Mercurial > hg > match-vamp
view src/Finder.cpp @ 45:a1b7df871496 refactors
Replace char dist (inc dir in masked section) with float dist + separate dir
| author | Chris Cannam |
|---|---|
| date | Thu, 13 Nov 2014 14:43:03 +0000 |
| parents | 6a5d165e5ea4 |
| children | b0ebc3e2c016 |
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/* -*- c-basic-offset: 4 indent-tabs-mode: nil -*- vi:set ts=8 sts=4 sw=4: */ /* Vamp feature extraction plugin using the MATCH audio alignment algorithm. Centre for Digital Music, Queen Mary, University of London. This file copyright 2007 Simon Dixon, Chris Cannam and QMUL. This program is free software; you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation; either version 2 of the License, or (at your option) any later version. See the file COPYING included with this distribution for more information. */ #include "Finder.h" #include "Path.h" #include <algorithm> Finder::Finder(Matcher *p1, Matcher *p2) { if (!p1->m_firstPM) std::cerr << "Warning: wrong args in Finder()" << std::endl; pm1 = p1; pm2 = p2; index1 = 0; index2 = 0; rowRange = new int[2]; colRange = new int[2]; } // constructor Finder::~Finder() { delete[] rowRange; delete[] colRange; } bool Finder::find(int i1, int i2) { if (i1 >= 0) { index1 = i1; index2 = i2 - pm1->m_first[i1]; } return (i1 >= 0) && (i2 >= pm1->m_first[i1]) && (i2 < pm1->m_last[i1]); } // find() void Finder::getColRange(int row, int *range) { range[0] = pm1->m_first[row]; range[1] = pm1->m_last[row]; } // getColRange() void Finder::getRowRange(int col, int *range) { range[0] = pm2->m_first[col]; range[1] = pm2->m_last[col]; } // getRowRange() Matcher::Advance Finder::getExpandDirection(int row, int col) { return getExpandDirection(row, col, false); } // getExpandDirection() Matcher::Advance Finder::getExpandDirection(int row, int col, bool check) { int min = getPathCost(row, col); bestRow = row; bestCol = col; getRowRange(col, rowRange); if (rowRange[1] > row+1) rowRange[1] = row+1; // don't cheat by looking at future :) for (int index = rowRange[0]; index < rowRange[1]; index++) { int tmp = getPathCost(index, col); if (tmp < min) { min = tmp; bestRow = index; } } getColRange(row, colRange); if (colRange[1] > col+1) colRange[1] = col+1; // don't cheat by looking at future :) for (int index = colRange[0]; index < colRange[1]; index++) { int tmp = getPathCost(row, index); if (tmp < min) { min = tmp; bestCol = index; bestRow = row; } } // System.err.print(" BEST: " + bestRow + " " + bestCol + " " + check); // System.err.println(" " + pm1->frameCount + " " + pm2->frameCount); if (check) { // System.err.println(find(row+1, col) + " " + find(row, col+1)); if (!find(row, col+1)) { return Matcher::AdvanceThis; } else if (!find(row+1, col)) { return Matcher::AdvanceOther; } } if (bestRow == row) { if (bestCol == col) { return Matcher::AdvanceBoth; } else { return Matcher::AdvanceThis; } } else if (bestCol == col) { return Matcher::AdvanceOther; } else { return Matcher::AdvanceBoth; } } // getExpandDirection() float Finder::getDistance(int row, int col) { if (find(row, col)) { return pm1->m_distance[row][col - pm1->m_first[row]]; } std::cerr << "getDistance(" << row << "," << col << "): out of bounds" << std::endl; throw "getDistance index out of bounds"; } // getDistance()/2 void Finder::setDistance(int row, int col, float b) { if (find(row, col)) { pm1->m_distance[row][col - pm1->m_first[row]] = b; return; } std::cerr << "setDistance(" << row << "," << col << "," << b << "): out of bounds" << std::endl; throw "setDistance index out of bounds"; } // setDistance() float Finder::getPathCost(int row, int col) { if (find(row, col)) // "1" avoids div by 0 below return pm1->m_bestPathCost[row][col - pm1->m_first[row]] / float(1+row+col); std::cerr << "getPathCost(" << row << "," << col << "): out of bounds" << std::endl; throw "getPathCost index out of bounds"; } // getPathCost() float Finder::getRawPathCost(int row, int col) { if (find(row, col)) return pm1->m_bestPathCost[row][col - pm1->m_first[row]]; std::cerr << "getRawPathCost(" << row << "," << col << "): out of bounds" << std::endl; throw "getRawPathCost index out of bounds"; } // getRawPathCost() void Finder::setPathCost(int row, int col, float cost) { if (find(row, col)) { pm1->m_bestPathCost[row][col - pm1->m_first[row]] = cost; return; } std::cerr << "setPathCost(" << row << "," << col << "," << cost << "): out of bounds" << std::endl; throw "setPathCost index out of bounds"; } // setPathCost() Matcher::Advance Finder::getAdvance() { return pm1->m_advance[index1][index2]; } void Finder::setAdvance(Matcher::Advance a) { pm1->m_advance[index1][index2] = a; } float Finder::getDistance() { return pm1->m_distance[index1][index2]; } // getDistance()/0 void Finder::setDistance(float b) { pm1->m_distance[index1][index2] = b; } // setDistance() float Finder::getPathCost() { return pm1->m_bestPathCost[index1][index2]; } // getPathCost() void Finder::setPathCost(float cost) { pm1->m_bestPathCost[index1][index2] = cost; } // setPathCost() void Finder::recalculatePathCostMatrix(int r1, int c1, int r2, int c2) { if (!find(r1,c1)) { std::cerr << "recalculatePathCostMatrix(" << r1 << "," << c1 << "): out of bounds" << std::endl; throw "recalculatePathCostMatrix index out of bounds"; } int thisRowStart, c; int prevRowStart = 0, prevRowStop = 0; for (int r = r1; r <= r2; r++) { thisRowStart = pm1->m_first[r]; if (thisRowStart < c1) thisRowStart = c1; for (c = thisRowStart; c <= c2; c++) { if (find(r,c)) { int i2 = index2; int newCost = pm1->m_distance[r][i2]; Matcher::Advance dir = Matcher::AdvanceNone; if (r > r1) { // not first row int min = -1; if ((c > prevRowStart) && (c <= prevRowStop)) { // diagonal from (r-1,c-1) min = pm1->m_bestPathCost[r-1][c-pm1->m_first[r-1]-1] + newCost * 2; dir = Matcher::AdvanceBoth; } if ((c >= prevRowStart) && (c < prevRowStop)) { // vertical from (r-1,c) int cost = pm1->m_bestPathCost[r-1][c-pm1->m_first[r-1]] + newCost; if ((min == -1) || (cost < min)) { min = cost; dir = Matcher::AdvanceThis; } } if (c > thisRowStart) { // horizontal from (r,c-1) int cost =pm1->m_bestPathCost[r][i2-1]+newCost; if ((min == -1) || (cost < min)) { min = cost; dir = Matcher::AdvanceOther; } } pm1->m_bestPathCost[r][i2] = min; } else if (c > thisRowStart) { // first row // horizontal from (r,c-1) pm1->m_bestPathCost[r][i2] = pm1->m_bestPathCost[r][i2-1] + newCost; dir = Matcher::AdvanceOther; } pm1->m_advance[r][i2] = dir; } else break; // end of row } prevRowStart = thisRowStart; prevRowStop = c; } } // recalculatePathCostMatrix() int Finder::retrievePath(bool smooth, vector<int> &pathx, vector<int> &pathy) { int x = pm2->getFrameCount() - 1; int y = pm1->getFrameCount() - 1; pathx.clear(); pathy.clear(); while (find(y, x) && ((x > 0) || (y > 0))) { // cerr << "x = " << x << ", y = " << y; pathx.push_back(x); pathy.push_back(y); switch (getAdvance()) { case Matcher::AdvanceThis: // cerr << ", going down (dist = " << (int)getDistance() << ")" << endl; y--; break; case Matcher::AdvanceOther: // cerr << ", going left (dist = " << (int)getDistance() << ")" << endl; x--; break; case Matcher::AdvanceBoth: // cerr << ", going diag (dist = " << (int)getDistance() << ")" << endl; x--; y--; break; case Matcher::AdvanceNone: // this would indicate a bug, but we wouldn't want to hang // cerr << "WARNING: Neither matcher advanced in path backtrack at (" << x << "," << y << ")" << endl; if (x > y) { x--; } else { y--; } break; } } std::reverse(pathx.begin(), pathx.end()); std::reverse(pathy.begin(), pathy.end()); if (smooth) { int smoothedLen = Path().smooth(pathx, pathy, pathx.size()); return smoothedLen; } else { return pathx.size(); } }