBuffer zero fill
struct remove_vertex *rvalloc = rvalloc_.data();
cv::AutoBuffer<struct segment, 0> segs_(std::max(1, sz)); // TODO Add AutoBuffer zero fill
memset(segs_, 0, sizeof(segs_[0]) * segs_.size());
struct segment *segs = segs_;
memset(segs_.data(), 0, sizeof(segs_[0]) * segs_.size());
struct segment *segs = segs_.data();
// populate with initial entries
for (int i = 0; i < sz; i++) {
@@ -753,8 +753,8 @@ int fit_quad(const Ptr<DetectorParameters> &_params, const Mat im, zarray_t *clu
// efficiently computed for any contiguous range of indices.
cv::AutoBuffer<struct line_fit_pt, 64> lfps_(sz);
memset(lfps_, 0, sizeof(lfps_[0]) * lfps_.size()); // TODO Add AutoBuffer zero fill
struct line_fit_pt *lfps = lfps_;
memset(lfps_.data(), 0, sizeof(lfps_[0]) * lfps_.size()); // TODO Add AutoBuffer zero fill
struct line_fit_pt *lfps = lfps_.data();
for (int i = 0; i < sz; i++) {
struct pt *p;

2
aruco_pose/vendor/aruco/src/aruco.cpp vendored
View File

@@ -924,8 +924,6 @@ static void _refineCandidateLines(std::vector<Point>& nContours, std::vector<Poi
// calculate the line :: who passes through the grouped points
Point3f lines[4];
for(int i=0; i<4; i++){
// Don't try to "interpolate" single points
if (cntPts[i].size() < 2) return;
lines[i]=_interpolate2Dline(cntPts[i]);
}

15
book.json
View File

@@ -1,5 +1,5 @@
{
"title": "Clover",
"title": "Clever",
"description": "Конструктор квадрокоптера «Клевер»",
"author": "Copter Express",
"language": "en",
@@ -9,8 +9,7 @@
"richquotes@https://github.com/okalachev/gitbook-plugin-richquotes.git",
"yametrika",
"anchors",
"collapsible-menu",
"validate-links@https://github.com/okalachev/gitbook-plugin-validate-links.git",
"validate-links",
"bulk-redirect@https://github.com/okalachev/gitbook-plugin-bulk-redirect.git",
"sitemap@https://github.com/okalachev/plugin-sitemap.git",
"toolbar@https://github.com/hamishwillee/gitbook-plugin-toolbar.git",
@@ -29,7 +28,7 @@
"blank": true
},
"sitemap": {
"hostname": "https://clover.coex.tech"
"hostname": "https://clever.coex.tech"
},
"toolbar": {
"buttons":
@@ -38,19 +37,19 @@
"label": "Edit page on github",
"icon": "fa fa-pencil-square-o",
"position" : "left",
"url": "https://github.com/CopterExpress/clover/edit/master/docs/{{filepath_lang}}"
"url": "https://github.com/CopterExpress/clever/edit/master/docs/{{filepath_lang}}"
},
{
"label": "GitHub",
"icon": "fa fa-github",
"position" : "left",
"url": "https://github.com/CopterExpress/clover"
"url": "https://github.com/CopterExpress/clever"
}
]
},
"addcssjs": {
"css": ["../clover.css"],
"js": ["../clover.js"]
"css": ["../clever.css"],
"js": ["../clever.js"]
},
"language-picker": {
"languages": [["ru", "Russian"], ["en", "English"]]

34
builder/assets/avahi-services/sftp-ssh.service
View File

@@ -1,34 +0,0 @@
<?xml version="1.0" standalone='no'?><!--*-nxml-*-->
<!DOCTYPE service-group SYSTEM "avahi-service.dtd">
<!--
This file is part of avahi.
avahi is free software; you can redistribute it and/or modify it
under the terms of the GNU Lesser General Public License as
published by the Free Software Foundation; either version 2 of the
License, or (at your option) any later version.
avahi is distributed in the hope that it will be useful, but
WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
General Public License for more details.
You should have received a copy of the GNU Lesser General Public
License along with avahi; if not, write to the Free Software
Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA
02111-1307 USA.
-->
<!-- See avahi.service(5) for more information about this configuration file -->
<service-group>
<name replace-wildcards="yes">%h</name>
<service>
<type>_sftp-ssh._tcp</type>
<port>22</port>
</service>
</service-group>

6
builder/assets/clover.service
View File

@@ -5,12 +5,8 @@ Requires=roscore.service
[Service]
User=pi
ExecStart=/bin/bash -c ". /home/pi/catkin_ws/devel/setup.sh; \
ROS_HOSTNAME=`hostname`.local ROS_OS_OVERRIDE=debian:bookworm exec stdbuf -o L roslaunch clover clover.launch --wait --screen --skip-log-check \
ROS_HOSTNAME=`hostname`.local exec stdbuf -o L roslaunch clover clover.launch --wait --screen --skip-log-check \
2> >(tee /tmp/clover.err)"
ExecStartPre=+rm /var/log/clover.log
StandardOutput=file:/var/log/clover.log
StandardError=file:/var/log/clover.log
[Install]
WantedBy=multi-user.target

16
clover/examples/flight.py → builder/assets/examples/flight.py
View File

@@ -1,4 +1,4 @@
# Information: https://clover.coex.tech/programming
# Information: https://clever.coex.tech/en/programming.html
import rospy
from clover import srv
@@ -15,17 +15,17 @@ set_attitude = rospy.ServiceProxy('set_attitude', srv.SetAttitude)
set_rates = rospy.ServiceProxy('set_rates', srv.SetRates)
land = rospy.ServiceProxy('land', Trigger)
print('Take off and hover 1 m above the ground')
# Takeoff and hover 1 m above the ground
navigate(x=0, y=0, z=1, frame_id='body', auto_arm=True)
# Wait for 5 seconds
rospy.sleep(5)
# Wait for 3 seconds
rospy.sleep(3)
print('Fly forward 1 m')
# Fly forward 1 m
navigate(x=1, y=0, z=0, frame_id='body')
# Wait for 5 seconds
rospy.sleep(5)
# Wait for 3 seconds
rospy.sleep(3)
print('Perform landing')
# Perform landing
land()

10
clover/examples/leds.py → builder/assets/examples/leds.py
View File

@@ -1,4 +1,4 @@
# Information: https://clover.coex.tech/led
# Information: https://clever.coex.tech/en/leds.html
import rospy
from clover.srv import SetLEDEffect
@@ -7,25 +7,19 @@ rospy.init_node('leds')
set_effect = rospy.ServiceProxy('led/set_effect', SetLEDEffect) # define proxy to ROS-service
print('Fill red')
set_effect(r=255, g=0, b=0) # fill strip with red color
rospy.sleep(2)
print('Fill green')
set_effect(r=0, g=100, b=0) # fill strip with green color
rospy.sleep(2)
print('Fade to blue')
set_effect(effect='fade', r=0, g=0, b=255) # fade to blue color
rospy.sleep(2)
print('Flash red')
set_effect(effect='flash', r=255, g=0, b=0) # flash twice with red color
rospy.sleep(2)
rospy.sleep(5)
print('Blink white')
set_effect(effect='blink', r=255, g=255, b=255) # blink with white color
rospy.sleep(5)
print('Rainbow')
set_effect(effect='rainbow') # show rainbow

60
builder/assets/hardware_setup.sh
View File

@@ -13,38 +13,70 @@
# copies or substantial portions of the Software.
#
# https://www.raspberrypi.com/documentation/computers/configuration.html
set -e # Exit immidiately on non-zero result
echo_stamp() {
# TEMPLATE: echo_stamp <TEXT> <TYPE>
# TYPE: SUCCESS, ERROR, INFO
# More info there https://www.shellhacks.com/ru/bash-colors/
TEXT="$(date '+[%Y-%m-%d %H:%M:%S]') $1"
TEXT="\e[1m$TEXT\e[0m" # BOLD
case "$2" in
SUCCESS)
TEXT="\e[32m${TEXT}\e[0m";; # GREEN
ERROR)
TEXT="\e[31m${TEXT}\e[0m";; # RED
*)
TEXT="\e[34m${TEXT}\e[0m";; # BLUE
esac
echo -e ${TEXT}
}
##################################################
# Configure hardware interfaces
##################################################
echo "--- Enable sshd"
/usr/bin/raspi-config nonint do_ssh 0
# 1. Enable sshd
echo_stamp "#1 Turn on sshd"
touch /boot/ssh
# /usr/bin/raspi-config nonint do_ssh 0
echo "--- GPIO enabled by default"
# 2. Enable GPIO
echo_stamp "#2 GPIO enabled by default"
echo "--- Enable I2C"
# 3. Enable I2C
echo_stamp "#3 Turn on I2C"
/usr/bin/raspi-config nonint do_i2c 0
echo "--- Enable SPI"
# 4. Enable SPI
echo_stamp "#4 Turn on SPI"
/usr/bin/raspi-config nonint do_spi 0
echo "--- Enable raspicam"
# 5. Enable raspicam
echo_stamp "#5 Turn on raspicam"
/usr/bin/raspi-config nonint do_camera 0
echo "--- Setup UART"
# 6. Enable hardware UART
echo_stamp "#6 Turn on UART"
# Temporary solution
# https://github.com/RPi-Distro/raspi-config/pull/75
/usr/bin/raspi-config nonint do_serial_hw 0
/usr/bin/raspi-config nonint do_serial_cons 1
echo dtoverlay=pi3-disable-bt >> /boot/firmware/config.txt
/usr/bin/raspi-config nonint do_serial 1
/usr/bin/raspi-config nonint set_config_var enable_uart 1 /boot/config.txt
/usr/bin/raspi-config nonint set_config_var dtoverlay pi3-disable-bt /boot/config.txt
systemctl disable hciuart.service
echo "--- Enable v4l2 driver"
# http://robocraft.ru/blog/electronics/3158.html
# After adding to Raspbian OS
# https://github.com/RPi-Distro/raspi-config/commit/d6d9ecc0d9cbe4aaa9744ae733b9cb239e79c116
#/usr/bin/raspi-config nonint do_serial 2
# 7. Enable V4L driver http://robocraft.ru/blog/electronics/3158.html
#echo "bcm2835-v4l2" >> /etc/modules
echo_stamp "#7 Turn on v4l2 driver"
if ! grep -q "^bcm2835-v4l2" /etc/modules;
then printf "bcm2835-v4l2\n" >> /etc/modules
fi
echo_stamp "#8 End of configure hardware interfaces"

66
builder/assets/init_rpi.sh
View File

@@ -13,31 +13,59 @@
# copies or substantial portions of the Software.
#
echo "--- Fix home directory permissions"
chmod +rx /home/pi
set -e # Exit immidiately on non-zero result
echo_stamp() {
# TEMPLATE: echo_stamp <TEXT> <TYPE>
# TYPE: SUCCESS, ERROR, INFO
# More info there https://www.shellhacks.com/ru/bash-colors/
TEXT="$(date '+[%Y-%m-%d %H:%M:%S]') $1"
TEXT="\e[1m$TEXT\e[0m" # BOLD
case "$2" in
SUCCESS)
TEXT="\e[32m${TEXT}\e[0m";; # GREEN
ERROR)
TEXT="\e[31m${TEXT}\e[0m";; # RED
*)
TEXT="\e[34m${TEXT}\e[0m";; # BLUE
esac
echo -e ${TEXT}
}
NEW_SSID='clover-'$(head -c 100 /dev/urandom | xxd -ps -c 100 | sed -e "s/[^0-9]//g" | cut -c 1-4)
echo "--- Creating Wi-Fi AP with SSID=${NEW_SSID}"
nmcli con add type wifi ifname wlan0 mode ap con-name clover ssid $NEW_SSID autoconnect true \
&& nmcli con modify clover 802-11-wireless.band bg \
&& nmcli con modify clover ipv4.method shared ipv4.address 192.168.11.1/24 \
&& nmcli con modify clover ipv6.method disabled \
&& nmcli con modify clover wifi-sec.key-mgmt wpa-psk \
&& nmcli con modify clover wifi-sec.psk "cloverwifi" \
&& systemctl disable dnsmasq # disable dnsmasq to avoid conflicts with NetworkManager's dnsmasq
echo_stamp "Setting SSID to ${NEW_SSID}"
# TODO: Use wpa_cli insted direct file edit
# FIXME: We rely on raspberrypi-net-mods to copy our file to /etc/wpa_supplicant.
# This is not very reliable, but seems to fix our rfkill problem.
cat << EOF >> /boot/wpa_supplicant.conf
ctrl_interface=DIR=/var/run/wpa_supplicant GROUP=netdev
update_config=1
country=GB
network={
ssid="${NEW_SSID}"
psk="cloverwifi"
mode=2
proto=WPA RSN
key_mgmt=WPA-PSK
pairwise=CCMP
group=CCMP
auth_alg=OPEN
}
EOF
NEW_HOSTNAME=$(echo ${NEW_SSID} | tr '[:upper:]' '[:lower:]')
echo "--- Setting hostname to $NEW_HOSTNAME"
hostnamectl set-hostname $NEW_HOSTNAME \
&& sed -i 's/127\.0\.1\.1.*/127.0.1.1\t'${NEW_HOSTNAME}' '${NEW_HOSTNAME}'.local/g' /etc/hosts
echo_stamp "Setting hostname to $NEW_HOSTNAME"
hostnamectl set-hostname $NEW_HOSTNAME
sed -i 's/127\.0\.1\.1.*/127.0.1.1\t'${NEW_HOSTNAME}' '${NEW_HOSTNAME}'.local/g' /etc/hosts
# .local (mdns) hostname added to make it accesable when wlan and ethernet interfaces are down
echo "--- Enable ROS services"
systemctl enable roscore
systemctl enable clover
echo "--- Harware setup"
echo_stamp "Harware setup"
/root/hardware_setup.sh
echo "--- Remove init scripts"
echo_stamp "Remove init scripts"
rm /root/init_rpi.sh /root/hardware_setup.sh
echo_stamp "End of initialization of the image"

9
builder/assets/install_gitbook.sh
View File

@@ -1,9 +0,0 @@
#!/usr/bin/env bash
# GitBook CLI is deprecated, its installation is broken.
# This script fixes it until we stop using GitBook.
export NPM_CONFIG_UNSAFE_PERM=1
npm install gitbook-cli -g
gitbook fetch 3.2.3 && npm i npm@3.10.10 --prefix=~/.gitbook/versions/3.2.3/ # fixing https://travis-ci.org/github/CopterExpress/clover/jobs/766541125#L932

2
builder/assets/monkey
View File

@@ -20,7 +20,7 @@
# Example:
# DocumentRoot /home/krypton/htdocs
DocumentRoot /home/pi/.ros/www
DocumentRoot /home/pi/catkin_ws/src/clover/clover/www
# Redirect:
# ---------

1002
builder/assets/noetic-rosdep-clover.yaml
View File

File diff suppressed because it is too large Load Diff

9
builder/assets/python3.yaml Normal file
View File

@@ -0,0 +1,9 @@
python3-wxgtk:
debian:
buster: [python3-wxgtk4.0]
python3-serial:
debian:
buster: [python3-serial]
python3-requests:
debian:
buster: [python3-requests]

2
builder/assets/roscore.service
View File

@@ -3,7 +3,7 @@ Description=Launcher for the ROS master, parameter server and rosout logging nod
[Service]
User=pi
ExecStart=/bin/sh -c ". /opt/ros/noetic/setup.sh; ROS_HOSTNAME=`hostname`.local exec roscore"
ExecStart=/bin/sh -c ". /opt/ros/melodic/setup.sh; ROS_HOSTNAME=`hostname`.local exec roscore"
Restart=on-failure
RestartSec=3

