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394 lines
11 KiB
394 lines
11 KiB
/*
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* Copyright (C) 2011 The Android Open Source Project
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*
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* Licensed under the Apache License, Version 2.0 (the "License");
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* you may not use this file except in compliance with the License.
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* You may obtain a copy of the License at
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*
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* http://www.apache.org/licenses/LICENSE-2.0
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*
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* Unless required by applicable law or agreed to in writing, software
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* distributed under the License is distributed on an "AS IS" BASIS,
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* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
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* See the License for the specific language governing permissions and
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* limitations under the License.
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*/
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#ifndef ANDROID_MAT_H
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#define ANDROID_MAT_H
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#include "vec.h"
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#include "traits.h"
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// -----------------------------------------------------------------------
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namespace android {
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template <typename TYPE, size_t C, size_t R>
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class mat;
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namespace helpers {
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template <typename TYPE, size_t C, size_t R>
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mat<TYPE, C, R>& doAssign(
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mat<TYPE, C, R>& lhs,
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typename TypeTraits<TYPE>::ParameterType rhs) {
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for (size_t i=0 ; i<C ; i++)
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for (size_t j=0 ; j<R ; j++)
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lhs[i][j] = (i==j) ? rhs : 0;
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return lhs;
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}
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template <typename TYPE, size_t C, size_t R, size_t D>
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mat<TYPE, C, R> PURE doMul(
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const mat<TYPE, D, R>& lhs,
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const mat<TYPE, C, D>& rhs)
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{
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mat<TYPE, C, R> res;
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for (size_t c=0 ; c<C ; c++) {
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for (size_t r=0 ; r<R ; r++) {
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TYPE v(0);
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for (size_t k=0 ; k<D ; k++) {
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v += lhs[k][r] * rhs[c][k];
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}
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res[c][r] = v;
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}
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}
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return res;
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}
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template <typename TYPE, size_t R, size_t D>
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vec<TYPE, R> PURE doMul(
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const mat<TYPE, D, R>& lhs,
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const vec<TYPE, D>& rhs)
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{
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vec<TYPE, R> res;
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for (size_t r=0 ; r<R ; r++) {
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TYPE v(0);
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for (size_t k=0 ; k<D ; k++) {
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v += lhs[k][r] * rhs[k];
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}
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res[r] = v;
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}
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return res;
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}
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template <typename TYPE, size_t C, size_t R>
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mat<TYPE, C, R> PURE doMul(
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const vec<TYPE, R>& lhs,
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const mat<TYPE, C, 1>& rhs)
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{
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mat<TYPE, C, R> res;
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for (size_t c=0 ; c<C ; c++) {
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for (size_t r=0 ; r<R ; r++) {
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res[c][r] = lhs[r] * rhs[c][0];
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}
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}
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return res;
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}
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template <typename TYPE, size_t C, size_t R>
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mat<TYPE, C, R> PURE doMul(
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const mat<TYPE, C, R>& rhs,
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typename TypeTraits<TYPE>::ParameterType v)
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{
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mat<TYPE, C, R> res;
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for (size_t c=0 ; c<C ; c++) {
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for (size_t r=0 ; r<R ; r++) {
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res[c][r] = rhs[c][r] * v;
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}
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}
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return res;
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}
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template <typename TYPE, size_t C, size_t R>
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mat<TYPE, C, R> PURE doMul(
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typename TypeTraits<TYPE>::ParameterType v,
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const mat<TYPE, C, R>& rhs)
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{
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mat<TYPE, C, R> res;
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for (size_t c=0 ; c<C ; c++) {
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for (size_t r=0 ; r<R ; r++) {
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res[c][r] = v * rhs[c][r];
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}
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}
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return res;
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}
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}; // namespace helpers
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// -----------------------------------------------------------------------
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template <typename TYPE, size_t C, size_t R>
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class mat : public vec< vec<TYPE, R>, C > {
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typedef typename TypeTraits<TYPE>::ParameterType pTYPE;
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typedef vec< vec<TYPE, R>, C > base;
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public:
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// STL-like interface.
