mirror of
https://github.com/jarun/nnn.git
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Add support for Alexey Tourbin's QSORT code (#708)
* Add support for Alexey Tourbin's QSORT code See https://github.com/svpv/qsort * Add benchmark scripts and compilation mode Compile with `make O_BENCHMARK=1`, and run benchmarks with e.g.: ./misc/test/benchmark.sh ./nnn '/' '/usr/bin' '/usr/lib' > benchdata You can then plot basic violin graphs with: ./misc/test/plot-bench.py benchdata * Update style, doc, haiku support, fix lint
This commit is contained in:
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d37356a936
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10
Makefile
10
Makefile
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@ -20,6 +20,8 @@ O_NOBATCH := 0 # no built-in batch renamer
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O_NOFIFO := 0 # no FIFO previewer support
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O_CTX8 := 0 # enable 8 contexts
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O_ICONS := 0 # support icons
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O_QSORT := 0 # use Alexey Tourbin's QSORT implementation
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O_BENCH := 0 # benchmark mode (stops at first user input)
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# convert targets to flags for backwards compatibility
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ifneq ($(filter debug,$(MAKECMDGOALS)),)
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@ -75,6 +77,14 @@ ifeq ($(O_ICONS),1)
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CPPFLAGS += -DICONS
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endif
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ifeq ($(O_QSORT),1)
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CPPFLAGS += -DTOURBIN_QSORT
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endif
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ifeq ($(O_BENCH),1)
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CPPFLAGS += -DBENCH
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endif
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ifeq ($(shell $(PKG_CONFIG) ncursesw && echo 1),1)
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CFLAGS_CURSES ?= $(shell $(PKG_CONFIG) --cflags ncursesw)
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LDLIBS_CURSES ?= $(shell $(PKG_CONFIG) --libs ncursesw)
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@ -18,6 +18,8 @@ O_NOBATCH := 0 # no built-in batch renamer
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O_NOFIFO := 0 # no FIFO previewer support
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O_CTX8 := 0 # enable 8 contexts
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O_ICONS := 0 # support icons
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O_QSORT := 0 # use Alexey Tourbin's QSORT implementation
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O_BENCH := 0 # benchmark mode (stops at first user input)
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# convert targets to flags for backwards compatibility
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ifneq ($(filter debug,$(MAKECMDGOALS)),)
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@ -74,6 +76,14 @@ ifeq ($(O_ICONS),1)
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CPPFLAGS += -DICONS
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endif
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ifeq ($(O_QSORT),1)
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CPPFLAGS += -DTOURBIN_QSORT
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endif
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ifeq ($(O_BENCH),1)
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CPPFLAGS += -DBENCH
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endif
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ifeq ($(shell $(PKG_CONFIG) ncursesw && echo 1),1)
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CFLAGS_CURSES ?= $(shell $(PKG_CONFIG) --cflags ncursesw)
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LDLIBS_CURSES ?= $(shell $(PKG_CONFIG) --libs ncursesw)
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37
misc/test/benchmark.sh
Executable file
37
misc/test/benchmark.sh
Executable file
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@ -0,0 +1,37 @@
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#!/bin/sh
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#
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# Usage: ./misc/test/benchmark.sh ./nnn /tmp/testdir1 ./testdir2 ...
