1rtcNewGeometry(3) Embree Ray Tracing Kernels 3 rtcNewGeometry(3)
2 NAME
6 rtcNewGeometry - creates a new geometry object
7 SYNOPSIS
9 #include <embree3/rtcore.h>
10 enum RTCGeometryType
12 {
13 RTC_GEOMETRY_TYPE_TRIANGLE,
14 RTC_GEOMETRY_TYPE_QUAD,
15 RTC_GEOMETRY_TYPE_SUBDIVISION,
16 RTC_GEOMETRY_TYPE_FLAT_LINEAR_CURVE,
17 RTC_GEOMETRY_TYPE_FLAT_BEZIER_CURVE,
18 RTC_GEOMETRY_TYPE_FLAT_BSPLINE_CURVE,
19 RTC_GEOMETRY_TYPE_FLAT_HERMITE_CURVE,
20 RTC_GEOMETRY_TYPE_FLAT_CATMULL_ROM_CURVE,
21 RTC_GEOMETRY_TYPE_NORMAL_ORIENTED_BEZIER_CURVE,
22 RTC_GEOMETRY_TYPE_NORMAL_ORIENTED_BSPLINE_CURVE,
23 RTC_GEOMETRY_TYPE_NORMAL_ORIENTED_HERMITE_CURVE,
24 RTC_GEOMETRY_TYPE_NORMAL_ORIENTED_CATMULL_ROM_CURVE,
25 RTC_GEOMETRY_TYPE_CONE_LINEAR_CURVE,
26 RTC_GEOMETRY_TYPE_ROUND_LINEAR_CURVE,
27 RTC_GEOMETRY_TYPE_ROUND_BEZIER_CURVE,
28 RTC_GEOMETRY_TYPE_ROUND_BSPLINE_CURVE,
29 RTC_GEOMETRY_TYPE_ROUND_HERMITE_CURVE,
30 RTC_GEOMETRY_TYPE_ROUND_CATMULL_ROM_CURVE,
31 RTC_GEOMETRY_TYPE_GRID,
32 RTC_GEOMETRY_TYPE_SPHERE_POINT,
33 RTC_GEOMETRY_TYPE_DISC_POINT,
34 RTC_GEOMETRY_TYPE_ORIENTED_DISC_POINT,
35 RTC_GEOMETRY_TYPE_USER,
36 RTC_GEOMETRY_TYPE_INSTANCE
37 };
38 RTCGeometry rtcNewGeometry(
40 RTCDevice device,
41 enum RTCGeometryType type
42 );
43 DESCRIPTION
45 Geometries are objects that represent an array of primitives of the
46 same type. The rtcNewGeometry function creates a new geometry of spec‐
47 ified type (type argument) bound to the specified device (device argu‐
48 ment) and returns a handle to this geometry. The geometry object is
49 reference counted with an initial reference count of 1. The geometry
50 handle can be released using the rtcReleaseGeometry API call.
51 Supported geometry types are triangle meshes (RTC_GEOMETRY_TYPE_TRIAN‐
53 GLE type), quad meshes (triangle pairs) (RTC_GEOMETRY_TYPE_QUAD type),
54 Catmull-Clark subdivision surfaces (RTC_GEOMETRY_TYPE_SUBDIVISION
55 type), curve geometries with different bases (RTC_GEOME‐
56 TRY_TYPE_FLAT_LINEAR_CURVE, RTC_GEOMETRY_TYPE_FLAT_BEZIER_CURVE,
57 RTC_GEOMETRY_TYPE_FLAT_BSPLINE_CURVE, RTC_GEOMETRY_TYPE_FLAT_HER‐
58 MITE_CURVE,
59 RTC_GEOMETRY_TYPE_FLAT_CATMULL_ROM_CURVE, RTC_GEOMETRY_TYPE_NORMAL_ORI‐
60 ENTED_BEZIER_CURVE, RTC_GEOMETRY_TYPE_NORMAL_ORIENTED_BSPLINE_CURVE,
61 RTC_GEOMETRY_TYPE_NORMAL_ORIENTED_HERMITE_CURVE, RTC_GEOMETRY_TYPE_NOR‐
62 MAL_ORIENTED_CATMULL_ROM_CURVE, RTC_GEOMETRY_TYPE_CONE_LINEAR_CURVE,
63 RTC_GEOMETRY_TYPE_ROUND_LINEAR_CURVE, RTC_GEOMETRY_TYPE_ROUND_BEZI‐
64 ER_CURVE, RTC_GEOMETRY_TYPE_ROUND_BSPLINE_CURVE, RTC_GEOME‐
65 TRY_TYPE_ROUND_HERMITE_CURVE, RTC_GEOMETRY_TYPE_ROUND_CATMULL_ROM_CURVE
66 types) grid meshes (RTC_GEOMETRY_TYPE_GRID), point geometries (RTC_GE‐
67 OMETRY_TYPE_SPHERE_POINT, RTC_GEOMETRY_TYPE_DISC_POINT, RTC_TYPE_ORI‐
68 ENTED_DISC_POINT), user-defined geometries (RTC_GEOMETRY_TYPE_USER),
69 and instances (RTC_GEOMETRY_TYPE_INSTANCE).
