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201 lines
4.0 KiB
201 lines
4.0 KiB
/* |
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* Based on: Jonker, R., & Volgenant, A. (1987). <i>A shortest augmenting path |
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* algorithm for dense and sparse linear assignment problems</i>. Computing, |
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* 38(4), 325-340. |
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*/ |
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#include "cache.h" |
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#include "linear-assignment.h" |
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#define COST(column, row) cost[(column) + column_count * (row)] |
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/* |
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* The parameter `cost` is the cost matrix: the cost to assign column j to row |
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* i is `cost[j + column_count * i]. |
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*/ |
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void compute_assignment(int column_count, int row_count, int *cost, |
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int *column2row, int *row2column) |
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{ |
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int *v, *d; |
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int *free_row, free_count = 0, saved_free_count, *pred, *col; |
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int i, j, phase; |
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memset(column2row, -1, sizeof(int) * column_count); |
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memset(row2column, -1, sizeof(int) * row_count); |
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ALLOC_ARRAY(v, column_count); |
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/* column reduction */ |
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for (j = column_count - 1; j >= 0; j--) { |
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int i1 = 0; |
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for (i = 1; i < row_count; i++) |
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if (COST(j, i1) > COST(j, i)) |
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i1 = i; |
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v[j] = COST(j, i1); |
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if (row2column[i1] == -1) { |
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/* row i1 unassigned */ |
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row2column[i1] = j; |
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column2row[j] = i1; |
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} else { |
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if (row2column[i1] >= 0) |
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row2column[i1] = -2 - row2column[i1]; |
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column2row[j] = -1; |
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} |
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} |
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/* reduction transfer */ |
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ALLOC_ARRAY(free_row, row_count); |
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for (i = 0; i < row_count; i++) { |
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int j1 = row2column[i]; |
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if (j1 == -1) |
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free_row[free_count++] = i; |
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else if (j1 < -1) |
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row2column[i] = -2 - j1; |
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else { |
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int min = COST(!j1, i) - v[!j1]; |
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for (j = 1; j < column_count; j++) |
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if (j != j1 && min > COST(j, i) - v[j]) |
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min = COST(j, i) - v[j]; |
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v[j1] -= min; |
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} |
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} |
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if (free_count == |
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(column_count < row_count ? row_count - column_count : 0)) { |
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free(v); |
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free(free_row); |
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return; |
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} |
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/* augmenting row reduction */ |
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for (phase = 0; phase < 2; phase++) { |
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int k = 0; |
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saved_free_count = free_count; |
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free_count = 0; |
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while (k < saved_free_count) { |
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int u1, u2; |
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int j1 = 0, j2, i0; |
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i = free_row[k++]; |
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u1 = COST(j1, i) - v[j1]; |
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j2 = -1; |
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u2 = INT_MAX; |
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for (j = 1; j < column_count; j++) { |
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int c = COST(j, i) - v[j]; |
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if (u2 > c) { |
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if (u1 < c) { |
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u2 = c; |
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j2 = j; |
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} else { |
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u2 = u1; |
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u1 = c; |
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j2 = j1; |
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j1 = j; |
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} |
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} |
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} |
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if (j2 < 0) { |
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j2 = j1; |
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u2 = u1; |
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} |
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i0 = column2row[j1]; |
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if (u1 < u2) |
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v[j1] -= u2 - u1; |
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else if (i0 >= 0) { |
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j1 = j2; |
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i0 = column2row[j1]; |
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} |
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if (i0 >= 0) { |
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if (u1 < u2) |
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free_row[--k] = i0; |
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else |
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free_row[free_count++] = i0; |
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} |
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row2column[i] = j1; |
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column2row[j1] = i; |
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} |
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} |
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/* augmentation */ |
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saved_free_count = free_count; |
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ALLOC_ARRAY(d, column_count); |
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ALLOC_ARRAY(pred, column_count); |
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ALLOC_ARRAY(col, column_count); |
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for (free_count = 0; free_count < saved_free_count; free_count++) { |
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int i1 = free_row[free_count], low = 0, up = 0, last, k; |
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int min, c, u1; |
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for (j = 0; j < column_count; j++) { |
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d[j] = COST(j, i1) - v[j]; |
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pred[j] = i1; |
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col[j] = j; |
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} |
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j = -1; |
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do { |
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last = low; |
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min = d[col[up++]]; |
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for (k = up; k < column_count; k++) { |
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j = col[k]; |
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c = d[j]; |
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if (c <= min) { |
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if (c < min) { |
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up = low; |
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min = c; |
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} |
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col[k] = col[up]; |
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col[up++] = j; |
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} |
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} |
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for (k = low; k < up; k++) |
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if (column2row[col[k]] == -1) |
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goto update; |
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/* scan a row */ |
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do { |
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int j1 = col[low++]; |
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i = column2row[j1]; |
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u1 = COST(j1, i) - v[j1] - min; |
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for (k = up; k < column_count; k++) { |
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j = col[k]; |
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c = COST(j, i) - v[j] - u1; |
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if (c < d[j]) { |
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d[j] = c; |
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pred[j] = i; |
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if (c == min) { |
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if (column2row[j] == -1) |
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goto update; |
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col[k] = col[up]; |
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col[up++] = j; |
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} |
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} |
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} |
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} while (low != up); |
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} while (low == up); |
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update: |
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/* updating of the column pieces */ |
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for (k = 0; k < last; k++) { |
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int j1 = col[k]; |
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v[j1] += d[j1] - min; |
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} |
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/* augmentation */ |
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do { |
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if (j < 0) |
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BUG("negative j: %d", j); |
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i = pred[j]; |
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column2row[j] = i; |
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SWAP(j, row2column[i]); |
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} while (i1 != i); |
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} |
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free(col); |
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free(pred); |
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free(d); |
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free(v); |
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free(free_row); |
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}
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