122
builder/image-build-ros.sh
View File

@@ -1,122 +0,0 @@
#! /usr/bin/env bash
#
# Script for building ROS packages from scratch
#
# Copyright (C) 2022 Copter Express Technologies
#
# Author: Oleg Kalachev <okalachev@gmail.com>
#
# Distributed under MIT License (available at https://opensource.org/licenses/MIT).
# The above copyright notice and this permission notice shall be included in all
# copies or substantial portions of the Software.
#
set -ex # exit on error, echo commands
# http://wiki.ros.org/Installation/Source
export ROS_DISTRO=noetic
. /etc/os-release # set $VERSION_CODENAME to Debian release code name
export ROS_OS_OVERRIDE=debian:$VERSION_CODENAME
export ROS_PYTHON_VERSION=3
export CLOVER_DEPS="tf tf2 tf2_ros tf2_geometry_msgs geometry_msgs sensor_msgs visualization_msgs libgeographiclib-dev mavros mavros_extras cv_camera cv_bridge rosbridge_server web_video_server tf2_web_republisher libxml2 libxslt python3-lxml dynamic_reconfigure image_transport image_proc image_geometry python-pymavlink ros_pytest"
export CLOVER_DEPS="$CLOVER_DEPS rostest python3-docopt image_publisher"
echo "=== Building ROS from scratch"
#echo "--- Adding sources"
# echo "deb http://packages.ros.org/ros/ubuntu $(lsb_release -sc) main" > /etc/apt/sources.list.d/ros-latest.list
# curl -s https://raw.githubusercontent.com/ros/rosdistro/master/ros.asc | sudo apt-key add -
#cp /etc/apt/trusted.gpg /etc/apt/trusted.gpg.d # https://askubuntu.com/a/1408456
apt-get update
apt-get install -y python3-distutils build-essential cmake git python3-pip python3-rosinstall-generator python3-vcstools python3-empy libpoco-dev
# install vcstool using pip
# curl https://bootstrap.pypa.io/get-pip.py -o get-pip.py && python3 get-pip.py && rm get-pip.py
pip3 install -U --break-system-packages vcstool rosdep rosinstall-generator catkin-pkg future
# sudo rosdep init
# rm /etc/ros/rosdep/sources.list.d/20-default.list
rosdep init
rosdep update --os=debian:bullseye
# rm /etc/ros/rosdep/sources.list.d/20-default.list && rosdep init
# rosdep --os=debian:$VERSION_CODENAME update
echo "--- Create Catkin workspace to build ROS package"
mkdir ~/ros_catkin_ws
cd ~/ros_catkin_ws
echo "--- Download ROS sources"
rosinstall_generator ros_base $CLOVER_DEPS --rosdistro $ROS_DISTRO --deps --tar > noetic.rosinstall
mkdir ./src
vcs import --input noetic.rosinstall ./src
# https://answers.ros.org/question/343367/catkin-package-dependencies-issue-when-installing-ros-melodic-on-raspberry-pi-4/
#sudo apt remove python-rospkg
#sudo apt remove python-catkin-pkg
##sudo apt --fix-broken install
#sudo apt-get autoremove
#echo "--- Install catkin_pkg"
#cd
#git clone https://github.com/ros-infrastructure/catkin_pkg.git
#cd catkin_pkg
#python3 setup.py install
#cd ~/ros_catkin_ws
echo "--- Resolve dependencies"
rosdep install --from-paths ./src --ignore-packages-from-source --rosdistro $ROS_DISTRO -y --os=debian:bullseye --skip-keys="python3-catkin-pkg-modules libboost-thread python3-rosdep-modules" || true
echo "--- Install missing dependencies"
apt-get install -y liborocos-kdl1.5 geographiclib-tools libgeographiclib-dev
echo "-- Install geographiclib datasets"
wget https://raw.githubusercontent.com/mavlink/mavros/master/mavros/scripts/install_geographiclib_datasets.sh
chmod +x install_geographiclib_datasets.sh
./install_geographiclib_datasets.sh
echo "--- Apply patches"
wget https://github.com/ros/rosconsole/pull/58.patch
patch -p1 -d src/rosconsole < 58.patch
wget https://github.com/ros/ros_comm/pull/2353.patch
patch -p2 -d src/ros_comm < 2353.patch
wget https://github.com/AJahueyM/web_video_server/commit/5b722eb0822bcc3fe45fefe7b393b87bfe004417.patch
patch -p1 -d src/web_video_server < 5b722eb0822bcc3fe45fefe7b393b87bfe004417.patch
echo "--- Build ROS"
# https://github.com/ros/catkin/issues/863#issuecomment-290392074
./src/catkin/bin/catkin_make_isolated --install -DCMAKE_BUILD_TYPE=Release
# -DSETUPTOOLS_DEB_LAYOUT=OFF \
# --install-space=/opt/ros/$ROS_DISTRO
# source ~/ros_catkin_ws/install_isolated/setup.bash
#source /opt/ros/$ROS_DISTRO/setup.bash
#
#echo "--- List built ROS packages"
#set +x
#rospack list-names | while read line; do echo $line `rosversion $line`; done
#set -x
#
#echo "--- Build Debian packages"
#apt-get install -y python3-bloom debhelper dpkg-dev libtinyxml-dev
#
## add rosdep file to help bloom-generate resolve missing bookworm dependencies
#echo "yaml file:///etc/ros/rosdep/noetic-rosdep-clover.yaml" >> /etc/ros/rosdep/sources.list.d/20-default.list
#rosdep update
#
#pip3 install setuptools==45.2.0 # https://github.com/ros/catkin/issues/863#issuecomment-1000446018
#
#for file in `find . -name "package.xml" -not -path "*/debian/*"`; do
# cd $(dirname ${file})
# rm -rf debian
# bloom-generate rosdebian --os-name debian --os-version $VERSION_CODENAME --ros-distro $ROS_DISTRO --debug
# debian/rules binary # fakeroot is not needed as we are root
# cd -
#done
ls

57
builder/image-build.sh
View File

@@ -13,22 +13,41 @@
# copies or substantial portions of the Software.
#
set -ex # exit on error, echo commands
set -e # Exit immidiately on non-zero result
# https://www.raspberrypi.org/software/operating-systems/#raspberry-pi-os-32-bit
SOURCE_IMAGE="https://downloads.raspberrypi.com/raspios_lite_armhf/images/raspios_lite_armhf-2024-03-15/2024-03-15-raspios-bookworm-armhf-lite.img.xz"
SOURCE_IMAGE="https://downloads.raspberrypi.org/raspbian_lite/images/raspbian_lite-2020-02-14/2020-02-13-raspbian-buster-lite.zip"
export DEBIAN_FRONTEND=${DEBIAN_FRONTEND:='noninteractive'}
export LANG=${LANG:='C.UTF-8'}
export LC_ALL=${LC_ALL:='C.UTF-8'}
echo_stamp() {
# TEMPLATE: echo_stamp <TEXT> <TYPE>
# TYPE: SUCCESS, ERROR, INFO
# More info there https://www.shellhacks.com/ru/bash-colors/
TEXT="$(date '+[%Y-%m-%d %H:%M:%S]') $1"
TEXT="\e[1m$TEXT\e[0m" # BOLD
case "$2" in
SUCCESS)
TEXT="\e[32m${TEXT}\e[0m";; # GREEN
ERROR)
TEXT="\e[31m${TEXT}\e[0m";; # RED
*)
TEXT="\e[34m${TEXT}\e[0m";; # BLUE
esac
echo -e ${TEXT}
}
BUILDER_DIR="/builder"
REPO_DIR="${BUILDER_DIR}/repo"
SCRIPTS_DIR="${REPO_DIR}/builder"
IMAGES_DIR="${REPO_DIR}/images"
[[ ! -d ${SCRIPTS_DIR} ]] && (echo "Error: directory ${SCRIPTS_DIR} doesn't exist"; exit 1)
[[ ! -d ${IMAGES_DIR} ]] && mkdir ${IMAGES_DIR} && echo "Directory ${IMAGES_DIR} was created successful"
[[ ! -d ${SCRIPTS_DIR} ]] && (echo_stamp "Directory ${SCRIPTS_DIR} doesn't exist" "ERROR"; exit 1)
[[ ! -d ${IMAGES_DIR} ]] && mkdir ${IMAGES_DIR} && echo_stamp "Directory ${IMAGES_DIR} was created successful" "SUCCESS"
if [[ -z ${TRAVIS_TAG} ]]; then IMAGE_VERSION="$(cd ${REPO_DIR}; git log --format=%h -1)"; else IMAGE_VERSION="${TRAVIS_TAG}"; fi
# IMAGE_VERSION="${TRAVIS_TAG:=$(cd ${REPO_DIR}; git log --format=%h -1)}"
@@ -44,17 +63,15 @@ get_image() {
local RPI_IMAGE_NAME=$(echo ${RPI_ZIP_NAME} | sed 's/zip/img/')
if [ ! -e "${BUILD_DIR}/${RPI_ZIP_NAME}" ]; then
echo "--- Downloading original Linux distribution"
echo_stamp "Downloading original Linux distribution"
wget --progress=dot:giga -O ${BUILD_DIR}/${RPI_ZIP_NAME} $2
echo "--- Downloading complete" "SUCCESS"
else
echo "Linux distribution already downloaded"
fi
echo_stamp "Downloading complete" "SUCCESS" \
else echo_stamp "Linux distribution already donwloaded"; fi
echo "--- Unzipping Linux distribution image"
apt-get update --allow-releaseinfo-change
apt-get install -y xz-utils
unxz --stdout ${BUILD_DIR}/${RPI_ZIP_NAME} > $1
echo_stamp "Unzipping Linux distribution image" \
&& unzip -p ${BUILD_DIR}/${RPI_ZIP_NAME} ${RPI_IMAGE_NAME} > $1 \
&& echo_stamp "Unzipping complete" "SUCCESS" \
|| (echo_stamp "Unzipping was failed!" "ERROR"; exit 1)
}
get_image ${IMAGE_PATH} ${SOURCE_IMAGE}
@@ -87,22 +104,26 @@ ${BUILDER_DIR}/image-chroot.sh ${IMAGE_PATH} copy ${SCRIPTS_DIR}'/assets/butterf
${BUILDER_DIR}/image-chroot.sh ${IMAGE_PATH} copy ${SCRIPTS_DIR}'/assets/monkey.service' '/lib/systemd/system/'
# software install
${BUILDER_DIR}/image-chroot.sh ${IMAGE_PATH} exec ${SCRIPTS_DIR}'/image-software.sh'
# examples
${BUILDER_DIR}/image-chroot.sh ${IMAGE_PATH} copy ${SCRIPTS_DIR}'/assets/examples' '/home/pi/'
# network setup
${BUILDER_DIR}/image-chroot.sh ${IMAGE_PATH} exec ${SCRIPTS_DIR}'/image-network.sh'
# avahi setup
${BUILDER_DIR}/image-chroot.sh ${IMAGE_PATH} copy ${SCRIPTS_DIR}'/assets/avahi-services/sftp-ssh.service' '/etc/avahi/services'
# If RPi then use a one thread to build a ROS package on RPi, else use all
[[ $(arch) == 'armv7l' ]] && NUMBER_THREADS=1 || NUMBER_THREADS=$(nproc --all)
# Clover
${BUILDER_DIR}/image-chroot.sh ${IMAGE_PATH} copy ${SCRIPTS_DIR}'/assets/noetic-rosdep-clover.yaml' '/etc/ros/rosdep/'
${BUILDER_DIR}/image-chroot.sh ${IMAGE_PATH} copy ${SCRIPTS_DIR}'/assets/clover.service' '/lib/systemd/system/'
${BUILDER_DIR}/image-chroot.sh ${IMAGE_PATH} copy ${SCRIPTS_DIR}'/assets/roscore.service' '/lib/systemd/system/'
${BUILDER_DIR}/image-chroot.sh ${IMAGE_PATH} copy ${SCRIPTS_DIR}'/assets/melodic-rosdep-clover.yaml' '/etc/ros/rosdep/'
${BUILDER_DIR}/image-chroot.sh ${IMAGE_PATH} copy ${SCRIPTS_DIR}'/assets/python3.yaml' '/etc/ros/rosdep/'
${BUILDER_DIR}/image-chroot.sh ${IMAGE_PATH} copy ${SCRIPTS_DIR}'/assets/ros_python_paths' '/etc/sudoers.d/'
${BUILDER_DIR}/image-chroot.sh ${IMAGE_PATH} copy ${SCRIPTS_DIR}'/assets/pigpiod.service' '/lib/systemd/system/'
${BUILDER_DIR}/image-chroot.sh ${IMAGE_PATH} copy ${SCRIPTS_DIR}'/assets/launch.nanorc' '/usr/share/nano/'
# ${BUILDER_DIR}/image-chroot.sh ${IMAGE_PATH} copy ${SCRIPTS_DIR}'/assets/kinetic-ros-clover.rosinstall' '/home/pi/ros_catkin_ws/'
# Add PX4 udev rules
${BUILDER_DIR}/image-chroot.sh ${IMAGE_PATH} copy ${REPO_DIR}'/clover/config/99-px4fmu.rules' '/lib/udev/rules.d/'
# Add rename script
${BUILDER_DIR}/image-chroot.sh ${IMAGE_PATH} exec ${SCRIPTS_DIR}'/image-ros.sh' ${REPO_URL} ${IMAGE_VERSION} false false ${NUMBER_THREADS}
#${BUILDER_DIR}/image-chroot.sh ${IMAGE_PATH} exec ${SCRIPTS_DIR}'/image-build-ros.sh'
${BUILDER_DIR}/image-chroot.sh ${IMAGE_PATH} exec ${SCRIPTS_DIR}'/image-validate.sh'
${BUILDER_DIR}/image-resize.sh ${IMAGE_PATH}

43
builder/image-init.sh
View File

@@ -12,33 +12,50 @@
# copies or substantial portions of the Software.
#
set -ex # exit on error, echo commands
set -e # Exit immidiately on non-zero result
echo "--- Move /etc/ld.so.preload out of the way"
mv /etc/ld.so.preload /etc/ld.so.preload.disabled-for-build
echo_stamp() {
# TEMPLATE: echo_stamp <TEXT> <TYPE>
# TYPE: SUCCESS, ERROR, INFO
echo "--- Create pi user"
echo 'pi:$6$c70VpvPsVNCG0YR5$l5vWWLsLko9Kj65gcQ8qvMkuOoRkEagI90qi3F/Y7rm8eNYZHW8CY6BOIKwMH7a3YYzZYL90zf304cAHLFaZE0' > /boot/userconf.txt
# More info there https://www.shellhacks.com/ru/bash-colors/
TEXT="$(date '+[%Y-%m-%d %H:%M:%S]') $1"
TEXT="\e[1m$TEXT\e[0m" # BOLD
case "$2" in
SUCCESS)
TEXT="\e[32m${TEXT}\e[0m";; # GREEN
ERROR)
TEXT="\e[31m${TEXT}\e[0m";; # RED
*)
TEXT="\e[34m${TEXT}\e[0m";; # BLUE
esac
echo -e ${TEXT}
}
echo_stamp "Write Clover information"
echo "--- Write Clover information"
# Clover image version
echo "$1" >> /etc/clover_version
# Origin image file name
echo "${2%.*}" >> /etc/clover_origin
echo "--- Write magic script to /etc/rc.local"
echo_stamp "Write magic script to /etc/rc.local"
MAGIC_SCRIPT="sudo /root/init_rpi.sh; sudo sed -i '/sudo \\\/root\\\/init_rpi.sh/d' /etc/rc.local && sudo reboot"
sed -i "19a${MAGIC_SCRIPT}" /etc/rc.local
# TODO: remake to oneshot systemd service
# It needs for autosizer.sh & maybe that is correct
echo "--- Change boot partition"
echo_stamp "Change boot partition"
sed -i 's/root=[^ ]*/root=\/dev\/mmcblk0p2/' /boot/cmdline.txt
sed -i 's/.* \/boot\/firmware vfat defaults 0 2$/\/dev\/mmcblk0p1 \/boot\/firmware vfat defaults 0 2/' /etc/fstab
sed -i 's/.* \/boot vfat defaults 0 2$/\/dev\/mmcblk0p1 \/boot vfat defaults 0 2/' /etc/fstab
sed -i 's/.* \/ ext4 defaults,noatime 0 1$/\/dev\/mmcblk0p2 \/ ext4 defaults,noatime 0 1/' /etc/fstab
cat /boot/cmdline.txt
cat /etc/fstab
echo "--- Set max space for syslogs"
echo_stamp "Set max space for syslogs"
# https://unix.stackexchange.com/questions/139513/how-to-clear-journalctl
sed -i 's/#SystemMaxUse=/SystemMaxUse=200M/' /etc/systemd/journald.conf
echo_stamp "Move /etc/ld.so.preload out of the way"
mv /etc/ld.so.preload /etc/ld.so.preload.disabled-for-build
echo_stamp "End of init image"

