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55f73fd421 ... clearpilot

Author SHA1 Message Date
Brian Hanson
2331aa00a0 feat: dashcamd trip lifecycle, status indicator, CLAUDE.md updates
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dashcamd now waits for valid system time + GPS fix + drive gear before
starting a trip. Returns to waiting state on 10-min park timeout or
ignition off. Publishes DashcamState and per-trip DashcamFrames to
memory params. Status window shows stopped/waiting/recording states.

Updated CLAUDE.md with current display mode behavior, OmxEncoder port
details, speed limit warning thresholds, and dashcam param docs.

Co-Authored-By: Claude Opus 4.6 (1M context) <noreply@anthropic.com>
 2026-04-16 01:26:58 -05:00
Brian Hanson
dfb7b7404f fix: port OmxEncoder safety fixes from upstream FrogPilot 
- OMX_Init/OMX_Deinit managed per encoder instance lifecycle
- Proper error handling in constructor, encoder_open, encoder_close
- Null guards on done_out.pop() and handle in destructor
- Codec config written directly to codecpar (no codec_ctx)
- ffmpeg faststart remux on segment close
- Crash handler in dashcamd for diagnostics
- DashcamFrames param for live frame count in status window

Co-Authored-By: Claude Opus 4.6 (1M context) <noreply@anthropic.com>
 2026-04-16 01:13:41 -05:00
Brian Hanson
9ac334b7cf fix: dashcamd OMX crash on restart, add dashcam status indicator
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- Reset OMX subsystem (Deinit/Init) on dashcamd startup to clear stale
  encoder state from previous unclean exits
- Validate OMX output buffers before memcpy to prevent segfault
- Validate VisionBuf frame data before encoding
- Add dashcam row to status window showing recording state and disk usage

Co-Authored-By: Claude Opus 4.6 (1M context) <noreply@anthropic.com>
 2026-04-16 00:44:13 -05:00
Brian Hanson
3cbb81f9f1 fix: always show splash in park, nightrider transitions to screen off 
Removed nightrider exception that kept onroad UI visible in park.
Shifting to park from nightrider mode now auto-switches to screen off.

Co-Authored-By: Claude Opus 4.6 (1M context) <noreply@anthropic.com>
 2026-04-16 00:12:01 -05:00
Brian Hanson
3b47412100 feat: tap screen to wake from screen-off mode
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Tapping the touchscreen while in display mode 3 (screen off) resets
ScreenDisplayMode to 0 (auto-normal) and wakes the display.

Co-Authored-By: Claude Opus 4.6 (1M context) <noreply@anthropic.com>
 2026-04-15 23:59:52 -05:00
Brian Hanson
5e7c8bed52 fix: speed limit rounding, controlsd crashes, modeld calibration rate 
- Speed limit display uses round() instead of floor() to fix off-by-one
- Initialize driving_gear in controlsd __init__ to prevent AttributeError
- Fix gpsLocation capnp access (attribute style, not getter methods)
- Fix sm.valid dict access (brackets not parentheses)
- modeld runs full 20fps during calibration instead of throttled 4fps
- Over-speed warning threshold below 50mph changed from 5 to 7

Co-Authored-By: Claude Opus 4.6 (1M context) <noreply@anthropic.com>
 2026-04-15 23:55:19 -05:00
Brian Hanson
6cf21a3698 fix: debug button screen-off mode now works in park state 
updateWakefulness was overriding display power every frame when ignition
was on, fighting the screen-off set by home.cc. Now respects
ScreenDisplayMode 3 unconditionally. Also auto-resets to mode 0 when
shifting into drive from screen-off.

Co-Authored-By: Claude Opus 4.6 (1M context) <noreply@anthropic.com>
 2026-04-16 04:21:37 +00:00
Brian Hanson
adcffad276 feat: speed limit ding sound when cruise warning sign appears 
Plays a ding via soundd when the cruise warning sign becomes visible
(cruise set speed out of range vs speed limit) or when the speed limit
changes while the warning sign is already showing. Max 1 ding per 30s.

Ding is mixed independently into soundd output at max volume without
interrupting alert sounds. bench_cmd ding available for manual trigger.

Co-Authored-By: Claude Opus 4.6 (1M context) <noreply@anthropic.com>
 2026-04-15 03:49:02 +00:00
Brian Hanson
6e7117b177 feat: cruise warning signs and speed limit sign sizing 
Cruise warning sign appears above speed limit sign when cruise set
speed is too far from the speed limit:
- Red (over): cruise >= limit + 10 (if limit >= 50) or + 5 (if < 50)
- Green (under): cruise <= limit - 5
- Only when cruise active (not paused/disabled) and limit >= 20
- Nightrider mode: colored text/border on black background

Speed limit sign enlarged 5%. 20px gap between signs. Bench mode
gains cruiseactive command (0=disabled, 1=active, 2=paused).

Co-Authored-By: Claude Opus 4.6 (1M context) <noreply@anthropic.com>
 2026-04-15 03:33:27 +00:00
Brian Hanson
8ccdb47c88 feat: speed limit sign UI and speed processing pipeline 
New speed_logic.py module converts raw CAN speed limit and GPS speed
into display-ready params. Called from controlsd (live) and
bench_onroad (bench) at ~2Hz. UI reads params to render:
- Current speed (top center, hidden when 0 or no GPS)
- MUTCD speed limit sign (lower-left, normal + nightrider styles)
- Unit-aware display (mph/kph based on CAN DISTANCE_UNIT)

Co-Authored-By: Claude Opus 4.6 (1M context) <noreply@anthropic.com>
 2026-04-15 03:15:07 +00:00
Brian Hanson
b84c268b6e fix: standstill fan clamp 0-30% and bench mode always 30-100%
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Standstill quiet mode was clamped to 0-10% which is dangerously low
under sustained load. Raised to 0-30%. Bench mode now forces 30-100%
onroad fan range regardless of standstill to prevent overheating
during bench testing.

Co-Authored-By: Claude Opus 4.6 (1M context) <noreply@anthropic.com>
 2026-04-15 03:09:41 +00:00
Brian Hanson
ffa9da2f97 add root SSH config for git.hanson.xyz to on_start.sh 
Ensures git push works without GIT_SSH_COMMAND override. Idempotent —
skips if Host entry already exists in /root/.ssh/config.

Co-Authored-By: Claude Opus 4.6 (1M context) <noreply@anthropic.com>
 2026-04-15 03:00:55 +00:00
Brian Hanson
5e7911e599 move SSH key decryption from provision.sh to on_start.sh
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Keys now install to /root/.ssh/ (for root git operations) instead of
/data/ssh/.ssh/. Runs every boot via on_start.sh so keys are available
even without a full provision cycle.

Co-Authored-By: Claude Opus 4.6 (1M context) <noreply@anthropic.com>
 2026-04-15 02:59:34 +00:00
Brian Hanson
6fcd4b37ba fix: use wrapper script for claude instead of PATH modification 
Create /usr/local/bin/claude wrapper that remounts / read-write before
calling the real binary. Removes PATH append to ~/.bashrc which was
duplicating on every provision run.

Co-Authored-By: Claude Opus 4.6 (1M context) <noreply@anthropic.com>
 2026-04-15 02:57:40 +00:00
Brian Hanson
8d5903b945 fix: pass log_path to athenad launcher to fix crash loop 
manage_athenad was calling launcher() with only 2 args but the
per-process logging changes added a required log_path parameter.

Co-Authored-By: Claude Opus 4.6 (1M context) <noreply@anthropic.com>
 2026-04-15 02:48:47 +00:00
Brian Hanson
cea8926604 fix: correct git remote repo name to clearpilot.git 
Co-Authored-By: Claude Opus 4.6 (1M context) <noreply@anthropic.com>
 2026-04-15 02:44:55 +00:00
Brian Hanson
e98ae2f9d1 fix git remote: use SSH URL, add remote fixup step to provision.sh 
Provision script now checks and corrects the git origin URL to the
SSH remote before fetching updates. Also fixed CLAUDE.md to reflect
the correct hostname (git.hanson.xyz, not git.internal.hanson.xyz).

Co-Authored-By: Claude Opus 4.6 (1M context) <noreply@anthropic.com>
 2026-04-15 02:44:11 +00:00
Brian Hanson
531b3edcd2 fix: decrypt SSH keys to tmpdir instead of repo, gitignore ed25519 keys 
The decrypt step in provision.sh was writing decrypted private keys
directly into the source tree (system/clearpilot/dev/), leaving them
as untracked files in the repo. Now decrypts to a mktemp dir, copies
to the SSH dir, and cleans up. Also added ed25519 key paths to
.gitignore to match the existing id_rsa entries.

Co-Authored-By: Claude Opus 4.6 (1M context) <noreply@anthropic.com>
 2026-04-15 02:42:52 +00:00
Brian Hanson
f46339c949 switch SSH keys to ed25519, encrypt with hardware serial instead of DongleId
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- Generate new ed25519 keypair (replaces old RSA keys)
- Encrypt with device serial from /proc/cmdline (always available, no manager needed)
- Update decrypt/encrypt tools and provision.sh to use serial
- Remove dependency on DongleId param for SSH key provisioning

Co-Authored-By: Claude Opus 4.6 (1M context) <noreply@anthropic.com>
 2026-04-15 01:32:51 +00:00
Brian Hanson
21f71cbc37 Merge branch 'clearpilot' of https://git.hanson.xyz/brianhansonxyz/clearpilot into clearpilot 2026-04-15 01:26:46 +00:00
Brian Hanson
9d5c838fe3 fix fresh-install build: add preflight script, restore third_party binaries, remove WebEngine dep 
- Add build_preflight.sh to create obj/ dirs that git can't track (body/board/obj, panda/board/obj)
- Wire preflight into build_only.sh and launch_chffrplus.sh
- Restore missing third_party binaries (libyuv, snpe, acados, maplibre) that were text pointers
- Remove dead Qt5WebEngineWidgets dependency from UI SConscript

Co-Authored-By: Claude Opus 4.6 (1M context) <noreply@anthropic.com>
 2026-04-15 01:26:40 +00:00
brian
4283a3d3f7 provision: add ccrypt, nodejs, claude, ssh identity keys, fix scons obj dirs
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- Install ccrypt, nodejs 18, npm, claude code in provision
- Decrypt id_rsa/id_rsa.pub via dongle ID and install to /data/ssh/.ssh/
- Run provision directly instead of through qt_shell wrapper
- Fix panda and body SConscripts to mkdir obj/ before writing gitversion.h
- Add sudo to su - comma build call
- Remount / rw at top of provision

Co-Authored-By: Claude Opus 4.6 (1M context) <noreply@anthropic.com>
 2026-04-14 20:18:36 -05:00
brian
7221c8e216 move SSH setup to on_start.sh, runs unconditionally before provision
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SSH keys and sshd start immediately on every boot, not gated behind
quick_boot or dongle check. Provision script only handles packages,
git pull, and build.

Co-Authored-By: Claude Opus 4.6 (1M context) <noreply@anthropic.com>
 2026-04-14 19:13:28 -05:00
brian
1e150bc487 provision: show output on screen via qt_shell, capture stderr
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- on_start.sh runs provision through qt_shell for on-screen display
- provision_wrapper.sh redirects stderr to stdout so errors are visible
- provision.sh: SSH setup before WiFi wait, verbose echo output,
  sleep on failure so messages are readable

Co-Authored-By: Claude Opus 4.6 (1M context) <noreply@anthropic.com>
 2026-04-14 18:46:20 -05:00
brian
2b481b6656 provision: simplify boot with quick_boot flag, auto-update from git 
- on_start.sh: always enables WiFi, waits 30s for connectivity if
  no /data/quick_boot, then runs provision.sh
- New provision.sh: sets up SSH keys, installs openvpn, pulls latest
  code from remote (hard reset, remote wins), runs build_only.sh,
  touches /data/quick_boot on success
- Delete old dev/on_start.sh, dev/provision.sh, dev/on_start_brian.sh.cpt
  (encrypted key decryption no longer needed)

Co-Authored-By: Claude Opus 4.6 (1M context) <noreply@anthropic.com>
 2026-04-14 18:41:06 -05:00
brian
4d0e4efd6f add root@concordia SSH keys for new device provisioning
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Co-Authored-By: Claude Opus 4.6 (1M context) <noreply@anthropic.com>
 2026-04-14 15:15:12 -05:00
110 changed files with 6306 additions and 670 deletions
Expand all files Collapse all files

2
.gitignore vendored
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@@ -2,6 +2,8 @@ prebuilt
system/clearpilot/dev/on_start_brian.sh
system/clearpilot/dev/id_rsa
system/clearpilot/dev/id_rsa.pub
system/clearpilot/dev/id_ed25519
system/clearpilot/dev/id_ed25519.pub
venv/
.venv/
.ci_cache

46
CLAUDE.md
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@@ -15,7 +15,7 @@ ClearPilot is a custom fork of **FrogPilot** (itself a fork of comma.ai's openpi
- **Native dashcamd**: C++ process capturing raw camera frames via VisionIPC with OMX H.264 hardware encoding
- **Standstill power saving**: model inference throttled to 1fps and fan quieted when car is stopped
- **ClearPilot menu**: sidebar settings panel replacing stock home screen (Home, Dashcam, Debug panels)
- **Status window**: live system stats (temp, fan, storage, RAM, WiFi, VPN, GPS, telemetry status)
- **Status window**: live system stats (temp, fan, storage, RAM, WiFi, VPN, GPS, telemetry, dashcam status)
- **Debug button (LFA)**: steering wheel button repurposed for screen toggle and future UI actions
- **Telemetry system**: diff-based CSV logger via ZMQ IPC, toggleable from Debug panel
- **Bench mode**: `--bench` flag for onroad UI testing without car connected
@@ -47,7 +47,7 @@ chown -R comma:comma /data/openpilot
### Git
- Remote: `git@git.internal.hanson.xyz:brianhansonxyz/comma.git`
- Remote: `git@git.hanson.xyz:brianhansonxyz/clearpilot.git`
- Branch: `clearpilot`
- Large model files are tracked in git (intentional — this is a backup)
@@ -101,7 +101,7 @@ ClearPilot uses memory params (`/dev/shm/params/d/`) for UI toggles that should
- **Python access**: Use `Params("/dev/shm/params")`
- **Defaults**: Set in `manager_init()` via `Params("/dev/shm/params").put(key, value)`
- **UI toggles**: Use `ToggleControl` with manual `toggleFlipped` lambda that writes via `Params("/dev/shm/params")`. Do NOT use `ParamControl` for memory params — it reads/writes persistent params only
- **Current memory params**: `TelemetryEnabled` (default "0"), `VpnEnabled` (default "1"), `ModelStandby` (default "0"), `ScreenDisplayMode`
- **Current memory params**: `TelemetryEnabled` (default "0"), `VpnEnabled` (default "1"), `ModelStandby` (default "0"), `ScreenDisplayMode`, `DashcamState` (default "stopped"), `DashcamFrames` (default "0")
- **IMPORTANT — method names differ between C++ and Python**: C++ uses camelCase (`putBool`, `getBool`, `getInt`), Python uses snake_case (`put_bool`, `get_bool`, `get_int`). This is a common source of silent failures — the wrong casing compiles/runs but doesn't work.
### Building Native (C++) Processes
@@ -245,20 +245,21 @@ A single `session.log` in each session directory records major events:
- **Segment length**: 3 minutes per file
- **Save path**: `/data/media/0/videos/YYYYMMDD-HHMMSS/YYYYMMDD-HHMMSS.mp4` (trip directories)
- **GPS subtitles**: companion `.srt` file per segment with 1Hz entries (speed MPH, lat/lon, UTC timestamp)
- **Trip lifecycle**: starts recording on launch with 10-min idle timer; car in drive cancels timer; park/off restarts timer; ignition cycle = new trip
- **Trip lifecycle**: waits in WAITING state until valid system time + GPS fix + car in drive; records until car parked 10 min or ignition off; then returns to WAITING
- **Graceful shutdown**: thermald sets `DashcamShutdown` param, dashcamd closes segment and acks within 15s
- **Storage**: ~56 MB per 3-minute segment at 2500 kbps
- **Storage**: ~56 MB per 3-minute segment at 2500 kbps (verified: actual bitrate ~2570 kbps)
- **Crash handler**: SIGSEGV/SIGABRT handler writes backtrace to `/tmp/dashcamd_crash.log`
- **Storage device**: WDC SDINDDH4-128G UFS 2.1 — automotive grade, ~384 TB write endurance, no concern for continuous writes
### Key Differences from Old Screen Recorder
### OmxEncoder
| | Old (screen recorder) | New (dashcamd) |
|---|---|---|
| Source | `QWidget::grab()` screen capture | Raw NV12 from VisionIPC |
| Resolution | 1440x720 | 1928x1208 |
| Works with screen off | No (needs visible widget) | Yes (independent of UI) |
| Process type | Part of UI process | Standalone native process |
| Encoder input | RGBA -> NV12 conversion | NV12 direct (added `encode_frame_nv12`) |
The OMX encoder (`selfdrive/frogpilot/screenrecorder/omx_encoder.cc`) was ported from upstream FrogPilot with the following key properties:
- Each encoder instance calls `OMX_Init()` in constructor and `OMX_Deinit()` in destructor — manages its own OMX lifecycle
- Constructor takes 5 args: `(path, width, height, fps, bitrate)` — no h265/downscale params
- `encoder_close()` calls `av_write_trailer` + ffmpeg faststart remux (`-movflags +faststart`)
- Destructor has null guards and error handling on all OMX state transitions
- ClearPilot addition: `encode_frame_nv12()` for direct NV12 input (dashcamd), alongside original `encode_frame_rgba()` (screen recorder)
### Key Files
@@ -266,7 +267,7 @@ A single `session.log` in each session directory records major events:
|------|------|
| `selfdrive/clearpilot/dashcamd.cc` | Main dashcam process — VisionIPC -> OMX encoder |
| `selfdrive/clearpilot/SConscript` | Build config for dashcamd |
| `selfdrive/frogpilot/screenrecorder/omx_encoder.cc` | OMX encoder (added `encode_frame_nv12` method) |
| `selfdrive/frogpilot/screenrecorder/omx_encoder.cc` | OMX encoder (upstream FrogPilot port + `encode_frame_nv12`) |
| `selfdrive/frogpilot/screenrecorder/omx_encoder.h` | Encoder header |
| `selfdrive/manager/process_config.py` | dashcamd registered as NativeProcess, camerad always_run, encoderd disabled |
| `system/loggerd/deleter.py` | Trip-aware storage rotation (oldest trip first, then segments within active trip) |
@@ -275,12 +276,14 @@ A single `session.log` in each session directory records major events:
- `DashcamDebug` — when `"1"`, dashcamd runs even without car connected (for bench testing)
- `DashcamShutdown` — set by thermald before power-off, dashcamd acks by clearing it
- `DashcamState` (memory param) — "stopped", "waiting", or "recording" — published every 5s
- `DashcamFrames` (memory param) — per-trip encoded frame count, resets each trip — published every 5s
## Standstill Power Saving
When `carState.standstill` is true:
- **modeld**: skips GPU inference on 19/20 frames (1fps vs 20fps), reports 0 frame drops to avoid triggering `modeldLagging` in controlsd
- **modeld**: skips GPU inference on 19/20 frames (1fps vs 20fps), reports 0 frame drops to avoid triggering `modeldLagging` in controlsd. Runs full 20fps during calibration (`liveCalibration.calStatus != calibrated`)
- **dmonitoringmodeld**: same 1fps throttle, added `carState` subscription
- **Fan controller**: uses offroad clamps (0-30%) instead of onroad (30-100%) at standstill; thermal protection still active via feedforward if temp > 60°C
@@ -321,6 +324,12 @@ The Hyundai Tucson's LFA steering wheel button cycles through 5 display modes vi
**Not in drive (parked/off):** any except 3 → 3 (screen off), state 3 → 0 (auto-normal)
**Shift to drive from screen off:** auto-resets to mode 0 (auto-normal) via `controlsd`
**Shift to park from nightrider:** auto-switches to mode 3 (screen off) via `home.cc`
**Tap screen while screen off:** resets to mode 0 (auto-normal) via `window.cc` touch handler
### Nightrider Mode
- Camera feed suppressed (OpenGL clears to black instead of rendering camera texture)
@@ -357,7 +366,10 @@ Display power is managed by `Device::updateWakefulness()` in `selfdrive/ui/ui.cc
- **Ignition off (offroad)**: screen blanks after `ScreenTimeout` seconds (default 120) of no touch. Tapping wakes it.
- **Ignition on (onroad)**: screen stays on unconditionally — ignition=true short-circuits the timeout check.
- **Debug button (LFA)**: cycles through display modes including screen off (state 3). Only state 3 calls `Hardware::set_display_power(false)`.
- **ScreenDisplayMode 3 override**: `updateWakefulness` checks `ScreenDisplayMode` first — if mode 3, calls `setAwake(false)` unconditionally, preventing ignition-on from overriding screen-off.
- **Debug button (LFA)**: cycles through display modes including screen off (state 3).
- **Park transition**: always shows splash screen; if coming from nightrider mode, auto-switches to screen off (mode 3) via `home.cc`.
- **Touch wake**: tapping screen while in mode 3 resets to mode 0 via `window.cc` event filter.
## Offroad UI (ClearPilot Menu)
@@ -500,7 +512,7 @@ Power On
- **GPS data**: logged directly by telemetryd via cereal `gpsLocation` subscription at 1Hz — group: `gps` (latitude, longitude, speed, altitude, bearing, accuracy)
- **CSV location**: `/data/log2/current/telemetry.csv` (or session directory)
- **Onroad overlay**: when telemetry enabled, status bar shows temp, fan %, model FPS, and STANDSTILL indicator
- **Speed limit**: `speed_limit.calculated` is the final computed speed limit value (in vehicle units, MPH when `is_metric=False`). This is the value that will be used for the future speed limit warning chime feature
- **Speed limit**: processed by `selfdrive/clearpilot/speed_logic.py` (SpeedState class), converts m/s to display units, writes to memory params. Cruise warning signs appear when cruise set speed exceeds speed limit by threshold (10 mph if limit >= 50, 7 mph if < 50) or is 5+ mph under. Ding sound plays when warning sign appears or speed limit changes while visible (30s cooldown)
### Key Dependencies

1
body/board/SConscript
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@@ -121,6 +121,7 @@ def objcopy(source, target, env, for_signature):
return '$OBJCOPY -O binary %s %s' % (source[0], target[0])
# Common autogenerated includes
os.makedirs("obj", exist_ok=True)
git_ver = get_version(BUILDER, BUILD_TYPE)
with open("obj/gitversion.h", "w") as f:
f.write(f'const uint8_t gitversion[8] = "{git_ver}";\n')

3
build_only.sh
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@@ -29,6 +29,9 @@ export PYTHONPATH="$BASEDIR"
sudo chgrp gpu /dev/adsprpc-smd /dev/ion /dev/kgsl-3d0 2>/dev/null
sudo chmod 660 /dev/adsprpc-smd /dev/ion /dev/kgsl-3d0 2>/dev/null
# Preflight: create dirs git can't track
source "$BASEDIR/build_preflight.sh"
cd "$BASEDIR/selfdrive/manager"
rm -f "$BASEDIR/prebuilt"

11
build_preflight.sh Normal file
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@@ -0,0 +1,11 @@
#!/usr/bin/bash
# CLEARPILOT: build preflight — create directories and fix state that
# git cannot track but the build requires. Called by build_only.sh and
# launch_chffrplus.sh before scons runs.
BASEDIR="${BASEDIR:-/data/openpilot}"
# SConscript files write generated headers into obj/ directories at
# parse time — these must exist before scons starts.
mkdir -p "$BASEDIR/body/board/obj"
mkdir -p "$BASEDIR/panda/board/obj"

13
common/params.cc
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@@ -110,6 +110,8 @@ std::unordered_map<std::string, uint32_t> keys = {
{"CurrentBootlog", PERSISTENT},
{"CurrentRoute", CLEAR_ON_MANAGER_START | CLEAR_ON_ONROAD_TRANSITION},
{"DashcamDebug", PERSISTENT},
{"DashcamFrames", PERSISTENT},
{"DashcamState", PERSISTENT},
{"DashcamShutdown", CLEAR_ON_MANAGER_START},
{"DisableLogging", CLEAR_ON_MANAGER_START | CLEAR_ON_ONROAD_TRANSITION},
{"DisablePowerDown", PERSISTENT},
@@ -217,6 +219,7 @@ std::unordered_map<std::string, uint32_t> keys = {
// FrogPilot parameters
{"AccelerationPath", PERSISTENT},
{"BenchCruiseActive", CLEAR_ON_MANAGER_START},
{"BenchCruiseSpeed", CLEAR_ON_MANAGER_START},
{"ClpUiState", CLEAR_ON_MANAGER_START},
{"BenchEngaged", CLEAR_ON_MANAGER_START},
@@ -250,6 +253,16 @@ std::unordered_map<std::string, uint32_t> keys = {
{"CarSpeedLimitWarning", PERSISTENT},
{"CarSpeedLimitLiteral", PERSISTENT},
{"CarIsMetric", PERSISTENT},
{"ClearpilotSpeedDisplay", PERSISTENT},
{"ClearpilotSpeedLimitDisplay", PERSISTENT},
{"ClearpilotHasSpeed", PERSISTENT},
{"ClearpilotIsMetric", PERSISTENT},
{"ClearpilotSpeedUnit", PERSISTENT},
{"ClearpilotCruiseWarning", PERSISTENT},
{"ClearpilotCruiseWarningSpeed", PERSISTENT},
{"ClearpilotPlayDing", PERSISTENT},
// {"SpeedLimitLatDesired", PERSISTENT},
// {"SpeedLimitVTSC", PERSISTENT},

3
launch_chffrplus.sh
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@@ -85,6 +85,9 @@ function launch {
# write tmux scrollback to a file
tmux capture-pane -pq -S-1000 > /tmp/launch_log
# Preflight: create dirs git can't track
source "$DIR/build_preflight.sh"
# start manager
cd selfdrive/manager
if [ ! -f $DIR/prebuilt ]; then

1
panda/SConscript
View File

@@ -166,6 +166,7 @@ Export('base_project_f4', 'base_project_h7', 'build_project')
# Common autogenerated includes
os.makedirs("board/obj", exist_ok=True)
with open("board/obj/gitversion.h", "w") as f:
f.write(f'const uint8_t gitversion[] = "{get_version(BUILDER, BUILD_TYPE)}";\n')

4
selfdrive/athena/manage_athenad.py
View File

@@ -32,7 +32,9 @@ def main():
continue
cloudlog.info("starting athena daemon")
proc = Process(name='athenad', target=launcher, args=('selfdrive.athena.athenad', 'athenad'))
from openpilot.selfdrive.manager.process import _log_dir
log_path = _log_dir + "/athenad.log"
proc = Process(name='athenad', target=launcher, args=('selfdrive.athena.athenad', 'athenad', log_path))
proc.start()
proc.join()
cloudlog.event("athenad exited", exitcode=proc.exitcode)

2
selfdrive/car/hyundai/carstate.py
View File

@@ -212,6 +212,7 @@ class CarState(CarStateBase):
# self.params_memory.put_int("CarSpeedLimitLiteral", self.calculate_speed_limit(cp, cp_cam))
self.params_memory.put_float("CarSpeedLimit", self.calculate_speed_limit(cp, cp_cam) * speed_conv)
self.params_memory.put("CarIsMetric", "1" if self.is_metric else "0")
self.params_memory.put_float("CarCruiseDisplayActual", cp_cruise.vl["SCC11"]["VSetDis"])
@@ -420,6 +421,7 @@ class CarState(CarStateBase):
# print(self.calculate_speed_limit(cp, cp_cam))
# self.params_memory.put_float("CarSpeedLimitLiteral", self.calculate_speed_limit(cp, cp_cam))
self.params_memory.put_float("CarSpeedLimit", self.calculate_speed_limit(cp, cp_cam) * speed_factor)
self.params_memory.put("CarIsMetric", "1" if self.is_metric else "0")
# CLEARPILOT: telemetry logging — disabled, re-enable when needed
# speed_limit_bus = cp if self.CP.flags & HyundaiFlags.CANFD_HDA2 else cp_cam

7
selfdrive/clearpilot/bench_cmd.py
View File

@@ -7,7 +7,9 @@ Usage:
python3 -m selfdrive.clearpilot.bench_cmd speed 20
python3 -m selfdrive.clearpilot.bench_cmd speedlimit 45
python3 -m selfdrive.clearpilot.bench_cmd cruise 55
python3 -m selfdrive.clearpilot.bench_cmd cruiseactive 0|1|2 (0=disabled, 1=active, 2=paused)
python3 -m selfdrive.clearpilot.bench_cmd engaged 1
python3 -m selfdrive.clearpilot.bench_cmd ding (trigger speed limit ding sound)
python3 -m selfdrive.clearpilot.bench_cmd debugbutton (simulate LKAS debug button press)
python3 -m selfdrive.clearpilot.bench_cmd dump
python3 -m selfdrive.clearpilot.bench_cmd wait_ready
@@ -89,6 +91,7 @@ def main():
"speed": "BenchSpeed",
"speedlimit": "BenchSpeedLimit",
"cruise": "BenchCruiseSpeed",
"cruiseactive": "BenchCruiseActive",
"engaged": "BenchEngaged",
}
@@ -106,6 +109,10 @@ def main():
elif cmd == "wait_ready":
wait_ready()
elif cmd == "ding":
params.put("ClearpilotPlayDing", "1")
print("Ding triggered")
elif cmd == "debugbutton":
# Simulate LKAS debug button — same state machine as controlsd.clearpilot_state_control()
current = params.get_int("ScreenDisplayMode")

27
selfdrive/clearpilot/bench_onroad.py
View File

@@ -8,6 +8,7 @@ configurable vehicle state. Control values via params in /dev/shm/params:
BenchSpeed - vehicle speed in mph (default: 0)
BenchSpeedLimit - speed limit in mph (default: 0, 0=hidden)
BenchCruiseSpeed - cruise set speed in mph (default: 0, 0=not set)
BenchCruiseActive - 0=disabled, 1=active, 2=paused/standstill (default: 0)
BenchGear - P, D, R, N (default: P)
BenchEngaged - 0 or 1, cruise engaged (default: 0)
@@ -21,8 +22,8 @@ import time
import cereal.messaging as messaging
from cereal import log, car
from openpilot.common.params import Params
MS_PER_MPH = 0.44704
from openpilot.common.conversions import Conversions as CV
from openpilot.selfdrive.clearpilot.speed_logic import SpeedState
def main():
@@ -33,9 +34,13 @@ def main():
params_mem.put("BenchSpeed", "0")
params_mem.put("BenchSpeedLimit", "0")
params_mem.put("BenchCruiseSpeed", "0")
params_mem.put("BenchCruiseActive", "0")
params_mem.put("BenchGear", "P")
params_mem.put("BenchEngaged", "0")
# ClearPilot speed processing
speed_state = SpeedState()
# thermald handles deviceState (reads our fake pandaStates for ignition)
pm = messaging.PubMaster([
"pandaStates", "carState", "controlsState",
@@ -61,11 +66,25 @@ def main():
speed_limit_mph = float((params_mem.get("BenchSpeedLimit", encoding="utf-8") or "0").strip())
cruise_mph = float((params_mem.get("BenchCruiseSpeed", encoding="utf-8") or "0").strip())
gear_str = (params_mem.get("BenchGear", encoding="utf-8") or "P").strip().upper()
cruise_active_str = (params_mem.get("BenchCruiseActive", encoding="utf-8") or "0").strip()
engaged = (params_mem.get("BenchEngaged", encoding="utf-8") or "0").strip() == "1"
speed_ms = speed_mph * MS_PER_MPH
speed_ms = speed_mph * CV.MPH_TO_MS
speed_limit_ms = speed_limit_mph * CV.MPH_TO_MS
cruise_ms = cruise_mph * CV.MPH_TO_MS
gear = gear_map.get(gear_str, car.CarState.GearShifter.park)
# Cruise state: 0=disabled, 1=active, 2=paused
cruise_active = cruise_active_str == "1"
cruise_standstill = cruise_active_str == "2"
# ClearPilot speed processing (~2 Hz at 10 Hz loop)
if frame % 5 == 0:
has_speed = speed_mph > 0
speed_state.update(speed_ms, has_speed, speed_limit_ms, is_metric=False,
cruise_speed_ms=cruise_ms, cruise_active=cruise_active or cruise_standstill,
cruise_standstill=cruise_standstill)
# pandaStates — 10 Hz (thermald reads ignition from this)
if frame % 1 == 0:
dat = messaging.new_message("pandaStates", 1)
@@ -82,7 +101,7 @@ def main():
cs.standstill = speed_ms < 0.1
cs.cruiseState.available = True
cs.cruiseState.enabled = engaged
cs.cruiseState.speed = cruise_mph * MS_PER_MPH if cruise_mph > 0 else 0
cs.cruiseState.speed = cruise_mph * CV.MPH_TO_MS if cruise_mph > 0 else 0
pm.send("carState", dat)
# controlsState — 10 Hz

BIN
selfdrive/clearpilot/dashcamd
View File

Binary file not shown.

