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little readme changes; added an architecture doc
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ARCHITECTURE.MD
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ARCHITECTURE.MD
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This document gives an overview of the architecture of librw.
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Disclaimer: Some of these design decision were taken over from original RW,
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some are my own. I only take partial responsibility.
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Differently from original RW, librw has no neat separation into modules.
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Some things could be made optional, but in particular RW's RpWorld
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plugin is integrated with everything else.
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# Plugins
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To extend structs with custom data,
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RW (and librw) provides a plugin mechanism
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for certain structs.
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This can be used to tack more data onto a struct
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and register custom streaming functions.
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Plugins must be registered before any instance
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of that struct is allocated.
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# Pipelines
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RW's pipeline architecture was designed for very flexible data flow.
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Unfortunately for RW most of the rendering pipeline moved into the GPU
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causing RW's pipeline architecture to be severely overengineered.
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librw's pipeline architecture is therefore much simplified
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and only implements what is actually needed,
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but the name *pipeline* is retained.
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Three pipelines are implemented in librw itself:
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Default, Skin, MatFX (only env map so far).
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Others can be implemented by applications using librw.
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# RW Objects
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## Frame
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A Frame is an orientation in space, arranged in a hierarchy.
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Camera, Lights and Atomics can be attached to it.
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It has two matrices: a (so called) model matrix,
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which is relative to its parent,
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and a local transformation matrix (LTM) which is relative to the world.
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The LTM is updated automatically as needed whenever the hierarchy gets dirty.
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## Camera
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A Camera is attached to a Frame to position it in space
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and has a framebuffer and a z-buffer attached to render to.
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Rendering is started by `beginUpdate` and ended by `endUpdate`.
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This sets up things like framebuffers and matrices
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so that the Camera's raster can be rendered to.
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## Light
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Lights are attached to a Frame to position it in space.
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They are used to light Atomics for rendering.
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Different types of light are possible.
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## Geometry
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A Geometry contains the raw geometry data that can be rendered.
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It has a list of materials that are applied to its triangles.
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The latter are sorted by materials into meshes for easier instancing.
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## Atomic
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An Atomic is attached to a Frame to position it in space
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and references a Geometry.
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Atomics are the objects that are rendered by pipelines.
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## Clump
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A Clump is a container of Atomics, Lights and Cameras.
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Clumps can be read from and written to DFF files.
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Rendering a Clump will be render all of its Atomics.
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# Engine
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Due to the versatility of librw,
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there are three levels of code:
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Platform indpendent code,
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platform specific code,
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and render device specific code.
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The second category does not exist in original RW,
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but because librw is supposed to be able to
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convert between all sorts of platform specific files,
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the code for that has to be available no matter
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the render platform used.
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The common interface for all device-indepenent
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platform code is the `Driver` struct.
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The `Engine` struct has an array with one for each platform.
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The render device specific code
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is used for actually rendering something to the screen.
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The common interface for the device-dependent
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code is the `Device` struct and the `Engine`
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struct only has a single one, as there can only be one render device
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(i.e. you cannot select D3D or OpenGL at runtime).
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Thus when implementing a new backend
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you have to implement the `Driver` and `Device` interfaces.
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But do note that the `Driver` can be extended with plugins!
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# Driver
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The driver is mostly concerned with conversion
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between platform independent data to platform dependent one, and vice versa.
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This concerns the following two cases.
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## Raster, Images
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Images contain platform independent uncompressed pixel data.
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Rasters contain platform dependent (and possibly compressed) pixel data.
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A driver has to be able to convert an image to a raster for the purposes of loading textures
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from files or having them converted from foreign rasters.
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Converting from rasters to images is not absolutely necessary but it's needed e.g. for taking screenshots.
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librw has a set of default raster formats that the platform is
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expected to implement for the most part, however not all have to be supported necessarily.
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A driver is also free to implement its own formats;
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this is done for texture compression.
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Rasters have different types,
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`TEXTURE` and `CAMERATEXTURE` rasters can be used as textures,
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`CAMERA` and `CAMERATEXTURE` can be used as render targets,
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`ZBUFFER` is used as a depth-buffer.
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## Pipelines
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A librw ObjPipeline implements essentially
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an instance stage which converts platform independent geometry
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to a format that can efficiently be rendered,
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and a render stage that actually renders it.
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(There is also an uninstance function,
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but this is only used to convert platform specific geometry back to the generic format
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and hence is not necessary.)
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# Device
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The device implements everything that is actually needed for rendering.
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This includes starting, handling and closing the rendering device,
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setting render states,
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allocating and destroying buffers and textures,
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im2d and im3d rendering,
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and the render functions of the pipelines.
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## System
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The `system` function implements certain device requests
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from the engine (why these aren't separate functions I don't know, RW design).
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The `Engine` is started in different stages, at various points of which
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the render device gets different requests.
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At the end the device is initialized and ready for rendering.
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A similar but reverse sequence happens on shutdown.
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Subsystems (screens) and video modes are queried through
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the `system` by the application before the device is started.
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## Immediate mode
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Im2d and im3d are immediate-mode style rendering interface.
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## Pipelines
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For instancing the typical job is to allocate and fill
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a struct to hold some data about an atomic,
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an array of structs for all the meshes,
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and vertex and index buffers to hold geometry for rendering.
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The render function will render the previously instanced
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data by doing a per-object setup and then iterating over
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and rendering all the meshes.
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15
README.md
15
README.md
@ -4,16 +4,21 @@ librw
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This library is supposed to be a re-implementation of RenderWare graphics,
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or a good part of it anyway.
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It is intended to be cross-platform in two senses eventually:
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It is intended to be cross-platform in two senses:
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support rendering on different platforms similar to RW;
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supporting all file formats for all platforms at all times and provide
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way to convert to all other platforms.
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File formats are already supported rather well, although rasters
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as used by TXD files still need some work, especially for PS2.
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Supported file formats are DFF and TXD for PS2, D3D8, D3D9 and Xbox.
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Not all pre-instanced PS2 DFFs are supported.
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BSP is not supported at all.
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As for rendering, D3D9 and OpenGL 3 work somewhat well but both still need
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work. Rendering some things on the PS2 is working as a test only.
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For rendering we have D3D9 and OpenGL (>=2.1, ES >= 2.0) backends.
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Rendering some things on the PS2 is working as a test only.
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# Uses
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librw can be used for rendering [GTA](https://github.com/gtamodding/re3).
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# Building
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