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-rw-r--r--decoder/Makefile.am7
-rwxr-xr-xdecoder/cfg.h47
-rwxr-xr-xdecoder/cfg_options.h36
-rwxr-xr-xdecoder/cfg_test.cc39
-rwxr-xr-xdecoder/hg_cfg.h6
-rw-r--r--decoder/hg_test.cc61
-rwxr-xr-xdecoder/hg_test.h91
7 files changed, 214 insertions, 73 deletions
diff --git a/decoder/Makefile.am b/decoder/Makefile.am
index 86912b49..0c434665 100644
--- a/decoder/Makefile.am
+++ b/decoder/Makefile.am
@@ -6,13 +6,16 @@ noinst_PROGRAMS = \
hg_test \
ff_test \
parser_test \
- grammar_test
-TESTS = trule_test ff_test parser_test grammar_test hg_test
+ grammar_test \
+ cfg_test
+TESTS = trule_test ff_test parser_test grammar_test hg_test cfg_test
endif
cdec_SOURCES = cdec.cc forest_writer.cc maxtrans_blunsom.cc cdec_ff.cc
cdec_LDADD = libcdec.a ../mteval/libmteval.a ../utils/libutils.a -lz
+cfg_test_SOURCES = cfg_test.cc
+cfg_test_LDADD = $(GTEST_LDFLAGS) $(GTEST_LIBS) libcdec.a ../mteval/libmteval.a ../utils/libutils.a -lz
parser_test_SOURCES = parser_test.cc
parser_test_LDADD = $(GTEST_LDFLAGS) $(GTEST_LIBS) libcdec.a ../mteval/libmteval.a ../utils/libutils.a -lz
ff_test_SOURCES = ff_test.cc
diff --git a/decoder/cfg.h b/decoder/cfg.h
index b214d8dc..21e03e2c 100755
--- a/decoder/cfg.h
+++ b/decoder/cfg.h
@@ -34,11 +34,15 @@
#include "nt_span.h"
#include <algorithm>
#include "indices_after.h"
+#include <boost/functional/hash.hpp>
class Hypergraph;
class CFGFormat; // #include "cfg_format.h"
class CFGBinarize; // #include "cfg_binarize.h"
+#undef CFG_MUST_EQ
+#define CFG_MUST_EQ(f) if (!(o.f==f)) return false;
+
struct CFG {
typedef int RuleHandle;
typedef int NTHandle;
@@ -52,6 +56,23 @@ struct CFG {
typedef std::pair<int,int> BinRhs;
struct Rule {
+ std::size_t hash_impl() const {
+ using namespace boost;
+ std::size_t h=lhs;
+ hash_combine(h,rhs);
+ hash_combine(h,p);
+ hash_combine(h,f);
+ return h;
+ }
+ bool operator ==(Rule const &o) const {
+ CFG_MUST_EQ(lhs)
+ CFG_MUST_EQ(rhs)
+ CFG_MUST_EQ(p)
+ CFG_MUST_EQ(f)
+ return true;
+ }
+ inline bool operator!=(Rule const& o) const { return !(o==*this); }
+
// for binarizing - no costs/probs
Rule() : lhs(-1) { }
bool is_null() const { return lhs<0; }
@@ -123,6 +144,11 @@ struct CFG {
};
struct NT {
+ std::size_t hash_impl() const { using namespace boost; return hash_value(ruleids); }
+ bool operator ==(NT const &o) const {
+ return ruleids==o.ruleids; // don't care about from
+ }
+ inline bool operator!=(NT const& o) const { return !(o==*this); }
Ruleids ruleids; // index into CFG rules with lhs = this NT. aka in_edges_
NTSpan from; // optional name - still needs id to disambiguate
void Swap(NT &o) {
@@ -166,6 +192,18 @@ struct CFG {
swap(goal_nt,o.goal_nt);
}
+ //NOTE: this checks exact equality of data structures only. it's well known that CFG equivalence (and intersection==empty) test is undecidable.
+ bool operator ==(CFG const &o) const {
+ // doesn't matter: hg, goal_inside
+ CFG_MUST_EQ(uninit)
+ CFG_MUST_EQ(pushed_inside)
+ CFG_MUST_EQ(goal_nt)
+ CFG_MUST_EQ(nts)
+ CFG_MUST_EQ(rules)
+ return true;
+ }
+ inline bool operator!=(CFG const& o) const { return !(o==*this); }
+
typedef std::vector<NTHandle> NTOrder; // a list of nts, in definition-before-use order.
