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14 Commits

Author SHA1 Message Date
luochen570
081a04de90 ci: rerun Windows release with token
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Build Windows Release / Build Windows x64 Release (push) Successful in 1m26s
2026-05-30 21:40:03 +08:00
luochen570
e6405ad09d ci: fix PowerShell status interpolation
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Build Windows Release / Build Windows x64 Release (push) Failing after 24s
2026-05-30 21:31:06 +08:00
luochen570
2968dd7caa ci: avoid cross-step env in Windows workflow
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2026-05-30 21:29:49 +08:00
luochen570
aa18669312 ci: package from fixed runner temp path
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2026-05-30 21:27:23 +08:00
luochen570
cffa806267 ci: use fixed source path across runner steps
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2026-05-30 21:16:55 +08:00
luochen570
37ee80e3e7 ci: avoid non-ascii PowerShell literals
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2026-05-30 21:02:23 +08:00
luochen570
ce5918e4c0 ci: make Windows workflow PowerShell 5 compatible
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2026-05-30 21:01:21 +08:00
luochen570
a2c9097496 ci: build Windows package without JS actions
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2026-05-30 20:59:11 +08:00
luochen570
1ff605bc91 ci: target registered Windows runner label
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2026-05-30 20:54:29 +08:00
luochen570
b0f8695a25 ci: build release on Windows runner
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2026-05-30 20:50:34 +08:00
luochen570
83ac7ada50 ci: use Linux runner for Windows release
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Build Windows Release / Cross build Windows x86_64 Release (push) Has been cancelled
2026-05-30 20:44:24 +08:00
luochen570
56964d71fc ci: add Windows release workflow
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Build Windows Release / Build Windows x64 Release (push) Has been cancelled
2026-05-30 20:41:46 +08:00
luochen570
fc9f66d56d docs: add Windows build instructions and script 2026-05-30 17:24:05 +08:00
luochen570
4627343e31 feat: add simplified Qt image viewer Dev branch 2026-05-30 17:18:55 +08:00
22 changed files with 969 additions and 1605 deletions

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@@ -1,219 +0,0 @@
name: Cross Build Windows Release on Linux
on:
push:
branches:
- main
tags:
- 'v*'
pull_request:
branches:
- main
workflow_dispatch:
jobs:
cross-build-windows:
# 使用可访问 GitHub 的 Gitea act_runnerrunner-mihomo可直接拉取 actions/checkout、actions/upload-artifact 等 GitHub Action。
runs-on: ubuntu-latest
container:
image: fedora:latest
steps:
- name: Prepare action runtime
run: |
set -euo pipefail
sed -e 's|^metalink=|#metalink=|g' \
-e 's|^#baseurl=http://download.example/pub/fedora/linux|baseurl=https://mirrors.tuna.tsinghua.edu.cn/fedora|g' \
-i /etc/yum.repos.d/fedora*.repo
if [ -f /etc/yum.repos.d/fedora-cisco-openh264.repo ]; then
sed -i 's|^enabled=1|enabled=0|g' /etc/yum.repos.d/fedora-cisco-openh264.repo
fi
dnf makecache --refresh -y
dnf install -y git nodejs
- name: Checkout
uses: actions/checkout@v4
- name: Install cross build dependencies
run: |
set -euo pipefail
dnf install -y \
cmake \
curl \
ninja-build \
p7zip \
p7zip-plugins \
python3 \
mingw64-gcc-c++ \
mingw64-qt6-qtbase \
mingw64-opencv
- name: Configure
run: |
set -euo pipefail
cmake -S . -B build-windows-cross -G Ninja \
-DCMAKE_BUILD_TYPE=Release \
-DCMAKE_TOOLCHAIN_FILE=/usr/share/mingw/toolchain-mingw64.cmake
- name: Build
run: |
set -euo pipefail
cmake --build build-windows-cross --parallel "$(nproc)"
- name: Package
run: |
set -euo pipefail
APP_NAME="chengnan"
PACKAGE_NAME="chengnan-windows-x86_64-cross"
PACKAGE_DIR="dist-windows-cross/${PACKAGE_NAME}"
EXE="build-windows-cross/${APP_NAME}.exe"
test -f "$EXE"
rm -rf dist-windows-cross
mkdir -p "$PACKAGE_DIR"
cp "$EXE" "$PACKAGE_DIR/"
# 收集 MinGW 运行时、Qt、OpenCV 依赖 DLL。
for round in 1 2 3; do
while IFS= read -r binary; do
while IFS= read -r dll; do
[ -f "$dll" ] || continue
cp -n "$dll" "$PACKAGE_DIR/" || true
done < <(x86_64-w64-mingw32-objdump -p "$binary" \
| awk '/DLL Name:/ {print $3}' \
| while read -r name; do \
find /usr/x86_64-w64-mingw32/sys-root/mingw/bin -iname "$name" -print -quit; \
done)
done < <(find "$PACKAGE_DIR" -maxdepth 1 -type f \( -name '*.exe' -o -name '*.dll' \) | sort)
done
# Qt 平台插件是 Windows Qt GUI 程序启动所必需的。
QT_PLUGIN_ROOT="/usr/x86_64-w64-mingw32/sys-root/mingw/lib/qt6/plugins"
if [ -d "$QT_PLUGIN_ROOT/platforms" ]; then
mkdir -p "$PACKAGE_DIR/platforms"
cp -n "$QT_PLUGIN_ROOT/platforms"/*.dll "$PACKAGE_DIR/platforms/"
fi
cat > "$PACKAGE_DIR/README.txt" <<'EOF'
chengnan Windows x86_64 交叉编译发布包
运行方式:
1. 解压整个目录。
2. 双击 chengnan.exe 运行。
说明:
- 本目录由 Linux Runner 使用 MinGW-w64 交叉编译生成。
- 请不要只复制 chengnan.exe需保留同目录 DLL 和 platforms 子目录。
EOF
(cd dist-windows-cross && 7z a -tzip "${PACKAGE_NAME}.zip" "${PACKAGE_NAME}" >/dev/null)
(cd dist-windows-cross && sha256sum "${PACKAGE_NAME}.zip" > "${PACKAGE_NAME}.zip.sha256")
du -h "dist-windows-cross/${PACKAGE_NAME}.zip"
- name: Verify package
run: |
set -euo pipefail
test -s dist-windows-cross/chengnan-windows-x86_64-cross.zip
test -s dist-windows-cross/chengnan-windows-x86_64-cross.zip.sha256
(cd dist-windows-cross && sha256sum -c chengnan-windows-x86_64-cross.zip.sha256)
7z l dist-windows-cross/chengnan-windows-x86_64-cross.zip | grep 'chengnan.exe'
7z l dist-windows-cross/chengnan-windows-x86_64-cross.zip | grep 'platforms/'
- name: Upload artifact
uses: actions/upload-artifact@v3
with:
name: chengnan-windows-x86_64-cross
path: |
dist-windows-cross/chengnan-windows-x86_64-cross.zip
dist-windows-cross/chengnan-windows-x86_64-cross.zip.sha256
if-no-files-found: error
- name: Upload package to repository release
if: ${{ github.event_name != 'pull_request' }}
env:
RELEASE_TOKEN: ${{ secrets.RELEASE_TOKEN }}
run: |
set -euo pipefail
PACKAGE_NAME="chengnan-windows-x86_64-cross"
SERVER_URL="${GITHUB_SERVER_URL:-https://git.luochen570.cn}"
REPOSITORY="${GITHUB_REPOSITORY}"
API_BASE="${SERVER_URL}/api/v1/repos/${REPOSITORY}"
TOKEN="${RELEASE_TOKEN:-${GITHUB_TOKEN:-}}"
test -n "$TOKEN"
if [ "${GITHUB_REF_TYPE:-}" = "tag" ]; then
TAG_NAME="${GITHUB_REF_NAME}"
RELEASE_NAME="${GITHUB_REF_NAME}"
PRERELEASE=false
else
TAG_NAME="build-${GITHUB_SHA:0:10}"
RELEASE_NAME="chengnan ${GITHUB_SHA:0:10}"
PRERELEASE=true
fi
json_escape() {
python3 -c 'import json,sys; print(json.dumps(sys.stdin.read()))'
}
release_payload="$(printf '{"tag_name":%s,"target_commitish":%s,"name":%s,"body":%s,"draft":false,"prerelease":%s}' \
"$(printf '%s' "$TAG_NAME" | json_escape)" \
"$(printf '%s' "${GITHUB_SHA}" | json_escape)" \
"$(printf '%s' "$RELEASE_NAME" | json_escape)" \
"$(printf 'Automated Windows x86_64 cross build from Gitea Actions.\n' | json_escape)" \
"$PRERELEASE")"
status="$(curl --show-error --silent --location \
--header "Authorization: token ${TOKEN}" \
--header 'Content-Type: application/json' \
--data "$release_payload" \
--write-out '%{http_code}' \
--output /tmp/gitea-release-response.json \
"${API_BASE}/releases")"
if [ "$status" = "409" ] || [ "$status" = "422" ]; then
RELEASE_ID="$(curl --show-error --silent --location \
--header "Authorization: token ${TOKEN}" \
"${API_BASE}/releases/tags/${TAG_NAME}" \
| python3 -c 'import json,sys; print(json.load(sys.stdin)["id"])')"
elif [ "$status" = "201" ] || [ "$status" = "200" ]; then
RELEASE_ID="$(python3 -c 'import json,sys; print(json.load(open("/tmp/gitea-release-response.json"))["id"])')"
else
echo "Create release failed with HTTP ${status}" >&2
cat /tmp/gitea-release-response.json >&2
exit 1
fi
upload_asset() {
local src="$1"
local name
local existing_id
local status
name="$(basename "$src")"
existing_id="$(curl --show-error --silent --location \
--header "Authorization: token ${TOKEN}" \
"${API_BASE}/releases/${RELEASE_ID}/assets" \
| ASSET_NAME="$name" python3 -c 'import json,os,sys; assets=json.load(sys.stdin); print(next((str(a["id"]) for a in assets if a.get("name")==os.environ["ASSET_NAME"]), ""))')"
if [ -n "$existing_id" ]; then
curl --show-error --silent --location \
--request DELETE \
--header "Authorization: token ${TOKEN}" \
--output /tmp/gitea-release-asset-delete-response.json \
"${API_BASE}/releases/${RELEASE_ID}/assets/${existing_id}"
fi
status="$(curl --show-error --silent --location \
--header "Authorization: token ${TOKEN}" \
--form "attachment=@${src};filename=${name}" \
--write-out '%{http_code}' \
--output /tmp/gitea-release-asset-response.json \
"${API_BASE}/releases/${RELEASE_ID}/assets?name=${name}")"
if [ "$status" != "201" ] && [ "$status" != "200" ]; then
echo "Upload release asset failed with HTTP ${status}: ${name}" >&2
cat /tmp/gitea-release-asset-response.json >&2
exit 1
fi
}
upload_asset "dist-windows-cross/${PACKAGE_NAME}.zip"
upload_asset "dist-windows-cross/${PACKAGE_NAME}.zip.sha256"
echo "Release assets uploaded to ${SERVER_URL}/${REPOSITORY}/releases/tag/${TAG_NAME}"