33
builder/image-network.sh
View File

@@ -12,20 +12,43 @@
# copies or substantial portions of the Software.
#
set -ex # exit on error, echo commands
set -e # Exit immidiately on non-zero result
echo_stamp() {
# TEMPLATE: echo_stamp <TEXT> <TYPE>
# TYPE: SUCCESS, ERROR, INFO
# More info there https://www.shellhacks.com/ru/bash-colors/
TEXT="$(date '+[%Y-%m-%d %H:%M:%S]') $1"
TEXT="\e[1m$TEXT\e[0m" # BOLD
case "$2" in
SUCCESS)
TEXT="\e[32m${TEXT}\e[0m";; # GREEN
ERROR)
TEXT="\e[31m${TEXT}\e[0m";; # RED
*)
TEXT="\e[34m${TEXT}\e[0m";; # BLUE
esac
echo -e ${TEXT}
}
echo_stamp "#1 Write STATIC to /etc/dhcpcd.conf"
echo "--- Write static to /etc/dhcpcd.conf"
cat << EOF >> /etc/dhcpcd.conf
interface wlan0
static ip_address=192.168.11.1/24
EOF
echo "--- Set wpa_supplicant country"
echo_stamp "#2 Set wpa_supplicant country"
cat << EOF >> /etc/wpa_supplicant/wpa_supplicant.conf
country=GB
EOF
echo "--- Write dhcp-config to /etc/dnsmasq.conf"
echo_stamp "#3 Write dhcp-config to /etc/dnsmasq.conf"
cat << EOF >> /etc/dnsmasq.conf
interface=wlan0
address=/clover/coex/192.168.11.1
@@ -36,3 +59,5 @@ bogus-priv
domain-needed
quiet-dhcp6
EOF
echo_stamp "#4 End of network installation"

187
builder/image-ros.sh
View File

@@ -13,22 +13,43 @@
# copies or substantial portions of the Software.
#
set -ex # exit on error, echo commands
set -e # Exit immidiately on non-zero result
# Current ROS distribution
ROS_DISTRO=noetic
. /etc/os-release # set $VERSION_CODENAME to Debian release code name
export ROS_OS_OVERRIDE=debian:$VERSION_CODENAME
REPO=$1
REF=$2
INSTALL_ROS_PACK_SOURCES=$3
DISCOVER_ROS_PACK=$4
NUMBER_THREADS=$5
echo_stamp() {
# TEMPLATE: echo_stamp <TEXT> <TYPE>
# TYPE: SUCCESS, ERROR, INFO
# More info there https://www.shellhacks.com/ru/bash-colors/
TEXT="$(date '+[%Y-%m-%d %H:%M:%S]') $1"
TEXT="\e[1m$TEXT\e[0m" # BOLD
case "$2" in
SUCCESS)
TEXT="\e[32m${TEXT}\e[0m";; # GREEN
ERROR)
TEXT="\e[31m${TEXT}\e[0m";; # RED
*)
TEXT="\e[34m${TEXT}\e[0m";; # BLUE
esac
echo -e ${TEXT}
}
# https://gist.github.com/letmaik/caa0f6cc4375cbfcc1ff26bd4530c2a3
# https://github.com/travis-ci/travis-build/blob/master/lib/travis/build/templates/header.sh
my_travis_retry() {
local result=0
local count=1
local max_count=5
local max_count=50
while [ $count -le $max_count ]; do
[ $result -ne 0 ] && {
echo -e "\nThe command \"$*\" failed. Retrying, $count of $max_count.\n" >&2
echo -e "\nThe command \"$@\" failed. Retrying, $count of $max_count.\n" >&2
}
# ! { } ignores set -e, see https://stackoverflow.com/a/4073372
! { "$@"; result=$?; }
@@ -38,136 +59,108 @@ my_travis_retry() {
done
[ $count -gt $max_count ] && {
echo -e "\nThe command \"$*\" failed $max_count times.\n" >&2
echo -e "\nThe command \"$@\" failed $max_count times.\n" >&2
}
return $result
}
echo "--- Install rosdep"
my_travis_retry pip3 install -U rosdep
# TODO: 'kinetic-rosdep-clover.yaml' should add only if we use our repo?
echo "--- Init rosdep"
echo_stamp "Init rosdep"
my_travis_retry rosdep init
echo "--- Update rosdep"
echo "yaml file:///etc/ros/rosdep/${ROS_DISTRO}-rosdep-clover.yaml" >> /etc/ros/rosdep/sources.list.d/10-clover.list
echo "yaml file:///etc/ros/rosdep/melodic-rosdep-clover.yaml" > /etc/ros/rosdep/sources.list.d/30-clover.list
echo "yaml file:///etc/ros/rosdep/python3.yaml" > /etc/ros/rosdep/sources.list.d/40-python3.list
my_travis_retry rosdep update
echo "--- Populate rosdep for ROS user"
my_travis_retry sudo -u pi ROS_OS_OVERRIDE=debian:$VERSION_CODENAME rosdep update
echo_stamp "Populate rosdep for ROS user"
my_travis_retry sudo -u pi rosdep update
# echo "Reconfiguring Clover repository for simplier unshallowing"
resolve_rosdep() {
# TEMPLATE: resolve_rosdep <CATKIN_PATH> <ROS_DISTRO> <OS_DISTRO> <OS_VERSION>
CATKIN_PATH=$1
ROS_DISTRO='melodic'
OS_DISTRO='debian'
OS_VERSION='buster'
echo_stamp "Installing dependencies apps with rosdep in ${CATKIN_PATH}"
cd ${CATKIN_PATH}
my_travis_retry rosdep install -y --from-paths src --ignore-src --rosdistro ${ROS_DISTRO} --os=${OS_DISTRO}:${OS_VERSION}
}
export ROS_IP='127.0.0.1' # needed for running tests
export ROS_PYTHON_VERSION=3
echo_stamp "Reconfiguring Clover repository for simplier unshallowing"
cd /home/pi/catkin_ws/src/clover
git config remote.origin.fetch "+refs/heads/*:refs/remotes/origin/*"
# This is sort of a hack to force "custom" packages to be installed - the ones built by COEX, linked against OpenCV 4.2
# I **wish** OpenCV would not be such a mess, but, well, here we are.
# echo "--- Installing OpenCV 4.2-compatible ROS packages"
# apt install -y --no-install-recommends \
# ros-${ROS_DISTRO}-compressed-image-transport=1.14.0-0buster \
# ros-${ROS_DISTRO}-cv-bridge=1.15.0-0buster \
# ros-${ROS_DISTRO}-cv-camera=0.5.1-0buster \
# ros-${ROS_DISTRO}-image-publisher=1.15.3-0buster \
# ros-${ROS_DISTRO}-web-video-server=0.2.1-0buster
# apt-mark hold \
# ros-${ROS_DISTRO}-compressed-image-transport \
# ros-${ROS_DISTRO}-cv-bridge \
# ros-${ROS_DISTRO}-cv-camera \
# ros-${ROS_DISTRO}-image-publisher \
# ros-${ROS_DISTRO}-web-video-server
#echo "--- Installing libboost-dev" # https://travis-ci.org/github/CopterExpress/clover/jobs/766318908#L6536
#my_travis_retry apt-get install -y --no-install-recommends libboost-dev libboost-all-dev
echo "--- Build and install Clover"
echo_stamp "Build and install Clover"
cd /home/pi/catkin_ws
# Don't try to install gazebo_ros
my_travis_retry rosdep install -y --from-paths src --ignore-src --rosdistro ${ROS_DISTRO} --os=debian:$VERSION_CODENAME \
--skip-keys="gazebo_ros gazebo_plugins"
resolve_rosdep $(pwd)
my_travis_retry pip3 install wheel
my_travis_retry pip3 install -r /home/pi/catkin_ws/src/clover/clover/requirements.txt
source /opt/ros/${ROS_DISTRO}/setup.bash
catkin_make -j2 -DCMAKE_BUILD_TYPE=RelWithDebInfo
source devel/setup.bash
source /opt/ros/melodic/setup.bash
catkin_make -j2 -DCMAKE_BUILD_TYPE=Release
echo "--- Install clever package (for backwards compatibility)"
echo_stamp "Enable ROS services"
systemctl enable roscore
systemctl enable clover
echo_stamp "Install clever package (for backwards compatibility)"
cd /home/pi/catkin_ws/src/clover/builder/assets/clever
./setup.py install
rm -rf build # remove build artifacts
echo "--- Build Clover documentation"
echo_stamp "Build Clover documentation"
cd /home/pi/catkin_ws/src/clover
builder/assets/install_gitbook.sh
gitbook install
NPM_CONFIG_UNSAFE_PERM=true npm install gitbook-cli -g
NPM_CONFIG_UNSAFE_PERM=true gitbook install
gitbook build
# replace assets copy to assets symlink to save space
rm -rf _book/assets && ln -s ../docs/assets _book/assets
touch node_modules/CATKIN_IGNORE docs/CATKIN_IGNORE _book/CATKIN_IGNORE clover/www/CATKIN_IGNORE apps/CATKIN_IGNORE # ignore documentation files by catkin
npm cache clean --force
echo "--- Installing additional ROS packages"
my_travis_retry apt-get install -y --no-install-recommends \
ros-${ROS_DISTRO}-rosbridge-suite \
ros-${ROS_DISTRO}-rosserial \
ros-${ROS_DISTRO}-usb-cam \
ros-${ROS_DISTRO}-vl53l1x \
ros-${ROS_DISTRO}-ws281x \
ros-${ROS_DISTRO}-libcamera-ros \
ros-${ROS_DISTRO}-rosshow \
ros-${ROS_DISTRO}-cmake-modules \
ros-${ROS_DISTRO}-image-view \
ros-${ROS_DISTRO}-nodelet-topic-tools \
ros-${ROS_DISTRO}-stereo-msgs \
ros-${ROS_DISTRO}-vision-msgs
echo_stamp "Installing additional ROS packages"
apt-get install -y --no-install-recommends \
ros-melodic-dynamic-reconfigure \
ros-melodic-compressed-image-transport \
ros-melodic-rosbridge-suite \
ros-melodic-rosserial \
ros-melodic-usb-cam \
ros-melodic-vl53l1x \
ros-melodic-ws281x \
ros-melodic-rosshow
# TODO move GeographicLib datasets to Mavros debian package
echo "--- Install GeographicLib datasets (needed for mavros)" \
echo_stamp "Install GeographicLib datasets (needed for mavros)" \
&& wget -qO- https://raw.githubusercontent.com/mavlink/mavros/master/mavros/scripts/install_geographiclib_datasets.sh | bash
echo "--- Running tests"
export ROS_IP='127.0.0.1' # needed for running tests
# FIXME: Buster comes with tornado==5.1.1 but we need tornado==4.2.1 for rosbridge_suite
# (note that Python 3 will still have a more recent version)
pip3 install tornado==4.2.1
echo_stamp "Running tests"
cd /home/pi/catkin_ws
# FIXME: Investigate failing tests
catkin_make run_tests #&& catkin_test_results
echo "--- Change permissions for catkin_ws"
echo_stamp "Change permissions for catkin_ws"
chown -Rf pi:pi /home/pi/catkin_ws
echo "--- Update www"
sudo -u pi sh -c ". devel/setup.sh && rosrun clover www"
echo "--- Make \$HOME/examples symlink"
ln -s "$(catkin_find clover examples --first-only)" /home/pi
chown -Rf pi:pi /home/pi/examples
echo "--- Make systemd services symlinks"
ln -s /home/pi/catkin_ws/src/clover/builder/assets/clover.service /lib/systemd/system/
ln -s /home/pi/catkin_ws/src/clover/builder/assets/roscore.service /lib/systemd/system/
# validate
[ -f /lib/systemd/system/clover.service ]
[ -f /lib/systemd/system/roscore.service ]
echo "--- Make udev rules symlink"
ln -s "$(catkin_find clover udev --first-only)"/* /lib/udev/rules.d/
echo "--- Setup ROS environment"
echo_stamp "Setup ROS environment"
cat << EOF >> /home/pi/.bashrc
LANG='C.UTF-8'
LC_ALL='C.UTF-8'
ROS_DISTRO='melodic'
export ROS_HOSTNAME=\`hostname\`.local
export ROS_OS_OVERRIDE=debian:bookworm
source /opt/ros/${ROS_DISTRO}/setup.bash
source /opt/ros/melodic/setup.bash
source /home/pi/catkin_ws/devel/setup.bash
EOF
echo "--- Cleanup apt"
apt-get autoremove --purge -y
apt-get clean
#echo_stamp "Removing local apt mirror"
# Restore original sources.list
#mv /var/sources.list.bak /etc/apt/sources.list
# Clean apt cache
apt-get clean -qq > /dev/null
# Remove local mirror repository key
#apt-key del COEX-MIRROR
echo "--- Cleanup pip"
pip3 cache purge
echo "--- Cleanup /tmp"
rm -rf /tmp/*
echo_stamp "END of ROS INSTALLATION"

