raylib-devel-5.0-1.1 RPM for s390x

From OpenSuSE Ports Tumbleweed for s390x

Development files and headers for raylib.

Provides

• raylib-devel
• cmake(raylib)
• pkgconfig(raylib)
• raylib-devel(s390-64)

Requires

• /usr/bin/pkg-config
• libraylib450 = 5.0
• openal-soft-devel
• rpmlib(CompressedFileNames) <= 3.0.4-1
• rpmlib(FileDigests) <= 4.6.0-1
• rpmlib(PayloadFilesHavePrefix) <= 4.0-1
• rpmlib(PayloadIsZstd) <= 5.4.18-1

License

Zlib

Changelog

* Sat Nov 18 2023 Michael Vetter <mvetter@suse.com>
  - Update to 5.0:
    * rcore module platform-spli
    * New platform backend supported: SDL
    * New platform backend supported: Nintendo Switch
    * New splines drawing and evaluation API
    * Pseudo-random numbers generator: rprand
    * Automation Events System API
    * For details check project changelog
* Mon Mar 20 2023 Michael Vetter <mvetter@suse.com>
  - Update to 4.5.0:
    * NEW Improved ANGLE support on Desktop platforms: Support for OpenGL ES 2.0 on Desktop platforms (Windows,
      Linux, macOS) has been reviewed by @wtnbgo GitHub user. Now raylib can be compiled on desktop for OpenGL
      ES 2.0 and linked against ANGLE. This small addition open the door to building raylib for all ANGLE
      supported backends: Direct3D 11, Vulkan and Metal. Please note that this new feature is still experimental
      and requires further testing!
    * NEW Camera module: A brand new implementation from scratch for rcamera module, contributed by @Crydsch
      GitHub user! New camera system is simpler, more flexible, more granular and more extendable. Specific camera
      math transformations (movement/rotation) have been moved to individual functions, exposing them to users if
      required. Global state has been removed from the module and standalone usage has been greatly improved; now
      rcamera.h single-file header-only library can be used externally, independently of raylib. A new
      UpdateCameraPro() function has been added to address input-dependency of UpdateCamera(), now advance users
      have full control over camera inputs and movement/rotation speeds!
    * NEW Support for M3D models and M3D/GLTF animations: 3d models animations support has been a limited aspect of
      raylib for long time, some versions ago IQM animations were supported but raylib 4.5 also adds support for
      the brand new M3D file format, including animations and the long expected support for GLTF animations! The
      new M3D file format is simple, portable, feature complete, extensible and open source. It also provides a
      complete set of tools to export/visualize M3D models from/to Blender! Now raylib supports up to 3 model
      file-formats with animations: IQM, GLTF and M3D.
    * NEW Support QOA audio format (import/export): Just a couple of months ago the new QOA file format was
      published, a very simple, portable and open source quite-ok-audio file format. raylib already supports it,
      added to raudio module and including audio loading from file, loading from memory, streaming from file,
      streaming from memory and exporting to QOA audio format. Because simplicity really matters to raylib!
    * NEW Module for compressed textures loading: rl_gputex, a portable single-file header-only small library to
      load compressed texture file-formats (DDS, PKM, KTX, PVR, ASTC). Provided functionality is not new to raylib
      but it was part of the raylib rtextures module, now it has been moved into a separate self-contained library,
      improving portability. Note that this module is only intended to load compressed data from files, ready to be
      uploaded to GPU, no compression/decompression functionality is provided. This change is a first step towards
      a better modularization of raylib library.
    * Reviewed rlgl module for automatic limits checking: Again, rlgl has been reviewed to simplify usage. Now
      users do not need to worry about reaching the internal render-batch limits when they send their triangles to
      draw 2d/3d, rlgl manages it automatically! This change allows a great simplification for other modules like
      rshapes, rtextures and rmodels that do not need to worry about bufffer overflows and can just define as many
      vertex as desired!
    * Reviewed rshapes module to minimize the rlgl dependency: Now rshapes 2d shapes drawing functions only depend
      on 6 low-level functions: rlBegin(), rlEnd(), rlVertex3f(), rlTexCoord2f(), rlNormal3f(), rlSetTexture().
      With only those pseudo-OpenGl 1.1 minimal functionality, everything can be drawn! This improvement converts
      rshapes module in a self-contained, portable shapes-drawing library that can be used independently of raylib,
      as far as entry points for those 6 functions are provided by the user. It even allows to be used for software
      rendering, with the proper backend!
    * Added data structures validation functions: Multiple functions have been added by @RobLoach GitHub user to
      ease the validation of raylib data structures: IsImageReady(), IsTextureReady(), IsSoundReady()... Now users
      have a simple mechanism to make sure data has been correctly loaded, instead of checking internal structure
      values by themselfs.