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#
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# Don't forget to build nnn in benchmark mode: make O_BENCH=1
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# Use a test dir filled with genfiles.sh to get interesting output
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# (or maybe /usr/lib/)
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LANG=C
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TIME_VAL=${TIME_VAL:-"real"}
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SAMPLES=${SAMPLES:-100}
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EXE=$1
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bench_val () {
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(time "$1" "$2") 2>&1 |\
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awk '$1=="'"$TIME_VAL"'"{match($2, /[0-9]*\.[0-9]*/) ; print substr($2, RSTART, RLENGTH)}'
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}
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bench_dir () {
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i=$SAMPLES
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printf "$2"
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while [ $((i--)) -gt 0 ] ; do
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printf "\t%s" "$(bench_val "$1" "$2")"
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done
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printf "\n"
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}
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shift
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for dir in "$@" ; do
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bench_dir "$EXE" "$dir"
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done
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20
misc/test/plot-bench.py
Executable file
20
misc/test/plot-bench.py
Executable file
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@ -0,0 +1,20 @@
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#!/usr/bin/env python3
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#
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# Usage: ./plot-bench.py datafile
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# (where datafile is the output of benchmark.sh)
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import matplotlib.pyplot as plt
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import sys
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def bench_file_to_lists(infile):
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return [[float(entry) for entry in line.split('\t')[1:]] for line in infile.readlines()]
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def plot_data(data):
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fig = plt.figure()
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ax = fig.add_axes([0,0,1,1])
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ax.violinplot(data)
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plt.savefig("plot.svg")
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filename = sys.argv[1]
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plot_data(bench_file_to_lists(open(filename)))
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21
src/nnn.c
21
src/nnn.c
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@ -116,6 +116,10 @@
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#include "icons.h"
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#endif
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#ifdef TOURBIN_QSORT
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#include "qsort.h"
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#endif
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/* Macro definitions */
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#define VERSION "3.4"
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#define GENERAL_INFO "BSD 2-Clause\nhttps://github.com/jarun/nnn"
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@ -732,6 +736,14 @@ static haiku_nm_h haiku_hnd;
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#define xisdigit(c) ((unsigned int) (c) - '0' <= 9)
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#define xerror() perror(xitoa(__LINE__))
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#ifdef TOURBIN_QSORT
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#define ENTLESS(i,j) (entrycmpfn(pdents + (i), pdents + (j)) < 0)
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#define ENTSWAP(i,j) (swap_ent((i),(j)))
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#define ENTSORT(pdents, ndents, entrycmpfn) QSORT((ndents), ENTLESS, ENTSWAP)
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#else
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#define ENTSORT(pdents, ndents, entrycmpfn) qsort((pdents), (ndents), sizeof(*(pdents)), (entrycmpfn))
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#endif
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#ifdef __GNUC__
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#define UNUSED(x) UNUSED_##x __attribute__((__unused__))
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#else
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@ -2513,6 +2525,9 @@ static int handle_alt_key(wint_t *wch)
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*/
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static int nextsel(int presel)
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{
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#ifdef BENCH
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return SEL_QUIT;
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#endif
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int c = presel;
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uint i;
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@ -2710,7 +2725,7 @@ static int matches(const char *fltr)
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regfree(&re);
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#endif
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qsort(pdents, ndents, sizeof(*pdents), entrycmpfn);
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ENTSORT(pdents, ndents, entrycmpfn);
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return ndents;
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}
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@ -5122,7 +5137,7 @@ static void populate(char *path, char *lastname)
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if (!ndents)
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return;
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qsort(pdents, ndents, sizeof(*pdents), entrycmpfn);
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ENTSORT(pdents, ndents, entrycmpfn);
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#ifdef DBGMODE
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clock_gettime(CLOCK_REALTIME, &ts2);
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@ -6317,7 +6332,7 @@ nochange:
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if (r == 'd' || r == 'a')
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goto begin;
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qsort(pdents, ndents, sizeof(*pdents), entrycmpfn);
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ENTSORT(pdents, ndents, entrycmpfn);
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move_cursor(ndents ? dentfind(lastname, ndents) : 0, 0);
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}
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continue;
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186
src/qsort.h
Normal file
186
src/qsort.h
Normal file
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@ -0,0 +1,186 @@
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/*
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* Copyright (c) 2013, 2017 Alexey Tourbin
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*
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* Permission is hereby granted, free of charge, to any person obtaining a copy
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* of this software and associated documentation files (the "Software"), to deal
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* in the Software without restriction, including without limitation the rights
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* to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
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* copies of the Software, and to permit persons to whom the Software is
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* furnished to do so, subject to the following conditions:
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*
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* The above copyright notice and this permission notice shall be included in
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* all copies or substantial portions of the Software.
