Effects ------- Effects describe the graphical appearance of 3d objects and scenery in FlightGear. The main motivation for effects is to support OpenGL shaders and to provide different implementations for graphics hardware of varying capabilities. Effects are similar to DirectX effects files and Ogre3D material scripts. An effect is a property list. The property list syntax is extended with new "vec3d" and "vec4d" types to support common computer graphics values. Effects are read from files with a ".eff" extension or can be created on-the-fly by FlightGear at runtime. An effect consists of a "parameters" section followed by "technique" descriptions. The "parameters" section is a tree of values that describe, abstractly, the graphical characteristics of objects that use the effect. Techniques refer to these parameters and use them to set OpenGL state or to set parameters for shader programs. The names of properties in the parameter section can be whatever the effects author chooses, although some standard parameters are set by FlightGear itself. On the other hand, the properties in the techniques section are all defined by the FlightGear. Techniques ---------- A technique can contain a predicate that describes the OpenGL functionality required to support the technique. The first technique with a valid predicate in the list of techniques is used to set up the graphics state of the effect. A technique with no predicate is always assumed to be valid. The predicate is written in a little expression language that supports the following primitives: and, or, equal, less, less-equal glversion - returns the version number of OpenGL extension-supported - returns true if an OpenGL extension is supported property - returns the boolean value of a property float-property - returns the float value of a property, useful inside equal, less or less-equal nodes shader-language - returns the version of GLSL supported, or 0 if there is none. The proper way to test whether to enable a shader-based technique is: /sim/rendering/shader-effects 1.0 There is also a property set by the user to indicate what is the level of quality desired. This level of quality can be checked in the predicate like this : /sim/rendering/shader-effects 2.0 /sim/rendering/quality-level The range of /sim/rendering/quality-level is [0..5] * 2.0 is the threshold for relief mapping effects, * 4.0 is the threshold for geometry shader usage. A technique can consist of several passes. A pass is basically an Open Scene Graph StateSet. Ultimately all OpenGL and OSG modes and state attributes will be accessable in techniques. State attributes -- that is, technique properties that have children and are not just boolean modes -- have an parameter which enables or disables the attribute. In this way a technique can declare parameters it needs, but not enable the attribute at all if it is not needed; the decision can be based on a parameter in the parameters section of the effect. For example, effects that support transparent and opaque geometry could have as part of a technique: blend/active src-alpha one-minus-src-alpha So if the blend/active parameter is true blending will be activated using the usual blending equation; otherwise blending is disabled. Values of Technique Attributes ------------------------------ Values are assigned to technique properties in several ways: * They can appear directly in the techniques section as a constant. For example: ColorsTex sampler-1d 2 * The name of a property in the parameters section can be referenced using a "use" clause. For example, in the technique section: material/ambient Then, in the parameters section of the effect: 0.2 0.2 0.2 1.0 It's worth pointing out that the "material" property in a technique specifies part of OpenGL's state, whereas "material" in the parameters section is just a name, part of a hierarchical namespace. * A property in the parameters section doesn't need to contain a constant value; it can also contain a "use" property. Here the value of the use clause is the name of a node in an external property tree which will be used as the source of a value. If the name begins with '/', the node is in FlightGear's global property tree; otherwise, it is in a local property tree, usually belonging to a model [NOT IMPLEMENTED YET]. For example: /rendering/scene/chrome-light The type is determined by what is expected by the technique attribute that will ultimately receive the value. [There is no way to get vector values out of the main property system yet; this will be fixed shortly.] Values that are declared this way are dynamically updated if the property node changes. OpenGL Attributes ----------------- The following attributes are currently implemented in techiques: alpha-test - children: active, comparison, reference Valid values for comparision: never, less, equal, lequal, greater, notequal, gequal, always alpha-to-coverage - true, false blend - children: active, source, destination, source-rgb, source-alpha, destination-rgb, destination-alpha Each operand can have the following values: dst-alpha, dst-color, one, one-minus-dst-alpha, one-minus-dst-color, one-minus-src-alpha, one-minus-src-color, src-alpha, src-alpha-saturate, src-color, constant-color, one-minus-constant-color, constant-alpha, one-minus-constant-alpha, zero cull-face - front, back, front-back lighting - true, false material - children: active, ambient, ambient-front, ambient-back, diffuse, diffuse-front, diffuse-back, specular, specular-front, specular-back, emissive, emissive-front, emissive-back, shininess, shininess-front, shininess-back, color-mode polygon-mode - children: front, back Valid values: fill, line, point program vertex-shader geometry-shader fragment-shader attribute geometry-vertices-out - integer, max number of vertices emitted by geometry shader geometry-input-type - points, lines, lines-adjacency, triangles, triangles-adjacency geometry-output-type - points, line-strip, triangle-strip render-bin - (OSG) children: bin-number, bin-name rendering-hint - (OSG) opaque, transparent shade-model - flat, smooth texture-unit - has several child properties: unit - The number of an OpenGL texture unit point-sprite - true, false - Whether this should rendered as a point-sprite type - This is either an OpenGL texture type or the name of a builtin