193
selfdrive/clearpilot/dashcamd.cc
View File

@@ -7,49 +7,39 @@
* Trip directory structure:
* /data/media/0/videos/YYYYMMDD-HHMMSS/ (trip directory, named at trip start)
* YYYYMMDD-HHMMSS.mp4 (3-minute segments)
* YYYYMMDD-HHMMSS.srt (GPS subtitle sidecar)
*
* Trip lifecycle state machine:
*
* On process start (after time-valid wait):
* - Create trip directory, start recording immediately with 10-min idle timer
* - If car is already in drive, timer is cancelled and recording continues
* - If car stays parked/off for 10 minutes, trip ends
* WAITING:
* - Process starts in this state
* - Waits for valid system time (year >= 2024) AND car in drive gear
* - Transitions to RECORDING when both conditions met
*
* IDLE_TIMEOUT → RECORDING:
* - Car enters drive gear before timer expires → cancel timer, resume recording
* in the same trip (no new trip directory)
* RECORDING:
* - Actively encoding frames, car is in drive
* - Car leaves drive → start 10-min idle timer → IDLE_TIMEOUT
*
* RECORDING → IDLE_TIMEOUT:
* - Car leaves drive gear (park, off, neutral) → start 10-minute idle timer,
* continue recording frames during the timeout period
*
* IDLE_TIMEOUT → TRIP_ENDED:
* - 10-minute timer expires → close segment, trip is over
*
* TRIP_ENDED → RECORDING (new trip):
* - Car enters drive gear → create new trip directory, start recording
*
* Any state → (new trip) on ignition off→on:
* - Ignition transitions off→on → close current trip if active, create new trip
* directory, start recording with 10-min idle timer. This applies even from
* TRIP_ENDED — turning the car on always starts a new trip. If the car is in
* park after ignition on, the idle timer runs; entering drive cancels it.
* IDLE_TIMEOUT:
* - Car left drive, still recording with timer running
* - Car re-enters drive → cancel timer → RECORDING
* - Timer expires → close trip → WAITING
* - Ignition off → close trip → WAITING
*
* Graceful shutdown (DashcamShutdown param):
* - thermald sets DashcamShutdown="1" before device power-off
* - dashcamd closes current segment, sets DashcamShutdown="0" (ack), exits
* - thermald waits up to 15s for ack, then proceeds with shutdown
* - dashcamd closes current segment, acks, exits
*
* GPS subtitle track:
* - Each .mp4 segment has a companion .srt subtitle file
* - Updated at most once per second from gpsLocation cereal messages
* - Format: "35 MPH | 44.9216°N 93.3260°W | 2026-04-13 05:19:00 UTC"
* - Most players auto-detect .srt files alongside .mp4 files
* Published params (memory, every 5s):
* - DashcamState: "waiting" or "recording"
* - DashcamFrames: per-trip encoded frame count (resets each trip)
*/
#include <cstdio>
#include <ctime>
#include <string>
#include <signal.h>
#include <execinfo.h>
#include <sys/stat.h>
#include <sys/resource.h>
#include <unistd.h>
@@ -73,10 +63,9 @@ const double IDLE_TIMEOUT_SECONDS = 600.0; // 10 minutes
ExitHandler do_exit;
enum TripState {
IDLE, // no trip active, waiting for drive
WAITING, // no trip, waiting for valid time + drive gear
RECORDING, // actively recording, car in drive
IDLE_TIMEOUT, // car parked/off, recording with 10-min timer
TRIP_ENDED, // trip closed, waiting for next drive
IDLE_TIMEOUT, // car left drive, recording with 10-min timer
};
static std::string make_timestamp() {
@@ -115,21 +104,26 @@ static std::string srt_time(int seconds) {
return std::string(buf);
}
static void crash_handler(int sig) {
FILE *f = fopen("/tmp/dashcamd_crash.log", "w");
if (f) {
fprintf(f, "CRASH: signal %d\n", sig);
void *bt[30];
int n = backtrace(bt, 30);
backtrace_symbols_fd(bt, n, fileno(f));
fclose(f);
}
_exit(1);
}
int main(int argc, char *argv[]) {
signal(SIGSEGV, crash_handler);
signal(SIGABRT, crash_handler);
setpriority(PRIO_PROCESS, 0, -10);
// Ensure base output directory exists
mkdir(VIDEOS_BASE.c_str(), 0755);
// Wait for valid system time so trip/segment names have real timestamps
LOGW("dashcamd: waiting for system time");
while (!do_exit) {
if (system_time_valid()) break;
usleep(1000000); // 1 Hz poll
}
if (do_exit) return 0;
LOGW("dashcamd: system time valid");
LOGW("dashcamd: started, connecting to camerad road stream");
VisionIpcClient vipc("camerad", VISION_STREAM_ROAD, false);
while (!do_exit && !vipc.connect(false)) {
@@ -156,51 +150,50 @@ int main(int argc, char *argv[]) {
// Subscribe to carState (gear), deviceState (ignition), gpsLocation (subtitles)
SubMaster sm({"carState", "deviceState", "gpsLocation"});
Params params;
Params params_memory("/dev/shm/params");
// Trip state
TripState state = IDLE;
TripState state = WAITING;
OmxEncoder *encoder = nullptr;
std::string trip_dir;
int frame_count = 0;
int frame_count = 0; // per-segment (for rotation)
int trip_frames = 0; // per-trip (published to params)
int recv_count = 0;
uint64_t segment_start_ts = 0;
double idle_timer_start = 0.0;
// SRT subtitle state
FILE *srt_file = nullptr;
int srt_index = 0; // subtitle entry counter (1-based)
int srt_segment_sec = 0; // seconds elapsed in current segment
double last_srt_write = 0; // monotonic time of last SRT write
int srt_index = 0;
int srt_segment_sec = 0;
double last_srt_write = 0;
// Ignition tracking for off→on detection
// Ignition tracking
bool prev_started = false;
bool started_initialized = false;
// Param check throttle (don't hit filesystem every frame)
// Param publish throttle
int param_check_counter = 0;
double last_param_write = 0;
// Helper: start a new trip with recording + optional idle timer
// Publish initial state
params_memory.put("DashcamState", "waiting");
params_memory.put("DashcamFrames", "0");
LOGW("dashcamd: entering main loop in WAITING state");
// Helper: start a new trip
auto start_new_trip = [&]() {
// Close existing encoder if any
if (encoder) {
if (state == RECORDING || state == IDLE_TIMEOUT) {
encoder->encoder_close();
}
delete encoder;
encoder = nullptr;
}
trip_dir = VIDEOS_BASE + "/" + make_timestamp();
mkdir(trip_dir.c_str(), 0755);
LOGW("dashcamd: new trip %s", trip_dir.c_str());
encoder = new OmxEncoder(trip_dir.c_str(), width, height, CAMERA_FPS, BITRATE, false, false);
encoder = new OmxEncoder(trip_dir.c_str(), width, height, CAMERA_FPS, BITRATE);
std::string seg_name = make_timestamp();
LOGW("dashcamd: opening segment %s", seg_name.c_str());
encoder->encoder_open((seg_name + ".mp4").c_str());
// Open companion SRT file
std::string srt_path = trip_dir + "/" + seg_name + ".srt";
srt_file = fopen(srt_path.c_str(), "w");
srt_index = 0;
@@ -208,38 +201,38 @@ int main(int argc, char *argv[]) {
last_srt_write = 0;
frame_count = 0;
trip_frames = 0;
segment_start_ts = nanos_since_boot();
state = RECORDING;
params_memory.put("DashcamState", "recording");
params_memory.put("DashcamFrames", "0");
};
// Helper: close current trip
auto close_trip = [&]() {
if (srt_file) { fclose(srt_file); srt_file = nullptr; }
if (encoder) {
if (state == RECORDING || state == IDLE_TIMEOUT) {
encoder->encoder_close();
LOGW("dashcamd: segment closed");
}
encoder->encoder_close();
LOGW("dashcamd: segment closed");
delete encoder;
encoder = nullptr;
}
state = TRIP_ENDED;
state = WAITING;
frame_count = 0;
trip_frames = 0;
idle_timer_start = 0.0;
LOGW("dashcamd: trip ended");
};
LOGW("dashcamd: trip ended, returning to WAITING");
// Start recording immediately — if the car is in drive, great; if parked/off,
// the 10-min idle timer will stop the trip if drive is never detected.
start_new_trip();
idle_timer_start = nanos_since_boot() / 1e9;
state = IDLE_TIMEOUT;
LOGW("dashcamd: recording started, waiting for drive (10-min idle timer active)");
params_memory.put("DashcamState", "waiting");
params_memory.put("DashcamFrames", "0");
};
while (!do_exit) {
VisionBuf *buf = vipc.recv();
if (buf == nullptr) continue;
// CLEARPILOT: skip frames to match target FPS (SOURCE_FPS -> CAMERA_FPS)
// Skip frames to match target FPS (SOURCE_FPS -> CAMERA_FPS)
recv_count++;
if (SOURCE_FPS > CAMERA_FPS && (recv_count % (SOURCE_FPS / CAMERA_FPS)) != 0) continue;
@@ -257,25 +250,21 @@ int main(int argc, char *argv[]) {
gear == cereal::CarState::GearShifter::LOW ||
gear == cereal::CarState::GearShifter::MANUMATIC);
// Detect ignition off→on transition (new ignition cycle = new trip)
if (started_initialized && !prev_started && started) {
LOGW("dashcamd: ignition on — new cycle");
// Detect ignition off → close any active trip
if (started_initialized && prev_started && !started) {
LOGW("dashcamd: ignition off");
if (state == RECORDING || state == IDLE_TIMEOUT) {
close_trip();
}
// Start recording immediately, idle timer until drive is detected
start_new_trip();
idle_timer_start = now;
state = IDLE_TIMEOUT;
}
prev_started = started;
started_initialized = true;
// Check for graceful shutdown request (every ~1 second = 20 frames)
// Check for graceful shutdown request (every ~1 second)
if (++param_check_counter >= CAMERA_FPS) {
param_check_counter = 0;
if (params.getBool("DashcamShutdown")) {
LOGW("dashcamd: shutdown requested, closing trip");
LOGW("dashcamd: shutdown requested");
if (state == RECORDING || state == IDLE_TIMEOUT) {
close_trip();
}
@@ -285,32 +274,30 @@ int main(int argc, char *argv[]) {
}
}
// State machine transitions
// State machine
switch (state) {
case IDLE:
case TRIP_ENDED:
if (in_drive) {
case WAITING: {
bool has_gps = sm.valid("gpsLocation") && sm["gpsLocation"].getGpsLocation().getHasFix();
if (in_drive && system_time_valid() && has_gps) {
start_new_trip();
}
break;
}
case RECORDING:
if (!in_drive) {
// Car left drive — start idle timeout
idle_timer_start = now;
state = IDLE_TIMEOUT;
LOGW("dashcamd: car not in drive, starting 10-min idle timer");
LOGW("dashcamd: car left drive, starting 10-min idle timer");
}
break;
case IDLE_TIMEOUT:
if (in_drive) {
// Back in drive — cancel timer, resume recording same trip
idle_timer_start = 0.0;
state = RECORDING;
LOGW("dashcamd: back in drive, resuming trip");
} else if ((now - idle_timer_start) >= IDLE_TIMEOUT_SECONDS) {
// Timer expired — end trip
LOGW("dashcamd: idle timeout expired");
close_trip();
}
@@ -341,16 +328,28 @@ int main(int argc, char *argv[]) {
uint64_t ts = nanos_since_boot() - segment_start_ts;
// Validate buffer before encoding
if (buf->y == nullptr || buf->uv == nullptr || buf->width == 0 || buf->height == 0) {
LOGE("dashcamd: invalid frame buf y=%p uv=%p %zux%zu, skipping", buf->y, buf->uv, buf->width, buf->height);
continue;
}
// Feed NV12 frame directly to OMX encoder
encoder->encode_frame_nv12(buf->y, y_stride, buf->uv, uv_stride, width, height, ts);
frame_count++;
trip_frames++;
// Publish state every 5 seconds
if (now - last_param_write >= 5.0) {
params_memory.put("DashcamFrames", std::to_string(trip_frames));
last_param_write = now;
}
// Write GPS subtitle at most once per second
if (srt_file && (now - last_srt_write) >= 1.0) {
last_srt_write = now;
srt_index++;
// Read GPS data
double lat = 0, lon = 0, speed_ms = 0;
bool has_gps = sm.valid("gpsLocation") && sm["gpsLocation"].getGpsLocation().getHasFix();
if (has_gps) {
@@ -383,13 +382,11 @@ int main(int argc, char *argv[]) {
}
// Clean exit
if (srt_file) { fclose(srt_file); srt_file = nullptr; }
if (encoder) {
if (state == RECORDING || state == IDLE_TIMEOUT) {
encoder->encoder_close();
}
delete encoder;
if (state == RECORDING || state == IDLE_TIMEOUT) {
close_trip();
}
params_memory.put("DashcamState", "stopped");
params_memory.put("DashcamFrames", "0");
LOGW("dashcamd: stopped");
return 0;

BIN
selfdrive/clearpilot/sounds/ding.wav Normal file
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Binary file not shown.

90
selfdrive/clearpilot/speed_logic.py Normal file
View File

@@ -0,0 +1,90 @@
"""
ClearPilot speed processing module.
Shared logic for converting raw speed and speed limit data into display-ready
values. Called from controlsd (live mode) and bench_onroad (bench mode).
Reads raw inputs, converts to display units (mph or kph based on car's CAN
unit setting), detects speed limit changes, and writes results to params_memory
for the onroad UI to read.
"""
import math
import time
from openpilot.common.params import Params
from openpilot.common.conversions import Conversions as CV
class SpeedState:
def __init__(self):
self.params_memory = Params("/dev/shm/params")
self.prev_speed_limit = 0
# Ding state tracking
self.last_ding_time = 0.0
self.prev_warning = ""
self.prev_warning_speed_limit = 0
def update(self, speed_ms: float, has_speed: bool, speed_limit_ms: float, is_metric: bool,
cruise_speed_ms: float = 0.0, cruise_active: bool = False, cruise_standstill: bool = False):
"""
Convert raw m/s values to display-ready strings and write to params_memory.
"""
now = time.monotonic()
if is_metric:
speed_display = speed_ms * CV.MS_TO_KPH
speed_limit_display = speed_limit_ms * CV.MS_TO_KPH
cruise_display = cruise_speed_ms * CV.MS_TO_KPH
unit = "km/h"
else:
speed_display = speed_ms * CV.MS_TO_MPH
speed_limit_display = speed_limit_ms * CV.MS_TO_MPH
cruise_display = cruise_speed_ms * CV.MS_TO_MPH
unit = "mph"
speed_int = int(math.floor(speed_display))
speed_limit_int = int(round(speed_limit_display))
cruise_int = int(round(cruise_display))
self.prev_speed_limit = speed_limit_int
# Write display-ready values to params_memory
self.params_memory.put("ClearpilotHasSpeed", "1" if has_speed and speed_int > 0 else "0")
self.params_memory.put("ClearpilotSpeedDisplay", str(speed_int) if has_speed and speed_int > 0 else "")
self.params_memory.put("ClearpilotSpeedLimitDisplay", str(speed_limit_int) if speed_limit_int > 0 else "0")
self.params_memory.put("ClearpilotSpeedUnit", unit)
self.params_memory.put("ClearpilotIsMetric", "1" if is_metric else "0")
# Cruise warning logic
warning = ""
warning_speed = ""
cruise_engaged = cruise_active and not cruise_standstill
if speed_limit_int >= 20 and cruise_engaged and cruise_int > 0:
over_threshold = 10 if speed_limit_int >= 50 else 7
if cruise_int >= speed_limit_int + over_threshold:
warning = "over"
warning_speed = str(cruise_int)
elif cruise_int <= speed_limit_int - 5:
warning = "under"
warning_speed = str(cruise_int)
self.params_memory.put("ClearpilotCruiseWarning", warning)
self.params_memory.put("ClearpilotCruiseWarningSpeed", warning_speed)
# Ding logic: play when warning sign appears or speed limit changes while visible
should_ding = False
if warning:
if not self.prev_warning:
# Warning sign just appeared
should_ding = True
elif speed_limit_int != self.prev_warning_speed_limit:
# Speed limit changed while warning sign is visible
should_ding = True
if should_ding and now - self.last_ding_time >= 30:
self.params_memory.put("ClearpilotPlayDing", "1")
self.last_ding_time = now
self.prev_warning = warning
self.prev_warning_speed_limit = speed_limit_int if warning else 0

33
selfdrive/controls/controlsd.py
View File

@@ -38,6 +38,7 @@ from openpilot.selfdrive.frogpilot.controls.lib.frogpilot_functions import CRUIS
from openpilot.selfdrive.frogpilot.controls.lib.model_manager import RADARLESS_MODELS
from openpilot.selfdrive.clearpilot.telemetry import tlog
from openpilot.selfdrive.clearpilot.speed_logic import SpeedState
from openpilot.selfdrive.frogpilot.controls.lib.speed_limit_controller import SpeedLimitController
SOFT_DISABLE_TIME = 3 # seconds
@@ -80,6 +81,10 @@ class Controls:
self.params_memory.put_bool("CPTLkasButtonAction", False)
self.params_memory.put_int("ScreenDisplayMode", 0)
# ClearPilot speed processing
self.speed_state = SpeedState()
self.speed_state_frame = 0
self.radarless_model = self.params.get("Model", encoding='utf-8') in RADARLESS_MODELS
with car.CarParams.from_bytes(self.params.get("CarParams", block=True)) as msg:
@@ -108,8 +113,9 @@ class Controls:
self.sm = messaging.SubMaster(['deviceState', 'pandaStates', 'peripheralState', 'modelV2', 'liveCalibration',
'carOutput', 'driverMonitoringState', 'longitudinalPlan', 'liveLocationKalman',
'managerState', 'liveParameters', 'radarState', 'liveTorqueParameters',
'testJoystick', 'frogpilotPlan'] + self.camera_packets + self.sensor_packets,
ignore_alive=ignore, ignore_avg_freq=ignore+['radarState', 'testJoystick'], ignore_valid=['testJoystick', ],
'testJoystick', 'frogpilotPlan', 'gpsLocation'] + self.camera_packets + self.sensor_packets,
ignore_alive=ignore+['gpsLocation'], ignore_avg_freq=ignore+['radarState', 'testJoystick', 'gpsLocation'],
ignore_valid=['testJoystick', 'gpsLocation'],
frequency=int(1/DT_CTRL))
self.joystick_mode = self.params.get_bool("JoystickDebugMode")
@@ -198,6 +204,8 @@ class Controls:
self.always_on_lateral_main = self.always_on_lateral and self.params.get_bool("AlwaysOnLateralMain")
self.drive_added = False
self.driving_gear = False
self.was_driving_gear = False
self.fcw_random_event_triggered = False
self.holiday_theme_alerted = False
self.onroad_distance_pressed = False
@@ -1257,6 +1265,12 @@ class Controls:
self.events.add(EventName.clpDebug)
def clearpilot_state_control(self, CC, CS):
# CLEARPILOT: auto-reset display when shifting into drive from screen-off
if self.driving_gear and not self.was_driving_gear:
if self.params_memory.get_int("ScreenDisplayMode") == 3:
self.params_memory.put_int("ScreenDisplayMode", 0)
self.was_driving_gear = self.driving_gear
if any(be.pressed and be.type == FrogPilotButtonType.lkas for be in CS.buttonEvents):
current = self.params_memory.get_int("ScreenDisplayMode")
@@ -1269,6 +1283,21 @@ class Controls:
new_mode = 0 if current == 3 else 3
self.params_memory.put_int("ScreenDisplayMode", new_mode)
# ClearPilot speed processing (~2 Hz at 100 Hz loop)
self.speed_state_frame += 1
if self.speed_state_frame % 50 == 0:
gps = self.sm['gpsLocation']
has_gps = self.sm.valid['gpsLocation'] and gps.hasFix
speed_ms = gps.speed if has_gps else 0.0
speed_limit_ms = self.params_memory.get_float("CarSpeedLimit")
is_metric = (self.params_memory.get("CarIsMetric", encoding="utf-8") or "0") == "1"
cruise_speed_ms = CS.cruiseState.speed
cruise_active = CS.cruiseState.enabled
cruise_standstill = CS.cruiseState.standstill
self.speed_state.update(speed_ms, has_gps, speed_limit_ms, is_metric,
cruise_speed_ms, cruise_active, cruise_standstill)
return CC
def main():

