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62 lines
2.2 KiB
62 lines
2.2 KiB
#pragma once
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#include "wavelet_constants.hpp"
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/* Rewrite of the basic functions
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* This will make the adaption for the parallel case easier,
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* because we can explicitly pass the two elements which are out of range
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* (these are normally wrap-around values)
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*
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* These are also faster (testcase: size = 8, stride = 1, iterations = 100000)
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* V2 0.00377901
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* V1 0.0345114
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*
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* But also less abstract (which can be both a good thing and bad thing)
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*
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*/
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namespace wvlt{
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inline namespace V2 {
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double inner_product(double* x, double const* coef, unsigned int stride){
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return x[0] * coef[0] + x[stride] * coef[1] + x[2*stride] * coef[2] + x[3*stride] * coef[3];
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}
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// will overwrite x, x1 and x2 are next elements, or wrap around
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// size is size of vector x (so x[size-1] is valid)
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void wavelet_mul(double* x, double x1, double x2, unsigned int size, unsigned int stride){
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assert(is_pow_of_two(size) && is_pow_of_two(stride) && 4*stride <= size);
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for(int i = 0; i < size - 2*stride; i += 2*stride){
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double y1 = inner_product(x + i, evn_coef, stride);
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double y2 = inner_product(x + i, odd_coef, stride);
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x[i] = y1;
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x[i+stride] = y2;
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}
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int i = size - 2*stride;
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double y1 = x[i] * evn_coef[0] + x[i+stride] * evn_coef[1] + x1 * evn_coef[2] + x2 * evn_coef[3];
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double y2 = x[i] * odd_coef[0] + x[i+stride] * odd_coef[1] + x1 * odd_coef[2] + x2 * odd_coef[3];
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x[i] = y1;
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x[i+stride] = y2;
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}
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// will overwrite x, x2 and x1 are previous elements, or wrap around
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// size is size of vector x (so x[size-1] is valid)
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void wavelet_inv(double* x, double x1, double x2, unsigned int size, unsigned int stride){
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assert(is_pow_of_two(size) && is_pow_of_two(stride) && 4*stride <= size);
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for(int i = size - 2*stride; i >= 2*stride; i -= 2*stride){
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double y1 = inner_product(x + i - 2*stride, evn_coef_inv, stride);
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double y2 = inner_product(x + i - 2*stride, odd_coef_inv, stride);
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x[i] = y1;
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x[i+stride] = y2;
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}
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int i = 0;
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double y1 = x2 * evn_coef_inv[0] + x1 * evn_coef_inv[1] + x[i] * evn_coef_inv[2] + x[i+stride] * evn_coef_inv[3];
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double y2 = x2 * odd_coef_inv[0] + x1 * odd_coef_inv[1] + x[i] * odd_coef_inv[2] + x[i+stride] * odd_coef_inv[3];
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x[i] = y1;
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x[i+stride] = y2;
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}
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}
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}
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