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network.c @ 8f52c76

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stereo-2025

Last change on this file since 8f52c76 was beca3dd, checked in by Olly Betts <olly@…>, 7 months ago

Initialise sflags for stnZ from delta star

Avoids use of an uninitialised value.

Property mode set to 100644

File size: 21.7 KB

Rev	Line
[ff6cfe1]	1	/* network.c
[5853657]	2	* Survex network reduction - find patterns and apply network reductions
[37c5191]	3	* Copyright (C) 1991-2002,2005,2024 Olly Betts
[846746e]	4	*
[89231c4]	5	* This program is free software; you can redistribute it and/or modify
	6	* it under the terms of the GNU General Public License as published by
	7	* the Free Software Foundation; either version 2 of the License, or
	8	* (at your option) any later version.
[846746e]	9	*
	10	* This program is distributed in the hope that it will be useful,
	11	* but WITHOUT ANY WARRANTY; without even the implied warranty of
[89231c4]	12	* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
	13	* GNU General Public License for more details.
[846746e]	14	*
[89231c4]	15	* You should have received a copy of the GNU General Public License
	16	* along with this program; if not, write to the Free Software
[ecbc6c18]	17	* Foundation, Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA
[a420b49]	18	*/
	19
[032ed06]	20	#if 0
[564f471]	21	#define DEBUG_INVALID 1
	22	#define VALIDATE 1
[5853657]	23	#define DUMP_NETWORK 1
[032ed06]	24	#endif
	25
[4c83f84]	26	#include <config.h>
[d1b1380]	27
	28	#include "validate.h"
	29	#include "debug.h"
[a420b49]	30	#include "cavern.h"
[4167edd]	31	#include "message.h"
[d1b1380]	32	#include "netbits.h"
	33	#include "network.h"
	34	#include "out.h"
	35
[37c5191]	36	typedef struct reduction {
	37	struct reduction *next;
	38	enum {
	39	TYPE_PARALLEL,
	40	TYPE_LOLLIPOP,
	41	TYPE_DELTASTAR,
	42	} type;
	43	linkfor* join[];
	44	} reduction;
[4d695ce3]	45
[37c5191]	46	#define allocate_reduction(N) osmalloc(sizeof(reduction) + (N) * sizeof(linkfor*))
[d1b1380]	47
[37c5191]	48	// Head of linked list of reductions.
	49	static reduction *reduction_stack;
[d1b1380]	50
[5853657]	51	/* can be altered by -z<letters> on command line */
	52	unsigned long optimize = BITA('l') \| BITA('p') \| BITA('d');
	53	/* Lollipops, Parallel legs, Iterate mx, Delta* */
[a420b49]	54
	55	extern void
	56	remove_subnets(void)
	57	{
	58	node stn, stn2, stn3, stn4;
	59	int dirn, dirn2, dirn3, dirn4;
[37c5191]	60	reduction *trav;
[a420b49]	61	linkfor newleg, newleg2;
[63d4f07]	62	bool fMore = true;
[a420b49]	63
[37c5191]	64	reduction_stack = NULL;
[cb3d1e2]	65
[a420b49]	66	out_current_action(msg(/Simplifying network/129));
	67
	68	while (fMore) {
[63d4f07]	69	fMore = false;
[a420b49]	70	if (optimize & BITA('l')) {
[1e431a4e]	71	#if PRINT_NETBITS
	72	printf("replacing lollipops\n");
	73	#endif
[a420b49]	74	/* NB can have non-fixed 0 nodes */
[564f471]	75	FOR_EACH_STN(stn, stnlist) {
[bf9faf6]	76	if (three_node(stn)) {
[a420b49]	77	dirn = -1;
	78	if (stn->leg[1]->l.to == stn) dirn++;
	79	if (stn->leg[0]->l.to == stn) dirn += 2;
	80	if (dirn < 0) continue;
	81
	82	stn2 = stn->leg[dirn]->l.to;
[f189010]	83	if (fixed(stn2)) {
	84	/* _
	85	* ( )
	86	* * stn
	87	* \|
	88	* * stn2 (fixed)
	89	* : (may have other connections)
	90	*
	91	* The leg forming the "stick" of the lollipop is
	92	* articulating so we can just fix stn with coordinates
	93	* calculated by adding or subtracting the leg's vector.
