LMatrix3f LMatrix3f::LMatrix3f(void); Description: |
addHash unsigned int LMatrix3f::add_hash(unsigned int hash) const; Description: Adds the vector into the running hash. |
almostEqual bool LMatrix3f::almost_equal(LMatrix3f const &other, float threshold) const; We don't have a scale_mat() that takes a single uniform scale parameter, because it would be ambiguous whether we mean a 2-d or a 3-d scale. Description: Returns true if two matrices are memberwise equal within a default tolerance based on the numeric type. Description: Returns true if two matrices are memberwise equal within a specified tolerance. |
compareTo int LMatrix3f::compare_to(LMatrix3f const &other) const; Description: This flavor of compare_to uses a default threshold value based on the numeric type. Description: Sorts matrices lexicographically, componentwise. Returns a number less than 0 if this matrix sorts before the other one, greater than zero if it sorts after, 0 if they are equivalent (within the indicated tolerance). |
convertMat static LMatrix3f const &LMatrix3f::convert_mat(CoordinateSystem from, CoordinateSystem to); Description: Returns a matrix that transforms from the indicated coordinate system to the indicated coordinate system. |
determinant float LMatrix3f::determinant(void) const; Description: Returns the determinant of the matrix. |
fill void LMatrix3f::fill(float fill_value); Description: Sets each element of the matrix to the indicated fill_value. This is of questionable value, but is sometimes useful when initializing to zero. |
getCell float LMatrix3f::get_cell(int row, int col) const; Description: Returns a particular element of the matrix. |
getClassType static TypeHandle LMatrix3f::get_class_type(void); Undocumented function. |
getCol LVecBase3f LMatrix3f::get_col(int col) const; Description: Returns the indicated column of the matrix as a three-component vector. |
getCol2 LVecBase2f LMatrix3f::get_col2(int col) const; Description: Returns the indicated column of the matrix as a two-component vector, ignoring the last row. |
getData float const *LMatrix3f::get_data(void) const; Description: Returns the address of the first of the nine data elements in the matrix. The remaining elements occupy the next eight positions in row-major order. |
getHash unsigned int LMatrix3f::get_hash(void) const; Description: Returns a suitable hash for phash_map. |
getNumComponents int LMatrix3f::get_num_components(void) const; Description: Returns the number of elements in the matrix, nine. |
getRow LVecBase3f LMatrix3f::get_row(int row) const; these versions inline better Description: Returns the indicated row of the matrix as a three-component vector. |
getRow2 LVecBase2f LMatrix3f::get_row2(int row) const; Description: Returns the indicated row of the matrix as a two-component vector, ignoring the last column. |
identMat static LMatrix3f const &LMatrix3f::ident_mat(void); Filename: lmatrix3_src.I Created by: drose (29Jan99) 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: Returns an identity matrix. This function definition must appear first, since some inline functions below take advantage of it. |
invertFrom bool LMatrix3f::invert_from(LMatrix3f const &other); Description: Computes the inverse of the other matrix, and stores the result in this matrix. This is a fully general operation and makes no assumptions about the type of transform represented by the matrix. The other matrix must be a different object than this matrix. However, if you need to invert a matrix in place, see invert_in_place. The return value is true if the matrix was successfully inverted, false if the was a singularity. |
invertInPlace bool LMatrix3f::invert_in_place(void); Description: Inverts the current matrix. Returns true if the inverse is successful, false if the matrix was singular. |
invertTransposeFrom bool LMatrix3f::invert_transpose_from(LMatrix3f const &other); Description: Simultaneously computes the inverse of the indicated matrix, and then the transpose of that inverse. |
isNan bool LMatrix3f::is_nan(void) const; Description: Returns true if any component of the matrix is not-a-number, false otherwise. |
multiply void LMatrix3f::multiply(LMatrix3f const &other1, LMatrix3f const &other2); this = other1 * other2 |
operator != bool LMatrix3f::operator !=(LMatrix3f const &other) const; Description: |
operator () float &LMatrix3f::operator ()(int row, int col); Description: |
operator * LMatrix3f LMatrix3f::operator *(LMatrix3f const &other) const; Description: |
operator *= LMatrix3f &LMatrix3f::operator *=(LMatrix3f const &other); Description: Description: Performs a memberwise scale. |
operator += LMatrix3f &LMatrix3f::operator +=(LMatrix3f const &other); Description: Performs a memberwise addition between two matrices. |
operator -= LMatrix3f &LMatrix3f::operator -=(LMatrix3f const &other); Description: Performs a memberwise subtraction between two matrices. |
operator / LMatrix3f LMatrix3f::operator /(float scalar) const; Description: |
operator /= LMatrix3f &LMatrix3f::operator /=(float scalar); Description: Performs a memberwise scale. |
operator < bool LMatrix3f::operator <(LMatrix3f 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 = LMatrix3f &LMatrix3f::operator =(LMatrix3f const &other); Description: |
operator == bool LMatrix3f::operator ==(LMatrix3f const &other) const; Description: |
