Library for GPU-accelerated video/image rendering primitives
This library contains GPU-accelerated video/image rendering primitives, as well as a standalone vulkan-based image/video renderer. It is based on the core rendering algorithms and ideas of mpv.
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Source Files
Filename | Size | Changed |
---|---|---|
libplacebo-v3.120.1.tar.bz2 | 0000431616 422 KB | |
libplacebo.changes | 0000052413 51.2 KB | |
libplacebo.spec | 0000003498 3.42 KB | |
nuklear.h | 0001142003 1.09 MB |
Revision 14 (latest revision is 32)
Richard Brown (RBrownSUSE)
accepted
request 883169
from
Niklas Haas (haasn)
(revision 14)
- Update libplacebo to version 3.120.1: This hotfix release fixes a number of minor issues with the v3.120.0 release, and also modularizes the included demo programs to cut down on the number of compiled binaries. Changes: - hexadecimal strings in custom shaders may now include whitespace - added 16-bit half float formats to the dummy pl_gpu - significantly reduced verbosity of the included demo programs - merged all of the demo program variants into a single binary that picks the best windowing system / graphical API at runtime - install `plplay` when demos are enabled Fixes and performance improvements: - fixed an integer overflow in a texture bounds check - fixed a false positive error in the test framework on 32-bit platforms - fixed some minor issues with various outdated comments - fixed a potential use-after-free in the `plplay` demo program when playing files containing embedded ICC profiles - Update libplacebo to version 3.120.0. (Upstream changelog appended) - Create a new package `plplay` for the included demo program. This requires bundling a copy of `nuklear.h`, which is single-header library not included as part of the libplacebo source distribution. This is a feature release, introducing frame mixing, DRM format modifiers, and support for custom LUTs -, while also greatly expanding the available demo programs, in particular the `plplay` video player. The main highlight is the new `pl_queue` abstraction living in <libplacebo/utils/frame_queue.h>. This greatly simplifies the core of a libplacebo-based video renderer by translating a stream of input frames into an array of GPU-mapped textures suitable for frame mixing, given a corresponding vsync timestamp. New frames can be delivered to this API using a push or pull model, and they are lazily uploaded on an as-needed basis as well as internally garbage collected when no longer needed. This abstraction also contains all needed machinery for estimating source/display framerates by comparing and averaging timestamps, freeing users from the burden of having to accurately determine this information a priori. Also worth mentioning is the addition of support for custom LUTs, currently only in Adobe's .cube format. They can be applied flexibly at a number of locations in the video processing pipeline, including as a replacement for YUV<->RGB conversion or tone/gamut mapping, and fed with either normalized linear light or native-gamma values. Among the included demo programs, the `plplay` example video player has been greatly expanded - adding support for a settings GUI (based on nuklear), frame timing and mixing, custom shaders, and more. This example video player now serves as a convenient platform to demonstrate all of libplacebo's advanced rendering features. Finally, all of libplacebo now contains only code written entirely from scratch (rather than deriving from mpv), opening up the possibility to explore different licenses besides the current LGPLv2.1+. In particular, permissive (MIT/BSD-style) licenses are being considered. Additions: - add asynchronous GPU callbacks, specifically to `pl_tex_transfer`, allowing for non-blocking host memory transfer operations - add `pl_shared_mem.stride_w/h` to control dmabuf pitch - add `pl_render_image_mix` to blend multiple frames into a single output image, given relative timestamp information - add the `pl_filter_mitchell_clamp` filter preset - add `pl_render_params.preserve_mixing_cache` to speed up redraws after renderer size changes when frame mixing is active - add <libplacebo/utils/dav1d.h> to help with Dav1dPicture mapping - implement `PL_HANDLE_HOST_PTR` for the OpenGL backend - implement drm format modifiers for vulkan - add a new field `pl_fmt.modifiers` for DRM format modifier negotiation - add new header <libplacebo/shaders/lut.h> to load custom LUTs (currently only supporting the .cube format) - add `index_data/buf` to `pl_pass_run_params`, adding support for indexed vertex data when dispatching shader passes - add `pl_dispatch_vertex` to allow dispatching fragment shaders using a list of custom vertices with custom vertex attributes - add `pl_frame_recreate_from_avframe` and `pl_download_avframe` to help downloading GPU textures back into AVFrame form - add a new header <libplacebo/utils/frame_queue.h> to assist in taking a stream of (Frame, PTS) pairs as well as a list of VSync times and turning them into a stream of `pl_frame_mix` structs - add `pl_white_from_temp` and `pl_color_adjustment.temperature` to apply white point adjustments between correlated color temperatures (K) - add `pl_filter_preset.description` containing a longer, human-readable name for a given filter preset Changes: - `pl_3dlut_params` has been renamed `pl_icc_params` - `pl_render_params.force_3dlut` has been renamed `force_icc_lut` - `pl_3dlut_update/apply` have been renamed to `pl_icc_update/apply` and moved to a (conditionally installed) new header <libplacebo/shaders/icc.h> - `pl_upload_plane` no longer initializes `out_plane->shift_x/y` to 0, instead leaving them unmodified (to avoid clobbering existing shift data) - `pl_filter_box` has been renamed to `pl_filter_nearest` - `pl_filter_triangle` has been renamed to `pl_filter_bilinear` - `pl_render_params.frame_mixer = NULL` now disables frame mixing - to get back the old behaviour, set this to `&pl_oversample_frame_mixer`. - `pl_color_map_params.gamut_warning` now highlights out-of-gamut colors in bright pink, rather than the old (ill-defined) inversion behaviour - `pl_named_filter_config` has been renamed to `pl_filter_preset` - `pl_find_named_filter` has been renamed to `pl_find_filter_preset` - ditto for `pl_named_filter_function` and `pl_filter_function_preset` Fixes and performance improvements: - fix buffer overflow in custom shader STORAGE blocks - fix include path for glslang >= 11.0.0 - actually enable shader subgroup operations for HDR peak detection - fix locale dependence of shader parsing primitives - fix AVCOL_SPC_SMPTE170M mapping - fix wrong color space selection in `pl_vulkan_create_swapchain` - work-around low UBO size limits on some platforms - fix compilation issues on C++ due to the use of reserved identifiers - fix `pl_get_detected_peak` on platforms without host-visible SSBOs - fix edge case in vulkan texture handle capabilities check - fix suboptimal mutex destruction code - skip peak detection when outputting to HDR displays - fix edge cases in shader LUT type selection logic - avoid redundant scaling passes when scaling anamorphic content - merge similar planes before dispatching heavy shaders (e.g. debanding, hooks) - avoid scaling passes for certain small fractional scaling steps - entirely avoid processing unneeded components when dispatching scalers - avoid using more components than necessary for intermediate FBOs - fix out-of-bounds read for small non-cropped emulated textures - avoid thrashing the shader cache when reinitializing OpenGL FBOs - fix incorrect include in <libplacebo/opengl.h> - fix vk.xml priority issue on windows - fix undefined behaviour / GPU hangs in HDR peak detection shader - fix incorrect forwarding of DRM modifiers to the OpenGL backend - fix crash on AV_PIX_FMT_FLAG_BAYER - fix various compilation issues on certain platforms - fix obscure edge-case in floating point printing routine - `pl_render_params.force_icc_lut` now excludes no-op cases - fix handling of custom shader COMPUTE blocks - correctly apply hue and saturation controls for non-YCbCr color spaces
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