	94	*/
	95	linkfor *leg = stn->leg[dirn];
	96	linkfor *rev_leg = reverse_leg(leg);
	97	leg->l.reverse \|= FLAG_ARTICULATION;
	98	rev_leg->l.reverse \|= FLAG_ARTICULATION;
	99	if (data_here(leg)) {
	100	subdd(&POSD(stn), &POSD(stn2), &leg->d);
	101	} else {
	102	adddd(&POSD(stn), &POSD(stn2), &rev_leg->d);
	103	}
	104	remove_stn_from_list(&stnlist, stn);
	105	add_stn_to_list(&fixedlist, stn);
	106	continue;
	107	}
[a420b49]	108
[4c07c51]	109	SVX_ASSERT(three_node(stn2));
[a420b49]	110
[f189010]	111	/* _
	112	* ( )
	113	* * stn
	114	* \|
	115	* * stn2
	116	* / \
	117	* stn4 * * stn3 --> stn4 --- stn3
	118	* : : : :
	119	*/
[a420b49]	120	dirn2 = reverse_leg_dirn(stn->leg[dirn]);
	121	dirn2 = (dirn2 + 1) % 3;
	122	stn3 = stn2->leg[dirn2]->l.to;
	123	if (stn2 == stn3) continue; /* dumb-bell - leave alone */
	124
	125	dirn3 = reverse_leg_dirn(stn2->leg[dirn2]);
	126
[37c5191]	127	trav = allocate_reduction(2);
	128	trav->type = TYPE_LOLLIPOP;
	129
[8676839]	130	newleg2 = (linkfor*)osnew(linkcommon);
[a420b49]	131
	132	newleg = copy_link(stn3->leg[dirn3]);
	133
	134	dirn2 = (dirn2 + 1) % 3;
	135	stn4 = stn2->leg[dirn2]->l.to;
	136	dirn4 = reverse_leg_dirn(stn2->leg[dirn2]);
[d1b1380]	137	#if 0
[37c5191]	138	printf("Lollipop found with stn...stn4 = \n");
[a420b49]	139	print_prefix(stn->name); putnl();
	140	print_prefix(stn2->name); putnl();
	141	print_prefix(stn3->name); putnl();
	142	print_prefix(stn4->name); putnl();
[d1b1380]	143	#endif
	144
[a420b49]	145	addto_link(newleg, stn2->leg[dirn2]);
[d1b1380]	146
[564f471]	147	/* remove stn and stn2 */
	148	remove_stn_from_list(&stnlist, stn);
	149	remove_stn_from_list(&stnlist, stn2);
[d1b1380]	150
[37c5191]	151	/* stack lollipop and replace with a leg between stn3 and stn4 */
	152	trav->join[0] = stn3->leg[dirn3];
[a420b49]	153	newleg->l.to = stn4;
	154	newleg->l.reverse = dirn4 \| FLAG_DATAHERE \| FLAG_REPLACEMENTLEG;
[d1b1380]	155
[37c5191]	156	trav->join[1] = stn4->leg[dirn4];
[a420b49]	157	newleg2->l.to = stn3;
	158	newleg2->l.reverse = dirn3 \| FLAG_REPLACEMENTLEG;
[d1b1380]	159
[a420b49]	160	stn3->leg[dirn3] = newleg;
	161	stn4->leg[dirn4] = newleg2;
[d1b1380]	162
[37c5191]	163	trav->next = reduction_stack;
[032ed06]	164	#if PRINT_NETBITS
[37c5191]	165	printf("remove lollipop\n");
[a420b49]	166	#endif
[37c5191]	167	reduction_stack = trav;
[63d4f07]	168	fMore = true;
[a420b49]	169	}
	170	}
[d1b1380]	171	}
	172
[a420b49]	173	if (optimize & BITA('p')) {
[032ed06]	174	#if PRINT_NETBITS
	175	printf("replacing parallel legs\n");
	176	#endif
[564f471]	177	FOR_EACH_STN(stn, stnlist) {
[a420b49]	178	/*
[5c05606]	179	* : :
	180	* * stn3 * stn3
	181	* \| \|
	182	* * stn \|
	183	* ( ) --> \|
	184	* * stn2 \|
	185	* \| \|
	186	* * stn4 * stn4
	187	* : :
[a420b49]	188	*/
[bf9faf6]	189	if (three_node(stn)) {
[a420b49]	190	stn2 = stn->leg[0]->l.to;
	191	if (stn2 == stn->leg[1]->l.to) {
	192	dirn = 2;
	193	} else if (stn2 == stn->leg[2]->l.to) {
	194	dirn = 1;
	195	} else {
	196	if (stn->leg[1]->l.to != stn->leg[2]->l.to) continue;
	197	stn2 = stn->leg[1]->l.to;
	198	dirn = 0;
	199	}
	200
[37c5191]	201	/* stn == stn2 => lollipop */
[01d9c43b]	202	if (stn == stn2 \|\| fixed(stn2)) continue;
[a420b49]	203