113
builder/image-software.sh
View File

@@ -12,9 +12,27 @@
# copies or substantial portions of the Software.
#
set -ex # exit on error, echo commands
set -e # Exit immidiately on non-zero result
. /etc/os-release # set $VERSION_CODENAME to Debian release code name
echo_stamp() {
# TEMPLATE: echo_stamp <TEXT> <TYPE>
# TYPE: SUCCESS, ERROR, INFO
# More info there https://www.shellhacks.com/ru/bash-colors/
TEXT="$(date '+[%Y-%m-%d %H:%M:%S]') $1"
TEXT="\e[1m${TEXT}\e[0m" # BOLD
case "$2" in
SUCCESS)
TEXT="\e[32m${TEXT}\e[0m";; # GREEN
ERROR)
TEXT="\e[31m${TEXT}\e[0m";; # RED
*)
TEXT="\e[34m${TEXT}\e[0m";; # BLUE
esac
echo -e ${TEXT}
}
# https://gist.github.com/letmaik/caa0f6cc4375cbfcc1ff26bd4530c2a3
# https://github.com/travis-ci/travis-build/blob/master/lib/travis/build/templates/header.sh
@@ -23,7 +41,7 @@ my_travis_retry() {
local count=1
while [ $count -le 3 ]; do
[ $result -ne 0 ] && {
echo -e "\n${ANSI_RED}The command \"$*\" failed. Retrying, $count of 3.${ANSI_RESET}\n" >&2
echo -e "\n${ANSI_RED}The command \"$@\" failed. Retrying, $count of 3.${ANSI_RESET}\n" >&2
}
# ! { } ignores set -e, see https://stackoverflow.com/a/4073372
! { "$@"; result=$?; }
@@ -33,39 +51,36 @@ my_travis_retry() {
done
[ $count -gt 3 ] && {
echo -e "\n${ANSI_RED}The command \"$*\" failed 3 times.${ANSI_RESET}\n" >&2
echo -e "\n${ANSI_RED}The command \"$@\" failed 3 times.${ANSI_RESET}\n" >&2
}
return $result
}
echo "--- Increase apt retries"
echo "APT::Acquire::Retries \"3\";" > /etc/apt/apt.conf.d/80-retries
echo "--- Install apt keys & repos"
echo_stamp "Install apt keys & repos"
# TODO: This STDOUT consist 'OK'
curl http://deb.coex.tech/aptly_repo_signing.key 2> /dev/null | apt-key add -
apt-get update \
&& apt-get install --no-install-recommends -y dirmngr > /dev/null \
&& apt-key adv --keyserver hkp://keyserver.ubuntu.com:80 --recv-key C1CF6E31E6BADE8868B172B4F42ED6FBAB17C654
# echo "deb http://packages.ros.org/ros/ubuntu buster main" > /etc/apt/sources.list.d/ros-latest.list
echo "deb http://packages.ros.org/ros/ubuntu buster main" > /etc/apt/sources.list.d/ros-latest.list
echo "deb http://deb.coex.tech/opencv3 buster main" > /etc/apt/sources.list.d/opencv3.list
echo "deb http://deb.coex.tech/melodic-py3 buster main" > /etc/apt/sources.list.d/rpi-ros-melodic.list
echo "deb http://deb.coex.tech/clover buster main" > /etc/apt/sources.list.d/clover.list
wget -O - 'http://packages.coex.tech/key.asc' | apt-key add -
echo "deb http://packages.coex.tech $VERSION_CODENAME main" >> /etc/apt/sources.list
echo "--- Update apt cache"
echo_stamp "Update apt cache"
# TODO: FIX ERROR: /usr/bin/apt-key: 596: /usr/bin/apt-key: cannot create /dev/null: Permission denied
apt-get update
# && apt upgrade -y
# Let's retry fetching those packages several times, just in case
echo "--- Install software"
my_travis_retry apt-get install --no-install-recommends -y cmake-data cmake
my_travis_retry apt-get install --no-install-recommends -y \
echo_stamp "Software installing"
apt-get install --no-install-recommends -y \
unzip \
zip \
ipython \
ipython3 \
screen \
byobu \
@@ -74,84 +89,90 @@ lsof \
git \
dnsmasq \
tmux \
tree \
vim \
cmake \
libjpeg8 \
tcpdump \
ltrace \
libpoco-dev \
libzbar0 \
python3-rosdep \
python3-rosinstall-generator \
python3-wstool \
python3-rosinstall \
build-essential \
libffi-dev \
monkey \
pigpio python3-pigpio \
pigpio python-pigpio python3-pigpio \
i2c-tools \
espeak espeak-data python3-espeak \
ntpdate \
mjpg-streamer \
xxd \
python-dev \
python3-dev \
python3-venv \
python3-systemd \
mjpg-streamer \
python3-opencv \
python3-pip
#libjpeg8 \
&& echo_stamp "Everything was installed!" "SUCCESS" \
|| (echo_stamp "Some packages wasn't installed!" "ERROR"; exit 1)
# Deny byobu to check available updates
sed -i "s/updates_available//" /usr/share/byobu/status/status
# sed -i "s/updates_available//" /home/pi/.byobu/status
echo "--- Make sure pip is installed"
echo_stamp "Installing pip"
curl https://bootstrap.pypa.io/get-pip.py -o get-pip.py
python3 get-pip.py
python get-pip.py
rm get-pip.py
#my_travis_retry pip install --upgrade pip
#my_travis_retry pip3 install --upgrade pip
echo_stamp "Make sure both pip and pip3 are installed"
pip --version
pip3 --version
echo "--- Enable installing packages with pip"
mv /usr/lib/python3.11/EXTERNALLY-MANAGED /usr/lib/python3.11/EXTERNALLY-MANAGED.old
echo "--- Install and enable Butterfly (web terminal)"
export CRYPTOGRAPHY_DONT_BUILD_RUST=1
my_travis_retry pip3 install cryptography==3.4.6 # https://stackoverflow.com/a/68472128/6850197
#my_travis_retry pip3 install pyOpenSSL==20.0.1
#my_travis_retry pip3 install tornado==5.1.1
echo_stamp "Install and enable Butterfly (web terminal)"
echo_stamp "Workaround for tornado >= 6.0 breaking butterfly"
my_travis_retry pip3 install tornado==4.2.1
my_travis_retry pip3 install butterfly
my_travis_retry pip3 install butterfly[systemd]
systemctl enable butterfly.socket
echo "--- Install ws281x library"
echo_stamp "Install ws281x library"
my_travis_retry pip2 install --prefer-binary rpi_ws281x
my_travis_retry pip3 install --prefer-binary rpi_ws281x
echo "--- Setup Monkey"
echo_stamp "Setup Monkey"
mv /etc/monkey/sites/default /etc/monkey/sites/default.orig
mv /root/monkey /etc/monkey/sites/default
sed -i 's/SymLink Off/SymLink On/' /etc/monkey/monkey.conf
systemctl enable monkey.service
echo "--- Install Node.js"
echo_stamp "Install Node.js"
cd /home/pi
wget --no-verbose https://nodejs.org/dist/v10.15.0/node-v10.15.0-linux-armv6l.tar.gz
wget https://nodejs.org/dist/v10.15.0/node-v10.15.0-linux-armv6l.tar.gz
tar -xzf node-v10.15.0-linux-armv6l.tar.gz
cp -R node-v10.15.0-linux-armv6l/* /usr/local/
rm -rf node-v10.15.0-linux-armv6l/
rm node-v10.15.0-linux-armv6l.tar.gz
echo "--- Installing debugpy"
my_travis_retry pip3 install debugpy
echo_stamp "Installing ptvsd"
my_travis_retry pip2 install ptvsd
my_travis_retry pip3 install ptvsd
echo "--- Installing pyzbar"
my_travis_retry pip3 install pyzbar
echo "--- Add .vimrc"
echo_stamp "Add .vimrc"
cat << EOF > /home/pi/.vimrc
set mouse-=a
syntax on
autocmd BufNewFile,BufRead *.launch set syntax=xml
EOF
echo "--- Change default keyboard layout to US"
echo_stamp "Change default keyboard layout to US"
sed -i 's/XKBLAYOUT="gb"/XKBLAYOUT="us"/g' /etc/default/keyboard
echo "--- Attempting to kill dirmngr"
echo_stamp "Attempting to kill dirmngr"
gpgconf --kill dirmngr
# dirmngr is only used by apt-key, so we can safely kill it.
# We ignore pkill's exit value as well.
pkill -9 -f dirmngr || true
echo_stamp "End of software installation"

25
builder/image-validate.sh
View File

@@ -12,33 +12,22 @@
# copies or substantial portions of the Software.
#
set -ex # exit on error, echo commands
set -ex
echo "Run image tests"
echo "--- Run image tests"
export ROS_DISTRO='noetic'
export ROS_DISTRO='melodic'
export ROS_IP='127.0.0.1'
source /opt/ros/${ROS_DISTRO}/setup.bash
export ROS_PYTHON_VERSION=3
source /opt/ros/melodic/setup.bash
source /home/pi/catkin_ws/devel/setup.bash
cd /home/pi/catkin_ws/src/clover/builder/test/
./tests.sh
./tests.py
[[ $(./test_qr.py) == "Found QRCODE with data Проверка Unicode with center at x=66.0, y=66.0" ]]
# Disable Python 2 tests for image - we're dropping support, right?
# ./tests_py2.py
[[ $(./tests_clever.py) == "Warning: clever package is renamed to clover" ]] # test backwards compatibility
# check documented packages available
apt-cache show gst-rtsp-launch
apt-cache show openvpn
echo "Largest packages installed"
sudo -E sh -c 'apt-get install -y debian-goodies'
dpigs -H -n 100
echo "Cleanup apt"
apt-get autoremove --purge -y
apt-get clean
echo "Move /etc/ld.so.preload back to its original position"
mv /etc/ld.so.preload.disabled-for-build /etc/ld.so.preload

47
builder/standalone-install.sh
View File

@@ -1,47 +1,27 @@
#!/bin/bash
# Perform a "standalone install" in a Docker container
set -e
# Step 1: Install pip
apt-key adv --keyserver 'hkp://keyserver.ubuntu.com:80' --recv-key C1CF6E31E6BADE8868B172B4F42ED6FBAB17C654 # https://github.com/osrf/docker_images/issues/535
apt-get update
apt-get install -y curl
if [ "x${ROS_PYTHON_VERSION}" = "x3" ]; then
PYTHON=python3
curl https://bootstrap.pypa.io/get-pip.py -o get-pip.py
else
PYTHON=python
curl https://bootstrap.pypa.io/pip/2.7/get-pip.py -o get-pip.py
fi
${PYTHON} ./get-pip.py
apt update
apt install -y curl
curl https://bootstrap.pypa.io/get-pip.py -o get-pip.py
python ./get-pip.py
# Step 1.5: Add deb.coex.tech to apt
curl http://deb.coex.tech/aptly_repo_signing.key 2> /dev/null | apt-key add -
echo "deb http://deb.coex.tech/ros xenial main" > /etc/apt/sources.list.d/coex.tech.list
echo "yaml file:///etc/ros/rosdep/coex.yaml" > /etc/ros/rosdep/sources.list.d/99-coex.list
CODENAME=$(lsb_release -sc)
cat <<EOF > /etc/ros/rosdep/coex.yaml
led_msgs:
ubuntu:
${CODENAME}: [ros-${ROS_DISTRO}-led-msgs]
async_web_server_cpp:
ubuntu:
${CODENAME}: [ros-${ROS_DISTRO}-async-web-server-cpp]
ros_pytest:
ubuntu:
${CODENAME}: [ros-${ROS_DISTRO}-ros-pytest]
tf2_web_republisher:
ubuntu:
${CODENAME}: [ros-${ROS_DISTRO}-tf2-web-republisher]
web_video_server:
ubuntu:
${CODENAME}: [ros-${ROS_DISTRO}-web-video-server]
ws281x:
ubuntu:
${CODENAME}: [ros-${ROS_DISTRO}-ws281x]
xenial: ros-kinetic-led-msgs
bionic: ros-melodic-led-msgs
debian:
stretch: ros-kinetic-led-msgs
buster: ros-melodic-led-msgs
EOF
apt-get update
apt update
rosdep update
# Step 2: Run rosdep to install all dependencies
@@ -57,10 +37,7 @@ cd /root/catkin_ws
catkin_make
# Step 4: Run tests
${PYTHON} -m pip install --upgrade pytest
pip install --upgrade pytest
cd /root/catkin_ws
source devel/setup.bash
catkin_make run_tests && catkin_test_results
# Step 5: Install packages
catkin_make install

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42
builder/test/test_qr.py
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@@ -1,42 +0,0 @@
#!/usr/bin/env python3
# Test QG recognition example
# Should be synced with the documentation: /docs/en/camera.md, /docs/ru/camera.md
# TODO: use real ROS topics
import rospy
from pyzbar import pyzbar
from cv_bridge import CvBridge
from sensor_msgs.msg import Image
bridge = CvBridge()
# rospy.init_node('barcode_test')
# Image subscriber callback function
def image_callback(data):
cv_image = bridge.imgmsg_to_cv2(data, 'bgr8') # OpenCV image
barcodes = pyzbar.decode(cv_image)
for barcode in barcodes:
b_data = barcode.data.decode("utf-8")
b_type = barcode.type
(x, y, w, h) = barcode.rect
xc = x + w/2
yc = y + h/2
print("Found {} with data {} with center at x={}, y={}".format(b_type, b_data, xc, yc))
# rospy.signal_shutdown('done')
# image_sub = rospy.Subscriber('main_camera/image_raw', Image, image_callback, queue_size=1)
# ==============================================================================
# Publish test image
# rospy.sleep(2)
import cv2
img = cv2.imread('qr.png')
image_callback(bridge.cv2_to_imgmsg(img, 'bgr8'))
# image_pub = rospy.Publisher('/main_camera/image_raw', Image, queue_size=1, latch=True)
# image_pub.publish(bridge.cv2_to_imgmsg(img, 'bgr8'))
# rospy.spin()

29
builder/test/tests.py
View File

@@ -2,34 +2,22 @@
# validate all required modules installed
import os
import rospy
from geometry_msgs.msg import PoseStamped
from sensor_msgs.msg import Range, BatteryState
import cv2
import cv2.aruco
from sensor_msgs.msg import Image
from cv_bridge import CvBridge
import numpy
import mavros
from mavros_msgs.msg import State, StatusText, ExtendedState, RCIn, Mavlink
from mavros_msgs.msg import State, StatusText, ExtendedState
from mavros_msgs.srv import CommandBool, CommandLong, SetMode
from std_srvs.srv import Trigger
from clover.srv import GetTelemetry, Navigate, NavigateGlobal, SetPosition, SetVelocity, \
SetAttitude, SetRates, SetLEDEffect
from led_msgs.srv import SetLEDs
from led_msgs.msg import LEDStateArray, LEDState
from aruco_pose.msg import Marker, MarkerArray, Point2D
from vision_msgs.msg import BoundingBox2D, BoundingBox2DArray, BoundingBox3D, BoundingBox3DArray, \
Classification2D, Classification3D, Detection2D, Detection2DArray, Detection3D, Detection3DArray, \
ObjectHypothesis, ObjectHypothesisWithPose, VisionInfo
from clover import long_callback
import dynamic_reconfigure.client
get_telemetry = rospy.ServiceProxy('get_telemetry', GetTelemetry)
import tf2_ros
import tf2_geometry_msgs
@@ -37,15 +25,8 @@ import tf2_geometry_msgs
import VL53L1X
import pymavlink
from pymavlink import mavutil
from image_geometry import PinholeCameraModel, StereoCameraModel
# from espeak import espeak
from pyzbar import pyzbar
import docopt
import geopy
import flask
import rpi_ws281x
import pigpio
from espeak import espeak
print(cv2.getBuildInformation())
if not os.environ.get('VM'):
import rpi_ws281x
import pigpio

73
builder/test/tests.sh
View File

@@ -1,14 +1,21 @@
#!/usr/bin/env bash
set -ex # exit on error, echo commands
set -ex
# TODO: validate versions
# validate required software is installed
python --version
python2 --version
python3 --version
ipython --version
ipython3 --version
# ptvsd does not have a stand-alone binary
python -m ptvsd --version
python3 -m ptvsd --version
node -v
npm -v
@@ -18,75 +25,33 @@ lsof -v
git --version
vim --version
pip --version
pip2 --version
pip3 --version
tcpdump --version
monkey --version
pigpiod -v
i2cdetect -V
butterfly -h
espeak --version
xxd --version
systemctl --version
if [ -z $VM ]; then
# rpi only software
python --version
[[ $(python -c 'import sys;print(sys.version_info.major)') == "3" ]]
python -m debugpy --version
python3 -m debugpy --version
pigpiod -v
i2cdetect -V
/usr/local/bin/butterfly.server.py --help
mjpg_streamer --version
fi
mjpg_streamer --version
# ros stuff
roscore -h
catkin_find
rosversion clover
rosversion aruco_pose
rosversion vl53l1x
rosversion mavros
rosversion mavros_extras
rosversion ws281x
rosversion led_msgs
rosversion dynamic_reconfigure
rosversion tf2_web_republisher
rosversion rosbridge_server
rosversion compressed_image_transport
rosversion rosbridge_suite
rosversion rosserial
rosversion usb_cam
rosversion cv_camera
rosversion web_video_server
rosversion nodelet
rosversion image_view
[[ $(rosversion ws281x) == "0.0.15" ]]
if [ -z $VM ]; then
# rosversion compressed_image_transport
rosversion rosshow
rosversion vl53l1x
rosversion rosserial
[[ $(rosversion cv_camera) == "0.6.1" ]] # patched version with init fix
fi
# determine user home directory
[ $VM ] && H="/home/clover" || H="/home/pi"
# test basic ros tool work
source $H/catkin_ws/devel/setup.bash
roscd
rosrun
rosmsg
rossrv
rosnode || [ $? -eq 64 ] # usage output code is 64
rostopic || [ $? -eq 64 ]
rosservice || [ $? -eq 64 ]
rosparam
roslaunch -h
rosversion rosshow
# validate examples are present
[[ $(ls $H/examples/*) ]]
# validate web tools present
[ -d $H/.ros/www ]
[ "$(readlink $H/.ros/www/clover)" = "$H/catkin_ws/src/clover/clover/www" ]
[ "$(readlink $H/.ros/www/clover_blocks)" = "$H/catkin_ws/src/clover/clover_blocks/www" ]
[[ $(ls /home/pi/examples/*) ]]

