LOrientationf LOrientationf::LOrientationf(void); Filename: lorientation_src.I Created by: frang, charles (23Jun00) PANDA 3D SOFTWARE Copyright (c) Carnegie Mellon University. All rights reserved. All use of this software is subject to the terms of the revised BSD license. You should have received a copy of this license along with this source code in a file named "LICENSE." Description: Description: vector + twist Description: matrix3 Description: matrix4 |
getClassType static TypeHandle LOrientationf::get_class_type(void); Undocumented function. |
operator * LOrientationf LOrientationf::operator *(LRotationf const &other) const; Description: Orientation * rotation = Orientation Applies a rotation to an orientation. Description: Orientation * Orientation This is a meaningless operation, and will always simply return the rhs. |
LQuaternionf LQuaternionf::LQuaternionf(void); Filename: lquaternion_src.I Created by: frang (06Jun00) PANDA 3D SOFTWARE Copyright (c) Carnegie Mellon University. All rights reserved. All use of this software is subject to the terms of the revised BSD license. You should have received a copy of this license along with this source code in a file named "LICENSE." Description: |
almostEqual bool LQuaternionf::almost_equal(LQuaternionf const &other) const; Description: Returns true if two quaternions are memberwise equal within a default tolerance based on the numeric type. Description: Returns true if two quaternions are memberwise equal within a specified tolerance. |
almostSameDirection bool LQuaternionf::almost_same_direction(LQuaternionf const &other, float threshold) const; Description: Returns true if two quaternions represent the same rotation within a specified tolerance. |
angleDeg float LQuaternionf::angle_deg(LQuaternionf const &other) const; Description: Returns the angle between the orientation represented by this quaternion and the other one, expressed in degrees. |
angleRad float LQuaternionf::angle_rad(LQuaternionf const &other) const; Description: Returns the angle between the orientation represented by this quaternion and the other one, expressed in radians. |
conjugate LQuaternionf LQuaternionf::conjugate(void) const; Description: Returns the complex conjugate of this quat. |
conjugateFrom bool LQuaternionf::conjugate_from(LQuaternionf const &other); Description: Computes the conjugate of the other quat, and stores the result in this quat. This is a fully general operation and makes no assumptions about the type of transform represented by the quat. The other quat must be a different object than this quat. However, if you need to get a conjugate of a quat in place, see conjugate_in_place. The return value is true if the quat was successfully inverted, false if there was a singularity. |
conjugateInPlace bool LQuaternionf::conjugate_in_place(void); Description: Sets this to be the conjugate of the current quat. Returns true if the successful, false if the quat was singular. |
extractToMatrix void LQuaternionf::extract_to_matrix(LMatrix3f &m) const; Description: Based on the quat lib from VRPN. |
getAngle float LQuaternionf::get_angle(void) const; Description: This, along with get_axis(), returns the rotation represented by the quaternion as an angle about an arbitrary axis. This returns the angle, in degrees counterclockwise about the axis. It is necessary to ensure the quaternion has been normalized (for instance, with a call to normalize()) before calling this method. |
getAngleRad float LQuaternionf::get_angle_rad(void) const; Description: This, along with get_axis(), returns the rotation represented by the quaternion as an angle about an arbitrary axis. This returns the angle, in radians counterclockwise about the axis. It is necessary to ensure the quaternion has been normalized (for instance, with a call to normalize()) before calling this method. |
getAxis LVector3f LQuaternionf::get_axis(void) const; Description: This, along with get_angle(), returns the rotation represented by the quaternion as an angle about an arbitrary axis. This returns the axis; it is not normalized. |
getAxisNormalized LVector3f LQuaternionf::get_axis_normalized(void) const; Description: This, along with get_angle(), returns the rotation represented by the quaternion as an angle about an arbitrary axis. This returns the normalized axis. |
getClassType static TypeHandle LQuaternionf::get_class_type(void); Undocumented function. |
getForward LVector3f LQuaternionf::get_forward(CoordinateSystem cs = (CS_default)) const; Description: Returns the orientation represented by this quaternion, expressed as a forward vector. |
getHpr LVecBase3f LQuaternionf::get_hpr(CoordinateSystem cs = (CS_default)) const; Description: Extracts the equivalent Euler angles from the unit quaternion. |
getI float LQuaternionf::get_i(void) const; Description: |
getJ float LQuaternionf::get_j(void) const; Description: |
getK float LQuaternionf::get_k(void) const; Description: |