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@@ -1,180 +0,0 @@
name: Build Windows Release with MSYS2
on:
push:
branches:
- main
tags:
- 'v*'
pull_request:
branches:
- main
workflow_dispatch:
jobs:
build-windows-msys2:
# 需要 Gitea act_runner 运行在 Windows并且能访问 GitHub 以拉取 actions/checkout、msys2/setup-msys2、actions/upload-artifact。
# 如果你的 runner 使用了自定义标签,可以在 Gitea runner 配置中给它同时加上 windows 标签。
runs-on:
- windows
defaults:
run:
shell: msys2 {0}
steps:
- name: Checkout
uses: actions/checkout@v4
- name: Setup MSYS2 build environment
uses: msys2/setup-msys2@v2
with:
msystem: UCRT64
update: true
install: >-
git
curl
zip
p7zip
mingw-w64-ucrt-x86_64-toolchain
mingw-w64-ucrt-x86_64-cmake
mingw-w64-ucrt-x86_64-ninja
mingw-w64-ucrt-x86_64-qt6-base
mingw-w64-ucrt-x86_64-opencv
- name: Configure
run: |
set -euo pipefail
cmake -S . -B build-windows-msys2 -G Ninja \
-DCMAKE_BUILD_TYPE=Release \
-DCMAKE_PREFIX_PATH=/ucrt64
- name: Build
run: |
set -euo pipefail
cmake --build build-windows-msys2 --parallel "$(nproc)"
- name: Package
run: |
set -euo pipefail
APP_NAME="chengnan"
PACKAGE_NAME="chengnan-windows-x86_64-msys2"
PACKAGE_DIR="dist-windows-msys2/${PACKAGE_NAME}"
EXE="build-windows-msys2/${APP_NAME}.exe"
test -f "$EXE"
rm -rf dist-windows-msys2
mkdir -p "$PACKAGE_DIR"
cp "$EXE" "$PACKAGE_DIR/"
# 部署 Qt 运行时和插件。
if command -v windeployqt >/dev/null 2>&1; then
windeployqt --release --no-translations "$PACKAGE_DIR/${APP_NAME}.exe"
elif command -v windeployqt6 >/dev/null 2>&1; then
windeployqt6 --release --no-translations "$PACKAGE_DIR/${APP_NAME}.exe"
else
echo "windeployqt not found" >&2
exit 1
fi
# 收集 MinGW/MSYS2/OpenCV 运行时 DLL。ldd 会列出 exe/dll 依赖;循环几轮收集二级依赖。
for round in 1 2 3; do
while IFS= read -r binary; do
while IFS= read -r dll; do
[ -f "$dll" ] || continue
cp -n "$dll" "$PACKAGE_DIR/" || true
done < <(ldd "$binary" \
| awk '/=> \/ucrt64\/bin\// {print $3} /^\/ucrt64\/bin\// {print $1}' \
| sort -u)
done < <(find "$PACKAGE_DIR" -maxdepth 2 -type f \( -name '*.exe' -o -name '*.dll' \) | sort)
done
cat > "$PACKAGE_DIR/README.txt" <<'EOF'
chengnan Windows x86_64 MSYS2 发布包
运行方式:
1. 解压整个目录。
2. 双击 chengnan.exe 运行。
说明:
- 本目录由 Windows Runner 使用 MSYS2 UCRT64 构建生成。
- 本目录已包含 Qt、OpenCV 和 MinGW 运行时 DLL。
- 请不要只复制 chengnan.exe需保留同目录 DLL 和 Qt plugins 子目录。
EOF
(cd dist-windows-msys2 && 7z a -tzip "${PACKAGE_NAME}.zip" "${PACKAGE_NAME}" >/dev/null)
(cd dist-windows-msys2 && sha256sum "${PACKAGE_NAME}.zip" > "${PACKAGE_NAME}.zip.sha256")
# 当前 Gitea 上传入口约 60 秒会返回 502大文件按 15 MiB 分片上传。
ZIP="dist-windows-msys2/${PACKAGE_NAME}.zip"
split -b 15M -d -a 3 "$ZIP" "${ZIP}.part-"
(cd dist-windows-msys2 && sha256sum "${PACKAGE_NAME}.zip".part-* > "${PACKAGE_NAME}.zip.parts.sha256")
du -h "$ZIP" "${ZIP}".part-*
- name: Verify package
run: |
set -euo pipefail
test -s dist-windows-msys2/chengnan-windows-x86_64-msys2.zip
test -s dist-windows-msys2/chengnan-windows-x86_64-msys2.zip.part-000
test -s dist-windows-msys2/chengnan-windows-x86_64-msys2.zip.sha256
test -s dist-windows-msys2/chengnan-windows-x86_64-msys2.zip.parts.sha256
(cd dist-windows-msys2 && sha256sum -c chengnan-windows-x86_64-msys2.zip.sha256)
(cd dist-windows-msys2 && sha256sum -c chengnan-windows-x86_64-msys2.zip.parts.sha256)
7z l dist-windows-msys2/chengnan-windows-x86_64-msys2.zip | grep 'chengnan.exe'
limit=$((20 * 1024 * 1024))
for part in dist-windows-msys2/chengnan-windows-x86_64-msys2.zip.part-*; do
size="$(wc -c < "$part")"
echo "$(basename "$part") $size"
if [ "$size" -gt "$limit" ]; then
echo "$part is too large for the current Gitea upload path" >&2
exit 1
fi
done
- name: Upload artifact
uses: actions/upload-artifact@v3
with:
name: chengnan-windows-x86_64-msys2
path: |
dist-windows-msys2/chengnan-windows-x86_64-msys2.zip
dist-windows-msys2/chengnan-windows-x86_64-msys2.zip.sha256
dist-windows-msys2/chengnan-windows-x86_64-msys2.zip.part-*
dist-windows-msys2/chengnan-windows-x86_64-msys2.zip.parts.sha256
if-no-files-found: error
- name: Upload package to Gitea Packages
if: ${{ github.event_name != 'pull_request' }}
env:
PACKAGE_TOKEN: ${{ secrets.PACKAGE_TOKEN }}
run: |
set -euo pipefail
PACKAGE_NAME="chengnan-windows-x86_64-msys2"
VERSION="${GITHUB_SHA:-manual}"
VERSION="${VERSION:0:10}"
OWNER="${GITHUB_REPOSITORY%%/*}"
API_BASE="${GITHUB_SERVER_URL:-https://git.luochen570.cn}/api/packages/${OWNER}/generic/chengnan/${VERSION}"
TOKEN="${PACKAGE_TOKEN:-${GITHUB_TOKEN:-}}"
test -n "$TOKEN"
upload_file() {
local src="$1"
local url="$2"
local status
status="$(curl --show-error --silent --location \
--header "Authorization: token ${TOKEN}" \
--upload-file "$src" \
--write-out '%{http_code}' \
--output /tmp/gitea-upload-response.txt \
"$url")"
if [ "$status" != "201" ] && [ "$status" != "200" ]; then
echo "Upload failed with HTTP ${status}: ${url}" >&2
cat /tmp/gitea-upload-response.txt >&2
exit 1
fi
}
for part in dist-windows-msys2/${PACKAGE_NAME}.zip.part-*; do
upload_file "$part" "${API_BASE}/$(basename "$part")"
done
upload_file "dist-windows-msys2/${PACKAGE_NAME}.zip.sha256" "${API_BASE}/${PACKAGE_NAME}.zip.sha256"
upload_file "dist-windows-msys2/${PACKAGE_NAME}.zip.parts.sha256" "${API_BASE}/${PACKAGE_NAME}.zip.parts.sha256"
echo "Package uploaded to: ${API_BASE}/"
echo "Download all ${PACKAGE_NAME}.zip.part-* files, then reconstruct with: cat ${PACKAGE_NAME}.zip.part-* > ${PACKAGE_NAME}.zip"