//perhaps: give up on templated Order and move the below to .cc (NTOrder should be fine)
@@ -251,6 +289,15 @@ protected:
// rules/nts will have same index as hg edges/nodes
};
+inline std::size_t hash_value(CFG::Rule const& r) {
+ return r.hash_impl();
+}
+
+inline std::size_t hash_value(CFG::NT const& r) {
+ return r.hash_impl();
+}
+
+
inline void swap(CFG &a,CFG &b) {
a.Swap(b);
}
diff --git a/decoder/cfg_options.h b/decoder/cfg_options.h
index 10321a7f..5dca168e 100755
--- a/decoder/cfg_options.h
+++ b/decoder/cfg_options.h
@@ -9,19 +9,19 @@
struct CFGOptions {
CFGFormat format;
CFGBinarize binarize;
- std::string cfg_output,source_cfg_output,cfg_unbin_output;
+ std::string out,source_out,unbin_out;
void set_defaults() {
format.set_defaults();
binarize.set_defaults();
- cfg_output="";
+ out="";
}
CFGOptions() { set_defaults(); }
template <class Opts> // template to support both printable_opts and boost nonprintable
void AddOptions(Opts *opts) {
opts->add_options()
- ("cfg_output", defaulted_value(&cfg_output),"write final target CFG (before FSA rescoring) to this file")
- ("source_cfg_output", defaulted_value(&source_cfg_output),"write source CFG (after prelm-scoring, prelm-prune) to this file")
- ("cfg_unbin_output", defaulted_value(&cfg_unbin_output),"write pre-binarization CFG to this file") //TODO:
+ ("cfg_output", defaulted_value(&out),"write final target CFG (before FSA rescoring) to this file")
+ ("source_cfg_output", defaulted_value(&source_out),"write source CFG (after prelm-scoring, prelm-prune) to this file")
+ ("cfg_unbin_output", defaulted_value(&unbin_out),"write pre-binarization CFG to this file") //TODO:
;
binarize.AddOptions(opts);
format.AddOptions(opts);
@@ -29,28 +29,36 @@ struct CFGOptions {
void Validate() {
format.Validate();
binarize.Validate();
-// if (cfg_output.empty()) binarize.bin_name_nts=false;
+// if (out.empty()) binarize.bin_name_nts=false;
}
char const* description() const {
return "CFG output options";
}
void maybe_output_source(Hypergraph const& hg) {
- if (source_cfg_output.empty()) return;
- std::cerr<<"Printing source CFG to "<<source_cfg_output<<": "<<format<<'\n';
- WriteFile o(source_cfg_output);
+ if (source_out.empty()) return;
+ std::cerr<<"Printing source CFG to "<<source_out<<": "<<format<<'\n';
+ WriteFile o(source_out);
CFG cfg(hg,false,format.features,format.goal_nt());
cfg.Print(o.get(),format);
}
+ void maybe_print(CFG &cfg,std::string cfg_output,char const* desc=" unbinarized") {
+ WriteFile o(cfg_output);
+ std::cerr<<"Printing target"<<desc<<" CFG to "<<cfg_output<<": "<<format<<'\n';
+ cfg.Print(o.get(),format);
+ }
+
void maybe_output(HgCFG &hgcfg) {
- if (cfg_output.empty()) return;
- std::cerr<<"Printing target CFG to "<<cfg_output<<": "<<format<<'\n';
