39 references to Maml
Microsoft.ML.Maml (1)
MAML.cs (1)
57
string currentDirectory = Path.GetDirectoryName(typeof(
Maml
).Module.FullyQualifiedName);
Microsoft.ML.OnnxTransformerTest (2)
OnnxTransformTests.cs (2)
343
var x =
Maml
.Main(new[] { @"showschema loader=Text{col=data_0:R4:0-150527} xf=Onnx{InputColumns={data_0} OutputColumns={softmaxout_1} model={squeezenet/00000001/model.onnx}}" });
350
var x =
Maml
.Main(new[] { @"showschema loader=Text{col=data_0:R4:0-150527} xf=Onnx{customShapeInfos={Name=data_0 Shape=1 Shape=3 Shape=224 Shape=224} InputColumns={data_0} OutputColumns={softmaxout_1} model={squeezenet/00000001/model.onnx}}" });
Microsoft.ML.PerformanceTests (1)
Helpers\ExecuteMaml.cs (1)
13
if (
Maml
.MainCore(environment, command, alwaysPrintStacktrace: false) < 0)
Microsoft.ML.TensorFlow.Tests (1)
TensorFlowEstimatorTests.cs (1)
142
Assert.Equal(0,
Maml
.Main(new[] { @"showschema loader=Text{col=a:R4:0-3 col=b:R4:0-3} xf=TFTransform{inputs=a inputs=b outputs=c modellocation={model_matmul/frozen_saved_model.pb}}" }));
Microsoft.ML.TestFramework (2)
BaseTestBaseline.cs (1)
1024
return
Maml
.MainCore(ML, args, false);
TestCommandBase.cs (1)
332
int result =
Maml
.MainCore(env, args, false);
Microsoft.ML.Tests (31)
OnnxConversionTest.cs (2)
440
Assert.Equal(0,
Maml
.Main(new[] { "train " + trainingPathArgs + trainingArgs }));
448
Assert.Equal(0,
Maml
.Main(new[] { conversionCommand }));
TermEstimatorTests.cs (1)
155
Assert.Equal(0,
Maml
.Main(new[] { @"showschema loader=Text{col=A:R4:0} xf=Term{col=B:A} in=f:\2.txt" }));
Transformers\CategoricalHashTests.cs (1)
217
Assert.Equal(0,
Maml
.Main(new[] { @"showschema loader=Text{col=A:R4:0} xf=CatHash{col=B:A} in=f:\2.txt" }));
Transformers\CategoricalTests.cs (1)
308
Assert.Equal(0,
Maml
.Main(new[] { @"showschema loader=Text{col=A:R4:0} xf=Cat{col=B:A} in=f:\2.txt" }));
Transformers\CharTokenizeTests.cs (1)
53
Assert.Equal(0,
Maml
.Main(new[] { @"showschema loader=Text{col=A:TX:0} xf=CharToken{col=B:A} in=f:\2.txt" }));
Transformers\ConvertTests.cs (1)
311
Assert.Equal(0,
Maml
.Main(new[] { @"showschema loader=Text{col=A:TX:0} xf=Convert{col=B:A type=R4} in=f:\2.txt" }));
Transformers\CopyColumnEstimatorTests.cs (1)
162
Assert.Equal(0,
Maml
.Main(new[] { @"showschema loader=Text{col=A:R4:0} xf=copy{col=B:A} in=f:\1.txt" }));
Transformers\FeatureSelectionTests.cs (3)
99
Assert.Equal(0,
Maml
.Main(new[] { @"showschema loader=Text{col=A:R4:0-10} xf=DropSlots{col=B:A:1-4} in=f:\2.txt" }));
141
Assert.Equal(0,
Maml
.Main(new[] { @"showschema loader=Text{col=A:R4:0-10} xf=CountFeatureSelection{col=A c=1} in=f:\2.txt" }));
201
Assert.Equal(0,
Maml
.Main(new[] { @"showschema loader=Text{col=A:R4:0-10 col=B:R4:11} xf=MutualInformationFeatureSelection{col=A lab=B} in=f:\2.txt" }));
Transformers\HashTests.cs (1)
105
Assert.Equal(0,
Maml
.Main(new[] { @"showschema loader=Text{col=A:R4:0} xf=Hash{col=B:A} in=f:\2.txt" }));
Transformers\KeyToBinaryVectorEstimatorTest.cs (1)