[4c07c51]	204	SVX_ASSERT(three_node(stn2));
[a420b49]	205
	206	stn3 = stn->leg[dirn]->l.to;
	207	/* 3 parallel legs (=> nothing else) so leave */
	208	if (stn3 == stn2) continue;
	209
	210	dirn3 = reverse_leg_dirn(stn->leg[dirn]);
	211	dirn2 = (0 + 1 + 2 - reverse_leg_dirn(stn->leg[(dirn + 1) % 3])
	212	- reverse_leg_dirn(stn->leg[(dirn + 2) % 3]));
	213
	214	stn4 = stn2->leg[dirn2]->l.to;
	215	dirn4 = reverse_leg_dirn(stn2->leg[dirn2]);
	216
[37c5191]	217	trav = allocate_reduction(2);
	218	trav->type = TYPE_PARALLEL;
[a420b49]	219
	220	newleg = copy_link(stn->leg[(dirn + 1) % 3]);
	221	/* use newleg2 for scratch */
	222	newleg2 = copy_link(stn->leg[(dirn + 2) % 3]);
	223	{
[43d6ecfe]	224	#ifdef NO_COVARIANCES
[dac18d8]	225	vars sum;
	226	var prod;
[eb18f4d]	227	delta temp, temp2;
[dac18d8]	228	addss(&sum, &newleg->v, &newleg2->v);
[4c07c51]	229	SVX_ASSERT2(!fZeros(&sum), "loop of zero variance found");
[dac18d8]	230	mulss(&prod, &newleg->v, &newleg2->v);
	231	mulsd(&temp, &newleg2->v, &newleg->d);
	232	mulsd(&temp2, &newleg->v, &newleg2->d);
[a420b49]	233	adddd(&temp, &temp, &temp2);
[dac18d8]	234	divds(&newleg->d, &temp, &sum);
	235	sdivvs(&newleg->v, &prod, &sum);
[43d6ecfe]	236	#else
[59f2dbb]	237	svar inv1, inv2, sum;
[eb18f4d]	238	delta temp, temp2;
[43d6ecfe]	239	/* if leg one is an equate, we can just ignore leg two
	240	* whatever it is */
[dac18d8]	241	if (invert_svar(&inv1, &newleg->v)) {
	242	if (invert_svar(&inv2, &newleg2->v)) {
[59f2dbb]	243	addss(&sum, &inv1, &inv2);
[dac18d8]	244	if (!invert_svar(&newleg->v, &sum)) {
[2d3f65a]	245	BUG("matrix singular in parallel legs replacement");
[43d6ecfe]	246	}
[cb3d1e2]	247
[59f2dbb]	248	mulsd(&temp, &inv1, &newleg->d);
	249	mulsd(&temp2, &inv2, &newleg2->d);
[43d6ecfe]	250	adddd(&temp, &temp, &temp2);
[59f2dbb]	251	mulsd(&newleg->d, &newleg->v, &temp);
[43d6ecfe]	252	} else {
	253	/* leg two is an equate, so just ignore leg 1 */
	254	linkfor *tmpleg;
	255	tmpleg = newleg;
	256	newleg = newleg2;
	257	newleg2 = tmpleg;
	258	}
	259	}
	260	#endif
[a420b49]	261	}
	262	osfree(newleg2);
[8676839]	263	newleg2 = (linkfor*)osnew(linkcommon);
[a420b49]	264
	265	addto_link(newleg, stn2->leg[dirn2]);
	266	addto_link(newleg, stn3->leg[dirn3]);
[d1b1380]	267
	268	#if 0
[a420b49]	269	printf("Parallel found with stn...stn4 = \n");
	270	(dump_node)(stn); (dump_node)(stn2); (dump_node)(stn3); (dump_node)(stn4);
	271	printf("dirns = %d %d %d %d\n", dirn, dirn2, dirn3, dirn4);
[d1b1380]	272	#endif
[4c07c51]	273	SVX_ASSERT2(stn3->leg[dirn3]->l.to == stn, "stn3 end of \|\| doesn't recip");
	274	SVX_ASSERT2(stn4->leg[dirn4]->l.to == stn2, "stn4 end of \|\| doesn't recip");
	275	SVX_ASSERT2(stn->leg[(dirn+1)%3]->l.to == stn2 && stn->leg[(dirn + 2) % 3]->l.to == stn2, "\|\| legs aren't");
[a420b49]	276
[564f471]	277	/* remove stn and stn2 (already discarded triple parallel) */
[a420b49]	278	/* so stn!=stn4 <=> stn2!=stn3 */
[564f471]	279	remove_stn_from_list(&stnlist, stn);
	280	remove_stn_from_list(&stnlist, stn2);
[a420b49]	281
	282	/* stack parallel and replace with a leg between stn3 and stn4 */
[37c5191]	283	trav->join[0] = stn3->leg[dirn3];
[a420b49]	284	newleg->l.to = stn4;
	285	newleg->l.reverse = dirn4 \| FLAG_DATAHERE \| FLAG_REPLACEMENTLEG;