7
builder/test/tests_py2.py Executable file
View File

@@ -0,0 +1,7 @@
#!/usr/bin/env python
# Make sure our Python 2 software is installed
import cv2
print(cv2.getBuildInformation())

2
check_assets_size.py
View File

@@ -18,7 +18,7 @@ EXCLUDE = 'rviz.png', 'ssid.png', 'sitl_docker_demo.png', 'qgc-params.png', 'but
'qgc-battery.png', 'qgc-radio.png', 'qgc-cal-acc.png', 'qgc-esc.png', 'qgc-cal-compass.png', \
'qgc.png', 'qgc-parameters.png', 'clever4-front-white-large.png', 'qgc-modes.png', \
'qgc-requires-setup.png', 'clever4-front-white.png', 'clever4-kit-white.png', '26_1.png', 'battery_holder.stl', \
'camera_case.stl', 'camera_mount.stl', 'grip_right.stl', 'grip_left.stl'
'camera_case.stl', 'camera_mount.stl'
code = 0

4
check_unused_assets.py
View File

@@ -4,9 +4,7 @@ import os
import sys
import subprocess
EXCLUDE = ('clever4-front-white.png', 'clever4-front-white-large.png', '.DS_Store',
'clever4-front-black-large.png','clover42-black.png', 'clover42-main-margin.png')
EXCLUDE = ('clever4-front-white.png', '.DS_Store', 'clever4-front-black-large.png')
code = 0
os.chdir('./docs')

8
clover/CHANGELOG.rst
View File

@@ -1,8 +0,0 @@
^^^^^^^^^^^^^^^^^^^^^^^^^^^^
Changelog for package clover
^^^^^^^^^^^^^^^^^^^^^^^^^^^^
0.21.1 (2020-11-17)
-------------------
* First release of clover package to ROS
* Contributors: Alexey Rogachevskiy, Arthur Golubtsov, Oleg Kalachev

87
clover/CMakeLists.txt
View File

@@ -1,4 +1,4 @@
cmake_minimum_required(VERSION 3.0)
cmake_minimum_required(VERSION 2.8.3)
project(clover)
## Compile as C++11, supported in ROS Kinetic and newer
@@ -17,7 +17,6 @@ find_package(catkin REQUIRED COMPONENTS
message_generation
geometry_msgs
sensor_msgs
led_msgs
geographic_msgs
tf
tf2
@@ -25,29 +24,12 @@ find_package(catkin REQUIRED COMPONENTS
tf2_ros
image_transport
cv_bridge
dynamic_reconfigure
)
list(APPEND CMAKE_MODULE_PATH "${CMAKE_CURRENT_LIST_DIR}/cmake")
# https://github.com/mavlink/mavros/blob/7f1a8/mavros/CMakeLists.txt#L42
set(CMAKE_MODULE_PATH "${CMAKE_MODULE_PATH};/usr/share/cmake/geographiclib")
find_package(GeographicLib REQUIRED)
# Workaround for OpenCV 3/4 support
set(_opencv_version 4)
find_package(OpenCV ${_opencv_version} QUIET COMPONENTS calib3d imgproc)
if (NOT OpenCV_FOUND)
message(STATUS "Did not find OpenCV 4, searching for OpenCV 3")
set(_opencv_version 3)
endif()
find_package(OpenCV ${_opencv_version} REQUIRED
COMPONENTS
calib3d
imgproc
)
## System dependencies are found with CMake's conventions
# find_package(Boost REQUIRED COMPONENTS system)
@@ -55,7 +37,7 @@ find_package(OpenCV ${_opencv_version} REQUIRED
## Uncomment this if the package has a setup.py. This macro ensures
## modules and global scripts declared therein get installed
## See http://ros.org/doc/api/catkin/html/user_guide/setup_dot_py.html
catkin_python_setup()
# catkin_python_setup()
################################################
## Declare ROS messages, services and actions ##
@@ -82,10 +64,11 @@ catkin_python_setup()
## * add every package in MSG_DEP_SET to generate_messages(DEPENDENCIES ...)
## Generate messages in the 'msg' folder
add_message_files(
FILES
State.msg
)
# add_message_files(
# FILES
# Message1.msg
# Message2.msg
# )
## Generate services in the 'srv' folder
add_service_files(
@@ -93,9 +76,6 @@ add_service_files(
GetTelemetry.srv
Navigate.srv
NavigateGlobal.srv
SetAltitude.srv
SetYaw.srv
SetYawRate.srv
SetPosition.srv
SetVelocity.srv
SetAttitude.srv
@@ -132,9 +112,10 @@ generate_messages(
## and list every .cfg file to be processed
## Generate dynamic reconfigure parameters in the 'cfg' folder
generate_dynamic_reconfigure_options(
cfg/Flow.cfg
)
# generate_dynamic_reconfigure_options(
# cfg/DynReconf1.cfg
# cfg/DynReconf2.cfg
# )
###################################
## catkin specific configuration ##
@@ -179,14 +160,13 @@ add_library(${PROJECT_NAME}
## The recommended prefix ensures that target names across packages don't collide
add_executable(simple_offboard src/simple_offboard.cpp)
# PX4 already has rc and led targets, so we prefix ours with clover_
add_executable(clover_rc src/rc.cpp)
add_executable(rc src/rc.cpp)
add_executable(camera_markers src/camera_markers.cpp)
add_executable(vpe_publisher src/vpe_publisher.cpp)
add_executable(clover_led src/led.cpp)
add_executable(led src/led.cpp)
add_executable(shell src/shell.cpp)
@@ -195,29 +175,22 @@ target_link_libraries(simple_offboard
${GeographicLib_LIBRARIES}
)
# Don't change actual binary names
set_target_properties(clover_rc PROPERTIES OUTPUT_NAME rc)
set_target_properties(clover_led PROPERTIES OUTPUT_NAME led)
target_link_libraries(clover_rc ${catkin_LIBRARIES})
target_link_libraries(rc ${catkin_LIBRARIES})
target_link_libraries(camera_markers ${catkin_LIBRARIES})
target_link_libraries(vpe_publisher ${catkin_LIBRARIES})
target_link_libraries(clover_led ${catkin_LIBRARIES})
target_link_libraries(led ${catkin_LIBRARIES})
target_link_libraries(shell ${catkin_LIBRARIES})
add_dependencies(simple_offboard ${PROJECT_NAME}_generate_messages_cpp)
add_dependencies(clover_led ${PROJECT_NAME}_generate_messages_cpp)
add_dependencies(led ${PROJECT_NAME}_generate_messages_cpp)
add_dependencies(shell ${PROJECT_NAME}_generate_messages_cpp)
add_dependencies(${PROJECT_NAME} ${PROJECT_NAME}_gencfg)
## Rename C++ executable without prefix
## The above recommended prefix causes long target names, the following renames the
## target back to the shorter version for ease of user use
@@ -231,7 +204,6 @@ add_dependencies(${PROJECT_NAME} ${PROJECT_NAME}_gencfg)
## Specify libraries to link a library or executable target against
target_link_libraries(${PROJECT_NAME}
${catkin_LIBRARIES}
${OpenCV_LIBRARIES}
)
#############
@@ -248,12 +220,12 @@ target_link_libraries(${PROJECT_NAME}
# DESTINATION ${CATKIN_PACKAGE_BIN_DESTINATION}
# )
# Mark executables and/or libraries for installation
install(TARGETS simple_offboard clover_rc camera_markers vpe_publisher clover_led shell clover
ARCHIVE DESTINATION ${CATKIN_PACKAGE_LIB_DESTINATION}
LIBRARY DESTINATION ${CATKIN_PACKAGE_LIB_DESTINATION}
RUNTIME DESTINATION ${CATKIN_PACKAGE_BIN_DESTINATION}
)
## Mark executables and/or libraries for installation
# install(TARGETS ${PROJECT_NAME} ${PROJECT_NAME}_node
# ARCHIVE DESTINATION ${CATKIN_PACKAGE_LIB_DESTINATION}
# LIBRARY DESTINATION ${CATKIN_PACKAGE_LIB_DESTINATION}
# RUNTIME DESTINATION ${CATKIN_PACKAGE_BIN_DESTINATION}
# )
## Mark cpp header files for installation
# install(DIRECTORY include/${PROJECT_NAME}/
@@ -269,25 +241,13 @@ install(TARGETS simple_offboard clover_rc camera_markers vpe_publisher clover_le
# DESTINATION ${CATKIN_PACKAGE_SHARE_DESTINATION}
# )
catkin_install_python(PROGRAMS src/selfcheck.py
DESTINATION ${CATKIN_PACKAGE_BIN_DESTINATION}
)
install(DIRECTORY launch DESTINATION ${CATKIN_PACKAGE_SHARE_DESTINATION})
install(DIRECTORY examples DESTINATION ${CATKIN_PACKAGE_SHARE_DESTINATION})
install(DIRECTORY www DESTINATION ${CATKIN_PACKAGE_SHARE_DESTINATION})
# TODO: install www
# Only install udev rules when building a Debian package
# FIXME: Other operating systems may have other prefixes
string(FIND ${CMAKE_INSTALL_PREFIX} "/opt/ros" _PREFIX_INDEX)
if (${_PREFIX_INDEX} EQUAL 0)
message(STATUS "Building as a Debian package - adding udev rules as installable files")
install(FILES
udev/99-px4fmu.rules
config/99-px4fmu.rules
DESTINATION /lib/udev/rules.d
)
else()
@@ -310,5 +270,4 @@ endif()
if (CATKIN_ENABLE_TESTING)
find_package(rostest REQUIRED)
add_rostest(test/basic.test)
add_rostest(test/offboard.test)
endif()

55
clover/README.md
View File

@@ -1,55 +0,0 @@
# `clover` ROS package
A bundle for autonomous navigation and drone control.
## Manual installation
Install ROS Noetic according to the [documentation](http://wiki.ros.org/noetic/Installation), then [create a Catkin workspace](http://wiki.ros.org/catkin/Tutorials/create_a_workspace).
Clone this repo to directory `~/catkin_ws/src/clover`:
```bash
cd ~/catkin_ws/src
git clone https://github.com/CopterExpress/clover.git clover
```
All the required ROS packages (including `mavros` and `opencv`) can be installed using `rosdep`:
```bash
cd ~/catkin_ws/
rosdep install -y --from-paths src --ignore-src
```
Build ROS packages (on memory constrained platforms you might be going to need to use `-j1` key):
```bash
cd ~/catkin_ws
catkin_make -j1
```
To complete `mavros` install you'll need to install `geographiclib` datasets:
```bash
curl https://raw.githubusercontent.com/mavlink/mavros/master/mavros/scripts/install_geographiclib_datasets.sh | sudo bash
```
You may optionally install udev rules to provide `/dev/px4fmu` symlink to your PX4-based flight controller connected over USB. Copy `99-px4fmu.rules` to your `/lib/udev/rules.d` folder:
```bash
cd ~/catkin_ws/src/clover/clover/udev
sudo cp 99-px4fmu.rules /lib/udev/rules.d
```
Alternatively you may change the `fcu_url` property in `mavros.launch` file to point to your flight controller device.
## Running
To start connection to the flight controller, use:
```bash
roslaunch clover clover.launch
```
For the simulation information see the [corresponding article](https://clover.coex.tech/en/simulation.html).
> Note that the package is configured to connect to `/dev/px4fmu` by default (see [previous section](#manual-installation)). Install udev rules or specify path to your FCU device in `mavros.launch`.

65
clover/camera_info/fisheye_cam_1280x720.yaml
View File

@@ -1,65 +0,0 @@
# Generated from fisheye_cam.yaml by rescale_camera_info.py
camera_matrix:
cols: 3
data:
- 415.5985593268293
- 0.0
- 400.0
- 0.0
- 312.35267324512984
- 225.0
- 0.0
- 0.0
- 1.0
rows: 3
camera_name: main_camera_optical
distortion_coefficients:
cols: 8
data:
- 0.215356885
- -0.117472846
- -0.000306197672
- -0.000109444025
- -0.00453657258
- 0.573090623
- -0.127574577
- -0.0286125589
- 0.0
- 0.0
- 0.0
- 0.0
- 0.0
- 0.0
rows: 1
distortion_model: plumb_bob
image_height: 720
image_width: 1280
projection_matrix:
cols: 4
data:
- 415.5985593268293
- 0.0
- 405.4752811707317
- 0.0
- 0.0
- 312.35267324512984
- 205.91677004464282
- 0.0
- 0.0
- 0.0
- 1.0
- 0.0
rows: 3
rectification_matrix:
cols: 3
data:
- 1
- 0
- 0
- 0
- 1
- 0
- 0
- 0
- 1
rows: 3

65
clover/camera_info/fisheye_cam_1920x1080.yaml
View File

@@ -1,65 +0,0 @@
# Generated from fisheye_cam.yaml by rescale_camera_info.py
camera_matrix:
cols: 3
data:
- 1246.7956779804879
- 0.0
- 1200.0
- 0.0
- 702.7935148015422
- 506.25
- 0.0
- 0.0
- 1.0
rows: 3
camera_name: main_camera_optical
distortion_coefficients:
cols: 8
data:
- 0.215356885
- -0.117472846
- -0.000306197672
- -0.000109444025
- -0.00453657258
- 0.573090623
- -0.127574577
- -0.0286125589
- 0.0
- 0.0
- 0.0
- 0.0
- 0.0
- 0.0
rows: 1
distortion_model: plumb_bob
image_height: 1080
image_width: 1920
projection_matrix:
cols: 4
data:
- 1246.7956779804879
- 0.0
- 1216.4258435121951
- 0.0
- 0.0
- 702.7935148015422
- 463.31273260044634
- 0.0
- 0.0
- 0.0
- 1.0
- 0.0
rows: 3
rectification_matrix:
cols: 3
data:
- 1
- 0
- 0
- 0
- 1
- 0
- 0
- 0
- 1
rows: 3

65
clover/camera_info/fisheye_cam_2592x1944.yaml
View File

@@ -1,65 +0,0 @@
# Generated from fisheye_cam.yaml by rescale_camera_info.py
camera_matrix:
cols: 3
data:
- 5049.522495820976
- 0.0
- 4860.0
- 0.0
- 2846.313734946246
- 2050.3125
- 0.0
- 0.0
- 1.0
rows: 3
camera_name: main_camera_optical
distortion_coefficients:
cols: 8
data:
- 0.215356885
- -0.117472846
- -0.000306197672
- -0.000109444025
- -0.00453657258
- 0.573090623
- -0.127574577
- -0.0286125589
- 0.0
- 0.0
- 0.0
- 0.0
- 0.0
- 0.0
rows: 1
distortion_model: plumb_bob
image_height: 1944
image_width: 2592
projection_matrix:
cols: 4
data:
- 5049.522495820976
- 0.0
- 4926.52466622439
- 0.0
- 0.0
- 2846.313734946246
- 1876.4165670318075
- 0.0
- 0.0
- 0.0
- 1.0
- 0.0
rows: 3
rectification_matrix:
cols: 3
data:
- 1
- 0
- 0
- 0
- 1
- 0
- 0
- 0
- 1
rows: 3

45
clover/camera_info/fisheye_cam_320.yaml Normal file
View File

@@ -0,0 +1,45 @@
image_width: 320
image_height: 240
distortion_model: plumb_bob
camera_name: raspicam
camera_matrix:
rows: 3
cols: 3
data:
- 166.23942373073172
- 0.
- 162.19011246829268
- 0.
- 166.5880923974026
- 109.82227735714285
- 0.
- 0.
- 1.
distortion_coefficients:
rows: 1
cols: 8
data: [ 2.15356885e-01, -1.17472846e-01, -3.06197672e-04,
-1.09444025e-04, -4.53657258e-03, 5.73090623e-01,
-1.27574577e-01, -2.86125589e-02, 0.00000000e+00,
0.00000000e+00, 0.00000000e+00, 0.00000000e+00,
0.00000000e+00, 0.00000000e+00]
rectification_matrix:
rows: 3
cols: 3
data: [1, 0, 0, 0, 1, 0, 0, 0, 1]
projection_matrix:
rows: 3
cols: 4
data:
- 166.23942373073172
- 0.
- 162.19011246829268
- 0.
- 0.
- 166.5880923974026
- 109.82227735714285
- 0.
- 0.
- 0.
- 1.
- 0.

