4861824e7d044fd9650771f0ed373785c1a6ebdf
3 Commits
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5eb930e71d |
feat(pyrowave): negotiation plumbing for 4:4:4 + HDR — thread chroma/depth/ColorInfo end to end
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Phase 1 of design/pyrowave-444-hdr.md. No behavior change yet: the handshake's
4:4:4 gate now admits PyroWave (probe = can_encode_444(codec), capture gate
inherently satisfied — the wavelet path always ingests an RGB source and does
its own CSC), but can_encode_444 stays false for PyroWave until the per-OS
full-res-chroma CSC variants land (Phase 2 Linux, Phase 3 Windows), so every
session still resolves 4:2:0/8-bit.
- Both host encoders take the negotiated ChromaFormat (bail on 444 for now);
the PUNKTFUNK_ENCODER=pyrowave lab override pins 4:2:0.
- Bitrate: the automatic ~1.6 bpp pin resolves AFTER depth+chroma and scales
x1.625 for 4:4:4 / x1.15 for 10-bit (factors from the Phase-0 fixture
matrix); the mid-stream mode-switch re-resolve threads the session's values.
- Client: PyroWaveDecoder builds its plane ring (full-res chroma when 444) and
creates the upstream decoder from the negotiated chroma, keeps chroma fixed
across mid-stream resizes, drops the even-dims requirement for 444, and
returns the negotiated Welcome ColorInfo as the frame colour contract
instead of hardcoded BT.709 (the wavelet bitstream has no VUI).
Verified on .21 (RTX 5070 Ti): clippy -D warnings (host+client+encode), host
186 tests, client + pf-encode tests, fmt, and the pyrowave_smoke GPU
round-trip through the patched vendored lib (
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574e3e4e3f |
fix(pyrowave): signal ycbcr_range=LIMITED in the sequence header
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pyrowave's encoder fills the BitstreamSequenceHeader with `= {}` and its C API
offers no way to set colour/range, so it signals ycbcr_range=0=FULL — but both
host CSCs (rgb2yuv.comp on Linux, BgraToYuvPlanes on Windows) always emit BT.709
LIMITED Y'CbCr (black = Y'16). A client that honours the VUI (the Apple wavelet
decoder reads bit 30 of word1) then skips the limited→full expansion and shows
washed-out, raised blacks — reported on both Linux and Windows hosts.
Patch the range bit HONEST (mark_limited_range in the shared pyrowave_wire, called
by both encoders after packetize). Clients that hardcode limited (the Vulkan
video_pyrowave path) are unaffected, and pyrowave's own decode ignores the flag
(raw Y'CbCr reconstruction). No client rebuild needed. Unit-tested + asserted in
pyrowave_win_smoke; the smoke decode still round-trips 100/180/60.
Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com>
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ebd9967547 |
feat(pyrowave): Windows host encoder — separate-plane zero-copy D3D11→Vulkan
Wire PyroWave into the Windows host (design/pyrowave-windows-host-zerocopy.md). Before this a macOS client + Windows host that both selected PyroWave silently ran HEVC: the host never advertised CODEC_PYROWAVE and open_video_backend bailed. Approach (zero-copy, no GPU→CPU→GPU): pyrowave owns its own Vulkan device (create_device_by_compat, by render-GPU vendor/device-id — NOT LUID, invalid in Session 0). The capturer runs a BGRA→YUV BT.709-limited CSC (matching rgb2yuv.comp) into TWO SEPARATE shareable plane textures — full-res R8 Y + half-res R8G8 CbCr — which the encoder imports into pyrowave's device. Separate single/two-component textures import reliably on NVIDIA at any size; a single planar NV12 import does NOT (the vendored interop test: "only very specific resource sizes" — confirmed on-glass: 1024² fine, 720p/1080p/1440p garbage). A shared D3D11 fence, signalled after the CSC, is imported as a Vulkan timeline semaphore so the wavelet read is ordered after it. - pf-encode: enc/windows/pyrowave.rs (Encoder impl, two-plane import + Linux-style plane views); host_wire_caps advertises CODEC_PYROWAVE on Windows when the backend isn't Software; open_video_backend routes a negotiated PyroWave session first; pyrowave-sys on the Windows target; interop confirmed at open → clean HEVC fallback. - pf-encode: shared, unit-tested enc/pyrowave_wire.rs (single source of truth for the client-facing AU framing); Linux encoder uses it too. - pf-capture: dxgi.rs BgraToYuvPlanes CSC; idd_push.rs pyrowave mode — forces the virtual display SDR (the VideoProcessor can't ingest the FP16 HDR ring), a two-plane shareable out-ring, a shared fence passed every frame (so a rebuilt encoder re-imports it). Threaded via OutputFormat::pyrowave. - pf-frame: D3d11Frame::pyro carries the CbCr plane + fence; OutputFormat::pyrowave. Verified on .173 (RTX 4090): full-host build + clippy -D warnings (nvenc,amf-qsv) + fmt --all --check; pyrowave_wire unit tests; pyrowave_win_smoke GPU test round-trips distinct Y/Cb/Cr (100/180/60) exactly at 1024²/720p/1080p/1440p; Stage-0 interop validated in the real Session-0 service context on-glass. Deployed to the box. Owed: final on-glass picture/latency confirmation. Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com> |