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*
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* THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
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* IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
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* FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
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* AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
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* LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
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* OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE
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* SOFTWARE.
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*/
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/*
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* This is a traditional Quicksort implementation which mostly follows
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* [Sedgewick 1978]. Sorting is performed entirely on array indices,
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* while actual access to the array elements is abstracted out with the
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* user-defined `LESS` and `SWAP` primitives.
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*
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* Synopsis:
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* QSORT(N, LESS, SWAP);
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* where
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* N - the number of elements in A[];
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* LESS(i, j) - compares A[i] to A[j];
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* SWAP(i, j) - exchanges A[i] with A[j].
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*/
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#ifndef QSORT_H
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#define QSORT_H
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/* Sort 3 elements. */
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#define Q_SORT3(q_a1, q_a2, q_a3, Q_LESS, Q_SWAP) \
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do { \
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if (Q_LESS(q_a2, q_a1)) { \
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if (Q_LESS(q_a3, q_a2)) \
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Q_SWAP(q_a1, q_a3); \
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else { \
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Q_SWAP(q_a1, q_a2); \
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if (Q_LESS(q_a3, q_a2)) \
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Q_SWAP(q_a2, q_a3); \
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} \
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} \
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else if (Q_LESS(q_a3, q_a2)) { \
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Q_SWAP(q_a2, q_a3); \
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if (Q_LESS(q_a2, q_a1)) \
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Q_SWAP(q_a1, q_a2); \
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} \
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} while (0)
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/* Partition [q_l,q_r] around a pivot. After partitioning,
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* [q_l,q_j] are the elements that are less than or equal to the pivot,
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* while [q_i,q_r] are the elements greater than or equal to the pivot. */
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#define Q_PARTITION(q_l, q_r, q_i, q_j, Q_UINT, Q_LESS, Q_SWAP) \
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do { \
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/* The middle element, not to be confused with the median. */ \
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Q_UINT q_m = (q_l) + (((q_r) - (q_l)) >> 1); \
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/* Reorder the second, the middle, and the last items. \
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* As [Edelkamp Weiss 2016] explain, using the second element \
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* instead of the first one helps avoid bad behaviour for \
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* decreasingly sorted arrays. This method is used in recent \
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* versions of gcc's std::sort, see gcc bug 58437#c13, although \
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* the details are somewhat different (cf. #c14). */ \
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Q_SORT3((q_l) + 1, q_m, q_r, Q_LESS, Q_SWAP); \
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/* Place the median at the beginning. */ \
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Q_SWAP(q_l, q_m); \
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/* Partition [q_l+2, q_r-1] around the median which is in q_l. \
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* q_i and q_j are initially off by one, they get decremented \
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* in the do-while loops. */ \
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(q_i) = (q_l) + 1; (q_j) = q_r; \
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while (1) { \
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do (q_i)++; while (Q_LESS(q_i, q_l)); \
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do (q_j)--; while (Q_LESS(q_l, q_j)); \
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if ((q_i) >= (q_j)) break; /* Sedgewick says "until j < i" */ \
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Q_SWAP(q_i, q_j); \
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} \
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/* Compensate for the i==j case. */ \
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(q_i) = (q_j) + 1; \
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/* Put the median to its final place. */ \
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Q_SWAP(q_l, q_j); \
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/* The median is not part of the left subfile. */ \
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(q_j)--; \
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} while (0)
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/* Insertion sort is applied to small subfiles - this is contrary to
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* Sedgewick's suggestion to run a separate insertion sort pass after
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* the partitioning is done. The reason I don't like a separate pass
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* is that it triggers extra comparisons, because it can't see that the
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* medians are already in their final positions and need not be rechecked.