	286
[37c5191]	287	trav->join[1] = stn4->leg[dirn4];
[a420b49]	288	newleg2->l.to = stn3;
	289	newleg2->l.reverse = dirn3 \| FLAG_REPLACEMENTLEG;
	290
	291	stn3->leg[dirn3] = newleg;
	292	stn4->leg[dirn4] = newleg2;
	293
[37c5191]	294	trav->next = reduction_stack;
[032ed06]	295	#if PRINT_NETBITS
	296	printf("remove parallel\n");
[a420b49]	297	#endif
[37c5191]	298	reduction_stack = trav;
[63d4f07]	299	fMore = true;
[a420b49]	300	}
	301	}
[d1b1380]	302	}
	303
[a420b49]	304	if (optimize & BITA('d')) {
	305	node stn5, stn6;
[66be513]	306	int dirn5, dirn6;
[a420b49]	307	linkfor legAB, legBC, *legCA;
[1e431a4e]	308	#if PRINT_NETBITS
	309	printf("replacing deltas with stars\n");
	310	#endif
[564f471]	311	FOR_EACH_STN(stn, stnlist) {
[a420b49]	312	/* printf("");/
	313	/*
[5c05606]	314	* : :
	315	* * stn5 * stn5
	316	* \| \|
	317	* * stn2 \|
	318	* / \ --> O stnZ
	319	* \| \| / \
	320	* stn --- stn3 / \
	321	* / \ / \
	322	* stn4 * * stn6 stn4 * * stn6
	323	* : : : :
[a420b49]	324	*/
[bf9faf6]	325	if (three_node(stn)) {
[66be513]	326	for (int dirn12 = 0; dirn12 <= 2; dirn12++) {
	327	stn2 = stn->leg[dirn12]->l.to;
[01d9c43b]	328	if (stn2 == stn \|\| fixed(stn2)) continue;
[66be513]	329	SVX_ASSERT(three_node(stn2));
	330	int dirn13 = (dirn12 + 1) % 3;
	331	stn3 = stn->leg[dirn13]->l.to;
	332	if (stn3 == stn \|\| stn3 == stn2 \|\| fixed(stn3)) continue;
	333	SVX_ASSERT(three_node(stn3));
	334	int dirn23 = reverse_leg_dirn(stn->leg[dirn12]);
	335	dirn23 = (dirn23 + 1) % 3;
	336	if (stn2->leg[dirn23]->l.to != stn3) {
	337	dirn23 = (dirn23 + 1) % 3;
	338	if (stn2->leg[dirn23]->l.to != stn3) {
	339	continue;
	340	}
[a420b49]	341	}
[66be513]	342	legAB = copy_link(stn->leg[dirn12]);
	343	legBC = copy_link(stn2->leg[dirn23]);
	344	legCA = copy_link(stn3->leg[reverse_leg_dirn(stn->leg[dirn13])]);
	345	dirn = (0 + 1 + 2) - dirn12 - dirn13;
	346	dirn2 = (0 + 1 + 2) - dirn23 - reverse_leg_dirn(stn->leg[dirn12]);
	347	dirn3 = (0 + 1 + 2) - reverse_leg_dirn(stn->leg[dirn13]) - reverse_leg_dirn(stn2->leg[dirn23]);
	348	stn4 = stn->leg[dirn]->l.to;
	349	stn5 = stn2->leg[dirn2]->l.to;
	350	stn6 = stn3->leg[dirn3]->l.to;
	351	if (stn4 == stn2 \|\| stn4 == stn3 \|\| stn5 == stn3) continue;
	352	dirn4 = reverse_leg_dirn(stn->leg[dirn]);
	353	dirn5 = reverse_leg_dirn(stn2->leg[dirn2]);
	354	dirn6 = reverse_leg_dirn(stn3->leg[dirn3]);
[d1b1380]	355	#if 0
[66be513]	356	printf("delta-star, stn ... stn6 are:\n");
	357	(dump_node)(stn);
	358	(dump_node)(stn2);
	359	(dump_node)(stn3);
	360	(dump_node)(stn4);
	361	(dump_node)(stn5);
	362	(dump_node)(stn6);
[d1b1380]	363	#endif
[66be513]	364	SVX_ASSERT(stn4->leg[dirn4]->l.to == stn);
	365	SVX_ASSERT(stn5->leg[dirn5]->l.to == stn2);
	366	SVX_ASSERT(stn6->leg[dirn6]->l.to == stn3);
[a420b49]	367
[37c5191]	368	trav = allocate_reduction(3);
	369	trav->type = TYPE_DELTASTAR;
[66be513]	370	{
[e322717]	371	linkfor legAZ, legBZ, *legCZ;
[a420b49]	372	node *stnZ;
	373	prefix *nameZ;
[59f2dbb]	374	svar invAB, invBC, invCA, tmp, sum, inv;
	375	var vtmp;
	376	svar sumAZBZ, sumBZCZ, sumCZAZ;
[eb18f4d]	377	delta temp, temp2;
[cb3d1e2]	378
[43d6ecfe]	379	/* FIXME: ought to handle cases when some legs are
	380	* equates, but handle as a special case maybe? */