texture. Currently supported OpenGL types are 1d, 2d, 3d which have the following common parameters: image (file name) filter - nearest, linear, [nearest|linear]-mipmap-[nearest|linear] mag-filter - nearest, linear, [nearest|linear]-mipmap-[nearest|linear] wrap-s - clamp, clamp-to-border, clamp-to-edge, mirror, repeat wrap-t - clamp, clamp-to-border, clamp-to-edge, mirror, repeat wrap-r - clamp, clamp-to-border, clamp-to-edge, mirror, repeat mipmap-control - control the mipmap on a per-channel basis. Children: function-r - auto, average, sum, product, min, max function-g - auto, average, sum, product, min, max function-b - auto, average, sum, product, min, max function-a - auto, average, sum, product, min, max The following built-in types are supported: white - 1 pixel white texture noise - a 3d noise texture. (size parameter defines size of texture) light-sprite - a procedurally generated sprite suitable for point lights cubemap - build a cube-map. Children: images - build from 6 images. Children: [positive|negative]-[x|y|z] image - build from a single cross-image environment mode - add, blend, decal, modulate, replace color texenv-combine combine-[rgb|alpha] - replace, modulate, add, add-signed, interpolate, subtract, dot3-rgb, dot3-rgba source[0|1|2]-[rgb|alpha] - constant, primary_color, previous, texture, texture[0-7] operand[0|1|2]-[rgb|alpha] -src-color, one-minus-src-color, src-alpha, one-minus-src-alpha scale-[rgb|alpha] constant-color texgen mode - object-linear, eye-linear, sphere-map, normal-map, reflection-map planes - s, t, r, q uniform name type - float, float-vec3, float-vec4, sampler-1d, sampler-2d, sampler-3d vertex-program-two-side - true, false vertex-program-point-size - true, false Inheritance ----------- One feature not fully illustrated in the sample below is that effects can inherit from each other. The parent effect is listed in the "inherits-from" form. The child effect's property tree is overlaid over that of the parent. Nodes that have the same name and property index -- set by the "n=" attribute in the property tag -- are recursively merged. Leaf property nodes from the child have precedence. This means that effects that inherit from the example effect below could be very short, listing just new parameters and adding nothing to the techniques section; alternatively, a technique could be altered or customized in a child, listing (for example) a different shader program. An example showing inheritance Effects/crop.eff, which inherits some if its values from Effects/terrain-default.eff. FlightGear directly uses effects inheritance to assign effects to 3D models and terrain. As described below, at runtime small effects are created that contain material and texture values in a "parameters" section. These effects inherit from another effect which references those parameters in its "techniques" section. The derived effect overrides any default values that might be in the base effect's parameters section. Generate -------- Often shader effects need tangent vectors to work properly. These tangent vectors, usually called tangent and binormal, are computed on the CPU and given to the shader as vertex attributes. These vectors are computed on demand on the geometry using the effect if the 'generate' clause is present in the effect file. Exemple : 6 7 8 Valid subnodes of 'generate' are 'tangent', 'binormal' or 'normal'. The integer value of these subnode is the index of the attribute that will hold the value of the vec3 vector. The generate clause is located under PropertyList in the xml file. In order to be available for the vertex shader, these data should be bound to an attribute in the program clause, like this : my_vertex_shader my_tangent_attribute 6 my_binormal_attribute 7 attribute names are whatever the shader use. The index is the one declared in the 'generate' clause. So because generate/tangent has value 6 and my_tangent_attribute has index 6, my_tangent_attribute holds the tangent value for the vertex. Default Effects in Terrain Materials and Models ----------------------------------------------- Effects for terrain work in this way: for each material type in materials.xml an effect is created that inherits from a single default terrain effect, Effects/terrain-default.eff. The parameters section of the effect is filled in using the ambient, diffuse, specular, emissive, shininess, and transparent fields of the material. The parameters image, filter, wrap-s, and wrap-t are also initialized from the material xml. Seperate effects are created for each texture variant of a material. Model effects are created by walking the OpenSceneGraph scene graph for a model and replacing nodes (osg::Geode) that have state sets with node that uses an effect instead. Again, a small effect is created with parameters extracted from OSG objects; this effect inherits, by default, from Effects/model-default.eff. A larger set of parameters is created for model effects than for terrain because there is more variation possible from the OSG model loaders than from the terrain system. The parameters created are: * material active, ambient, diffuse, specular, emissive, shininess, color mode * blend active, source, destination * shade-model * cull-face * rendering-hint * texture type, image, filter, wrap-s, wrap-t Specifying Custom Effects ------------------------- You can specify the effects that will be used by FlightGear as the base effect when it creates terrain and model effects. In the terrain materials.xml, an "effect" property specifies the name of the model to use. In model .xml files, A richer syntax is supported. [TO BE DETERMINED] Material animations will be implemented by creating a new effect that inherits from one in a model, overriding the parameters that will be animated. Examples -------- The Effects directory contains the effects definitions; look there for examples. Effects/crop.eff is a good example of a complex effect. Application ----------- To apply an effect to a model or part of a model use: Effects/light-cone Cone where contains the path to the effect you want to apply. The effect does not need the file extension. NOTE: Chrome, although now implemented as an effect, still retains the old method of application: shader chrome glass_shader.png windscreen in order to maintain backward compatibility.