- WriteFile o(cfg_output);
+ if (out.empty() && unbin_out.empty()) return;
+ CFG &cfg=hgcfg.GetCFG();
+ maybe_print(cfg,unbin_out);
maybe_binarize(hgcfg);
- hgcfg.GetCFG().Print(o.get(),format);
+ maybe_print(cfg,out,"");
}
+
void maybe_binarize(HgCFG &hgcfg) {
if (hgcfg.binarized) return;
- hgcfg.GetCFG().Binarize(binarize);
+ CFG &cfg=hgcfg.GetCFG();
+ cfg.Binarize(binarize);
hgcfg.binarized=true;
}
};
diff --git a/decoder/cfg_test.cc b/decoder/cfg_test.cc
new file mode 100755
index 00000000..c4c37a2c
--- /dev/null
+++ b/decoder/cfg_test.cc
@@ -0,0 +1,39 @@
+#include <gtest/gtest.h>
+#include "cfg.h"
+#include "hg_test.h"
+#include "cfg_options.h"
+
+struct CFGTest : public HGSetup {
+ CFGTest() { }
+ ~CFGTest() { }
+ static void JsonFN(Hypergraph hg,CFG &cfg,std::string file
+ ,std::string const& wts="Model_0 1 EgivenF 1 f1 1")
+ {
+ FeatureVector v;
+ istringstream ws(wts);
+// ASSERT_TRUE(ws>>v);
+ HGSetup::JsonTestFile(&hg,file);
+// hg.Reweight(v);
+ cfg.Init(hg,true,false,false);
+ }
+
+ static void SetUpTestCase() {
+ }
+ static void TearDownTestCase() {
+ }
+};
+
+TEST_F(CFGTest,Binarize) {
+ Hypergraph hg;
+ CFG cfg;
+ JsonFN(hg,cfg,perro_json,perro_wts);
+ CFGFormat form;
+ form.features=true;
+ cerr<<"\nCFG Test.\n\n";
+ cfg.Print(cerr,form);
+}
+
+int main(int argc, char **argv) {
+ testing::InitGoogleTest(&argc, argv);
+ return RUN_ALL_TESTS();
+}
diff --git a/decoder/hg_cfg.h b/decoder/hg_cfg.h
index 0a3eb53c..64a0e767 100755
--- a/decoder/hg_cfg.h
+++ b/decoder/hg_cfg.h
@@ -7,12 +7,14 @@ class Hypergraph;
// in case you might want the CFG whether or not you apply FSA models:
struct HgCFG {
- HgCFG(Hypergraph const& ih) : ih(ih) { have_cfg=binarized=false; }
+ HgCFG(Hypergraph const& ih) : ih(ih) { have_cfg=binarized=false;have_features=false; }
Hypergraph const& ih;
CFG cfg;
bool have_cfg;
+ bool have_features;
+ bool want_features;
void InitCFG(CFG &to) {
- to.Init(ih,true,false,true);
+ to.Init(ih,true,want_features,true);
}
bool binarized;
CFG &GetCFG()
diff --git a/decoder/hg_test.cc b/decoder/hg_test.cc
index 51934ad1..d934036f 100644
--- a/decoder/hg_test.cc
+++ b/decoder/hg_test.cc
@@ -1,68 +1,20 @@
-#include <cassert>
#include <iostream>
#include <fstream>
#include <vector>
-#include <gtest/gtest.h>
#include "tdict.h"
#include "json_parse.h"
-#include "filelib.h"
-#include "hg.h"
-#include "hg_io.h"
#include "hg_intersect.h"
#include "viterbi.h"
#include "kbest.h"
#include "inside_outside.h"
-using namespace std;
-
-class HGTest : public testing::Test {
- protected:
- virtual void SetUp() { }
- virtual void TearDown() { }
- void CreateHG(Hypergraph* hg) const;
- void CreateHG_int(Hypergraph* hg) const;
- void CreateHG_tiny(Hypergraph* hg) const;
- void CreateHGBalanced(Hypergraph* hg) const;