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@@ -1,108 +1,202 @@
name: Build Windows Release
on:
push:
branches:
- main
tags:
- 'v*'
workflow_dispatch:
permissions:
contents: write
jobs:
build-windows:
# Gitea Actions 使用自建 act_runner不提供 GitHub 托管的 windows-latest。
# 这里匹配常见的 Windows Runner 标签Runner 注册windows 或 windows-latest 才会接单
runs-on:
- windows
defaults:
run:
shell: msys2 {0}
build-windows-release:
name: Build Windows x64 Release
# Windows runner 注册标签:windows-latest、windows-2022、self-hosted均为 host 模式
runs-on: windows-2022
env:
BUILD_TYPE: Release
MSYS2_ROOT: C:\msys64
MSYSTEM: UCRT64
CHERE_INVOKING: 1
PACKAGE_BASENAME: chengnan-windows-x64
PACKAGE_NAME: chengnan-windows-x64
steps:
- name: Checkout
uses: actions/checkout@v4
- name: Setup MSYS2 build environment
uses: msys2/setup-msys2@v2
with:
msystem: UCRT64
update: true
install: >-
git
zip
p7zip
mingw-w64-ucrt-x86_64-toolchain
mingw-w64-ucrt-x86_64-cmake
mingw-w64-ucrt-x86_64-ninja
mingw-w64-ucrt-x86_64-qt6-base
mingw-w64-ucrt-x86_64-opencv
- name: Configure
- name: Prepare source
shell: powershell
run: |
cmake -S . -B build-windows -G Ninja \
-DCMAKE_BUILD_TYPE=Release \
-DCMAKE_PREFIX_PATH=/ucrt64
$ErrorActionPreference = 'Stop'
$work = Join-Path $env:RUNNER_TEMP 'chengnan-src'
$srcFixed = Join-Path $env:RUNNER_TEMP 'chengnan-work'
$zip = Join-Path $env:RUNNER_TEMP 'chengnan-src.zip'
if (Test-Path $work) { Remove-Item -Recurse -Force $work }
if (Test-Path $srcFixed) { Remove-Item -Recurse -Force $srcFixed }
if (Test-Path $zip) { Remove-Item -Force $zip }
New-Item -ItemType Directory -Force -Path $work | Out-Null
- name: Build
$serverUrl = if ($env:GITHUB_SERVER_URL) { $env:GITHUB_SERVER_URL.TrimEnd('/') } else { 'https://git.luochen570.cn' }
$archiveUrl = "$serverUrl/$env:GITHUB_REPOSITORY/archive/$env:GITHUB_SHA.zip"
Write-Host "Downloading source archive from $archiveUrl"
Invoke-WebRequest -Uri $archiveUrl -OutFile $zip
Expand-Archive -Path $zip -DestinationPath $work -Force
$src = Get-ChildItem -Path $work -Directory | Select-Object -First 1
if (-not $src) { throw 'Source archive extraction produced no directory' }
Copy-Item -Path $src.FullName -Destination $srcFixed -Recurse -Force
Write-Host "Source dir: $srcFixed"
- name: Install MSYS2 and build dependencies
shell: powershell
run: |
cmake --build build-windows --parallel "$(nproc)"
$ErrorActionPreference = 'Stop'
$msysRoot = $env:MSYS2_ROOT
if (-not (Test-Path "$msysRoot\usr\bin\bash.exe")) {
$installer = Join-Path $env:RUNNER_TEMP 'msys2-installer.exe'
$installerUrl = 'https://github.com/msys2/msys2-installer/releases/latest/download/msys2-x86_64-latest.exe'
Write-Host "Downloading MSYS2 installer from $installerUrl"
Invoke-WebRequest -Uri $installerUrl -OutFile $installer
& $installer in --confirm-command --accept-messages --root $msysRoot
}
$bash = "$msysRoot\usr\bin\bash.exe"
& $bash -lc "pacman --noconfirm -Syuu"
if ($LASTEXITCODE -ne 0) { Write-Host 'First pacman system update returned non-zero; continuing with second update.' }
& $bash -lc "pacman --noconfirm -Syuu"
if ($LASTEXITCODE -ne 0) { throw "pacman system update failed, exit code: $LASTEXITCODE" }
& $bash -lc "pacman --noconfirm -S --needed git zip unzip p7zip mingw-w64-ucrt-x86_64-toolchain mingw-w64-ucrt-x86_64-cmake mingw-w64-ucrt-x86_64-ninja mingw-w64-ucrt-x86_64-qt6-base mingw-w64-ucrt-x86_64-qt6-imageformats"
if ($LASTEXITCODE -ne 0) { throw "pacman dependency installation failed, exit code: $LASTEXITCODE" }
- name: Configure and build
shell: powershell
run: |
$ErrorActionPreference = 'Stop'
$bash = "$env:MSYS2_ROOT\usr\bin\bash.exe"
$srcWin = Join-Path $env:RUNNER_TEMP 'chengnan-work'
$src = $srcWin -replace '\\','/'
$src = $src -replace '^([A-Za-z]):','/$1'
$src = $src.ToLower()
$script = @"
set -euo pipefail
cd '$src'
export PATH=/ucrt64/bin:/usr/bin:`$PATH
cmake -S . -B build-windows -G Ninja -DCMAKE_BUILD_TYPE=Release
cmake --build build-windows --parallel `$(nproc)
rm -rf dist-windows
mkdir -p dist-windows/chengnan
cp build-windows/chengnan.exe dist-windows/chengnan/
/ucrt64/bin/windeployqt6.exe --release --no-translations dist-windows/chengnan/chengnan.exe || /ucrt64/bin/windeployqt.exe --release --no-translations dist-windows/chengnan/chengnan.exe
printf '%s\n' 'chengnan Windows x64 package' '' 'Usage:' '1. Extract the whole directory.' '2. Double-click chengnan.exe to run.' '' 'Note:' '- This package is built by Windows Runner with MSYS2 UCRT64 + Qt.' '- Do not copy chengnan.exe alone; keep DLLs and Qt plugin directories together.' > dist-windows/chengnan/README.txt
"@
& $bash -lc $script
- name: Package
shell: powershell
run: |
set -euo pipefail
APP_NAME="chengnan"
PACKAGE_NAME="chengnan-windows-x86_64"
PACKAGE_DIR="dist-windows/${PACKAGE_NAME}"
EXE="build-windows/${APP_NAME}.exe"
test -f "$EXE"
rm -rf dist-windows
mkdir -p "$PACKAGE_DIR"
cp "$EXE" "$PACKAGE_DIR/"
# 部署 Qt 运行时和插件。
if command -v windeployqt >/dev/null 2>&1; then
windeployqt --release --no-translations "$PACKAGE_DIR/${APP_NAME}.exe"
elif command -v windeployqt6 >/dev/null 2>&1; then
windeployqt6 --release --no-translations "$PACKAGE_DIR/${APP_NAME}.exe"
else
echo "windeployqt not found" >&2
exit 1
fi
# 收集 MinGW/MSYS2/OpenCV 运行时 DLL。ldd 会列出 exe/dll 依赖;循环几轮收集二级依赖。
for round in 1 2 3; do
while IFS= read -r binary; do
while IFS= read -r dll; do
[ -f "$dll" ] || continue
cp -n "$dll" "$PACKAGE_DIR/" || true
done < <(ldd "$binary" \
| awk '/=> \/ucrt64\/bin\// {print $3} /^\/ucrt64\/bin\// {print $1}' \
| sort -u)
done < <(find "$PACKAGE_DIR" -maxdepth 2 -type f \( -name '*.exe' -o -name '*.dll' \) | sort)
done
cat > "$PACKAGE_DIR/README.txt" <<'EOF'
chengnan Windows x86_64 发布包
运行方式:
1. 解压整个目录。
2. 双击 chengnan.exe 运行。
说明:
- 本目录已包含 Qt、OpenCV 和 MinGW 运行时 DLL。
- 请不要只复制 chengnan.exe需保留同目录 DLL 和 Qt plugins 子目录。
EOF
(cd dist-windows && 7z a -tzip "${PACKAGE_NAME}.zip" "${PACKAGE_NAME}" >/dev/null)
(cd dist-windows && sha256sum "${PACKAGE_NAME}.zip" > "${PACKAGE_NAME}.zip.sha256")
$ErrorActionPreference = 'Stop'
$shortSha = $env:GITHUB_SHA.Substring(0, 10)
$version = if ($env:GITHUB_REF_TYPE -eq 'tag') { $env:GITHUB_REF_NAME } else { "build-$shortSha" }
$zipName = "$env:PACKAGE_BASENAME-$version.zip"
$sourceDir = Join-Path $env:RUNNER_TEMP 'chengnan-work'
$dist = Join-Path $sourceDir 'dist-windows\chengnan'
if (-not (Test-Path "$dist\chengnan.exe")) { throw "Missing build output: $dist\chengnan.exe" }
Push-Location (Split-Path $dist -Parent)
if (Test-Path (Join-Path $sourceDir $zipName)) { Remove-Item -Force (Join-Path $sourceDir $zipName) }
Compress-Archive -Path 'chengnan\*' -DestinationPath (Join-Path $sourceDir $zipName) -Force
Pop-Location
$zipPath = Join-Path $sourceDir $zipName
$hash = (Get-FileHash $zipPath -Algorithm SHA256).Hash.ToLowerInvariant()
"$hash $zipName" | Out-File -FilePath "$zipPath.sha256" -Encoding ascii
Write-Host "Package: $zipPath"
Write-Host "SHA256: $hash"
- name: Verify package
shell: powershell
run: |
test -s dist-windows/chengnan-windows-x86_64.zip
sha256sum -c dist-windows/chengnan-windows-x86_64.zip.sha256
7z l dist-windows/chengnan-windows-x86_64.zip | grep 'chengnan.exe'
$ErrorActionPreference = 'Stop'
$shortSha = $env:GITHUB_SHA.Substring(0, 10)
$version = if ($env:GITHUB_REF_TYPE -eq 'tag') { $env:GITHUB_REF_NAME } else { "build-$shortSha" }
$zipName = "$env:PACKAGE_BASENAME-$version.zip"
$sourceDir = Join-Path $env:RUNNER_TEMP 'chengnan-work'
$zipPath = Join-Path $sourceDir $zipName
$shaPath = "$zipPath.sha256"
if (-not (Test-Path $zipPath)) { throw "zip does not exist: $zipPath" }
if (-not (Test-Path $shaPath)) { throw "sha256 does not exist: $shaPath" }
if ((Get-Item $zipPath).Length -le 0) { throw "zip file is empty: $zipPath" }
Write-Host "Verified package: $zipPath"
- name: Upload artifact
uses: actions/upload-artifact@v3
with:
name: chengnan-windows-x86_64
path: |
dist-windows/chengnan-windows-x86_64.zip
dist-windows/chengnan-windows-x86_64.zip.sha256
if-no-files-found: error
- name: Upload package to repository release
shell: powershell
env:
RELEASE_TOKEN: ${{ secrets.RELEASE_TOKEN }}
run: |
$ErrorActionPreference = 'Stop'
$token = $env:RELEASE_TOKEN
if ([string]::IsNullOrWhiteSpace($token)) { $token = $env:GITHUB_TOKEN }
if ([string]::IsNullOrWhiteSpace($token)) { throw 'Missing release token. Configure RELEASE_TOKEN in repository secrets or ensure GITHUB_TOKEN is available.' }
$shortSha = $env:GITHUB_SHA.Substring(0, 10)
$version = if ($env:GITHUB_REF_TYPE -eq 'tag') { $env:GITHUB_REF_NAME } else { "build-$shortSha" }
$zipName = "$env:PACKAGE_BASENAME-$version.zip"
$sourceDir = Join-Path $env:RUNNER_TEMP 'chengnan-work'
$zipPath = Join-Path $sourceDir $zipName
$shaPath = "$zipPath.sha256"
$serverUrl = if ($env:GITHUB_SERVER_URL) { $env:GITHUB_SERVER_URL.TrimEnd('/') } else { 'https://git.luochen570.cn' }
$repo = $env:GITHUB_REPOSITORY
$apiBase = "$serverUrl/api/v1/repos/$repo"
$tagName = $version
$releaseName = if ($env:GITHUB_REF_TYPE -eq 'tag') { $env:GITHUB_REF_NAME } else { "chengnan $shortSha" }
$isPrerelease = if ($env:GITHUB_REF_TYPE -eq 'tag') { $false } else { $true }
$headers = @{ Authorization = "token $token"; Accept = 'application/json' }
$releasePayload = @{
tag_name = $tagName
target_commitish = $env:GITHUB_SHA
name = $releaseName
body = "Automated Windows x64 build from Gitea Actions.`n"
draft = $false
prerelease = $isPrerelease
} | ConvertTo-Json -Depth 5
try {
$release = Invoke-RestMethod -Method Post -Uri "$apiBase/releases" -Headers $headers -ContentType 'application/json' -Body $releasePayload
} catch {
$release = Invoke-RestMethod -Method Get -Uri "$apiBase/releases/tags/$tagName" -Headers $headers
}
function Remove-ExistingAsset([string]$assetName) {
$assets = Invoke-RestMethod -Method Get -Uri "$apiBase/releases/$($release.id)/assets" -Headers $headers
foreach ($asset in @($assets)) {
if ($asset.name -eq $assetName) {
Invoke-RestMethod -Method Delete -Uri "$apiBase/releases/assets/$($asset.id)" -Headers $headers | Out-Null
}
}
}
function Upload-Asset([string]$path) {
$name = Split-Path $path -Leaf
Remove-ExistingAsset $name
$uploadUrl = "$apiBase/releases/$($release.id)/assets?name=$([uri]::EscapeDataString($name))"
$responseFile = Join-Path $env:RUNNER_TEMP "gitea-upload-response.json"
$curl = Join-Path $env:SystemRoot 'System32\curl.exe'
$status = & $curl --silent --show-error --location `
--header "Authorization: token $token" `
--form "attachment=@$path;filename=$name" `
--write-out '%{http_code}' `
--output $responseFile `
$uploadUrl
if ($status -ne '200' -and $status -ne '201') {
Write-Error "Upload release asset failed, HTTP ${status}: $name"
if (Test-Path $responseFile) { Get-Content $responseFile }
exit 1
}
Write-Host "Uploaded release asset: $name"
}
Upload-Asset $zipPath
Upload-Asset $shaPath
Write-Host "Release assets uploaded to $serverUrl/$repo/releases/tag/$tagName"

52
.gitignore vendored
View File

@@ -1,52 +0,0 @@
# 构建输出与发布产物
/build*/
/dist*/
/out*/
/release*/
/debug*/
# 编译工具、SDK、第三方依赖缓存
# 本仓库只保存源码CMake/Ninja/Qt/OpenCV/MSYS2/vcpkg 等均由工作流临时安装。
/tools/
/third_party/
/downloads/
/.cache/
/vcpkg_installed/
# CMake / Ninja / 编译数据库
CMakeCache.txt
CMakeFiles/
cmake_install.cmake
install_manifest.txt
.ninja_*
build.ninja
compile_commands.json
# Windows / Qt / C++ 本地产物
*.exe
*.dll
*.lib
*.pdb
*.ilk
*.obj
*.exp
*.manifest
*.qrc.depends
moc_*.cpp
qrc_*.cpp
ui_*.h
*_autogen/
# 日志和临时文件
*.log
*.tmp
*.bak
*.swp
.DS_Store
Thumbs.db
# IDE
.vscode/
.idea/
*.user
*.pro.user