[dac18d8]	381	if (!invert_svar(&invAB, &legAB->v)) break;
	382	if (!invert_svar(&invBC, &legBC->v)) break;
	383	if (!invert_svar(&invCA, &legCA->v)) break;
[43d6ecfe]	384
[59f2dbb]	385	addss(&sum, &legBC->v, &legCA->v);
	386	addss(&tmp, &sum, &legAB->v);
[dac18d8]	387	if (!invert_svar(&inv, &tmp)) {
[647407d]	388	/* impossible - loop of zero variance */
	389	BUG("loop of zero variance found");
	390	}
[cb3d1e2]	391
[e322717]	392	legAZ = osnew(linkfor);
	393	legBZ = osnew(linkfor);
	394	legCZ = osnew(linkfor);
	395
[43d6ecfe]	396	/* AZBZ */
[c861f75]	397	/* done above: addvv(&sum, &legBC->v, &legCA->v); */
[59f2dbb]	398	mulss(&vtmp, &sum, &inv);
	399	smulvs(&sumAZBZ, &vtmp, &legAB->v);
[43d6ecfe]	400
	401	adddd(&temp, &legBC->d, &legCA->d);
[59f2dbb]	402	divds(&temp2, &temp, &sum);
	403	mulsd(&temp, &invAB, &legAB->d);
[c861f75]	404	subdd(&temp, &temp2, &temp);
[59f2dbb]	405	mulsd(&legBZ->d, &sumAZBZ, &temp);
[43d6ecfe]	406
[c861f75]	407	/* leg vectors after transform are determined up to
	408	* a constant addition, so arbitrarily fix AZ = 0 */
	409	legAZ->d[2] = legAZ->d[1] = legAZ->d[0] = 0;
[43d6ecfe]	410
[c861f75]	411	/* BZCZ */
[59f2dbb]	412	addss(&sum, &legCA->v, &legAB->v);
	413	mulss(&vtmp, &sum, &inv);
	414	smulvs(&sumBZCZ, &vtmp, &legBC->v);
[43d6ecfe]	415
	416	/* CZAZ */
[59f2dbb]	417	addss(&sum, &legAB->v, &legBC->v);
	418	mulss(&vtmp, &sum, &inv);
	419	smulvs(&sumCZAZ, &vtmp, &legCA->v);
[43d6ecfe]	420
	421	adddd(&temp, &legAB->d, &legBC->d);
[59f2dbb]	422	divds(&temp2, &temp, &sum);
	423	mulsd(&temp, &invCA, &legCA->d);
[c861f75]	424	/* NB: swapped arguments to negate answer for legCZ->d */
	425	subdd(&temp, &temp, &temp2);
[59f2dbb]	426	mulsd(&legCZ->d, &sumCZAZ, &temp);
[43d6ecfe]	427
[e322717]	428	osfree(legAB);
	429	osfree(legBC);
	430	osfree(legCA);
	431
[43d6ecfe]	432	/* Now add two, subtract third, and scale by 0.5 */
[59f2dbb]	433	addss(&sum, &sumAZBZ, &sumCZAZ);
	434	subss(&sum, &sum, &sumBZCZ);
	435	mulsc(&legAZ->v, &sum, 0.5);
[43d6ecfe]	436
[59f2dbb]	437	addss(&sum, &sumBZCZ, &sumAZBZ);
	438	subss(&sum, &sum, &sumCZAZ);
	439	mulsc(&legBZ->v, &sum, 0.5);
[43d6ecfe]	440
[59f2dbb]	441	addss(&sum, &sumCZAZ, &sumBZCZ);
	442	subss(&sum, &sum, &sumAZBZ);
	443	mulsc(&legCZ->v, &sum, 0.5);
[43d6ecfe]	444
[a420b49]	445	nameZ = osnew(prefix);
[be97baf]	446	nameZ->pos = osnew(pos);
[ba84079]	447	nameZ->ident.p = NULL;
[6adb88c]	448	nameZ->shape = 3;
[a420b49]	449	stnZ = osnew(node);
	450	stnZ->name = nameZ;
	451	nameZ->stn = stnZ;
	452	nameZ->up = NULL;
[932f7e9]	453	nameZ->min_export = nameZ->max_export = 0;
[beca3dd]	454	nameZ->sflags = 0;
[a420b49]	455	unfix(stnZ);
[564f471]	456	add_stn_to_list(&stnlist, stnZ);
[a420b49]	457	legAZ->l.to = stnZ;
	458	legAZ->l.reverse = 0 \| FLAG_DATAHERE \| FLAG_REPLACEMENTLEG;
	459	legBZ->l.to = stnZ;
	460	legBZ->l.reverse = 1 \| FLAG_DATAHERE \| FLAG_REPLACEMENTLEG;
	461	legCZ->l.to = stnZ;
	462	legCZ->l.reverse = 2 \| FLAG_DATAHERE \| FLAG_REPLACEMENTLEG;
[8676839]	463	stnZ->leg[0] = (linkfor*)osnew(linkcommon);
	464	stnZ->leg[1] = (linkfor*)osnew(linkcommon);
	465	stnZ->leg[2] = (linkfor*)osnew(linkcommon);
[a420b49]	466	stnZ->leg[0]->l.to = stn4;
	467	stnZ->leg[0]->l.reverse = dirn4;