- void CreateLatticeHG(Hypergraph* hg) const;
- void CreateTinyLatticeHG(Hypergraph* hg) const;
-};
-
-void HGTest::CreateTinyLatticeHG(Hypergraph* hg) const {
- const string json = "{\"rules\":[1,\"[X] ||| [1] a\",2,\"[X] ||| [1] A\",3,\"[X] ||| [1] b\",4,\"[X] ||| [1] B'\"],\"features\":[\"f1\",\"f2\",\"Feature_1\",\"Feature_0\",\"Model_0\",\"Model_1\",\"Model_2\",\"Model_3\",\"Model_4\",\"Model_5\",\"Model_6\",\"Model_7\"],\"edges\":[],\"node\":{\"in_edges\":[]},\"edges\":[{\"tail\":[0],\"feats\":[0,-0.2],\"rule\":1},{\"tail\":[0],\"feats\":[0,-0.6],\"rule\":2}],\"node\":{\"in_edges\":[0,1]},\"edges\":[{\"tail\":[1],\"feats\":[0,-0.1],\"rule\":3},{\"tail\":[1],\"feats\":[0,-0.9],\"rule\":4}],\"node\":{\"in_edges\":[2,3]}}";
- istringstream instr(json);
- EXPECT_TRUE(HypergraphIO::ReadFromJSON(&instr, hg));
-}
+#include "hg_test.h"
-void HGTest::CreateLatticeHG(Hypergraph* hg) const {
- const string json = "{\"rules\":[1,\"[X] ||| [1] a\",2,\"[X] ||| [1] A\",3,\"[X] ||| [1] A A\",4,\"[X] ||| [1] b\",5,\"[X] ||| [1] c\",6,\"[X] ||| [1] B C\",7,\"[X] ||| [1] A B C\",8,\"[X] ||| [1] CC\"],\"features\":[\"f1\",\"f2\",\"Feature_1\",\"Feature_0\",\"Model_0\",\"Model_1\",\"Model_2\",\"Model_3\",\"Model_4\",\"Model_5\",\"Model_6\",\"Model_7\"],\"edges\":[],\"node\":{\"in_edges\":[]},\"edges\":[{\"tail\":[0],\"feats\":[2,-0.3],\"rule\":1},{\"tail\":[0],\"feats\":[2,-0.6],\"rule\":2},{\"tail\":[0],\"feats\":[2,-1.7],\"rule\":3}],\"node\":{\"in_edges\":[0,1,2]},\"edges\":[{\"tail\":[1],\"feats\":[2,-0.5],\"rule\":4}],\"node\":{\"in_edges\":[3]},\"edges\":[{\"tail\":[2],\"feats\":[2,-0.6],\"rule\":5},{\"tail\":[1],\"feats\":[2,-0.8],\"rule\":6},{\"tail\":[0],\"feats\":[2,-0.01],\"rule\":7},{\"tail\":[2],\"feats\":[2,-0.8],\"rule\":8}],\"node\":{\"in_edges\":[4,5,6,7]}}";
- istringstream instr(json);
- EXPECT_TRUE(HypergraphIO::ReadFromJSON(&instr, hg));
-}
-
-void HGTest::CreateHG_tiny(Hypergraph* hg) const {
- const string json = "{\"rules\":[1,\"[X] ||| <s>\",2,\"[X] ||| X [1]\",3,\"[X] ||| Z [1]\"],\"features\":[\"f1\",\"f2\",\"Feature_1\",\"Feature_0\",\"Model_0\",\"Model_1\",\"Model_2\",\"Model_3\",\"Model_4\",\"Model_5\",\"Model_6\",\"Model_7\"],\"edges\":[{\"tail\":[],\"feats\":[0,-2,1,-99],\"rule\":1}],\"node\":{\"in_edges\":[0]},\"edges\":[{\"tail\":[0],\"feats\":[0,-0.5,1,-0.8],\"rule\":2},{\"tail\":[0],\"feats\":[0,-0.7,1,-0.9],\"rule\":3}],\"node\":{\"in_edges\":[1,2]}}";
- istringstream instr(json);
- EXPECT_TRUE(HypergraphIO::ReadFromJSON(&instr, hg));
-}
-void HGTest::CreateHG_int(Hypergraph* hg) const {
