From 1fbcb4dd4e52daeb53becba33827f8e48c5606b2 Mon Sep 17 00:00:00 2001
From: Jaron Kent-Dobias <jaron@kent-dobias.com>
Date: Wed, 28 Feb 2018 20:33:41 -0500
Subject: fixed major mistake in process, also got n-component version fully
 working

---
 lib/wolff_tools.c | 137 +++++++++++++++++++++++++++++++++++++++++++++++-------
 1 file changed, 119 insertions(+), 18 deletions(-)

(limited to 'lib/wolff_tools.c')

diff --git a/lib/wolff_tools.c b/lib/wolff_tools.c
index 698d58c..e63623c 100644
--- a/lib/wolff_tools.c
+++ b/lib/wolff_tools.c
@@ -2,7 +2,6 @@
 #include "wolff.h"
 
 v_t flip_cluster(ising_state_t *s, v_t v0, q_t step, gsl_rng *r) {
-  q_t s0 = s->spins[v0];
   v_t nv = 0;
 
   ll_t *stack = NULL;     // create a new stack
@@ -16,40 +15,47 @@ v_t flip_cluster(ising_state_t *s, v_t v0, q_t step, gsl_rng *r) {
 
 //    if (!tree_contains(T, v)) { // if the vertex hasn't already been flipped
     if (!marks[v]) {
-      q_t s_old = s->spins[v];
-      q_t s_new = (s->spins[v] + step) % s->q;
+      q_t s_old, s_new;
+      dihedral_t *R_tmp; 
 
-      s->spins[v] = s_new;   // flip the vertex
       //tree_insert(&T, v);
       marks[v] = true;
 
+      if (v == s->g->nv - 1) {
+        R_tmp = dihedral_compose(s->q, step, s->R);
+      } else {
+        s_old = s->spins[v];
+        s_new = dihedral_act(s->q, step, s_old); // free me! I'm a new vector
+      }
+
       v_t nn = s->g->v_i[v + 1] - s->g->v_i[v];
 
       for (v_t i = 0; i < nn; i++) {
         v_t vn = s->g->v_adj[s->g->v_i[v] + i];
-        q_t sn = s->spins[vn];
+        q_t sn;
+        if (vn != s->g->nv - 1) {
+          sn = s->spins[vn];
+        }
         double prob;
 
         bool is_ext = (v == s->g->nv - 1 || vn == s->g->nv - 1);
 
-        q_t M_ind_0;
-        q_t M_ind_1;
-
         if (is_ext) {
+          q_t rs_old, rs_new;
           if (vn == s->g->nv - 1) {
-            M_ind_0 = (s_old + s->q - sn) % s->q;
-            M_ind_1 = (s_new + s->q - sn) % s->q;
+            rs_old = dihedral_inverse_act(s->q, s->R, s_old);
+            rs_new = dihedral_inverse_act(s->q, s->R, s_new);
           } else {
-            M_ind_0 = (sn + s->q - s_old) % s->q;
-            M_ind_1 = (sn + s->q - s_new) % s->q;
+            rs_old = dihedral_inverse_act(s->q, s->R, sn);
+            rs_new = dihedral_inverse_act(s->q, R_tmp, sn);
           }
-          prob = s->H_probs[M_ind_1 * s->q + M_ind_0];
-          s->M[M_ind_0]--;
-          s->M[M_ind_1]++;
-          s->E += - s->H[M_ind_1] + s->H[M_ind_0];
+          prob = s->H_probs[rs_new * s->q + rs_old];
+          s->M[rs_old]--;
+          s->M[rs_new]++;
+          s->E += - s->H[rs_new] + s->H[rs_old];
         } else {
-          M_ind_0 = (s_old + s->q - sn) % s->q;
-          M_ind_1 = (s_new + s->q - sn) % s->q;
+          q_t M_ind_0 = (s_old + s->q - sn) % s->q;
+          q_t M_ind_1 = (s_new + s->q - sn) % s->q;
           prob = s->J_probs[M_ind_1 * s->q + M_ind_0];
           s->E += - s->J[M_ind_1] + s->J[M_ind_0];
         }
@@ -59,6 +65,101 @@ v_t flip_cluster(ising_state_t *s, v_t v0, q_t step, gsl_rng *r) {
         }
       }
 
