// TODO: sina: rename it to ReadFeatureVector public DependencyInstance GetFeatureVector(BinaryReader reader, DependencyInstance inst, FeatureVector[,,] fvs, double[,,] probs, FeatureVector[,,] fvsTrips, double[,,] probsTrips, FeatureVector[,,] fvsSibs, double[,,] probsSibs, FeatureVector[,,,] ntFvs, double[,,,] ntProbs, Parameters @params) { int length = inst.Length; // Get production crap. for (int w1 = 0; w1 < length; w1++) { for (int w2 = w1 + 1; w2 < length; w2++) { for (int ph = 0; ph < 2; ph++) { var prodFV = new FeatureVector(); int indx = reader.ReadInt32(); while (indx != -2) { AddNewFeature(indx, 1.0, prodFV); indx = reader.ReadInt32(); } double prodProb = @params.GetScore(prodFV); fvs[w1, w2, ph] = prodFV; probs[w1, w2, ph] = prodProb; } } } int last = reader.ReadInt32(); if (last != -3) { Console.WriteLine("Error reading file."); throw new Exception("Bad File Format"); } if (Labeled) { for (int w1 = 0; w1 < length; w1++) { for (int t = 0; t < Types.Length; t++) { string type = Types[t]; for (int ph = 0; ph < 2; ph++) { for (int ch = 0; ch < 2; ch++) { var prodFV = new FeatureVector(); int indx = reader.ReadInt32(); while (indx != -2) { AddNewFeature(indx, 1.0, prodFV); indx = reader.ReadInt32(); } double ntProb = @params.GetScore(prodFV); ntFvs[w1, t, ph, ch] = prodFV; ntProbs[w1, t, ph, ch] = ntProb; } } } } last = reader.ReadInt32(); if (last != -3) { Console.WriteLine("Error reading file."); throw new Exception("Bad File Format"); } } for (int w1 = 0; w1 < length; w1++) { for (int w2 = w1; w2 < length; w2++) { for (int w3 = w2 + 1; w3 < length; w3++) { var prodFV = new FeatureVector(); int indx = reader.ReadInt32(); while (indx != -2) { AddNewFeature(indx, 1.0, prodFV); indx = reader.ReadInt32(); } double prodProb = @params.GetScore(prodFV); fvsTrips[w1, w2, w3] = prodFV; probsTrips[w1, w2, w3] = prodProb; } } for (int w2 = w1; w2 >= 0; w2--) { for (int w3 = w2 - 1; w3 >= 0; w3--) { var prodFV = new FeatureVector(); int indx = reader.ReadInt32(); while (indx != -2) { AddNewFeature(indx, 1.0, prodFV); indx = reader.ReadInt32(); } double prodProb = @params.GetScore(prodFV); fvsTrips[w1, w2, w3] = prodFV; probsTrips[w1, w2, w3] = prodProb; } } } last = reader.ReadInt32(); if (last != -3) { Console.WriteLine("Error reading file."); throw new Exception("Bad File Format"); } for (int w1 = 0; w1 < length; w1++) { for (int w2 = 0; w2 < length; w2++) { for (int wh = 0; wh < 2; wh++) { if (w1 != w2) { var prodFV = new FeatureVector(); int indx = reader.ReadInt32(); while (indx != -2) { AddNewFeature(indx, 1.0, prodFV); indx = reader.ReadInt32(); } double prodProb = @params.GetScore(prodFV); fvsSibs[w1, w2, wh] = prodFV; probsSibs[w1, w2, wh] = prodProb; } } } } last = reader.ReadInt32(); if (last != -3) { Console.WriteLine("Error reading file."); throw new Exception("Bad File Format"); } var nfv = new FeatureVector(); int next = reader.ReadInt32(); while (next != -4) { AddNewFeature(next, 1.0, nfv); next = reader.ReadInt32(); } string[] toks = null; string[] pos = null; string[] labs = null; string actParseTree = null; try { int len = reader.ReadInt32(); //Added by MSR toks = new string[len]; for (int i = 0; i < len; i++) { toks[i] = reader.ReadString(); } //next = reader.ReadInt32(); len = reader.ReadInt32(); //Added by MSR pos = new string[len]; for (int i = 0; i < len; i++) { pos[i] = reader.ReadString(); } next = reader.ReadInt32(); len = reader.ReadInt32(); //Added by MSR labs = new string[len]; for (int i = 0; i < len; i++) { labs[i] = reader.ReadString(); } next = reader.ReadInt32(); actParseTree = reader.ReadString(); next = reader.ReadInt32(); } catch (Exception e) { // TODO: sina: A library MUST NOT call Environment.Exit in any form // throw exception instead. Console.WriteLine("Error reading file."); throw new Exception("Bad File Format"); } if (next != -1) { // TODO: sina: A library MUST NOT call Environment.Exit in any form // throw exception instead. Console.WriteLine("Error reading file."); throw new Exception("Bad File Format"); } var pti = new DependencyInstance(toks, pos, labs, nfv); pti.ActParseTree = actParseTree; return pti; }