65
clover/camera_info/fisheye_cam_320x240.yaml
View File

@@ -1,65 +0,0 @@
# Generated from fisheye_cam.yaml by rescale_camera_info.py
camera_matrix:
cols: 3
data:
- 166.23942373073172
- 0.0
- 160.0
- 0.0
- 166.5880923974026
- 120.0
- 0.0
- 0.0
- 1.0
rows: 3
camera_name: main_camera_optical
distortion_coefficients:
cols: 8
data:
- 0.215356885
- -0.117472846
- -0.000306197672
- -0.000109444025
- -0.00453657258
- 0.573090623
- -0.127574577
- -0.0286125589
- 0.0
- 0.0
- 0.0
- 0.0
- 0.0
- 0.0
rows: 1
distortion_model: plumb_bob
image_height: 240
image_width: 320
projection_matrix:
cols: 4
data:
- 166.23942373073172
- 0.0
- 162.19011246829268
- 0.0
- 0.0
- 166.5880923974026
- 109.82227735714285
- 0.0
- 0.0
- 0.0
- 1.0
- 0.0
rows: 3
rectification_matrix:
cols: 3
data:
- 1
- 0
- 0
- 0
- 1
- 0
- 0
- 0
- 1
rows: 3

65
clover/camera_info/fisheye_cam_3840x2160.yaml
View File

@@ -1,65 +0,0 @@
# Generated from fisheye_cam.yaml by rescale_camera_info.py
camera_matrix:
cols: 3
data:
- 30297.13497492585
- 0.0
- 29160.0
- 0.0
- 12808.411807258106
- 9226.40625
- 0.0
- 0.0
- 1.0
rows: 3
camera_name: main_camera_optical
distortion_coefficients:
cols: 8
data:
- 0.215356885
- -0.117472846
- -0.000306197672
- -0.000109444025
- -0.00453657258
- 0.573090623
- -0.127574577
- -0.0286125589
- 0.0
- 0.0
- 0.0
- 0.0
- 0.0
- 0.0
rows: 1
distortion_model: plumb_bob
image_height: 2160
image_width: 3840
projection_matrix:
cols: 4
data:
- 30297.13497492585
- 0.0
- 29559.14799734634
- 0.0
- 0.0
- 12808.411807258106
- 8443.874551643134
- 0.0
- 0.0
- 0.0
- 1.0
- 0.0
rows: 3
rectification_matrix:
cols: 3
data:
- 1
- 0
- 0
- 0
- 1
- 0
- 0
- 0
- 1
rows: 3

65
clover/camera_info/fisheye_cam_4056x3040.yaml
View File

@@ -1,65 +0,0 @@
# Generated from fisheye_cam.yaml by rescale_camera_info.py
camera_matrix:
cols: 3
data:
- 192008.0929035926
- 0.0
- 184801.5
- 0.0
- 81119.941445968
- 58433.90625
- 0.0
- 0.0
- 1.0
rows: 3
camera_name: main_camera_optical
distortion_coefficients:
cols: 8
data:
- 0.215356885
- -0.117472846
- -0.000306197672
- -0.000109444025
- -0.00453657258
- 0.573090623
- -0.127574577
- -0.0286125589
- 0.0
- 0.0
- 0.0
- 0.0
- 0.0
- 0.0
rows: 1
distortion_model: plumb_bob
image_height: 3040
image_width: 4056
projection_matrix:
cols: 4
data:
- 192008.0929035926
- 0.0
- 187331.10043318244
- 0.0
- 0.0
- 81119.941445968
- 53477.87216040651
- 0.0
- 0.0
- 0.0
- 1.0
- 0.0
rows: 3
rectification_matrix:
cols: 3
data:
- 1
- 0
- 0
- 0
- 1
- 0
- 0
- 0
- 1
rows: 3

6
clover/camera_info/fisheye_cam.yaml → clover/camera_info/fisheye_cam_640.yaml
View File

@@ -1,17 +1,17 @@
image_width: 640
image_height: 480
distortion_model: plumb_bob
camera_name: main_camera_optical
camera_name: raspicam
camera_matrix:
rows: 3
cols: 3
data:
- 332.47884746146343
- 0.
- 320.0
- 324.38022493658536
- 0.
- 333.1761847948052
- 240.0
- 219.6445547142857
- 0.
- 0.
- 1.

65
clover/camera_info/fisheye_cam_640x480.yaml
View File

@@ -1,65 +0,0 @@
# Generated from fisheye_cam.yaml by rescale_camera_info.py
camera_matrix:
cols: 3
data:
- 166.23942373073172
- 0.0
- 160.0
- 0.0
- 166.5880923974026
- 120.0
- 0.0
- 0.0
- 1.0
rows: 3
camera_name: main_camera_optical
distortion_coefficients:
cols: 8
data:
- 0.215356885
- -0.117472846
- -0.000306197672
- -0.000109444025
- -0.00453657258
- 0.573090623
- -0.127574577
- -0.0286125589
- 0.0
- 0.0
- 0.0
- 0.0
- 0.0
- 0.0
rows: 1
distortion_model: plumb_bob
image_height: 480
image_width: 640
projection_matrix:
cols: 4
data:
- 166.23942373073172
- 0.0
- 162.19011246829268
- 0.0
- 0.0
- 166.5880923974026
- 109.82227735714285
- 0.0
- 0.0
- 0.0
- 1.0
- 0.0
rows: 3
rectification_matrix:
cols: 3
data:
- 1
- 0
- 0
- 0
- 1
- 0
- 0
- 0
- 1
rows: 3

65
clover/camera_info/fisheye_cam_800x600.yaml
View File

@@ -1,65 +0,0 @@
# Generated from fisheye_cam.yaml by rescale_camera_info.py
camera_matrix:
cols: 3
data:
- 207.79927966341464
- 0.0
- 200.0
- 0.0
- 208.23511549675322
- 150.0
- 0.0
- 0.0
- 1.0
rows: 3
camera_name: main_camera_optical
distortion_coefficients:
cols: 8
data:
- 0.215356885
- -0.117472846
- -0.000306197672
- -0.000109444025
- -0.00453657258
- 0.573090623
- -0.127574577
- -0.0286125589
- 0.0
- 0.0
- 0.0
- 0.0
- 0.0
- 0.0
rows: 1
distortion_model: plumb_bob
image_height: 600
image_width: 800
projection_matrix:
cols: 4
data:
- 207.79927966341464
- 0.0
- 202.73764058536585
- 0.0
- 0.0
- 208.23511549675322
- 137.27784669642855
- 0.0
- 0.0
- 0.0
- 1.0
- 0.0
rows: 3
rectification_matrix:
cols: 3
data:
- 1
- 0
- 0
- 0
- 1
- 0
- 0
- 0
- 1
rows: 3

10
clover/cfg/Flow.cfg
View File

@@ -1,10 +0,0 @@
#!/usr/bin/env python
PACKAGE = "clover"
from dynamic_reconfigure.parameter_generator_catkin import *
gen = ParameterGenerator()
gen.add("enabled", bool_t, 0, "if optical flow enabled", True)
exit(gen.generate(PACKAGE, "clover", "Flow"))

18
clover/cmake/FindGeographicLib.cmake Normal file
View File

@@ -0,0 +1,18 @@
# taken from: https://github.com/mavlink/mavros/blob/master/libmavconn/cmake/Modules/FindGeographicLib.cmake
# Look for GeographicLib
#
# Set
# GEOGRAPHICLIB_FOUND = TRUE
# GeographicLib_INCLUDE_DIRS = /usr/local/include
# GeographicLib_LIBRARIES = /usr/local/lib/libGeographic.so
# GeographicLib_LIBRARY_DIRS = /usr/local/lib
find_path (GeographicLib_INCLUDE_DIRS NAMES GeographicLib/Config.h)
find_library (GeographicLib_LIBRARIES NAMES Geographic)
include (FindPackageHandleStandardArgs)
find_package_handle_standard_args (GeographicLib DEFAULT_MSG
GeographicLib_LIBRARIES GeographicLib_INCLUDE_DIRS)
mark_as_advanced (GeographicLib_LIBRARIES GeographicLib_INCLUDE_DIRS)

15
clover/config/99-px4fmu.rules Normal file
View File

@@ -0,0 +1,15 @@
# PixHawk (px4fmu-v2), px4fmu-v3
SUBSYSTEM=="tty", ATTRS{idVendor}=="26ac", ATTRS{idProduct}=="0011", ATTRS{product}=="PX4 FMU v2.x", SYMLINK+="px4fmu"
# PixRacer (px4fmu-v4)
SUBSYSTEM=="tty", ATTRS{idVendor}=="26ac", ATTRS{idProduct}=="0012", ATTRS{product}=="PX4 FMU v4.x", SYMLINK+="px4fmu"
# px4fmu-v5
SUBSYSTEM=="tty", ATTRS{idVendor}=="26ac", ATTRS{idProduct}=="0032", ATTRS{product}=="PX4 FMU v5.x", SYMLINK+="px4fmu"
# auav
SUBSYSTEM=="tty", ATTRS{idVendor}=="26ac", ATTRS{idProduct}=="0021", ATTRS{product}=="PX4 AUAV x2.1", SYMLINK+="px4fmu"
# crazyflie
SUBSYSTEM=="tty", ATTRS{idVendor}=="26ac", ATTRS{idProduct}=="0016", ATTRS{product}=="PX4 Crazyflie v2.0", SYMLINK+="px4fmu"
# px4fmu-v4pro
SUBSYSTEM=="tty", ATTRS{idVendor}=="26ac", ATTRS{idProduct}=="0013", ATTRS{product}=="PX4 FMU v4.x PRO", SYMLINK+="px4fmu"
# Omnibus
SUBSYSTEM=="tty", ATTRS{idVendor}=="26ac", ATTRS{idProduct}=="0001", ATTRS{product}=="PX4 OmnibusF4SD", SYMLINK+="px4fmu"

64
clover/examples/camera.py
View File

@@ -1,64 +0,0 @@
# Information: https://clover.coex.tech/camera
# Example on basic working with the camera and image processing:
# - cuts out a central square from the camera image;
# - publishes this cropped image to the topic `/cv/center`;
# - computes the average color of it;
# - prints its name to the console.
import rospy
import cv2
from sensor_msgs.msg import Image
from cv_bridge import CvBridge
from clover import long_callback
rospy.init_node('cv')
bridge = CvBridge()
printed_color = None
center_pub = rospy.Publisher('~center', Image, queue_size=1)
def get_color_name(h):
if h < 15: return 'red'
elif h < 30: return 'orange'
elif h < 60: return 'yellow'
elif h < 90: return 'green'
elif h < 120: return 'cyan'
elif h < 150: return 'blue'
elif h < 170: return 'magenta'
else: return 'red'
@long_callback
def image_callback(msg):
img = bridge.imgmsg_to_cv2(msg, 'bgr8')
# convert to HSV to work with color hue
img_hsv = cv2.cvtColor(img, cv2.COLOR_BGR2HSV)
# cut out a central square
w = img.shape[1]
h = img.shape[0]
r = 20
center = img_hsv[h // 2 - r:h // 2 + r, w // 2 - r:w // 2 + r]
# compute and print the average hue
mean_hue = center[:, :, 0].mean()
color = get_color_name(mean_hue)
global printed_color
if color != printed_color:
print(color)
printed_color = color
# publish the cropped image
center = cv2.cvtColor(center, cv2.COLOR_HSV2BGR)
center_pub.publish(bridge.cv2_to_imgmsg(center, 'bgr8'))
# process every frame:
image_sub = rospy.Subscriber('main_camera/image_raw', Image, image_callback, queue_size=1)
# process 5 frames per second:
# image_sub = rospy.Subscriber('main_camera/image_raw_throttled', Image, image_callback, queue_size=1)
rospy.spin()

37
clover/examples/flight_marker.py
View File

@@ -1,37 +0,0 @@
# Information: https://clover.coex.tech/aruco
import rospy
from clover import srv
from std_srvs.srv import Trigger
rospy.init_node('flight')
get_telemetry = rospy.ServiceProxy('get_telemetry', srv.GetTelemetry)
navigate = rospy.ServiceProxy('navigate', srv.Navigate)
navigate_global = rospy.ServiceProxy('navigate_global', srv.NavigateGlobal)
set_position = rospy.ServiceProxy('set_position', srv.SetPosition)
set_velocity = rospy.ServiceProxy('set_velocity', srv.SetVelocity)
set_attitude = rospy.ServiceProxy('set_attitude', srv.SetAttitude)
set_rates = rospy.ServiceProxy('set_rates', srv.SetRates)
land = rospy.ServiceProxy('land', Trigger)
print('Take off and hover 1 m above the ground')
navigate(x=0, y=0, z=1, frame_id='body', auto_arm=True)
# Wait for 5 seconds
rospy.sleep(5)
print('Fly 1 meter above ArUco marker 0')
navigate(x=0, y=0, z=1, frame_id='aruco_0')
# Wait for 5 seconds
rospy.sleep(5)
print('Fly to x=1 y=1 z=1 relative to ArUco markers map')
navigate(x=1, y=1, z=1, frame_id='aruco_map')
# Wait for 5 seconds
rospy.sleep(5)
print('Perform landing')
land()

11
clover/examples/get_telemetry.py
View File

@@ -1,11 +0,0 @@
# Information: https://clover.coex.tech/en/simple_offboard.html#gettelemetry
import rospy
from clover import srv
rospy.init_node('flight')
get_telemetry = rospy.ServiceProxy('get_telemetry', srv.GetTelemetry)
# Print drone's state
print(get_telemetry())

47
clover/examples/gps.py
View File

@@ -1,47 +0,0 @@
# Information: https://clover.coex.tech/en/simple_offboard.html#navigateglobal
import rospy
from clover import srv
from std_srvs.srv import Trigger
import math
rospy.init_node('flight')
get_telemetry = rospy.ServiceProxy('get_telemetry', srv.GetTelemetry)
navigate = rospy.ServiceProxy('navigate', srv.Navigate)
navigate_global = rospy.ServiceProxy('navigate_global', srv.NavigateGlobal)
set_position = rospy.ServiceProxy('set_position', srv.SetPosition)
set_velocity = rospy.ServiceProxy('set_velocity', srv.SetVelocity)
set_attitude = rospy.ServiceProxy('set_attitude', srv.SetAttitude)
set_rates = rospy.ServiceProxy('set_rates', srv.SetRates)
land = rospy.ServiceProxy('land', Trigger)
# https://clover.coex.tech/en/snippets.html#wait_arrival
def wait_arrival(tolerance=0.2):
while not rospy.is_shutdown():
telem = get_telemetry(frame_id='navigate_target')
if math.sqrt(telem.x ** 2 + telem.y ** 2 + telem.z ** 2) < tolerance:
break
rospy.sleep(0.2)
start = get_telemetry()
if math.isnan(start.lat):
raise Exception('No global position, install and configure GPS sensor: https://clover.coex.tech/gps')
print('Start point global position: lat={}, lon={}'.format(start.lat, start.lon))
print('Take off 3 meters')
navigate(x=0, y=0, z=3, frame_id='body', auto_arm=True)
wait_arrival()
print('Fly 1 arcsecond to the North (approx. 30 meters)')
navigate_global(lat=start.lat+1.0/60/60, lon=start.lon, z=start.z+3, yaw=math.inf, speed=5)
wait_arrival()
print('Fly to home position')
navigate_global(lat=start.lat, lon=start.lon, z=start.z+3, yaw=math.inf, speed=5)
wait_arrival()
print('Land')
land()