711
selfdrive/frogpilot/screenrecorder/omx_encoder.cc
View File

@@ -35,120 +35,19 @@ int ABGRToNV12(const uint8_t* src_abgr,
int halfwidth = (width + 1) >> 1;
void (*ABGRToUVRow)(const uint8_t* src_abgr0, int src_stride_abgr,
uint8_t* dst_u, uint8_t* dst_v, int width) =
ABGRToUVRow_C;
ABGRToUVRow_NEON;
void (*ABGRToYRow)(const uint8_t* src_abgr, uint8_t* dst_y, int width) =
ABGRToYRow_C;
void (*MergeUVRow_)(const uint8_t* src_u, const uint8_t* src_v, uint8_t* dst_uv, int width) = MergeUVRow_C;
ABGRToYRow_NEON;
void (*MergeUVRow_)(const uint8_t* src_u, const uint8_t* src_v, uint8_t* dst_uv, int width) = MergeUVRow_NEON;
if (!src_abgr || !dst_y || !dst_uv || width <= 0 || height == 0) {
return -1;
}
if (height < 0) { // Negative height means invert the image.
height = -height;
src_abgr = src_abgr + (height - 1) * src_stride_abgr;
src_stride_abgr = -src_stride_abgr;
}
#if defined(HAS_ABGRTOYROW_SSSE3) && defined(HAS_ABGRTOUVROW_SSSE3)
if (TestCpuFlag(kCpuHasSSSE3)) {
ABGRToUVRow = ABGRToUVRow_Any_SSSE3;
ABGRToYRow = ABGRToYRow_Any_SSSE3;
if (IS_ALIGNED(width, 16)) {
ABGRToUVRow = ABGRToUVRow_SSSE3;
ABGRToYRow = ABGRToYRow_SSSE3;
}
if (height < 0) {
height = -height;
src_abgr = src_abgr + (height - 1) * src_stride_abgr;
src_stride_abgr = -src_stride_abgr;
}
#endif
#if defined(HAS_ABGRTOYROW_AVX2) && defined(HAS_ABGRTOUVROW_AVX2)
if (TestCpuFlag(kCpuHasAVX2)) {
ABGRToUVRow = ABGRToUVRow_Any_AVX2;
ABGRToYRow = ABGRToYRow_Any_AVX2;
if (IS_ALIGNED(width, 32)) {
ABGRToUVRow = ABGRToUVRow_AVX2;
ABGRToYRow = ABGRToYRow_AVX2;
}
}
#endif
#if defined(HAS_ABGRTOYROW_NEON)
if (TestCpuFlag(kCpuHasNEON)) {
ABGRToYRow = ABGRToYRow_Any_NEON;
if (IS_ALIGNED(width, 8)) {
ABGRToYRow = ABGRToYRow_NEON;
}
}
#endif
#if defined(HAS_ABGRTOUVROW_NEON)
if (TestCpuFlag(kCpuHasNEON)) {
ABGRToUVRow = ABGRToUVRow_Any_NEON;
if (IS_ALIGNED(width, 16)) {
ABGRToUVRow = ABGRToUVRow_NEON;
}
}
#endif
#if defined(HAS_ABGRTOYROW_MMI) && defined(HAS_ABGRTOUVROW_MMI)
if (TestCpuFlag(kCpuHasMMI)) {
ABGRToYRow = ABGRToYRow_Any_MMI;
ABGRToUVRow = ABGRToUVRow_Any_MMI;
if (IS_ALIGNED(width, 8)) {
ABGRToYRow = ABGRToYRow_MMI;
}
if (IS_ALIGNED(width, 16)) {
ABGRToUVRow = ABGRToUVRow_MMI;
}
}
#endif
#if defined(HAS_ABGRTOYROW_MSA) && defined(HAS_ABGRTOUVROW_MSA)
if (TestCpuFlag(kCpuHasMSA)) {
ABGRToYRow = ABGRToYRow_Any_MSA;
ABGRToUVRow = ABGRToUVRow_Any_MSA;
if (IS_ALIGNED(width, 16)) {
ABGRToYRow = ABGRToYRow_MSA;
}
if (IS_ALIGNED(width, 32)) {
ABGRToUVRow = ABGRToUVRow_MSA;
}
}
#endif
#if defined(HAS_MERGEUVROW_SSE2)
if (TestCpuFlag(kCpuHasSSE2)) {
MergeUVRow_ = MergeUVRow_Any_SSE2;
if (IS_ALIGNED(halfwidth, 16)) {
MergeUVRow_ = MergeUVRow_SSE2;
}
}
#endif
#if defined(HAS_MERGEUVROW_AVX2)
if (TestCpuFlag(kCpuHasAVX2)) {
MergeUVRow_ = MergeUVRow_Any_AVX2;
if (IS_ALIGNED(halfwidth, 32)) {
MergeUVRow_ = MergeUVRow_AVX2;
}
}
#endif
#if defined(HAS_MERGEUVROW_NEON)
if (TestCpuFlag(kCpuHasNEON)) {
MergeUVRow_ = MergeUVRow_Any_NEON;
if (IS_ALIGNED(halfwidth, 16)) {
MergeUVRow_ = MergeUVRow_NEON;
}
}
#endif
#if defined(HAS_MERGEUVROW_MMI)
if (TestCpuFlag(kCpuHasMMI)) {
MergeUVRow_ = MergeUVRow_Any_MMI;
if (IS_ALIGNED(halfwidth, 8)) {
MergeUVRow_ = MergeUVRow_MMI;
}
}
#endif
#if defined(HAS_MERGEUVROW_MSA)
if (TestCpuFlag(kCpuHasMSA)) {
MergeUVRow_ = MergeUVRow_Any_MSA;
if (IS_ALIGNED(halfwidth, 16)) {
MergeUVRow_ = MergeUVRow_MSA;
}
}
#endif
{
// Allocate a rows of uv.
align_buffer_64(row_u, ((halfwidth + 31) & ~31) * 2);
uint8_t* row_v = row_u + ((halfwidth + 31) & ~31);
@@ -182,9 +81,9 @@ extern ExitHandler do_exit;
// ***** OMX callback functions *****
void OmxEncoder::wait_for_state(OMX_STATETYPE state_) {
std::unique_lock lk(this->state_lock);
while (this->state != state_) {
this->state_cv.wait(lk);
std::unique_lock lk(state_lock);
while (state != state_) {
state_cv.wait(lk);
}
}
@@ -236,270 +135,203 @@ static const char* omx_color_fomat_name(uint32_t format) __attribute__((unused))
static const char* omx_color_fomat_name(uint32_t format) {
switch (format) {
case OMX_COLOR_FormatUnused: return "OMX_COLOR_FormatUnused";
case OMX_COLOR_FormatMonochrome: return "OMX_COLOR_FormatMonochrome";
case OMX_COLOR_Format8bitRGB332: return "OMX_COLOR_Format8bitRGB332";
case OMX_COLOR_Format12bitRGB444: return "OMX_COLOR_Format12bitRGB444";
case OMX_COLOR_Format16bitARGB4444: return "OMX_COLOR_Format16bitARGB4444";
case OMX_COLOR_Format16bitARGB1555: return "OMX_COLOR_Format16bitARGB1555";
case OMX_COLOR_Format16bitRGB565: return "OMX_COLOR_Format16bitRGB565";
case OMX_COLOR_Format16bitBGR565: return "OMX_COLOR_Format16bitBGR565";
case OMX_COLOR_Format18bitRGB666: return "OMX_COLOR_Format18bitRGB666";
case OMX_COLOR_Format18bitARGB1665: return "OMX_COLOR_Format18bitARGB1665";
case OMX_COLOR_Format19bitARGB1666: return "OMX_COLOR_Format19bitARGB1666";
case OMX_COLOR_Format24bitRGB888: return "OMX_COLOR_Format24bitRGB888";
case OMX_COLOR_Format24bitBGR888: return "OMX_COLOR_Format24bitBGR888";
case OMX_COLOR_Format24bitARGB1887: return "OMX_COLOR_Format24bitARGB1887";
case OMX_COLOR_Format25bitARGB1888: return "OMX_COLOR_Format25bitARGB1888";
case OMX_COLOR_Format32bitBGRA8888: return "OMX_COLOR_Format32bitBGRA8888";
case OMX_COLOR_Format32bitARGB8888: return "OMX_COLOR_Format32bitARGB8888";
case OMX_COLOR_FormatYUV411Planar: return "OMX_COLOR_FormatYUV411Planar";
case OMX_COLOR_FormatYUV411PackedPlanar: return "OMX_COLOR_FormatYUV411PackedPlanar";
case OMX_COLOR_FormatYUV420Planar: return "OMX_COLOR_FormatYUV420Planar";
case OMX_COLOR_FormatYUV420PackedPlanar: return "OMX_COLOR_FormatYUV420PackedPlanar";
case OMX_COLOR_FormatYUV420SemiPlanar: return "OMX_COLOR_FormatYUV420SemiPlanar";
case OMX_COLOR_FormatYUV422Planar: return "OMX_COLOR_FormatYUV422Planar";
case OMX_COLOR_FormatYUV422PackedPlanar: return "OMX_COLOR_FormatYUV422PackedPlanar";
case OMX_COLOR_FormatYUV422SemiPlanar: return "OMX_COLOR_FormatYUV422SemiPlanar";
case OMX_COLOR_FormatYCbYCr: return "OMX_COLOR_FormatYCbYCr";
case OMX_COLOR_FormatYCrYCb: return "OMX_COLOR_FormatYCrYCb";
case OMX_COLOR_FormatCbYCrY: return "OMX_COLOR_FormatCbYCrY";
case OMX_COLOR_FormatCrYCbY: return "OMX_COLOR_FormatCrYCbY";
case OMX_COLOR_FormatYUV444Interleaved: return "OMX_COLOR_FormatYUV444Interleaved";
case OMX_COLOR_FormatRawBayer8bit: return "OMX_COLOR_FormatRawBayer8bit";
case OMX_COLOR_FormatRawBayer10bit: return "OMX_COLOR_FormatRawBayer10bit";
case OMX_COLOR_FormatRawBayer8bitcompressed: return "OMX_COLOR_FormatRawBayer8bitcompressed";
case OMX_COLOR_FormatL2: return "OMX_COLOR_FormatL2";
case OMX_COLOR_FormatL4: return "OMX_COLOR_FormatL4";
case OMX_COLOR_FormatL8: return "OMX_COLOR_FormatL8";
case OMX_COLOR_FormatL16: return "OMX_COLOR_FormatL16";
case OMX_COLOR_FormatL24: return "OMX_COLOR_FormatL24";
case OMX_COLOR_FormatL32: return "OMX_COLOR_FormatL32";
case OMX_COLOR_FormatYUV420PackedSemiPlanar: return "OMX_COLOR_FormatYUV420PackedSemiPlanar";
case OMX_COLOR_FormatYUV422PackedSemiPlanar: return "OMX_COLOR_FormatYUV422PackedSemiPlanar";
case OMX_COLOR_Format18BitBGR666: return "OMX_COLOR_Format18BitBGR666";
case OMX_COLOR_Format24BitARGB6666: return "OMX_COLOR_Format24BitARGB6666";
case OMX_COLOR_Format24BitABGR6666: return "OMX_COLOR_Format24BitABGR6666";
case OMX_COLOR_FormatAndroidOpaque: return "OMX_COLOR_FormatAndroidOpaque";
case OMX_TI_COLOR_FormatYUV420PackedSemiPlanar: return "OMX_TI_COLOR_FormatYUV420PackedSemiPlanar";
case OMX_QCOM_COLOR_FormatYVU420SemiPlanar: return "OMX_QCOM_COLOR_FormatYVU420SemiPlanar";
case OMX_QCOM_COLOR_FormatYUV420PackedSemiPlanar64x32Tile2m8ka: return "OMX_QCOM_COLOR_FormatYUV420PackedSemiPlanar64x32Tile2m8ka";
case OMX_SEC_COLOR_FormatNV12Tiled: return "OMX_SEC_COLOR_FormatNV12Tiled";
case OMX_QCOM_COLOR_FormatYUV420PackedSemiPlanar32m: return "OMX_QCOM_COLOR_FormatYUV420PackedSemiPlanar32m";
case QOMX_COLOR_FormatYVU420PackedSemiPlanar32m4ka: return "QOMX_COLOR_FormatYVU420PackedSemiPlanar32m4ka";
case QOMX_COLOR_FormatYUV420PackedSemiPlanar16m2ka: return "QOMX_COLOR_FormatYUV420PackedSemiPlanar16m2ka";
case QOMX_COLOR_FORMATYUV420PackedSemiPlanar32mMultiView: return "QOMX_COLOR_FORMATYUV420PackedSemiPlanar32mMultiView";
case QOMX_COLOR_FORMATYUV420PackedSemiPlanar32mCompressed: return "QOMX_COLOR_FORMATYUV420PackedSemiPlanar32mCompressed";
case QOMX_COLOR_Format32bitRGBA8888: return "QOMX_COLOR_Format32bitRGBA8888";
case QOMX_COLOR_Format32bitRGBA8888Compressed: return "QOMX_COLOR_Format32bitRGBA8888Compressed";
default:
return "unkn";
default: return "unkn";
}
}
// ***** encoder functions *****
OmxEncoder::OmxEncoder(const char* path, int width, int height, int fps, int bitrate, bool h265, bool downscale) {
OmxEncoder::OmxEncoder(const char* path, int width, int height, int fps, int bitrate) {
this->path = path;
this->width = width;
this->height = height;
this->fps = fps;
this->remuxing = !h265;
this->downscale = downscale;
if (this->downscale) {
this->y_ptr2 = (uint8_t *)malloc(this->width*this->height);
this->u_ptr2 = (uint8_t *)malloc(this->width*this->height/4);
this->v_ptr2 = (uint8_t *)malloc(this->width*this->height/4);
OMX_ERRORTYPE err = OMX_Init();
if (err != OMX_ErrorNone) {
LOGE("OMX_Init failed: %x", err);
return;
}
auto component = (OMX_STRING)(h265 ? "OMX.qcom.video.encoder.hevc" : "OMX.qcom.video.encoder.avc");
int err = OMX_GetHandle(&this->handle, component, this, &omx_callbacks);
OMX_STRING component = (OMX_STRING)("OMX.qcom.video.encoder.avc");
err = OMX_GetHandle(&handle, component, this, &omx_callbacks);
if (err != OMX_ErrorNone) {
LOGE("error getting codec: %x", err);
LOGE("Error getting codec: %x", err);
OMX_Deinit();
return;
}
// setup input port
OMX_PARAM_PORTDEFINITIONTYPE in_port = {0};
in_port.nSize = sizeof(in_port);
in_port.nPortIndex = (OMX_U32) PORT_INDEX_IN;
OMX_CHECK(OMX_GetParameter(this->handle, OMX_IndexParamPortDefinition, (OMX_PTR) &in_port));
OMX_CHECK(OMX_GetParameter(handle, OMX_IndexParamPortDefinition, (OMX_PTR) &in_port));
in_port.format.video.nFrameWidth = this->width;
in_port.format.video.nFrameHeight = this->height;
in_port.format.video.nStride = VENUS_Y_STRIDE(COLOR_FMT_NV12, this->width);
in_port.format.video.nSliceHeight = this->height;
in_port.nBufferSize = VENUS_BUFFER_SIZE(COLOR_FMT_NV12, this->width, this->height);
in_port.format.video.xFramerate = (this->fps * 65536);
in_port.format.video.nFrameWidth = width;
in_port.format.video.nFrameHeight = height;
in_port.format.video.nStride = VENUS_Y_STRIDE(COLOR_FMT_NV12, width);
in_port.format.video.nSliceHeight = height;
in_port.nBufferSize = VENUS_BUFFER_SIZE(COLOR_FMT_NV12, width, height);
in_port.format.video.xFramerate = (fps * 65536);
in_port.format.video.eCompressionFormat = OMX_VIDEO_CodingUnused;
in_port.format.video.eColorFormat = (OMX_COLOR_FORMATTYPE)QOMX_COLOR_FORMATYUV420PackedSemiPlanar32m;
OMX_CHECK(OMX_SetParameter(this->handle, OMX_IndexParamPortDefinition, (OMX_PTR) &in_port));
OMX_CHECK(OMX_GetParameter(this->handle, OMX_IndexParamPortDefinition, (OMX_PTR) &in_port));
this->in_buf_headers.resize(in_port.nBufferCountActual);
OMX_CHECK(OMX_SetParameter(handle, OMX_IndexParamPortDefinition, (OMX_PTR) &in_port));
OMX_CHECK(OMX_GetParameter(handle, OMX_IndexParamPortDefinition, (OMX_PTR) &in_port));
in_buf_headers.resize(in_port.nBufferCountActual);
// setup output port
OMX_PARAM_PORTDEFINITIONTYPE out_port = {0};
OMX_PARAM_PORTDEFINITIONTYPE out_port;
memset(&out_port, 0, sizeof(OMX_PARAM_PORTDEFINITIONTYPE));
out_port.nSize = sizeof(out_port);
out_port.nVersion.s.nVersionMajor = 1;
out_port.nVersion.s.nVersionMinor = 0;
out_port.nVersion.s.nRevision = 0;
out_port.nVersion.s.nStep = 0;
out_port.nPortIndex = (OMX_U32) PORT_INDEX_OUT;
OMX_CHECK(OMX_GetParameter(this->handle, OMX_IndexParamPortDefinition, (OMX_PTR)&out_port));
out_port.format.video.nFrameWidth = this->width;
out_port.format.video.nFrameHeight = this->height;
OMX_ERRORTYPE error = OMX_GetParameter(handle, OMX_IndexParamPortDefinition, (OMX_PTR)&out_port);
if (error != OMX_ErrorNone) {
LOGE("Error getting output port parameters: 0x%08x", error);
return;
}
out_port.format.video.nFrameWidth = width;
out_port.format.video.nFrameHeight = height;
out_port.format.video.xFramerate = 0;
out_port.format.video.nBitrate = bitrate;
if (h265) {
out_port.format.video.eCompressionFormat = OMX_VIDEO_CodingHEVC;
} else {
out_port.format.video.eCompressionFormat = OMX_VIDEO_CodingAVC;
}
out_port.format.video.eCompressionFormat = OMX_VIDEO_CodingAVC;
out_port.format.video.eColorFormat = OMX_COLOR_FormatUnused;
OMX_CHECK(OMX_SetParameter(this->handle, OMX_IndexParamPortDefinition, (OMX_PTR) &out_port));
error = OMX_SetParameter(handle, OMX_IndexParamPortDefinition, (OMX_PTR) &out_port);
if (error != OMX_ErrorNone) {
LOGE("Error setting output port parameters: 0x%08x", error);
return;
}
OMX_CHECK(OMX_GetParameter(this->handle, OMX_IndexParamPortDefinition, (OMX_PTR) &out_port));
this->out_buf_headers.resize(out_port.nBufferCountActual);
error = OMX_GetParameter(handle, OMX_IndexParamPortDefinition, (OMX_PTR) &out_port);
if (error != OMX_ErrorNone) {
LOGE("Error getting updated output port parameters: 0x%08x", error);
return;
}
out_buf_headers.resize(out_port.nBufferCountActual);
OMX_VIDEO_PARAM_BITRATETYPE bitrate_type = {0};
bitrate_type.nSize = sizeof(bitrate_type);
bitrate_type.nPortIndex = (OMX_U32) PORT_INDEX_OUT;
OMX_CHECK(OMX_GetParameter(this->handle, OMX_IndexParamVideoBitrate, (OMX_PTR) &bitrate_type));
OMX_CHECK(OMX_GetParameter(handle, OMX_IndexParamVideoBitrate, (OMX_PTR) &bitrate_type));
bitrate_type.eControlRate = OMX_Video_ControlRateVariable;
bitrate_type.nTargetBitrate = bitrate;
OMX_CHECK(OMX_SetParameter(this->handle, OMX_IndexParamVideoBitrate, (OMX_PTR) &bitrate_type));
OMX_CHECK(OMX_SetParameter(handle, OMX_IndexParamVideoBitrate, (OMX_PTR) &bitrate_type));
if (h265) {
// setup HEVC
#ifndef QCOM2
OMX_VIDEO_PARAM_HEVCTYPE hevc_type = {0};
OMX_INDEXTYPE index_type = (OMX_INDEXTYPE) OMX_IndexParamVideoHevc;
#else
OMX_VIDEO_PARAM_PROFILELEVELTYPE hevc_type = {0};
OMX_INDEXTYPE index_type = OMX_IndexParamVideoProfileLevelCurrent;
#endif
hevc_type.nSize = sizeof(hevc_type);
hevc_type.nPortIndex = (OMX_U32) PORT_INDEX_OUT;
OMX_CHECK(OMX_GetParameter(this->handle, index_type, (OMX_PTR) &hevc_type));
// setup h264
OMX_VIDEO_PARAM_AVCTYPE avc = {0};
avc.nSize = sizeof(avc);
avc.nPortIndex = (OMX_U32) PORT_INDEX_OUT;
OMX_CHECK(OMX_GetParameter(handle, OMX_IndexParamVideoAvc, &avc));
hevc_type.eProfile = OMX_VIDEO_HEVCProfileMain;
hevc_type.eLevel = OMX_VIDEO_HEVCHighTierLevel5;
avc.nBFrames = 0;
avc.nPFrames = 15;
OMX_CHECK(OMX_SetParameter(this->handle, index_type, (OMX_PTR) &hevc_type));
} else {
// setup h264
OMX_VIDEO_PARAM_AVCTYPE avc = { 0 };
avc.nSize = sizeof(avc);
avc.nPortIndex = (OMX_U32) PORT_INDEX_OUT;
OMX_CHECK(OMX_GetParameter(this->handle, OMX_IndexParamVideoAvc, &avc));
avc.eProfile = OMX_VIDEO_AVCProfileHigh;
avc.eLevel = OMX_VIDEO_AVCLevel31;
avc.nBFrames = 0;
avc.nPFrames = 15;
avc.nAllowedPictureTypes |= OMX_VIDEO_PictureTypeB;
avc.eLoopFilterMode = OMX_VIDEO_AVCLoopFilterEnable;
avc.eProfile = OMX_VIDEO_AVCProfileHigh;
avc.eLevel = OMX_VIDEO_AVCLevel31;
avc.nRefFrames = 1;
avc.bUseHadamard = OMX_TRUE;
avc.bEntropyCodingCABAC = OMX_TRUE;
avc.bWeightedPPrediction = OMX_TRUE;
avc.bconstIpred = OMX_TRUE;
avc.nAllowedPictureTypes |= OMX_VIDEO_PictureTypeB;
avc.eLoopFilterMode = OMX_VIDEO_AVCLoopFilterEnable;
OMX_CHECK(OMX_SetParameter(handle, OMX_IndexParamVideoAvc, &avc));
avc.nRefFrames = 1;
avc.bUseHadamard = OMX_TRUE;
avc.bEntropyCodingCABAC = OMX_TRUE;
avc.bWeightedPPrediction = OMX_TRUE;
avc.bconstIpred = OMX_TRUE;
OMX_CHECK(OMX_SendCommand(handle, OMX_CommandStateSet, OMX_StateIdle, NULL));
OMX_CHECK(OMX_SetParameter(this->handle, OMX_IndexParamVideoAvc, &avc));
for (OMX_BUFFERHEADERTYPE* &buf : in_buf_headers) {
OMX_CHECK(OMX_AllocateBuffer(handle, &buf, PORT_INDEX_IN, this, in_port.nBufferSize));
}
OMX_CHECK(OMX_SendCommand(this->handle, OMX_CommandStateSet, OMX_StateIdle, NULL));
for (auto &buf : this->in_buf_headers) {
OMX_CHECK(OMX_AllocateBuffer(this->handle, &buf, PORT_INDEX_IN, this,
in_port.nBufferSize));
}
for (auto &buf : this->out_buf_headers) {
OMX_CHECK(OMX_AllocateBuffer(this->handle, &buf, PORT_INDEX_OUT, this,
out_port.nBufferSize));
for (OMX_BUFFERHEADERTYPE* &buf : out_buf_headers) {
OMX_CHECK(OMX_AllocateBuffer(handle, &buf, PORT_INDEX_OUT, this, out_port.nBufferSize));
}
wait_for_state(OMX_StateIdle);
OMX_CHECK(OMX_SendCommand(this->handle, OMX_CommandStateSet, OMX_StateExecuting, NULL));
OMX_CHECK(OMX_SendCommand(handle, OMX_CommandStateSet, OMX_StateExecuting, NULL));
wait_for_state(OMX_StateExecuting);
// give omx all the output buffers
for (auto &buf : this->out_buf_headers) {
OMX_CHECK(OMX_FillThisBuffer(this->handle, buf));
for (OMX_BUFFERHEADERTYPE* &buf : out_buf_headers) {
OMX_CHECK(OMX_FillThisBuffer(handle, buf));
}
// fill the input free queue
for (auto &buf : this->in_buf_headers) {
this->free_in.push(buf);
for (OMX_BUFFERHEADERTYPE* &buf : in_buf_headers) {
free_in.push(buf);
}
}
void OmxEncoder::handle_out_buf(OmxEncoder *e, OMX_BUFFERHEADERTYPE *out_buf) {
void OmxEncoder::handle_out_buf(OmxEncoder *encoder, OMX_BUFFERHEADERTYPE *out_buf) {
int err;
uint8_t *buf_data = out_buf->pBuffer + out_buf->nOffset;
if (out_buf->nFlags & OMX_BUFFERFLAG_CODECCONFIG) {
if (e->codec_config_len < out_buf->nFilledLen) {
e->codec_config = (uint8_t *)realloc(e->codec_config, out_buf->nFilledLen);
if (encoder->codec_config_len < out_buf->nFilledLen) {
encoder->codec_config = (uint8_t *)realloc(encoder->codec_config, out_buf->nFilledLen);
}
e->codec_config_len = out_buf->nFilledLen;
memcpy(e->codec_config, buf_data, out_buf->nFilledLen);
encoder->codec_config_len = out_buf->nFilledLen;
memcpy(encoder->codec_config, buf_data, out_buf->nFilledLen);
#ifdef QCOM2
out_buf->nTimeStamp = 0;
#endif
}
if (e->of) {
fwrite(buf_data, out_buf->nFilledLen, 1, e->of);
if (encoder->of) {
fwrite(buf_data, out_buf->nFilledLen, 1, encoder->of);
}
if (e->remuxing) {
if (!e->wrote_codec_config && e->codec_config_len > 0) {
// extradata will be freed by av_free() in avcodec_free_context()
e->codec_ctx->extradata = (uint8_t*)av_mallocz(e->codec_config_len + AV_INPUT_BUFFER_PADDING_SIZE);
e->codec_ctx->extradata_size = e->codec_config_len;
memcpy(e->codec_ctx->extradata, e->codec_config, e->codec_config_len);
if (!encoder->wrote_codec_config && encoder->codec_config_len > 0) {
// extradata will be freed by av_free() in avcodec_free_context()
encoder->out_stream->codecpar->extradata = (uint8_t*)av_mallocz(encoder->codec_config_len + AV_INPUT_BUFFER_PADDING_SIZE);
encoder->out_stream->codecpar->extradata_size = encoder->codec_config_len;
memcpy(encoder->out_stream->codecpar->extradata, encoder->codec_config, encoder->codec_config_len);
err = avcodec_parameters_from_context(e->out_stream->codecpar, e->codec_ctx);
assert(err >= 0);
err = avformat_write_header(e->ofmt_ctx, NULL);
assert(err >= 0);
err = avformat_write_header(encoder->ofmt_ctx, NULL);
assert(err >= 0);
e->wrote_codec_config = true;
encoder->wrote_codec_config = true;
}
if (out_buf->nTimeStamp > 0) {
// input timestamps are in microseconds
AVRational in_timebase = {1, 1000000};
AVPacket pkt;
av_init_packet(&pkt);
pkt.data = buf_data;
pkt.size = out_buf->nFilledLen;
enum AVRounding rnd = static_cast<enum AVRounding>(AV_ROUND_NEAR_INF|AV_ROUND_PASS_MINMAX);
pkt.pts = pkt.dts = av_rescale_q_rnd(out_buf->nTimeStamp, in_timebase, encoder->out_stream->time_base, rnd);
pkt.duration = av_rescale_q(1, AVRational{1, encoder->fps}, encoder->out_stream->time_base);
if (out_buf->nFlags & OMX_BUFFERFLAG_SYNCFRAME) {
pkt.flags |= AV_PKT_FLAG_KEY;
}
if (out_buf->nTimeStamp > 0) {
// input timestamps are in microseconds
AVRational in_timebase = {1, 1000000};
err = av_write_frame(encoder->ofmt_ctx, &pkt);
if (err < 0) { LOGW("ts encoder write issue"); }
AVPacket pkt;
av_init_packet(&pkt);
pkt.data = buf_data;
pkt.size = out_buf->nFilledLen;
enum AVRounding rnd = static_cast<enum AVRounding>(AV_ROUND_NEAR_INF|AV_ROUND_PASS_MINMAX);
pkt.pts = pkt.dts = av_rescale_q_rnd(out_buf->nTimeStamp, in_timebase, e->ofmt_ctx->streams[0]->time_base, rnd);
pkt.duration = av_rescale_q(50*1000, in_timebase, e->ofmt_ctx->streams[0]->time_base);
if (out_buf->nFlags & OMX_BUFFERFLAG_SYNCFRAME) {
pkt.flags |= AV_PKT_FLAG_KEY;
}
err = av_write_frame(e->ofmt_ctx, &pkt);
if (err < 0) { LOGW("ts encoder write issue"); }
av_free_packet(&pkt);
}
av_packet_unref(&pkt);
}
// give omx back the buffer
@@ -508,59 +340,53 @@ void OmxEncoder::handle_out_buf(OmxEncoder *e, OMX_BUFFERHEADERTYPE *out_buf) {
out_buf->nTimeStamp = 0;
}
#endif
OMX_CHECK(OMX_FillThisBuffer(e->handle, out_buf));
OMX_CHECK(OMX_FillThisBuffer(encoder->handle, out_buf));
}
int OmxEncoder::encode_frame_rgba(const uint8_t *ptr, int in_width, int in_height, uint64_t ts) {
int err;
if (!this->is_open) {
if (!is_open) {
return -1;
}
// this sometimes freezes... put it outside the encoder lock so we can still trigger rotates...
// THIS IS A REALLY BAD IDEA, but apparently the race has to happen 30 times to trigger this
OMX_BUFFERHEADERTYPE* in_buf = nullptr;
while (!this->free_in.try_pop(in_buf, 20)) {
while (!free_in.try_pop(in_buf, 20)) {
if (do_exit) {
return -1;
}
}
int ret = this->counter;
int ret = counter;
uint8_t *in_buf_ptr = in_buf->pBuffer;
uint8_t *in_y_ptr = in_buf_ptr;
int in_y_stride = VENUS_Y_STRIDE(COLOR_FMT_NV12, this->width);
int in_uv_stride = VENUS_UV_STRIDE(COLOR_FMT_NV12, this->width);
uint8_t *in_uv_ptr = in_buf_ptr + (in_y_stride * VENUS_Y_SCANLINES(COLOR_FMT_NV12, this->height));
int in_y_stride = VENUS_Y_STRIDE(COLOR_FMT_NV12, width);
int in_uv_stride = VENUS_UV_STRIDE(COLOR_FMT_NV12, width);
uint8_t *in_uv_ptr = in_buf_ptr + (in_y_stride * VENUS_Y_SCANLINES(COLOR_FMT_NV12, height));
err = ABGRToNV12(ptr, this->width*4,
in_y_ptr, in_y_stride,
in_uv_ptr, in_uv_stride,
this->width, this->height);
int err = ABGRToNV12(ptr, width * 4, in_y_ptr, in_y_stride, in_uv_ptr, in_uv_stride, width, height);
assert(err == 0);
in_buf->nFilledLen = VENUS_BUFFER_SIZE(COLOR_FMT_NV12, this->width, this->height);
in_buf->nFilledLen = VENUS_BUFFER_SIZE(COLOR_FMT_NV12, width, height);
in_buf->nFlags = OMX_BUFFERFLAG_ENDOFFRAME;
in_buf->nOffset = 0;
in_buf->nTimeStamp = ts/1000LL; // OMX_TICKS, in microseconds
this->last_t = in_buf->nTimeStamp;
in_buf->nTimeStamp = ts / 1000LL; // OMX_TICKS, in microseconds
last_t = in_buf->nTimeStamp;
OMX_CHECK(OMX_EmptyThisBuffer(this->handle, in_buf));
OMX_CHECK(OMX_EmptyThisBuffer(handle, in_buf));
// pump output
while (true) {
OMX_BUFFERHEADERTYPE *out_buf;
if (!this->done_out.try_pop(out_buf)) {
if (!done_out.try_pop(out_buf)) {
break;
}
handle_out_buf(this, out_buf);
}
this->dirty = true;
dirty = true;
this->counter++;
counter++;
return ret;
}
@@ -568,24 +394,24 @@ int OmxEncoder::encode_frame_rgba(const uint8_t *ptr, int in_width, int in_heigh
// CLEARPILOT: encode raw NV12 frames directly (no RGBA conversion needed)
int OmxEncoder::encode_frame_nv12(const uint8_t *y_ptr, int y_stride, const uint8_t *uv_ptr, int uv_stride,
int in_width, int in_height, uint64_t ts) {
if (!this->is_open) {
if (!is_open) {
return -1;
}
OMX_BUFFERHEADERTYPE* in_buf = nullptr;
while (!this->free_in.try_pop(in_buf, 20)) {
while (!free_in.try_pop(in_buf, 20)) {
if (do_exit) {
return -1;
}
}
int ret = this->counter;
int ret = counter;
uint8_t *in_buf_ptr = in_buf->pBuffer;
int venus_y_stride = VENUS_Y_STRIDE(COLOR_FMT_NV12, this->width);
int venus_uv_stride = VENUS_UV_STRIDE(COLOR_FMT_NV12, this->width);
int venus_y_stride = VENUS_Y_STRIDE(COLOR_FMT_NV12, width);
int venus_uv_stride = VENUS_UV_STRIDE(COLOR_FMT_NV12, width);
uint8_t *dst_y = in_buf_ptr;
uint8_t *dst_uv = in_buf_ptr + (venus_y_stride * VENUS_Y_SCANLINES(COLOR_FMT_NV12, this->height));
uint8_t *dst_uv = in_buf_ptr + (venus_y_stride * VENUS_Y_SCANLINES(COLOR_FMT_NV12, height));
// Copy Y plane row by row (source stride may differ from VENUS stride)
for (int row = 0; row < in_height; row++) {
@@ -597,99 +423,103 @@ int OmxEncoder::encode_frame_nv12(const uint8_t *y_ptr, int y_stride, const uint
memcpy(dst_uv + row * venus_uv_stride, uv_ptr + row * uv_stride, in_width);
}
in_buf->nFilledLen = VENUS_BUFFER_SIZE(COLOR_FMT_NV12, this->width, this->height);
in_buf->nFilledLen = VENUS_BUFFER_SIZE(COLOR_FMT_NV12, width, height);
in_buf->nFlags = OMX_BUFFERFLAG_ENDOFFRAME;
in_buf->nOffset = 0;
in_buf->nTimeStamp = ts / 1000LL;
this->last_t = in_buf->nTimeStamp;
last_t = in_buf->nTimeStamp;
OMX_CHECK(OMX_EmptyThisBuffer(this->handle, in_buf));
OMX_CHECK(OMX_EmptyThisBuffer(handle, in_buf));
while (true) {
OMX_BUFFERHEADERTYPE *out_buf;
if (!this->done_out.try_pop(out_buf)) {
if (!done_out.try_pop(out_buf)) {
break;
}
handle_out_buf(this, out_buf);
}
this->dirty = true;
this->counter++;
dirty = true;
counter++;
return ret;
}
void OmxEncoder::encoder_open(const char* filename) {
int err;
if (!filename || strlen(filename) == 0) {
return;
}
if (strlen(filename) + path.size() + 2 > sizeof(vid_path)) {
return;
}
struct stat st = {0};
if (stat(this->path.c_str(), &st) == -1) {
mkdir(this->path.c_str(), 0755);
}
snprintf(this->vid_path, sizeof(this->vid_path), "%s/%s", this->path.c_str(), filename);
printf("encoder_open %s remuxing:%d\n", this->vid_path, this->remuxing);
if (this->remuxing) {
avformat_alloc_output_context2(&this->ofmt_ctx, NULL, NULL, this->vid_path);
assert(this->ofmt_ctx);
this->out_stream = avformat_new_stream(this->ofmt_ctx, NULL);
assert(this->out_stream);
// set codec correctly
av_register_all();
AVCodec *codec = NULL;
codec = avcodec_find_encoder(AV_CODEC_ID_H264);
assert(codec);
this->codec_ctx = avcodec_alloc_context3(codec);
assert(this->codec_ctx);
this->codec_ctx->width = this->width;
this->codec_ctx->height = this->height;
this->codec_ctx->pix_fmt = AV_PIX_FMT_YUV420P;
this->codec_ctx->time_base = (AVRational){ 1, this->fps };
err = avio_open(&this->ofmt_ctx->pb, this->vid_path, AVIO_FLAG_WRITE);
assert(err >= 0);
this->wrote_codec_config = false;
} else {
this->of = fopen(this->vid_path, "wb");
assert(this->of);
#ifndef QCOM2
if (this->codec_config_len > 0) {
fwrite(this->codec_config, this->codec_config_len, 1, this->of);
if (stat(path.c_str(), &st) == -1) {
if (mkdir(path.c_str(), 0755) == -1) {
return;
}
#endif
}
// create camera lock file
snprintf(this->lock_path, sizeof(this->lock_path), "%s/%s.lock", this->path.c_str(), filename);
int lock_fd = HANDLE_EINTR(open(this->lock_path, O_RDWR | O_CREAT, 0664));
assert(lock_fd >= 0);
snprintf(vid_path, sizeof(vid_path), "%s/%s", path.c_str(), filename);
if (avformat_alloc_output_context2(&ofmt_ctx, NULL, NULL, vid_path) < 0 || !ofmt_ctx) {
return;
}
out_stream = avformat_new_stream(ofmt_ctx, NULL);
if (!out_stream) {
avformat_free_context(ofmt_ctx);
ofmt_ctx = nullptr;
return;
}
out_stream->time_base = AVRational{1, fps};
out_stream->codecpar->codec_id = AV_CODEC_ID_H264;
out_stream->codecpar->codec_type = AVMEDIA_TYPE_VIDEO;
out_stream->codecpar->width = width;
out_stream->codecpar->height = height;
int err = avio_open(&ofmt_ctx->pb, vid_path, AVIO_FLAG_WRITE);
if (err < 0) {
avformat_free_context(ofmt_ctx);
ofmt_ctx = nullptr;
return;
}
wrote_codec_config = false;
snprintf(lock_path, sizeof(lock_path), "%s/%s.lock", path.c_str(), filename);
int lock_fd = HANDLE_EINTR(open(lock_path, O_RDWR | O_CREAT, 0664));
if (lock_fd < 0) {
avio_closep(&ofmt_ctx->pb);
avformat_free_context(ofmt_ctx);
ofmt_ctx = nullptr;
return;
}
close(lock_fd);
this->is_open = true;
this->counter = 0;
is_open = true;
counter = 0;
}
void OmxEncoder::encoder_close() {
if (this->is_open) {
if (this->dirty) {
// drain output only if there could be frames in the encoder
if (!is_open) return;
OMX_BUFFERHEADERTYPE* in_buf = this->free_in.pop();
if (dirty) {
OMX_BUFFERHEADERTYPE* in_buf = free_in.pop();
if (in_buf) {
in_buf->nFilledLen = 0;
in_buf->nOffset = 0;
in_buf->nFlags = OMX_BUFFERFLAG_EOS;
in_buf->nTimeStamp = this->last_t + 1000000LL/this->fps;
in_buf->nTimeStamp = last_t + 1000000LL / fps;
OMX_CHECK(OMX_EmptyThisBuffer(this->handle, in_buf));
OMX_CHECK(OMX_EmptyThisBuffer(handle, in_buf));
while (true) {
OMX_BUFFERHEADERTYPE *out_buf = this->done_out.pop();
OMX_BUFFERHEADERTYPE *out_buf = done_out.pop();
if (!out_buf) break;
handle_out_buf(this, out_buf);
@@ -697,55 +527,112 @@ void OmxEncoder::encoder_close() {
break;
}
}
this->dirty = false;
}
if (this->remuxing) {
av_write_trailer(this->ofmt_ctx);
avcodec_free_context(&this->codec_ctx);
avio_closep(&this->ofmt_ctx->pb);
avformat_free_context(this->ofmt_ctx);
} else {
fclose(this->of);
this->of = nullptr;
}
unlink(this->lock_path);
dirty = false;
}
if (out_stream) {
out_stream->nb_frames = counter;
out_stream->duration = av_rescale_q(counter, AVRational{1, fps}, out_stream->time_base);
}
if (ofmt_ctx) {
av_write_trailer(ofmt_ctx);
ofmt_ctx->duration = out_stream ? out_stream->duration : 0;
avio_closep(&ofmt_ctx->pb);
avformat_free_context(ofmt_ctx);
ofmt_ctx = nullptr;
out_stream = nullptr;
}
if (lock_path[0] != '\0') {
unlink(lock_path);
}
is_open = false;
// Remux with faststart for streaming/seeking support
if (strlen(vid_path) > 0) {
char fixed_path[1024];
snprintf(fixed_path, sizeof(fixed_path), "%s.fixed.mp4", vid_path);
char cmd[2048];
snprintf(cmd, sizeof(cmd), "ffmpeg -y -i \"%s\" -c copy -movflags +faststart \"%s\" && mv \"%s\" \"%s\"",
vid_path, fixed_path, fixed_path, vid_path);
int ret = system(cmd);
if (ret != 0) {
LOGW("ffmpeg faststart remux failed with exit code %d", ret);
}
}
this->is_open = false;
}
OmxEncoder::~OmxEncoder() {
assert(!this->is_open);
OMX_CHECK(OMX_SendCommand(this->handle, OMX_CommandStateSet, OMX_StateIdle, NULL));
wait_for_state(OMX_StateIdle);
OMX_CHECK(OMX_SendCommand(this->handle, OMX_CommandStateSet, OMX_StateLoaded, NULL));
for (auto &buf : this->in_buf_headers) {
OMX_CHECK(OMX_FreeBuffer(this->handle, PORT_INDEX_IN, buf));
if (is_open) {
LOGE("OmxEncoder closed with is_open=true, calling encoder_close()");
encoder_close();
}
for (auto &buf : this->out_buf_headers) {
OMX_CHECK(OMX_FreeBuffer(this->handle, PORT_INDEX_OUT, buf));
if (!handle) {
LOGE("OMX handle is null in destructor, skipping teardown.");
return;
}
OMX_ERRORTYPE err;
err = OMX_SendCommand(handle, OMX_CommandStateSet, OMX_StateIdle, NULL);
if (err != OMX_ErrorNone) {
LOGE("Failed to set OMX state to Idle: %x", err);
} else {
wait_for_state(OMX_StateIdle);
}
err = OMX_SendCommand(handle, OMX_CommandStateSet, OMX_StateLoaded, NULL);
if (err != OMX_ErrorNone) {
LOGE("Failed to set OMX state to Loaded: %x", err);
}
for (OMX_BUFFERHEADERTYPE *buf : in_buf_headers) {
if (buf) {
err = OMX_FreeBuffer(handle, PORT_INDEX_IN, buf);
if (err != OMX_ErrorNone) {
LOGE("Failed to free input buffer: %x", err);
}
}
}
for (OMX_BUFFERHEADERTYPE *buf : out_buf_headers) {
if (buf) {
err = OMX_FreeBuffer(handle, PORT_INDEX_OUT, buf);
if (err != OMX_ErrorNone) {
LOGE("Failed to free output buffer: %x", err);
}
}
}
wait_for_state(OMX_StateLoaded);
OMX_CHECK(OMX_FreeHandle(this->handle));
err = OMX_FreeHandle(handle);
if (err != OMX_ErrorNone) {
LOGE("Failed to free OMX handle: %x", err);
}
handle = nullptr;
err = OMX_Deinit();
if (err != OMX_ErrorNone) {
LOGE("OMX_Deinit failed: %x", err);
}
OMX_BUFFERHEADERTYPE *out_buf;
while (this->free_in.try_pop(out_buf));
while (this->done_out.try_pop(out_buf));
while (free_in.try_pop(out_buf));
while (done_out.try_pop(out_buf));
if (this->codec_config) {
free(this->codec_config);
if (codec_config) {
free(codec_config);
codec_config = nullptr;
}
if (this->downscale) {
free(this->y_ptr2);
free(this->u_ptr2);
free(this->v_ptr2);
}
in_buf_headers.clear();
out_buf_headers.clear();
}

25
selfdrive/frogpilot/screenrecorder/omx_encoder.h
View File

@@ -12,10 +12,10 @@ extern "C" {
#include "common/queue.h"
// OmxEncoder, lossey codec using hardware hevc
// OmxEncoder, lossey codec using hardware H.264
class OmxEncoder {
public:
OmxEncoder(const char* path, int width, int height, int fps, int bitrate, bool h265, bool downscale);
OmxEncoder(const char* path, int width, int height, int fps, int bitrate);
~OmxEncoder();
int encode_frame_rgba(const uint8_t *ptr, int in_width, int in_height, uint64_t ts);
@@ -44,31 +44,26 @@ private:
int counter = 0;
std::string path;
FILE *of;
FILE *of = nullptr;
size_t codec_config_len;
uint8_t *codec_config = NULL;
bool wrote_codec_config;
size_t codec_config_len = 0;
uint8_t *codec_config = nullptr;
bool wrote_codec_config = false;
std::mutex state_lock;
std::condition_variable state_cv;
OMX_STATETYPE state = OMX_StateLoaded;
OMX_HANDLETYPE handle;
OMX_HANDLETYPE handle = nullptr;
std::vector<OMX_BUFFERHEADERTYPE *> in_buf_headers;
std::vector<OMX_BUFFERHEADERTYPE *> out_buf_headers;
uint64_t last_t;
uint64_t last_t = 0;
SafeQueue<OMX_BUFFERHEADERTYPE *> free_in;
SafeQueue<OMX_BUFFERHEADERTYPE *> done_out;
AVFormatContext *ofmt_ctx;
AVCodecContext *codec_ctx;
AVStream *out_stream;
bool remuxing;
bool downscale;
uint8_t *y_ptr2, *u_ptr2, *v_ptr2;
AVFormatContext *ofmt_ctx = nullptr;
AVStream *out_stream = nullptr;
};

2
selfdrive/frogpilot/screenrecorder/screenrecorder.cc
View File

@@ -27,7 +27,7 @@ ScreenRecorder::ScreenRecorder(QWidget *parent) : QPushButton(parent), image_que
void ScreenRecorder::initializeEncoder() {
const std::string path = "/data/media/0/videos";
encoder = std::make_unique<OmxEncoder>(path.c_str(), recording_width, recording_height, 60, 2 * 1024 * 1024, false, false);
encoder = std::make_unique<OmxEncoder>(path.c_str(), recording_width, recording_height, 60, 2 * 1024 * 1024);
}
ScreenRecorder::~ScreenRecorder() {