public void GetFeatureVector(DependencyInstance inst, FeatureVector[,,] fvs, double[,,] probs, FeatureVector[,,] fvsTrips, double[,,] probsTrips, FeatureVector[,,] fvsSibs, double[,,] probsSibs, FeatureVector[,,,] ntFvs, double[,,,] ntProbs, Parameters @params) { string[] toks = inst.Sentence; string[] pos = inst.POS; string[] labs = inst.Labs; var posA = new string[pos.Length]; for (int i = 0; i < pos.Length; i++) { posA[i] = pos[i].SubstringWithIndex(0, 1); } // Get production crap. for (int w1 = 0; w1 < toks.Length; w1++) { for (int w2 = w1 + 1; w2 < toks.Length; w2++) { for (int ph = 0; ph < 2; ph++) { bool attR = ph == 0 ? true : false; int childInt = attR ? w2 : w1; int parInt = attR ? w1 : w2; FeatureVector prodFV = CreateFeatureVector(toks, pos, posA, w1, w2, attR, new FeatureVector()); double prodProb = @params.GetScore(prodFV); fvs[w1, w2, ph] = prodFV; probs[w1, w2, ph] = prodProb; } } } if (Labeled) { for (int w1 = 0; w1 < toks.Length; w1++) { for (int t = 0; t < Types.Length; t++) { string type = Types[t]; for (int ph = 0; ph < 2; ph++) { bool attR = ph == 0 ? true : false; for (int ch = 0; ch < 2; ch++) { bool child = ch == 0 ? true : false; FeatureVector prodFV = CreateFeatureVector(toks, pos, posA, w1, type, attR, child, new FeatureVector()); double ntProb = @params.GetScore(prodFV); ntFvs[w1, t, ph, ch] = prodFV; ntProbs[w1, t, ph, ch] = ntProb; } } } } } for (int w1 = 0; w1 < toks.Length; w1++) { for (int w2 = w1; w2 < toks.Length; w2++) { for (int w3 = w2 + 1; w3 < toks.Length; w3++) { FeatureVector prodFV = CreateFeatureVector(toks, pos, posA, w1, w2, w3, new FeatureVector()); double prodProb = @params.GetScore(prodFV); fvsTrips[w1, w2, w3] = prodFV; probsTrips[w1, w2, w3] = prodProb; } } for (int w2 = w1; w2 >= 0; w2--) { for (int w3 = w2 - 1; w3 >= 0; w3--) { FeatureVector prodFV = CreateFeatureVector(toks, pos, posA, w1, w2, w3, new FeatureVector()); double prodProb = @params.GetScore(prodFV); fvsTrips[w1, w2, w3] = prodFV; probsTrips[w1, w2, w3] = prodProb; } } } for (int w1 = 0; w1 < toks.Length; w1++) { for (int w2 = 0; w2 < toks.Length; w2++) { for (int wh = 0; wh < 2; wh++) { if (w1 != w2) { FeatureVector prodFV = CreateFeatureVectorSib(toks, pos, w1, w2, wh == 0, new FeatureVector()); double prodProb = @params.GetScore(prodFV); fvsSibs[w1, w2, wh] = prodFV; probsSibs[w1, w2, wh] = prodProb; } } } } }
public DependencyInstance ReadFeatureVector(BinaryReader reader, DependencyInstance inst, FeatureVector[,,] fvs, double[,,] probs, FeatureVector[,,,] ntFvs, double[,,,] ntProbs, Parameters parameters) { int length = inst.Length; // Get production crap. for (int w1 = 0; w1 < length; w1++) { for (int w2 = w1 + 1; w2 < length; w2++) { for (int ph = 0; ph < 2; ph++) { var prodFV = new FeatureVector(); int indx = reader.ReadInt32(); while (indx != -2) { AddNewFeature(indx, 1.0, prodFV); indx = reader.ReadInt32(); } double prodProb = parameters.GetScore(prodFV); fvs[w1, w2, ph] = prodFV; probs[w1, w2, ph] = prodProb; } } } int last = reader.ReadInt32(); if (last != -3) { Console.WriteLine("Error reading file."); throw new Exception("Bad File Format"); } if (Labeled) { for (int w1 = 0; w1 < length; w1++) { for (int t = 0; t < Types.Length; t++) { string type = Types[t]; for (int ph = 0; ph < 2; ph++) { for (int ch = 0; ch < 2; ch++) { var prodFV = new FeatureVector(); int indx = reader.ReadInt32(); while (indx != -2) { AddNewFeature(indx, 1.0, prodFV); indx = reader.ReadInt32(); } double ntProb = parameters.GetScore(prodFV); ntFvs[w1, t, ph, ch] = prodFV; ntProbs[w1, t, ph, ch] = ntProb; } } } } last = reader.ReadInt32(); if (last != -3) { Console.WriteLine("Error reading file."); throw new Exception("Bad File Format"); } } var nfv = new FeatureVector(); int next = reader.ReadInt32(); while (next != -4) { AddNewFeature(next, 1.0, nfv); next = reader.ReadInt32(); } string[] toks = null; string[] pos = null; string[] labs = null; string actParseTree = null; try { int len = reader.ReadInt32(); toks = new string[len]; for (int i = 0; i < len; i++) { toks[i] = reader.ReadString(); } next = reader.ReadInt32(); len = reader.ReadInt32(); pos = new string[len]; for (int i = 0; i < len; i++) { pos[i] = reader.ReadString(); } next = reader.ReadInt32(); len = reader.ReadInt32(); labs = new string[len]; for (int i = 0; i < len; i++) { labs[i] = reader.ReadString(); } next = reader.ReadInt32(); actParseTree = reader.ReadString(); next = reader.ReadInt32(); } catch (Exception e) { Console.WriteLine("Error reading file."); throw new Exception("Bad File Format"); } if (next != -1) { Console.WriteLine("Error reading file."); throw new Exception("Bad File Format"); } var pti = new DependencyInstance(toks, pos, labs, nfv); pti.ActParseTree = actParseTree; return pti; }