View File

@@ -1,61 +1,32 @@
cmake_minimum_required(VERSION 3.21)
cmake_minimum_required(VERSION 3.16)
project(chengnan VERSION 0.1.0 LANGUAGES CXX)
project(chengnan VERSION 1.0.0 LANGUAGES CXX)
set(CMAKE_CXX_STANDARD 17)
set(CMAKE_CXX_STANDARD_REQUIRED ON)
set(CMAKE_AUTOMOC ON)
set(CMAKE_AUTORCC ON)
set(CMAKE_AUTOUIC OFF)
set(CMAKE_AUTORCC OFF)
find_package(Qt6 QUIET COMPONENTS Widgets Concurrent)
if (NOT Qt6_FOUND)
find_package(Qt5 REQUIRED COMPONENTS Widgets Concurrent)
endif()
find_package(OpenCV REQUIRED COMPONENTS core imgproc imgcodecs)
# Fedora MinGW OpenCV 4.13.0 may report an invalid include directory
# (//include/opencv4) from its OpenCVConfig.cmake. The headers are in the
# MinGW sysroot, so add a narrow cross-build fallback when CMake did not get a
# usable OpenCV include path from the package config.
if (MINGW AND (NOT OpenCV_INCLUDE_DIRS OR NOT EXISTS "${OpenCV_INCLUDE_DIRS}"))
set(_fedora_mingw_opencv_include "/usr/x86_64-w64-mingw32/sys-root/mingw/include/opencv4")
if (EXISTS "${_fedora_mingw_opencv_include}")
set(OpenCV_INCLUDE_DIRS "${_fedora_mingw_opencv_include}")
endif()
endif()
set(PROJECT_SOURCES
app/src/main.cpp
app/src/MainWindow.cpp
app/src/ImageView.cpp
app/src/ImageConverter.cpp
app/src/ImageProcessor.cpp
app/src/ImageWorker.cpp
app/include/MainWindow.h
app/include/ImageView.h
app/include/ImageConverter.h
app/include/ImageProcessor.h
app/include/ImageWorker.h
)
find_package(Qt6 QUIET COMPONENTS Widgets)
if (Qt6_FOUND)
qt_add_executable(chengnan ${PROJECT_SOURCES})
target_link_libraries(chengnan PRIVATE Qt6::Widgets Qt6::Concurrent ${OpenCV_LIBS})
qt_add_executable(chengnan
main.cpp
MainWindow.h
MainWindow.cpp
)
target_link_libraries(chengnan PRIVATE Qt6::Widgets)
else()
add_executable(chengnan ${PROJECT_SOURCES})
target_link_libraries(chengnan PRIVATE Qt5::Widgets Qt5::Concurrent ${OpenCV_LIBS})
find_package(Qt5 REQUIRED COMPONENTS Widgets)
add_executable(chengnan
main.cpp
MainWindow.h
MainWindow.cpp
)
target_link_libraries(chengnan PRIVATE Qt5::Widgets)
endif()
target_include_directories(chengnan PRIVATE
${OpenCV_INCLUDE_DIRS}
${CMAKE_CURRENT_SOURCE_DIR}/app/include
)
target_compile_definitions(chengnan PRIVATE
QT_NO_KEYWORDS
CHENGNAN_APP_VERSION="${PROJECT_VERSION}"
)

413
MainWindow.cpp Normal file
View File

@@ -0,0 +1,413 @@
#include "MainWindow.h"
#include <QAction>
#include <QApplication>
#include <QFileDialog>
#include <QFileInfo>
#include <QImageReader>
#include <QImageWriter>
#include <QKeySequence>
#include <QMenuBar>
#include <QMessageBox>
#include <QMouseEvent>
#include <QSlider>
#include <QStatusBar>
#include <QToolBar>
#include <algorithm>
#include <cmath>
ImageLabel::ImageLabel(QWidget *parent)
: QLabel(parent)
{
setAlignment(Qt::AlignCenter);
setBackgroundRole(QPalette::Base);
setSizePolicy(QSizePolicy::Ignored, QSizePolicy::Ignored);
setScaledContents(false);
setMinimumSize(320, 240);
setText(tr("打开一张图片开始查看"));
}
void ImageLabel::mouseDoubleClickEvent(QMouseEvent *event)
{
if (event->button() == Qt::LeftButton) {
Q_EMIT doubleClicked();
}
QLabel::mouseDoubleClickEvent(event);
}
MainWindow::MainWindow(QWidget *parent)
: QMainWindow(parent)
{
createActions();
createMenus();
createToolbar();
createCentralWidget();
updateActions();
setWindowTitle(tr("chengnan 图片查看器"));
resize(1100, 720);
statusBar()->showMessage(tr("就绪"));
}
void MainWindow::createActions()
{
openAction_ = new QAction(tr("打开(&O)"), this);
openAction_->setShortcut(QKeySequence::Open);
connect(openAction_, &QAction::triggered, this, &MainWindow::openImage);
saveAction_ = new QAction(tr("保存(&S)"), this);
saveAction_->setShortcut(QKeySequence::Save);
connect(saveAction_, &QAction::triggered, this, &MainWindow::saveImage);
saveAsAction_ = new QAction(tr("另存为(&A)"), this);
saveAsAction_->setShortcut(QKeySequence::SaveAs);
connect(saveAsAction_, &QAction::triggered, this, &MainWindow::saveImageAs);
exitAction_ = new QAction(tr("退出(&X)"), this);
exitAction_->setShortcut(QKeySequence::Quit);
connect(exitAction_, &QAction::triggered, this, &QWidget::close);
zoomInAction_ = new QAction(tr("放大"), this);
zoomInAction_->setShortcut(QKeySequence::ZoomIn);
connect(zoomInAction_, &QAction::triggered, this, &MainWindow::zoomIn);
zoomOutAction_ = new QAction(tr("缩小"), this);
zoomOutAction_->setShortcut(QKeySequence::ZoomOut);
connect(zoomOutAction_, &QAction::triggered, this, &MainWindow::zoomOut);
fitAction_ = new QAction(tr("适配窗口"), this);
fitAction_->setShortcut(Qt::CTRL | Qt::Key_F);
connect(fitAction_, &QAction::triggered, this, &MainWindow::fitToWindow);
resetAction_ = new QAction(tr("原始大小"), this);
resetAction_->setShortcut(Qt::CTRL | Qt::Key_0);
connect(resetAction_, &QAction::triggered, this, &MainWindow::resetView);
rotateLeftAction_ = new QAction(tr("左旋 90°"), this);
connect(rotateLeftAction_, &QAction::triggered, this, &MainWindow::rotateLeft);
rotateRightAction_ = new QAction(tr("右旋 90°"), this);
connect(rotateRightAction_, &QAction::triggered, this, &MainWindow::rotateRight);
flipHorizontalAction_ = new QAction(tr("水平翻转"), this);
connect(flipHorizontalAction_, &QAction::triggered, this, &MainWindow::flipHorizontal);
flipVerticalAction_ = new QAction(tr("垂直翻转"), this);
connect(flipVerticalAction_, &QAction::triggered, this, &MainWindow::flipVertical);
grayscaleAction_ = new QAction(tr("灰度化"), this);
connect(grayscaleAction_, &QAction::triggered, this, &MainWindow::grayscale);
invertAction_ = new QAction(tr("反色"), this);
connect(invertAction_, &QAction::triggered, this, &MainWindow::invertColors);
}
void MainWindow::createMenus()
{
QMenu *fileMenu = menuBar()->addMenu(tr("文件(&F)"));
fileMenu->addAction(openAction_);
fileMenu->addAction(saveAction_);
fileMenu->addAction(saveAsAction_);
fileMenu->addSeparator();
fileMenu->addAction(exitAction_);
QMenu *viewMenu = menuBar()->addMenu(tr("查看(&V)"));
viewMenu->addAction(zoomInAction_);
viewMenu->addAction(zoomOutAction_);
viewMenu->addAction(fitAction_);
viewMenu->addAction(resetAction_);
QMenu *processMenu = menuBar()->addMenu(tr("处理(&P)"));
processMenu->addAction(rotateLeftAction_);
processMenu->addAction(rotateRightAction_);
processMenu->addAction(flipHorizontalAction_);
processMenu->addAction(flipVerticalAction_);
processMenu->addSeparator();
processMenu->addAction(grayscaleAction_);
processMenu->addAction(invertAction_);
}
void MainWindow::createToolbar()
{
QToolBar *toolbar = addToolBar(tr("主工具栏"));
toolbar->setMovable(false);
toolbar->addAction(openAction_);
toolbar->addAction(saveAction_);
toolbar->addSeparator();
toolbar->addAction(zoomOutAction_);
zoomSlider_ = new QSlider(Qt::Horizontal, this);
zoomSlider_->setRange(10, 400);
zoomSlider_->setValue(100);
zoomSlider_->setFixedWidth(180);
zoomSlider_->setToolTip(tr("缩放比例"));
connect(zoomSlider_, &QSlider::valueChanged, this, &MainWindow::updateZoomFromSlider);
toolbar->addWidget(zoomSlider_);
toolbar->addAction(zoomInAction_);
toolbar->addAction(fitAction_);
toolbar->addSeparator();
toolbar->addAction(rotateLeftAction_);
toolbar->addAction(rotateRightAction_);
toolbar->addAction(grayscaleAction_);
toolbar->addAction(invertAction_);
}
void MainWindow::createCentralWidget()
{
imageLabel_ = new ImageLabel(this);
connect(imageLabel_, &ImageLabel::doubleClicked, this, &MainWindow::fitToWindow);
scrollArea_ = new QScrollArea(this);
scrollArea_->setBackgroundRole(QPalette::Dark);
scrollArea_->setWidget(imageLabel_);
scrollArea_->setWidgetResizable(true);
setCentralWidget(scrollArea_);
}
void MainWindow::openImage()
{
const QString fileName = QFileDialog::getOpenFileName(
this,
tr("打开图片"),
QString(),
tr("图片文件 (*.png *.jpg *.jpeg *.bmp *.gif *.webp);;所有文件 (*.*)"));
if (fileName.isEmpty()) {
return;
}
QImageReader reader(fileName);
reader.setAutoTransform(true);
const QImage image = reader.read();
if (image.isNull()) {
QMessageBox::warning(this, tr("打开失败"), tr("无法读取图片:%1").arg(reader.errorString()));
return;
}
setImage(image, fileName);
}
void MainWindow::saveImage()
{
if (!ensureImageLoaded(tr("保存"))) {
return;
}
if (currentPath_.isEmpty()) {
saveImageAs();
return;
}
writeImageToPath(currentPath_);
}
void MainWindow::saveImageAs()
{
if (!ensureImageLoaded(tr("另存为"))) {
return;
}
const QString fileName = QFileDialog::getSaveFileName(
this,
tr("另存为"),
currentPath_.isEmpty() ? QStringLiteral("chengnan.png") : currentPath_,
tr("PNG 图片 (*.png);;JPEG 图片 (*.jpg *.jpeg);;BMP 图片 (*.bmp);;所有文件 (*.*)"));
if (!fileName.isEmpty()) {
writeImageToPath(fileName);
}
}
void MainWindow::zoomIn()
{
setZoomFactor(zoomFactor_ * 1.25);
}
void MainWindow::zoomOut()
{
setZoomFactor(zoomFactor_ / 1.25);
}
void MainWindow::fitToWindow()
{
if (!ensureImageLoaded(tr("适配窗口"))) {
return;
}
const QSize viewportSize = scrollArea_->viewport()->size();
const QSize imageSize = currentImage_.size();
if (imageSize.isEmpty()) {
return;
}
const double xRatio = static_cast<double>(viewportSize.width()) / imageSize.width();
const double yRatio = static_cast<double>(viewportSize.height()) / imageSize.height();
setZoomFactor(std::min(xRatio, yRatio));
}
void MainWindow::resetView()
{
setZoomFactor(1.0);
}
void MainWindow::rotateLeft()
{
if (!ensureImageLoaded(tr("旋转"))) {
return;
}
QTransform transform;
transform.rotate(-90);
applyTransformedImage(currentImage_.transformed(transform, Qt::SmoothTransformation));
}
void MainWindow::rotateRight()
{
if (!ensureImageLoaded(tr("旋转"))) {
return;
}
QTransform transform;
transform.rotate(90);
applyTransformedImage(currentImage_.transformed(transform, Qt::SmoothTransformation));
}
void MainWindow::flipHorizontal()
{
if (!ensureImageLoaded(tr("翻转"))) {
return;
}
applyTransformedImage(currentImage_.mirrored(true, false));
}
void MainWindow::flipVertical()
{
if (!ensureImageLoaded(tr("翻转"))) {
return;
}
applyTransformedImage(currentImage_.mirrored(false, true));
}
void MainWindow::grayscale()
{
if (!ensureImageLoaded(tr("灰度化"))) {
return;
}
applyTransformedImage(currentImage_.convertToFormat(QImage::Format_Grayscale8));
}
void MainWindow::invertColors()
{
if (!ensureImageLoaded(tr("反色"))) {
return;
}
QImage image = currentImage_.convertToFormat(QImage::Format_ARGB32);
image.invertPixels(QImage::InvertRgb);
applyTransformedImage(image);
}
void MainWindow::updateZoomFromSlider(int value)
{
const double factor = static_cast<double>(value) / 100.0;
if (std::abs(factor - zoomFactor_) > 0.001) {
zoomFactor_ = factor;
updateImageView();
}
}
void MainWindow::setImage(const QImage &image, const QString &path)
{
currentImage_ = image.convertToFormat(QImage::Format_ARGB32);
currentPath_ = path;
setZoomFactor(1.0);
updateActions();
const QFileInfo info(path);
setWindowTitle(path.isEmpty()
? tr("chengnan 图片查看器")
: tr("%1 - chengnan 图片查看器").arg(info.fileName()));
statusBar()->showMessage(tr("已加载:%1 × %2").arg(currentImage_.width()).arg(currentImage_.height()), 5000);
}
void MainWindow::updateImageView()
{
if (currentImage_.isNull()) {
imageLabel_->setPixmap(QPixmap());
imageLabel_->setText(tr("打开一张图片开始查看"));
return;
}
const QSize scaledSize = currentImage_.size() * zoomFactor_;
const QPixmap pixmap = QPixmap::fromImage(currentImage_).scaled(
scaledSize,
Qt::KeepAspectRatio,
Qt::SmoothTransformation);
imageLabel_->setText(QString());
imageLabel_->setPixmap(pixmap);
imageLabel_->resize(pixmap.size());
if (zoomSlider_->value() != static_cast<int>(zoomFactor_ * 100.0)) {
zoomSlider_->blockSignals(true);
zoomSlider_->setValue(static_cast<int>(zoomFactor_ * 100.0));
zoomSlider_->blockSignals(false);
}
statusBar()->showMessage(tr("缩放:%1%").arg(static_cast<int>(zoomFactor_ * 100.0)));
}
void MainWindow::setZoomFactor(double factor)
{
zoomFactor_ = std::clamp(factor, 0.10, 4.00);
updateImageView();
}
void MainWindow::applyTransformedImage(const QImage &image)
{
currentImage_ = image.convertToFormat(QImage::Format_ARGB32);
updateImageView();
updateActions();
statusBar()->showMessage(tr("处理完成,可保存结果"), 3000);
}
void MainWindow::updateActions()
{
const bool hasImage = !currentImage_.isNull();
saveAction_->setEnabled(hasImage);
saveAsAction_->setEnabled(hasImage);
zoomInAction_->setEnabled(hasImage);
zoomOutAction_->setEnabled(hasImage);
fitAction_->setEnabled(hasImage);
resetAction_->setEnabled(hasImage);
rotateLeftAction_->setEnabled(hasImage);
rotateRightAction_->setEnabled(hasImage);
flipHorizontalAction_->setEnabled(hasImage);
flipVerticalAction_->setEnabled(hasImage);
grayscaleAction_->setEnabled(hasImage);
invertAction_->setEnabled(hasImage);
zoomSlider_->setEnabled(hasImage);
}
bool MainWindow::ensureImageLoaded(const QString &actionName) const
{
if (!currentImage_.isNull()) {
return true;
}
QMessageBox::information(nullptr, actionName, tr("请先打开一张图片。"));
return false;
}
bool MainWindow::writeImageToPath(const QString &path)
{
QImageWriter writer(path);
if (!writer.write(currentImage_)) {
QMessageBox::warning(this, tr("保存失败"), tr("无法保存图片:%1").arg(writer.errorString()));
return false;
}
currentPath_ = path;
setWindowTitle(tr("%1 - chengnan 图片查看器").arg(QFileInfo(path).fileName()));
statusBar()->showMessage(tr("已保存:%1").arg(path), 5000);
return true;
}

