apache · Shafaq-Siddiqi · Aug 9, 2023
diff --git a/scripts/builtin/abstain.dml b/scripts/builtin/abstain.dml
@@ -43,7 +43,7 @@ return (Matrix[Double] Xout, Matrix[Double] Yout)
   Yout = Y
   if(min(Y) != max(Y) & max(Y) <= 2)
   {
-    betas = multiLogReg(X=X, Y=Y, icpt=1, reg=1e-4, maxi=100, maxii=0, verbose=verbose)
+    betas = multiLogReg(X=X, Y=Y, icpt=1, reg=1e-4, maxi=50, maxii=0, verbose=verbose)
     [prob, yhat, accuracy] = multiLogRegPredict(X, betas, Y, FALSE)
 
     inc = ((yhat != Y) & (rowMaxs(prob) > threshold))

diff --git a/scripts/builtin/apply_pipeline.dml b/scripts/builtin/apply_pipeline.dml
@@ -52,7 +52,7 @@ s_apply_pipeline = function(Frame[Unknown] testData, Frame[Unknown] metaData = a
   [schema, mask, fdMask, maskY] = topk::prepareMeta(testData, metaData)
   pip = removeEmpty(target=pip, margin="cols")
   applyFunc = removeEmpty(target=applyFunc, margin="cols")
-  metaList = list(mask=mask, schema=schema, fd=fdMask, applyFunc=as.frame("NULL"))
+  metaList = list(mask=mask, schema=schema, fd=fdMask, applyFunc=as.frame("NULL"), tfspec=as.scalar(exState[3]))
   ctx = list(prefix="----"); #TODO include seed
   # separate the label
   [Xtest, Ytest] = topk::getLabel(testData, isLastLabel)
@@ -75,7 +75,7 @@ s_apply_pipeline = function(Frame[Unknown] testData, Frame[Unknown] metaData = a
   M = as.frame(exState[2])
   if(sum(mask) > 0)
   {
-    index = vectorToCsv(mask)
+    index = vectorToCsv(mask, ncol(mask))
     jspecR = "{ids:true, recode:["+index+"]}"
     eXtest = transformapply(target=Xtest, spec=jspecR, meta=M);
   }