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typedef TYPE value_type;
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typedef TYPE& reference;
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typedef TYPE const& const_reference;
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typedef size_t size_type;
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size_type size() const { return R*C; }
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enum { ROWS = R, COLS = C };
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// -----------------------------------------------------------------------
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// default constructors
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mat() { }
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mat(const mat& rhs) : base(rhs) { }
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mat(const base& rhs) : base(rhs) { } // NOLINT(google-explicit-constructor)
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// -----------------------------------------------------------------------
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// conversion constructors
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// sets the diagonal to the value, off-diagonal to zero
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mat(pTYPE rhs) { // NOLINT(google-explicit-constructor)
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helpers::doAssign(*this, rhs);
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}
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// -----------------------------------------------------------------------
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// Assignment
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mat& operator=(const mat& rhs) {
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base::operator=(rhs);
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return *this;
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}
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mat& operator=(const base& rhs) {
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base::operator=(rhs);
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return *this;
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}
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mat& operator=(pTYPE rhs) {
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return helpers::doAssign(*this, rhs);
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}
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// -----------------------------------------------------------------------
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// non-member function declaration and definition
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friend inline mat PURE operator + (const mat& lhs, const mat& rhs) {
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return helpers::doAdd(
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static_cast<const base&>(lhs),
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static_cast<const base&>(rhs));
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}
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friend inline mat PURE operator - (const mat& lhs, const mat& rhs) {
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return helpers::doSub(
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static_cast<const base&>(lhs),
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static_cast<const base&>(rhs));
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}
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// matrix*matrix
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template <size_t D>
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friend mat PURE operator * (
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const mat<TYPE, D, R>& lhs,
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const mat<TYPE, C, D>& rhs) {
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return helpers::doMul(lhs, rhs);
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}
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// matrix*vector
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friend vec<TYPE, R> PURE operator * (
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const mat& lhs, const vec<TYPE, C>& rhs) {
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return helpers::doMul(lhs, rhs);
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}
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// vector*matrix
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friend mat PURE operator * (
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const vec<TYPE, R>& lhs, const mat<TYPE, C, 1>& rhs) {
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return helpers::doMul(lhs, rhs);
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}
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// matrix*scalar
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friend inline mat PURE operator * (const mat& lhs, pTYPE v) {
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return helpers::doMul(lhs, v);
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}
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// scalar*matrix
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friend inline mat PURE operator * (pTYPE v, const mat& rhs) {
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return helpers::doMul(v, rhs);
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}
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// -----------------------------------------------------------------------
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// streaming operator to set the columns of the matrix:
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// example:
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// mat33_t m;
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// m << v0 << v1 << v2;
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// column_builder<> stores the matrix and knows which column to set
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template<size_t PREV_COLUMN>
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struct column_builder {
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mat& matrix;
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explicit column_builder(mat& matrix) : matrix(matrix) { }
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};
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// operator << is not a method of column_builder<> so we can
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// overload it for unauthorized values (partial specialization
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// not allowed in class-scope).
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// we just set the column and return the next column_builder<>
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template<size_t PREV_COLUMN>
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friend column_builder<PREV_COLUMN+1> operator << (
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const column_builder<PREV_COLUMN>& lhs,
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const vec<TYPE, R>& rhs) {
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lhs.matrix[PREV_COLUMN+1] = rhs;
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return column_builder<PREV_COLUMN+1>(lhs.matrix);
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}
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// we return void here so we get a compile-time error if the
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// user tries to set too many columns
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friend void operator << (
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const column_builder<C-2>& lhs,
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const vec<TYPE, R>& rhs) {
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lhs.matrix[C-1] = rhs;
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}
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// this is where the process starts. we set the first columns and
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// return the next column_builder<>
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column_builder<0> operator << (const vec<TYPE, R>& rhs) {
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(*this)[0] = rhs;
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return column_builder<0>(*this);
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}
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};
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// Specialize column matrix so they're exactly equivalent to a vector
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template <typename TYPE, size_t R>
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class mat<TYPE, 1, R> : public vec<TYPE, R> {
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typedef vec<TYPE, R> base;
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public:
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// STL-like interface.