90
MainWindow.h Normal file
View File

@@ -0,0 +1,90 @@
#ifndef MAINWINDOW_H
#define MAINWINDOW_H
#include <QImage>
#include <QLabel>
#include <QMainWindow>
#include <QPixmap>
#include <QScrollArea>
#include <QString>
class QAction;
class QMenu;
class QPushButton;
class QSlider;
class ImageLabel final : public QLabel
{
Q_OBJECT
public:
explicit ImageLabel(QWidget *parent = nullptr);
Q_SIGNALS:
void doubleClicked();
protected:
void mouseDoubleClickEvent(QMouseEvent *event) override;
};
class MainWindow final : public QMainWindow
{
Q_OBJECT
public:
explicit MainWindow(QWidget *parent = nullptr);
private Q_SLOTS:
void openImage();
void saveImage();
void saveImageAs();
void zoomIn();
void zoomOut();
void fitToWindow();
void resetView();
void rotateLeft();
void rotateRight();
void flipHorizontal();
void flipVertical();
void grayscale();
void invertColors();
void updateZoomFromSlider(int value);
private:
void createActions();
void createMenus();
void createToolbar();
void createCentralWidget();
void setImage(const QImage &image, const QString &path = QString());
void updateImageView();
void setZoomFactor(double factor);
void applyTransformedImage(const QImage &image);
void updateActions();
bool ensureImageLoaded(const QString &actionName) const;
bool writeImageToPath(const QString &path);
ImageLabel *imageLabel_ = nullptr;
QScrollArea *scrollArea_ = nullptr;
QSlider *zoomSlider_ = nullptr;
QImage currentImage_;
QString currentPath_;
double zoomFactor_ = 1.0;
QAction *openAction_ = nullptr;
QAction *saveAction_ = nullptr;
QAction *saveAsAction_ = nullptr;
QAction *exitAction_ = nullptr;
QAction *zoomInAction_ = nullptr;
QAction *zoomOutAction_ = nullptr;
QAction *fitAction_ = nullptr;
QAction *resetAction_ = nullptr;
QAction *rotateLeftAction_ = nullptr;
QAction *rotateRightAction_ = nullptr;
QAction *flipHorizontalAction_ = nullptr;
QAction *flipVerticalAction_ = nullptr;
QAction *grayscaleAction_ = nullptr;
QAction *invertAction_ = nullptr;
};
#endif // MAINWINDOW_H

135
README.md
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@@ -1,135 +0,0 @@
# chengnan
chengnan 是一个面向 Windows 的图片查看器 / 简单图像处理应用,使用 **Qt Widgets + OpenCV + CMake + C++17** 开发。
## 项目定位
- 目标平台Windows x64
- 应用类型:桌面图片查看器
- 构建方式:只在 Gitea Actions 工作流中构建和打包
- 仓库内容只保留源码、CMake 配置、文档和工作流
- 仓库不包含CMake/Ninja/Qt/OpenCV/MSYS2/vcpkg 等编译工具、SDK、第三方二进制依赖、本地构建产物
## 功能
当前已实现:
- 打开图片
- 保存图片、另存图片
- 使用 Qt QWidget 体系显示图片,不使用 `cv::imshow`
- 左右对比显示原图和处理后图片
- 图片视图支持:
- 鼠标滚轮缩放
- 双击适配窗口
- 拖拽平移视图
- 基础图像处理:
- 放大 / 缩小
- 平移
- 指定角度旋转
- 阈值分割 + 轮廓目标提取
- 基于 HSV 均值的简单规则分类
- 使用 `QThread` + 信号槽执行 OpenCV 处理任务,避免阻塞 UI
## 技术栈
- C++17
- Qt Widgets / Qt Concurrent
- OpenCV
- CMake
- Gitea Actions
## 目录结构
```text
chengnan/
├── .gitea/workflows/
│ ├── build-windows-cross-linux.yml # Linux Runner 交叉编译 Windows 发布包
│ └── build-windows-release.yml # Windows Runner 原生构建备用工作流
├── app/
│ ├── include/ # 头文件
│ └── src/ # 源文件
├── CMakeLists.txt
├── .gitignore
└── README.md
```
## 构建与发布
本项目不在仓库中保存编译工具或第三方二进制依赖。所有构建工作都在 Gitea Actions 工作流中完成。
当前优先使用 `.gitea/workflows/build-windows-cross-linux.yml`:在自建 `9950x` Linux Runner 的 Fedora 41 容器中,通过 MinGW-w64 交叉编译生成 Windows x86_64 发布包。`.gitea/workflows/build-windows-release.yml` 保留为 Windows Runner 原生构建备用工作流。
交叉编译工作流会临时完成以下步骤:
1. 拉取源码
2. 安装 Fedora / MinGW-w64 构建环境和依赖
3. 配置 CMake
4. 编译 Release 版本
5. 收集 Qt / OpenCV / MinGW 运行时依赖
6. 打包 Windows 发布包
7. 生成 SHA256 校验文件
8. 上传发布包到 Gitea Packages
## 编译工具链版本
交叉编译工作流固定使用以下环境和包版本:
| 组件 | 版本 |
| --- | --- |
| Runner 标签 | `9950x` |
| 容器镜像 | `fedora:41` |
| C++ 语言标准 | `C++17` |
| MinGW-w64 GCC C++ | `mingw64-gcc-c++ 14.2.1-3.fc41` |
| CMake | `cmake 3.28.3-7.fc41` |
| Ninja | `ninja-build 1.12.1-3.fc41` |
| Qt 6 Base | `mingw64-qt6-qtbase 6.7.2-3.fc41` |
| OpenCV | `mingw64-opencv 4.10.0-1.fc41` |
版本来源为 Fedora 41 `Everything/x86_64` 仓库元数据;构建时由工作流临时安装,不提交到源码仓库。
触发方式:
- push 到 `main`
- 创建 `v*` 标签
- Pull Request 到 `main`
- 手动触发 `workflow_dispatch`
构建产物:
```text
chengnan-windows-x86_64-cross.zip
chengnan-windows-x86_64-cross.zip.sha256
```
发布包解压后,双击 `chengnan.exe` 运行。请保留同目录 DLL 和 Qt 插件目录,不要只复制单个 exe。
## 本地开发说明
仓库不提供本地依赖安装脚本,也不保存编译工具。若需要本地开发,请自行在 Windows 上安装:
- CMake
- Ninja
- Qt 6
- OpenCV
- C++ 编译器MSVC 或 MinGW
然后按常规 CMake 项目方式配置和构建。正式发布以 Gitea Actions 产物为准。
## 依赖管理原则
- 不提交编译器、CMake、Ninja、Qt、OpenCV、MSYS2、vcpkg 等工具或 SDK
- 不提交 `build-*``dist-*``.exe``.dll` 等构建产物
- 第三方依赖只在工作流运行期间临时安装
- 发布包只作为工作流产物或 Gitea Packages 文件产出,不进入源码仓库
## 验收标准
- 可以打开常见图片格式,例如 PNG、JPG、BMP
- 可以保存当前处理后的图片
- 可以另存为指定路径
- 可以在同一界面中对比显示处理前和处理后图片
- 支持缩放、平移、旋转操作
- 至少实现目标提取或分类功能之一
- 图片显示使用 QWidget 体系,不使用 OpenCV 窗口显示函数
- 图像处理任务不会明显阻塞 UI
- Windows 发布包可直接解压运行

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@@ -1,11 +0,0 @@
#pragma once
#include <QImage>
#include <opencv2/core.hpp>
class ImageConverter final
{
public:
static QImage matToQImage(const cv::Mat &mat);
static cv::Mat qImageToMat(const QImage &image);
};

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@@ -1,23 +0,0 @@
#pragma once
#include <QString>
#include <QMetaType>
#include <opencv2/core.hpp>
struct ProcessResult
{
cv::Mat image;
QString description;
};
class ImageProcessor final
{
public:
static ProcessResult rotate(const cv::Mat &source, double angleDegrees);
static ProcessResult scale(const cv::Mat &source, double factor);
static ProcessResult translate(const cv::Mat &source, int dx, int dy);
static ProcessResult extractTargets(const cv::Mat &source);
static ProcessResult classifySimple(const cv::Mat &source);
};
Q_DECLARE_METATYPE(ProcessResult)

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@@ -1,35 +0,0 @@
#pragma once
#include <QGraphicsView>
#include <QImage>
#include <QPixmap>
class QGraphicsPixmapItem;
class QGraphicsScene;
class QWheelEvent;
class QMouseEvent;
class ImageView final : public QGraphicsView
{
Q_OBJECT
public:
explicit ImageView(QWidget *parent = nullptr);
void setImage(const QImage &image);
void clearImage();
void fitImageToView();
bool hasImage() const;
protected:
void wheelEvent(QWheelEvent *event) override;
void mouseDoubleClickEvent(QMouseEvent *event) override;
private:
void resetSceneRect();
QGraphicsScene *scene_ = nullptr;
QGraphicsPixmapItem *pixmapItem_ = nullptr;
QPixmap pixmap_;
double zoomFactor_ = 1.0;
};