- const string json = "{\"rules\":[1,\"[X] ||| a\",2,\"[X] ||| b\",3,\"[X] ||| a [1]\",4,\"[X] ||| [1] b\"],\"features\":[\"f1\",\"f2\",\"Feature_1\",\"Feature_0\",\"Model_0\",\"Model_1\",\"Model_2\",\"Model_3\",\"Model_4\",\"Model_5\",\"Model_6\",\"Model_7\"],\"edges\":[{\"tail\":[],\"feats\":[0,0.1],\"rule\":1},{\"tail\":[],\"feats\":[0,0.1],\"rule\":2}],\"node\":{\"in_edges\":[0,1],\"cat\":\"X\"},\"edges\":[{\"tail\":[0],\"feats\":[0,0.3],\"rule\":3},{\"tail\":[0],\"feats\":[0,0.2],\"rule\":4}],\"node\":{\"in_edges\":[2,3],\"cat\":\"Goal\"}}";
- istringstream instr(json);
- EXPECT_TRUE(HypergraphIO::ReadFromJSON(&instr, hg));
-}
-
-void HGTest::CreateHG(Hypergraph* hg) const {
- string json = "{\"rules\":[1,\"[X] ||| a\",2,\"[X] ||| A [1]\",3,\"[X] ||| c\",4,\"[X] ||| C [1]\",5,\"[X] ||| [1] B [2]\",6,\"[X] ||| [1] b [2]\",7,\"[X] ||| X [1]\",8,\"[X] ||| Z [1]\"],\"features\":[\"f1\",\"f2\",\"Feature_1\",\"Feature_0\",\"Model_0\",\"Model_1\",\"Model_2\",\"Model_3\",\"Model_4\",\"Model_5\",\"Model_6\",\"Model_7\"],\"edges\":[{\"tail\":[],\"feats\":[],\"rule\":1}],\"node\":{\"in_edges\":[0]},\"edges\":[{\"tail\":[0],\"feats\":[0,-0.8,1,-0.1],\"rule\":2}],\"node\":{\"in_edges\":[1]},\"edges\":[{\"tail\":[],\"feats\":[1,-1],\"rule\":3}],\"node\":{\"in_edges\":[2]},\"edges\":[{\"tail\":[2],\"feats\":[0,-0.2,1,-0.1],\"rule\":4}],\"node\":{\"in_edges\":[3]},\"edges\":[{\"tail\":[1,3],\"feats\":[0,-1.2,1,-0.2],\"rule\":5},{\"tail\":[1,3],\"feats\":[0,-0.5,1,-1.3],\"rule\":6}],\"node\":{\"in_edges\":[4,5]},\"edges\":[{\"tail\":[4],\"feats\":[0,-0.5,1,-0.8],\"rule\":7},{\"tail\":[4],\"feats\":[0,-0.7,1,-0.9],\"rule\":8}],\"node\":{\"in_edges\":[6,7]}}";
- istringstream instr(json);
- EXPECT_TRUE(HypergraphIO::ReadFromJSON(&instr, hg));
-}
+using namespace std;
-void HGTest::CreateHGBalanced(Hypergraph* hg) const {
- const string json = "{\"rules\":[1,\"[X] ||| i\",2,\"[X] ||| a\",3,\"[X] ||| b\",4,\"[X] ||| [1] [2]\",5,\"[X] ||| [1] [2]\",6,\"[X] ||| c\",7,\"[X] ||| d\",8,\"[X] ||| [1] [2]\",9,\"[X] ||| [1] [2]\",10,\"[X] ||| [1] [2]\",11,\"[X] ||| [1] [2]\",12,\"[X] ||| [1] [2]\",13,\"[X] ||| [1] [2]\"],\"features\":[\"f1\",\"f2\",\"Feature_1\",\"Feature_0\",\"Model_0\",\"Model_1\",\"Model_2\",\"Model_3\",\"Model_4\",\"Model_5\",\"Model_6\",\"Model_7\"],\"edges\":[{\"tail\":[],\"feats\":[],\"rule\":1}],\"node\":{\"in_edges\":[0]},\"edges\":[{\"tail\":[],\"feats\":[],\"rule\":2}],\"node\":{\"in_edges\":[1]},\"edges\":[{\"tail\":[],\"feats\":[],\"rule\":3}],\"node\":{\"in_edges\":[2]},\"edges\":[{\"tail\":[1,2],\"feats\":[],\"rule\":4},{\"tail\":[2,1],\"feats\":[],\"rule\":5}],\"node\":{\"in_edges\":[3,4]},\"edges\":[{\"tail\":[],\"feats\":[],\"rule\":6}],\"node\":{\"in_edges\":[5]},\"edges\":[{\"tail\":[],\"feats\":[],\"rule\":7}],\"node\":{\"in_edges\":[6]},\"edges\":[{\"tail\":[4,5],\"feats\":[],\"rule\":8},{\"tail\":[5,4],\"feats\":[],\"rule\":9}],\"node\":{\"in_edges\":[7,8]},\"edges\":[{\"tail\":[3,6],\"feats\":[],\"rule\":10},{\"tail\":[6,3],\"feats\":[],\"rule\":11}],\"node\":{\"in_edges\":[9,10]},\"edges\":[{\"tail\":[7,0],\"feats\":[],\"rule\":12},{\"tail\":[0,7],\"feats\":[],\"rule\":13}],\"node\":{\"in_edges\":[11,12]}}";