diff --git a/scripts/builtin/bandit.dml b/scripts/builtin/bandit.dml
@@ -57,7 +57,8 @@ m_bandit = function(Matrix[Double] X_train, Matrix[Double] Y_train, Matrix[Doubl
   totalPruneCount = 0
   FLAG_VARIABLE = 5
   pipelines_executed = 0
-  HYPERPARAM_LENGTH = ((ncol(lp) + 2) * FLAG_VARIABLE * 3) + 1 ## num of col in logical * 5 meat flag vars * max hyperparam per op + 1 accuracy col
+  maxValueInParam = max(as.matrix(param[, 3]))
+  HYPERPARAM_LENGTH = ((ncol(lp) + 2) * FLAG_VARIABLE * maxValueInParam) + 1 ## num of col in logical * 5 meat flag vars * max hyperparam per op + 1 accuracy col
   bestPipeline = frame("", rows=1, cols=1)
   bestHyperparams = as.matrix(0)
   bestAccuracy = as.matrix(0)
@@ -111,7 +112,7 @@ m_bandit = function(Matrix[Double] X_train, Matrix[Double] Y_train, Matrix[Doubl
       configurations = configurations[1:n_i, ]
       pipelines_executed = pipelines_executed + (n_i * r_i)
       [outPip,outHp, pruneCount] = run_with_hyperparam(ph_pip=configurations, r_i=r_i, X=X_train, Y=Y_train, Xtest=X_test, Ytest=Y_test, metaList=metaList,
-        evaluationFunc=evaluationFunc, evalFunHp=evalFunHp, param=param, cv=cv, cvk=cvk, ref=ref, seed = seed, enablePruning=enablePruning)
+        evaluationFunc=evaluationFunc, evalFunHp=evalFunHp, param=param, maxOpCount=maxValueInParam, cv=cv, cvk=cvk, ref=ref, seed = seed, enablePruning=enablePruning)
       totalPruneCount = totalPruneCount + pruneCount
       # sort the pipelines by order of accuracy decreasing
       IX = order(target = outPip, by = 1, decreasing=TRUE, index.return=TRUE)
@@ -214,19 +215,21 @@ get_physical_configurations = function(Frame[String] logical, Scalar[int] numCon
 # # this method will call the execute pipelines with their hyper-parameters
 run_with_hyperparam = function(Frame[Unknown] ph_pip, Integer r_i = 1, Matrix[Double] X, Matrix[Double] Y,
   Matrix[Double] Xtest, Matrix[Double] Ytest, List[Unknown] metaList, String evaluationFunc, Matrix[Double] evalFunHp,
-  Frame[Unknown] param, Boolean cv = FALSE,  Integer cvk = 2, Double ref = 0, Integer seed = -1, Boolean enablePruning = FALSE, Boolean default = FALSE)
+  Frame[Unknown] param, Boolean cv = FALSE,  Integer maxOpCount=3, Integer cvk = 2, Double ref = 0, Integer seed = -1, Boolean enablePruning = FALSE, Boolean default = FALSE)
   return (Matrix[Double] output_operator, Matrix[Double] output_hyperparam, Integer pruneCount, Matrix[Double] changesByPipMatrix)
 {
   # # # TODO there is a partial overlap but it is negligible so we will not rewrite the scripts but lineage based reuse will get rid of it
+  tfspec=as.scalar(metaList["tfspec"])
+  mask=as.matrix(metaList["mask"])
   changesByPipMatrix = matrix(0, rows=nrow(ph_pip) * r_i, cols=1)
   pruneCount = 0
-  output_hp = matrix(0, nrow(ph_pip)*r_i, (ncol(ph_pip)) * 5 * 3)
+  output_hp = matrix(0, nrow(ph_pip)*r_i, (ncol(ph_pip)) * 5 * maxOpCount)
   output_accuracy = matrix(0, nrow(ph_pip)*r_i, 1)
   output_pipelines = matrix(0, nrow(ph_pip)*r_i, 3)
   # rows in validation set
   ids = as.matrix(ph_pip[, 1:2])
   ph_pip = ph_pip[, 3:ncol(ph_pip)]
-  inputHpMatrix = matrix(0, nrow(ph_pip)*r_i, (ncol(ph_pip)) * 5 * 3 + 1)
+  inputHpMatrix = matrix(0, nrow(ph_pip)*r_i, (ncol(ph_pip)) * 5 * maxOpCount + 1)
   # prepare the pipelines and resources
   allPipelines = frame(0, rows = nrow(ph_pip) * r_i, cols=ncol(ph_pip))
   allApplyFunctions = frame(0, rows = nrow(ph_pip) * r_i, cols=ncol(ph_pip))
@@ -286,7 +289,7 @@ run_with_hyperparam = function(Frame[Unknown] ph_pip, Integer r_i = 1, Matrix[Do
     hp = hp[, 2:totalVals]
     applyFunctions = allApplyFunctions[i]
     no_of_res = nrow(hp)
-    # print("PIPELINE EXECUTION START ... "+toString(op))
+    print("PIPELINE EXECUTION START ... "+toString(op))
     hpForPruning = matrix(0, rows=1, cols=ncol(op))
     changesByOp = matrix(0, rows=1, cols=ncol(op))
     metaList2 = metaList; #ensure metaList is no result var
@@ -317,7 +320,7 @@ run_with_hyperparam = function(Frame[Unknown] ph_pip, Integer r_i = 1, Matrix[Do
         else if(changesByPip < ref)
           print("prunningAlert 2: not training the model due to minimum changes")
         else 
-          evalFunOutput = eval(evaluationFunc, list(X=eXtrain, Y=eYtrain, Xtest=eXtest, Ytest=eYtest, Xorig=as.matrix(0), evalFunHp=evalFunHp))
+          evalFunOutput = eval(evaluationFunc, list(X=eXtrain, Y=eYtrain, Xtest=eXtest, Ytest=eYtest, Xorig=mask, evalFunHp=evalFunHp, tfspec=tfspec))
           accuracy = as.scalar(evalFunOutput[1, 1])
       }
 
