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authorgraehl <graehl@ec762483-ff6d-05da-a07a-a48fb63a330f>2010-09-01 20:01:24 +0000
committergraehl <graehl@ec762483-ff6d-05da-a07a-a48fb63a330f>2010-09-01 20:01:24 +0000
commit47957e0628dee7b18bf7e053d94b78bf9f3ea92e (patch)
tree3fb76ab4473deeee84a0d7611940acaf7bb63679 /decoder
parentd7fa6d79b31d82ca04e5f59304ae1bbc9af58cef (diff)
compile
git-svn-id: https://ws10smt.googlecode.com/svn/trunk@640 ec762483-ff6d-05da-a07a-a48fb63a330f
Diffstat (limited to 'decoder')
-rwxr-xr-xdecoder/apply_fsa_models.cc14
1 files changed, 7 insertions, 7 deletions
diff --git a/decoder/apply_fsa_models.cc b/decoder/apply_fsa_models.cc
index bffd7033..6031dbab 100755
--- a/decoder/apply_fsa_models.cc
+++ b/decoder/apply_fsa_models.cc
@@ -164,7 +164,7 @@ struct PrefixTrieEdge {
//note: ending a rule is handled with a special final edge, so that possibility can be explored in best-first order along with the rest (alternative: always finish a final rule by putting it on queue). this edge has no symbol on it.
struct PrefixTrieNode {
best_t p; // viterbi (max prob) of rule this node leads to - when building. telescope later onto edges for best-first.
- bool final; // may also have successors, of course. we don't really need to track this; a null dest edge in the adj list lets us encounter the fact in best first order.
+// bool final; // may also have successors, of course. we don't really need to track this; a null dest edge in the adj list lets us encounter the fact in best first order.
typedef TrieBackP BP;
typedef std::vector<BP> BPs;
void back_vec(BPs &ns) const {
@@ -338,7 +338,7 @@ public:
void set_final(NTHandle lhs_,best_t pf) {
assert(no_adj());
- final=true;
+// final=true;
PrefixTrieEdge &e=edge_for[null_wordid];
e.p=pf;
e.dest=0;
@@ -500,15 +500,15 @@ typedef Item *ItemP;
#endif
struct Item : ItemPrio,ItemKey {
- explicit Item(NodeP dot,int next=0) : ItemKey(dot),next(next),from(0)
+ explicit Item(NodeP dot,int next=0) : ItemKey(dot),trienext(next),from(0)
INIT_LOCATION
{ }
- explicit Item(NodeP dot,FFState const& state,int next=0) : ItemKey(dot,state),next(next),from(0)
+ explicit Item(NodeP dot,FFState const& state,int next=0) : ItemKey(dot,state),trienext(next),from(0)
INIT_LOCATION
{ }
typedef std::queue<ItemP> Predicted;
Predicted predicted; // this is empty, unless this is a predicted L -> .asdf item, or a to-complete L -> asdf .
- int next; // index of dot->adj to complete (if dest==0), or predict (if NT), or scan (if word). note: we could store pointer inside adj since it and trie are @ fixed addrs. less pointer arith, more space.
+ int trienext; // index of dot->adj to complete (if dest==0), or predict (if NT), or scan (if word). note: we could store pointer inside adj since it and trie are @ fixed addrs. less pointer arith, more space.
ItemP from; //backpointer - 0 for L -> . asdf for the rest; L -> a .sdf, it's the L -> .asdf item.
ItemP predicted_from() const {
ItemP p=(ItemP)this;
@@ -521,7 +521,7 @@ struct Item : ItemPrio,ItemKey {
ItemKey::print(o);
o<<' ';
ItemPrio::print(o);
- o<<" next="<<next;
+ o<<" next="<<trienext;
o<< ']';
}
PRINT_SELF(Item)
@@ -571,7 +571,7 @@ struct Chart {
best_t trie_stop_p=topb/b;
NodeP d=top->dot;
PrefixTrieNode::Adj const& adj=d->adj;
- int n=top->next;
+ int n=top->trienext;
for (int m=adj.size();n<m;++n) { // cube corner
PrefixTrieEdge const& te=adj[m];
if (better(te.p,trie_stop_p)) {