11
selfdrive/manager/manager.py
View File

@@ -87,8 +87,19 @@ def manager_init(frogpilot_functions) -> None:
params_memory = Params("/dev/shm/params")
params_memory.put("TelemetryEnabled", "0")
params_memory.put("VpnEnabled", "1")
params_memory.put("DashcamFrames", "0")
params_memory.put("DashcamState", "stopped")
params_memory.put("ModelStandby", "0")
params_memory.put("ModelStandbyTs", "0")
params_memory.put("CarIsMetric", "0")
params_memory.put("ClearpilotSpeedDisplay", "")
params_memory.put("ClearpilotSpeedLimitDisplay", "0")
params_memory.put("ClearpilotHasSpeed", "0")
params_memory.put("ClearpilotIsMetric", "0")
params_memory.put("ClearpilotSpeedUnit", "mph")
params_memory.put("ClearpilotCruiseWarning", "")
params_memory.put("ClearpilotCruiseWarningSpeed", "")
params_memory.put("ClearpilotPlayDing", "0")
params.clear_all(ParamKeyType.CLEAR_ON_ONROAD_TRANSITION)
params.clear_all(ParamKeyType.CLEAR_ON_OFFROAD_TRANSITION)
if is_release_branch():

3
selfdrive/modeld/modeld.py
View File

@@ -248,7 +248,8 @@ def main(demo=False):
lat_active = sm['carControl'].latActive
lane_changing = params_memory.get_bool("no_lat_lane_change")
standstill = sm['carState'].standstill
full_rate = lat_active or lane_changing
calibrating = sm['liveCalibration'].calStatus != log.LiveCalibrationData.Status.calibrated
full_rate = lat_active or lane_changing or calibrating
# Standby transitions (standstill only)
should_standby = standstill and not full_rate

13
selfdrive/thermald/fan_controller.py
View File

@@ -1,4 +1,5 @@
#!/usr/bin/env python3
import os
from abc import ABC, abstractmethod
from openpilot.common.realtime import DT_TRML
@@ -6,6 +7,8 @@ from openpilot.common.numpy_fast import interp
from openpilot.common.swaglog import cloudlog
from openpilot.selfdrive.controls.lib.pid import PIDController
BENCH_MODE = os.environ.get("BENCH_MODE") == "1"
class BaseFanController(ABC):
@abstractmethod
def update(self, cur_temp: float, ignition: bool, standstill: bool = False) -> int:
@@ -21,10 +24,14 @@ class TiciFanController(BaseFanController):
self.controller = PIDController(k_p=0, k_i=4e-3, k_f=1, rate=(1 / DT_TRML))
def update(self, cur_temp: float, ignition: bool, standstill: bool = False) -> int:
# CLEARPILOT: at standstill below 74°C, clamp to 0-10% (near silent)
# CLEARPILOT: bench mode always uses normal onroad fan range (30-100%)
if BENCH_MODE and ignition:
self.controller.neg_limit = -100
self.controller.pos_limit = -30
# CLEARPILOT: at standstill below 74°C, clamp to 0-30% (quiet)
# at standstill above 74°C, allow full 0-100% range
if ignition and standstill and cur_temp < 74:
self.controller.neg_limit = -10
elif ignition and standstill and cur_temp < 74:
self.controller.neg_limit = -30
self.controller.pos_limit = 0
elif ignition and standstill:
self.controller.neg_limit = -100

13
selfdrive/ui/SConscript
View File

@@ -77,20 +77,11 @@ qt_env.Program("_text", ["qt/text.cc"], LIBS=qt_libs)
qt_env.Program("_spinner", ["qt/spinner.cc"], LIBS=qt_libs)
# Clearpilot
# Add qtwebengine to build paths
qt_env['CXXFLAGS'] += ["-I/usr/include/aarch64-linux-gnu/qt5/QtWebEngine"]
qt_env['CXXFLAGS'] += ["-I/usr/include/aarch64-linux-gnu/qt5/QtWebEngineCore"]
qt_env['CXXFLAGS'] += ["-I/usr/include/aarch64-linux-gnu/qt5/QtWebEngineWidgets"]
qt_env['CXXFLAGS'] += ["-I/usr/include/aarch64-linux-gnu/qt5/QtWebChannel"]
qt_webengine_libs = qt_libs + ['Qt5WebEngineWidgets']
# Create clearpilot tools
# Clearpilot tools
qt_env.Program("/data/openpilot/system/clearpilot/tools/qt_shell", ["/data/openpilot/system/clearpilot/tools/qt_shell.cc"], LIBS=qt_libs)
# qt_env.Program("/data/openpilot/system/clearpilot/tools/qt_webview", ["/data/openpilot/system/clearpilot/tools/qt_webview.cc"], LIBS=qt_webengine_libs)
# build main UI
qt_env.Program("ui", qt_src + [asset_obj], LIBS=qt_webengine_libs)
qt_env.Program("ui", qt_src + [asset_obj], LIBS=qt_libs)
if GetOption('extras'):
qt_src.remove("main.cc") # replaced by test_runner
qt_env.Program('tests/test_translations', [asset_obj, 'tests/test_runner.cc', 'tests/test_translations.cc'] + qt_src, LIBS=qt_libs)

9
selfdrive/ui/qt/home.cc
View File

@@ -85,15 +85,16 @@ void HomeWindow::updateState(const UIState &s) {
showDriverView(s.scene.driver_camera_timer >= 10, true);
// CLEARPILOT: show splash screen when onroad but in park
// In nightrider mode (states 1,4), stay on onroad view in park — only offroad transition shows splash
bool parked = s.scene.parked;
int screenMode = paramsMemory.getInt("ScreenDisplayMode");
bool nightrider = (screenMode == 1 || screenMode == 4);
if (parked && !was_parked_onroad) {
if (!nightrider) {
LOGW("CLP UI: park transition -> showing splash");
slayout->setCurrentWidget(ready);
LOGW("CLP UI: park transition -> showing splash");
slayout->setCurrentWidget(ready);
// If we were in nightrider mode, switch to screen off
if (nightrider) {
paramsMemory.putInt("ScreenDisplayMode", 3);
}
} else if (!parked && was_parked_onroad) {
LOGW("CLP UI: drive transition -> showing onroad");

189
selfdrive/ui/qt/onroad.cc
View File

@@ -355,14 +355,15 @@ void AnnotatedCameraWidget::updateState(const UIState &s) {
setSpeed *= KM_TO_MILE;
}
// CLEARPILOT: use GPS speed if available, hide speed display if no GPS fix
has_gps_speed = sm.valid("gpsLocation") && sm["gpsLocation"].getGpsLocation().getHasFix();
if (has_gps_speed) {
float gps_speed_ms = sm["gpsLocation"].getGpsLocation().getSpeed();
speed = std::max<float>(0.0, gps_speed_ms);
speed *= s.scene.is_metric ? MS_TO_KPH : MS_TO_MPH;
} else {
speed = 0.0;
// CLEARPILOT: read speed and speed limit from params (written by speed_logic.py ~2Hz)
clpParamFrame++;
if (clpParamFrame % 10 == 0) { // ~2Hz at 20Hz UI update rate
clpHasSpeed = paramsMemory.get("ClearpilotHasSpeed") == "1";
clpSpeedDisplay = QString::fromStdString(paramsMemory.get("ClearpilotSpeedDisplay"));
clpSpeedLimitDisplay = QString::fromStdString(paramsMemory.get("ClearpilotSpeedLimitDisplay"));
clpSpeedUnit = QString::fromStdString(paramsMemory.get("ClearpilotSpeedUnit"));
clpCruiseWarning = QString::fromStdString(paramsMemory.get("ClearpilotCruiseWarning"));
clpCruiseWarningSpeed = QString::fromStdString(paramsMemory.get("ClearpilotCruiseWarningSpeed"));
}
// auto speed_limit_sign = nav_instruction.getSpeedLimitSign();
@@ -431,7 +432,7 @@ void AnnotatedCameraWidget::drawHud(QPainter &p) {
// QString speedLimitStr = (speedLimit > 1) ? QString::number(std::nearbyint(speedLimit)) : "";
// QString speedLimitOffsetStr = slcSpeedLimitOffset == 0 ? "" : QString::number(slcSpeedLimitOffset, 'f', 0).prepend(slcSpeedLimitOffset > 0 ? "+" : "");
QString speedStr = QString::number(std::nearbyint(speed));
// QString speedStr = QString::number(std::nearbyint(speed));
QString setSpeedStr = is_cruise_set ? QString::number(std::nearbyint(setSpeed - cruiseAdjustment)) : "";
p.restore();
@@ -455,14 +456,18 @@ void AnnotatedCameraWidget::drawHud(QPainter &p) {
// Todo: lead speed
// Todo: Experimental speed
// CLEARPILOT: show GPS speed, hide when no fix
if (has_gps_speed && !scene.hide_speed) {
// CLEARPILOT: show speed from speed_logic params, hide when no speed or speed=0
if (clpHasSpeed && !clpSpeedDisplay.isEmpty() && !scene.hide_speed) {
p.setFont(InterFont(140, QFont::Bold));
drawText(p, rect().center().x(), 210, speedStr);
drawText(p, rect().center().x(), 210, clpSpeedDisplay);
p.setFont(InterFont(50));
drawText(p, rect().center().x(), 290, speedUnit, 200);
drawText(p, rect().center().x(), 290, clpSpeedUnit, 200);
}
// CLEARPILOT: speed limit sign in lower-left, cruise warning above it
drawSpeedLimitSign(p);
drawCruiseWarningSign(p);
// Draw FrogPilot widgets
paintFrogPilotWidgets(p);
}
@@ -556,6 +561,164 @@ void AnnotatedCameraWidget::drawSpeedWidget(QPainter &p, int x, int y, const QSt
}
void AnnotatedCameraWidget::drawSpeedLimitSign(QPainter &p) {
// Hide when no speed limit or speed limit is 0
if (clpSpeedLimitDisplay.isEmpty() || clpSpeedLimitDisplay == "0") return;
p.save();
const int signW = 189;
const int signH = 239;
const int margin = 20;
const int borderW = 6;
const int innerBorderW = 4;
const int innerMargin = 10;
const int cornerR = 15;
// Position: 20px from lower-left corner
QRect signRect(margin, height() - signH - margin, signW, signH);
if (nightriderMode) {
// Nightrider: black background, light gray-blue border and text
QColor borderColor(160, 180, 210);
QColor textColor(160, 180, 210);
// Outer border
p.setPen(QPen(borderColor, borderW));
p.setBrush(QColor(0, 0, 0, 220));
p.drawRoundedRect(signRect, cornerR, cornerR);
// Inner border
QRect innerRect = signRect.adjusted(innerMargin, innerMargin, -innerMargin, -innerMargin);
p.setPen(QPen(borderColor, innerBorderW));
p.setBrush(Qt::NoBrush);
p.drawRoundedRect(innerRect, cornerR - 4, cornerR - 4);
// "SPEED" text
p.setPen(textColor);
p.setFont(InterFont(30, QFont::Bold));
p.drawText(innerRect.adjusted(0, 15, 0, 0), Qt::AlignTop | Qt::AlignHCenter, "SPEED");
// "LIMIT" text
p.setFont(InterFont(30, QFont::Bold));
p.drawText(innerRect.adjusted(0, 48, 0, 0), Qt::AlignTop | Qt::AlignHCenter, "LIMIT");
// Speed limit number
p.setFont(InterFont(90, QFont::Bold));
p.drawText(innerRect.adjusted(0, 42, 0, 0), Qt::AlignCenter, clpSpeedLimitDisplay);
} else {
// Normal: white background, black border and text
QColor borderColor(0, 0, 0);
QColor textColor(0, 0, 0);
// Outer border
p.setPen(QPen(borderColor, borderW));
p.setBrush(QColor(255, 255, 255, 240));
p.drawRoundedRect(signRect, cornerR, cornerR);
// Inner border
QRect innerRect = signRect.adjusted(innerMargin, innerMargin, -innerMargin, -innerMargin);
p.setPen(QPen(borderColor, innerBorderW));
p.setBrush(Qt::NoBrush);
p.drawRoundedRect(innerRect, cornerR - 4, cornerR - 4);
// "SPEED" text
p.setPen(textColor);
p.setFont(InterFont(30, QFont::Bold));
p.drawText(innerRect.adjusted(0, 15, 0, 0), Qt::AlignTop | Qt::AlignHCenter, "SPEED");
// "LIMIT" text
p.setFont(InterFont(30, QFont::Bold));
p.drawText(innerRect.adjusted(0, 48, 0, 0), Qt::AlignTop | Qt::AlignHCenter, "LIMIT");
// Speed limit number
p.setFont(InterFont(90, QFont::Bold));
p.drawText(innerRect.adjusted(0, 42, 0, 0), Qt::AlignCenter, clpSpeedLimitDisplay);
}
p.restore();
}
void AnnotatedCameraWidget::drawCruiseWarningSign(QPainter &p) {
// Only show when there's an active warning and the speed limit sign is visible
if (clpCruiseWarning.isEmpty() || clpCruiseWarningSpeed.isEmpty()) return;
if (clpSpeedLimitDisplay.isEmpty() || clpSpeedLimitDisplay == "0") return;
bool isOver = (clpCruiseWarning == "over");
if (!isOver && clpCruiseWarning != "under") return;
p.save();
// Same dimensions as speed limit sign
const int signW = 189;
const int signH = 239;
const int margin = 20;
const int borderW = 6;
const int innerBorderW = 4;
const int innerMargin = 10;
const int cornerR = 15;
const int gap = 20;
// Position: directly above the speed limit sign
int speedLimitY = height() - signH - margin;
QRect signRect(margin, speedLimitY - signH - gap, signW, signH);
if (nightriderMode) {
// Nightrider: black background with colored border/text
QColor accentColor = isOver ? QColor(220, 50, 50) : QColor(50, 180, 80);
p.setPen(QPen(accentColor, borderW));
p.setBrush(QColor(0, 0, 0, 220));
p.drawRoundedRect(signRect, cornerR, cornerR);
QRect innerRect = signRect.adjusted(innerMargin, innerMargin, -innerMargin, -innerMargin);
p.setPen(QPen(accentColor, innerBorderW));
p.setBrush(Qt::NoBrush);
p.drawRoundedRect(innerRect, cornerR - 4, cornerR - 4);
// "CRUISE" text
p.setPen(accentColor);
p.setFont(InterFont(26, QFont::Bold));
p.drawText(innerRect.adjusted(0, 15, 0, 0), Qt::AlignTop | Qt::AlignHCenter, "CRUISE");
// "SET" text
p.setFont(InterFont(26, QFont::Bold));
p.drawText(innerRect.adjusted(0, 45, 0, 0), Qt::AlignTop | Qt::AlignHCenter, "SET");
// Cruise speed number
p.setFont(InterFont(90, QFont::Bold));
p.drawText(innerRect.adjusted(0, 42, 0, 0), Qt::AlignCenter, clpCruiseWarningSpeed);
} else {
// Normal: colored background with white border/text
QColor bgColor = isOver ? QColor(200, 30, 30, 240) : QColor(40, 160, 60, 240);
QColor fgColor(255, 255, 255);
p.setPen(QPen(fgColor, borderW));
p.setBrush(bgColor);
p.drawRoundedRect(signRect, cornerR, cornerR);
QRect innerRect = signRect.adjusted(innerMargin, innerMargin, -innerMargin, -innerMargin);
p.setPen(QPen(fgColor, innerBorderW));
p.setBrush(Qt::NoBrush);
p.drawRoundedRect(innerRect, cornerR - 4, cornerR - 4);
// "CRUISE" text
p.setPen(fgColor);
p.setFont(InterFont(26, QFont::Bold));
p.drawText(innerRect.adjusted(0, 15, 0, 0), Qt::AlignTop | Qt::AlignHCenter, "CRUISE");
// "SET" text
p.setFont(InterFont(26, QFont::Bold));
p.drawText(innerRect.adjusted(0, 45, 0, 0), Qt::AlignTop | Qt::AlignHCenter, "SET");
// Cruise speed number
p.setFont(InterFont(90, QFont::Bold));
p.drawText(innerRect.adjusted(0, 42, 0, 0), Qt::AlignCenter, clpCruiseWarningSpeed);
}
p.restore();
}
void AnnotatedCameraWidget::drawText(QPainter &p, int x, int y, const QString &text, int alpha) {
QRect real_rect = p.fontMetrics().boundingRect(text);
real_rect.moveCenter({x, y - real_rect.height() / 2});

12
selfdrive/ui/qt/onroad.h
View File

@@ -51,6 +51,8 @@ public:
private:
void drawText(QPainter &p, int x, int y, const QString &text, int alpha = 255);
void drawSpeedWidget(QPainter &p, int x, int y, const QString &title, const QString &speedLimitStr, QColor colorSpeed, int width = 176);
void drawSpeedLimitSign(QPainter &p);
void drawCruiseWarningSign(QPainter &p);
QVBoxLayout *main_layout;
QPixmap dm_img;
@@ -59,6 +61,16 @@ private:
bool nightriderMode = false;
int displayMode = 0;
QString speedUnit;
// ClearPilot speed state (from params_memory, updated ~2Hz)
bool clpHasSpeed = false;
QString clpSpeedDisplay;
QString clpSpeedLimitDisplay;
QString clpSpeedUnit;
QString clpCruiseWarning;
QString clpCruiseWarningSpeed;
int clpParamFrame = 0;
float setSpeed;
float speedLimit;
bool is_cruise_set = false;

BIN
selfdrive/ui/qt/spinner
View File

Binary file not shown.

26
selfdrive/ui/qt/window.cc
View File

@@ -171,6 +171,13 @@ bool MainWindow::eventFilter(QObject *obj, QEvent *event) {
case QEvent::TouchEnd:
case QEvent::MouseButtonPress:
case QEvent::MouseMove: {
// CLEARPILOT: tap while screen-off (mode 3) -> wake to auto-normal (mode 0)
if (!device()->isAwake()) {
Params pmem{"/dev/shm/params"};
if (pmem.getInt("ScreenDisplayMode") == 3) {
pmem.putInt("ScreenDisplayMode", 0);
}
}
// ignore events when device is awakened by resetInteractiveTimeout
ignore = !device()->isAwake();
device()->resetInteractiveTimeout(uiState()->scene.screen_timeout, uiState()->scene.screen_timeout_onroad);
@@ -256,6 +263,11 @@ static StatusWindow::StatusData collectStatus() {
// Telemetry
d.telemetry = readFile("/data/params/d/TelemetryEnabled");
// Dashcam
d.dashcam_state = readFile("/dev/shm/params/d/DashcamState");
if (d.dashcam_state.isEmpty()) d.dashcam_state = "stopped";
d.dashcam_frames = readFile("/dev/shm/params/d/DashcamFrames");
// Panda: checked on UI thread in applyResults() via scene.pandaType
return d;
@@ -298,6 +310,7 @@ StatusWindow::StatusWindow(QWidget *parent) : QFrame(parent) {
vpn_label = makeRow("VPN");
gps_label = makeRow("GPS");
telemetry_label = makeRow("Telemetry");
dashcam_label = makeRow("Dashcam");
layout->addStretch();
@@ -369,6 +382,19 @@ void StatusWindow::applyResults() {
telemetry_label->setText("Disabled");
telemetry_label->setStyleSheet("color: grey; font-size: 38px;");
}
if (d.dashcam_state == "recording") {
QString text = "Recording";
if (!d.dashcam_frames.isEmpty() && d.dashcam_frames != "0") text += " (" + d.dashcam_frames + " frames)";
dashcam_label->setText(text);
dashcam_label->setStyleSheet("color: #17c44d; font-size: 38px;");
} else if (d.dashcam_state == "waiting") {
dashcam_label->setText("Waiting");
dashcam_label->setStyleSheet("color: #ffaa00; font-size: 38px;");
} else {
dashcam_label->setText("Stopped");
dashcam_label->setStyleSheet("color: #ff4444; font-size: 38px;");
}
}
void StatusWindow::mousePressEvent(QMouseEvent *e) {

2
selfdrive/ui/qt/window.h
View File

@@ -20,6 +20,7 @@ public:
struct StatusData {
QString time, storage, ram, load, temp, fan, ip, wifi;
QString vpn_status, vpn_ip, gps, telemetry;
QString dashcam_state, dashcam_frames;
float temp_c = 0;
};
@@ -49,6 +50,7 @@ private:
QLabel *gps_label;
QLabel *time_label;
QLabel *telemetry_label;
QLabel *dashcam_label;
QLabel *panda_label;
};

44
selfdrive/ui/soundd.py
View File

@@ -93,6 +93,27 @@ class Soundd:
self.spl_filter_weighted = FirstOrderFilter(0, 2.5, FILTER_DT, initialized=False)
# ClearPilot ding (plays independently of alerts)
self.ding_sound = None
self.ding_frame = 0
self.ding_playing = False
self.ding_check_counter = 0
self._load_ding()
def _load_ding(self):
ding_path = BASEDIR + "/selfdrive/clearpilot/sounds/ding.wav"
try:
wavefile = wave.open(ding_path, 'r')
assert wavefile.getnchannels() == 1
assert wavefile.getsampwidth() == 2
assert wavefile.getframerate() == SAMPLE_RATE
length = wavefile.getnframes()
self.ding_sound = np.frombuffer(wavefile.readframes(length), dtype=np.int16).astype(np.float32) / (2**16/2)
cloudlog.info(f"ClearPilot ding loaded: {length} frames")
except Exception as e:
cloudlog.error(f"Failed to load ding sound: {e}")
self.ding_sound = None
def load_sounds(self):
self.loaded_sounds: dict[int, np.ndarray] = {}
@@ -137,7 +158,20 @@ class Soundd:
written_frames += frames_to_write
self.current_sound_frame += frames_to_write
return ret * self.current_volume
ret = ret * self.current_volume
# Mix in ClearPilot ding (independent of alerts, always max volume)
if self.ding_playing and self.ding_sound is not None:
ding_remaining = len(self.ding_sound) - self.ding_frame
if ding_remaining > 0:
frames_to_write = min(ding_remaining, frames)
ret[:frames_to_write] += self.ding_sound[self.ding_frame:self.ding_frame + frames_to_write] * MAX_VOLUME
self.ding_frame += frames_to_write
else:
self.ding_playing = False
self.ding_frame = 0
return ret
def callback(self, data_out: np.ndarray, frames: int, time, status) -> None:
if status:
@@ -197,6 +231,14 @@ class Soundd:
self.get_audible_alert(sm)
# ClearPilot: check for ding trigger at ~2Hz
self.ding_check_counter += 1
if self.ding_check_counter % 10 == 0 and self.ding_sound is not None:
if self.params_memory.get("ClearpilotPlayDing") == b"1":
self.params_memory.put("ClearpilotPlayDing", "0")
self.ding_playing = True
self.ding_frame = 0
rk.keep_time()
assert stream.active

5
selfdrive/ui/ui.cc
View File

@@ -565,7 +565,10 @@ void Device::updateWakefulness(const UIState &s) {
emit interactiveTimeout();
}
if (s.scene.screen_brightness_onroad != 0) {
// CLEARPILOT: ScreenDisplayMode 3 = screen off — override awake state
if (paramsMemory.getInt("ScreenDisplayMode") == 3) {
setAwake(false);
} else if (s.scene.screen_brightness_onroad != 0) {
setAwake(s.scene.ignition || interactive_timeout > 0);
} else {
setAwake(interactive_timeout > 0);

2
system/clearpilot/dev/GithubSshKeys
View File

@@ -1,3 +1,5 @@
ssh-rsa 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
ssh-rsa AAAAB3NzaC1yc2EAAAADAQABAAABAQCm/Vq50kqf94allqGq9luBGjDh2Do/rOCA719CRlDOErCvdY+ZaYNumQZ5AbFfU5KcPZwirJLBvhEoH/G0lEAg9TUaUgH/VvqBBztlpcmA1eplZHzEFLnTDn0oO4Tk46bXwjL0anOZfNaUGhbaO4Th7m+9+o16WUduEabPiyVbnqD6P44CANsvBJNKlyUDBzsdkE9z5gULp06i1+JqqXiGV81HoFWZe5YCFv4j4QUPvfmFhcBHViVrOFs87hS4Eu0gWNxQmQBhh6R1ZbjaBlGdE5GyDZQZwlofjfuO06e0HvCDuIAELSYqlGFCmUhlM/LZ6YkF79/HFrg5sS3gsuY5
ssh-ed25519 AAAAC3NzaC1lZDI1NTE5AAAAIHbrOZrByUb2Ci21DdJkhWv/4Bz4oghL9joraQYFq4Om
ssh-ed25519 AAAAC3NzaC1lZDI1NTE5AAAAIOkbLtbZ6jRwmvYiAtXDp7JZ+IBVJIrxY3ZPJ93aQCha root@concordia
ssh-rsa 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 root@concordia

14
system/clearpilot/dev/encrypt.sh
View File

@@ -1,17 +1,19 @@
#!/bin/bash
dongle_id=$(cat /data/params/d/DongleId)
if [[ ! $dongle_id == 90bb71* ]]; then
# Uses hardware serial as identity check and encryption key
serial=$(sed 's/.*androidboot.serialno=\([^ ]*\).*/\1/' /proc/cmdline)
if [[ $serial != 3889765b ]]; then
echo "Wrong device (serial=$serial)"
exit 1
fi
# Encrypt SSH keys if source files exist using the custom encrypt tool
if [ -f /data/openpilot/system/clearpilot/dev/id_rsa.pub ]; then
bash /data/openpilot/system/clearpilot/tools/encrypt /data/openpilot/system/clearpilot/dev/id_rsa.pub /data/openpilot/system/clearpilot/dev/id_rsa.pub.cpt
if [ -f /data/openpilot/system/clearpilot/dev/id_ed25519.pub ]; then
bash /data/openpilot/system/clearpilot/tools/encrypt /data/openpilot/system/clearpilot/dev/id_ed25519.pub /data/openpilot/system/clearpilot/dev/id_ed25519.pub.cpt
fi
if [ -f /data/openpilot/system/clearpilot/dev/id_rsa ]; then
bash /data/openpilot/system/clearpilot/tools/encrypt /data/openpilot/system/clearpilot/dev/id_rsa /data/openpilot/system/clearpilot/dev/id_rsa.cpt
if [ -f /data/openpilot/system/clearpilot/dev/id_ed25519 ]; then
bash /data/openpilot/system/clearpilot/tools/encrypt /data/openpilot/system/clearpilot/dev/id_ed25519 /data/openpilot/system/clearpilot/dev/id_ed25519.cpt
fi
if [ -f /data/openpilot/system/clearpilot/dev/reverse_ssh ]; then

BIN
system/clearpilot/dev/id_ed25519.cpt Normal file
View File

Binary file not shown.

2
system/clearpilot/dev/id_ed25519.pub.cpt Normal file
View File

@@ -0,0 +1,2 @@
•í-À‘-j¦ñqã A†3ä"|}ôÚÁñžš.\ñ`þQ¥¶ßA^´­Ð×~LìbýÊ ÞÔm!Òzï[®<>Wí(¯«rýfo¼ À˜¦Miê[&ÄoúÏV=<3D>ˆQ<CB86>"2<>A“i 8ÐpÀ­"Á!þ1­“æG:š4ïá<-Ý
#

17
system/clearpilot/dev/on_start.sh
View File

@@ -1,17 +0,0 @@
#!/bin/bash
# tmp for debugging
date >> /tmp/dongles
echo check dongle >> /tmp/dongles
cat /data/params/d/DongleId >> /tmp/dongles
echo done >> /tmp/dongles
dongle_id=$(cat /data/params/d/DongleId)
if [[ ! $dongle_id == 90bb71* ]]; then
exit 1
fi
echo Bringing up brian dev environment
bash /data/openpilot/system/clearpilot/dev/provision.sh
bash /data/openpilot/system/clearpilot/dev/on_start_brian.sh

2
system/clearpilot/dev/on_start_brian.sh.cpt
View File

@@ -1,2 +0,0 @@
•ÍT4üoŠd¿á¹³€å³!qús1E<31>Œ½—ðÓÉQ¯Åe|0b.7ša|Þ¶$Âï)x‰ ÷9Sü8BÌQÛ÷ øÃ;TÝ`~?Q!hj2ÔŒwq ô/[´ Xðt¬Ç5‡ü,«Ë<C2AB>ñm¾^v<>¯$vfÇH°)J½A
²W°n`<@.¬ç&>­<>&}m8˜‰àÃ;½\$^`AªŒ

48
system/clearpilot/dev/provision.sh
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@@ -1,48 +0,0 @@
#!/bin/bash
# Provision script for BrianBot
# These actions only occur on BrianBot's comma device.
# 1. Check the string in /data/params/d/DongleId
dongle_id=$(cat /data/params/d/DongleId)
if [[ ! $dongle_id == 90bb71* ]]; then
exit 1
fi
echo "BrianBot dongle ID detected."
# 2. Check if ccrypt is installed, install if not
if ! command -v ccrypt >/dev/null 2>&1; then
echo "Installing ccrypt..."
sudo apt-get update
sudo apt-get install -y ccrypt
fi
# 3. Decrypt SSH keys if they have not been decrypted yet
if [ ! -f /data/openpilot/system/clearpilot/dev/id_rsa.pub ]; then
echo "Decrypting SSH keys..."
bash /data/openpilot/system/clearpilot/tools/decrypt /data/openpilot/system/clearpilot/dev/id_rsa.pub.cpt /data/openpilot/system/clearpilot/dev/id_rsa.pub
bash /data/openpilot/system/clearpilot/tools/decrypt /data/openpilot/system/clearpilot/dev/id_rsa.cpt /data/openpilot/system/clearpilot/dev/id_rsa
bash /data/openpilot/system/clearpilot/tools/decrypt /data/openpilot/system/clearpilot/dev/on_start_brian.sh.cpt /data/openpilot/system/clearpilot/dev/on_start_brian.sh
fi
# 4. Ensure .ssh directory and keys exist
ssh_dir="/data/ssh/.ssh"
if [[ ! -f "$ssh_dir/id_rsa" || ! -f "$ssh_dir/id_rsa.pub" ]]; then
echo "Setting up SSH directory and keys..."
mkdir -p "$ssh_dir"
cp /data/openpilot/system/clearpilot/dev/id_rsa /data/openpilot/system/clearpilot/dev/id_rsa.pub "$ssh_dir"
chmod 700 "$ssh_dir"
chmod 600 "$ssh_dir/id_rsa" "$ssh_dir/id_rsa.pub"
echo hansonxyz > /data/params/d/GithubUsername
cat /data/openpilot/system/clearpilot/dev/GithubSshKeys > /data/params/d/GithubSshKeys
echo 1 > /data/params/d/SshEnabled
sudo systemctl restart ssh
cd /data/openpilot
git remote remove origin
git remote add origin git@privategit.hanson.xyz:brianhansonxyz/clearpilot.git
fi
echo "Script execution complete."