@@ -506,12 +509,13 @@ crossV = function(Matrix[double] X, Matrix[double] y, Integer cvk, Matrix[Double
   Matrix[Double] hpForPruning = as.matrix(0), Matrix[Double] changesByOp = as.matrix(0), String evalFunc, Double ref = 0) 
 return (Double accuracy, Matrix[Double] evalFunHp, Matrix[Double] hpForPruning, Matrix[Double] changesByOp, Double allChanges)
 {
-
+  tfspec = as.scalar(metaList['tfspec'])
   # # in the below condition we compute the hp using cv method on train dataset
-  if(is.na(as.scalar(evalFunHp[1,1]))) {
-    forEvalHp = eval(evalFunc, list(X=X, Y=y, Xtest=X, Ytest=y, Xorig=as.matrix(0), evalFunHp=evalFunHp))
+  if(is.na(as.scalar(evalFunHp[1,1])) & tfspec=="NA") {
+    forEvalHp = eval(evalFunc, list(X=X, Y=y, Xtest=X, Ytest=y, Xorig=as.matrix(0), evalFunHp=evalFunHp, tfspec=tfspec))
     evalFunHp = forEvalHp[1, 2:ncol(forEvalHp)]
   } 
+  mask = as.matrix(metaList['mask'])
   changesByPip = 0
   cvChanges = matrix(0, rows=cvk, cols=ncol(changesByOp))
   accuracyMatrix = matrix(0, cvk, 1)
@@ -547,9 +551,9 @@ return (Double accuracy, Matrix[Double] evalFunHp, Matrix[Double] hpForPruning,
       allChanges[i] = changesByPip
     }
     if(changesByPip < ref)
-      print("prunning alert 2: no training the model due to minimum changes")
+      print("pruning alert 2: no training the model due to minimum changes")
     else { 
-      res = eval(evalFunc, list(X=trainX, Y=trainy, Xtest=testX, Ytest=testy, Xorig=as.matrix(0), evalFunHp=evalFunHp))
+      res = eval(evalFunc, list(X=trainX, Y=trainy, Xtest=testX, Ytest=testy, Xorig=mask , evalFunHp=evalFunHp, tfspec=tfspec))
       accuracyMatrix[i] = res[1, 1]
     }
 

diff --git a/scripts/builtin/correctTyposApply.dml b/scripts/builtin/correctTyposApply.dml
@@ -91,3 +91,4 @@ replaceStrings1 = function(String replacement, String to_replace, Frame[String]
 {
   strings = map(strings, "s -> s.equals(\""+to_replace+"\") ? \""+replacement+"\" : s");
 }
+
diff --git a/scripts/builtin/executePipeline.dml b/scripts/builtin/executePipeline.dml
@@ -101,7 +101,6 @@ s_executePipeline = function(Frame[String] pipeline, Matrix[Double] Xtrain,  Mat
     else {
       print("not applying operation executeFlag = 0")
     }
-
     if(ncol(Xtest) == d & nrow(Xtest) == nrow(XtestClone) & ncol(hpForPruning) > 1) {
       changesSingle = sum(abs(replace(target=Xtest, pattern=NaN, replacement=0) - replace(target=XtestClone, pattern=NaN, replacement=0))  > 0.001 )
       changesAll  = sum(abs(replace(target=Xtest, pattern=NaN, replacement=0) - replace(target=Xorig, pattern=NaN, replacement=0))  > 0.001 )
@@ -204,7 +203,7 @@ return (Matrix[Double] X)
     # X without numerics
     Xcat = removeEmpty(target=originalX, margin="cols", select=mask)
     nanMask = is.na(Xcat)
-    Xcat = replace(target = Xcat, pattern = NaN, replacement = -1111)
+    Xcat = abs(round(replace(target = Xcat, pattern = NaN, replacement = 4444)))
 
     # reconstruct the original matrix
     p = table(seq(1, ncol(nX)), removeEmpty(target=seq(1, ncol(mask)), margin="rows", 
@@ -214,24 +213,24 @@ return (Matrix[Double] X)
     X = (nX %*% p) + (Xcat %*% q) 
 
     X = replace(target = X, pattern = maxDummy, replacement = NaN)
-    X = replace(target = X, pattern = -1111, replacement = NaN)
+    X = replace(target = X, pattern = 4444, replacement = NaN)
   }
   else if(dataFlag == 1 & (sum(mask) > 0) & (sum(mask) != ncol(originalX)))
   {
-    maxDummy = max(replace(target=nX, pattern=NaN, replacement=0)) + 1
-    nX = replace(target = nX, pattern = NaN, replacement = maxDummy)
+    maxDummy = abs(round(max(replace(target=nX, pattern=NaN, replacement=0)) + 1))
+    nX = abs(round(replace(target = nX, pattern = NaN, replacement = maxDummy)))
     # X without categorical
     Xnum = removeEmpty(target=originalX, margin="cols", select=(mask==0))
     nanMask = is.na(Xnum)
-    Xnum = replace(target = Xnum, pattern = NaN, replacement = -1111)
+    Xnum = replace(target = Xnum, pattern = NaN, replacement = 4444)
     # reconstruct the original matrix
     p = table(seq(1, ncol(Xnum)), removeEmpty(target=seq(1, ncol(mask)), margin="rows", 
     select=t(mask==0)), ncol(Xnum), ncol(originalX))
     q = table(seq(1, ncol(nX)), removeEmpty(target=seq(1, ncol(mask)), margin="rows", 
     select=t(mask)), ncol(nX), ncol(originalX))
     X = (nX %*% q) + (Xnum %*% p) 
     X = replace(target = X, pattern = maxDummy, replacement = NaN)
-    X = replace(target = X, pattern = -1111, replacement = NaN)
+    X = replace(target = X, pattern = 4444, replacement = NaN)
 