- istringstream instr(json);
- EXPECT_TRUE(HypergraphIO::ReadFromJSON(&instr, hg));
-}
+typedef HGSetup HGTest;
TEST_F(HGTest,Controlled) {
Hypergraph hg;
@@ -187,7 +139,7 @@ TEST_F(HGTest,PruneInsideOutside) {
cerr << TD::GetString(trans) << "\n";
cerr << "cost: " << cost << "\n";
hg.PrintGraphviz();
- //hg.DensityPruneInsideOutside(0.5, false, 2.0);
+ hg.DensityPruneInsideOutside(0.5, false, 2.0);
hg.BeamPruneInsideOutside(0.5, false, 0.5);
cost = ViterbiESentence(hg, &trans);
cerr << "Ncst: " << cost << endl;
@@ -274,7 +226,7 @@ TEST_F(HGTest,PLF) {
string outplf = HypergraphIO::AsPLF(hg);
cerr << " IN: " << inplf << endl;
cerr << "OUT: " << outplf << endl;
- assert(inplf == outplf);
+ EXPECT_EQ(inplf,outplf);
}
TEST_F(HGTest,PushWeightsToGoal) {
@@ -382,9 +334,8 @@ TEST_F(HGTest,TestAddExpectations) {
}
TEST_F(HGTest, Small) {
- ReadFile rf("test_data/small.json.gz");
Hypergraph hg;
- assert(HypergraphIO::ReadFromJSON(rf.stream(), &hg));
+ CreateSmallHG(&hg);
SparseVector<double> wts;
wts.set_value(FD::Convert("Model_0"), -2.0);
wts.set_value(FD::Convert("Model_1"), -0.5);
diff --git a/decoder/hg_test.h b/decoder/hg_test.h
new file mode 100755
index 00000000..4f3ae251
--- /dev/null
+++ b/decoder/hg_test.h
@@ -0,0 +1,91 @@
+#ifndef HG_TEST_H
+#define HG_TEST_H
+
+#include "filelib.h"
+#include "hg.h"
+#include "hg_io.h"
+#include <sstream>
+#include <gtest/gtest.h>
+
+using namespace std;
+
+#pragma GCC diagnostic ignore "-Wunused"
+
+namespace {
+
+char const* small_json="small.json.gz";
+
+char const* perro_json="perro.json.gz";
+char const* perro_wts="SameFirstLetter 1 LongerThanPrev 1 ShorterThanPrev 1 GlueTop 0.0 Glue -1.0 EgivenF -0.5 FgivenE -0.5 LexEgivenF -0.5 LexFgivenE -0.5 LM 1";
+
+}
+
+// you can inherit from this or just use the static methods
+struct HGSetup : public testing::Test {
+ enum {
+ HG,
+ HG_int,
+ HG_tiny,
+ HGBalanced,
+ LatticeHG,
+ TinyLatticeHG,
+ };
+ static void CreateHG(Hypergraph* hg);
+ static void CreateHG_int(Hypergraph* hg);
+ static void CreateHG_tiny(Hypergraph* hg);
+ static void CreateHGBalanced(Hypergraph* hg);
+ static void CreateLatticeHG(Hypergraph* hg);
+ static void CreateTinyLatticeHG(Hypergraph* hg);
+
+ static void Json(Hypergraph *hg,std::string const& json) {
+ std::istringstream i(json);
+ ASSERT_TRUE(HypergraphIO::ReadFromJSON(&i, hg));
+ }
+ static void JsonFile(Hypergraph *hg,std::string f) {
+ ReadFile rf(f);
+ ASSERT_TRUE(HypergraphIO::ReadFromJSON(rf.stream(), hg)) << "read from HG file "<<f;
+ }