+      if (v == s->g->nv - 1) {
+        free(s->R);
+        s->R = R_tmp;
+      } else {
+        s->spins[v] = s_new;
+      }
+
+      if (v != s->g->nv - 1) { // count the number of non-external sites that flip
+        nv++;
+      }
+    }
+  }
+
+  //tree_freeNode(T);
+  free(marks);
+
+  return nv;
+}
+
+v_t flip_cluster_vector(vector_state_t *s, v_t v0, double *rot, gsl_rng *r) {
+  v_t nv = 0;
+
+  ll_t *stack = NULL;     // create a new stack
+  stack_push(&stack, v0); // push the initial vertex to the stack
+
+  //node_t *T = NULL;
+  bool *marks = (bool *)calloc(s->g->nv, sizeof(bool));
+
+  while (stack != NULL) {
+    v_t v = stack_pop(&stack);
+
+//    if (!tree_contains(T, v)) { // if the vertex hasn't already been flipped
+    if (!marks[v]) {
+      double *s_old, *s_new, *R_tmp; 
+
+      //tree_insert(&T, v);
+      marks[v] = true;
+
+      if (v == s->g->nv - 1) {
+        R_tmp = orthogonal_rotate(s->n, rot, s->R);
+      } else {
+        s_old = &(s->spins[s->n * v]); // don't free me! I'm a pointer within array s->spins
+        s_new = vector_rotate(s->n, rot, s_old); // free me! I'm a new vector
+      }
+
+      v_t nn = s->g->v_i[v + 1] - s->g->v_i[v];
+
+      for (v_t i = 0; i < nn; i++) {
+        v_t vn = s->g->v_adj[s->g->v_i[v] + i];
+        double *sn;
+        if (vn != s->g->nv - 1) {
+          sn = &(s->spins[s->n * vn]);
+        }
+        double prob;
+
+        bool is_ext = (v == s->g->nv - 1 || vn == s->g->nv - 1);
+
+        if (is_ext) {
+          double *rs_old, *rs_new;
+          if (vn == s->g->nv - 1) {
+            rs_old = vector_rotate_inverse(s->n, s->R, s_old);
+            rs_new = vector_rotate_inverse(s->n, s->R, s_new);
+          } else {
+            rs_old = vector_rotate_inverse(s->n, s->R, sn);
+            rs_new = vector_rotate_inverse(s->n, R_tmp, sn);
+          }
+          double dE = s->H(rs_old) - s->H(rs_new);
+          prob = 1.0 - exp(-dE / s->T);
+          vector_subtract(s->n, s->M, rs_old);
+          vector_add(s->n, s->M, rs_new);
+          s->E += dE;
+
+          free(rs_old);
+          free(rs_new);
+        } else {
+          double dE = (s->J)(vector_dot(s->n, sn, s_old)) - (s->J)(vector_dot(s->n, sn, s_new));
+          prob = 1.0 - exp(-dE / s->T);
+          //printf("(%g %g) (%g %g) (%g %g) %g\n", s_old[0], s_old[1], s_new[0], s_new[1], sn[0], sn[1], dE);
+          //getchar();
+          s->E += dE;
+        }
+
+        if (gsl_rng_uniform(r) < prob) { // and with probability ps[e]...
+          stack_push(&stack, vn); // push the neighboring vertex to the stack
+        }
+      }
+
+      if (v == s->g->nv - 1) {
+        free(s->R);
+        s->R = R_tmp;
+      } else {
+        vector_replace(s->n, s_old, s_new);
+        free(s_new);
+      }
+
       if (v != s->g->nv - 1) { // count the number of non-external sites that flip
         nv++;
       }
-- 
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