From 1e1fdfc2e3892667bccaf317a01defd8832041c7 Mon Sep 17 00:00:00 2001
From: Jaron Kent-Dobias <jaron@kent-dobias.com>
Date: Mon, 16 Jan 2017 01:31:10 -0500
Subject: fixed voltage and torus conditions, current and free boundaries and
 broken right now

---
 src/break_edge.c | 121 ++++++++++++++++---------------------------------------
 1 file changed, 34 insertions(+), 87 deletions(-)

(limited to 'src/break_edge.c')

diff --git a/src/break_edge.c b/src/break_edge.c
index 4e8bdcf..2f112c2 100644
--- a/src/break_edge.c
+++ b/src/break_edge.c
@@ -1,104 +1,51 @@
 
 #include "fracture.h"
 
-bool break_edge(net_t *instance, uint_t edge, cholmod_common *c) {
-	instance->fuses[edge] = true;
-	instance->num_broken++;
 
-	if (instance->factor != NULL) {
-		uint_t w1 = instance->graph->ev_break[2 * edge];
-		uint_t w2 = instance->graph->ev_break[2 * edge + 1];
-		factor_update(instance->factor, w1, w2, c);
-	}
-
-	uint_t v1, v2, s1, s2, dv1, dv2, ds1, ds2;
+bool break_edge(net_t *net, uint_t edge, cholmod_common *c) {
+	net->fuses[edge] = true;
+	net->num_broken++;
 
-	v1 = instance->graph->ev[2 * edge];
-	v2 = instance->graph->ev[2 * edge + 1];
-	dv1 = instance->graph->dev[2 * edge];
-	dv2 = instance->graph->dev[2 * edge + 1];
+	double *x = (double *)net->boundary_cond->x;
+	const graph_t *g = net->graph;
 
-	s1 = v1 > v2 ? v1 : v2;
-	s2 = v1 > v2 ? v2 : v1;
-	ds1 = dv1 > dv2 ? dv1 : dv2;
-	ds2 = dv1 > dv2 ? dv2 : dv1;
+	uint_t v1 = net->graph->ev[2 * edge];
+	uint_t v2 = net->graph->ev[2 * edge + 1];
 
-	{
-		int_t *lap_p = (int_t *)instance->adjacency->p;
-		int_t *lap_i = (int_t *)instance->adjacency->i;
-		double *lap_x = (double *)instance->adjacency->x;
+	uint_t s1 = v1 < v2 ? v1 : v2;
+	uint_t s2 = v1 < v2 ? v2 : v1;
 
-		for (int i = 0; i < lap_p[s1 + 1] - lap_p[s1]; i++) {
-			if (lap_i[lap_p[s1] + i] == s2)
-				lap_x[lap_p[s1] + i] = 0;
+	if (net->graph->boundary == TORUS_BOUND) {
+		if (net->graph->bq[edge]) {
+			double v1y = g->vx[2 * v1 + 1];
+			double v2y = g->vx[2 * v2 + 1];
+			uint_t ind = v1y < v2y ? 0 : 1;
+			x[g->ev[2 * edge + ind]] -= 1;
+			x[g->ev[2 * edge + !ind]] += 1;
 		}
-		for (int i = 0; i < lap_p[s2 + 1] - lap_p[s2]; i++) {
-			if (lap_i[lap_p[s2] + i] == s1)
-				lap_x[lap_p[s2] + i] = 0;
+		if (net->factor != NULL) {
+			factor_update(net->factor, s1, s2, c);
 		}
-	}
-
-	int_t old_num_components = instance->num_components;
-
-	instance->num_components = update_components(
-			instance->adjacency, instance->marks, old_num_components, s1, s2, 0);
-
-
-	if (instance->graph->boundary == TORUS_BOUND) {
-		if (instance->dual_marks[dv1] == instance->dual_marks[dv2]) {
-			int **cycles = (int **)malloc(4*instance->graph->ne * sizeof(int *));
-			unsigned int num_cycles = find_cycles(instance->graph->ne, instance->fuses, instance->graph->dev, instance->graph->dvei, instance->graph->dve, cycles);
-
-			for (unsigned int i = 0; i < num_cycles; i++) {
-				int x_num_crossings = 0;
-				int y_num_crossings = 0;
-				int ee; unsigned int j = 0;
-				while ((ee = cycles[2*i][j]) >= 0) {
-					int side = cycles[2*i+1][j];
-					j++;
-					unsigned int v1, v2;
-					double v1x, v1y, v2x, v2y;
-					v1 = instance->graph->dev[2 * ee + !side];
-					v2 = instance->graph->dev[2 * ee + side];
-					v1x = instance->graph->dvx[2 * v1];
-					v1y = instance->graph->dvx[2 * v1 + 1];
-					v2x = instance->graph->dvx[2 * v2];
-					v2y = instance->graph->dvx[2 * v2 + 1];
-					double dx = v1x - v2x;
-					double dy = v1y - v2y;
-					if (((v1x > 0.5 && v2x < 0.5) || (v1x < 0.5 && v2x > 0.5)) && fabs(dx) < 0.5) {
-						x_num_crossings += dx > 0 ? 1 : -1;
-					}
-					if (((v1y > 0.5 && v2y < 0.5) || (v1y < 0.5 && v2y > 0.5)) && fabs(dy) < 0.5) {
-						y_num_crossings += dy > 0 ? 1 : -1;
-					}
-				}
-				if ((abs(y_num_crossings) == 0 && abs(x_num_crossings) > 0) || (abs(y_num_crossings) > 0 && abs(x_num_crossings) > 0 && num_cycles > 1)) {
-					instance->num_components = 2;
-				}
-				free(cycles[2*i]);
-				free(cycles[2*i+1]);
+	} else if (net->voltage_bound) {
+		if (g->bq[v1] || g->bq[v2]) {
+			uint_t vv = g->bq[v1] ? v2 : v1;
+			uint_t uu = v1 == vv ? v2 : v1;
+			if (is_in(g->bi[1], g->b, uu)) {
+				x[g->bni[vv]] -= 1;
+			}
+			if (net->factor != NULL) {
+				factor_update2(net->factor, g->bni[vv], c);
+			}
+		} else {
+			if (net->factor != NULL) {
+				factor_update(net->factor, g->bni[s1], g->bni[s2], c);
 			}
-			free(cycles);
-		}
-	}
-
-	{
-		int_t *lap_p = (int_t *)instance->dual_adjacency->p;
-		int_t *lap_i = (int_t *)instance->dual_adjacency->i;
-		double *lap_x = (double *)instance->dual_adjacency->x;
-
-		for (int i = 0; i < lap_p[ds1 + 1] - lap_p[ds1]; i++) {
-			if (lap_i[lap_p[ds1] + i] == ds2)
-				lap_x[lap_p[ds1] + i] = 1;
 		}
-		for (int i = 0; i < lap_p[ds2 + 1] - lap_p[ds2]; i++) {
-			if (lap_i[lap_p[ds2] + i] == ds1)
-				lap_x[lap_p[ds2] + i] = 1;
+	} else {
+		if (net->factor != NULL) {
+			factor_update(net->factor, s1, s2, c);
 		}
 	}
 
-	set_connected(instance->dual_adjacency, instance->dual_marks, dv1, instance->dual_marks[dv2], -1, 0);
-
 	return true;
 }
-- 
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