	468	stnZ->leg[1]->l.to = stn5;
	469	stnZ->leg[1]->l.reverse = dirn5;
	470	stnZ->leg[2]->l.to = stn6;
	471	stnZ->leg[2]->l.reverse = dirn6;
[dbb4e19]	472	addto_link(legAZ, stn4->leg[dirn4]);
	473	addto_link(legBZ, stn5->leg[dirn5]);
	474	addto_link(legCZ, stn6->leg[dirn6]);
[a420b49]	475	/* stack stuff */
[37c5191]	476	trav->join[0] = stn4->leg[dirn4];
	477	trav->join[1] = stn5->leg[dirn5];
	478	trav->join[2] = stn6->leg[dirn6];
	479	trav->next = reduction_stack;
[032ed06]	480	#if PRINT_NETBITS
	481	printf("remove delta*\n");
[a420b49]	482	#endif
[37c5191]	483	reduction_stack = trav;
[63d4f07]	484	fMore = true;
[cb3d1e2]	485
[564f471]	486	remove_stn_from_list(&stnlist, stn);
	487	remove_stn_from_list(&stnlist, stn2);
	488	remove_stn_from_list(&stnlist, stn3);
[a420b49]	489	stn4->leg[dirn4] = legAZ;
	490	stn5->leg[dirn5] = legBZ;
	491	stn6->leg[dirn6] = legCZ;
[66be513]	492	}
	493	break;
	494	}
[a420b49]	495	}
	496	}
	497	}
[d1b1380]	498
[a420b49]	499	}
[d1b1380]	500	}
	501
[5853657]	502	extern void
[a420b49]	503	replace_subnets(void)
	504	{
[eb18f4d]	505	node stn2, stn3, *stn4;
	506	int dirn2, dirn3, dirn4;
[4d695ce3]	507
	508	/* help to catch bad accesses */
[eb18f4d]	509	stn2 = stn3 = stn4 = NULL;
	510	dirn2 = dirn3 = dirn4 = 0;
[4d695ce3]	511
[a420b49]	512	out_current_action(msg(/Calculating network/130));
[4d695ce3]	513
[37c5191]	514	while (reduction_stack != NULL) {
	515	/* printf("replace_subnets() type %d\n", reduction_stack->type);*/
[032ed06]	516
	517	#if PRINT_NETBITS
	518	printf("replace_subnets\n");
[37c5191]	519	if (reduction_stack->type == TYPE_LOLLIPOP) printf("islollipop\n");
	520	if (reduction_stack->type == TYPE_PARALLEL) printf("isparallel\n");
	521	if (reduction_stack->type == TYPE_DELTASTAR) printf("isdelta*\n");
[032ed06]	522	#endif
	523
[37c5191]	524	if (reduction_stack->type != TYPE_DELTASTAR) {
[eb18f4d]	525	linkfor *leg;
[37c5191]	526	leg = reduction_stack->join[0]; leg = reverse_leg(leg);
[421b7d2]	527	stn3 = leg->l.to; dirn3 = reverse_leg_dirn(leg);
[37c5191]	528	leg = reduction_stack->join[1]; leg = reverse_leg(leg);
[421b7d2]	529	stn4 = leg->l.to; dirn4 = reverse_leg_dirn(leg);
[cb3d1e2]	530
[cfef352]	531	if (!fixed(stn3) \|\| !fixed(stn4)) {
	532	SVX_ASSERT(!fixed(stn3) && !fixed(stn4));
	533	goto skip;
	534	}
[4c07c51]	535	SVX_ASSERT(data_here(stn3->leg[dirn3]));
[4d695ce3]	536	}
[d1b1380]	537
[37c5191]	538	if (reduction_stack->type == TYPE_LOLLIPOP) {
[eb18f4d]	539	node *stn;
[421b7d2]	540	delta e;
	541	linkfor *leg;
[e6cfe52]	542	int zero;
[43d6ecfe]	543
[e6cfe52]	544	leg = stn3->leg[dirn3];
[37c5191]	545	stn2 = reduction_stack->join[0]->l.to;
	546	dirn2 = reverse_leg_dirn(reduction_stack->join[0]);
[e6cfe52]	547
	548	zero = fZeros(&leg->v);
	549	if (!zero) {
	550	delta tmp;
	551	subdd(&e, &POSD(stn4), &POSD(stn3));
	552	subdd(&tmp, &e, &leg->d);
	553	divds(&e, &tmp, &leg->v);
	554	}
[37c5191]	555	if (data_here(reduction_stack->join[0])) {
	556	adddd(&POSD(stn2), &POSD(stn3), &reduction_stack->join[0]->d);
[e6cfe52]	557	if (!zero) {
[eb18f4d]	558	delta tmp;
[37c5191]	559	mulsd(&tmp, &reduction_stack->join[0]->v, &e);
[e6cfe52]	560	adddd(&POSD(stn2), &POSD(stn2), &tmp);
	561	}
	562	} else {
	563	subdd(&POSD(stn2), &POSD(stn3), &stn2->leg[dirn2]->d);