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* Since I do not assume that comparisons are cheap, I also do not try
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* to eliminate the (q_j > q_l) boundary check. */
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#define Q_INSERTION_SORT(q_l, q_r, Q_UINT, Q_LESS, Q_SWAP) \
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do { \
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Q_UINT q_i, q_j; \
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/* For each item starting with the second... */ \
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for (q_i = (q_l) + 1; q_i <= (q_r); q_i++) \
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/* move it down the array so that the first part is sorted. */ \
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for (q_j = q_i; q_j > (q_l) && (Q_LESS(q_j, q_j - 1)); q_j--) \
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Q_SWAP(q_j, q_j - 1); \
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} while (0)
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/* When the size of [q_l,q_r], i.e. q_r-q_l+1, is greater than or equal to
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* Q_THRESH, the algorithm performs recursive partitioning. When the size
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* drops below Q_THRESH, the algorithm switches to insertion sort.
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* The minimum valid value is probably 5 (with 5 items, the second and
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* the middle items, the middle itself being rounded down, are distinct). */
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#define Q_THRESH 16
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/* The main loop. */
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#define Q_LOOP(Q_UINT, Q_N, Q_LESS, Q_SWAP) \
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do { \
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Q_UINT q_l = 0; \
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Q_UINT q_r = (Q_N) - 1; \
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Q_UINT q_sp = 0; /* the number of frames pushed to the stack */ \
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struct { Q_UINT q_l, q_r; } \
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/* On 32-bit platforms, to sort a "char[3GB+]" array, \
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* it may take full 32 stack frames. On 64-bit CPUs, \
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* though, the address space is limited to 48 bits. \
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* The usage is further reduced if Q_N has a 32-bit type. */ \
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q_st[sizeof(Q_UINT) > 4 && sizeof(Q_N) > 4 ? 48 : 32]; \
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while (1) { \
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if (q_r - q_l + 1 >= Q_THRESH) { \
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Q_UINT q_i, q_j; \
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Q_PARTITION(q_l, q_r, q_i, q_j, Q_UINT, Q_LESS, Q_SWAP); \
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/* Now have two subfiles: [q_l,q_j] and [q_i,q_r]. \
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* Dealing with them depends on which one is bigger. */ \
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if (q_j - q_l >= q_r - q_i) \
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Q_SUBFILES(q_l, q_j, q_i, q_r); \
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else \
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Q_SUBFILES(q_i, q_r, q_l, q_j); \
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} \
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else { \
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Q_INSERTION_SORT(q_l, q_r, Q_UINT, Q_LESS, Q_SWAP); \
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/* Pop subfiles from the stack, until it gets empty. */ \
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if (q_sp == 0) break; \
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q_sp--; \
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q_l = q_st[q_sp].q_l; \
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q_r = q_st[q_sp].q_r; \
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} \
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} \
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} while (0)
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/* The missing part: dealing with subfiles.
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* Assumes that the first subfile is not smaller than the second. */
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#define Q_SUBFILES(q_l1, q_r1, q_l2, q_r2) \
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do { \
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/* If the second subfile is only a single element, it needs \
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* no further processing. The first subfile will be processed \
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* on the next iteration (both subfiles cannot be only a single \
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* element, due to Q_THRESH). */ \
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if ((q_l2) == (q_r2)) { \
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q_l = q_l1; \
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q_r = q_r1; \
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} \
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else { \
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/* Otherwise, both subfiles need processing. \
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* Push the larger subfile onto the stack. */ \
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q_st[q_sp].q_l = q_l1; \
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q_st[q_sp].q_r = q_r1; \
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q_sp++; \
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/* Process the smaller subfile on the next iteration. */ \
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q_l = q_l2; \
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q_r = q_r2; \
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} \
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} while (0)
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/* And now, ladies and gentlemen, may I proudly present to you... */
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#define QSORT(Q_N, Q_LESS, Q_SWAP) \
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do { \
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if ((Q_N) > 1) \
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/* We could check sizeof(Q_N) and use "unsigned", but at least \
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* on x86_64, this has the performance penalty of up to 5%. */ \
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Q_LOOP(unsigned long, Q_N, Q_LESS, Q_SWAP); \
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} while (0)
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#endif
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/* ex:set ts=8 sts=4 sw=4 noet: */
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