getR float LQuaternionf::get_r(void) const; Description: |
getRight LVector3f LQuaternionf::get_right(CoordinateSystem cs = (CS_default)) const; Description: Returns the orientation represented by this quaternion, expressed as a right vector. |
getUp LVector3f LQuaternionf::get_up(CoordinateSystem cs = (CS_default)) const; Description: Returns the orientation represented by this quaternion, expressed as an up vector. |
identQuat static LQuaternionf const &LQuaternionf::ident_quat(void); Description: Returns an identity quaternion. |
invertFrom bool LQuaternionf::invert_from(LQuaternionf const &other); Description: Computes the inverse of the other quat, and stores the result in this quat. This is a fully general operation and makes no assumptions about the type of transform represented by the quat. The other quat must be a different object than this quat. However, if you need to invert a quat in place, see invert_in_place. The return value is true if the quat was successfully inverted, false if there was a singularity. |
invertInPlace bool LQuaternionf::invert_in_place(void); Description: Inverts the current quat. Returns true if the inverse is successful, false if the quat was singular. |
isAlmostIdentity bool LQuaternionf::is_almost_identity(float tolerance) const; Description: Returns true if this quaternion represents the identity transformation within a given tolerance. |
isIdentity bool LQuaternionf::is_identity(void) const; Description: Returns true if this quaternion represents the identity transformation: no rotation. |
isSameDirection bool LQuaternionf::is_same_direction(LQuaternionf const &other) const; Description: Returns true if two quaternions represent the same rotation within a default tolerance based on the numeric type. |
multiply LQuaternionf LQuaternionf::multiply(LQuaternionf const &rhs) const; Description: actual multiply call (non virtual) |
normalize bool LQuaternionf::normalize(void); Description: |
operator * LQuaternionf LQuaternionf::operator *(float scalar) const; Description: Description: Quat * Matrix = matrix |
operator *= LQuaternionf &LQuaternionf::operator *=(LQuaternionf const &); Description: |
operator + LQuaternionf LQuaternionf::operator +(LQuaternionf const &other) const; Description: |
operator - LQuaternionf LQuaternionf::operator -(LQuaternionf const &other) const; Description: |
operator - LQuaternionf LQuaternionf::operator -(LQuaternionf const &other) const; Description: |
operator / LQuaternionf LQuaternionf::operator /(float scalar) const; Description: |
output void LQuaternionf::output(ostream &) const; Description: |
pureImaginary static LQuaternionf LQuaternionf::pure_imaginary(LVector3f const &); Description: |
setFromAxisAngle void LQuaternionf::set_from_axis_angle(float angle_deg, LVector3f const &axis); Description: angle_deg is the angle about the axis in degrees. axis must be normalized. |
setFromAxisAngleRad void LQuaternionf::set_from_axis_angle_rad(float angle_rad, LVector3f const &axis); Description: angle_rad is the angle about the axis in radians. axis must be normalized. |
setFromMatrix void LQuaternionf::set_from_matrix(LMatrix3f const &m); Description: Description: Sets the quaternion according to the rotation represented by the matrix. Originally we tried an algorithm presented by Do-While Jones, but that turned out to be broken. This is based on the quat lib from UNC. |
setHpr void LQuaternionf::set_hpr(LVecBase3f const &hpr, CoordinateSystem cs = (CS_default)); Description: Sets the quaternion as the unit quaternion that is equivalent to these Euler angles. (from Real-time Rendering, p.49) |
setI void LQuaternionf::set_i(float i); Description: |
setJ void LQuaternionf::set_j(float j); Description: |
setK void LQuaternionf::set_k(float k); Description: |
setR void LQuaternionf::set_r(float r); Description: |
xform LVecBase3f LQuaternionf::xform(LVecBase3f const &v) const; Description: Transforms a 3-d vector by the indicated rotation Description: Transforms a 4-d vector by the indicated rotation |
LVecBase4f LVecBase4f::LVecBase4f(void); Filename: lvecBase4_src.I Created by: drose (08Mar00) PANDA 3D SOFTWARE Copyright (c) Carnegie Mellon University. All rights reserved. All use of this software is subject to the terms of the revised BSD license. You should have received a copy of this license along with this source code in a file named "LICENSE." Description: |
addHash unsigned int LVecBase4f::add_hash(unsigned int hash) const; Description: Adds the vector into the running hash. |
addToCell void LVecBase4f::add_to_cell(int i, float value); These next functions add to an existing value. i.e. foo.set_x(foo.get_x() + value) These are useful to reduce overhead in scripting languages: Description: |
addW void LVecBase4f::add_w(float value); Description: |
addX void LVecBase4f::add_x(float value); These next functions add to an existing value. i.e. foo.set_x(foo.get_x() + value) These are useful to reduce overhead in scripting languages: Description: |