	564	if (!zero) {
	565	delta tmp;
	566	mulsd(&tmp, &stn2->leg[dirn2]->v, &e);
	567	adddd(&POSD(stn2), &POSD(stn2), &tmp);
	568	}
	569	}
	570	dirn2 = (dirn2 + 2) % 3; /* point back at stn again */
	571	stn = stn2->leg[dirn2]->l.to;
[d1b1380]	572	#if 0
[37c5191]	573	printf("Replacing lollipop with stn...stn4 = \n");
[e6cfe52]	574	print_prefix(stn->name); putnl();
	575	print_prefix(stn2->name); putnl();
	576	print_prefix(stn3->name); putnl();
	577	print_prefix(stn4->name); putnl();
[d1b1380]	578	#endif
[e6cfe52]	579	if (data_here(stn2->leg[dirn2]))
	580	adddd(&POSD(stn), &POSD(stn2), &stn2->leg[dirn2]->d);
	581	else
	582	subdd(&POSD(stn), &POSD(stn2), &reverse_leg(stn2->leg[dirn2])->d);
	583
[37c5191]	584	/* The "stick" of the lollipop is a new articulation. */
[e6cfe52]	585	stn2->leg[dirn2]->l.reverse \|= FLAG_ARTICULATION;
	586	reverse_leg(stn2->leg[dirn2])->l.reverse \|= FLAG_ARTICULATION;
	587
[bf9faf6]	588	add_stn_to_list(&fixedlist, stn);
	589	add_stn_to_list(&fixedlist, stn2);
[d1b1380]	590
[421b7d2]	591	osfree(stn3->leg[dirn3]);
[37c5191]	592	stn3->leg[dirn3] = reduction_stack->join[0];
[421b7d2]	593	osfree(stn4->leg[dirn4]);
[37c5191]	594	stn4->leg[dirn4] = reduction_stack->join[1];
	595	} else if (reduction_stack->type == TYPE_PARALLEL) {
[421b7d2]	596	/* parallel legs */
[eb18f4d]	597	node *stn;
[421b7d2]	598	delta e, e2;
	599	linkfor *leg;
[e6cfe52]	600	int dirn;
[421b7d2]	601
[37c5191]	602	stn = reduction_stack->join[0]->l.to;
	603	stn2 = reduction_stack->join[1]->l.to;
[402c753]	604
[37c5191]	605	dirn = reverse_leg_dirn(reduction_stack->join[0]);
	606	dirn2 = reverse_leg_dirn(reduction_stack->join[1]);
[e6cfe52]	607
	608	leg = stn3->leg[dirn3];
	609
	610	if (leg->l.reverse & FLAG_ARTICULATION) {
[37c5191]	611	reduction_stack->join[0]->l.reverse \|= FLAG_ARTICULATION;
[e6cfe52]	612	stn->leg[dirn]->l.reverse \|= FLAG_ARTICULATION;
[37c5191]	613	reduction_stack->join[1]->l.reverse \|= FLAG_ARTICULATION;
[e6cfe52]	614	stn2->leg[dirn2]->l.reverse \|= FLAG_ARTICULATION;
	615	}
	616
	617	if (fZeros(&leg->v))
	618	e[0] = e[1] = e[2] = 0.0;
	619	else {
	620	delta tmp;
	621	subdd(&e, &POSD(stn4), &POSD(stn3));
	622	subdd(&tmp, &e, &leg->d);
	623	divds(&e, &tmp, &leg->v);
	624	}
	625
[37c5191]	626	if (data_here(reduction_stack->join[0])) {
	627	leg = reduction_stack->join[0];
[e6cfe52]	628	adddd(&POSD(stn), &POSD(stn3), &leg->d);
	629	} else {
	630	leg = stn->leg[dirn];
	631	subdd(&POSD(stn), &POSD(stn3), &leg->d);
	632	}
	633	mulsd(&e2, &leg->v, &e);
	634	adddd(&POSD(stn), &POSD(stn), &e2);
	635
[37c5191]	636	if (data_here(reduction_stack->join[1])) {
	637	leg = reduction_stack->join[1];
[e6cfe52]	638	adddd(&POSD(stn2), &POSD(stn4), &leg->d);
	639	} else {
	640	leg = stn2->leg[dirn2];
	641	subdd(&POSD(stn2), &POSD(stn4), &leg->d);
	642	}
	643	mulsd(&e2, &leg->v, &e);
	644	subdd(&POSD(stn2), &POSD(stn2), &e2);
[d1b1380]	645	#if 0
[e6cfe52]	646	printf("Replacing parallel with stn...stn4 = \n");
	647	print_prefix(stn->name); putnl();
	648	print_prefix(stn2->name); putnl();
	649	print_prefix(stn3->name); putnl();
	650	print_prefix(stn4->name); putnl();
[d1b1380]	651	#endif
[e6cfe52]	652
[bf9faf6]	653	add_stn_to_list(&fixedlist, stn);