operator delete void LMatrix3f::operator delete(void *ptr); Undocumented function. |
operator new void *LMatrix3f::operator new(unsigned int size); Undocumented function. |
output void LMatrix3f::output(ostream &out) const; Description: |
pythonRepr void LMatrix3f::python_repr(ostream &out, string const &class_name) const; Description: |
rotateMat static LMatrix3f LMatrix3f::rotate_mat(float angle); Description: Returns a matrix that rotates by the given angle in degrees counterclockwise. Description: Returns a matrix that rotates by the given angle in degrees counterclockwise about the indicated vector. |
rotateMatNormaxis static LMatrix3f LMatrix3f::rotate_mat_normaxis(float angle, LVecBase3f const &axis, CoordinateSystem cs = (CS_default)); Description: Returns a matrix that rotates by the given angle in degrees counterclockwise about the indicated vector. Assumes axis has been normalized. |
scaleMat static LMatrix3f LMatrix3f::scale_mat(LVecBase2f const &scale); Description: Returns a matrix that applies the indicated scale in each of the two axes. Description: Returns a matrix that applies the indicated scale in each of the three axes. |
scaleShearMat static LMatrix3f LMatrix3f::scale_shear_mat(LVecBase3f const &scale, LVecBase3f const &shear, CoordinateSystem cs = (CS_default)); Description: Returns a matrix that applies the indicated scale and shear. |
set void LMatrix3f::set(float e00, float e01, float e02, float e10, float e11, float e12, float e20, float e21, float e22); Description: |
setCell void LMatrix3f::set_cell(int row, int col, float value); Description: Changes a particular element of the matrix. |
setCol void LMatrix3f::set_col(int col, LVecBase3f const &v); Description: Replaces the indicated column of the matrix from a three-component vector. Description: Replaces the indicated column of the matrix from a two-component vector, ignoring the last row. |
setRotateMat void LMatrix3f::set_rotate_mat(float angle); The following named constructors return 3x3 matrices suitable for scale/rotate transforms in 3-d coordinate space. Description: Fills mat with a matrix that rotates by the given angle in degrees counterclockwise. Description: Fills mat with a matrix that rotates by the given angle in degrees counterclockwise about the indicated vector. |
setRotateMatNormaxis void LMatrix3f::set_rotate_mat_normaxis(float angle, LVecBase3f const &axis, CoordinateSystem cs = (CS_default)); Description: Fills mat with a matrix that rotates by the given angle in degrees counterclockwise about the indicated vector. Assumes axis has been normalized. |
setRow void LMatrix3f::set_row(int row, LVecBase3f const &v); Description: Replaces the indicated row of the matrix from a three-component vector. Description: Replaces the indicated row of the matrix from a two-component vector, ignoring the last column. |
setScaleMat void LMatrix3f::set_scale_mat(LVecBase2f const &scale); Description: Fills mat with a matrix that applies the indicated scale in each of the two axes. Description: Fills mat with a matrix that applies the indicated scale in each of the three axes. |
setScaleShearMat void LMatrix3f::set_scale_shear_mat(LVecBase3f const &scale, LVecBase3f const &shear, CoordinateSystem cs = (CS_default)); Description: Fills mat with a matrix that applies the indicated scale and shear. |
setShearMat void LMatrix3f::set_shear_mat(LVecBase3f const &shear, CoordinateSystem cs = (CS_default)); Description: Fills mat with a matrix that applies the indicated shear in each of the three planes. |
setTranslateMat void LMatrix3f::set_translate_mat(LVecBase2f const &trans); Description: Fills mat with a matrix that applies the indicated translation. |
shearMat static LMatrix3f LMatrix3f::shear_mat(LVecBase3f const &shear, CoordinateSystem cs = (CS_default)); Description: Returns a matrix that applies the indicated shear in each of the three planes. |
translateMat static LMatrix3f LMatrix3f::translate_mat(LVecBase2f const &trans); Description: Returns a matrix that applies the indicated translation. |
transposeFrom void LMatrix3f::transpose_from(LMatrix3f const &other); Description: |
transposeInPlace void LMatrix3f::transpose_in_place(void); Description: |
validatePtr static bool LMatrix3f::validate_ptr(void const *ptr); Undocumented function. |
write void LMatrix3f::write(ostream &out, int indent_level = (0)) const; Description: |
xform LVecBase3f LMatrix3f::xform(LVecBase3f const &v) const; Description: 3-component vector or point times matrix. |
xformPoint LVecBase2f LMatrix3f::xform_point(LVecBase2f const &v) const; Description: The matrix transforms a 2-component point (including translation component) and returns the result. This assumes the matrix is an affine transform. |
xformVec LVecBase2f LMatrix3f::xform_vec(LVecBase2f const &v) const; Description: The matrix transforms a 2-component vector (without translation component) and returns the result. This assumes the matrix is an affine transform. Description: The matrix transforms a 3-component vector and returns the result. This assumes the matrix is an orthonormal transform. In practice, this is the same computation as xform(). |
xformVecGeneral LVecBase3f LMatrix3f::xform_vec_general(LVecBase3f const &v) const; Description: The matrix transforms a 3-component vector (without translation component) and returns the result, as a fully general operation. |