* Thu Nov 03 2022 Michael Vetter <mvetter@suse.com>
  - Switch -DUSE_EXTERNAL_GLFW to OFF:
    Earlier we build required on our glfw package.
    But with raylib 4.2.0 they started to use features are only
    in the development version.
    They were unhappy that glfw 3.4.0 takes a long time to be
    relased and decided to create a in-tree copy.
    So for raylib 4.2.0 to build we need to use this in-tree version.
* Fri Aug 12 2022 Michael Vetter <mvetter@suse.com>
  - Update to 4.2.0:
    * extra libraries cleanup:
    * examples review
    * rres resource format
    * raygui official gui library
    * new file system API
    * New audio stream processors API
    * For details see https://github.com/raysan5/raylib/releases/tag/4.2.0
* Mon Feb 28 2022 Michael Vetter <mvetter@suse.com>
  - Update to 4.0.0:
    * Naming consistency and coherency: API has been completely
      reviewed to be consistent on naming conventions
    * Event Automation System: This new experimental feature has been
      added for future usage, it allows to record input events and
      re-play them automatically.
    * Custom game-loop control: As requested by some advance users,
      the game-loop control can be exposed
    * For details see: https://github.com/raysan5/raylib/blob/4.0.0/CHANGELOG
* Wed May 19 2021 Ferdinand Thiessen <rpm@fthiessen.de>
  - Update to 3.7.0
    * rlgl module for greater abstraction level. Now rlgl functionality
      is self-contained in the module and used by higher-level layers,
    * Multiple rlgl functions have been renamed for consistency
    * A new API has been added, more comprehensive and better integrated
      with raylib, the new stereo rendering can be combined with
      RenderTexture and Shader API allowing the user to manage fbo and
      distortion shader directly.
    * New file access callbacks system.
    * glTF animations support.
    * raylib supports music streamming from memory data for all
      supported file formats: WAV, OGG, MP3, FLAC, XM and MOD.
    * Most raylib enums names and values names have been renamed for
      consistency, now all value names start with the type of data
      they represent.
    * See: https://github.com/raysan5/raylib/blob/3.7.0/CHANGELOG
  - Drop raylib-3.0.0-noexamples.patch
  - Edit _service:
    * Exclude examples as they are licensed under unsupported licenses
      (Upstream does not provid the -noexamples package anymore)
* Mon Jan 04 2021 Michael Vetter <mvetter@suse.com>
  - Update to 3.5.0:
    * Platform supported: Raspberry Pi 4 native mode (no X11 windows)
      through DRM subsystem and GBM API. Actually this is a really
      interesting improvement because it opens the door to raylib to
    support other embedded platforms (Odroid, GameShell, NanoPi...).
      Also worth mentioning the un-official homebrew ports of raylib
      for PS4 and PSVita.
    * NEW configuration options exposed: For custom raylib builds,
      config.h now exposes more than 150 flags and defines to build
      raylib with only the desired features, for example, it allows to
      build a minimal raylib library in just some KB removing all
      external data filetypes supported, very useful to generate small
      executables or embedded devices.
    * NEW automatic GIF recording feature: Actually, automatic GIF
      recording (CTRL+F12) for any raylib application has been available
      for some versions but this feature was really slow and low-performant
      using an old gif library with many file-accesses. It has been replaced
      by a high-performant alternative (msf_gif.h) that operates directly
      on memory... and actually works very well! Try it out!
    * NEW RenderBatch system: rlgl module has been redesigned to support
      custom render batches to allow grouping draw calls as desired, previous
      implementation just had one default render batch. This feature has not
      been exposed to raylib API yet but it can be used by advance users dealing
      with rlgl directly. For example, multiple RenderBatch can be created
      for 2D sprites and 3D geometry independently.
    * NEW Framebuffer system: rlgl module now exposes an API for custom Framebuffer
      attachments (including cubemaps!). raylib RenderTexture is a basic
      use-case, just allowing color and depth textures, but this new API allows
      the creation of more advance Framebuffers with multiple attachments,
      like the G-Buffers. GenTexture*() functions have been redesigned to use this new API.
    * Improved software rendering: raylib Image*() API is intended for
      software rendering, for those cases when no GPU or no Window is available.
      Those functions operate directly with multi-format pixel data on RAM and
      they have been completely redesigned to be way faster, specially for small
      resolutions and retro-gaming. Low-end embedded devices like microcontrollers
      with custom displays could benefit of this raylib functionality!
    * File loading from memory: Multiple functions have been redesigned to load
      data from memory buffers instead of directly accessing the files, now all
      raylib file loading/saving goes through a couple of functions that load
      data into memory. This feature allows custom virtual-file-systems and it
