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/**
* @file raytrace.h
* @brief Ray intersection tests for primitives.
*
* $LicenseInfo:firstyear=2001&license=viewergpl$
*
* Copyright (c) 2001-2007, Linden Research, Inc.
*
* Second Life Viewer Source Code
* The source code in this file ("Source Code") is provided by Linden Lab
* to you under the terms of the GNU General Public License, version 2.0
* ("GPL"), unless you have obtained a separate licensing agreement
* ("Other License"), formally executed by you and Linden Lab. Terms of
* the GPL can be found in doc/GPL-license.txt in this distribution, or
* online at http://secondlife.com/developers/opensource/gplv2
*
* There are special exceptions to the terms and conditions of the GPL as
* it is applied to this Source Code. View the full text of the exception
* in the file doc/FLOSS-exception.txt in this software distribution, or
* online at http://secondlife.com/developers/opensource/flossexception
*
* By copying, modifying or distributing this software, you acknowledge
* that you have read and understood your obligations described above,
* and agree to abide by those obligations.
*
* ALL LINDEN LAB SOURCE CODE IS PROVIDED "AS IS." LINDEN LAB MAKES NO
* WARRANTIES, EXPRESS, IMPLIED OR OTHERWISE, REGARDING ITS ACCURACY,
* COMPLETENESS OR PERFORMANCE.
* $/LicenseInfo$
*/
#ifndef LL_RAYTRACE_H
#define LL_RAYTRACE_H
class LLVector3;
class LLQuaternion;
// All functions produce results in the same reference frame as the arguments.
//
// Any arguments of the form "foo_direction" or "foo_normal" are assumed to
// be normalized, or normalized vectors are stored in them.
//
// Vector arguments of the form "shape_scale" represent the scale of the
// object along the three axes.
//
// All functions return the expected TRUE or FALSE, unless otherwise noted.
// When FALSE is returned, any resulting values that might have been stored
// are undefined.
//
// Rays are defined by a "ray_point" and a "ray_direction" (unit).
//
// Lines are defined by a "line_point" and a "line_direction" (unit).
//
// Line segements are defined by "point_a" and "point_b", and for intersection
// purposes are assumed to point from "point_a" to "point_b".
//
// A ray is different from a line in that it starts at a point and extends
// in only one direction.
//
// Intersection normals always point outside the object, normal to the object's
// surface at the point of intersection.
//
// Object rotations passed as quaternions are expected to rotate from the
// object's local frame to the absolute frame. So, if "foo" is a vector in
// the object's local frame, then "foo * object_rotation" is in the absolute
// frame.
// returns TRUE iff line is not parallel to plane.
BOOL line_plane(const LLVector3 &line_point, const LLVector3 &line_direction,
const LLVector3 &plane_point, const LLVector3 plane_normal,
LLVector3 &intersection);
// returns TRUE iff line is not parallel to plane.
BOOL ray_plane(const LLVector3 &ray_point, const LLVector3 &ray_direction,
const LLVector3 &plane_point, const LLVector3 plane_normal,
LLVector3 &intersection);
BOOL ray_circle(const LLVector3 &ray_point, const LLVector3 &ray_direction,
const LLVector3 &circle_center, const LLVector3 plane_normal, F32 circle_radius,
LLVector3 &intersection);
// point_0 through point_2 define the plane_normal via the right-hand rule:
// circle from point_0 to point_2 with fingers ==> thumb points in direction of normal
BOOL ray_triangle(const LLVector3 &ray_point, const LLVector3 &ray_direction,
const LLVector3 &point_0, const LLVector3 &point_1, const LLVector3 &point_2,
LLVector3 &intersection, LLVector3 &intersection_normal);
// point_0 is the lower-left corner, point_1 is the lower-right, point_2 is the upper-right
// right-hand-rule... curl fingers from lower-left toward lower-right then toward upper-right
// ==> thumb points in direction of normal
// assumes a parallelogram, so point_3 is determined by the other points
BOOL ray_quadrangle(const LLVector3 &ray_point, const LLVector3 &ray_direction,
const LLVector3 &point_0, const LLVector3 &point_1, const LLVector3 &point_2,
LLVector3 &intersection, LLVector3 &intersection_normal);
BOOL ray_sphere(const LLVector3 &ray_point, const LLVector3 &ray_direction,
const LLVector3 &sphere_center, F32 sphere_radius,
LLVector3 &intersection, LLVector3 &intersection_normal);
// finite right cylinder is defined by end centers: "cyl_top", "cyl_bottom",
// and by the cylinder radius "cyl_radius"
BOOL ray_cylinder(const LLVector3 &ray_point, const LLVector3 &ray_direction,
const LLVector3 &cyl_center, const LLVector3 &cyl_scale, const LLQuaternion &cyl_rotation,
LLVector3 &intersection, LLVector3 &intersection_normal);
// this function doesn't just return a BOOL because the return is currently
// used to decide how to break up boxes that have been hit by shots...
// a hack that will probably be changed later
//
// returns a number representing the side of the box that was hit by the ray,
// or NO_SIDE if intersection test failed.