   }
   else X = nX
@@ -247,14 +246,14 @@ return (Matrix[Double] X)
 #######################################################################
 
 dummycoding = function(Matrix[Double] X,  Matrix[Double] mask)
-return (Matrix[Double] X, String jspec, Frame[Unknown] meta) {
-
+return (Matrix[Double] X, String jspec, Frame[Unknown] meta) {  
+  
   meta = as.frame("NULL")
   jspec = ""
   if(sum(mask) > 0)
   {
     X = replace(target=X, pattern=NaN, replacement=0)
-    idx = vectorToCsv(mask)
+    idx = vectorToCsv(mask, ncol(X))
     # specifications for one-hot encoding of categorical features
     jspec = "{ids:true, dummycode:["+idx+"]}";
     # OHE of categorical features
@@ -268,6 +267,7 @@ return (Matrix[Double] Y) {
 
   if(jspec != "")
   {
+   X = replace(target=X, pattern=NaN, replacement=0)
    Y = transformapply(target=as.frame(X), spec=jspec, meta=meta);
   }
   else Y = X
@@ -286,6 +286,7 @@ return (Matrix[Double] X, Matrix[Double] fillMatrix)
   if(sum(fdMask) > 0)
   {
     t = replace(target=X, pattern=NaN, replacement=1)
+    t = replace(target=t, pattern=0, replacement=1)
     fdMask = removeEmpty(target=fdMask, margin="cols")
     FD = discoverFD(X=t, Mask=fdMask, threshold=threshold)
     FD = (diag(matrix(1, rows=nrow(FD), cols=1)) ==0) * FD 

diff --git a/scripts/builtin/fit_pipeline.dml b/scripts/builtin/fit_pipeline.dml
@@ -48,7 +48,7 @@ source("scripts/builtin/bandit.dml") as bandit;
 
 s_fit_pipeline = function(Frame[Unknown] trainData, Frame[Unknown] testData, Frame[Unknown] metaData = as.frame("NULL"),
   Frame[Unknown] pip, Frame[Unknown] applyFunc, Matrix[Double] hp, Integer cvk=3, String evaluationFunc, Matrix[Double] evalFunHp,
-  Boolean isLastLabel = TRUE, Boolean correctTypos=FALSE)
+  Boolean isLastLabel = TRUE, String tfspec="NA", Boolean OHE=TRUE, Boolean correctTypos=FALSE)
 return (Matrix[Double] scores, Matrix[Double] cleanTrain, Matrix[Double] cleanTest, List[Unknown] externalState, List[Unknown] iState)
 {
   externalState = list()
@@ -57,14 +57,17 @@ return (Matrix[Double] scores, Matrix[Double] cleanTrain, Matrix[Double] cleanTe
 
   pip = removeEmpty(target=pip, margin="cols")
   applyFunc = removeEmpty(target=applyFunc, margin="cols")
-  metaList = list(mask=mask, schema=schema, fd=fdMask, applyFunc=as.frame("NULL"))
+  metaList = list(mask=mask, schema=schema, fd=fdMask, applyFunc=as.frame("NULL"), tfspec=tfspec)
   ctx = list(prefix="----"); #TODO include seed
   # separate the label
   [Xtrain, Ytrain] = topk::getLabel(trainData, isLastLabel)
   [Xtest, Ytest] = topk::getLabel(testData, isLastLabel)
 
   # always recode the label 
   if(maskY == 1) {
+    sc = detectSchema(Ytrain)
+    Ytrain = applySchema(Ytrain, sc)
+    Ytest = applySchema(Ytest, sc)
     [eYtrain, M] = transformencode(target=Ytrain, spec= "{ids:true, recode:[1]}");
     eYtest = transformapply(target=Ytest, spec= "{ids:true, recode:[1]}", meta=M);
     externalState = append(externalState, M)
@@ -77,12 +80,13 @@ return (Matrix[Double] scores, Matrix[Double] cleanTrain, Matrix[Double] cleanTe
     # # # when the evaluation function is called first we also compute and keep hyperparams of target application
   ctx = list(prefix="evaluate Pipeline")
   dirtyScore = topk::getDirtyScore(X=Xtrain, Y=eYtrain, Xtest=Xtest, Ytest=eYtest, metaList=metaList,
-    evaluationFunc=evaluationFunc, evalFunHp=evalFunHp, ctx=ctx)
+    evaluationFunc=evaluationFunc, evalFunHp=evalFunHp, OHE=OHE, ctx=ctx)
   [Xtrain, Xtest] = topk::runStringPipeline(Xtrain, Xtest, schema, mask, FALSE, correctTypos, ctx)
 