140
Assert.Equal(0,
Maml
.Main(new[] { @"showschema loader=Text{col=A:R4:0} xf=Term{col=B:A} xf=KeyToBinary{col=C:B} in=f:\2.txt" }));
Transformers\KeyToVectorEstimatorTests.cs (1)
199
Assert.Equal(0,
Maml
.Main(new[] { @"showschema loader=Text{col=A:R4:0} xf=Term{col=B:A} xf=KeyToVector{col=C:B col={name=D source=B bag+}} in=f:\2.txt" }));
Transformers\NAIndicatorTests.cs (1)
60
Assert.Equal(0,
Maml
.Main(new[] { @"showschema loader=Text{col=A:R4:0} xf=NAIndicator{col=B:A} in=f:\2.txt" }));
Transformers\NAReplaceTests.cs (1)
155
Assert.Equal(0,
Maml
.Main(new[] { @"showschema loader=Text{col=A:R4:0} xf=NAReplace{col=C:A} in=f:\2.txt" }));
Transformers\NormalizerTests.cs (3)
725
Assert.Equal(0,
Maml
.Main(new[] { @"showschema loader=Text{col=A:R4:0-10} xf=whitening{col=B:A} in=f:\2.txt" }));
786
Assert.Equal(0,
Maml
.Main(new[] { @"showschema loader=Text{col=A:R4:0-10} xf=LpNormNormalizer{col=B:A} in=f:\2.txt" }));
846
Assert.Equal(0,
Maml
.Main(new[] { @"showschema loader=Text{col=A:R4:0-10} xf=GcnTransform{col=B:A} in=f:\2.txt" }));
Transformers\RffTests.cs (1)
87
Assert.Equal(0,
Maml
.Main(new[] { @"showschema loader=Text{col=A:R4:0-100} xf=Rff{col=B:A dim=4 useSin+ kernel=LaplacianRandom} in=f:\2.txt" }));
Transformers\SelectColumnsTests.cs (4)
329
Assert.Equal(0,
Maml
.Main(new[] { @"showschema loader=Text{col=A:R4:0 col=B:R4:1 col=C:R4:2} xf=select{keepcol=A keepcol=B} in=f:\1.txt" }));
335
Assert.Equal(0,
Maml
.Main(new[] { @"showschema loader=Text{col=A:R4:0 col=B:R4:1 col=C:R4:2} xf=select{dropcol=A dropcol=B} in=f:\1.txt" }));
341
Assert.Equal(0,
Maml
.Main(new[] { @"showschema loader=Text{col=A:R4:0 col=B:R4:1 col=C:R4:2} xf=select{keepcol=A keepcol=B hidden=-} in=f:\1.txt" }));
347
Assert.Equal(0,
Maml
.Main(new[] { @"showschema loader=Text{col=A:R4:0 col=B:R4:1 col=C:R4:2} xf=select{keepcol=A keepcol=B ignore=-} in=f:\1.txt" }));
Transformers\TextFeaturizerTests.cs (1)
744
Assert.Equal(0,
Maml
.Main(new[] { @"showschema loader=Text{col=A:R4:0-10} xf=lda{col=B:A} in=f:\2.txt" }));
Transformers\TextNormalizer.cs (1)
74
Assert.Equal(0,
Maml
.Main(new[] { @"showschema loader=Text{col=A:TX:0} xf=TextNorm{col=B:A} in=f:\2.txt" }));
Transformers\ValueMappingTests.cs (4)
649
Assert.Equal(0,
Maml
.Main(new[] { @"showschema loader=Text{col=A:R4:0 col=B:R4:1 col=C:R4:2} xf=valuemap{keyCol=ID valueCol=Text data="
658
Assert.Equal(0,
Maml
.Main(new[] { @"showschema loader=Text{col=A:R4:0 col=B:R4:1 col=C:R4:2} xf=valuemap{data="
667
Assert.Equal(0,
Maml
.Main(new[] { @"showschema loader=Text{col=A:R4:0 col=B:R4:1 col=C:R4:2} xf=valuemap{data="
676
Assert.Equal(0,
Maml
.Main(new[] { @"showschema loader=Text{col=A:R4:0 col=B:R4:1 col=C:R4:2} xf=valuemap{data="
Transformers\WordTokenizeTests.cs (1)
91
Assert.Equal(0,
Maml
.Main(new[] { @"showschema loader=Text{col=A:TX:0} xf=WordToken{col=B:A} in=f:\2.txt" }));
MML (1)
Console.cs (1)
9
public static int Main(string[] args) =>
Maml
.Main(args);