U32 ray_box(const LLVector3 &ray_point, const LLVector3 &ray_direction,
const LLVector3 &box_center, const LLVector3 &box_scale, const LLQuaternion &box_rotation,
LLVector3 &intersection, LLVector3 &intersection_normal);
/* TODO
BOOL ray_ellipsoid(const LLVector3 &ray_point, const LLVector3 &ray_direction,
const LLVector3 &e_center, const LLVector3 &e_scale, const LLQuaternion &e_rotation,
LLVector3 &intersection, LLVector3 &intersection_normal);
BOOL ray_cone(const LLVector3 &ray_point, const LLVector3 &ray_direction,
const LLVector3 &cone_tip, const LLVector3 &cone_bottom,
const LLVector3 &cone_scale, const LLQuaternion &cone_rotation,
LLVector3 &intersection, LLVector3 &intersection_normal);
*/
BOOL ray_prism(const LLVector3 &ray_point, const LLVector3 &ray_direction,
const LLVector3 &prism_center, const LLVector3 &prism_scale, const LLQuaternion &prism_rotation,
LLVector3 &intersection, LLVector3 &intersection_normal);
BOOL ray_tetrahedron(const LLVector3 &ray_point, const LLVector3 &ray_direction,
const LLVector3 &t_center, const LLVector3 &t_scale, const LLQuaternion &t_rotation,
LLVector3 &intersection, LLVector3 &intersection_normal);
BOOL ray_pyramid(const LLVector3 &ray_point, const LLVector3 &ray_direction,
const LLVector3 &p_center, const LLVector3 &p_scale, const LLQuaternion &p_rotation,
LLVector3 &intersection, LLVector3 &intersection_normal);
/* TODO
BOOL ray_hemiellipsoid(const LLVector3 &ray_point, const LLVector3 &ray_direction,
const LLVector3 &e_center, const LLVector3 &e_scale, const LLQuaternion &e_rotation,
const LLVector3 &e_cut_normal,
LLVector3 &intersection, LLVector3 &intersection_normal);
BOOL ray_hemisphere(const LLVector3 &ray_point, const LLVector3 &ray_direction,
const LLVector3 &sphere_center, F32 sphere_radius, const LLVector3 &sphere_cut_normal,
LLVector3 &intersection, LLVector3 &intersection_normal);
BOOL ray_hemicylinder(const LLVector3 &ray_point, const LLVector3 &ray_direction,
const LLVector3 &cyl_top, const LLVector3 &cyl_bottom, F32 cyl_radius,
const LLVector3 &cyl_cut_normal,
LLVector3 &intersection, LLVector3 &intersection_normal);
BOOL ray_hemicone(const LLVector3 &ray_point, const LLVector3 &ray_direction,
const LLVector3 &cone_tip, const LLVector3 &cone_bottom,
const LLVector3 &cone_scale, const LLVector3 &cyl_cut_normal,
LLVector3 &intersection, LLVector3 &intersection_normal);
*/
BOOL linesegment_circle(const LLVector3 &point_a, const LLVector3 &point_b,
const LLVector3 &circle_center, const LLVector3 plane_normal, F32 circle_radius,
LLVector3 &intersection);
// point_0 through point_2 define the plane_normal via the right-hand rule:
// circle from point_0 to point_2 with fingers ==> thumb points in direction of normal
BOOL linesegment_triangle(const LLVector3 &point_a, const LLVector3 &point_b,
const LLVector3 &point_0, const LLVector3 &point_1, const LLVector3 &point_2,
LLVector3 &intersection, LLVector3 &intersection_normal);
// point_0 is the lower-left corner, point_1 is the lower-right, point_2 is the upper-right
// right-hand-rule... curl fingers from lower-left toward lower-right then toward upper-right
// ==> thumb points in direction of normal
// assumes a parallelogram, so point_3 is determined by the other points
BOOL linesegment_quadrangle(const LLVector3 &point_a, const LLVector3 &point_b,
const LLVector3 &point_0, const LLVector3 &point_1, const LLVector3 &point_2,
LLVector3 &intersection, LLVector3 &intersection_normal);
BOOL linesegment_sphere(const LLVector3 &point_a, const LLVector3 &point_b,
const LLVector3 &sphere_center, F32 sphere_radius,
LLVector3 &intersection, LLVector3 &intersection_normal);
// finite right cylinder is defined by end centers: "cyl_top", "cyl_bottom",
// and by the cylinder radius "cyl_radius"
BOOL linesegment_cylinder(const LLVector3 &point_a, const LLVector3 &point_b,
const LLVector3 &cyl_center, const LLVector3 &cyl_scale, const LLQuaternion &cyl_rotation,
LLVector3 &intersection, LLVector3 &intersection_normal);
// this function doesn't just return a BOOL because the return is currently
// used to decide how to break up boxes that have been hit by shots...
// a hack that will probably be changed later
//
// returns a number representing the side of the box that was hit by the ray,
// or NO_SIDE if intersection test failed.
U32 linesegment_box(const LLVector3 &point_a, const LLVector3 &point_b,
const LLVector3 &box_center, const LLVector3 &box_scale, const LLQuaternion &box_rotation,
LLVector3 &intersection, LLVector3 &intersection_normal);
BOOL linesegment_prism(const LLVector3 &point_a, const LLVector3 &point_b,
const LLVector3 &prism_center, const LLVector3 &prism_scale, const LLQuaternion &prism_rotation,
LLVector3 &intersection, LLVector3 &intersection_normal);
BOOL linesegment_tetrahedron(const LLVector3 &point_a, const LLVector3 &point_b,
const LLVector3 &t_center, const LLVector3 &t_scale, const LLQuaternion &t_rotation,
LLVector3 &intersection, LLVector3 &intersection_normal);
BOOL linesegment_pyramid(const LLVector3 &point_a, const LLVector3 &point_b,
const LLVector3 &p_center, const LLVector3 &p_scale, const LLQuaternion &p_rotation,
LLVector3 &intersection, LLVector3 &intersection_normal);
#endif
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