      gives more control to the user to access data already loaded in memory
      (i.e. images, fonts, sounds...).
    * NEW Window states management system: raylib core module has been
      redesigned to support Window state check and setup more easily and also
      before/after Window initialization, SetConfigFlags() has been reviewed and
      SetWindowState() has been added to control Window minification,
      maximization, hidding, focusing, topmost and more.
    * For details see CHANGELOG file
* Wed Apr 29 2020 Michael Vetter <mvetter@suse.com>
  - Switch to noexamples tarball as requested in:
    https://github.com/raysan5/raylib/issues/1180
    So we don't ship examples with various licenses that we don't
    install anyways.
  - Add raylib-3.0.0-noexamples.patch: dont try to install examples
    Raysan seems to have forgotten that.
* Wed Apr 29 2020 Scott Young <dev@iotib.net>
  - Added missing development header files.
* Tue Mar 31 2020 Michael Vetter <mvetter@suse.com>
  - Update to 3.0.0:
    * All global variables from the multiple raylib modules have
      been moved to a global context state, it has several benefits, first, better
      code readability with more comprehensive variables naming and categorization
      (organized by types, i.e. CORE.Window.display.width,
      CORE.Input.Keyboard.currentKeyState or RLGL.State.modelview). Second, it allows
      better memory management to load global context state dynamically when required
      (not at the moment), making it easy to implement a hot-reloading mechanism if
      desired.
    * All memory allocations on raylib and its dependencies now use
      RL_MALLOC, RL_FREE and similar macros. Now users can easely hook their own
      memory allocations mechanism if desired, having more control over memory
      allocated internally by the library. Additionally, it makes it easier to port
      the library to embedded devices where memory control is critical. For more info
      check raylib issue #1074.
    * All I/O file accesses from raylib are being moved
      to memory data access, now all I/O file access is centralized into just four
      functions: LoadFileData(), SaveFileData(), LoadFileText(), SaveFileText().
      Users can just update those functions to any I/O file system. This change makes
      it easier to integrate raylib with Virtual File Systems or custom I/O file
      implementations.
    * All raylib data structures have been reviewed and optimized
      for pass-by-value usage. One of raylib distinctive design decisions is that
      most of its functions receive and return data by value. This design makes
      raylib really simple for newcomers, avoiding pointers and allowing complete
      access to all structures data in a simple way. The downside is that data is
      copied on stack every function call and that copy could be costly so, all
      raylib data structures have been optimized to stay under 64 bytes for fast copy
      and retrieve.
    * All raylib tracelog messages have been reviewd and categorized
      for a more comprehensive output information when developing raylib
      applications, now all display, input, timer, platform, auxiliar libraries,
      file-accesses, data loading/unloading issues are properly reported with more
      detailed and visual messages.
    * raudio module has been internally reviewed to
      accomodate the new Music structure (converted from previous pointer format) and
      the module has been adapted to the highly improved miniaudio v0.10.
    * text module reviewed to improve fonts generation and text management functions, Font
      structure has been redesigned to better accomodate characters data, decoupling
      individual characters as Image glyphs from the font atlas parameters. Several
      improvements have been made to better support Unicode strings with UTF-8
      encoding.
    * Multiple new examples added (most of them contributed by raylib
      users) and all examples reviewed for correct execution on most of the supported
      platforms, specially Web and Raspberry Pi. A detailed categorized table has
      been created on github for easy examples navigation and code access.
    * New GitHub Actions CI system has been implemented for Windows, Linux and macOS code
      and examples compilation on every new commit or PR to make sure library keeps
      stable and usable with no breaking bugs.
    * Note that only key changes are
      listed here but there is way more! About 30 new functions, multiple functions
      reviewed, bindings to +40 programming languages and great
      samples/demos/tutorials created by the community, including raylib integration
      with Spine, Unity, Tiled, Nuklear, enet and more!

Files

/usr/include/raylib.h
/usr/include/raymath.h
/usr/include/rlgl.h
/usr/lib64/cmake/raylib
/usr/lib64/cmake/raylib/raylib-config-version.cmake
/usr/lib64/cmake/raylib/raylib-config.cmake
/usr/lib64/libraylib.so
/usr/lib64/pkgconfig/raylib.pc
/usr/share/doc/packages/raylib-devel
/usr/share/doc/packages/raylib-devel/CHANGELOG
/usr/share/doc/packages/raylib-devel/README.md

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Fabrice Bellet, Sat Mar 9 12:50:11 2024