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@@ -1,33 +0,0 @@
#pragma once
#include "ImageProcessor.h"
#include <QObject>
#include <QMetaType>
#include <opencv2/core.hpp>
Q_DECLARE_METATYPE(cv::Mat)
class ImageWorker final : public QObject
{
Q_OBJECT
public:
enum class Operation {
Rotate,
Scale,
Translate,
ExtractTargets,
ClassifySimple
};
Q_ENUM(Operation)
public Q_SLOTS:
void process(cv::Mat image, ImageWorker::Operation operation, double value, int dx, int dy);
Q_SIGNALS:
void finished(ProcessResult result);
void failed(QString message);
};
Q_DECLARE_METATYPE(ImageWorker::Operation)

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@@ -1,72 +0,0 @@
#pragma once
#include "ImageWorker.h"
#include <QMainWindow>
#include <QThread>
#include <opencv2/core.hpp>
class QAction;
class QLabel;
class QSpinBox;
class QDoubleSpinBox;
class QPushButton;
class ImageView;
class MainWindow final : public QMainWindow
{
Q_OBJECT
public:
explicit MainWindow(QWidget *parent = nullptr);
~MainWindow() override;
Q_SIGNALS:
void processRequested(cv::Mat image, ImageWorker::Operation operation, double value, int dx, int dy);
private Q_SLOTS:
void openImage();
void saveImage();
void saveImageAs();
void resetToOriginal();
void onProcessFinished(ProcessResult result);
void onProcessFailed(const QString &message);
void rotateLeft();
void rotateRight();
void scaleUp();
void scaleDown();
void translateUp();
void translateDown();
void translateLeft();
void translateRight();
void extractTargets();
void classifyImage();
private:
void buildUi();
void setupWorkerThread();
void updateViews();
void setBusy(bool busy);
bool ensureHasImage() const;
void requestProcess(ImageWorker::Operation operation, double value = 0.0, int dx = 0, int dy = 0);
bool writeCurrentImageTo(const QString &path);
ImageView *originalView_ = nullptr;
ImageView *processedView_ = nullptr;
QLabel *infoLabel_ = nullptr;
QLabel *statusLabel_ = nullptr;
QDoubleSpinBox *scaleSpin_ = nullptr;
QDoubleSpinBox *angleSpin_ = nullptr;
QSpinBox *translateSpin_ = nullptr;
QAction *saveAction_ = nullptr;
QAction *saveAsAction_ = nullptr;
QThread workerThread_;
ImageWorker *worker_ = nullptr;
cv::Mat originalImage_;
cv::Mat processedImage_;
QString currentPath_;
bool busy_ = false;
};

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@@ -1,47 +0,0 @@
#include "ImageConverter.h"
#include <opencv2/imgproc.hpp>
QImage ImageConverter::matToQImage(const cv::Mat &mat)
{
if (mat.empty()) {
return {};
}
switch (mat.type()) {
case CV_8UC1: {
QImage image(mat.data, mat.cols, mat.rows, static_cast<int>(mat.step), QImage::Format_Grayscale8);
return image.copy();
}
case CV_8UC3: {
cv::Mat rgb;
cv::cvtColor(mat, rgb, cv::COLOR_BGR2RGB);
QImage image(rgb.data, rgb.cols, rgb.rows, static_cast<int>(rgb.step), QImage::Format_RGB888);
return image.copy();
}
case CV_8UC4: {
QImage image(mat.data, mat.cols, mat.rows, static_cast<int>(mat.step), QImage::Format_ARGB32);
return image.copy();
}
default: {
cv::Mat converted;
mat.convertTo(converted, CV_8U);
return matToQImage(converted);
}
}
}
cv::Mat ImageConverter::qImageToMat(const QImage &image)
{
if (image.isNull()) {
return {};
}
const QImage converted = image.convertToFormat(QImage::Format_RGB888);
cv::Mat rgb(converted.height(), converted.width(), CV_8UC3,
const_cast<uchar *>(converted.bits()),
static_cast<size_t>(converted.bytesPerLine()));
cv::Mat bgr;
cv::cvtColor(rgb, bgr, cv::COLOR_RGB2BGR);
return bgr.clone();
}

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@@ -1,149 +0,0 @@
#include "ImageProcessor.h"
#include <opencv2/imgproc.hpp>
#include <algorithm>
ProcessResult ImageProcessor::rotate(const cv::Mat &source, double angleDegrees)
{
if (source.empty()) {
return {};
}
const cv::Point2f center(static_cast<float>(source.cols) / 2.0F, static_cast<float>(source.rows) / 2.0F);
cv::Mat matrix = cv::getRotationMatrix2D(center, angleDegrees, 1.0);
const double absCos = std::abs(matrix.at<double>(0, 0));
const double absSin = std::abs(matrix.at<double>(0, 1));
const int boundW = static_cast<int>(source.rows * absSin + source.cols * absCos);
const int boundH = static_cast<int>(source.rows * absCos + source.cols * absSin);
matrix.at<double>(0, 2) += boundW / 2.0 - center.x;
matrix.at<double>(1, 2) += boundH / 2.0 - center.y;
cv::Mat output;
cv::warpAffine(source, output, matrix, cv::Size(boundW, boundH), cv::INTER_LINEAR, cv::BORDER_CONSTANT, cv::Scalar(30, 30, 30));
return {output, QStringLiteral("旋转 %1° 完成").arg(angleDegrees)};
}
ProcessResult ImageProcessor::scale(const cv::Mat &source, double factor)
{
if (source.empty() || factor <= 0.0) {
return {};
}
cv::Mat output;
cv::resize(source, output, cv::Size(), factor, factor, factor >= 1.0 ? cv::INTER_CUBIC : cv::INTER_AREA);
return {output, QStringLiteral("缩放 %1 倍完成,尺寸:%2 × %3").arg(factor).arg(output.cols).arg(output.rows)};
}
ProcessResult ImageProcessor::translate(const cv::Mat &source, int dx, int dy)
{
if (source.empty()) {
return {};
}
const cv::Mat matrix = (cv::Mat_<double>(2, 3) << 1, 0, dx, 0, 1, dy);
cv::Mat output;
cv::warpAffine(source, output, matrix, source.size(), cv::INTER_LINEAR, cv::BORDER_CONSTANT, cv::Scalar(30, 30, 30));
return {output, QStringLiteral("平移完成dx=%1, dy=%2").arg(dx).arg(dy)};
}
ProcessResult ImageProcessor::extractTargets(const cv::Mat &source)
{
if (source.empty()) {
return {};
}
cv::Mat gray;
if (source.channels() == 1) {
gray = source.clone();
} else {
cv::cvtColor(source, gray, cv::COLOR_BGR2GRAY);
}
cv::Mat blurred;
cv::GaussianBlur(gray, blurred, cv::Size(5, 5), 0);
cv::Mat binary;
cv::threshold(blurred, binary, 0, 255, cv::THRESH_BINARY | cv::THRESH_OTSU);
std::vector<std::vector<cv::Point>> contours;
cv::findContours(binary, contours, cv::RETR_EXTERNAL, cv::CHAIN_APPROX_SIMPLE);
cv::Mat output;
if (source.channels() == 1) {
cv::cvtColor(source, output, cv::COLOR_GRAY2BGR);
} else {
output = source.clone();
}
int validCount = 0;
double totalArea = 0.0;
const double minArea = std::max(80.0, source.cols * source.rows * 0.0005);
for (const auto &contour : contours) {
const double area = cv::contourArea(contour);
if (area < minArea) {
continue;
}
++validCount;
totalArea += area;
const cv::Rect box = cv::boundingRect(contour);
cv::rectangle(output, box, cv::Scalar(0, 0, 255), 2);
cv::drawContours(output, std::vector<std::vector<cv::Point>>{contour}, -1, cv::Scalar(0, 255, 0), 2);
const cv::Moments moments = cv::moments(contour);
if (moments.m00 != 0.0) {
const int cx = static_cast<int>(moments.m10 / moments.m00);
const int cy = static_cast<int>(moments.m01 / moments.m00);
cv::circle(output, cv::Point(cx, cy), 4, cv::Scalar(255, 0, 0), -1);
}
}
return {output, QStringLiteral("目标提取完成:检测到 %1 个目标,总面积约 %2 像素")
.arg(validCount)
.arg(static_cast<int>(totalArea))};
}
ProcessResult ImageProcessor::classifySimple(const cv::Mat &source)
{
if (source.empty()) {
return {};
}
cv::Mat hsv;
if (source.channels() == 1) {
cv::cvtColor(source, hsv, cv::COLOR_GRAY2BGR);
cv::cvtColor(hsv, hsv, cv::COLOR_BGR2HSV);
} else {
cv::cvtColor(source, hsv, cv::COLOR_BGR2HSV);
}
const cv::Scalar meanHsv = cv::mean(hsv);
const double hue = meanHsv[0];
const double saturation = meanHsv[1];
const double value = meanHsv[2];
QString type;
if (value < 70) {
type = QStringLiteral("偏暗图像");
} else if (saturation < 45) {
type = QStringLiteral("低饱和 / 灰度感图像");
} else if (hue < 15 || hue > 160) {
type = QStringLiteral("红色系图像");
} else if (hue < 45) {
type = QStringLiteral("黄色 / 橙色系图像");
} else if (hue < 85) {
type = QStringLiteral("绿色系图像");
} else if (hue < 130) {
type = QStringLiteral("蓝色系图像");
} else {
type = QStringLiteral("紫色系图像");
}
cv::Mat output = source.clone();
return {output, QStringLiteral("简单分类:%1平均 H=%2, S=%3, V=%4")
.arg(type)
.arg(hue, 0, 'f', 1)
.arg(saturation, 0, 'f', 1)
.arg(value, 0, 'f', 1)};
}

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@@ -1,89 +0,0 @@
#include "ImageView.h"
#include <QGraphicsPixmapItem>
#include <QGraphicsScene>
#include <QMouseEvent>
#include <QPainter>
#include <QScrollBar>
#include <QWheelEvent>
ImageView::ImageView(QWidget *parent)
: QGraphicsView(parent), scene_(new QGraphicsScene(this))
{
setScene(scene_);
pixmapItem_ = scene_->addPixmap(QPixmap());
pixmapItem_->setTransformationMode(Qt::SmoothTransformation);
setRenderHints(QPainter::Antialiasing | QPainter::SmoothPixmapTransform);
setDragMode(QGraphicsView::ScrollHandDrag);
setViewportUpdateMode(QGraphicsView::SmartViewportUpdate);
setBackgroundBrush(QColor(36, 36, 36));
setFrameShape(QFrame::StyledPanel);
setAlignment(Qt::AlignCenter);
}
void ImageView::setImage(const QImage &image)
{
if (image.isNull()) {
clearImage();
return;
}
pixmap_ = QPixmap::fromImage(image);
pixmapItem_->setPixmap(pixmap_);
resetSceneRect();
fitImageToView();
}
void ImageView::clearImage()
{
pixmap_ = QPixmap();
pixmapItem_->setPixmap(QPixmap());
scene_->setSceneRect(QRectF());
resetTransform();
zoomFactor_ = 1.0;
}
void ImageView::fitImageToView()
{
if (!hasImage()) {
return;
}
resetTransform();
fitInView(pixmapItem_, Qt::KeepAspectRatio);
zoomFactor_ = transform().m11();
}
bool ImageView::hasImage() const
{
return !pixmap_.isNull();
}
void ImageView::wheelEvent(QWheelEvent *event)
{
if (!hasImage()) {
QGraphicsView::wheelEvent(event);
return;
}
#if QT_VERSION >= QT_VERSION_CHECK(5, 15, 0)
const int delta = event->angleDelta().y();
#else
const int delta = event->delta();
#endif
const double factor = delta > 0 ? 1.15 : 1.0 / 1.15;
zoomFactor_ *= factor;
scale(factor, factor);
event->accept();
}
void ImageView::mouseDoubleClickEvent(QMouseEvent *event)
{
Q_UNUSED(event)
fitImageToView();
}
void ImageView::resetSceneRect()
{
scene_->setSceneRect(pixmap_.rect());
}