	654	add_stn_to_list(&fixedlist, stn2);
[cb3d1e2]	655
[421b7d2]	656	osfree(stn3->leg[dirn3]);
[37c5191]	657	stn3->leg[dirn3] = reduction_stack->join[0];
[421b7d2]	658	osfree(stn4->leg[dirn4]);
[37c5191]	659	stn4->leg[dirn4] = reduction_stack->join[1];
	660	} else if (reduction_stack->type == TYPE_DELTASTAR) {
[421b7d2]	661	node *stnZ;
	662	node *stn[3];
	663	int dirn[3];
	664	int i;
	665	linkfor *leg;
	666
	667	/* work out ends as we don't bother stacking them */
[37c5191]	668	leg = reverse_leg(reduction_stack->join[0]);
[421b7d2]	669	stn[0] = leg->l.to;
	670	dirn[0] = reverse_leg_dirn(leg);
	671	stnZ = stn[0]->leg[dirn[0]]->l.to;
[cfef352]	672	if (!fixed(stnZ)) {
	673	SVX_ASSERT(!fixed(stn[0]));
	674	goto skip;
	675	}
[421b7d2]	676	stn[1] = stnZ->leg[1]->l.to;
[a420b49]	677	dirn[1] = reverse_leg_dirn(stnZ->leg[1]);
[421b7d2]	678	stn[2] = stnZ->leg[2]->l.to;
[a420b49]	679	dirn[2] = reverse_leg_dirn(stnZ->leg[2]);
[564f471]	680	/print_prefix(stnZ->name);printf(" %p\n",(void)stnZ);*/
[4d695ce3]	681
[e6cfe52]	682	for (i = 0; i < 3; i++) {
[4c07c51]	683	SVX_ASSERT2(fixed(stn[i]), "stn not fixed for D*");
[1e431a4e]	684
[e6cfe52]	685	leg = stn[i]->leg[dirn[i]];
[1e431a4e]	686
[4c07c51]	687	SVX_ASSERT2(data_here(leg), "data not on leg for D*");
	688	SVX_ASSERT2(leg->l.to == stnZ, "bad sub-network for D*");
[1e431a4e]	689
[37c5191]	690	stn2 = reduction_stack->join[i]->l.to;
[1e431a4e]	691
[37c5191]	692	if (data_here(reduction_stack->join[i])) {
	693	adddd(&POSD(stn2), &POSD(stn[i]), &reduction_stack->join[i]->d);
[1e431a4e]	694	} else {
[37c5191]	695	subdd(&POSD(stn2), &POSD(stn[i]), &reverse_leg(reduction_stack->join[i])->d);
[1e431a4e]	696	}
	697
[e6cfe52]	698	if (!fZeros(&leg->v)) {
	699	delta e, tmp;
	700	subdd(&e, &POSD(stnZ), &POSD(stn[i]));
	701	subdd(&e, &e, &leg->d);
	702	divds(&tmp, &e, &leg->v);
[37c5191]	703	if (data_here(reduction_stack->join[i])) {
	704	mulsd(&e, &reduction_stack->join[i]->v, &tmp);
[1e431a4e]	705	} else {
[37c5191]	706	mulsd(&e, &reverse_leg(reduction_stack->join[i])->v, &tmp);
[1e431a4e]	707	}
[e6cfe52]	708	adddd(&POSD(stn2), &POSD(stn2), &e);
	709	}
[bf9faf6]	710	add_stn_to_list(&fixedlist, stn2);
[e6cfe52]	711	osfree(leg);
[37c5191]	712	stn[i]->leg[dirn[i]] = reduction_stack->join[i];
[e6cfe52]	713	/* transfer the articulation status of the radial legs */
	714	if (stnZ->leg[i]->l.reverse & FLAG_ARTICULATION) {
[37c5191]	715	reduction_stack->join[i]->l.reverse \|= FLAG_ARTICULATION;
	716	reverse_leg(reduction_stack->join[i])->l.reverse \|= FLAG_ARTICULATION;
[e6cfe52]	717	}
	718	osfree(stnZ->leg[i]);
	719	stnZ->leg[i] = NULL;
	720	}
	721	/printf("---%f %f %f\n",POS(stnZ, 0), POS(stnZ, 1), POS(stnZ, 2));/
[bf9faf6]	722	remove_stn_from_list(&fixedlist, stnZ);
[dbb4e19]	723	osfree(stnZ->name);
	724	osfree(stnZ);
[4d695ce3]	725	} else {
[37c5191]	726	BUG("reduction_stack has unknown type");
[4d695ce3]	727	}
[d1b1380]	728
[226342b]	729	skip:;
[37c5191]	730	reduction *ptrOld = reduction_stack;
	731	reduction_stack = reduction_stack->next;
[4d695ce3]	732	osfree(ptrOld);
	733	}
[d1b1380]	734	}

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source: git/src/network.c @ 8f52c76

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