38
clover/examples/navigate_wait.py
View File

@@ -1,38 +0,0 @@
# Information: https://clover.coex.tech/en/snippets.html#navigate_wait
import math
import rospy
from clover import srv
from std_srvs.srv import Trigger
rospy.init_node('flight')
get_telemetry = rospy.ServiceProxy('get_telemetry', srv.GetTelemetry)
navigate = rospy.ServiceProxy('navigate', srv.Navigate)
navigate_global = rospy.ServiceProxy('navigate_global', srv.NavigateGlobal)
set_position = rospy.ServiceProxy('set_position', srv.SetPosition)
set_velocity = rospy.ServiceProxy('set_velocity', srv.SetVelocity)
set_attitude = rospy.ServiceProxy('set_attitude', srv.SetAttitude)
set_rates = rospy.ServiceProxy('set_rates', srv.SetRates)
land = rospy.ServiceProxy('land', Trigger)
def navigate_wait(x=0, y=0, z=0, yaw=math.nan, speed=0.5, frame_id='body', tolerance=0.2, auto_arm=False):
res = navigate(x=x, y=y, z=z, yaw=yaw, speed=speed, frame_id=frame_id, auto_arm=auto_arm)
if not res.success:
return res
while not rospy.is_shutdown():
telem = get_telemetry(frame_id='navigate_target')
if math.sqrt(telem.x ** 2 + telem.y ** 2 + telem.z ** 2) < tolerance:
return res
rospy.sleep(0.2)
print('Take off 1 meter')
navigate_wait(z=1, frame_id='body', auto_arm=True)
print('Fly forward 1 m')
navigate_wait(x=1, frame_id='body')
print('Land')
land()

91
clover/examples/red_circle.py
View File

@@ -1,91 +0,0 @@
# This example makes the drone find and follow the red circle.
# To test in the simulator, place 'Red Circle' model on the floor.
# More information: https://clover.coex.tech/red_circle
# Input topic: main_camera/image_raw (camera image)
# Output topics:
# cv/mask (red color mask)
# cv/red_circle (position of the center of the red circle in 3D space)
import rospy
import cv2
import numpy as np
from math import nan
from sensor_msgs.msg import Image, CameraInfo
from geometry_msgs.msg import PointStamped, Point
from cv_bridge import CvBridge
from clover import long_callback, srv
import tf2_ros
import tf2_geometry_msgs
import image_geometry
rospy.init_node('cv', disable_signals=True) # disable signals to allow interrupting with ctrl+c
get_telemetry = rospy.ServiceProxy('get_telemetry', srv.GetTelemetry)
set_position = rospy.ServiceProxy('set_position', srv.SetPosition)
bridge = CvBridge()
tf_buffer = tf2_ros.Buffer()
tf_listener = tf2_ros.TransformListener(tf_buffer)
mask_pub = rospy.Publisher('~mask', Image, queue_size=1)
point_pub = rospy.Publisher('~red_circle', PointStamped, queue_size=1)
# read camera info
camera_model = image_geometry.PinholeCameraModel()
camera_model.fromCameraInfo(rospy.wait_for_message('main_camera/camera_info', CameraInfo))
def img_xy_to_point(xy, dist):
xy_rect = camera_model.rectifyPoint(xy)
ray = camera_model.projectPixelTo3dRay(xy_rect)
return Point(x=ray[0] * dist, y=ray[1] * dist, z=dist)
def get_center_of_mass(mask):
M = cv2.moments(mask)
if M['m00'] == 0:
return None
return M['m10'] // M['m00'], M['m01'] // M['m00']
follow_red_circle = False
@long_callback
def image_callback(msg):
img = bridge.imgmsg_to_cv2(msg, 'bgr8')
img_hsv = cv2.cvtColor(img, cv2.COLOR_BGR2HSV)
# we need to use two ranges for red color
mask1 = cv2.inRange(img_hsv, (0, 150, 150), (15, 255, 255))
mask2 = cv2.inRange(img_hsv, (160, 150, 150), (180, 255, 255))
# combine two masks using bitwise OR
mask = cv2.bitwise_or(mask1, mask2)
# publish the mask
if mask_pub.get_num_connections() > 0:
mask_pub.publish(bridge.cv2_to_imgmsg(mask, 'mono8'))
# calculate x and y of the circle
xy = get_center_of_mass(mask)
if xy is None:
return
# calculate and publish the position of the circle in 3D space
altitude = get_telemetry('terrain').z
xy3d = img_xy_to_point(xy, altitude)
target = PointStamped(header=msg.header, point=xy3d)
point_pub.publish(target)
if follow_red_circle:
# follow the target
setpoint = tf_buffer.transform(target, 'map', timeout=rospy.Duration(0.2))
set_position(x=setpoint.point.x, y=setpoint.point.y, z=nan, yaw=nan, frame_id=setpoint.header.frame_id)
# process each camera frame:
image_sub = rospy.Subscriber('main_camera/image_raw', Image, image_callback, queue_size=1)
rospy.loginfo('Hit enter to follow the red circle')
input()
follow_red_circle = True
rospy.spin()

15
clover/examples/subscriber.py
View File

@@ -1,15 +0,0 @@
# Information: https://clover.coex.tech/en/laser.html
import rospy
from sensor_msgs.msg import Range
rospy.init_node('process_rangefinder')
def range_callback(msg):
# Process data from the rangefinder
print('Rangefinder distance:', msg.range)
# Subscribe to laser rangefinder data
rospy.Subscriber('rangefinder/range', Range, range_callback)
rospy.spin()

41
clover/launch/aruco.launch
View File

@@ -2,43 +2,28 @@
<arg name="aruco_detect" default="true"/>
<arg name="aruco_map" default="false"/>
<arg name="aruco_vpe" default="false"/>
<arg name="placement" default="floor"/> <!-- markers placement: floor, ceiling, unknown -->
<arg name="length" default="0.22"/> <!-- not-in-map markers length, m -->
<arg name="map" default="map.txt"/> <!-- markers map file name -->
<!-- For additional help go to https://clover.coex.tech/aruco -->
<arg name="force_init" default="false"/>
<arg name="disable" default="false"/> <!-- only force init -->
<!-- For additional help go to https://clever.coex.tech/aruco -->
<!-- aruco_detect: detect aruco markers, estimate poses -->
<node name="aruco_detect" pkg="nodelet" if="$(eval aruco_detect and not disable)" type="nodelet" args="load aruco_pose/aruco_detect main_camera_nodelet_manager" output="screen" clear_params="true" respawn="true">
<node name="aruco_detect" pkg="nodelet" if="$(arg aruco_detect)" type="nodelet" args="load aruco_pose/aruco_detect nodelet_manager" output="screen" clear_params="true">
<remap from="image_raw" to="main_camera/image_raw"/>
<remap from="camera_info" to="main_camera/camera_info"/>
<remap from="map_markers" to="aruco_map/map"/>
<param name="dictionary" value="2"/> <!-- DICT_4X4_250 -->
<remap from="map_markers" to="aruco_map/markers" if="$(arg aruco_map)"/>
<param name="cornerRefinementMethod" value="2"/>
<param name="estimate_poses" value="true"/>
<param name="send_tf" value="true"/>
<param name="use_map_markers" value="$(arg aruco_map)"/>
<param name="known_vertical" value="map" if="$(eval placement == 'floor' or placement == 'ceiling')"/>
<param name="flip_vertical" value="true" if="$(eval placement == 'ceiling')"/>
<param name="length" value="$(arg length)"/>
<param name="transform_timeout" value="0.1"/>
<!-- aruco detector parameters -->
<param name="cornerRefinementMethod" value="2"/> <!-- contour refinement -->
<param name="minMarkerPerimeterRate" value="0.075"/> <!-- 0.075 for 320x240, 0.0375 for 640x480 -->
<!-- length override example: -->
<!-- <param name="length_override/3" value="0.1"/> -->
<param name="known_tilt" value="map"/>
<param name="length" value="0.33"/>
</node>
<!-- aruco_map: estimate aruco map pose -->
<node name="aruco_map" pkg="nodelet" type="nodelet" if="$(eval aruco_map and not disable)" args="load aruco_pose/aruco_map main_camera_nodelet_manager" output="screen" clear_params="true" respawn="true">
<node name="aruco_map" pkg="nodelet" type="nodelet" if="$(arg aruco_map)" args="load aruco_pose/aruco_map nodelet_manager" output="screen" clear_params="true">
<remap from="image_raw" to="main_camera/image_raw"/>
<remap from="camera_info" to="main_camera/camera_info"/>
<remap from="markers" to="aruco_detect/markers"/>
<param name="map" value="$(find aruco_pose)/map/$(arg map)"/>
<param name="known_vertical" value="map" if="$(eval placement == 'floor' or placement == 'ceiling')"/>
<param name="flip_vertical" value="true" if="$(eval placement == 'ceiling')"/>
<param name="map" value="$(find aruco_pose)/map/map.txt"/>
<param name="known_tilt" value="map"/>
<param name="image_axis" value="true"/>
<param name="frame_id" value="aruco_map_detected" if="$(arg aruco_vpe)"/>
<param name="frame_id" value="aruco_map" unless="$(arg aruco_vpe)"/>
@@ -47,11 +32,11 @@
</node>
<!-- vpe publisher from aruco markers -->
<node name="vpe_publisher" pkg="clover" type="vpe_publisher" if="$(eval aruco_vpe or force_init)" output="screen" clear_params="true">
<remap from="~pose_cov" to="aruco_map/pose" if="$(arg aruco_vpe)"/>
<node name="vpe_publisher" pkg="clover" type="vpe_publisher" if="$(arg aruco_vpe)" output="screen" clear_params="true">
<remap from="~pose_cov" to="aruco_map/pose"/>
<remap from="~vpe" to="mavros/vision_pose/pose"/>
<param name="frame_id" value="aruco_map_detected" if="$(arg aruco_vpe)"/>
<param name="force_init" value="$(arg force_init)"/>
<param name="frame_id" value="aruco_map_detected"/>
<param name="publish_zero" value="true"/>
<param name="offset_frame_id" value="aruco_map"/>
</node>
</launch>

47
clover/launch/clover.launch
View File

@@ -1,7 +1,6 @@
<launch>
<arg name="fcu_conn" default="usb"/>
<arg name="fcu_ip" default="127.0.0.1"/>
<arg name="fcu_sys_id" default="1"/>
<arg name="gcs_bridge" default="tcp"/>
<arg name="web_video_server" default="true"/>
<arg name="rosbridge" default="true"/>
@@ -10,11 +9,8 @@
<arg name="aruco" default="false"/>
<arg name="rangefinder_vl53l1x" default="true"/>
<arg name="led" default="true"/>
<arg name="blocks" default="false"/>
<arg name="rc" default="false"/>
<arg name="force_init" default="true"/> <!-- force estimator to init by publishing zero pose -->
<arg name="simulator" default="false"/> <!-- flag that we are operating on a simulated drone -->
<arg name="rc" default="true"/>
<arg name="shell" default="true"/>
<!-- log formatting -->
<env name="ROSCONSOLE_FORMAT" value="[${severity}] [${time}]: ${logger}: ${message}"/>
@@ -23,7 +19,6 @@
<include file="$(find clover)/launch/mavros.launch">
<arg name="fcu_conn" value="$(arg fcu_conn)"/>
<arg name="fcu_ip" value="$(arg fcu_ip)"/>
<arg name="fcu_sys_id" value="$(arg fcu_sys_id)"/>
<arg name="gcs_bridge" value="$(arg gcs_bridge)"/>
</include>
@@ -34,30 +29,32 @@
</node>
<!-- aruco markers -->
<include file="$(find clover)/launch/aruco.launch" if="$(eval aruco or force_init)">
<arg name="force_init" value="$(arg force_init)"/>
<arg name="disable" value="$(eval not aruco)"/>
</include>
<include file="$(find clover)/launch/aruco.launch" if="$(arg aruco)"/>
<!-- optical flow -->
<node pkg="nodelet" type="nodelet" name="optical_flow" args="load clover/optical_flow main_camera_nodelet_manager" if="$(arg optical_flow)" clear_params="true" output="screen" respawn="true">
<node pkg="nodelet" type="nodelet" name="optical_flow" args="load clover/optical_flow nodelet_manager" if="$(arg optical_flow)" clear_params="true" output="screen">
<remap from="image_raw" to="main_camera/image_raw"/>
<remap from="camera_info" to="main_camera/camera_info"/>
<param name="calc_flow_gyro" value="true"/>
<param name="roi_rad" value="0.8"/>
<param name="disable_on_vpe" value="true"/>
</node>
<!-- main nodelet manager -->
<node pkg="nodelet" type="nodelet" name="nodelet_manager" args="manager" output="screen" clear_params="true">
<param name="num_worker_threads" value="2"/>
</node>
<node pkg="tf2_ros" type="static_transform_publisher" name="map_flipped_frame" args="0 0 0 3.1415926 3.1415926 0 map map_flipped"/>
<!-- simplified offboard control -->
<node name="simple_offboard" pkg="clover" type="simple_offboard" output="screen" clear_params="true">
<param name="reference_frames/main_camera_optical" value="map"/>
<param name="terrain_frame_mode" value="range"/>
<param name="reference_frames/body" value="map"/>
<param name="reference_frames/base_link" value="map"/>
<param name="reference_frames/navigate_target" value="map"/>
</node>
<!-- main camera -->
<include file="$(find clover)/launch/main_camera.launch" if="$(arg main_camera)">
<arg name="simulator" value="$(arg simulator)"/>
</include>
<include file="$(find clover)/launch/main_camera.launch" if="$(arg main_camera)"/>
<!-- rosbridge -->
<include file="$(find rosbridge_server)/launch/rosbridge_websocket.launch" if="$(eval rosbridge or rc)"/>
@@ -66,22 +63,14 @@
<node name="tf2_web_republisher" pkg="tf2_web_republisher" type="tf2_web_republisher" output="screen" if="$(arg rosbridge)"/>
<!-- vl53l1x ToF rangefinder -->
<node name="rangefinder" pkg="vl53l1x" type="vl53l1x_node" output="screen" if="$(eval rangefinder_vl53l1x and not simulator)">
<node name="rangefinder" pkg="vl53l1x" type="vl53l1x_node" output="screen" if="$(arg rangefinder_vl53l1x)">
<param name="frame_id" value="rangefinder"/>
<param name="min_signal" value="0.4"/>
<param name="pass_statuses" type="yaml" value="[0, 6, 7, 11]"/>
</node>
<!-- rangefinder's frame -->
<node pkg="tf2_ros" type="static_transform_publisher" name="rangefinder_frame" args="0 0 -0.05 0 1.5707963268 0 base_link rangefinder" if="$(arg rangefinder_vl53l1x)"/>
<!-- led strip -->
<include file="$(find clover)/launch/led.launch" if="$(arg led)">
<arg name="simulator" value="$(arg simulator)"/>
</include>
<!-- Clover Blocks -->
<node name="clover_blocks" pkg="clover_blocks" type="clover_blocks" output="screen" if="$(arg blocks)"/>
<include file="$(find clover)/launch/led.launch" if="$(arg led)"/>
<!-- rc backend -->
<node name="rc" pkg="clover" type="rc" output="screen" if="$(arg rc)" clear_params="true">
@@ -89,4 +78,6 @@
<param name="use_fake_gcs" value="false"/>
</node>
<!-- Shell access through ROS service -->
<node name="shell" pkg="clover" type="shell" output="screen" if="$(arg shell)"/>
</launch>