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@@ -1,35 +0,0 @@
#include "ImageWorker.h"
void ImageWorker::process(cv::Mat image, ImageWorker::Operation operation, double value, int dx, int dy)
{
if (image.empty()) {
Q_EMIT failed(QStringLiteral("没有可处理的图片"));
return;
}
ProcessResult result;
switch (operation) {
case Operation::Rotate:
result = ImageProcessor::rotate(image, value);
break;
case Operation::Scale:
result = ImageProcessor::scale(image, value);
break;
case Operation::Translate:
result = ImageProcessor::translate(image, dx, dy);
break;
case Operation::ExtractTargets:
result = ImageProcessor::extractTargets(image);
break;
case Operation::ClassifySimple:
result = ImageProcessor::classifySimple(image);
break;
}
if (result.image.empty()) {
Q_EMIT failed(QStringLiteral("图像处理失败"));
return;
}
Q_EMIT finished(result);
}

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@@ -1,369 +0,0 @@
#include "MainWindow.h"
#include "ImageConverter.h"
#include "ImageView.h"
#include <QAction>
#include <QApplication>
#include <QBoxLayout>
#include <QDoubleSpinBox>
#include <QFile>
#include <QFileDialog>
#include <QFileInfo>
#include <QGroupBox>
#include <QLabel>
#include <QMenuBar>
#include <QMessageBox>
#include <QPushButton>
#include <QSpinBox>
#include <QSplitter>
#include <QStatusBar>
#include <QToolBar>
#include <QWidget>
#include <opencv2/imgcodecs.hpp>
MainWindow::MainWindow(QWidget *parent)
: QMainWindow(parent)
{
qRegisterMetaType<ProcessResult>("ProcessResult");
qRegisterMetaType<ImageWorker::Operation>("ImageWorker::Operation");
qRegisterMetaType<cv::Mat>("cv::Mat");
buildUi();
setupWorkerThread();
setWindowTitle(QStringLiteral("chengnan - Qt/OpenCV 图像处理"));
}
MainWindow::~MainWindow()
{
workerThread_.quit();
workerThread_.wait();
}
void MainWindow::buildUi()
{
auto *openAction = new QAction(QStringLiteral("打开图片"), this);
saveAction_ = new QAction(QStringLiteral("保存图片"), this);
saveAsAction_ = new QAction(QStringLiteral("另存图片"), this);
auto *resetAction = new QAction(QStringLiteral("还原原图"), this);
auto *exitAction = new QAction(QStringLiteral("退出"), this);
connect(openAction, &QAction::triggered, this, &MainWindow::openImage);
connect(saveAction_, &QAction::triggered, this, &MainWindow::saveImage);
connect(saveAsAction_, &QAction::triggered, this, &MainWindow::saveImageAs);
connect(resetAction, &QAction::triggered, this, &MainWindow::resetToOriginal);
connect(exitAction, &QAction::triggered, qApp, &QApplication::quit);
auto *fileMenu = menuBar()->addMenu(QStringLiteral("文件"));
fileMenu->addAction(openAction);
fileMenu->addAction(saveAction_);
fileMenu->addAction(saveAsAction_);
fileMenu->addSeparator();
fileMenu->addAction(exitAction);
auto *editMenu = menuBar()->addMenu(QStringLiteral("处理"));
editMenu->addAction(resetAction);
auto *toolbar = addToolBar(QStringLiteral("主工具栏"));
toolbar->addAction(openAction);
toolbar->addAction(saveAction_);
toolbar->addAction(saveAsAction_);
toolbar->addAction(resetAction);
originalView_ = new ImageView(this);
processedView_ = new ImageView(this);
auto *leftBox = new QGroupBox(QStringLiteral("处理前图像"), this);
auto *leftLayout = new QVBoxLayout(leftBox);
leftLayout->addWidget(originalView_);
auto *rightBox = new QGroupBox(QStringLiteral("处理后图像"), this);
auto *rightLayout = new QVBoxLayout(rightBox);
rightLayout->addWidget(processedView_);
auto *splitter = new QSplitter(Qt::Horizontal, this);
splitter->addWidget(leftBox);
splitter->addWidget(rightBox);
splitter->setStretchFactor(0, 1);
splitter->setStretchFactor(1, 1);
scaleSpin_ = new QDoubleSpinBox(this);
scaleSpin_->setRange(0.1, 5.0);
scaleSpin_->setSingleStep(0.1);
scaleSpin_->setValue(1.25);
scaleSpin_->setSuffix(QStringLiteral(""));
angleSpin_ = new QDoubleSpinBox(this);
angleSpin_->setRange(-360.0, 360.0);
angleSpin_->setSingleStep(5.0);
angleSpin_->setValue(90.0);
angleSpin_->setSuffix(QStringLiteral("°"));
translateSpin_ = new QSpinBox(this);
translateSpin_->setRange(1, 1000);
translateSpin_->setValue(40);
translateSpin_->setSuffix(QStringLiteral(" px"));
auto *scaleUpButton = new QPushButton(QStringLiteral("放大"), this);
auto *scaleDownButton = new QPushButton(QStringLiteral("缩小"), this);
auto *rotateLeftButton = new QPushButton(QStringLiteral("逆时针旋转"), this);
auto *rotateRightButton = new QPushButton(QStringLiteral("顺时针旋转"), this);
auto *upButton = new QPushButton(QStringLiteral("上移"), this);
auto *downButton = new QPushButton(QStringLiteral("下移"), this);
auto *leftButton = new QPushButton(QStringLiteral("左移"), this);
auto *rightButton = new QPushButton(QStringLiteral("右移"), this);
auto *extractButton = new QPushButton(QStringLiteral("目标提取"), this);
auto *classifyButton = new QPushButton(QStringLiteral("简单分类"), this);
connect(scaleUpButton, &QPushButton::clicked, this, &MainWindow::scaleUp);
connect(scaleDownButton, &QPushButton::clicked, this, &MainWindow::scaleDown);
connect(rotateLeftButton, &QPushButton::clicked, this, &MainWindow::rotateLeft);
connect(rotateRightButton, &QPushButton::clicked, this, &MainWindow::rotateRight);
connect(upButton, &QPushButton::clicked, this, &MainWindow::translateUp);
connect(downButton, &QPushButton::clicked, this, &MainWindow::translateDown);
connect(leftButton, &QPushButton::clicked, this, &MainWindow::translateLeft);
connect(rightButton, &QPushButton::clicked, this, &MainWindow::translateRight);
connect(extractButton, &QPushButton::clicked, this, &MainWindow::extractTargets);
connect(classifyButton, &QPushButton::clicked, this, &MainWindow::classifyImage);
auto *controlBox = new QGroupBox(QStringLiteral("图像处理操作"), this);
auto *controlLayout = new QHBoxLayout(controlBox);
controlLayout->addWidget(new QLabel(QStringLiteral("缩放比例:"), this));
controlLayout->addWidget(scaleSpin_);
controlLayout->addWidget(scaleUpButton);
controlLayout->addWidget(scaleDownButton);
controlLayout->addSpacing(12);
controlLayout->addWidget(new QLabel(QStringLiteral("旋转角度:"), this));
controlLayout->addWidget(angleSpin_);
controlLayout->addWidget(rotateLeftButton);
controlLayout->addWidget(rotateRightButton);
controlLayout->addSpacing(12);
controlLayout->addWidget(new QLabel(QStringLiteral("平移距离:"), this));
controlLayout->addWidget(translateSpin_);
controlLayout->addWidget(upButton);
controlLayout->addWidget(downButton);
controlLayout->addWidget(leftButton);
controlLayout->addWidget(rightButton);
controlLayout->addSpacing(12);
controlLayout->addWidget(extractButton);
controlLayout->addWidget(classifyButton);
controlLayout->addStretch(1);
infoLabel_ = new QLabel(QStringLiteral("请打开一张图片开始处理。提示:鼠标滚轮可缩放视图,双击图片可适配窗口。"), this);
infoLabel_->setWordWrap(true);
auto *central = new QWidget(this);
auto *mainLayout = new QVBoxLayout(central);
mainLayout->addWidget(splitter, 1);
mainLayout->addWidget(controlBox);
mainLayout->addWidget(infoLabel_);
setCentralWidget(central);
statusLabel_ = new QLabel(QStringLiteral("就绪"), this);
statusBar()->addPermanentWidget(statusLabel_, 1);
setBusy(false);
}
void MainWindow::setupWorkerThread()
{
worker_ = new ImageWorker();
worker_->moveToThread(&workerThread_);
connect(&workerThread_, &QThread::finished, worker_, &QObject::deleteLater);
connect(this, &MainWindow::processRequested, worker_, &ImageWorker::process, Qt::QueuedConnection);
connect(worker_, &ImageWorker::finished, this, &MainWindow::onProcessFinished, Qt::QueuedConnection);
connect(worker_, &ImageWorker::failed, this, &MainWindow::onProcessFailed, Qt::QueuedConnection);
workerThread_.start();
}
void MainWindow::openImage()
{
const QString path = QFileDialog::getOpenFileName(
this,
QStringLiteral("打开图片"),
QString(),
QStringLiteral("图片文件 (*.png *.jpg *.jpeg *.bmp *.tif *.tiff);;所有文件 (*.*)"));
if (path.isEmpty()) {
return;
}
const std::string localPath = QFile::encodeName(path).toStdString();
cv::Mat image = cv::imread(localPath, cv::IMREAD_COLOR);
if (image.empty()) {
QMessageBox::warning(this, QStringLiteral("打开失败"), QStringLiteral("无法读取图片:%1").arg(path));
return;
}
originalImage_ = image;
processedImage_ = image.clone();
currentPath_ = path;
updateViews();
infoLabel_->setText(QStringLiteral("已打开:%1尺寸%2 × %3")
.arg(QFileInfo(path).fileName())
.arg(image.cols)
.arg(image.rows));
statusLabel_->setText(QStringLiteral("已打开图片"));
}
void MainWindow::saveImage()
{
if (!ensureHasImage()) {
return;
}
if (currentPath_.isEmpty()) {
saveImageAs();
return;
}
writeCurrentImageTo(currentPath_);
}
void MainWindow::saveImageAs()
{
if (!ensureHasImage()) {
return;
}
const QString path = QFileDialog::getSaveFileName(
this,
QStringLiteral("另存图片"),
currentPath_.isEmpty() ? QStringLiteral("processed.png") : currentPath_,
QStringLiteral("PNG 图片 (*.png);;JPEG 图片 (*.jpg *.jpeg);;BMP 图片 (*.bmp);;所有文件 (*.*)"));
if (path.isEmpty()) {
return;
}
if (writeCurrentImageTo(path)) {
currentPath_ = path;
}
}
void MainWindow::resetToOriginal()
{
if (!ensureHasImage()) {
return;
}
processedImage_ = originalImage_.clone();
updateViews();
infoLabel_->setText(QStringLiteral("已还原为原始图片"));
}
void MainWindow::onProcessFinished(ProcessResult result)
{
processedImage_ = result.image;
updateViews();
infoLabel_->setText(result.description);
statusLabel_->setText(QStringLiteral("处理完成"));
setBusy(false);
}
void MainWindow::onProcessFailed(const QString &message)
{
QMessageBox::warning(this, QStringLiteral("处理失败"), message);
statusLabel_->setText(QStringLiteral("处理失败"));
setBusy(false);
}
void MainWindow::rotateLeft()
{
requestProcess(ImageWorker::Operation::Rotate, -angleSpin_->value());
}
void MainWindow::rotateRight()
{
requestProcess(ImageWorker::Operation::Rotate, angleSpin_->value());
}
void MainWindow::scaleUp()
{
requestProcess(ImageWorker::Operation::Scale, scaleSpin_->value());
}
void MainWindow::scaleDown()
{
requestProcess(ImageWorker::Operation::Scale, 1.0 / scaleSpin_->value());
}
void MainWindow::translateUp()
{
requestProcess(ImageWorker::Operation::Translate, 0.0, 0, -translateSpin_->value());
}
void MainWindow::translateDown()
{
requestProcess(ImageWorker::Operation::Translate, 0.0, 0, translateSpin_->value());
}
void MainWindow::translateLeft()
{
requestProcess(ImageWorker::Operation::Translate, 0.0, -translateSpin_->value(), 0);
}
void MainWindow::translateRight()
{
requestProcess(ImageWorker::Operation::Translate, 0.0, translateSpin_->value(), 0);
}
void MainWindow::extractTargets()
{
requestProcess(ImageWorker::Operation::ExtractTargets);
}
void MainWindow::classifyImage()
{
requestProcess(ImageWorker::Operation::ClassifySimple);
}
void MainWindow::updateViews()
{
originalView_->setImage(ImageConverter::matToQImage(originalImage_));
processedView_->setImage(ImageConverter::matToQImage(processedImage_));
}
void MainWindow::setBusy(bool busy)
{
busy_ = busy;
saveAction_->setEnabled(!busy && !processedImage_.empty());
saveAsAction_->setEnabled(!busy && !processedImage_.empty());
if (busy) {
statusLabel_->setText(QStringLiteral("处理中..."));
}
}
bool MainWindow::ensureHasImage() const
{
if (processedImage_.empty()) {
QMessageBox::information(const_cast<MainWindow *>(this), QStringLiteral("提示"), QStringLiteral("请先打开图片。"));
return false;
}
return true;
}
void MainWindow::requestProcess(ImageWorker::Operation operation, double value, int dx, int dy)
{
if (busy_) {
return;
}
if (!ensureHasImage()) {
return;
}
setBusy(true);
Q_EMIT processRequested(processedImage_.clone(), operation, value, dx, dy);
}
bool MainWindow::writeCurrentImageTo(const QString &path)
{
if (processedImage_.empty()) {
return false;
}
const std::string localPath = QFile::encodeName(path).toStdString();
if (!cv::imwrite(localPath, processedImage_)) {
QMessageBox::warning(this, QStringLiteral("保存失败"), QStringLiteral("无法保存图片:%1").arg(path));
return false;
}
statusLabel_->setText(QStringLiteral("已保存图片"));
infoLabel_->setText(QStringLiteral("已保存处理后图片:%1").arg(path));
return true;
}

