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efl/src/lib/evas/canvas/evas_canvas3d_primitive.eo

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import evas_canvas3d_types;
class Evas.Canvas3D.Primitive extends Evas.Canvas3D.Object
{
[[Evas 3D canvas primitive class]]
data: Evas_Canvas3D_Primitive_Data;
methods {
@property form {
set {
[[Set the form of the given primitive.
Form defines which function will be chosen to set data to mesh
on call of evas_canvas3d_mesh_primitive_set.
Now available next forms of primitives are tabulated primitives (SQUARE and CUBE),
solids of revolution (CYLINDER, CONE, SPHERE and TORUS) and surfaces (SURFACE and TERRAIN).
Default form is EVAS_CANVAS3D_MESH_PRIMITIVE_NONE.]]
}
get {
[[Get the form of the given primitive.
See also @.form.set.]]
}
values {
form: Evas.Canvas3D.Mesh_Primitive; [[Form of primitive.]]
}
}
@property mode {
set {
[[Set the mode of the given primitive.
Mode defines which function will be chosen to set data to mesh
on call of evas_canvas3d_mesh_primitive_set. It helps to choose
an alternative algorithm for primitives with a given form,
such as a cone without a base or sphere textured in alternative way.
Mods of primitives are now available
without base (bases) (supported for cylinder and cone) and
with alternative UV (supported by sphere).
Default form is EVAS_CANVAS3D_PRIMITIVE_MODE_DEFAULT.]]
}
get {
[[Get the mode of the given primitive.
See also @.mode.set.]]
}
values {
mode: Evas.Canvas3D.Primitive_Mode; [[Mode of primitive.]]
}
}
@property ratio {
set {
[[Set the ratio of the given primitive.
Ratio is used only in torus as the ratio of the
major radius and minor radius. For this usage
Available values is from 1.0 to infinity.
If ratio for torus has a bad value,
3.0 will be used as the ratio.
Default ratio is 3.0.]]
}
get {
[[Get the ratio of the given primitive.
See also @.ratio.set.]]
}
values {
ratio: Evas.Real; [[Ratio of primitive.]]
}
}
@property precision {
set {
[[Set the precision of the given primitive.
Precision is used in all non tabulated primitives and defines
the precision of created primitives.
Available values range from 3 to infinity.
If the value is more than 100, you may see a warning
about possibility of incorrect values or slow processing.
Default ratio is 10.]]
}
get {
[[Get the precision of the given primitive.
See also @.precision.set.]]
}
values {
precision: int; [[Precision of primitive.]]
}
}
@property surface {
set {
[[Set the surface of the given primitive.
Surface is used only in surface primitives and defines
the equation of filling mesh data on call of
evas_canvas3d_mesh_primitive_set.
This allows you to create customers primitives like
shell, heart, hyperbolic paraboloid etc. See _shell_func in
examples/evas/evas-3d-visual-test.c or _perlin_terrain in
modules/evas/primitives/surfaces/terrain.c for usage examples.
Default surface is $null]]
}
values {
surface: ptr(Evas.Canvas3D.Surface_Func); [[Pointer to customers surface function.]]
}
}
@property tex_scale {
set {
[[Set the texture scale of the given primitive.
Texture scale uses in all non tabulated primitives
and defines scale of texture coordinates or primitives.
It uses to create periodical textured meshes.
Default tex_scale is {1.0, 1.0}]]
}
get {
[[Get the texture scale of the given primitive.
See also @.tex_scale.set.]]
}
values {
tex_scale_x: Evas.Real; [[Texture scale X coordinate]]
tex_scale_y: Evas.Real; [[Texture scale Y coordinate]]
}
}
}
implements {
Efl.Object.constructor;
Efl.Object.destructor;
@empty Evas.Canvas3D.Object.update_notify;
@empty Evas.Canvas3D.Object.change_notify;
@empty Evas.Canvas3D.Object.callback_register;
@empty Evas.Canvas3D.Object.callback_unregister;
}
}
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