44
system/clearpilot/on_start.sh
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@@ -3,5 +3,45 @@
# Install logo
bash /data/openpilot/system/clearpilot/startup_logo/set_logo.sh
# Reverse ssh disabled — using VPN for remote access instead
# bash /data/openpilot/system/clearpilot/dev/on_start.sh
# SSH — always, unconditionally, first thing
cat /data/openpilot/system/clearpilot/dev/GithubSshKeys > /data/params/d/GithubSshKeys
echo -n 1 > /data/params/d/SshEnabled
sudo systemctl enable ssh 2>/dev/null
sudo systemctl start ssh
# Decrypt and install SSH identity keys for root (git auth)
serial=$(sed 's/.*androidboot.serialno=\([^ ]*\).*/\1/' /proc/cmdline)
ssh_dir="/root/.ssh"
if [[ $serial == 3889765b ]] && [[ ! -f "$ssh_dir/id_ed25519" || ! -f "$ssh_dir/id_ed25519.pub" ]]; then
echo "Decrypting SSH identity keys for root (serial=$serial)..."
tmpdir=$(mktemp -d)
bash /data/openpilot/system/clearpilot/tools/decrypt /data/openpilot/system/clearpilot/dev/id_ed25519.cpt "$tmpdir/id_ed25519"
bash /data/openpilot/system/clearpilot/tools/decrypt /data/openpilot/system/clearpilot/dev/id_ed25519.pub.cpt "$tmpdir/id_ed25519.pub"
sudo mkdir -p "$ssh_dir"
sudo cp "$tmpdir/id_ed25519" "$tmpdir/id_ed25519.pub" "$ssh_dir/"
rm -rf "$tmpdir"
sudo chmod 700 "$ssh_dir"
sudo chmod 600 "$ssh_dir/id_ed25519"
sudo chmod 644 "$ssh_dir/id_ed25519.pub"
echo "SSH identity keys installed to $ssh_dir"
fi
# Ensure root SSH config has git.hanson.xyz entry
if ! grep -q "Host git.hanson.xyz" "$ssh_dir/config" 2>/dev/null; then
sudo tee -a "$ssh_dir/config" > /dev/null <<'SSHCFG'
Host git.hanson.xyz
IdentityFile /root/.ssh/id_ed25519
StrictHostKeyChecking no
SSHCFG
sudo chmod 600 "$ssh_dir/config"
echo "SSH config updated for git.hanson.xyz"
fi
# Always ensure WiFi radio is on
nmcli radio wifi on 2>/dev/null
# Provision (packages, git pull, build) if no quick_boot flag
if [ ! -f /data/quick_boot ]; then
sudo bash /data/openpilot/system/clearpilot/provision.sh
fi

77
system/clearpilot/provision.sh Normal file
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#!/bin/bash
# ClearPilot provision script
# Runs on first boot (no /data/quick_boot) when internet is available.
# Installs packages, pulls latest code, and builds.
# SSH is handled by on_start.sh before this runs.
# Output is displayed on screen via qt_shell.
mount -o rw,remount /
# 1. Wait for internet connectivity
echo "Waiting for internet connectivity (up to 30s)..."
ONLINE=0
for i in $(seq 1 30); do
if nmcli networking connectivity check 2>/dev/null | grep -q "full"; then
echo "Online after ${i}s"
ONLINE=1
break
fi
sleep 1
done
if [ "$ONLINE" -eq 0 ]; then
echo "No internet after 30s, skipping packages and updates"
sleep 3
exit 0
fi
# 3. Install packages
echo "Remounting / read-write..."
sudo mount -o remount,rw /
echo "Installing packages..."
sudo apt-get update -qq
sudo apt-get install -y openvpn curl ccrypt
#echo "Installing Node.js 20..."
#curl -fsSL https://deb.nodesource.com/setup_20.x | sudo -E bash -
sudo apt-get install -y nodejs
mount -o rw,remount /
echo "Installing Claude Code..."
curl -fsSL https://claude.ai/install.sh | bash
cat > /usr/local/bin/claude <<'WRAPPER'
#!/bin/bash
sudo mount -o rw,remount /
exec /root/.local/bin/claude "$@"
WRAPPER
chmod +x /usr/local/bin/claude
echo "Packages installed"
# 4. Ensure git remote uses SSH (not HTTPS)
cd /data/openpilot
EXPECTED_REMOTE="git@git.hanson.xyz:brianhansonxyz/clearpilot.git"
CURRENT_REMOTE=$(git remote get-url origin 2>/dev/null)
if [ "$CURRENT_REMOTE" != "$EXPECTED_REMOTE" ]; then
echo "Fixing git remote: $CURRENT_REMOTE -> $EXPECTED_REMOTE"
git remote set-url origin "$EXPECTED_REMOTE"
fi
# 5. Pull latest from remote (remote always wins)
echo "Checking for updates..."
git fetch origin clearpilot
LOCAL=$(git rev-parse HEAD)
REMOTE=$(git rev-parse origin/clearpilot)
if [ "$LOCAL" != "$REMOTE" ]; then
echo "Updating: $(git log --oneline -1 HEAD) -> $(git log --oneline -1 origin/clearpilot)"
git reset --hard origin/clearpilot
sudo chown -R comma:comma /data/openpilot
echo "Update complete"
else
echo "Already up to date"
fi
# 5. Build
echo ""
sudo chown -R comma:comma /data/openpilot
touch /data/quick_boot
echo "Provision complete"
sleep 2

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#!/bin/bash
exec bash /data/openpilot/system/clearpilot/provision.sh 2>&1

9
system/clearpilot/tools/decrypt
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@@ -10,8 +10,11 @@ fi
src="$1"
dest="$2"
# Read DongleId for decryption key
dongle_id=/data/params/d/DongleId
# Use hardware serial as decryption key
serial=$(sed 's/.*androidboot.serialno=\([^ ]*\).*/\1/' /proc/cmdline)
keyfile=$(mktemp)
echo -n "$serial" > "$keyfile"
# Decrypt the file
cat "$src" | ccrypt -d -k "$dongle_id" > "$dest"
cat "$src" | ccrypt -d -k "$keyfile" > "$dest"
rm -f "$keyfile"

9
system/clearpilot/tools/encrypt
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@@ -10,8 +10,11 @@ fi
src="$1"
dest="$2"
# Read DongleId for encryption key
dongle_id=/data/params/d/DongleId
# Use hardware serial as encryption key
serial=$(sed 's/.*androidboot.serialno=\([^ ]*\).*/\1/' /proc/cmdline)
keyfile=$(mktemp)
echo -n "$serial" > "$keyfile"
# Encrypt the file
cat "$src" | ccrypt -e -k "$dongle_id" > "$dest"
cat "$src" | ccrypt -e -k "$keyfile" > "$dest"
rm -f "$keyfile"

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../include

32
third_party/libyuv/x86_64/include/libyuv.h vendored Executable file
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/*
* Copyright 2011 The LibYuv Project Authors. All rights reserved.
*
* Use of this source code is governed by a BSD-style license
* that can be found in the LICENSE file in the root of the source
* tree. An additional intellectual property rights grant can be found
* in the file PATENTS. All contributing project authors may
* be found in the AUTHORS file in the root of the source tree.
*/
#ifndef INCLUDE_LIBYUV_H_
#define INCLUDE_LIBYUV_H_
#include "libyuv/basic_types.h"
#include "libyuv/compare.h"
#include "libyuv/convert.h"
#include "libyuv/convert_argb.h"
#include "libyuv/convert_from.h"
#include "libyuv/convert_from_argb.h"
#include "libyuv/cpu_id.h"
#include "libyuv/mjpeg_decoder.h"
#include "libyuv/planar_functions.h"
#include "libyuv/rotate.h"
#include "libyuv/rotate_argb.h"
#include "libyuv/row.h"
#include "libyuv/scale.h"
#include "libyuv/scale_argb.h"
#include "libyuv/scale_row.h"
#include "libyuv/version.h"
#include "libyuv/video_common.h"
#endif // INCLUDE_LIBYUV_H_

118
third_party/libyuv/x86_64/include/libyuv/basic_types.h vendored Executable file
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/*
* Copyright 2011 The LibYuv Project Authors. All rights reserved.
*
* Use of this source code is governed by a BSD-style license
* that can be found in the LICENSE file in the root of the source
* tree. An additional intellectual property rights grant can be found
* in the file PATENTS. All contributing project authors may
* be found in the AUTHORS file in the root of the source tree.
*/
#ifndef INCLUDE_LIBYUV_BASIC_TYPES_H_
#define INCLUDE_LIBYUV_BASIC_TYPES_H_
#include <stddef.h> // for NULL, size_t
#if defined(_MSC_VER) && (_MSC_VER < 1600)
#include <sys/types.h> // for uintptr_t on x86
#else
#include <stdint.h> // for uintptr_t
#endif
#ifndef GG_LONGLONG
#ifndef INT_TYPES_DEFINED
#define INT_TYPES_DEFINED
#ifdef COMPILER_MSVC
typedef unsigned __int64 uint64;
typedef __int64 int64;
#ifndef INT64_C
#define INT64_C(x) x ## I64
#endif
#ifndef UINT64_C
#define UINT64_C(x) x ## UI64
#endif
#define INT64_F "I64"
#else // COMPILER_MSVC
#if defined(__LP64__) && !defined(__OpenBSD__) && !defined(__APPLE__)
typedef unsigned long uint64; // NOLINT
typedef long int64; // NOLINT
#ifndef INT64_C
#define INT64_C(x) x ## L
#endif
#ifndef UINT64_C
#define UINT64_C(x) x ## UL
#endif
#define INT64_F "l"
#else // defined(__LP64__) && !defined(__OpenBSD__) && !defined(__APPLE__)
typedef unsigned long long uint64; // NOLINT
typedef long long int64; // NOLINT
#ifndef INT64_C
#define INT64_C(x) x ## LL
#endif
#ifndef UINT64_C
#define UINT64_C(x) x ## ULL
#endif
#define INT64_F "ll"
#endif // __LP64__
#endif // COMPILER_MSVC
typedef unsigned int uint32;
typedef int int32;
typedef unsigned short uint16; // NOLINT
typedef short int16; // NOLINT
typedef unsigned char uint8;
typedef signed char int8;
#endif // INT_TYPES_DEFINED
#endif // GG_LONGLONG
// Detect compiler is for x86 or x64.
#if defined(__x86_64__) || defined(_M_X64) || \
defined(__i386__) || defined(_M_IX86)
#define CPU_X86 1
#endif
// Detect compiler is for ARM.
#if defined(__arm__) || defined(_M_ARM)
#define CPU_ARM 1
#endif
#ifndef ALIGNP
#ifdef __cplusplus
#define ALIGNP(p, t) \
(reinterpret_cast<uint8*>(((reinterpret_cast<uintptr_t>(p) + \
((t) - 1)) & ~((t) - 1))))
#else
#define ALIGNP(p, t) \
((uint8*)((((uintptr_t)(p) + ((t) - 1)) & ~((t) - 1)))) /* NOLINT */
#endif
#endif
#if !defined(LIBYUV_API)
#if defined(_WIN32) || defined(__CYGWIN__)
#if defined(LIBYUV_BUILDING_SHARED_LIBRARY)
#define LIBYUV_API __declspec(dllexport)
#elif defined(LIBYUV_USING_SHARED_LIBRARY)
#define LIBYUV_API __declspec(dllimport)
#else
#define LIBYUV_API
#endif // LIBYUV_BUILDING_SHARED_LIBRARY
#elif defined(__GNUC__) && (__GNUC__ >= 4) && !defined(__APPLE__) && \
(defined(LIBYUV_BUILDING_SHARED_LIBRARY) || \
defined(LIBYUV_USING_SHARED_LIBRARY))
#define LIBYUV_API __attribute__ ((visibility ("default")))
#else
#define LIBYUV_API
#endif // __GNUC__
#endif // LIBYUV_API
#define LIBYUV_BOOL int
#define LIBYUV_FALSE 0
#define LIBYUV_TRUE 1
// Visual C x86 or GCC little endian.
#if defined(__x86_64__) || defined(_M_X64) || \
defined(__i386__) || defined(_M_IX86) || \
defined(__arm__) || defined(_M_ARM) || \
(defined(__BYTE_ORDER__) && __BYTE_ORDER__ == __ORDER_LITTLE_ENDIAN__)
#define LIBYUV_LITTLE_ENDIAN
#endif
#endif // INCLUDE_LIBYUV_BASIC_TYPES_H_

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third_party/libyuv/x86_64/include/libyuv/compare.h vendored Executable file
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/*
* Copyright 2011 The LibYuv Project Authors. All rights reserved.
*
* Use of this source code is governed by a BSD-style license
* that can be found in the LICENSE file in the root of the source
* tree. An additional intellectual property rights grant can be found
* in the file PATENTS. All contributing project authors may
* be found in the AUTHORS file in the root of the source tree.
*/
#ifndef INCLUDE_LIBYUV_COMPARE_H_
#define INCLUDE_LIBYUV_COMPARE_H_
#include "libyuv/basic_types.h"
#ifdef __cplusplus
namespace libyuv {
extern "C" {
#endif
// Compute a hash for specified memory. Seed of 5381 recommended.
LIBYUV_API
uint32 HashDjb2(const uint8* src, uint64 count, uint32 seed);
// Scan an opaque argb image and return fourcc based on alpha offset.
// Returns FOURCC_ARGB, FOURCC_BGRA, or 0 if unknown.
LIBYUV_API
uint32 ARGBDetect(const uint8* argb, int stride_argb, int width, int height);
// Sum Square Error - used to compute Mean Square Error or PSNR.
LIBYUV_API
uint64 ComputeSumSquareError(const uint8* src_a,
const uint8* src_b, int count);
LIBYUV_API
uint64 ComputeSumSquareErrorPlane(const uint8* src_a, int stride_a,
const uint8* src_b, int stride_b,
int width, int height);
static const int kMaxPsnr = 128;
LIBYUV_API
double SumSquareErrorToPsnr(uint64 sse, uint64 count);
LIBYUV_API
double CalcFramePsnr(const uint8* src_a, int stride_a,
const uint8* src_b, int stride_b,
int width, int height);
LIBYUV_API
double I420Psnr(const uint8* src_y_a, int stride_y_a,
const uint8* src_u_a, int stride_u_a,
const uint8* src_v_a, int stride_v_a,
const uint8* src_y_b, int stride_y_b,
const uint8* src_u_b, int stride_u_b,
const uint8* src_v_b, int stride_v_b,
int width, int height);
LIBYUV_API
double CalcFrameSsim(const uint8* src_a, int stride_a,
const uint8* src_b, int stride_b,
int width, int height);
LIBYUV_API
double I420Ssim(const uint8* src_y_a, int stride_y_a,
const uint8* src_u_a, int stride_u_a,
const uint8* src_v_a, int stride_v_a,
const uint8* src_y_b, int stride_y_b,
const uint8* src_u_b, int stride_u_b,
const uint8* src_v_b, int stride_v_b,
int width, int height);
#ifdef __cplusplus
} // extern "C"
} // namespace libyuv
#endif
#endif // INCLUDE_LIBYUV_COMPARE_H_

84
third_party/libyuv/x86_64/include/libyuv/compare_row.h vendored Executable file
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/*
* Copyright 2013 The LibYuv Project Authors. All rights reserved.
*
* Use of this source code is governed by a BSD-style license
* that can be found in the LICENSE file in the root of the source
* tree. An additional intellectual property rights grant can be found
* in the file PATENTS. All contributing project authors may
* be found in the AUTHORS file in the root of the source tree.
*/
#ifndef INCLUDE_LIBYUV_COMPARE_ROW_H_
#define INCLUDE_LIBYUV_COMPARE_ROW_H_
#include "libyuv/basic_types.h"
#ifdef __cplusplus
namespace libyuv {
extern "C" {
#endif
#if defined(__pnacl__) || defined(__CLR_VER) || \
(defined(__i386__) && !defined(__SSE2__))
#define LIBYUV_DISABLE_X86
#endif
// MemorySanitizer does not support assembly code yet. http://crbug.com/344505
#if defined(__has_feature)
#if __has_feature(memory_sanitizer)
#define LIBYUV_DISABLE_X86
#endif
#endif
// Visual C 2012 required for AVX2.
#if defined(_M_IX86) && !defined(__clang__) && \
defined(_MSC_VER) && _MSC_VER >= 1700
#define VISUALC_HAS_AVX2 1
#endif // VisualStudio >= 2012
// clang >= 3.4.0 required for AVX2.
#if defined(__clang__) && (defined(__x86_64__) || defined(__i386__))
#if (__clang_major__ > 3) || (__clang_major__ == 3 && (__clang_minor__ >= 4))
#define CLANG_HAS_AVX2 1
#endif // clang >= 3.4
#endif // __clang__
#if !defined(LIBYUV_DISABLE_X86) && \
defined(_M_IX86) && (defined(VISUALC_HAS_AVX2) || defined(CLANG_HAS_AVX2))
#define HAS_HASHDJB2_AVX2
#endif
// The following are available for Visual C and GCC:
#if !defined(LIBYUV_DISABLE_X86) && \
(defined(__x86_64__) || (defined(__i386__) || defined(_M_IX86)))
#define HAS_HASHDJB2_SSE41
#define HAS_SUMSQUAREERROR_SSE2
#endif
// The following are available for Visual C and clangcl 32 bit:
#if !defined(LIBYUV_DISABLE_X86) && defined(_M_IX86) && \
(defined(VISUALC_HAS_AVX2) || defined(CLANG_HAS_AVX2))
#define HAS_HASHDJB2_AVX2
#define HAS_SUMSQUAREERROR_AVX2
#endif
// The following are available for Neon:
#if !defined(LIBYUV_DISABLE_NEON) && \
(defined(__ARM_NEON__) || defined(LIBYUV_NEON) || defined(__aarch64__))
#define HAS_SUMSQUAREERROR_NEON
#endif
uint32 SumSquareError_C(const uint8* src_a, const uint8* src_b, int count);
uint32 SumSquareError_SSE2(const uint8* src_a, const uint8* src_b, int count);
uint32 SumSquareError_AVX2(const uint8* src_a, const uint8* src_b, int count);
uint32 SumSquareError_NEON(const uint8* src_a, const uint8* src_b, int count);
uint32 HashDjb2_C(const uint8* src, int count, uint32 seed);
uint32 HashDjb2_SSE41(const uint8* src, int count, uint32 seed);
uint32 HashDjb2_AVX2(const uint8* src, int count, uint32 seed);
#ifdef __cplusplus
} // extern "C"
} // namespace libyuv
#endif
#endif // INCLUDE_LIBYUV_COMPARE_ROW_H_

259
third_party/libyuv/x86_64/include/libyuv/convert.h vendored Executable file
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/*
* Copyright 2011 The LibYuv Project Authors. All rights reserved.
*
* Use of this source code is governed by a BSD-style license
* that can be found in the LICENSE file in the root of the source
* tree. An additional intellectual property rights grant can be found
* in the file PATENTS. All contributing project authors may
* be found in the AUTHORS file in the root of the source tree.
*/
#ifndef INCLUDE_LIBYUV_CONVERT_H_
#define INCLUDE_LIBYUV_CONVERT_H_
#include "libyuv/basic_types.h"
#include "libyuv/rotate.h" // For enum RotationMode.
// TODO(fbarchard): fix WebRTC source to include following libyuv headers:
#include "libyuv/convert_argb.h" // For WebRTC I420ToARGB. b/620
#include "libyuv/convert_from.h" // For WebRTC ConvertFromI420. b/620
#include "libyuv/planar_functions.h" // For WebRTC I420Rect, CopyPlane. b/618
#ifdef __cplusplus
namespace libyuv {
extern "C" {
#endif
// Convert I444 to I420.
LIBYUV_API
int I444ToI420(const uint8* src_y, int src_stride_y,
const uint8* src_u, int src_stride_u,
const uint8* src_v, int src_stride_v,
uint8* dst_y, int dst_stride_y,
uint8* dst_u, int dst_stride_u,
uint8* dst_v, int dst_stride_v,
int width, int height);
// Convert I422 to I420.
LIBYUV_API
int I422ToI420(const uint8* src_y, int src_stride_y,
const uint8* src_u, int src_stride_u,
const uint8* src_v, int src_stride_v,
uint8* dst_y, int dst_stride_y,
uint8* dst_u, int dst_stride_u,
uint8* dst_v, int dst_stride_v,
int width, int height);
// Convert I411 to I420.
LIBYUV_API
int I411ToI420(const uint8* src_y, int src_stride_y,
const uint8* src_u, int src_stride_u,
const uint8* src_v, int src_stride_v,
uint8* dst_y, int dst_stride_y,
uint8* dst_u, int dst_stride_u,
uint8* dst_v, int dst_stride_v,
int width, int height);
// Copy I420 to I420.
#define I420ToI420 I420Copy
LIBYUV_API
int I420Copy(const uint8* src_y, int src_stride_y,
const uint8* src_u, int src_stride_u,
const uint8* src_v, int src_stride_v,
uint8* dst_y, int dst_stride_y,
uint8* dst_u, int dst_stride_u,
uint8* dst_v, int dst_stride_v,
int width, int height);
// Convert I400 (grey) to I420.
LIBYUV_API
int I400ToI420(const uint8* src_y, int src_stride_y,
uint8* dst_y, int dst_stride_y,
uint8* dst_u, int dst_stride_u,
uint8* dst_v, int dst_stride_v,
int width, int height);
#define J400ToJ420 I400ToI420
// Convert NV12 to I420.
LIBYUV_API
int NV12ToI420(const uint8* src_y, int src_stride_y,
const uint8* src_uv, int src_stride_uv,
uint8* dst_y, int dst_stride_y,
uint8* dst_u, int dst_stride_u,
uint8* dst_v, int dst_stride_v,
int width, int height);
// Convert NV21 to I420.
LIBYUV_API
int NV21ToI420(const uint8* src_y, int src_stride_y,
const uint8* src_vu, int src_stride_vu,
uint8* dst_y, int dst_stride_y,
uint8* dst_u, int dst_stride_u,
uint8* dst_v, int dst_stride_v,
int width, int height);
// Convert YUY2 to I420.
LIBYUV_API
int YUY2ToI420(const uint8* src_yuy2, int src_stride_yuy2,
uint8* dst_y, int dst_stride_y,
uint8* dst_u, int dst_stride_u,
uint8* dst_v, int dst_stride_v,
int width, int height);
// Convert UYVY to I420.
LIBYUV_API
int UYVYToI420(const uint8* src_uyvy, int src_stride_uyvy,
uint8* dst_y, int dst_stride_y,
uint8* dst_u, int dst_stride_u,
uint8* dst_v, int dst_stride_v,
int width, int height);
// Convert M420 to I420.
LIBYUV_API
int M420ToI420(const uint8* src_m420, int src_stride_m420,
uint8* dst_y, int dst_stride_y,
uint8* dst_u, int dst_stride_u,
uint8* dst_v, int dst_stride_v,
int width, int height);
// Convert Android420 to I420.
LIBYUV_API
int Android420ToI420(const uint8* src_y, int src_stride_y,
const uint8* src_u, int src_stride_u,
const uint8* src_v, int src_stride_v,
int pixel_stride_uv,
uint8* dst_y, int dst_stride_y,
uint8* dst_u, int dst_stride_u,
uint8* dst_v, int dst_stride_v,
int width, int height);
// ARGB little endian (bgra in memory) to I420.
LIBYUV_API
int ARGBToI420(const uint8* src_frame, int src_stride_frame,
uint8* dst_y, int dst_stride_y,
uint8* dst_u, int dst_stride_u,
uint8* dst_v, int dst_stride_v,
int width, int height);
// BGRA little endian (argb in memory) to I420.
LIBYUV_API
int BGRAToI420(const uint8* src_frame, int src_stride_frame,
uint8* dst_y, int dst_stride_y,
uint8* dst_u, int dst_stride_u,
uint8* dst_v, int dst_stride_v,
int width, int height);
// ABGR little endian (rgba in memory) to I420.
LIBYUV_API
int ABGRToI420(const uint8* src_frame, int src_stride_frame,
uint8* dst_y, int dst_stride_y,
uint8* dst_u, int dst_stride_u,
uint8* dst_v, int dst_stride_v,
int width, int height);
// RGBA little endian (abgr in memory) to I420.
LIBYUV_API
int RGBAToI420(const uint8* src_frame, int src_stride_frame,
uint8* dst_y, int dst_stride_y,
uint8* dst_u, int dst_stride_u,
uint8* dst_v, int dst_stride_v,
int width, int height);
// RGB little endian (bgr in memory) to I420.
LIBYUV_API
int RGB24ToI420(const uint8* src_frame, int src_stride_frame,
uint8* dst_y, int dst_stride_y,
uint8* dst_u, int dst_stride_u,
uint8* dst_v, int dst_stride_v,
int width, int height);
// RGB big endian (rgb in memory) to I420.
LIBYUV_API
int RAWToI420(const uint8* src_frame, int src_stride_frame,
uint8* dst_y, int dst_stride_y,
uint8* dst_u, int dst_stride_u,
uint8* dst_v, int dst_stride_v,
int width, int height);
// RGB16 (RGBP fourcc) little endian to I420.
LIBYUV_API
int RGB565ToI420(const uint8* src_frame, int src_stride_frame,
uint8* dst_y, int dst_stride_y,
uint8* dst_u, int dst_stride_u,
uint8* dst_v, int dst_stride_v,
int width, int height);
// RGB15 (RGBO fourcc) little endian to I420.
LIBYUV_API
int ARGB1555ToI420(const uint8* src_frame, int src_stride_frame,
uint8* dst_y, int dst_stride_y,
uint8* dst_u, int dst_stride_u,
uint8* dst_v, int dst_stride_v,
int width, int height);
// RGB12 (R444 fourcc) little endian to I420.
LIBYUV_API
int ARGB4444ToI420(const uint8* src_frame, int src_stride_frame,
uint8* dst_y, int dst_stride_y,
uint8* dst_u, int dst_stride_u,
uint8* dst_v, int dst_stride_v,
int width, int height);
#ifdef HAVE_JPEG
// src_width/height provided by capture.
// dst_width/height for clipping determine final size.
LIBYUV_API
int MJPGToI420(const uint8* sample, size_t sample_size,
uint8* dst_y, int dst_stride_y,
uint8* dst_u, int dst_stride_u,
uint8* dst_v, int dst_stride_v,
int src_width, int src_height,
int dst_width, int dst_height);
// Query size of MJPG in pixels.
LIBYUV_API
int MJPGSize(const uint8* sample, size_t sample_size,
int* width, int* height);
#endif
// Convert camera sample to I420 with cropping, rotation and vertical flip.
// "src_size" is needed to parse MJPG.
// "dst_stride_y" number of bytes in a row of the dst_y plane.
// Normally this would be the same as dst_width, with recommended alignment
// to 16 bytes for better efficiency.
// If rotation of 90 or 270 is used, stride is affected. The caller should
// allocate the I420 buffer according to rotation.
// "dst_stride_u" number of bytes in a row of the dst_u plane.
// Normally this would be the same as (dst_width + 1) / 2, with
// recommended alignment to 16 bytes for better efficiency.
// If rotation of 90 or 270 is used, stride is affected.
// "crop_x" and "crop_y" are starting position for cropping.
// To center, crop_x = (src_width - dst_width) / 2
// crop_y = (src_height - dst_height) / 2
// "src_width" / "src_height" is size of src_frame in pixels.
// "src_height" can be negative indicating a vertically flipped image source.
// "crop_width" / "crop_height" is the size to crop the src to.
// Must be less than or equal to src_width/src_height
// Cropping parameters are pre-rotation.
// "rotation" can be 0, 90, 180 or 270.
// "format" is a fourcc. ie 'I420', 'YUY2'
// Returns 0 for successful; -1 for invalid parameter. Non-zero for failure.
LIBYUV_API
int ConvertToI420(const uint8* src_frame, size_t src_size,
uint8* dst_y, int dst_stride_y,
uint8* dst_u, int dst_stride_u,
uint8* dst_v, int dst_stride_v,
int crop_x, int crop_y,
int src_width, int src_height,
int crop_width, int crop_height,
enum RotationMode rotation,
uint32 format);
#ifdef __cplusplus
} // extern "C"
} // namespace libyuv
#endif
#endif // INCLUDE_LIBYUV_CONVERT_H_

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/*
* Copyright 2012 The LibYuv Project Authors. All rights reserved.
*
* Use of this source code is governed by a BSD-style license
* that can be found in the LICENSE file in the root of the source
* tree. An additional intellectual property rights grant can be found
* in the file PATENTS. All contributing project authors may
* be found in the AUTHORS file in the root of the source tree.
*/
#ifndef INCLUDE_LIBYUV_CONVERT_ARGB_H_
#define INCLUDE_LIBYUV_CONVERT_ARGB_H_
#include "libyuv/basic_types.h"
#include "libyuv/rotate.h" // For enum RotationMode.
// TODO(fbarchard): This set of functions should exactly match convert.h
// TODO(fbarchard): Add tests. Create random content of right size and convert
// with C vs Opt and or to I420 and compare.
// TODO(fbarchard): Some of these functions lack parameter setting.
#ifdef __cplusplus
namespace libyuv {
extern "C" {
#endif
// Alias.
#define ARGBToARGB ARGBCopy
// Copy ARGB to ARGB.
LIBYUV_API
int ARGBCopy(const uint8* src_argb, int src_stride_argb,
uint8* dst_argb, int dst_stride_argb,
int width, int height);
// Convert I420 to ARGB.
LIBYUV_API
int I420ToARGB(const uint8* src_y, int src_stride_y,
const uint8* src_u, int src_stride_u,
const uint8* src_v, int src_stride_v,
uint8* dst_argb, int dst_stride_argb,
int width, int height);
// Duplicate prototype for function in convert_from.h for remoting.
LIBYUV_API
int I420ToABGR(const uint8* src_y, int src_stride_y,
const uint8* src_u, int src_stride_u,
const uint8* src_v, int src_stride_v,
uint8* dst_argb, int dst_stride_argb,
int width, int height);
// Convert I422 to ARGB.
LIBYUV_API
int I422ToARGB(const uint8* src_y, int src_stride_y,
const uint8* src_u, int src_stride_u,
const uint8* src_v, int src_stride_v,
uint8* dst_argb, int dst_stride_argb,
int width, int height);
// Convert I444 to ARGB.
LIBYUV_API
int I444ToARGB(const uint8* src_y, int src_stride_y,
const uint8* src_u, int src_stride_u,
const uint8* src_v, int src_stride_v,
uint8* dst_argb, int dst_stride_argb,
int width, int height);
// Convert J444 to ARGB.
LIBYUV_API
int J444ToARGB(const uint8* src_y, int src_stride_y,
const uint8* src_u, int src_stride_u,
const uint8* src_v, int src_stride_v,
uint8* dst_argb, int dst_stride_argb,
int width, int height);
// Convert I444 to ABGR.
LIBYUV_API
int I444ToABGR(const uint8* src_y, int src_stride_y,
const uint8* src_u, int src_stride_u,
const uint8* src_v, int src_stride_v,
uint8* dst_abgr, int dst_stride_abgr,
int width, int height);
// Convert I411 to ARGB.
LIBYUV_API
int I411ToARGB(const uint8* src_y, int src_stride_y,
const uint8* src_u, int src_stride_u,
const uint8* src_v, int src_stride_v,
uint8* dst_argb, int dst_stride_argb,
int width, int height);
// Convert I420 with Alpha to preattenuated ARGB.
LIBYUV_API
int I420AlphaToARGB(const uint8* src_y, int src_stride_y,
const uint8* src_u, int src_stride_u,
const uint8* src_v, int src_stride_v,
const uint8* src_a, int src_stride_a,
uint8* dst_argb, int dst_stride_argb,
int width, int height, int attenuate);
// Convert I420 with Alpha to preattenuated ABGR.
LIBYUV_API
int I420AlphaToABGR(const uint8* src_y, int src_stride_y,
const uint8* src_u, int src_stride_u,
const uint8* src_v, int src_stride_v,
const uint8* src_a, int src_stride_a,
uint8* dst_abgr, int dst_stride_abgr,
int width, int height, int attenuate);
// Convert I400 (grey) to ARGB. Reverse of ARGBToI400.
LIBYUV_API
int I400ToARGB(const uint8* src_y, int src_stride_y,
uint8* dst_argb, int dst_stride_argb,
int width, int height);
// Convert J400 (jpeg grey) to ARGB.
LIBYUV_API
int J400ToARGB(const uint8* src_y, int src_stride_y,
uint8* dst_argb, int dst_stride_argb,
int width, int height);
// Alias.
#define YToARGB I400ToARGB
// Convert NV12 to ARGB.
LIBYUV_API
int NV12ToARGB(const uint8* src_y, int src_stride_y,
const uint8* src_uv, int src_stride_uv,
uint8* dst_argb, int dst_stride_argb,
int width, int height);
// Convert NV21 to ARGB.
LIBYUV_API
int NV21ToARGB(const uint8* src_y, int src_stride_y,
const uint8* src_vu, int src_stride_vu,
uint8* dst_argb, int dst_stride_argb,
int width, int height);
// Convert M420 to ARGB.
LIBYUV_API
int M420ToARGB(const uint8* src_m420, int src_stride_m420,
uint8* dst_argb, int dst_stride_argb,
int width, int height);
// Convert YUY2 to ARGB.
LIBYUV_API
int YUY2ToARGB(const uint8* src_yuy2, int src_stride_yuy2,
uint8* dst_argb, int dst_stride_argb,
int width, int height);
// Convert UYVY to ARGB.
LIBYUV_API
int UYVYToARGB(const uint8* src_uyvy, int src_stride_uyvy,
uint8* dst_argb, int dst_stride_argb,
int width, int height);
// Convert J420 to ARGB.
LIBYUV_API
int J420ToARGB(const uint8* src_y, int src_stride_y,
const uint8* src_u, int src_stride_u,
const uint8* src_v, int src_stride_v,
uint8* dst_argb, int dst_stride_argb,
int width, int height);
// Convert J422 to ARGB.
LIBYUV_API
int J422ToARGB(const uint8* src_y, int src_stride_y,
const uint8* src_u, int src_stride_u,
const uint8* src_v, int src_stride_v,
uint8* dst_argb, int dst_stride_argb,
int width, int height);
// Convert J420 to ABGR.
LIBYUV_API
int J420ToABGR(const uint8* src_y, int src_stride_y,
const uint8* src_u, int src_stride_u,
const uint8* src_v, int src_stride_v,
uint8* dst_abgr, int dst_stride_abgr,
int width, int height);
// Convert J422 to ABGR.
LIBYUV_API
int J422ToABGR(const uint8* src_y, int src_stride_y,
const uint8* src_u, int src_stride_u,
const uint8* src_v, int src_stride_v,
uint8* dst_abgr, int dst_stride_abgr,
int width, int height);
// Convert H420 to ARGB.
LIBYUV_API
int H420ToARGB(const uint8* src_y, int src_stride_y,
const uint8* src_u, int src_stride_u,
const uint8* src_v, int src_stride_v,
uint8* dst_argb, int dst_stride_argb,
int width, int height);
// Convert H422 to ARGB.
LIBYUV_API
int H422ToARGB(const uint8* src_y, int src_stride_y,
const uint8* src_u, int src_stride_u,
const uint8* src_v, int src_stride_v,
uint8* dst_argb, int dst_stride_argb,
int width, int height);
// Convert H420 to ABGR.
LIBYUV_API
int H420ToABGR(const uint8* src_y, int src_stride_y,
const uint8* src_u, int src_stride_u,
const uint8* src_v, int src_stride_v,
uint8* dst_abgr, int dst_stride_abgr,
int width, int height);
// Convert H422 to ABGR.
LIBYUV_API
int H422ToABGR(const uint8* src_y, int src_stride_y,
const uint8* src_u, int src_stride_u,
const uint8* src_v, int src_stride_v,
uint8* dst_abgr, int dst_stride_abgr,
int width, int height);
// BGRA little endian (argb in memory) to ARGB.
LIBYUV_API
int BGRAToARGB(const uint8* src_frame, int src_stride_frame,
uint8* dst_argb, int dst_stride_argb,
int width, int height);
// ABGR little endian (rgba in memory) to ARGB.
LIBYUV_API
int ABGRToARGB(const uint8* src_frame, int src_stride_frame,
uint8* dst_argb, int dst_stride_argb,
int width, int height);
// RGBA little endian (abgr in memory) to ARGB.
LIBYUV_API
int RGBAToARGB(const uint8* src_frame, int src_stride_frame,
uint8* dst_argb, int dst_stride_argb,
int width, int height);
// Deprecated function name.
#define BG24ToARGB RGB24ToARGB
// RGB little endian (bgr in memory) to ARGB.
LIBYUV_API
int RGB24ToARGB(const uint8* src_frame, int src_stride_frame,
uint8* dst_argb, int dst_stride_argb,
int width, int height);
// RGB big endian (rgb in memory) to ARGB.
LIBYUV_API
int RAWToARGB(const uint8* src_frame, int src_stride_frame,
uint8* dst_argb, int dst_stride_argb,
int width, int height);
// RGB16 (RGBP fourcc) little endian to ARGB.
LIBYUV_API
int RGB565ToARGB(const uint8* src_frame, int src_stride_frame,
uint8* dst_argb, int dst_stride_argb,
int width, int height);
// RGB15 (RGBO fourcc) little endian to ARGB.
LIBYUV_API
int ARGB1555ToARGB(const uint8* src_frame, int src_stride_frame,
uint8* dst_argb, int dst_stride_argb,
int width, int height);
// RGB12 (R444 fourcc) little endian to ARGB.
LIBYUV_API
int ARGB4444ToARGB(const uint8* src_frame, int src_stride_frame,
uint8* dst_argb, int dst_stride_argb,
int width, int height);
#ifdef HAVE_JPEG
// src_width/height provided by capture
// dst_width/height for clipping determine final size.
LIBYUV_API
int MJPGToARGB(const uint8* sample, size_t sample_size,
uint8* dst_argb, int dst_stride_argb,
int src_width, int src_height,
int dst_width, int dst_height);
#endif
// Convert camera sample to ARGB with cropping, rotation and vertical flip.
// "src_size" is needed to parse MJPG.
// "dst_stride_argb" number of bytes in a row of the dst_argb plane.
// Normally this would be the same as dst_width, with recommended alignment
// to 16 bytes for better efficiency.
// If rotation of 90 or 270 is used, stride is affected. The caller should
// allocate the I420 buffer according to rotation.
// "dst_stride_u" number of bytes in a row of the dst_u plane.
// Normally this would be the same as (dst_width + 1) / 2, with
// recommended alignment to 16 bytes for better efficiency.
// If rotation of 90 or 270 is used, stride is affected.
// "crop_x" and "crop_y" are starting position for cropping.
// To center, crop_x = (src_width - dst_width) / 2
// crop_y = (src_height - dst_height) / 2
// "src_width" / "src_height" is size of src_frame in pixels.
// "src_height" can be negative indicating a vertically flipped image source.
// "crop_width" / "crop_height" is the size to crop the src to.
// Must be less than or equal to src_width/src_height
// Cropping parameters are pre-rotation.
// "rotation" can be 0, 90, 180 or 270.
// "format" is a fourcc. ie 'I420', 'YUY2'
// Returns 0 for successful; -1 for invalid parameter. Non-zero for failure.
LIBYUV_API
int ConvertToARGB(const uint8* src_frame, size_t src_size,
uint8* dst_argb, int dst_stride_argb,
int crop_x, int crop_y,
int src_width, int src_height,
int crop_width, int crop_height,
enum RotationMode rotation,
uint32 format);
#ifdef __cplusplus
} // extern "C"
} // namespace libyuv
#endif
#endif // INCLUDE_LIBYUV_CONVERT_ARGB_H_

