/* * Copyright © 2020 Benjamin Otte * * This library is free software; you can redistribute it and/or * modify it under the terms of the GNU Lesser General Public * License as published by the Free Software Foundation; either * version 2 of the License, or (at your option) any later version. * * This library is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU * Lesser General Public License for more details. * * You should have received a copy of the GNU Lesser General Public * License along with this library. If not, see . */ #ifndef __GTK_TIMSORT_PRIVATE_H__ #define __GTK_TIMSORT_PRIVATE_H__ #include /* The maximum number of entries in a GtkTimState's pending-runs stack. * This is enough to sort arrays of size up to about * 32 * phi ** GTK_TIM_SORT_MAX_PENDING * where phi ~= 1.618. 85 is ridiculously large enough, good for an array * with 2**64 elements. */ #define GTK_TIM_SORT_MAX_PENDING 86 typedef struct _GtkTimSort GtkTimSort; typedef struct _GtkTimSortRun GtkTimSortRun; struct _GtkTimSortRun { void *base; gsize len; }; struct _GtkTimSort { /* * Size of elements. Used to decide on fast paths. */ gsize element_size; /* The comparator for this sort. */ GCompareDataFunc compare_func; gpointer data; /* * The array being sorted. */ gpointer base; gsize size; /* * The maximum size of a merge. It's guaranteed >0 and user-provided. * See the comments for gtk_tim_sort_set_max_merge_size() for details. */ gsize max_merge_size; /* * This controls when we get *into* galloping mode. It is initialized * to MIN_GALLOP. The mergeLo and mergeHi methods nudge it higher for * random data, and lower for highly structured data. */ gsize min_gallop; /* * The minimum run length. See compute_min_run() for details. */ gsize min_run; /* * Temp storage for merges. */ void *tmp; gsize tmp_length; /* * A stack of pending runs yet to be merged. Run i starts at * address base[i] and extends for len[i] elements. It's always * true (so long as the indices are in bounds) that: * * runBase[i] + runLen[i] == runBase[i + 1] * * so we could cut the storage for this, but it's a minor amount, * and keeping all the info explicit simplifies the code. */ gsize pending_runs; // Number of pending runs on stack GtkTimSortRun run[GTK_TIM_SORT_MAX_PENDING]; }; void gtk_tim_sort_init (GtkTimSort *self, gpointer base, gsize size, gsize element_size, GCompareDataFunc compare_func, gpointer data); void gtk_tim_sort_finish (GtkTimSort *self); void gtk_tim_sort_get_runs (GtkTimSort *self, gsize runs[GTK_TIM_SORT_MAX_PENDING + 1]); void gtk_tim_sort_set_runs (GtkTimSort *self, gsize *runs); void gtk_tim_sort_set_max_merge_size (GtkTimSort *self, gsize max_merge_size); gboolean gtk_tim_sort_step (GtkTimSort *self, GtkTimSortRun *out_change); void gtk_tim_sort (gpointer base, gsize size, gsize element_size, GCompareDataFunc compare_func, gpointer user_data); #endif /* __GTK_TIMSORT_PRIVATE_H__ */