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typedef TYPE value_type;
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typedef TYPE& reference;
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typedef TYPE const& const_reference;
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typedef size_t size_type;
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size_type size() const { return R; }
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enum { ROWS = R, COLS = 1 };
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mat() { }
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explicit mat(const base& rhs) : base(rhs) { }
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mat(const mat& rhs) : base(rhs) { }
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explicit mat(const TYPE& rhs) { helpers::doAssign(*this, rhs); }
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mat& operator=(const mat& rhs) { base::operator=(rhs); return *this; }
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mat& operator=(const base& rhs) { base::operator=(rhs); return *this; }
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mat& operator=(const TYPE& rhs) { return helpers::doAssign(*this, rhs); }
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// we only have one column, so ignore the index
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const base& operator[](size_t) const { return *this; }
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base& operator[](size_t) { return *this; }
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void operator << (const vec<TYPE, R>& rhs) { base::operator[](0) = rhs; }
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};
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// -----------------------------------------------------------------------
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// matrix functions
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// transpose. this handles matrices of matrices
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inline int PURE transpose(int v) { return v; }
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inline float PURE transpose(float v) { return v; }
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inline double PURE transpose(double v) { return v; }
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// Transpose a matrix
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template <typename TYPE, size_t C, size_t R>
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mat<TYPE, R, C> PURE transpose(const mat<TYPE, C, R>& m) {
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mat<TYPE, R, C> r;
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for (size_t i=0 ; i<R ; i++)
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for (size_t j=0 ; j<C ; j++)
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r[i][j] = transpose(m[j][i]);
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return r;
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}
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// Calculate the trace of a matrix
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template <typename TYPE, size_t C> static TYPE trace(const mat<TYPE, C, C>& m) {
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TYPE t;
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for (size_t i=0 ; i<C ; i++)
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t += m[i][i];
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return t;
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}
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// Test positive-semidefiniteness of a matrix
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template <typename TYPE, size_t C>
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static bool isPositiveSemidefinite(const mat<TYPE, C, C>& m, TYPE tolerance) {
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for (size_t i=0 ; i<C ; i++)
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if (m[i][i] < 0)
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return false;
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for (size_t i=0 ; i<C ; i++)
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for (size_t j=i+1 ; j<C ; j++)
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if (fabs(m[i][j] - m[j][i]) > tolerance)
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return false;
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return true;
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}
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// Transpose a vector
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template <
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template<typename T, size_t S> class VEC,
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typename TYPE,
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size_t SIZE
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>
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mat<TYPE, SIZE, 1> PURE transpose(const VEC<TYPE, SIZE>& v) {
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mat<TYPE, SIZE, 1> r;
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for (size_t i=0 ; i<SIZE ; i++)
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r[i][0] = transpose(v[i]);
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return r;
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}
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// -----------------------------------------------------------------------
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// "dumb" matrix inversion
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template<typename T, size_t N>
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mat<T, N, N> PURE invert(const mat<T, N, N>& src) {
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T t;
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size_t swap;
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mat<T, N, N> tmp(src);
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mat<T, N, N> inverse(1);
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for (size_t i=0 ; i<N ; i++) {
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// look for largest element in column
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swap = i;
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for (size_t j=i+1 ; j<N ; j++) {
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if (fabs(tmp[j][i]) > fabs(tmp[i][i])) {
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swap = j;
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}
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}
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if (swap != i) {
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/* swap rows. */
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for (size_t k=0 ; k<N ; k++) {
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t = tmp[i][k];
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tmp[i][k] = tmp[swap][k];
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tmp[swap][k] = t;
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t = inverse[i][k];
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inverse[i][k] = inverse[swap][k];
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inverse[swap][k] = t;
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}
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}
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t = 1 / tmp[i][i];
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for (size_t k=0 ; k<N ; k++) {
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tmp[i][k] *= t;
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inverse[i][k] *= t;
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}
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for (size_t j=0 ; j<N ; j++) {
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if (j != i) {
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t = tmp[j][i];
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for (size_t k=0 ; k<N ; k++) {
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tmp[j][k] -= tmp[i][k] * t;
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inverse[j][k] -= inverse[i][k] * t;
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}
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}
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}
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}
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return inverse;
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}
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// -----------------------------------------------------------------------
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typedef mat<float, 2, 2> mat22_t;
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typedef mat<float, 3, 3> mat33_t;
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typedef mat<float, 4, 4> mat44_t;
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// -----------------------------------------------------------------------
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}; // namespace android
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#endif /* ANDROID_MAT_H */
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