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/*
* Copyright 2011 The LibYuv Project Authors. All rights reserved.
*
* Use of this source code is governed by a BSD-style license
* that can be found in the LICENSE file in the root of the source
* tree. An additional intellectual property rights grant can be found
* in the file PATENTS. All contributing project authors may
* be found in the AUTHORS file in the root of the source tree.
*/
#ifndef INCLUDE_LIBYUV_CONVERT_FROM_H_
#define INCLUDE_LIBYUV_CONVERT_FROM_H_
#include "libyuv/basic_types.h"
#include "libyuv/rotate.h"
#ifdef __cplusplus
namespace libyuv {
extern "C" {
#endif
// See Also convert.h for conversions from formats to I420.
// I420Copy in convert to I420ToI420.
LIBYUV_API
int I420ToI422(const uint8* src_y, int src_stride_y,
const uint8* src_u, int src_stride_u,
const uint8* src_v, int src_stride_v,
uint8* dst_y, int dst_stride_y,
uint8* dst_u, int dst_stride_u,
uint8* dst_v, int dst_stride_v,
int width, int height);
LIBYUV_API
int I420ToI444(const uint8* src_y, int src_stride_y,
const uint8* src_u, int src_stride_u,
const uint8* src_v, int src_stride_v,
uint8* dst_y, int dst_stride_y,
uint8* dst_u, int dst_stride_u,
uint8* dst_v, int dst_stride_v,
int width, int height);
LIBYUV_API
int I420ToI411(const uint8* src_y, int src_stride_y,
const uint8* src_u, int src_stride_u,
const uint8* src_v, int src_stride_v,
uint8* dst_y, int dst_stride_y,
uint8* dst_u, int dst_stride_u,
uint8* dst_v, int dst_stride_v,
int width, int height);
// Copy to I400. Source can be I420, I422, I444, I400, NV12 or NV21.
LIBYUV_API
int I400Copy(const uint8* src_y, int src_stride_y,
uint8* dst_y, int dst_stride_y,
int width, int height);
LIBYUV_API
int I420ToNV12(const uint8* src_y, int src_stride_y,
const uint8* src_u, int src_stride_u,
const uint8* src_v, int src_stride_v,
uint8* dst_y, int dst_stride_y,
uint8* dst_uv, int dst_stride_uv,
int width, int height);
LIBYUV_API
int I420ToNV21(const uint8* src_y, int src_stride_y,
const uint8* src_u, int src_stride_u,
const uint8* src_v, int src_stride_v,
uint8* dst_y, int dst_stride_y,
uint8* dst_vu, int dst_stride_vu,
int width, int height);
LIBYUV_API
int I420ToYUY2(const uint8* src_y, int src_stride_y,
const uint8* src_u, int src_stride_u,
const uint8* src_v, int src_stride_v,
uint8* dst_frame, int dst_stride_frame,
int width, int height);
LIBYUV_API
int I420ToUYVY(const uint8* src_y, int src_stride_y,
const uint8* src_u, int src_stride_u,
const uint8* src_v, int src_stride_v,
uint8* dst_frame, int dst_stride_frame,
int width, int height);
LIBYUV_API
int I420ToARGB(const uint8* src_y, int src_stride_y,
const uint8* src_u, int src_stride_u,
const uint8* src_v, int src_stride_v,
uint8* dst_argb, int dst_stride_argb,
int width, int height);
LIBYUV_API
int I420ToBGRA(const uint8* src_y, int src_stride_y,
const uint8* src_u, int src_stride_u,
const uint8* src_v, int src_stride_v,
uint8* dst_argb, int dst_stride_argb,
int width, int height);
LIBYUV_API
int I420ToABGR(const uint8* src_y, int src_stride_y,
const uint8* src_u, int src_stride_u,
const uint8* src_v, int src_stride_v,
uint8* dst_argb, int dst_stride_argb,
int width, int height);
LIBYUV_API
int I420ToRGBA(const uint8* src_y, int src_stride_y,
const uint8* src_u, int src_stride_u,
const uint8* src_v, int src_stride_v,
uint8* dst_rgba, int dst_stride_rgba,
int width, int height);
LIBYUV_API
int I420ToRGB24(const uint8* src_y, int src_stride_y,
const uint8* src_u, int src_stride_u,
const uint8* src_v, int src_stride_v,
uint8* dst_frame, int dst_stride_frame,
int width, int height);
LIBYUV_API
int I420ToRAW(const uint8* src_y, int src_stride_y,
const uint8* src_u, int src_stride_u,
const uint8* src_v, int src_stride_v,
uint8* dst_frame, int dst_stride_frame,
int width, int height);
LIBYUV_API
int I420ToRGB565(const uint8* src_y, int src_stride_y,
const uint8* src_u, int src_stride_u,
const uint8* src_v, int src_stride_v,
uint8* dst_frame, int dst_stride_frame,
int width, int height);
// Convert I420 To RGB565 with 4x4 dither matrix (16 bytes).
// Values in dither matrix from 0 to 7 recommended.
// The order of the dither matrix is first byte is upper left.
LIBYUV_API
int I420ToRGB565Dither(const uint8* src_y, int src_stride_y,
const uint8* src_u, int src_stride_u,
const uint8* src_v, int src_stride_v,
uint8* dst_frame, int dst_stride_frame,
const uint8* dither4x4, int width, int height);
LIBYUV_API
int I420ToARGB1555(const uint8* src_y, int src_stride_y,
const uint8* src_u, int src_stride_u,
const uint8* src_v, int src_stride_v,
uint8* dst_frame, int dst_stride_frame,
int width, int height);
LIBYUV_API
int I420ToARGB4444(const uint8* src_y, int src_stride_y,
const uint8* src_u, int src_stride_u,
const uint8* src_v, int src_stride_v,
uint8* dst_frame, int dst_stride_frame,
int width, int height);
// Convert I420 to specified format.
// "dst_sample_stride" is bytes in a row for the destination. Pass 0 if the
// buffer has contiguous rows. Can be negative. A multiple of 16 is optimal.
LIBYUV_API
int ConvertFromI420(const uint8* y, int y_stride,
const uint8* u, int u_stride,
const uint8* v, int v_stride,
uint8* dst_sample, int dst_sample_stride,
int width, int height,
uint32 format);
#ifdef __cplusplus
} // extern "C"
} // namespace libyuv
#endif
#endif // INCLUDE_LIBYUV_CONVERT_FROM_H_

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/*
* Copyright 2012 The LibYuv Project Authors. All rights reserved.
*
* Use of this source code is governed by a BSD-style license
* that can be found in the LICENSE file in the root of the source
* tree. An additional intellectual property rights grant can be found
* in the file PATENTS. All contributing project authors may
* be found in the AUTHORS file in the root of the source tree.
*/
#ifndef INCLUDE_LIBYUV_CONVERT_FROM_ARGB_H_
#define INCLUDE_LIBYUV_CONVERT_FROM_ARGB_H_
#include "libyuv/basic_types.h"
#ifdef __cplusplus
namespace libyuv {
extern "C" {
#endif
// Copy ARGB to ARGB.
#define ARGBToARGB ARGBCopy
LIBYUV_API
int ARGBCopy(const uint8* src_argb, int src_stride_argb,
uint8* dst_argb, int dst_stride_argb,
int width, int height);
// Convert ARGB To BGRA.
LIBYUV_API
int ARGBToBGRA(const uint8* src_argb, int src_stride_argb,
uint8* dst_bgra, int dst_stride_bgra,
int width, int height);
// Convert ARGB To ABGR.
LIBYUV_API
int ARGBToABGR(const uint8* src_argb, int src_stride_argb,
uint8* dst_abgr, int dst_stride_abgr,
int width, int height);
// Convert ARGB To RGBA.
LIBYUV_API
int ARGBToRGBA(const uint8* src_argb, int src_stride_argb,
uint8* dst_rgba, int dst_stride_rgba,
int width, int height);
// Convert ARGB To RGB24.
LIBYUV_API
int ARGBToRGB24(const uint8* src_argb, int src_stride_argb,
uint8* dst_rgb24, int dst_stride_rgb24,
int width, int height);
// Convert ARGB To RAW.
LIBYUV_API
int ARGBToRAW(const uint8* src_argb, int src_stride_argb,
uint8* dst_rgb, int dst_stride_rgb,
int width, int height);
// Convert ARGB To RGB565.
LIBYUV_API
int ARGBToRGB565(const uint8* src_argb, int src_stride_argb,
uint8* dst_rgb565, int dst_stride_rgb565,
int width, int height);
// Convert ARGB To RGB565 with 4x4 dither matrix (16 bytes).
// Values in dither matrix from 0 to 7 recommended.
// The order of the dither matrix is first byte is upper left.
// TODO(fbarchard): Consider pointer to 2d array for dither4x4.
// const uint8(*dither)[4][4];
LIBYUV_API
int ARGBToRGB565Dither(const uint8* src_argb, int src_stride_argb,
uint8* dst_rgb565, int dst_stride_rgb565,
const uint8* dither4x4, int width, int height);
// Convert ARGB To ARGB1555.
LIBYUV_API
int ARGBToARGB1555(const uint8* src_argb, int src_stride_argb,
uint8* dst_argb1555, int dst_stride_argb1555,
int width, int height);
// Convert ARGB To ARGB4444.
LIBYUV_API
int ARGBToARGB4444(const uint8* src_argb, int src_stride_argb,
uint8* dst_argb4444, int dst_stride_argb4444,
int width, int height);
// Convert ARGB To I444.
LIBYUV_API
int ARGBToI444(const uint8* src_argb, int src_stride_argb,
uint8* dst_y, int dst_stride_y,
uint8* dst_u, int dst_stride_u,
uint8* dst_v, int dst_stride_v,
int width, int height);
// Convert ARGB To I422.
LIBYUV_API
int ARGBToI422(const uint8* src_argb, int src_stride_argb,
uint8* dst_y, int dst_stride_y,
uint8* dst_u, int dst_stride_u,
uint8* dst_v, int dst_stride_v,
int width, int height);
// Convert ARGB To I420. (also in convert.h)
LIBYUV_API
int ARGBToI420(const uint8* src_argb, int src_stride_argb,
uint8* dst_y, int dst_stride_y,
uint8* dst_u, int dst_stride_u,
uint8* dst_v, int dst_stride_v,
int width, int height);
// Convert ARGB to J420. (JPeg full range I420).
LIBYUV_API
int ARGBToJ420(const uint8* src_argb, int src_stride_argb,
uint8* dst_yj, int dst_stride_yj,
uint8* dst_u, int dst_stride_u,
uint8* dst_v, int dst_stride_v,
int width, int height);
// Convert ARGB to J422.
LIBYUV_API
int ARGBToJ422(const uint8* src_argb, int src_stride_argb,
uint8* dst_yj, int dst_stride_yj,
uint8* dst_u, int dst_stride_u,
uint8* dst_v, int dst_stride_v,
int width, int height);
// Convert ARGB To I411.
LIBYUV_API
int ARGBToI411(const uint8* src_argb, int src_stride_argb,
uint8* dst_y, int dst_stride_y,
uint8* dst_u, int dst_stride_u,
uint8* dst_v, int dst_stride_v,
int width, int height);
// Convert ARGB to J400. (JPeg full range).
LIBYUV_API
int ARGBToJ400(const uint8* src_argb, int src_stride_argb,
uint8* dst_yj, int dst_stride_yj,
int width, int height);
// Convert ARGB to I400.
LIBYUV_API
int ARGBToI400(const uint8* src_argb, int src_stride_argb,
uint8* dst_y, int dst_stride_y,
int width, int height);
// Convert ARGB to G. (Reverse of J400toARGB, which replicates G back to ARGB)
LIBYUV_API
int ARGBToG(const uint8* src_argb, int src_stride_argb,
uint8* dst_g, int dst_stride_g,
int width, int height);
// Convert ARGB To NV12.
LIBYUV_API
int ARGBToNV12(const uint8* src_argb, int src_stride_argb,
uint8* dst_y, int dst_stride_y,
uint8* dst_uv, int dst_stride_uv,
int width, int height);
// Convert ARGB To NV21.
LIBYUV_API
int ARGBToNV21(const uint8* src_argb, int src_stride_argb,
uint8* dst_y, int dst_stride_y,
uint8* dst_vu, int dst_stride_vu,
int width, int height);
// Convert ARGB To NV21.
LIBYUV_API
int ARGBToNV21(const uint8* src_argb, int src_stride_argb,
uint8* dst_y, int dst_stride_y,
uint8* dst_vu, int dst_stride_vu,
int width, int height);
// Convert ARGB To YUY2.
LIBYUV_API
int ARGBToYUY2(const uint8* src_argb, int src_stride_argb,
uint8* dst_yuy2, int dst_stride_yuy2,
int width, int height);
// Convert ARGB To UYVY.
LIBYUV_API
int ARGBToUYVY(const uint8* src_argb, int src_stride_argb,
uint8* dst_uyvy, int dst_stride_uyvy,
int width, int height);
#ifdef __cplusplus
} // extern "C"
} // namespace libyuv
#endif
#endif // INCLUDE_LIBYUV_CONVERT_FROM_ARGB_H_

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/*
* Copyright 2011 The LibYuv Project Authors. All rights reserved.
*
* Use of this source code is governed by a BSD-style license
* that can be found in the LICENSE file in the root of the source
* tree. An additional intellectual property rights grant can be found
* in the file PATENTS. All contributing project authors may
* be found in the AUTHORS file in the root of the source tree.
*/
#ifndef INCLUDE_LIBYUV_CPU_ID_H_
#define INCLUDE_LIBYUV_CPU_ID_H_
#include "libyuv/basic_types.h"
#ifdef __cplusplus
namespace libyuv {
extern "C" {
#endif
// Internal flag to indicate cpuid requires initialization.
static const int kCpuInitialized = 0x1;
// These flags are only valid on ARM processors.
static const int kCpuHasARM = 0x2;
static const int kCpuHasNEON = 0x4;
// 0x8 reserved for future ARM flag.
// These flags are only valid on x86 processors.
static const int kCpuHasX86 = 0x10;
static const int kCpuHasSSE2 = 0x20;
static const int kCpuHasSSSE3 = 0x40;
static const int kCpuHasSSE41 = 0x80;
static const int kCpuHasSSE42 = 0x100;
static const int kCpuHasAVX = 0x200;
static const int kCpuHasAVX2 = 0x400;
static const int kCpuHasERMS = 0x800;
static const int kCpuHasFMA3 = 0x1000;
static const int kCpuHasAVX3 = 0x2000;
// 0x2000, 0x4000, 0x8000 reserved for future X86 flags.
// These flags are only valid on MIPS processors.
static const int kCpuHasMIPS = 0x10000;
static const int kCpuHasDSPR2 = 0x20000;
static const int kCpuHasMSA = 0x40000;
// Internal function used to auto-init.
LIBYUV_API
int InitCpuFlags(void);
// Internal function for parsing /proc/cpuinfo.
LIBYUV_API
int ArmCpuCaps(const char* cpuinfo_name);
// Detect CPU has SSE2 etc.
// Test_flag parameter should be one of kCpuHas constants above.
// returns non-zero if instruction set is detected
static __inline int TestCpuFlag(int test_flag) {
LIBYUV_API extern int cpu_info_;
return (!cpu_info_ ? InitCpuFlags() : cpu_info_) & test_flag;
}
// For testing, allow CPU flags to be disabled.
// ie MaskCpuFlags(~kCpuHasSSSE3) to disable SSSE3.
// MaskCpuFlags(-1) to enable all cpu specific optimizations.
// MaskCpuFlags(1) to disable all cpu specific optimizations.
LIBYUV_API
void MaskCpuFlags(int enable_flags);
// Low level cpuid for X86. Returns zeros on other CPUs.
// eax is the info type that you want.
// ecx is typically the cpu number, and should normally be zero.
LIBYUV_API
void CpuId(uint32 eax, uint32 ecx, uint32* cpu_info);
#ifdef __cplusplus
} // extern "C"
} // namespace libyuv
#endif
#endif // INCLUDE_LIBYUV_CPU_ID_H_

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/*
* Copyright 2016 The LibYuv Project Authors. All rights reserved.
*
* Use of this source code is governed by a BSD-style license
* that can be found in the LICENSE file in the root of the source
* tree. An additional intellectual property rights grant can be found
* in the file PATENTS. All contributing project authors may
* be found in the AUTHORS file in the root of the source tree.
*/
#ifndef INCLUDE_LIBYUV_MACROS_MSA_H_
#define INCLUDE_LIBYUV_MACROS_MSA_H_
#if !defined(LIBYUV_DISABLE_MSA) && defined(__mips_msa)
#include <stdint.h>
#include <msa.h>
#define LD_B(RTYPE, psrc) *((RTYPE*)(psrc)) /* NOLINT */
#define LD_UB(...) LD_B(v16u8, __VA_ARGS__)
#define ST_B(RTYPE, in, pdst) *((RTYPE*)(pdst)) = (in) /* NOLINT */
#define ST_UB(...) ST_B(v16u8, __VA_ARGS__)
/* Description : Load two vectors with 16 'byte' sized elements
Arguments : Inputs - psrc, stride
Outputs - out0, out1
Return Type - as per RTYPE
Details : Load 16 byte elements in 'out0' from (psrc)
Load 16 byte elements in 'out1' from (psrc + stride)
*/
#define LD_B2(RTYPE, psrc, stride, out0, out1) { \
out0 = LD_B(RTYPE, (psrc)); \
out1 = LD_B(RTYPE, (psrc) + stride); \
}
#define LD_UB2(...) LD_B2(v16u8, __VA_ARGS__)
#define LD_B4(RTYPE, psrc, stride, out0, out1, out2, out3) { \
LD_B2(RTYPE, (psrc), stride, out0, out1); \
LD_B2(RTYPE, (psrc) + 2 * stride , stride, out2, out3); \
}
#define LD_UB4(...) LD_B4(v16u8, __VA_ARGS__)
/* Description : Store two vectors with stride each having 16 'byte' sized
elements
Arguments : Inputs - in0, in1, pdst, stride
Details : Store 16 byte elements from 'in0' to (pdst)
Store 16 byte elements from 'in1' to (pdst + stride)
*/
#define ST_B2(RTYPE, in0, in1, pdst, stride) { \
ST_B(RTYPE, in0, (pdst)); \
ST_B(RTYPE, in1, (pdst) + stride); \
}
#define ST_UB2(...) ST_B2(v16u8, __VA_ARGS__)
#
#define ST_B4(RTYPE, in0, in1, in2, in3, pdst, stride) { \
ST_B2(RTYPE, in0, in1, (pdst), stride); \
ST_B2(RTYPE, in2, in3, (pdst) + 2 * stride, stride); \
}
#define ST_UB4(...) ST_B4(v16u8, __VA_ARGS__)
#
/* Description : Shuffle byte vector elements as per mask vector
Arguments : Inputs - in0, in1, in2, in3, mask0, mask1
Outputs - out0, out1
Return Type - as per RTYPE
Details : Byte elements from 'in0' & 'in1' are copied selectively to
'out0' as per control vector 'mask0'
*/
#define VSHF_B2(RTYPE, in0, in1, in2, in3, mask0, mask1, out0, out1) { \
out0 = (RTYPE) __msa_vshf_b((v16i8) mask0, (v16i8) in1, (v16i8) in0); \
out1 = (RTYPE) __msa_vshf_b((v16i8) mask1, (v16i8) in3, (v16i8) in2); \
}
#define VSHF_B2_UB(...) VSHF_B2(v16u8, __VA_ARGS__)
#endif /* !defined(LIBYUV_DISABLE_MSA) && defined(__mips_msa) */
#endif // INCLUDE_LIBYUV_MACROS_MSA_H_

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/*
* Copyright 2012 The LibYuv Project Authors. All rights reserved.
*
* Use of this source code is governed by a BSD-style license
* that can be found in the LICENSE file in the root of the source
* tree. An additional intellectual property rights grant can be found
* in the file PATENTS. All contributing project authors may
* be found in the AUTHORS file in the root of the source tree.
*/
#ifndef INCLUDE_LIBYUV_MJPEG_DECODER_H_
#define INCLUDE_LIBYUV_MJPEG_DECODER_H_
#include "libyuv/basic_types.h"
#ifdef __cplusplus
// NOTE: For a simplified public API use convert.h MJPGToI420().
struct jpeg_common_struct;
struct jpeg_decompress_struct;
struct jpeg_source_mgr;
namespace libyuv {
#ifdef __cplusplus
extern "C" {
#endif
LIBYUV_BOOL ValidateJpeg(const uint8* sample, size_t sample_size);
#ifdef __cplusplus
} // extern "C"
#endif
static const uint32 kUnknownDataSize = 0xFFFFFFFF;
enum JpegSubsamplingType {
kJpegYuv420,
kJpegYuv422,
kJpegYuv411,
kJpegYuv444,
kJpegYuv400,
kJpegUnknown
};
struct Buffer {
const uint8* data;
int len;
};
struct BufferVector {
Buffer* buffers;
int len;
int pos;
};
struct SetJmpErrorMgr;
// MJPEG ("Motion JPEG") is a pseudo-standard video codec where the frames are
// simply independent JPEG images with a fixed huffman table (which is omitted).
// It is rarely used in video transmission, but is common as a camera capture
// format, especially in Logitech devices. This class implements a decoder for
// MJPEG frames.
//
// See http://tools.ietf.org/html/rfc2435
class LIBYUV_API MJpegDecoder {
public:
typedef void (*CallbackFunction)(void* opaque,
const uint8* const* data,
const int* strides,
int rows);
static const int kColorSpaceUnknown;
static const int kColorSpaceGrayscale;
static const int kColorSpaceRgb;
static const int kColorSpaceYCbCr;
static const int kColorSpaceCMYK;
static const int kColorSpaceYCCK;
MJpegDecoder();
~MJpegDecoder();
// Loads a new frame, reads its headers, and determines the uncompressed
// image format.
// Returns LIBYUV_TRUE if image looks valid and format is supported.
// If return value is LIBYUV_TRUE, then the values for all the following
// getters are populated.
// src_len is the size of the compressed mjpeg frame in bytes.
LIBYUV_BOOL LoadFrame(const uint8* src, size_t src_len);
// Returns width of the last loaded frame in pixels.
int GetWidth();
// Returns height of the last loaded frame in pixels.
int GetHeight();
// Returns format of the last loaded frame. The return value is one of the
// kColorSpace* constants.
int GetColorSpace();
// Number of color components in the color space.
int GetNumComponents();
// Sample factors of the n-th component.
int GetHorizSampFactor(int component);
int GetVertSampFactor(int component);
int GetHorizSubSampFactor(int component);
int GetVertSubSampFactor(int component);
// Public for testability.
int GetImageScanlinesPerImcuRow();
// Public for testability.
int GetComponentScanlinesPerImcuRow(int component);
// Width of a component in bytes.
int GetComponentWidth(int component);
// Height of a component.
int GetComponentHeight(int component);
// Width of a component in bytes with padding for DCTSIZE. Public for testing.
int GetComponentStride(int component);
// Size of a component in bytes.
int GetComponentSize(int component);
// Call this after LoadFrame() if you decide you don't want to decode it
// after all.
LIBYUV_BOOL UnloadFrame();
// Decodes the entire image into a one-buffer-per-color-component format.
// dst_width must match exactly. dst_height must be <= to image height; if
// less, the image is cropped. "planes" must have size equal to at least
// GetNumComponents() and they must point to non-overlapping buffers of size
// at least GetComponentSize(i). The pointers in planes are incremented
// to point to after the end of the written data.
// TODO(fbarchard): Add dst_x, dst_y to allow specific rect to be decoded.
LIBYUV_BOOL DecodeToBuffers(uint8** planes, int dst_width, int dst_height);
// Decodes the entire image and passes the data via repeated calls to a
// callback function. Each call will get the data for a whole number of
// image scanlines.
// TODO(fbarchard): Add dst_x, dst_y to allow specific rect to be decoded.
LIBYUV_BOOL DecodeToCallback(CallbackFunction fn, void* opaque,
int dst_width, int dst_height);
// The helper function which recognizes the jpeg sub-sampling type.
static JpegSubsamplingType JpegSubsamplingTypeHelper(
int* subsample_x, int* subsample_y, int number_of_components);
private:
void AllocOutputBuffers(int num_outbufs);
void DestroyOutputBuffers();
LIBYUV_BOOL StartDecode();
LIBYUV_BOOL FinishDecode();
void SetScanlinePointers(uint8** data);
LIBYUV_BOOL DecodeImcuRow();
int GetComponentScanlinePadding(int component);
// A buffer holding the input data for a frame.
Buffer buf_;
BufferVector buf_vec_;
jpeg_decompress_struct* decompress_struct_;
jpeg_source_mgr* source_mgr_;
SetJmpErrorMgr* error_mgr_;
// LIBYUV_TRUE iff at least one component has scanline padding. (i.e.,
// GetComponentScanlinePadding() != 0.)
LIBYUV_BOOL has_scanline_padding_;
// Temporaries used to point to scanline outputs.
int num_outbufs_; // Outermost size of all arrays below.
uint8*** scanlines_;
int* scanlines_sizes_;
// Temporary buffer used for decoding when we can't decode directly to the
// output buffers. Large enough for just one iMCU row.
uint8** databuf_;
int* databuf_strides_;
};
} // namespace libyuv
#endif // __cplusplus
#endif // INCLUDE_LIBYUV_MJPEG_DECODER_H_