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@@ -1,20 +0,0 @@
#include <QApplication>
#include <QMetaType>
#include "MainWindow.h"
int main(int argc, char *argv[])
{
QApplication app(argc, argv);
QApplication::setApplicationName("chengnan");
QApplication::setOrganizationName("luochen570");
QApplication::setApplicationVersion(CHENGNAN_APP_VERSION);
qRegisterMetaType<cv::Mat>("cv::Mat");
MainWindow window;
window.resize(1280, 760);
window.show();
return QApplication::exec();
}

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param(
[Parameter(Mandatory = $true)]
[string]$QtPrefix,
[string]$BuildDir = "build-windows",
[string]$DistDir = "dist-windows\chengnan",
[string]$Generator = "Visual Studio 17 2022",
[string]$Arch = "x64",
[ValidateSet("Debug", "Release", "RelWithDebInfo", "MinSizeRel")]
[string]$Config = "Release"
)
$ErrorActionPreference = "Stop"
function Resolve-FullPath([string]$PathValue) {
if ([System.IO.Path]::IsPathRooted($PathValue)) {
return [System.IO.Path]::GetFullPath($PathValue)
}
return [System.IO.Path]::GetFullPath((Join-Path (Get-Location) $PathValue))
}
function Require-Command([string]$Name) {
$command = Get-Command $Name -ErrorAction SilentlyContinue
if (-not $command) {
throw "找不到命令:$Name。请先安装并加入 PATH。"
}
return $command.Source
}
$ProjectDir = Split-Path -Parent $MyInvocation.MyCommand.Path
Set-Location $ProjectDir
$QtPrefix = Resolve-FullPath $QtPrefix
$BuildPath = Resolve-FullPath $BuildDir
$DistPath = Resolve-FullPath $DistDir
$QtBin = Join-Path $QtPrefix "bin"
$WinDeployQt = Join-Path $QtBin "windeployqt.exe"
if (-not (Test-Path $QtPrefix)) {
throw "QtPrefix 不存在:$QtPrefix"
}
if (-not (Test-Path $WinDeployQt)) {
throw "找不到 windeployqt$WinDeployQt。请确认 -QtPrefix 指向 Qt 套件目录,例如 C:\Qt\6.7.2\msvc2019_64。"
}
Require-Command "cmake" | Out-Null
$env:PATH = "$QtBin;$env:PATH"
$env:CMAKE_PREFIX_PATH = $QtPrefix
Write-Host "== chengnan Windows 构建 ==" -ForegroundColor Cyan
Write-Host "项目目录:$ProjectDir"
Write-Host "Qt 目录:$QtPrefix"
Write-Host "构建目录:$BuildPath"
Write-Host "发布目录:$DistPath"
Write-Host "生成器:$Generator"
Write-Host "配置:$Config"
$configureArgs = @(
"-S", $ProjectDir,
"-B", $BuildPath,
"-G", $Generator,
"-DCMAKE_PREFIX_PATH=$QtPrefix"
)
if ($Generator -like "Visual Studio*") {
$configureArgs += @("-A", $Arch)
} else {
$configureArgs += "-DCMAKE_BUILD_TYPE=$Config"
}
Write-Host "`n== 配置 CMake ==" -ForegroundColor Cyan
& cmake @configureArgs
Write-Host "`n== 编译 ==" -ForegroundColor Cyan
& cmake --build $BuildPath --config $Config --parallel
$ExeCandidates = @(
(Join-Path $BuildPath "$Config\chengnan.exe"),
(Join-Path $BuildPath "chengnan.exe")
)
$ExePath = $ExeCandidates | Where-Object { Test-Path $_ } | Select-Object -First 1
if (-not $ExePath) {
throw "构建完成但找不到 chengnan.exe。已检查$($ExeCandidates -join ', ')"
}
Write-Host "`n== 准备发布目录 ==" -ForegroundColor Cyan
if (Test-Path $DistPath) {
Remove-Item -Recurse -Force $DistPath
}
New-Item -ItemType Directory -Force -Path $DistPath | Out-Null
Copy-Item $ExePath $DistPath
Write-Host "`n== 收集 Qt 运行库 ==" -ForegroundColor Cyan
$DistExe = Join-Path $DistPath "chengnan.exe"
& $WinDeployQt --release --no-translations $DistExe
Write-Host "`n构建完成:$DistExe" -ForegroundColor Green
Write-Host "请整体复制目录:$DistPath"

16
main.cpp Normal file
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#include "MainWindow.h"
#include <QApplication>
int main(int argc, char *argv[])
{
QApplication app(argc, argv);
QApplication::setApplicationName(QStringLiteral("chengnan"));
QApplication::setApplicationVersion(QStringLiteral(CHENGNAN_APP_VERSION));
QApplication::setOrganizationName(QStringLiteral("luochen570"));
MainWindow window;
window.show();
return QApplication::exec();
}

149
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# chengnan
项目链接:<https://git.luochen570.cn/luochen570/chengnan>
`chengnan` 是一个轻量级 Windows 图片查看器 / 简单图片处理工具,使用 **Qt Widgets + CMake + C++17** 开发。
## 功能
当前实现:
- 打开图片PNG、JPG、JPEG、BMP、GIF、WebP 等 Qt 支持的格式
- 保存当前图片
- 另存为 PNG / JPG / BMP 等格式
- 图片显示:使用 Qt Widgets不使用 OpenCV 窗口
- 缩放:工具栏滑块、放大、缩小、原始大小
- 双击图片适配窗口
- 旋转:左旋 90°、右旋 90°
- 翻转:水平翻转、垂直翻转
- 简单处理:灰度化、反色
## 文件结构
```text
chengnan/
├── CMakeLists.txt
├── MainWindow.cpp
├── MainWindow.h
├── build-windows.ps1
├── main.cpp
└── readme.md
```
## Windows 编译需要的工具
推荐环境Windows 10 / Windows 11 x64。
必须安装:
1. **Git for Windows**
- 下载:<https://git-scm.com/download/win>
- 用于克隆项目源码。
2. **CMake 3.16 或更高版本**
- 下载:<https://cmake.org/download/>
- 安装时建议勾选 `Add CMake to the system PATH`
3. **Qt 6 或 Qt 5包含 Widgets 模块**
- 下载:<https://www.qt.io/download-qt-installer-oss>
- 推荐安装 Qt 6.x 的 MSVC 64-bit 套件,例如 `msvc2019_64``msvc2022_64`
- 项目不依赖 OpenCV。
4. **Visual Studio 2022 Build Tools 或 Visual Studio 2022**
- 下载:<https://visualstudio.microsoft.com/zh-hans/downloads/>
- 需要安装组件:`使用 C++ 的桌面开发`
- 提供 MSVC 编译器和 Windows SDK。
可选工具:
- **Ninja**<https://github.com/ninja-build/ninja/releases>
- 如果使用 Ninja可以把 `build-windows.ps1``-Generator` 参数改成 `Ninja`
## 获取源码
```powershell
git clone https://git.luochen570.cn/luochen570/chengnan.git
cd chengnan
```
如果仓库主分支已切换到当前版本,直接构建即可;否则可手动切换:
```powershell
git checkout main
```
## 一键构建(推荐)
在 Windows PowerShell 中进入项目目录,然后执行:
```powershell
powershell -ExecutionPolicy Bypass -File .\build-windows.ps1 -QtPrefix "C:\Qt\6.7.2\msvc2019_64"
```
请把 `-QtPrefix` 改成你本机实际 Qt 安装目录。例如:
```powershell
powershell -ExecutionPolicy Bypass -File .\build-windows.ps1 -QtPrefix "C:\Qt\6.8.0\msvc2022_64"
```
脚本会完成:
1. 检查 Qt、CMake、编译器环境
2. 生成 CMake 构建目录
3. 编译 Release 版本
4. 调用 `windeployqt` 收集 Qt 运行库
5. 把发布文件放到 `dist-windows\chengnan`
构建成功后,运行:
```powershell
.\dist-windows\chengnan\chengnan.exe
```
## 手动构建
如果不使用脚本,也可以手动执行:
```powershell
cmake -S . -B build-windows -G "Visual Studio 17 2022" -A x64 -DCMAKE_PREFIX_PATH="C:\Qt\6.7.2\msvc2019_64"
cmake --build build-windows --config Release
```
打包 Qt 运行库:
```powershell
C:\Qt\6.7.2\msvc2019_64\bin\windeployqt.exe --release --no-translations build-windows\Release\chengnan.exe
```
## 常见问题
### 找不到 Qt
确认 `-QtPrefix` 指向 Qt 套件目录,而不是 Qt 根目录。例如应使用:
```text
C:\Qt\6.7.2\msvc2019_64
```
不要写成:
```text
C:\Qt
```
### 找不到 MSVC 编译器
请安装 Visual Studio 2022 的 `使用 C++ 的桌面开发`,然后在 “x64 Native Tools Command Prompt for VS 2022” 或已配置 VS 环境的 PowerShell 里运行构建脚本。
### exe 复制到其它电脑无法运行
请运行 `build-windows.ps1`,并整体复制 `dist-windows\chengnan` 文件夹,不要只复制单个 `chengnan.exe`
## 开发说明
- `main.cpp`:应用入口,创建并显示主窗口
- `MainWindow.h`:主窗口和图片标签类声明
- `MainWindow.cpp`:菜单、工具栏、图片显示和处理逻辑
- `CMakeLists.txt`Qt Widgets CMake 构建配置
- `build-windows.ps1`Windows 一键构建与打包脚本
- `readme.md`:项目说明文档