+ static void JsonTestFile(Hypergraph *hg,std::string n) {
+ JsonFile(hg,"test_data/"+n);
+ }
+ static void CreateSmallHG(Hypergraph *hg) { JsonTestFile(hg,small_json); }
+};
+
+namespace {
+char const* HGjsons[]= {
+ "{\"rules\":[1,\"[X] ||| a\",2,\"[X] ||| A [1]\",3,\"[X] ||| c\",4,\"[X] ||| C [1]\",5,\"[X] ||| [1] B [2]\",6,\"[X] ||| [1] b [2]\",7,\"[X] ||| X [1]\",8,\"[X] ||| Z [1]\"],\"features\":[\"f1\",\"f2\",\"Feature_1\",\"Feature_0\",\"Model_0\",\"Model_1\",\"Model_2\",\"Model_3\",\"Model_4\",\"Model_5\",\"Model_6\",\"Model_7\"],\"edges\":[{\"tail\":[],\"feats\":[],\"rule\":1}],\"node\":{\"in_edges\":[0]},\"edges\":[{\"tail\":[0],\"feats\":[0,-0.8,1,-0.1],\"rule\":2}],\"node\":{\"in_edges\":[1]},\"edges\":[{\"tail\":[],\"feats\":[1,-1],\"rule\":3}],\"node\":{\"in_edges\":[2]},\"edges\":[{\"tail\":[2],\"feats\":[0,-0.2,1,-0.1],\"rule\":4}],\"node\":{\"in_edges\":[3]},\"edges\":[{\"tail\":[1,3],\"feats\":[0,-1.2,1,-0.2],\"rule\":5},{\"tail\":[1,3],\"feats\":[0,-0.5,1,-1.3],\"rule\":6}],\"node\":{\"in_edges\":[4,5]},\"edges\":[{\"tail\":[4],\"feats\":[0,-0.5,1,-0.8],\"rule\":7},{\"tail\":[4],\"feats\":[0,-0.7,1,-0.9],\"rule\":8}],\"node\":{\"in_edges\":[6,7]}}",
+"{\"rules\":[1,\"[X] ||| a\",2,\"[X] ||| b\",3,\"[X] ||| a [1]\",4,\"[X] ||| [1] b\"],\"features\":[\"f1\",\"f2\",\"Feature_1\",\"Feature_0\",\"Model_0\",\"Model_1\",\"Model_2\",\"Model_3\",\"Model_4\",\"Model_5\",\"Model_6\",\"Model_7\"],\"edges\":[{\"tail\":[],\"feats\":[0,0.1],\"rule\":1},{\"tail\":[],\"feats\":[0,0.1],\"rule\":2}],\"node\":{\"in_edges\":[0,1],\"cat\":\"X\"},\"edges\":[{\"tail\":[0],\"feats\":[0,0.3],\"rule\":3},{\"tail\":[0],\"feats\":[0,0.2],\"rule\":4}],\"node\":{\"in_edges\":[2,3],\"cat\":\"Goal\"}}",
+ "{\"rules\":[1,\"[X] ||| <s>\",2,\"[X] ||| X [1]\",3,\"[X] ||| Z [1]\"],\"features\":[\"f1\",\"f2\",\"Feature_1\",\"Feature_0\",\"Model_0\",\"Model_1\",\"Model_2\",\"Model_3\",\"Model_4\",\"Model_5\",\"Model_6\",\"Model_7\"],\"edges\":[{\"tail\":[],\"feats\":[0,-2,1,-99],\"rule\":1}],\"node\":{\"in_edges\":[0]},\"edges\":[{\"tail\":[0],\"feats\":[0,-0.5,1,-0.8],\"rule\":2},{\"tail\":[0],\"feats\":[0,-0.7,1,-0.9],\"rule\":3}],\"node\":{\"in_edges\":[1,2]}}",
+ "{\"rules\":[1,\"[X] ||| i\",2,\"[X] ||| a\",3,\"[X] ||| b\",4,\"[X] ||| [1] [2]\",5,\"[X] ||| [1] [2]\",6,\"[X] ||| c\",7,\"[X] ||| d\",8,\"[X] ||| [1] [2]\",9,\"[X] ||| [1] [2]\",10,\"[X] ||| [1] [2]\",11,\"[X] ||| [1] [2]\",12,\"[X] ||| [1] [2]\",13,\"[X] ||| [1] [2]\"],\"features\":[\"f1\",\"f2\",\"Feature_1\",\"Feature_0\",\"Model_0\",\"Model_1\",\"Model_2\",\"Model_3\",\"Model_4\",\"Model_5\",\"Model_6\",\"Model_7\"],\"edges\":[{\"tail\":[],\"feats\":[],\"rule\":1}],\"node\":{\"in_edges\":[0]},\"edges\":[{\"tail\":[],\"feats\":[],\"rule\":2}],\"node\":{\"in_edges\":