17
clover/launch/led.launch
View File

@@ -2,17 +2,13 @@
<arg name="ws281x" default="true"/>
<arg name="led_effect" default="true"/>
<arg name="led_notify" default="true"/>
<arg name="led_count" default="72"/>
<arg name="gpio_pin" default="21"/>
<arg name="simulator" default="false"/>
<!-- For additional help go to https://clover.coex.tech/led -->
<!-- ws281x led strip driver -->
<node pkg="ws281x" name="led" type="ws281x_node" clear_params="true" output="screen" if="$(eval ws281x and not simulator)">
<param name="led_count" value="$(arg led_count)"/>
<param name="gpio_pin" value="$(arg gpio_pin)"/>
<node pkg="ws281x" name="led" type="ws281x_node" clear_params="true" output="screen" if="$(arg ws281x)">
<param name="led_count" value="58"/>
<param name="gpio_pin" value="21"/>
<param name="brightness" value="64"/>
<param name="strip_type" value="WS2811_STRIP_GRB"/>
<param name="target_frequency" value="800000"/>
@@ -21,8 +17,7 @@
</node>
<!-- high level led effects control, events notification with leds -->
<node pkg="clover" name="led_effect" type="led" clear_params="true" output="screen" if="$(arg led_effect)">
<param name="led" value="led"/>
<node pkg="clover" name="led_effect" type="led" ns="led" clear_params="true" output="screen" if="$(arg led_effect)">
<param name="blink_rate" value="2"/>
<param name="fade_period" value="0.5"/>
<param name="rainbow_period" value="5"/>
@@ -36,8 +31,8 @@
altctl: { r: 255, g: 255, b: 40 }
posctl: { r: 50, g: 100, b: 220 }
offboard: { r: 220, g: 20, b: 250 }
low_battery: { threshold: 3.6, effect: blink_fast, r: 255, g: 0, b: 0 }
error: { effect: flash, r: 255, g: 0, b: 0, ignore: [ "[lpe] vision position timeout" ]}
low_battery: { threshold: 3.7, effect: blink_fast, r: 255, g: 0, b: 0 }
error: { effect: flash, r: 255, g: 0, b: 0 }
</rosparam>
</node>
</launch>

62
clover/launch/main_camera.launch
View File

@@ -1,79 +1,37 @@
<launch>
<!-- article about camera setup: https://clover.coex.tech/camera_setup -->
<!-- article about camera setup: https://clever.coex.tech/camera_frame -->
<arg name="direction_z" default="down"/> <!-- direction the camera points: down, up -->
<arg name="direction_y" default="backward"/> <!-- direction the camera cable points: backward, forward -->
<arg name="type" default="libcamera"/> <!-- camera interface: libcamera, v4l2 -->
<arg name="camera_id" default="0"/> <!-- libcamera camera id -->
<arg name="device" default="/dev/video0"/> <!-- v4l2 device path -->
<arg name="width" default="320"/>
<arg name="height" default="240"/>
<arg name="fps" default="40"/>
<arg name="throttled_topic" default="true"/> <!-- enable throttled image topic -->
<arg name="throttled_topic_rate" default="5.0"/> <!-- throttled image topic rate -->
<arg name="rectify" default="false"/> <!-- enable rectification -->
<arg name="simulator" default="false"/>
<node if="$(eval direction_z == 'down' and direction_y == 'backward')" pkg="tf2_ros" type="static_transform_publisher" name="main_camera_frame" args="0.05 0 -0.07 -1.5707963 0 3.1415926 base_link main_camera_optical"/>
<node if="$(eval direction_z == 'down' and direction_y == 'forward')" pkg="tf2_ros" type="static_transform_publisher" name="main_camera_frame" args="0.05 0 -0.07 1.5707963 0 3.1415926 base_link main_camera_optical"/>
<node if="$(eval direction_z == 'up' and direction_y == 'backward')" pkg="tf2_ros" type="static_transform_publisher" name="main_camera_frame" args="0.05 0 0.07 1.5707963 0 0 base_link main_camera_optical"/>
<node if="$(eval direction_z == 'up' and direction_y == 'forward')" pkg="tf2_ros" type="static_transform_publisher" name="main_camera_frame" args="0.05 0 0.07 -1.5707963 0 0 base_link main_camera_optical"/>
<node if="$(eval direction_z == 'forward')" pkg="tf2_ros" type="static_transform_publisher" name="main_camera_frame" args="0.03 0 0.05 -1.5707963 0 -1.5707963 base_link main_camera_optical"/>
<node if="$(eval direction_z == 'backward')" pkg="tf2_ros" type="static_transform_publisher" name="main_camera_frame" args="-0.03 0 0.05 1.5707963 0 -1.5707963 base_link main_camera_optical"/>
<!-- Template for custom camera orientation -->
<!-- Camera position and orientation are represented by base_link -> main_camera_optical transform -->
<!-- static_transform_publisher arguments: x y z yaw pitch roll frame_id child_frame_id -->
<!-- <node pkg="tf2_ros" type="static_transform_publisher" name="main_camera_frame" args="0.05 0 -0.07 -1.5707963 0 3.1415926 base_link main_camera_optical"/> -->
<!-- camera nodelet manager -->
<node pkg="nodelet" type="nodelet" name="main_camera_nodelet_manager" args="manager" output="screen" clear_params="true" respawn="true">
<param name="num_worker_threads" value="2"/>
</node>
<!-- camera node using libcamera -->
<node pkg="nodelet" type="nodelet" name="main_camera" args="load libcamera_ros/LibcameraRos main_camera_nodelet_manager" output="screen" clear_params="true" if="$(eval not simulator and type == 'libcamera')" respawn="true">
<param name="camera_name" value=""/>
<param name="camera_id" value="$(arg camera_id)"/>
<!-- camera node -->
<node pkg="nodelet" type="nodelet" name="main_camera" args="load cv_camera/CvCameraNodelet nodelet_manager" clear_params="true">
<param name="device_path" value="/dev/video0"/> <!-- v4l2 device -->
<param name="frame_id" value="main_camera_optical"/>
<param name="calib_url" type="string" value="file://$(find clover)/camera_info/fisheye_cam_$(arg width)x$(arg height).yaml"/>
<param name="stream_role" value="still"/>
<param name="pixel_format" value="RGB888"/>
<param name="use_ros_time" value="true"/>
<param name="resolution/width" value="$(arg width)"/>
<param name="resolution/height" value="$(arg height)"/>
<!-- see: https://github.com/ctu-mrs/libcamera_ros/blob/b3645/config/param.yaml#L19 -->
<param name="control/fps" value="$(arg fps)"/>
</node>
<!-- old camera node for v4l2 (cv_camera) -->
<node pkg="nodelet" type="nodelet" name="main_camera" args="load cv_camera/CvCameraNodelet main_camera_nodelet_manager" launch-prefix="rosrun clover waitfile $(arg device)" clear_params="true" if="$(eval not simulator and type == 'v4l2')" respawn="true">
<param name="device_path" value="$(arg device)"/>
<param name="frame_id" value="main_camera_optical"/>
<param name="camera_info_url" value="file://$(find clover)/camera_info/fisheye_cam.yaml"/>
<param name="camera_info_url" value="file://$(find clover)/camera_info/fisheye_cam_320.yaml"/>
<param name="rate" value="100"/> <!-- poll rate -->
<param name="cv_cap_prop_fps" value="$(arg fps)"/> <!-- camera FPS -->
<param name="cv_cap_prop_fps" value="40"/> <!-- camera FPS -->
<param name="capture_delay" value="0.02"/> <!-- approximate delay on frame retrieving -->
<param name="rescale_camera_info" value="true"/> <!-- automatically rescale camera calibration info -->
<param name="image_width" value="$(arg width)"/>
<param name="image_height" value="$(arg height)"/>
<!-- camera resolution, NOTE: camera_info file should match it -->
<param name="image_width" value="320"/>
<param name="image_height" value="240"/>
</node>
<!-- camera visualization markers -->
<node pkg="clover" type="camera_markers" ns="main_camera" name="main_camera_markers">
<param name="scale" value="3.0"/>
</node>
<!-- image topic throttled -->
<node pkg="topic_tools" name="main_camera_throttle" type="throttle" ns="main_camera"
args="messages image_raw $(arg throttled_topic_rate) image_raw_throttled" if="$(arg throttled_topic)"/>
<!-- rectified image topic -->
<node pkg="nodelet" type="nodelet" name="rectify" args="load image_proc/rectify main_camera_nodelet_manager" if="$(arg rectify)">
<remap from="image_mono" to="main_camera/image_raw"/>
<remap from="camera_info" to="main_camera/camera_info"/>
<remap from="image_rect" to="main_camera/image_rect"/>
</node>
</launch>

21
clover/launch/mavros.launch
View File

@@ -1,21 +1,17 @@
<launch>
<arg name="fcu_conn" default="usb"/> <!-- options: usb, uart, tcp, udp, sitl, hitl -->
<arg name="fcu_conn" default="usb"/> <!-- options: usb, uart, tcp, udp, sitl -->
<arg name="fcu_ip" default="127.0.0.1"/>
<arg name="fcu_sys_id" default="1"/>
<arg name="gcs_bridge" default="tcp"/>
<arg name="viz" default="true"/>
<arg name="respawn" default="true"/>
<arg name="distance_sensor_remap" default="rangefinder/range"/>
<arg name="usb_device" default="/dev/px4fmu"/>
<arg name="prefix" default="" unless="$(eval fcu_conn == 'usb')"/>
<arg name="prefix" default="rosrun clover waitfile $(arg usb_device)" if="$(eval fcu_conn == 'usb')"/>
<node pkg="mavros" type="mavros_node" name="mavros" launch-prefix="$(arg prefix)" required="false" clear_params="true" respawn="$(arg respawn)" unless="$(eval fcu_conn == 'none')" respawn_delay="1" output="screen">
<node pkg="mavros" type="mavros_node" name="mavros" required="false" clear_params="true" respawn="$(arg respawn)" unless="$(eval fcu_conn == 'none')" respawn_delay="1" output="screen">
<!-- UART connection -->
<param name="fcu_url" value="/dev/ttyAMA0:921600" if="$(eval fcu_conn is None or fcu_conn == 'uart')"/>
<!-- USB connection -->
<param name="fcu_url" value="$(arg usb_device)" if="$(eval fcu_conn == 'usb')"/>
<param name="fcu_url" value="/dev/px4fmu" if="$(eval fcu_conn == 'usb')"/>
<!-- sitl before PX4 1.9.0 -->
<param name="fcu_url" value="udp://@$(arg fcu_ip):14557" if="$(eval fcu_conn == 'udp')"/>
@@ -23,12 +19,6 @@
<!-- sitl since PX4 1.9.0 -->
<param name="fcu_url" value="udp://@$(arg fcu_ip):14580" if="$(eval fcu_conn == 'sitl')"/>
<!-- hitl connection (to gazebo_mavlink_interface plugin) -->
<param name="fcu_url" value="udp://$(arg fcu_ip):14540@" if="$(eval fcu_conn == 'hitl')"/>
<!-- set target_system_id -->
<param name="target_system_id" value="$(arg fcu_sys_id)" />
<!-- gcs bridge -->
<param name="gcs_url" value="tcp-l://0.0.0.0:5760" if="$(eval gcs_bridge == 'tcp')"/>
<param name="gcs_url" value="udp://0.0.0.0:14550@14550" if="$(eval gcs_bridge == 'udp')"/>
@@ -42,7 +32,7 @@
<rosparam command="load" file="$(find clover)/launch/mavros_config.yaml"/>
<!-- remap rangefinder -->
<remap from="mavros/distance_sensor/rangefinder_sub" to="$(arg distance_sensor_remap)" if="$(eval bool(distance_sensor_remap))"/>
<remap from="mavros/distance_sensor/rangefinder_sub" to="rangefinder/range"/>
<rosparam param="plugin_whitelist">
- altitude
@@ -77,6 +67,9 @@
covariance: 1 # cm
</rosparam>
<!-- Rangefinders frame -->
<node pkg="tf2_ros" type="static_transform_publisher" name="rangefinder_frame" args="0 0 -0.05 0 1.5707963268 0 base_link rangefinder"/>
<!-- Copter visualization -->
<node name="visualization" pkg="mavros_extras" type="visualization" if="$(arg viz)">
<remap to="mavros/local_position/pose" from="local_position"/>

10
clover/launch/mavros_config.yaml
View File

@@ -1,11 +1,11 @@
# Config file for mavros
# Based on https://raw.githubusercontent.com/mavlink/mavros/master/mavros/launch/px4_config.yaml
startup_px4_usb_quirk: false
startup_px4_usb_quirk: true
conn:
heartbeat_rate: 1.0 # send heartbeat rate in Hertz
timeout: 10.0 # heartbeat timeout in seconds
heartbeat_rate: 1.0 # send hertbeat rate in Hertz
timeout: 10.0 # hertbeat timeout in seconds
timesync_rate: 10.0 # TIMESYNC rate in Hertz (feature disabled if 0.0)
system_time_rate: 1.0 # send system time to FCU rate in Hertz (disabled if 0.0)
@@ -13,7 +13,6 @@ time:
time_ref_source: "fcu" # time_reference source
timesync_mode: MAVLINK
timesync_avg_alpha: 0.6 # timesync averaging factor
publish_sim_time: false # don't publish /clock
global_position:
frame_id: "map" # origin frame
@@ -78,9 +77,6 @@ distance_sensor:
field_of_view: 0.5
rangefinder_sub:
subscriber: true
id: 1
orientation: PITCH_270
covariance: 1 # cm
# fake_gps
fake_gps:

4
clover/launch/simulator.launch
View File

@@ -1,4 +0,0 @@
<launch>
<!-- shortcut for running the simulation (`roslaunch clover simulator.launch`) -->
<include file="$(find clover_simulation)/launch/simulator.launch"/>
</launch>

19
clover/launch/sitl.launch Normal file
View File

@@ -0,0 +1,19 @@
<launch>
<!-- clover configuration for testing in sitl -->
<arg name="ip" default="127.0.0.1"/>
<arg name="rosbridge" default="false"/>
<include file="$(find clover)/launch/clover.launch">
<arg name="fcu_conn" value="udp"/>
<arg name="fcu_ip" value="$(arg ip)"/>
<arg name="gcs_bridge" value="false"/>
<arg name="optical_flow" value="false"/>
<arg name="web_video_server" default="false"/>
<arg name="main_camera" default="false"/>
<arg name="rosbridge" value="$(arg rosbridge)"/>
<arg name="aruco" default="false"/>
<arg name="rangefinder_vl53l1x" default="false"/>
<arg name="led" default="false"/>
<arg name="rc" default="false"/>
</include>
</launch>

38
clover/msg/State.msg
View File

@@ -1,38 +0,0 @@
uint8 MODE_NONE = 0
uint8 MODE_NAVIGATE = 1
uint8 MODE_NAVIGATE_GLOBAL = 2
uint8 MODE_POSITION = 3
uint8 MODE_VELOCITY = 4
uint8 MODE_ATTITUDE = 5
uint8 MODE_RATES = 6
uint8 YAW_MODE_YAW = 0
uint8 YAW_MODE_YAW_RATE = 1
uint8 YAW_MODE_YAW_TOWARDS = 2
# type of offboard control
uint8 mode
uint8 yaw_mode
# targets
float32 x
float32 y
float32 z
float32 speed
float32 lat
float32 lon
float32 vx
float32 vy
float32 vz
float32 roll
float32 pitch
float32 yaw
float32 roll_rate
float32 pitch_rate
float32 yaw_rate
float32 thrust
# frames of reference
string xy_frame_id
string z_frame_id
string yaw_frame_id

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