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/*
* Copyright 2011 The LibYuv Project Authors. All rights reserved.
*
* Use of this source code is governed by a BSD-style license
* that can be found in the LICENSE file in the root of the source
* tree. An additional intellectual property rights grant can be found
* in the file PATENTS. All contributing project authors may
* be found in the AUTHORS file in the root of the source tree.
*/
#ifndef INCLUDE_LIBYUV_PLANAR_FUNCTIONS_H_
#define INCLUDE_LIBYUV_PLANAR_FUNCTIONS_H_
#include "libyuv/basic_types.h"
// TODO(fbarchard): Remove the following headers includes.
#include "libyuv/convert.h"
#include "libyuv/convert_argb.h"
#ifdef __cplusplus
namespace libyuv {
extern "C" {
#endif
// Copy a plane of data.
LIBYUV_API
void CopyPlane(const uint8* src_y, int src_stride_y,
uint8* dst_y, int dst_stride_y,
int width, int height);
LIBYUV_API
void CopyPlane_16(const uint16* src_y, int src_stride_y,
uint16* dst_y, int dst_stride_y,
int width, int height);
// Set a plane of data to a 32 bit value.
LIBYUV_API
void SetPlane(uint8* dst_y, int dst_stride_y,
int width, int height,
uint32 value);
// Split interleaved UV plane into separate U and V planes.
LIBYUV_API
void SplitUVPlane(const uint8* src_uv, int src_stride_uv,
uint8* dst_u, int dst_stride_u,
uint8* dst_v, int dst_stride_v,
int width, int height);
// Merge separate U and V planes into one interleaved UV plane.
LIBYUV_API
void MergeUVPlane(const uint8* src_u, int src_stride_u,
const uint8* src_v, int src_stride_v,
uint8* dst_uv, int dst_stride_uv,
int width, int height);
// Copy I400. Supports inverting.
LIBYUV_API
int I400ToI400(const uint8* src_y, int src_stride_y,
uint8* dst_y, int dst_stride_y,
int width, int height);
#define J400ToJ400 I400ToI400
// Copy I422 to I422.
#define I422ToI422 I422Copy
LIBYUV_API
int I422Copy(const uint8* src_y, int src_stride_y,
const uint8* src_u, int src_stride_u,
const uint8* src_v, int src_stride_v,
uint8* dst_y, int dst_stride_y,
uint8* dst_u, int dst_stride_u,
uint8* dst_v, int dst_stride_v,
int width, int height);
// Copy I444 to I444.
#define I444ToI444 I444Copy
LIBYUV_API
int I444Copy(const uint8* src_y, int src_stride_y,
const uint8* src_u, int src_stride_u,
const uint8* src_v, int src_stride_v,
uint8* dst_y, int dst_stride_y,
uint8* dst_u, int dst_stride_u,
uint8* dst_v, int dst_stride_v,
int width, int height);
// Convert YUY2 to I422.
LIBYUV_API
int YUY2ToI422(const uint8* src_yuy2, int src_stride_yuy2,
uint8* dst_y, int dst_stride_y,
uint8* dst_u, int dst_stride_u,
uint8* dst_v, int dst_stride_v,
int width, int height);
// Convert UYVY to I422.
LIBYUV_API
int UYVYToI422(const uint8* src_uyvy, int src_stride_uyvy,
uint8* dst_y, int dst_stride_y,
uint8* dst_u, int dst_stride_u,
uint8* dst_v, int dst_stride_v,
int width, int height);
LIBYUV_API
int YUY2ToNV12(const uint8* src_yuy2, int src_stride_yuy2,
uint8* dst_y, int dst_stride_y,
uint8* dst_uv, int dst_stride_uv,
int width, int height);
LIBYUV_API
int UYVYToNV12(const uint8* src_uyvy, int src_stride_uyvy,
uint8* dst_y, int dst_stride_y,
uint8* dst_uv, int dst_stride_uv,
int width, int height);
// Convert I420 to I400. (calls CopyPlane ignoring u/v).
LIBYUV_API
int I420ToI400(const uint8* src_y, int src_stride_y,
const uint8* src_u, int src_stride_u,
const uint8* src_v, int src_stride_v,
uint8* dst_y, int dst_stride_y,
int width, int height);
// Alias
#define J420ToJ400 I420ToI400
#define I420ToI420Mirror I420Mirror
// I420 mirror.
LIBYUV_API
int I420Mirror(const uint8* src_y, int src_stride_y,
const uint8* src_u, int src_stride_u,
const uint8* src_v, int src_stride_v,
uint8* dst_y, int dst_stride_y,
uint8* dst_u, int dst_stride_u,
uint8* dst_v, int dst_stride_v,
int width, int height);
// Alias
#define I400ToI400Mirror I400Mirror
// I400 mirror. A single plane is mirrored horizontally.
// Pass negative height to achieve 180 degree rotation.
LIBYUV_API
int I400Mirror(const uint8* src_y, int src_stride_y,
uint8* dst_y, int dst_stride_y,
int width, int height);
// Alias
#define ARGBToARGBMirror ARGBMirror
// ARGB mirror.
LIBYUV_API
int ARGBMirror(const uint8* src_argb, int src_stride_argb,
uint8* dst_argb, int dst_stride_argb,
int width, int height);
// Convert NV12 to RGB565.
LIBYUV_API
int NV12ToRGB565(const uint8* src_y, int src_stride_y,
const uint8* src_uv, int src_stride_uv,
uint8* dst_rgb565, int dst_stride_rgb565,
int width, int height);
// I422ToARGB is in convert_argb.h
// Convert I422 to BGRA.
LIBYUV_API
int I422ToBGRA(const uint8* src_y, int src_stride_y,
const uint8* src_u, int src_stride_u,
const uint8* src_v, int src_stride_v,
uint8* dst_bgra, int dst_stride_bgra,
int width, int height);
// Convert I422 to ABGR.
LIBYUV_API
int I422ToABGR(const uint8* src_y, int src_stride_y,
const uint8* src_u, int src_stride_u,
const uint8* src_v, int src_stride_v,
uint8* dst_abgr, int dst_stride_abgr,
int width, int height);
// Convert I422 to RGBA.
LIBYUV_API
int I422ToRGBA(const uint8* src_y, int src_stride_y,
const uint8* src_u, int src_stride_u,
const uint8* src_v, int src_stride_v,
uint8* dst_rgba, int dst_stride_rgba,
int width, int height);
// Alias
#define RGB24ToRAW RAWToRGB24
LIBYUV_API
int RAWToRGB24(const uint8* src_raw, int src_stride_raw,
uint8* dst_rgb24, int dst_stride_rgb24,
int width, int height);
// Draw a rectangle into I420.
LIBYUV_API
int I420Rect(uint8* dst_y, int dst_stride_y,
uint8* dst_u, int dst_stride_u,
uint8* dst_v, int dst_stride_v,
int x, int y, int width, int height,
int value_y, int value_u, int value_v);
// Draw a rectangle into ARGB.
LIBYUV_API
int ARGBRect(uint8* dst_argb, int dst_stride_argb,
int x, int y, int width, int height, uint32 value);
// Convert ARGB to gray scale ARGB.
LIBYUV_API
int ARGBGrayTo(const uint8* src_argb, int src_stride_argb,
uint8* dst_argb, int dst_stride_argb,
int width, int height);
// Make a rectangle of ARGB gray scale.
LIBYUV_API
int ARGBGray(uint8* dst_argb, int dst_stride_argb,
int x, int y, int width, int height);
// Make a rectangle of ARGB Sepia tone.
LIBYUV_API
int ARGBSepia(uint8* dst_argb, int dst_stride_argb,
int x, int y, int width, int height);
// Apply a matrix rotation to each ARGB pixel.
// matrix_argb is 4 signed ARGB values. -128 to 127 representing -2 to 2.
// The first 4 coefficients apply to B, G, R, A and produce B of the output.
// The next 4 coefficients apply to B, G, R, A and produce G of the output.
// The next 4 coefficients apply to B, G, R, A and produce R of the output.
// The last 4 coefficients apply to B, G, R, A and produce A of the output.
LIBYUV_API
int ARGBColorMatrix(const uint8* src_argb, int src_stride_argb,
uint8* dst_argb, int dst_stride_argb,
const int8* matrix_argb,
int width, int height);
// Deprecated. Use ARGBColorMatrix instead.
// Apply a matrix rotation to each ARGB pixel.
// matrix_argb is 3 signed ARGB values. -128 to 127 representing -1 to 1.
// The first 4 coefficients apply to B, G, R, A and produce B of the output.
// The next 4 coefficients apply to B, G, R, A and produce G of the output.
// The last 4 coefficients apply to B, G, R, A and produce R of the output.
LIBYUV_API
int RGBColorMatrix(uint8* dst_argb, int dst_stride_argb,
const int8* matrix_rgb,
int x, int y, int width, int height);
// Apply a color table each ARGB pixel.
// Table contains 256 ARGB values.
LIBYUV_API
int ARGBColorTable(uint8* dst_argb, int dst_stride_argb,
const uint8* table_argb,
int x, int y, int width, int height);
// Apply a color table each ARGB pixel but preserve destination alpha.
// Table contains 256 ARGB values.
LIBYUV_API
int RGBColorTable(uint8* dst_argb, int dst_stride_argb,
const uint8* table_argb,
int x, int y, int width, int height);
// Apply a luma/color table each ARGB pixel but preserve destination alpha.
// Table contains 32768 values indexed by [Y][C] where 7 it 7 bit luma from
// RGB (YJ style) and C is an 8 bit color component (R, G or B).
LIBYUV_API
int ARGBLumaColorTable(const uint8* src_argb, int src_stride_argb,
uint8* dst_argb, int dst_stride_argb,
const uint8* luma_rgb_table,
int width, int height);
// Apply a 3 term polynomial to ARGB values.
// poly points to a 4x4 matrix. The first row is constants. The 2nd row is
// coefficients for b, g, r and a. The 3rd row is coefficients for b squared,
// g squared, r squared and a squared. The 4rd row is coefficients for b to
// the 3, g to the 3, r to the 3 and a to the 3. The values are summed and
// result clamped to 0 to 255.
// A polynomial approximation can be dirived using software such as 'R'.
LIBYUV_API
int ARGBPolynomial(const uint8* src_argb, int src_stride_argb,
uint8* dst_argb, int dst_stride_argb,
const float* poly,
int width, int height);
// Convert plane of 16 bit shorts to half floats.
// Source values are multiplied by scale before storing as half float.
LIBYUV_API
int HalfFloatPlane(const uint16* src_y, int src_stride_y,
uint16* dst_y, int dst_stride_y,
float scale,
int width, int height);
// Quantize a rectangle of ARGB. Alpha unaffected.
// scale is a 16 bit fractional fixed point scaler between 0 and 65535.
// interval_size should be a value between 1 and 255.
// interval_offset should be a value between 0 and 255.
LIBYUV_API
int ARGBQuantize(uint8* dst_argb, int dst_stride_argb,
int scale, int interval_size, int interval_offset,
int x, int y, int width, int height);
// Copy ARGB to ARGB.
LIBYUV_API
int ARGBCopy(const uint8* src_argb, int src_stride_argb,
uint8* dst_argb, int dst_stride_argb,
int width, int height);
// Copy Alpha channel of ARGB to alpha of ARGB.
LIBYUV_API
int ARGBCopyAlpha(const uint8* src_argb, int src_stride_argb,
uint8* dst_argb, int dst_stride_argb,
int width, int height);
// Extract the alpha channel from ARGB.
LIBYUV_API
int ARGBExtractAlpha(const uint8* src_argb, int src_stride_argb,
uint8* dst_a, int dst_stride_a,
int width, int height);
// Copy Y channel to Alpha of ARGB.
LIBYUV_API
int ARGBCopyYToAlpha(const uint8* src_y, int src_stride_y,
uint8* dst_argb, int dst_stride_argb,
int width, int height);
typedef void (*ARGBBlendRow)(const uint8* src_argb0, const uint8* src_argb1,
uint8* dst_argb, int width);
// Get function to Alpha Blend ARGB pixels and store to destination.
LIBYUV_API
ARGBBlendRow GetARGBBlend();
// Alpha Blend ARGB images and store to destination.
// Source is pre-multiplied by alpha using ARGBAttenuate.
// Alpha of destination is set to 255.
LIBYUV_API
int ARGBBlend(const uint8* src_argb0, int src_stride_argb0,
const uint8* src_argb1, int src_stride_argb1,
uint8* dst_argb, int dst_stride_argb,
int width, int height);
// Alpha Blend plane and store to destination.
// Source is not pre-multiplied by alpha.
LIBYUV_API
int BlendPlane(const uint8* src_y0, int src_stride_y0,
const uint8* src_y1, int src_stride_y1,
const uint8* alpha, int alpha_stride,
uint8* dst_y, int dst_stride_y,
int width, int height);
// Alpha Blend YUV images and store to destination.
// Source is not pre-multiplied by alpha.
// Alpha is full width x height and subsampled to half size to apply to UV.
LIBYUV_API
int I420Blend(const uint8* src_y0, int src_stride_y0,
const uint8* src_u0, int src_stride_u0,
const uint8* src_v0, int src_stride_v0,
const uint8* src_y1, int src_stride_y1,
const uint8* src_u1, int src_stride_u1,
const uint8* src_v1, int src_stride_v1,
const uint8* alpha, int alpha_stride,
uint8* dst_y, int dst_stride_y,
uint8* dst_u, int dst_stride_u,
uint8* dst_v, int dst_stride_v,
int width, int height);
// Multiply ARGB image by ARGB image. Shifted down by 8. Saturates to 255.
LIBYUV_API
int ARGBMultiply(const uint8* src_argb0, int src_stride_argb0,
const uint8* src_argb1, int src_stride_argb1,
uint8* dst_argb, int dst_stride_argb,
int width, int height);
// Add ARGB image with ARGB image. Saturates to 255.
LIBYUV_API
int ARGBAdd(const uint8* src_argb0, int src_stride_argb0,
const uint8* src_argb1, int src_stride_argb1,
uint8* dst_argb, int dst_stride_argb,
int width, int height);
// Subtract ARGB image (argb1) from ARGB image (argb0). Saturates to 0.
LIBYUV_API
int ARGBSubtract(const uint8* src_argb0, int src_stride_argb0,
const uint8* src_argb1, int src_stride_argb1,
uint8* dst_argb, int dst_stride_argb,
int width, int height);
// Convert I422 to YUY2.
LIBYUV_API
int I422ToYUY2(const uint8* src_y, int src_stride_y,
const uint8* src_u, int src_stride_u,
const uint8* src_v, int src_stride_v,
uint8* dst_frame, int dst_stride_frame,
int width, int height);
// Convert I422 to UYVY.
LIBYUV_API
int I422ToUYVY(const uint8* src_y, int src_stride_y,
const uint8* src_u, int src_stride_u,
const uint8* src_v, int src_stride_v,
uint8* dst_frame, int dst_stride_frame,
int width, int height);
// Convert unattentuated ARGB to preattenuated ARGB.
LIBYUV_API
int ARGBAttenuate(const uint8* src_argb, int src_stride_argb,
uint8* dst_argb, int dst_stride_argb,
int width, int height);
// Convert preattentuated ARGB to unattenuated ARGB.
LIBYUV_API
int ARGBUnattenuate(const uint8* src_argb, int src_stride_argb,
uint8* dst_argb, int dst_stride_argb,
int width, int height);
// Internal function - do not call directly.
// Computes table of cumulative sum for image where the value is the sum
// of all values above and to the left of the entry. Used by ARGBBlur.
LIBYUV_API
int ARGBComputeCumulativeSum(const uint8* src_argb, int src_stride_argb,
int32* dst_cumsum, int dst_stride32_cumsum,
int width, int height);
// Blur ARGB image.
// dst_cumsum table of width * (height + 1) * 16 bytes aligned to
// 16 byte boundary.
// dst_stride32_cumsum is number of ints in a row (width * 4).
// radius is number of pixels around the center. e.g. 1 = 3x3. 2=5x5.
// Blur is optimized for radius of 5 (11x11) or less.
LIBYUV_API
int ARGBBlur(const uint8* src_argb, int src_stride_argb,
uint8* dst_argb, int dst_stride_argb,
int32* dst_cumsum, int dst_stride32_cumsum,
int width, int height, int radius);
// Multiply ARGB image by ARGB value.
LIBYUV_API
int ARGBShade(const uint8* src_argb, int src_stride_argb,
uint8* dst_argb, int dst_stride_argb,
int width, int height, uint32 value);
// Interpolate between two images using specified amount of interpolation
// (0 to 255) and store to destination.
// 'interpolation' is specified as 8 bit fraction where 0 means 100% src0
// and 255 means 1% src0 and 99% src1.
LIBYUV_API
int InterpolatePlane(const uint8* src0, int src_stride0,
const uint8* src1, int src_stride1,
uint8* dst, int dst_stride,
int width, int height, int interpolation);
// Interpolate between two ARGB images using specified amount of interpolation
// Internally calls InterpolatePlane with width * 4 (bpp).
LIBYUV_API
int ARGBInterpolate(const uint8* src_argb0, int src_stride_argb0,
const uint8* src_argb1, int src_stride_argb1,
uint8* dst_argb, int dst_stride_argb,
int width, int height, int interpolation);
// Interpolate between two YUV images using specified amount of interpolation
// Internally calls InterpolatePlane on each plane where the U and V planes
// are half width and half height.
LIBYUV_API
int I420Interpolate(const uint8* src0_y, int src0_stride_y,
const uint8* src0_u, int src0_stride_u,
const uint8* src0_v, int src0_stride_v,
const uint8* src1_y, int src1_stride_y,
const uint8* src1_u, int src1_stride_u,
const uint8* src1_v, int src1_stride_v,
uint8* dst_y, int dst_stride_y,
uint8* dst_u, int dst_stride_u,
uint8* dst_v, int dst_stride_v,
int width, int height, int interpolation);
#if defined(__pnacl__) || defined(__CLR_VER) || \
(defined(__i386__) && !defined(__SSE2__))
#define LIBYUV_DISABLE_X86
#endif
// MemorySanitizer does not support assembly code yet. http://crbug.com/344505
#if defined(__has_feature)
#if __has_feature(memory_sanitizer)
#define LIBYUV_DISABLE_X86
#endif
#endif
// The following are available on all x86 platforms:
#if !defined(LIBYUV_DISABLE_X86) && \
(defined(_M_IX86) || defined(__x86_64__) || defined(__i386__))
#define HAS_ARGBAFFINEROW_SSE2
#endif
// Row function for copying pixels from a source with a slope to a row
// of destination. Useful for scaling, rotation, mirror, texture mapping.
LIBYUV_API
void ARGBAffineRow_C(const uint8* src_argb, int src_argb_stride,
uint8* dst_argb, const float* uv_dudv, int width);
LIBYUV_API
void ARGBAffineRow_SSE2(const uint8* src_argb, int src_argb_stride,
uint8* dst_argb, const float* uv_dudv, int width);
// Shuffle ARGB channel order. e.g. BGRA to ARGB.
// shuffler is 16 bytes and must be aligned.
LIBYUV_API
int ARGBShuffle(const uint8* src_bgra, int src_stride_bgra,
uint8* dst_argb, int dst_stride_argb,
const uint8* shuffler, int width, int height);
// Sobel ARGB effect with planar output.
LIBYUV_API
int ARGBSobelToPlane(const uint8* src_argb, int src_stride_argb,
uint8* dst_y, int dst_stride_y,
int width, int height);
// Sobel ARGB effect.
LIBYUV_API
int ARGBSobel(const uint8* src_argb, int src_stride_argb,
uint8* dst_argb, int dst_stride_argb,
int width, int height);
// Sobel ARGB effect w/ Sobel X, Sobel, Sobel Y in ARGB.
LIBYUV_API
int ARGBSobelXY(const uint8* src_argb, int src_stride_argb,
uint8* dst_argb, int dst_stride_argb,
int width, int height);
#ifdef __cplusplus
} // extern "C"
} // namespace libyuv
#endif
#endif // INCLUDE_LIBYUV_PLANAR_FUNCTIONS_H_

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/*
* Copyright 2011 The LibYuv Project Authors. All rights reserved.
*
* Use of this source code is governed by a BSD-style license
* that can be found in the LICENSE file in the root of the source
* tree. An additional intellectual property rights grant can be found
* in the file PATENTS. All contributing project authors may
* be found in the AUTHORS file in the root of the source tree.
*/
#ifndef INCLUDE_LIBYUV_ROTATE_H_
#define INCLUDE_LIBYUV_ROTATE_H_
#include "libyuv/basic_types.h"
#ifdef __cplusplus
namespace libyuv {
extern "C" {
#endif
// Supported rotation.
typedef enum RotationMode {
kRotate0 = 0, // No rotation.
kRotate90 = 90, // Rotate 90 degrees clockwise.
kRotate180 = 180, // Rotate 180 degrees.
kRotate270 = 270, // Rotate 270 degrees clockwise.
// Deprecated.
kRotateNone = 0,
kRotateClockwise = 90,
kRotateCounterClockwise = 270,
} RotationModeEnum;
// Rotate I420 frame.
LIBYUV_API
int I420Rotate(const uint8* src_y, int src_stride_y,
const uint8* src_u, int src_stride_u,
const uint8* src_v, int src_stride_v,
uint8* dst_y, int dst_stride_y,
uint8* dst_u, int dst_stride_u,
uint8* dst_v, int dst_stride_v,
int src_width, int src_height, enum RotationMode mode);
// Rotate NV12 input and store in I420.
LIBYUV_API
int NV12ToI420Rotate(const uint8* src_y, int src_stride_y,
const uint8* src_uv, int src_stride_uv,
uint8* dst_y, int dst_stride_y,
uint8* dst_u, int dst_stride_u,
uint8* dst_v, int dst_stride_v,
int src_width, int src_height, enum RotationMode mode);
// Rotate a plane by 0, 90, 180, or 270.
LIBYUV_API
int RotatePlane(const uint8* src, int src_stride,
uint8* dst, int dst_stride,
int src_width, int src_height, enum RotationMode mode);
// Rotate planes by 90, 180, 270. Deprecated.
LIBYUV_API
void RotatePlane90(const uint8* src, int src_stride,
uint8* dst, int dst_stride,
int width, int height);
LIBYUV_API
void RotatePlane180(const uint8* src, int src_stride,
uint8* dst, int dst_stride,
int width, int height);
LIBYUV_API
void RotatePlane270(const uint8* src, int src_stride,
uint8* dst, int dst_stride,
int width, int height);
LIBYUV_API
void RotateUV90(const uint8* src, int src_stride,
uint8* dst_a, int dst_stride_a,
uint8* dst_b, int dst_stride_b,
int width, int height);
// Rotations for when U and V are interleaved.
// These functions take one input pointer and
// split the data into two buffers while
// rotating them. Deprecated.
LIBYUV_API
void RotateUV180(const uint8* src, int src_stride,
uint8* dst_a, int dst_stride_a,
uint8* dst_b, int dst_stride_b,
int width, int height);
LIBYUV_API
void RotateUV270(const uint8* src, int src_stride,
uint8* dst_a, int dst_stride_a,
uint8* dst_b, int dst_stride_b,
int width, int height);
// The 90 and 270 functions are based on transposes.
// Doing a transpose with reversing the read/write
// order will result in a rotation by +- 90 degrees.
// Deprecated.
LIBYUV_API
void TransposePlane(const uint8* src, int src_stride,
uint8* dst, int dst_stride,
int width, int height);
LIBYUV_API
void TransposeUV(const uint8* src, int src_stride,
uint8* dst_a, int dst_stride_a,
uint8* dst_b, int dst_stride_b,
int width, int height);
#ifdef __cplusplus
} // extern "C"
} // namespace libyuv
#endif
#endif // INCLUDE_LIBYUV_ROTATE_H_

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/*
* Copyright 2012 The LibYuv Project Authors. All rights reserved.
*
* Use of this source code is governed by a BSD-style license
* that can be found in the LICENSE file in the root of the source
* tree. An additional intellectual property rights grant can be found
* in the file PATENTS. All contributing project authors may
* be found in the AUTHORS file in the root of the source tree.
*/
#ifndef INCLUDE_LIBYUV_ROTATE_ARGB_H_
#define INCLUDE_LIBYUV_ROTATE_ARGB_H_
#include "libyuv/basic_types.h"
#include "libyuv/rotate.h" // For RotationMode.
#ifdef __cplusplus
namespace libyuv {
extern "C" {
#endif
// Rotate ARGB frame
LIBYUV_API
int ARGBRotate(const uint8* src_argb, int src_stride_argb,
uint8* dst_argb, int dst_stride_argb,
int src_width, int src_height, enum RotationMode mode);
#ifdef __cplusplus
} // extern "C"
} // namespace libyuv
#endif
#endif // INCLUDE_LIBYUV_ROTATE_ARGB_H_

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/*
* Copyright 2013 The LibYuv Project Authors. All rights reserved.
*
* Use of this source code is governed by a BSD-style license
* that can be found in the LICENSE file in the root of the source
* tree. An additional intellectual property rights grant can be found
* in the file PATENTS. All contributing project authors may
* be found in the AUTHORS file in the root of the source tree.
*/
#ifndef INCLUDE_LIBYUV_ROTATE_ROW_H_
#define INCLUDE_LIBYUV_ROTATE_ROW_H_
#include "libyuv/basic_types.h"
#ifdef __cplusplus
namespace libyuv {
extern "C" {
#endif
#if defined(__pnacl__) || defined(__CLR_VER) || \
(defined(__i386__) && !defined(__SSE2__))
#define LIBYUV_DISABLE_X86
#endif
// MemorySanitizer does not support assembly code yet. http://crbug.com/344505
#if defined(__has_feature)
#if __has_feature(memory_sanitizer)
#define LIBYUV_DISABLE_X86
#endif
#endif
// The following are available for Visual C and clangcl 32 bit:
#if !defined(LIBYUV_DISABLE_X86) && defined(_M_IX86)
#define HAS_TRANSPOSEWX8_SSSE3
#define HAS_TRANSPOSEUVWX8_SSE2
#endif
// The following are available for GCC 32 or 64 bit but not NaCL for 64 bit:
#if !defined(LIBYUV_DISABLE_X86) && \
(defined(__i386__) || (defined(__x86_64__) && !defined(__native_client__)))
#define HAS_TRANSPOSEWX8_SSSE3
#endif
// The following are available for 64 bit GCC but not NaCL:
#if !defined(LIBYUV_DISABLE_X86) && !defined(__native_client__) && \
defined(__x86_64__)
#define HAS_TRANSPOSEWX8_FAST_SSSE3
#define HAS_TRANSPOSEUVWX8_SSE2
#endif
#if !defined(LIBYUV_DISABLE_NEON) && !defined(__native_client__) && \
(defined(__ARM_NEON__) || defined(LIBYUV_NEON) || defined(__aarch64__))
#define HAS_TRANSPOSEWX8_NEON
#define HAS_TRANSPOSEUVWX8_NEON
#endif
#if !defined(LIBYUV_DISABLE_MIPS) && !defined(__native_client__) && \
defined(__mips__) && \
defined(__mips_dsp) && (__mips_dsp_rev >= 2)
#define HAS_TRANSPOSEWX8_DSPR2
#define HAS_TRANSPOSEUVWX8_DSPR2
#endif // defined(__mips__)
void TransposeWxH_C(const uint8* src, int src_stride,
uint8* dst, int dst_stride, int width, int height);
void TransposeWx8_C(const uint8* src, int src_stride,
uint8* dst, int dst_stride, int width);
void TransposeWx8_NEON(const uint8* src, int src_stride,
uint8* dst, int dst_stride, int width);
void TransposeWx8_SSSE3(const uint8* src, int src_stride,
uint8* dst, int dst_stride, int width);
void TransposeWx8_Fast_SSSE3(const uint8* src, int src_stride,
uint8* dst, int dst_stride, int width);
void TransposeWx8_DSPR2(const uint8* src, int src_stride,
uint8* dst, int dst_stride, int width);
void TransposeWx8_Fast_DSPR2(const uint8* src, int src_stride,
uint8* dst, int dst_stride, int width);
void TransposeWx8_Any_NEON(const uint8* src, int src_stride,
uint8* dst, int dst_stride, int width);
void TransposeWx8_Any_SSSE3(const uint8* src, int src_stride,
uint8* dst, int dst_stride, int width);
void TransposeWx8_Fast_Any_SSSE3(const uint8* src, int src_stride,
uint8* dst, int dst_stride, int width);
void TransposeWx8_Any_DSPR2(const uint8* src, int src_stride,
uint8* dst, int dst_stride, int width);
void TransposeUVWxH_C(const uint8* src, int src_stride,
uint8* dst_a, int dst_stride_a,
uint8* dst_b, int dst_stride_b,
int width, int height);
void TransposeUVWx8_C(const uint8* src, int src_stride,
uint8* dst_a, int dst_stride_a,
uint8* dst_b, int dst_stride_b, int width);
void TransposeUVWx8_SSE2(const uint8* src, int src_stride,
uint8* dst_a, int dst_stride_a,
uint8* dst_b, int dst_stride_b, int width);
void TransposeUVWx8_NEON(const uint8* src, int src_stride,
uint8* dst_a, int dst_stride_a,
uint8* dst_b, int dst_stride_b, int width);
void TransposeUVWx8_DSPR2(const uint8* src, int src_stride,
uint8* dst_a, int dst_stride_a,
uint8* dst_b, int dst_stride_b, int width);
void TransposeUVWx8_Any_SSE2(const uint8* src, int src_stride,
uint8* dst_a, int dst_stride_a,
uint8* dst_b, int dst_stride_b, int width);
void TransposeUVWx8_Any_NEON(const uint8* src, int src_stride,
uint8* dst_a, int dst_stride_a,
uint8* dst_b, int dst_stride_b, int width);
void TransposeUVWx8_Any_DSPR2(const uint8* src, int src_stride,
uint8* dst_a, int dst_stride_a,
uint8* dst_b, int dst_stride_b, int width);
#ifdef __cplusplus
} // extern "C"
} // namespace libyuv
#endif
#endif // INCLUDE_LIBYUV_ROTATE_ROW_H_

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/*
* Copyright 2011 The LibYuv Project Authors. All rights reserved.
*
* Use of this source code is governed by a BSD-style license
* that can be found in the LICENSE file in the root of the source
* tree. An additional intellectual property rights grant can be found
* in the file PATENTS. All contributing project authors may
* be found in the AUTHORS file in the root of the source tree.
*/
#ifndef INCLUDE_LIBYUV_SCALE_H_
#define INCLUDE_LIBYUV_SCALE_H_
#include "libyuv/basic_types.h"
#ifdef __cplusplus
namespace libyuv {
extern "C" {
#endif
// Supported filtering.
typedef enum FilterMode {
kFilterNone = 0, // Point sample; Fastest.
kFilterLinear = 1, // Filter horizontally only.
kFilterBilinear = 2, // Faster than box, but lower quality scaling down.
kFilterBox = 3 // Highest quality.
} FilterModeEnum;
// Scale a YUV plane.
LIBYUV_API
void ScalePlane(const uint8* src, int src_stride,
int src_width, int src_height,
uint8* dst, int dst_stride,
int dst_width, int dst_height,
enum FilterMode filtering);
LIBYUV_API
void ScalePlane_16(const uint16* src, int src_stride,
int src_width, int src_height,
uint16* dst, int dst_stride,
int dst_width, int dst_height,
enum FilterMode filtering);
// Scales a YUV 4:2:0 image from the src width and height to the
// dst width and height.
// If filtering is kFilterNone, a simple nearest-neighbor algorithm is
// used. This produces basic (blocky) quality at the fastest speed.
// If filtering is kFilterBilinear, interpolation is used to produce a better
// quality image, at the expense of speed.
// If filtering is kFilterBox, averaging is used to produce ever better
// quality image, at further expense of speed.
// Returns 0 if successful.
LIBYUV_API
int I420Scale(const uint8* src_y, int src_stride_y,
const uint8* src_u, int src_stride_u,
const uint8* src_v, int src_stride_v,
int src_width, int src_height,
uint8* dst_y, int dst_stride_y,
uint8* dst_u, int dst_stride_u,
uint8* dst_v, int dst_stride_v,
int dst_width, int dst_height,
enum FilterMode filtering);
LIBYUV_API
int I420Scale_16(const uint16* src_y, int src_stride_y,
const uint16* src_u, int src_stride_u,
const uint16* src_v, int src_stride_v,
int src_width, int src_height,
uint16* dst_y, int dst_stride_y,
uint16* dst_u, int dst_stride_u,
uint16* dst_v, int dst_stride_v,
int dst_width, int dst_height,
enum FilterMode filtering);
#ifdef __cplusplus
// Legacy API. Deprecated.
LIBYUV_API
int Scale(const uint8* src_y, const uint8* src_u, const uint8* src_v,
int src_stride_y, int src_stride_u, int src_stride_v,
int src_width, int src_height,
uint8* dst_y, uint8* dst_u, uint8* dst_v,
int dst_stride_y, int dst_stride_u, int dst_stride_v,
int dst_width, int dst_height,
LIBYUV_BOOL interpolate);
// Legacy API. Deprecated.
LIBYUV_API
int ScaleOffset(const uint8* src_i420, int src_width, int src_height,
uint8* dst_i420, int dst_width, int dst_height, int dst_yoffset,
LIBYUV_BOOL interpolate);
// For testing, allow disabling of specialized scalers.
LIBYUV_API
void SetUseReferenceImpl(LIBYUV_BOOL use);
#endif // __cplusplus
#ifdef __cplusplus
} // extern "C"
} // namespace libyuv
#endif
#endif // INCLUDE_LIBYUV_SCALE_H_

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/*
* Copyright 2012 The LibYuv Project Authors. All rights reserved.
*
* Use of this source code is governed by a BSD-style license
* that can be found in the LICENSE file in the root of the source
* tree. An additional intellectual property rights grant can be found
* in the file PATENTS. All contributing project authors may
* be found in the AUTHORS file in the root of the source tree.
*/
#ifndef INCLUDE_LIBYUV_SCALE_ARGB_H_
#define INCLUDE_LIBYUV_SCALE_ARGB_H_
#include "libyuv/basic_types.h"
#include "libyuv/scale.h" // For FilterMode
#ifdef __cplusplus
namespace libyuv {
extern "C" {
#endif
LIBYUV_API
int ARGBScale(const uint8* src_argb, int src_stride_argb,
int src_width, int src_height,
uint8* dst_argb, int dst_stride_argb,
int dst_width, int dst_height,
enum FilterMode filtering);
// Clipped scale takes destination rectangle coordinates for clip values.
LIBYUV_API
int ARGBScaleClip(const uint8* src_argb, int src_stride_argb,
int src_width, int src_height,
uint8* dst_argb, int dst_stride_argb,
int dst_width, int dst_height,
int clip_x, int clip_y, int clip_width, int clip_height,
enum FilterMode filtering);
// Scale with YUV conversion to ARGB and clipping.
LIBYUV_API
int YUVToARGBScaleClip(const uint8* src_y, int src_stride_y,
const uint8* src_u, int src_stride_u,
const uint8* src_v, int src_stride_v,
uint32 src_fourcc,
int src_width, int src_height,
uint8* dst_argb, int dst_stride_argb,
uint32 dst_fourcc,
int dst_width, int dst_height,
int clip_x, int clip_y, int clip_width, int clip_height,
enum FilterMode filtering);
#ifdef __cplusplus
} // extern "C"
} // namespace libyuv
#endif
#endif // INCLUDE_LIBYUV_SCALE_ARGB_H_