70 The types RTC_GEOMETRY_TYPE_ROUND_BEZIER_CURVE, RTC_GEOME‐
72 TRY_TYPE_ROUND_BSPLINE_CURVE, and RTC_GEOMETRY_TYPE_ROUND_CAT‐
73 MULL_ROM_CURVE will treat the curve as a sweep surface of a varying-ra‐
74 dius circle swept tangentially along the curve. The types RTC_GEOME‐
75 TRY_TYPE_FLAT_BEZIER_CURVE, RTC_GEOMETRY_TYPE_FLAT_BSPLINE_CURVE, and
76 RTC_GEOMETRY_TYPE_FLAT_CATMULL_ROM_CURVE use ray-facing ribbons as a
77 faster-to-intersect approximation.
78 After construction, geometries are enabled by default and not attached
80 to any scene. Geometries can be disabled (rtcDisableGeometry call),
81 and enabled again (rtcEnableGeometry call). A geometry can be attached
82 to multiple scenes using the rtcAttachGeometry call (or rtcAttachGeome‐
83 tryByID call), and detached using the rtcDetachGeometry call. During
84 attachment, a geometry ID is assigned to the geometry (or assigned by
85 the user when using the rtcAttachGeometryByID call), which uniquely
86 identifies the geometry inside that scene. This identifier is returned
87 when primitives of the geometry are hit in later ray queries for the
88 scene.
89 Geometries can also be modified, including their vertex and index buf‐
91 fers. After modifying a buffer, rtcUpdateGeometryBuffer must be called
92 to notify that the buffer got modified.
93 The application can use the rtcSetGeometryUserData function to set a
95 user data pointer to its own geometry representation, and later read
96 out this pointer using the rtcGetGeometryUserData function.
97 After setting up the geometry or modifying it, rtcCommitGeometry must
99 be called to finish the geometry setup. After committing the geometry,
100 vertex data interpolation can be performed using the rtcInterpolate and
101 rtcInterpolateN functions.
102 A build quality can be specified for a geometry using the rtcSetGeome‐
104 tryBuildQuality function, to balance between acceleration structure
105 build performance and ray query performance. The build quality per ge‐
106 ometry will be used if a two-level acceleration structure is built in‐
107 ternally, which is the case if the RTC_BUILD_QUALITY_LOW is set as the
108 scene build quality. See Section [rtcSetSceneBuildQuality] for more
109 details.
110 EXIT STATUS
112 On failure NULL is returned and an error code is set that can be
113 queried using rtcGetDeviceError.
114 SEE ALSO
116 [rtcEnableGeometry], [rtcDisableGeometry], [rtcAttachGeometry], [rtcAt‐
117 tachGeometryByID], [rtcUpdateGeometryBuffer], [rtcSetGeometryUserData],
118 [rtcGetGeometryUserData], [rtcCommitGeometry], [rtcInterpolate],
119 [rtcInterpolateN], [rtcSetGeometryBuildQuality], [rtcSetSceneBuildQual‐
120 ity], [RTC_GEOMETRY_TYPE_TRIANGLE], [RTC_GEOMETRY_TYPE_QUAD], [RTC_GE‐
121 OMETRY_TYPE_SUBDIVISION], [RTC_GEOMETRY_TYPE_CURVE], [RTC_GEOME‐
122 TRY_TYPE_GRID], [RTC_GEOMETRY_TYPE_POINT], [RTC_GEOMETRY_TYPE_USER],
123 [RTC_GEOMETRY_TYPE_INSTANCE]
124 rtcNewGeometry(3)