addY void LVecBase4f::add_y(float value); Description: |
addZ void LVecBase4f::add_z(float value); Description: |
almostEqual bool LVecBase4f::almost_equal(LVecBase4f const &other, float threshold) const; Description: Returns true if two vectors are memberwise equal within a specified tolerance. Description: Returns true if two vectors are memberwise equal within a default tolerance based on the numeric type. |
compareTo int LVecBase4f::compare_to(LVecBase4f const &other) const; Description: This flavor of compare_to uses a default threshold value based on the numeric type. Description: Sorts vectors lexicographically, componentwise. Returns a number less than 0 if this vector sorts before the other one, greater than zero if it sorts after, 0 if they are equivalent (within the indicated tolerance). |
dot float LVecBase4f::dot(LVecBase4f const &other) const; Description: |
fill void LVecBase4f::fill(float fill_value); Description: Sets each element of the vector to the indicated fill_value. This is particularly useful for initializing to zero. |
fmax LVecBase4f LVecBase4f::fmax(LVecBase4f const &other); Description: |
fmin LVecBase4f LVecBase4f::fmin(LVecBase4f const &other); Description: |
getCell float LVecBase4f::get_cell(int i) const; Description: |
getClassType static TypeHandle LVecBase4f::get_class_type(void); Undocumented function. |
getData float const *LVecBase4f::get_data(void) const; Description: Returns the address of the first of the four data elements in the vector. The remaining elements occupy the next positions consecutively in memory. |
getHash unsigned int LVecBase4f::get_hash(void) const; Description: Returns a suitable hash for phash_map. |
getNumComponents int LVecBase4f::get_num_components(void) const; Description: Returns the number of elements in the vector, four. |
getW float LVecBase4f::get_w(void) const; Description: |
getX float LVecBase4f::get_x(void) const; Description: |
getY float LVecBase4f::get_y(void) const; Description: |
getZ float LVecBase4f::get_z(void) const; Description: |
isNan bool LVecBase4f::is_nan(void) const; Description: Returns true if any component of the vector is not-a-number, false otherwise. |
operator != bool LVecBase4f::operator !=(LVecBase4f const &other) const; Description: |
operator * LVecBase4f LVecBase4f::operator *(float scalar) const; Description: |
operator *= void LVecBase4f::operator *=(float scalar); Description: |
operator + LVecBase4f LVecBase4f::operator +(LVecBase4f const &other) const; Description: |
operator += void LVecBase4f::operator +=(LVecBase4f const &other); Description: |
operator - LVecBase4f LVecBase4f::operator -(LVecBase4f const &other) const; Description: |
operator - LVecBase4f LVecBase4f::operator -(LVecBase4f const &other) const; Description: |
operator -= void LVecBase4f::operator -=(LVecBase4f const &other); Description: |
operator / LVecBase4f LVecBase4f::operator /(float scalar) const; Description: |
operator /= void LVecBase4f::operator /=(float scalar); Description: |
operator < bool LVecBase4f::operator <(LVecBase4f const &other) const; Description: This performs a lexicographical comparison. It's of questionable mathematical meaning, but sometimes has a practical purpose for sorting unique vectors, especially in an STL container. Also see compare_to(). |
operator = LVecBase4f &LVecBase4f::operator =(LVecBase4f const ©); Description: |
operator == bool LVecBase4f::operator ==(LVecBase4f const &other) const; Description: |
operator [] float LVecBase4f::operator [](int i) const; Description: |
operator delete void LVecBase4f::operator delete(void *ptr); Undocumented function. |
operator new void *LVecBase4f::operator new(unsigned int size); Undocumented function. |
output void LVecBase4f::output(ostream &out) const; Description: |
pythonRepr void LVecBase4f::python_repr(ostream &out, string const &class_name) const; Description: |
set void LVecBase4f::set(float x, float y, float z, float w); Description: |
setCell void LVecBase4f::set_cell(int i, float value); Description: |
setW void LVecBase4f::set_w(float value); Description: |
setX void LVecBase4f::set_x(float value); Description: |
setY void LVecBase4f::set_y(float value); Description: |
setZ void LVecBase4f::set_z(float value); Description: |
unitW static LVecBase4f const &LVecBase4f::unit_w(void); Description: Returns a unit W vector. |
unitX static LVecBase4f const &LVecBase4f::unit_x(void); Description: Returns a unit X vector. |
unitY static LVecBase4f const &LVecBase4f::unit_y(void); Description: Returns a unit Y vector. |
unitZ static LVecBase4f const &LVecBase4f::unit_z(void); Description: Returns a unit Z vector. |
validatePtr static bool LVecBase4f::validate_ptr(void const *ptr); Undocumented function. |
zero static LVecBase4f const &LVecBase4f::zero(void); Description: Returns a zero-length vector. |