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/*
* Copyright 2013 The LibYuv Project Authors. All rights reserved.
*
* Use of this source code is governed by a BSD-style license
* that can be found in the LICENSE file in the root of the source
* tree. An additional intellectual property rights grant can be found
* in the file PATENTS. All contributing project authors may
* be found in the AUTHORS file in the root of the source tree.
*/
#ifndef INCLUDE_LIBYUV_SCALE_ROW_H_
#define INCLUDE_LIBYUV_SCALE_ROW_H_
#include "libyuv/basic_types.h"
#include "libyuv/scale.h"
#ifdef __cplusplus
namespace libyuv {
extern "C" {
#endif
#if defined(__pnacl__) || defined(__CLR_VER) || \
(defined(__i386__) && !defined(__SSE2__))
#define LIBYUV_DISABLE_X86
#endif
// MemorySanitizer does not support assembly code yet. http://crbug.com/344505
#if defined(__has_feature)
#if __has_feature(memory_sanitizer)
#define LIBYUV_DISABLE_X86
#endif
#endif
// GCC >= 4.7.0 required for AVX2.
#if defined(__GNUC__) && (defined(__x86_64__) || defined(__i386__))
#if (__GNUC__ > 4) || (__GNUC__ == 4 && (__GNUC_MINOR__ >= 7))
#define GCC_HAS_AVX2 1
#endif // GNUC >= 4.7
#endif // __GNUC__
// clang >= 3.4.0 required for AVX2.
#if defined(__clang__) && (defined(__x86_64__) || defined(__i386__))
#if (__clang_major__ > 3) || (__clang_major__ == 3 && (__clang_minor__ >= 4))
#define CLANG_HAS_AVX2 1
#endif // clang >= 3.4
#endif // __clang__
// Visual C 2012 required for AVX2.
#if defined(_M_IX86) && !defined(__clang__) && \
defined(_MSC_VER) && _MSC_VER >= 1700
#define VISUALC_HAS_AVX2 1
#endif // VisualStudio >= 2012
// The following are available on all x86 platforms:
#if !defined(LIBYUV_DISABLE_X86) && \
(defined(_M_IX86) || defined(__x86_64__) || defined(__i386__))
#define HAS_FIXEDDIV1_X86
#define HAS_FIXEDDIV_X86
#define HAS_SCALEARGBCOLS_SSE2
#define HAS_SCALEARGBCOLSUP2_SSE2
#define HAS_SCALEARGBFILTERCOLS_SSSE3
#define HAS_SCALEARGBROWDOWN2_SSE2
#define HAS_SCALEARGBROWDOWNEVEN_SSE2
#define HAS_SCALECOLSUP2_SSE2
#define HAS_SCALEFILTERCOLS_SSSE3
#define HAS_SCALEROWDOWN2_SSSE3
#define HAS_SCALEROWDOWN34_SSSE3
#define HAS_SCALEROWDOWN38_SSSE3
#define HAS_SCALEROWDOWN4_SSSE3
#define HAS_SCALEADDROW_SSE2
#endif
// The following are available on all x86 platforms, but
// require VS2012, clang 3.4 or gcc 4.7.
// The code supports NaCL but requires a new compiler and validator.
#if !defined(LIBYUV_DISABLE_X86) && (defined(VISUALC_HAS_AVX2) || \
defined(CLANG_HAS_AVX2) || defined(GCC_HAS_AVX2))
#define HAS_SCALEADDROW_AVX2
#define HAS_SCALEROWDOWN2_AVX2
#define HAS_SCALEROWDOWN4_AVX2
#endif
// The following are available on Neon platforms:
#if !defined(LIBYUV_DISABLE_NEON) && !defined(__native_client__) && \
(defined(__ARM_NEON__) || defined(LIBYUV_NEON) || defined(__aarch64__))
#define HAS_SCALEARGBCOLS_NEON
#define HAS_SCALEARGBROWDOWN2_NEON
#define HAS_SCALEARGBROWDOWNEVEN_NEON
#define HAS_SCALEFILTERCOLS_NEON
#define HAS_SCALEROWDOWN2_NEON
#define HAS_SCALEROWDOWN34_NEON
#define HAS_SCALEROWDOWN38_NEON
#define HAS_SCALEROWDOWN4_NEON
#define HAS_SCALEARGBFILTERCOLS_NEON
#endif
// The following are available on Mips platforms:
#if !defined(LIBYUV_DISABLE_MIPS) && !defined(__native_client__) && \
defined(__mips__) && defined(__mips_dsp) && (__mips_dsp_rev >= 2)
#define HAS_SCALEROWDOWN2_DSPR2
#define HAS_SCALEROWDOWN4_DSPR2
#define HAS_SCALEROWDOWN34_DSPR2
#define HAS_SCALEROWDOWN38_DSPR2
#endif
// Scale ARGB vertically with bilinear interpolation.
void ScalePlaneVertical(int src_height,
int dst_width, int dst_height,
int src_stride, int dst_stride,
const uint8* src_argb, uint8* dst_argb,
int x, int y, int dy,
int bpp, enum FilterMode filtering);
void ScalePlaneVertical_16(int src_height,
int dst_width, int dst_height,
int src_stride, int dst_stride,
const uint16* src_argb, uint16* dst_argb,
int x, int y, int dy,
int wpp, enum FilterMode filtering);
// Simplify the filtering based on scale factors.
enum FilterMode ScaleFilterReduce(int src_width, int src_height,
int dst_width, int dst_height,
enum FilterMode filtering);
// Divide num by div and return as 16.16 fixed point result.
int FixedDiv_C(int num, int div);
int FixedDiv_X86(int num, int div);
// Divide num - 1 by div - 1 and return as 16.16 fixed point result.
int FixedDiv1_C(int num, int div);
int FixedDiv1_X86(int num, int div);
#ifdef HAS_FIXEDDIV_X86
#define FixedDiv FixedDiv_X86
#define FixedDiv1 FixedDiv1_X86
#else
#define FixedDiv FixedDiv_C
#define FixedDiv1 FixedDiv1_C
#endif
// Compute slope values for stepping.
void ScaleSlope(int src_width, int src_height,
int dst_width, int dst_height,
enum FilterMode filtering,
int* x, int* y, int* dx, int* dy);
void ScaleRowDown2_C(const uint8* src_ptr, ptrdiff_t src_stride,
uint8* dst, int dst_width);
void ScaleRowDown2_16_C(const uint16* src_ptr, ptrdiff_t src_stride,
uint16* dst, int dst_width);
void ScaleRowDown2Linear_C(const uint8* src_ptr, ptrdiff_t src_stride,
uint8* dst, int dst_width);
void ScaleRowDown2Linear_16_C(const uint16* src_ptr, ptrdiff_t src_stride,
uint16* dst, int dst_width);
void ScaleRowDown2Box_C(const uint8* src_ptr, ptrdiff_t src_stride,
uint8* dst, int dst_width);
void ScaleRowDown2Box_Odd_C(const uint8* src_ptr, ptrdiff_t src_stride,
uint8* dst, int dst_width);
void ScaleRowDown2Box_16_C(const uint16* src_ptr, ptrdiff_t src_stride,
uint16* dst, int dst_width);
void ScaleRowDown4_C(const uint8* src_ptr, ptrdiff_t src_stride,
uint8* dst, int dst_width);
void ScaleRowDown4_16_C(const uint16* src_ptr, ptrdiff_t src_stride,
uint16* dst, int dst_width);
void ScaleRowDown4Box_C(const uint8* src_ptr, ptrdiff_t src_stride,
uint8* dst, int dst_width);
void ScaleRowDown4Box_16_C(const uint16* src_ptr, ptrdiff_t src_stride,
uint16* dst, int dst_width);
void ScaleRowDown34_C(const uint8* src_ptr, ptrdiff_t src_stride,
uint8* dst, int dst_width);
void ScaleRowDown34_16_C(const uint16* src_ptr, ptrdiff_t src_stride,
uint16* dst, int dst_width);
void ScaleRowDown34_0_Box_C(const uint8* src_ptr, ptrdiff_t src_stride,
uint8* d, int dst_width);
void ScaleRowDown34_0_Box_16_C(const uint16* src_ptr, ptrdiff_t src_stride,
uint16* d, int dst_width);
void ScaleRowDown34_1_Box_C(const uint8* src_ptr, ptrdiff_t src_stride,
uint8* d, int dst_width);
void ScaleRowDown34_1_Box_16_C(const uint16* src_ptr, ptrdiff_t src_stride,
uint16* d, int dst_width);
void ScaleCols_C(uint8* dst_ptr, const uint8* src_ptr,
int dst_width, int x, int dx);
void ScaleCols_16_C(uint16* dst_ptr, const uint16* src_ptr,
int dst_width, int x, int dx);
void ScaleColsUp2_C(uint8* dst_ptr, const uint8* src_ptr,
int dst_width, int, int);
void ScaleColsUp2_16_C(uint16* dst_ptr, const uint16* src_ptr,
int dst_width, int, int);
void ScaleFilterCols_C(uint8* dst_ptr, const uint8* src_ptr,
int dst_width, int x, int dx);
void ScaleFilterCols_16_C(uint16* dst_ptr, const uint16* src_ptr,
int dst_width, int x, int dx);
void ScaleFilterCols64_C(uint8* dst_ptr, const uint8* src_ptr,
int dst_width, int x, int dx);
void ScaleFilterCols64_16_C(uint16* dst_ptr, const uint16* src_ptr,
int dst_width, int x, int dx);
void ScaleRowDown38_C(const uint8* src_ptr, ptrdiff_t src_stride,
uint8* dst, int dst_width);
void ScaleRowDown38_16_C(const uint16* src_ptr, ptrdiff_t src_stride,
uint16* dst, int dst_width);
void ScaleRowDown38_3_Box_C(const uint8* src_ptr,
ptrdiff_t src_stride,
uint8* dst_ptr, int dst_width);
void ScaleRowDown38_3_Box_16_C(const uint16* src_ptr,
ptrdiff_t src_stride,
uint16* dst_ptr, int dst_width);
void ScaleRowDown38_2_Box_C(const uint8* src_ptr, ptrdiff_t src_stride,
uint8* dst_ptr, int dst_width);
void ScaleRowDown38_2_Box_16_C(const uint16* src_ptr, ptrdiff_t src_stride,
uint16* dst_ptr, int dst_width);
void ScaleAddRow_C(const uint8* src_ptr, uint16* dst_ptr, int src_width);
void ScaleAddRow_16_C(const uint16* src_ptr, uint32* dst_ptr, int src_width);
void ScaleARGBRowDown2_C(const uint8* src_argb,
ptrdiff_t src_stride,
uint8* dst_argb, int dst_width);
void ScaleARGBRowDown2Linear_C(const uint8* src_argb,
ptrdiff_t src_stride,
uint8* dst_argb, int dst_width);
void ScaleARGBRowDown2Box_C(const uint8* src_argb, ptrdiff_t src_stride,
uint8* dst_argb, int dst_width);
void ScaleARGBRowDownEven_C(const uint8* src_argb, ptrdiff_t src_stride,
int src_stepx,
uint8* dst_argb, int dst_width);
void ScaleARGBRowDownEvenBox_C(const uint8* src_argb,
ptrdiff_t src_stride,
int src_stepx,
uint8* dst_argb, int dst_width);
void ScaleARGBCols_C(uint8* dst_argb, const uint8* src_argb,
int dst_width, int x, int dx);
void ScaleARGBCols64_C(uint8* dst_argb, const uint8* src_argb,
int dst_width, int x, int dx);
void ScaleARGBColsUp2_C(uint8* dst_argb, const uint8* src_argb,
int dst_width, int, int);
void ScaleARGBFilterCols_C(uint8* dst_argb, const uint8* src_argb,
int dst_width, int x, int dx);
void ScaleARGBFilterCols64_C(uint8* dst_argb, const uint8* src_argb,
int dst_width, int x, int dx);
// Specialized scalers for x86.
void ScaleRowDown2_SSSE3(const uint8* src_ptr, ptrdiff_t src_stride,
uint8* dst_ptr, int dst_width);
void ScaleRowDown2Linear_SSSE3(const uint8* src_ptr, ptrdiff_t src_stride,
uint8* dst_ptr, int dst_width);
void ScaleRowDown2Box_SSSE3(const uint8* src_ptr, ptrdiff_t src_stride,
uint8* dst_ptr, int dst_width);
void ScaleRowDown2_AVX2(const uint8* src_ptr, ptrdiff_t src_stride,
uint8* dst_ptr, int dst_width);
void ScaleRowDown2Linear_AVX2(const uint8* src_ptr, ptrdiff_t src_stride,
uint8* dst_ptr, int dst_width);
void ScaleRowDown2Box_AVX2(const uint8* src_ptr, ptrdiff_t src_stride,
uint8* dst_ptr, int dst_width);
void ScaleRowDown4_SSSE3(const uint8* src_ptr, ptrdiff_t src_stride,
uint8* dst_ptr, int dst_width);
void ScaleRowDown4Box_SSSE3(const uint8* src_ptr, ptrdiff_t src_stride,
uint8* dst_ptr, int dst_width);
void ScaleRowDown4_AVX2(const uint8* src_ptr, ptrdiff_t src_stride,
uint8* dst_ptr, int dst_width);
void ScaleRowDown4Box_AVX2(const uint8* src_ptr, ptrdiff_t src_stride,
uint8* dst_ptr, int dst_width);
void ScaleRowDown34_SSSE3(const uint8* src_ptr, ptrdiff_t src_stride,
uint8* dst_ptr, int dst_width);
void ScaleRowDown34_1_Box_SSSE3(const uint8* src_ptr,
ptrdiff_t src_stride,
uint8* dst_ptr, int dst_width);
void ScaleRowDown34_0_Box_SSSE3(const uint8* src_ptr,
ptrdiff_t src_stride,
uint8* dst_ptr, int dst_width);
void ScaleRowDown38_SSSE3(const uint8* src_ptr, ptrdiff_t src_stride,
uint8* dst_ptr, int dst_width);
void ScaleRowDown38_3_Box_SSSE3(const uint8* src_ptr,
ptrdiff_t src_stride,
uint8* dst_ptr, int dst_width);
void ScaleRowDown38_2_Box_SSSE3(const uint8* src_ptr,
ptrdiff_t src_stride,
uint8* dst_ptr, int dst_width);
void ScaleRowDown2_Any_SSSE3(const uint8* src_ptr, ptrdiff_t src_stride,
uint8* dst_ptr, int dst_width);
void ScaleRowDown2Linear_Any_SSSE3(const uint8* src_ptr, ptrdiff_t src_stride,
uint8* dst_ptr, int dst_width);
void ScaleRowDown2Box_Any_SSSE3(const uint8* src_ptr, ptrdiff_t src_stride,
uint8* dst_ptr, int dst_width);
void ScaleRowDown2Box_Odd_SSSE3(const uint8* src_ptr, ptrdiff_t src_stride,
uint8* dst_ptr, int dst_width);
void ScaleRowDown2_Any_AVX2(const uint8* src_ptr, ptrdiff_t src_stride,
uint8* dst_ptr, int dst_width);
void ScaleRowDown2Linear_Any_AVX2(const uint8* src_ptr, ptrdiff_t src_stride,
uint8* dst_ptr, int dst_width);
void ScaleRowDown2Box_Any_AVX2(const uint8* src_ptr, ptrdiff_t src_stride,
uint8* dst_ptr, int dst_width);
void ScaleRowDown2Box_Odd_AVX2(const uint8* src_ptr, ptrdiff_t src_stride,
uint8* dst_ptr, int dst_width);
void ScaleRowDown4_Any_SSSE3(const uint8* src_ptr, ptrdiff_t src_stride,
uint8* dst_ptr, int dst_width);
void ScaleRowDown4Box_Any_SSSE3(const uint8* src_ptr, ptrdiff_t src_stride,
uint8* dst_ptr, int dst_width);
void ScaleRowDown4_Any_AVX2(const uint8* src_ptr, ptrdiff_t src_stride,
uint8* dst_ptr, int dst_width);
void ScaleRowDown4Box_Any_AVX2(const uint8* src_ptr, ptrdiff_t src_stride,
uint8* dst_ptr, int dst_width);
void ScaleRowDown34_Any_SSSE3(const uint8* src_ptr, ptrdiff_t src_stride,
uint8* dst_ptr, int dst_width);
void ScaleRowDown34_1_Box_Any_SSSE3(const uint8* src_ptr,
ptrdiff_t src_stride,
uint8* dst_ptr, int dst_width);
void ScaleRowDown34_0_Box_Any_SSSE3(const uint8* src_ptr,
ptrdiff_t src_stride,
uint8* dst_ptr, int dst_width);
void ScaleRowDown38_Any_SSSE3(const uint8* src_ptr, ptrdiff_t src_stride,
uint8* dst_ptr, int dst_width);
void ScaleRowDown38_3_Box_Any_SSSE3(const uint8* src_ptr,
ptrdiff_t src_stride,
uint8* dst_ptr, int dst_width);
void ScaleRowDown38_2_Box_Any_SSSE3(const uint8* src_ptr,
ptrdiff_t src_stride,
uint8* dst_ptr, int dst_width);
void ScaleAddRow_SSE2(const uint8* src_ptr, uint16* dst_ptr, int src_width);
void ScaleAddRow_AVX2(const uint8* src_ptr, uint16* dst_ptr, int src_width);
void ScaleAddRow_Any_SSE2(const uint8* src_ptr, uint16* dst_ptr, int src_width);
void ScaleAddRow_Any_AVX2(const uint8* src_ptr, uint16* dst_ptr, int src_width);
void ScaleFilterCols_SSSE3(uint8* dst_ptr, const uint8* src_ptr,
int dst_width, int x, int dx);
void ScaleColsUp2_SSE2(uint8* dst_ptr, const uint8* src_ptr,
int dst_width, int x, int dx);
// ARGB Column functions
void ScaleARGBCols_SSE2(uint8* dst_argb, const uint8* src_argb,
int dst_width, int x, int dx);
void ScaleARGBFilterCols_SSSE3(uint8* dst_argb, const uint8* src_argb,
int dst_width, int x, int dx);
void ScaleARGBColsUp2_SSE2(uint8* dst_argb, const uint8* src_argb,
int dst_width, int x, int dx);
void ScaleARGBFilterCols_NEON(uint8* dst_argb, const uint8* src_argb,
int dst_width, int x, int dx);
void ScaleARGBCols_NEON(uint8* dst_argb, const uint8* src_argb,
int dst_width, int x, int dx);
void ScaleARGBFilterCols_Any_NEON(uint8* dst_argb, const uint8* src_argb,
int dst_width, int x, int dx);
void ScaleARGBCols_Any_NEON(uint8* dst_argb, const uint8* src_argb,
int dst_width, int x, int dx);
// ARGB Row functions
void ScaleARGBRowDown2_SSE2(const uint8* src_argb, ptrdiff_t src_stride,
uint8* dst_argb, int dst_width);
void ScaleARGBRowDown2Linear_SSE2(const uint8* src_argb, ptrdiff_t src_stride,
uint8* dst_argb, int dst_width);
void ScaleARGBRowDown2Box_SSE2(const uint8* src_argb, ptrdiff_t src_stride,
uint8* dst_argb, int dst_width);
void ScaleARGBRowDown2_NEON(const uint8* src_ptr, ptrdiff_t src_stride,
uint8* dst, int dst_width);
void ScaleARGBRowDown2Linear_NEON(const uint8* src_argb, ptrdiff_t src_stride,
uint8* dst_argb, int dst_width);
void ScaleARGBRowDown2Box_NEON(const uint8* src_ptr, ptrdiff_t src_stride,
uint8* dst, int dst_width);
void ScaleARGBRowDown2_Any_SSE2(const uint8* src_argb, ptrdiff_t src_stride,
uint8* dst_argb, int dst_width);
void ScaleARGBRowDown2Linear_Any_SSE2(const uint8* src_argb,
ptrdiff_t src_stride,
uint8* dst_argb, int dst_width);
void ScaleARGBRowDown2Box_Any_SSE2(const uint8* src_argb, ptrdiff_t src_stride,
uint8* dst_argb, int dst_width);
void ScaleARGBRowDown2_Any_NEON(const uint8* src_ptr, ptrdiff_t src_stride,
uint8* dst, int dst_width);
void ScaleARGBRowDown2Linear_Any_NEON(const uint8* src_argb,
ptrdiff_t src_stride,
uint8* dst_argb, int dst_width);
void ScaleARGBRowDown2Box_Any_NEON(const uint8* src_ptr, ptrdiff_t src_stride,
uint8* dst, int dst_width);
void ScaleARGBRowDownEven_SSE2(const uint8* src_argb, ptrdiff_t src_stride,
int src_stepx, uint8* dst_argb, int dst_width);
void ScaleARGBRowDownEvenBox_SSE2(const uint8* src_argb, ptrdiff_t src_stride,
int src_stepx,
uint8* dst_argb, int dst_width);
void ScaleARGBRowDownEven_NEON(const uint8* src_argb, ptrdiff_t src_stride,
int src_stepx,
uint8* dst_argb, int dst_width);
void ScaleARGBRowDownEvenBox_NEON(const uint8* src_argb, ptrdiff_t src_stride,
int src_stepx,
uint8* dst_argb, int dst_width);
void ScaleARGBRowDownEven_Any_SSE2(const uint8* src_argb, ptrdiff_t src_stride,
int src_stepx,
uint8* dst_argb, int dst_width);
void ScaleARGBRowDownEvenBox_Any_SSE2(const uint8* src_argb,
ptrdiff_t src_stride,
int src_stepx,
uint8* dst_argb, int dst_width);
void ScaleARGBRowDownEven_Any_NEON(const uint8* src_argb, ptrdiff_t src_stride,
int src_stepx,
uint8* dst_argb, int dst_width);
void ScaleARGBRowDownEvenBox_Any_NEON(const uint8* src_argb,
ptrdiff_t src_stride,
int src_stepx,
uint8* dst_argb, int dst_width);
// ScaleRowDown2Box also used by planar functions
// NEON downscalers with interpolation.
// Note - not static due to reuse in convert for 444 to 420.
void ScaleRowDown2_NEON(const uint8* src_ptr, ptrdiff_t src_stride,
uint8* dst, int dst_width);
void ScaleRowDown2Linear_NEON(const uint8* src_ptr, ptrdiff_t src_stride,
uint8* dst, int dst_width);
void ScaleRowDown2Box_NEON(const uint8* src_ptr, ptrdiff_t src_stride,
uint8* dst, int dst_width);
void ScaleRowDown4_NEON(const uint8* src_ptr, ptrdiff_t src_stride,
uint8* dst_ptr, int dst_width);
void ScaleRowDown4Box_NEON(const uint8* src_ptr, ptrdiff_t src_stride,
uint8* dst_ptr, int dst_width);
// Down scale from 4 to 3 pixels. Use the neon multilane read/write
// to load up the every 4th pixel into a 4 different registers.
// Point samples 32 pixels to 24 pixels.
void ScaleRowDown34_NEON(const uint8* src_ptr,
ptrdiff_t src_stride,
uint8* dst_ptr, int dst_width);
void ScaleRowDown34_0_Box_NEON(const uint8* src_ptr,
ptrdiff_t src_stride,
uint8* dst_ptr, int dst_width);
void ScaleRowDown34_1_Box_NEON(const uint8* src_ptr,
ptrdiff_t src_stride,
uint8* dst_ptr, int dst_width);
// 32 -> 12
void ScaleRowDown38_NEON(const uint8* src_ptr,
ptrdiff_t src_stride,
uint8* dst_ptr, int dst_width);
// 32x3 -> 12x1
void ScaleRowDown38_3_Box_NEON(const uint8* src_ptr,
ptrdiff_t src_stride,
uint8* dst_ptr, int dst_width);
// 32x2 -> 12x1
void ScaleRowDown38_2_Box_NEON(const uint8* src_ptr,
ptrdiff_t src_stride,
uint8* dst_ptr, int dst_width);
void ScaleRowDown2_Any_NEON(const uint8* src_ptr, ptrdiff_t src_stride,
uint8* dst, int dst_width);
void ScaleRowDown2Linear_Any_NEON(const uint8* src_ptr, ptrdiff_t src_stride,
uint8* dst, int dst_width);
void ScaleRowDown2Box_Any_NEON(const uint8* src_ptr, ptrdiff_t src_stride,
uint8* dst, int dst_width);
void ScaleRowDown2Box_Odd_NEON(const uint8* src_ptr, ptrdiff_t src_stride,
uint8* dst, int dst_width);
void ScaleRowDown4_Any_NEON(const uint8* src_ptr, ptrdiff_t src_stride,
uint8* dst_ptr, int dst_width);
void ScaleRowDown4Box_Any_NEON(const uint8* src_ptr, ptrdiff_t src_stride,
uint8* dst_ptr, int dst_width);
void ScaleRowDown34_Any_NEON(const uint8* src_ptr, ptrdiff_t src_stride,
uint8* dst_ptr, int dst_width);
void ScaleRowDown34_0_Box_Any_NEON(const uint8* src_ptr, ptrdiff_t src_stride,
uint8* dst_ptr, int dst_width);
void ScaleRowDown34_1_Box_Any_NEON(const uint8* src_ptr, ptrdiff_t src_stride,
uint8* dst_ptr, int dst_width);
// 32 -> 12
void ScaleRowDown38_Any_NEON(const uint8* src_ptr, ptrdiff_t src_stride,
uint8* dst_ptr, int dst_width);
// 32x3 -> 12x1
void ScaleRowDown38_3_Box_Any_NEON(const uint8* src_ptr, ptrdiff_t src_stride,
uint8* dst_ptr, int dst_width);
// 32x2 -> 12x1
void ScaleRowDown38_2_Box_Any_NEON(const uint8* src_ptr, ptrdiff_t src_stride,
uint8* dst_ptr, int dst_width);
void ScaleAddRow_NEON(const uint8* src_ptr, uint16* dst_ptr, int src_width);
void ScaleAddRow_Any_NEON(const uint8* src_ptr, uint16* dst_ptr, int src_width);
void ScaleFilterCols_NEON(uint8* dst_ptr, const uint8* src_ptr,
int dst_width, int x, int dx);
void ScaleFilterCols_Any_NEON(uint8* dst_ptr, const uint8* src_ptr,
int dst_width, int x, int dx);
void ScaleRowDown2_DSPR2(const uint8* src_ptr, ptrdiff_t src_stride,
uint8* dst, int dst_width);
void ScaleRowDown2Box_DSPR2(const uint8* src_ptr, ptrdiff_t src_stride,
uint8* dst, int dst_width);
void ScaleRowDown4_DSPR2(const uint8* src_ptr, ptrdiff_t src_stride,
uint8* dst, int dst_width);
void ScaleRowDown4Box_DSPR2(const uint8* src_ptr, ptrdiff_t src_stride,
uint8* dst, int dst_width);
void ScaleRowDown34_DSPR2(const uint8* src_ptr, ptrdiff_t src_stride,
uint8* dst, int dst_width);
void ScaleRowDown34_0_Box_DSPR2(const uint8* src_ptr, ptrdiff_t src_stride,
uint8* d, int dst_width);
void ScaleRowDown34_1_Box_DSPR2(const uint8* src_ptr, ptrdiff_t src_stride,
uint8* d, int dst_width);
void ScaleRowDown38_DSPR2(const uint8* src_ptr, ptrdiff_t src_stride,
uint8* dst, int dst_width);
void ScaleRowDown38_2_Box_DSPR2(const uint8* src_ptr, ptrdiff_t src_stride,
uint8* dst_ptr, int dst_width);
void ScaleRowDown38_3_Box_DSPR2(const uint8* src_ptr, ptrdiff_t src_stride,
uint8* dst_ptr, int dst_width);
#ifdef __cplusplus
} // extern "C"
} // namespace libyuv
#endif
#endif // INCLUDE_LIBYUV_SCALE_ROW_H_

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/*
* Copyright 2012 The LibYuv Project Authors. All rights reserved.
*
* Use of this source code is governed by a BSD-style license
* that can be found in the LICENSE file in the root of the source
* tree. An additional intellectual property rights grant can be found
* in the file PATENTS. All contributing project authors may
* be found in the AUTHORS file in the root of the source tree.
*/
#ifndef INCLUDE_LIBYUV_VERSION_H_
#define INCLUDE_LIBYUV_VERSION_H_
#define LIBYUV_VERSION 1622
#endif // INCLUDE_LIBYUV_VERSION_H_

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/*
* Copyright 2011 The LibYuv Project Authors. All rights reserved.
*
* Use of this source code is governed by a BSD-style license
* that can be found in the LICENSE file in the root of the source
* tree. An additional intellectual property rights grant can be found
* in the file PATENTS. All contributing project authors may
* be found in the AUTHORS file in the root of the source tree.
*/
// Common definitions for video, including fourcc and VideoFormat.
#ifndef INCLUDE_LIBYUV_VIDEO_COMMON_H_
#define INCLUDE_LIBYUV_VIDEO_COMMON_H_
#include "libyuv/basic_types.h"
#ifdef __cplusplus
namespace libyuv {
extern "C" {
#endif
//////////////////////////////////////////////////////////////////////////////
// Definition of FourCC codes
//////////////////////////////////////////////////////////////////////////////
// Convert four characters to a FourCC code.
// Needs to be a macro otherwise the OS X compiler complains when the kFormat*
// constants are used in a switch.
#ifdef __cplusplus
#define FOURCC(a, b, c, d) ( \
(static_cast<uint32>(a)) | (static_cast<uint32>(b) << 8) | \
(static_cast<uint32>(c) << 16) | (static_cast<uint32>(d) << 24))
#else
#define FOURCC(a, b, c, d) ( \
((uint32)(a)) | ((uint32)(b) << 8) | /* NOLINT */ \
((uint32)(c) << 16) | ((uint32)(d) << 24)) /* NOLINT */
#endif
// Some pages discussing FourCC codes:
// http://www.fourcc.org/yuv.php
// http://v4l2spec.bytesex.org/spec/book1.htm
// http://developer.apple.com/quicktime/icefloe/dispatch020.html
// http://msdn.microsoft.com/library/windows/desktop/dd206750.aspx#nv12
// http://people.xiph.org/~xiphmont/containers/nut/nut4cc.txt
// FourCC codes grouped according to implementation efficiency.
// Primary formats should convert in 1 efficient step.
// Secondary formats are converted in 2 steps.
// Auxilliary formats call primary converters.
enum FourCC {
// 9 Primary YUV formats: 5 planar, 2 biplanar, 2 packed.
FOURCC_I420 = FOURCC('I', '4', '2', '0'),
FOURCC_I422 = FOURCC('I', '4', '2', '2'),
FOURCC_I444 = FOURCC('I', '4', '4', '4'),
FOURCC_I411 = FOURCC('I', '4', '1', '1'),
FOURCC_I400 = FOURCC('I', '4', '0', '0'),
FOURCC_NV21 = FOURCC('N', 'V', '2', '1'),
FOURCC_NV12 = FOURCC('N', 'V', '1', '2'),
FOURCC_YUY2 = FOURCC('Y', 'U', 'Y', '2'),
FOURCC_UYVY = FOURCC('U', 'Y', 'V', 'Y'),
// 2 Secondary YUV formats: row biplanar.
FOURCC_M420 = FOURCC('M', '4', '2', '0'),
FOURCC_Q420 = FOURCC('Q', '4', '2', '0'), // deprecated.
// 9 Primary RGB formats: 4 32 bpp, 2 24 bpp, 3 16 bpp.
FOURCC_ARGB = FOURCC('A', 'R', 'G', 'B'),
FOURCC_BGRA = FOURCC('B', 'G', 'R', 'A'),
FOURCC_ABGR = FOURCC('A', 'B', 'G', 'R'),
FOURCC_24BG = FOURCC('2', '4', 'B', 'G'),
FOURCC_RAW = FOURCC('r', 'a', 'w', ' '),
FOURCC_RGBA = FOURCC('R', 'G', 'B', 'A'),
FOURCC_RGBP = FOURCC('R', 'G', 'B', 'P'), // rgb565 LE.
FOURCC_RGBO = FOURCC('R', 'G', 'B', 'O'), // argb1555 LE.
FOURCC_R444 = FOURCC('R', '4', '4', '4'), // argb4444 LE.
// 4 Secondary RGB formats: 4 Bayer Patterns. deprecated.
FOURCC_RGGB = FOURCC('R', 'G', 'G', 'B'),
FOURCC_BGGR = FOURCC('B', 'G', 'G', 'R'),
FOURCC_GRBG = FOURCC('G', 'R', 'B', 'G'),
FOURCC_GBRG = FOURCC('G', 'B', 'R', 'G'),
// 1 Primary Compressed YUV format.
FOURCC_MJPG = FOURCC('M', 'J', 'P', 'G'),
// 5 Auxiliary YUV variations: 3 with U and V planes are swapped, 1 Alias.
FOURCC_YV12 = FOURCC('Y', 'V', '1', '2'),
FOURCC_YV16 = FOURCC('Y', 'V', '1', '6'),
FOURCC_YV24 = FOURCC('Y', 'V', '2', '4'),
FOURCC_YU12 = FOURCC('Y', 'U', '1', '2'), // Linux version of I420.
FOURCC_J420 = FOURCC('J', '4', '2', '0'),
FOURCC_J400 = FOURCC('J', '4', '0', '0'), // unofficial fourcc
FOURCC_H420 = FOURCC('H', '4', '2', '0'), // unofficial fourcc
// 14 Auxiliary aliases. CanonicalFourCC() maps these to canonical fourcc.
FOURCC_IYUV = FOURCC('I', 'Y', 'U', 'V'), // Alias for I420.
FOURCC_YU16 = FOURCC('Y', 'U', '1', '6'), // Alias for I422.
FOURCC_YU24 = FOURCC('Y', 'U', '2', '4'), // Alias for I444.
FOURCC_YUYV = FOURCC('Y', 'U', 'Y', 'V'), // Alias for YUY2.
FOURCC_YUVS = FOURCC('y', 'u', 'v', 's'), // Alias for YUY2 on Mac.
FOURCC_HDYC = FOURCC('H', 'D', 'Y', 'C'), // Alias for UYVY.
FOURCC_2VUY = FOURCC('2', 'v', 'u', 'y'), // Alias for UYVY on Mac.
FOURCC_JPEG = FOURCC('J', 'P', 'E', 'G'), // Alias for MJPG.
FOURCC_DMB1 = FOURCC('d', 'm', 'b', '1'), // Alias for MJPG on Mac.
FOURCC_BA81 = FOURCC('B', 'A', '8', '1'), // Alias for BGGR.
FOURCC_RGB3 = FOURCC('R', 'G', 'B', '3'), // Alias for RAW.
FOURCC_BGR3 = FOURCC('B', 'G', 'R', '3'), // Alias for 24BG.
FOURCC_CM32 = FOURCC(0, 0, 0, 32), // Alias for BGRA kCMPixelFormat_32ARGB
FOURCC_CM24 = FOURCC(0, 0, 0, 24), // Alias for RAW kCMPixelFormat_24RGB
FOURCC_L555 = FOURCC('L', '5', '5', '5'), // Alias for RGBO.
FOURCC_L565 = FOURCC('L', '5', '6', '5'), // Alias for RGBP.
FOURCC_5551 = FOURCC('5', '5', '5', '1'), // Alias for RGBO.
// 1 Auxiliary compressed YUV format set aside for capturer.
FOURCC_H264 = FOURCC('H', '2', '6', '4'),
// Match any fourcc.
FOURCC_ANY = -1,
};
enum FourCCBpp {
// Canonical fourcc codes used in our code.
FOURCC_BPP_I420 = 12,
FOURCC_BPP_I422 = 16,
FOURCC_BPP_I444 = 24,
FOURCC_BPP_I411 = 12,
FOURCC_BPP_I400 = 8,
FOURCC_BPP_NV21 = 12,
FOURCC_BPP_NV12 = 12,
FOURCC_BPP_YUY2 = 16,
FOURCC_BPP_UYVY = 16,
FOURCC_BPP_M420 = 12,
FOURCC_BPP_Q420 = 12,
FOURCC_BPP_ARGB = 32,
FOURCC_BPP_BGRA = 32,
FOURCC_BPP_ABGR = 32,
FOURCC_BPP_RGBA = 32,
FOURCC_BPP_24BG = 24,
FOURCC_BPP_RAW = 24,
FOURCC_BPP_RGBP = 16,
FOURCC_BPP_RGBO = 16,
FOURCC_BPP_R444 = 16,
FOURCC_BPP_RGGB = 8,
FOURCC_BPP_BGGR = 8,
FOURCC_BPP_GRBG = 8,
FOURCC_BPP_GBRG = 8,
FOURCC_BPP_YV12 = 12,
FOURCC_BPP_YV16 = 16,
FOURCC_BPP_YV24 = 24,
FOURCC_BPP_YU12 = 12,
FOURCC_BPP_J420 = 12,
FOURCC_BPP_J400 = 8,
FOURCC_BPP_H420 = 12,
FOURCC_BPP_MJPG = 0, // 0 means unknown.
FOURCC_BPP_H264 = 0,
FOURCC_BPP_IYUV = 12,
FOURCC_BPP_YU16 = 16,
FOURCC_BPP_YU24 = 24,
FOURCC_BPP_YUYV = 16,
FOURCC_BPP_YUVS = 16,
FOURCC_BPP_HDYC = 16,
FOURCC_BPP_2VUY = 16,
FOURCC_BPP_JPEG = 1,
FOURCC_BPP_DMB1 = 1,
FOURCC_BPP_BA81 = 8,
FOURCC_BPP_RGB3 = 24,
FOURCC_BPP_BGR3 = 24,
FOURCC_BPP_CM32 = 32,
FOURCC_BPP_CM24 = 24,
// Match any fourcc.
FOURCC_BPP_ANY = 0, // 0 means unknown.
};
// Converts fourcc aliases into canonical ones.
LIBYUV_API uint32 CanonicalFourCC(uint32 fourcc);
#ifdef __cplusplus
} // extern "C"
} // namespace libyuv
#endif
#endif // INCLUDE_LIBYUV_VIDEO_COMMON_H_

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