   # # # if mask has 1s then there are categorical features
   [eXtrain, eXtest, M1] = topk::recodeData(Xtrain, Xtest, mask, FALSE, "recode")
   externalState = append(externalState, M1)
+  externalState = append(externalState, tfspec)
   # # # do the early dropping
   # [eXtrain, eXtest, metaList] = topk::featureDrop(eXtrain, eXtest, metaList, FALSE)
   metaList["applyFunc"] = applyFunc
@@ -94,25 +98,22 @@ return (Matrix[Double] scores, Matrix[Double] cleanTrain, Matrix[Double] cleanTe
 
   [trainScore, evalFunHp] = bandit::crossV(X=eXtrain, y=eYtrain, cvk=cvk, evalFunHp=evalFunHp,
       pipList=pipList, metaList=metaList, evalFunc=evaluationFunc)
-  print("train score cv: "+toString(trainScore))
-
 
   # # # now test accuracy
   [eXtrain, eYtrain, eXtest, eYtest, a, b, c, d, iState] = executePipeline(pipeline=pip, Xtrain=eXtrain, Ytrain=eYtrain,
     Xtest=eXtest, Ytest=eYtest, metaList=metaList, hyperParameters=hp_matrix, flagsCount=no_of_flag_vars, test=TRUE, verbose=FALSE)
-  
+
   if(max(eYtrain) == min(eYtrain)) 
     stop("Y contains only one class")
 
   # score = eval(evaluationFunc, list(X=eXtrain, Y=eYtrain, Xtest=eXtrain, Ytest=eYtrain, Xorig=as.matrix(0), evalFunHp=evalFunHp))
   # trainAccuracy = as.scalar(score[1, 1])
-
-  score = eval(evaluationFunc, list(X=eXtrain, Y=eYtrain, Xtest=eXtest, Ytest=eYtest, Xorig=as.matrix(0), evalFunHp=evalFunHp))
+  score = eval(evaluationFunc, list(X=eXtrain, Y=eYtrain, Xtest=eXtest, Ytest=eYtest, Xorig=mask, evalFunHp=evalFunHp, tfspec=tfspec))
   testAccuracy = as.scalar(score[1, 1])
 
   scores = matrix(0, rows=1, cols=3)
   scores[1, 1] = dirtyScore
-  # scores[1, 2] = trainAccuracy
+  scores[1, 2] = trainScore
   scores[1, 3] = testAccuracy  
   cleanTrain = cbind(eXtrain, eYtrain)
   cleanTest = cbind(eXtest, eYtest)

diff --git a/scripts/builtin/frameSort.dml b/scripts/builtin/frameSort.dml
@@ -36,7 +36,7 @@
 s_frameSort = function(Frame[String] F, Matrix[Double] mask, Boolean orderDesc = TRUE)
 return (Frame[String] f_ordered)
 {
-  index = vectorToCsv(mask)
+  index = vectorToCsv(mask, ncol(F))
   # recode logical pipelines for easy handling
   jspecR = "{ids:true, recode:["+index+"]}";
   [X, M] = transformencode(target=F, spec=jspecR);

diff --git a/scripts/builtin/mice.dml b/scripts/builtin/mice.dml
@@ -72,7 +72,7 @@ m_mice= function(Matrix[Double] X, Matrix[Double] cMask, Integer iter = 3,
   d = ncol(X1)
   n = nrow(X1)
   # compute index of categorical features
-  index = vectorToCsv(cMask)
+  index = vectorToCsv(cMask, ncol(cMask))
   # specifications for one-hot encoding of categorical features
   jspecDC = "{ids:true, dummycode:["+index+"]}";
   [dX, dM] = transformencode(target=as.frame(X1), spec=jspecDC);

diff --git a/scripts/builtin/miceApply.dml b/scripts/builtin/miceApply.dml
@@ -72,7 +72,7 @@ m_miceApply = function(Matrix[Double] X, Matrix[Double] meta, Double threshold,
   n = nrow(X1)
 
   # compute index of categorical features
-  index = vectorToCsv(mask)
+  index = vectorToCsv(mask, ncol(mask))
   # specifications for one-hot encoding of categorical features
   jspecDC = "{ids:true, dummycode:["+index+"]}";