[1]},\"edges\":[{\"tail\":[],\"feats\":[],\"rule\":3}],\"node\":{\"in_edges\":[2]},\"edges\":[{\"tail\":[1,2],\"feats\":[],\"rule\":4},{\"tail\":[2,1],\"feats\":[],\"rule\":5}],\"node\":{\"in_edges\":[3,4]},\"edges\":[{\"tail\":[],\"feats\":[],\"rule\":6}],\"node\":{\"in_edges\":[5]},\"edges\":[{\"tail\":[],\"feats\":[],\"rule\":7}],\"node\":{\"in_edges\":[6]},\"edges\":[{\"tail\":[4,5],\"feats\":[],\"rule\":8},{\"tail\":[5,4],\"feats\":[],\"rule\":9}],\"node\":{\"in_edges\":[7,8]},\"edges\":[{\"tail\":[3,6],\"feats\":[],\"rule\":10},{\"tail\":[6,3],\"feats\":[],\"rule\":11}],\"node\":{\"in_edges\":[9,10]},\"edges\":[{\"tail\":[7,0],\"feats\":[],\"rule\":12},{\"tail\":[0,7],\"feats\":[],\"rule\":13}],\"node\":{\"in_edges\":[11,12]}}",
+ "{\"rules\":[1,\"[X] ||| [1] a\",2,\"[X] ||| [1] A\",3,\"[X] ||| [1] A A\",4,\"[X] ||| [1] b\",5,\"[X] ||| [1] c\",6,\"[X] ||| [1] B C\",7,\"[X] ||| [1] A B C\",8,\"[X] ||| [1] CC\"],\"features\":[\"f1\",\"f2\",\"Feature_1\",\"Feature_0\",\"Model_0\",\"Model_1\",\"Model_2\",\"Model_3\",\"Model_4\",\"Model_5\",\"Model_6\",\"Model_7\"],\"edges\":[],\"node\":{\"in_edges\":[]},\"edges\":[{\"tail\":[0],\"feats\":[2,-0.3],\"rule\":1},{\"tail\":[0],\"feats\":[2,-0.6],\"rule\":2},{\"tail\":[0],\"feats\":[2,-1.7],\"rule\":3}],\"node\":{\"in_edges\":[0,1,2]},\"edges\":[{\"tail\":[1],\"feats\":[2,-0.5],\"rule\":4}],\"node\":{\"in_edges\":[3]},\"edges\":[{\"tail\":[2],\"feats\":[2,-0.6],\"rule\":5},{\"tail\":[1],\"feats\":[2,-0.8],\"rule\":6},{\"tail\":[0],\"feats\":[2,-0.01],\"rule\":7},{\"tail\":[2],\"feats\":[2,-0.8],\"rule\":8}],\"node\":{\"in_edges\":[4,5,6,7]}}",
+ "{\"rules\":[1,\"[X] ||| [1] a\",2,\"[X] ||| [1] A\",3,\"[X] ||| [1] b\",4,\"[X] ||| [1] B'\"],\"features\":[\"f1\",\"f2\",\"Feature_1\",\"Feature_0\",\"Model_0\",\"Model_1\",\"Model_2\",\"Model_3\",\"Model_4\",\"Model_5\",\"Model_6\",\"Model_7\"],\"edges\":[],\"node\":{\"in_edges\":[]},\"edges\":[{\"tail\":[0],\"feats\":[0,-0.2],\"rule\":1},{\"tail\":[0],\"feats\":[0,-0.6],\"rule\":2}],\"node\":{\"in_edges\":[0,1]},\"edges\":[{\"tail\":[1],\"feats\":[0,-0.1],\"rule\":3},{\"tail\":[1],\"feats\":[0,-0.9],\"rule\":4}],\"node\":{\"in_edges\":[2,3]}}",
+};
+
+}
+
+void HGSetup::CreateTinyLatticeHG(Hypergraph* hg) {
+ Json(hg,HGjsons[TinyLatticeHG]);
+}
+
+void HGSetup::CreateLatticeHG(Hypergraph* hg) {
+ Json(hg,HGjsons[LatticeHG]);
+}
+
+void HGSetup::CreateHG_tiny(Hypergraph* hg) {
+ Json(hg,HGjsons[HG_tiny]);
+}
+
+void HGSetup::CreateHG_int(Hypergraph* hg) {
+ Json(hg,HGjsons[HG_int]);
+}
+
+void HGSetup::CreateHG(Hypergraph* hg) {
+ Json(hg,HGjsons[HG]);
+}
+
+void HGSetup::CreateHGBalanced(Hypergraph* hg) {
+ Json(hg,HGjsons[HGBalanced]);
+}
+
+
+#endif
generated by cgit v1.2.3 (git 2.39.1) at 2024-11-11 02:42:13 +0000