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com.johnsnowlabs.ml.ai.CPM.scala Maven / Gradle / Ivy
/*
* Copyright 2017 - 2023 John Snow Labs
*
* Licensed under the Apache License, Version 2.0 (the "License");
* you may not use this file except in compliance with the License.
* You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*/
package com.johnsnowlabs.ml.ai
import ai.onnxruntime.{OnnxTensor, OrtEnvironment, OrtSession}
import com.johnsnowlabs.ml.ai.util.Generation.{Generate, GenerationConfig}
import com.johnsnowlabs.ml.onnx.OnnxSession
import com.johnsnowlabs.ml.onnx.OnnxWrapper.DecoderWrappers
import com.johnsnowlabs.ml.onnx.TensorResources.implicits._
import com.johnsnowlabs.ml.openvino.OpenvinoWrapper
import com.johnsnowlabs.ml.tensorflow.sentencepiece.SentencePieceWrapper
import com.johnsnowlabs.ml.util.{ONNX, Openvino, TensorFlow}
import com.johnsnowlabs.nlp.Annotation
import scala.collection.JavaConverters._
import com.johnsnowlabs.nlp.AnnotatorType.DOCUMENT
import org.intel.openvino.InferRequest
import org.tensorflow.{Session, Tensor}
private[johnsnowlabs] class CPM(
val onnxWrappers: Option[DecoderWrappers],
val openvinoWrapper: Option[OpenvinoWrapper],
val spp: SentencePieceWrapper,
generationConfig: GenerationConfig)
extends Serializable
with Generate {
private val onnxSessionOptions: Map[String, String] = new OnnxSession().getSessionOptions
val detectedEngine: String =
if (onnxWrappers.isDefined) ONNX.name
else if (openvinoWrapper.isDefined) Openvino.name
else ONNX.name
private val GenerationConfig(
bosTokenId: Int,
paddingTokenId: Int,
eosTokenId: Int,
vocabSize: Int,
beginSuppressTokens,
suppressTokenIds,
forcedDecoderIds) =
generationConfig
private val pieceSize = spp.getSppModel.getPieceSize
/** Decode a sequence of sentences
* @param sentences
* Sequence of sentences
* @return
* Sequence of decoded sentences
*/
def decode(sentences: Array[Array[Int]]): Seq[String] = {
sentences.map { s =>
val filteredPieceIds = s.filter(x => x <= pieceSize)
spp.getSppModel.decodeIds(filteredPieceIds.map(_.toInt): _*)
}
}
/** Encode a sequence of sentences
* @param sentences
* Sequence of sentences
* @return
* Sequence of encoded sentences
*/
def encode(sentences: Seq[Annotation]): Seq[Array[Int]] = {
sentences.map(s => {
val sentWithTask = s.result
Array(bosTokenId) ++ spp.getSppModel.encodeAsIds(sentWithTask)
})
}
def tag(
batch: Seq[Array[Int]],
minOutputLength: Int,
maxOutputLength: Int,
doSample: Boolean,
temperature: Double,
topK: Int,
topP: Double,
repetitionPenalty: Double,
noRepeatNgramSize: Int,
randomSeed: Option[Long],
ignoreTokenIds: Array[Int] = Array(),
beamSize: Int,
maxInputLength: Int,
stopTokenIds: Array[Int]): Array[Array[Int]] = {
val ignoreTokenIdsInt = ignoreTokenIds
val expandedDecoderInputsVals = batch.toArray
val sequencesLength = expandedDecoderInputsVals.map(x => x.length).toArray
val maxSentenceLength = sequencesLength.max // - curLen
val numReturn_sequences = 1
// from config
var effectiveBatch_size = 1
var effectiveBatch_mult = 1
if (doSample) {
effectiveBatch_size = expandedDecoderInputsVals.length * numReturn_sequences
effectiveBatch_mult = numReturn_sequences
} else {
effectiveBatch_size = expandedDecoderInputsVals.length
effectiveBatch_mult = 1
}
val (decoderEncoderStateTensors, encoderAttentionMaskTensors, session) =
detectedEngine match {
case ONNX.name =>
// dummy tensors for decoder encode state and attention mask
val (encoderSession, env) = onnxWrappers.get.decoder.getSession(onnxSessionOptions)
(
Right(OnnxTensor.createTensor(env, Array(0))),
Right(OnnxTensor.createTensor(env, Array(1))),
Right((env, encoderSession)))
case Openvino.name =>
// not needed
(null, null, null)
}
val ovInferRequest: Option[InferRequest] = detectedEngine match {
case ONNX.name => None
case Openvino.name => Some(openvinoWrapper.get.getCompiledModel().create_infer_request())
}
// output with beam search
val modelOutputs = generate(
batch,
decoderEncoderStateTensors,
encoderAttentionMaskTensors,
expandedDecoderInputsVals.toArray,
maxOutputLength + maxSentenceLength,
minOutputLength,
doSample,
beamSize,
1,
temperature,
topK,
topP,
repetitionPenalty,
noRepeatNgramSize,
this.vocabSize,
this.eosTokenId,
this.paddingTokenId,
randomSeed,
ignoreTokenIdsInt,
session,
applySoftmax = true,
ovInferRequest = ovInferRequest,
stopTokenIds = stopTokenIds)
// decoderOutputs
modelOutputs
}
def predict(
sentences: Seq[Annotation],
batchSize: Int,
minOutputLength: Int,
maxOutputLength: Int,
doSample: Boolean,
temperature: Double,
topK: Int,
topP: Double,
repetitionPenalty: Double,
noRepeatNgramSize: Int,
randomSeed: Option[Long] = None,
ignoreTokenIds: Array[Int] = Array(),
beamSize: Int,
maxInputLength: Int,
stopTokenIds: Array[Int]): Seq[Annotation] = {
val batchDecoder = sentences.grouped(batchSize).toArray.flatMap { batch =>
val batchSP = encode(batch)
val spIds = tag(
batchSP,
minOutputLength,
maxOutputLength,
doSample,
temperature,
topK,
topP,
repetitionPenalty,
noRepeatNgramSize,
randomSeed,
ignoreTokenIds,
beamSize,
maxInputLength,
stopTokenIds)
decode(spIds)
}
var sentBegin, nextSentEnd = 0
val annotations = batchDecoder.zip(sentences).map { case (content, sent) =>
nextSentEnd += content.length - 1
val annots = new Annotation(
annotatorType = DOCUMENT,
begin = sentBegin,
end = nextSentEnd,
result = content,
metadata = sent.metadata)
sentBegin += nextSentEnd + 1
annots
}
annotations
}
private def getDecoderOutputsWithPast(
inputIds: Array[Array[Int]],
decoderPast: Map[String, OnnxTensor],
onnxSession: (OrtSession, OrtEnvironment))
: (Array[Array[Float]], Map[String, OnnxTensor]) = {
val (session, env) = onnxSession
val lastTokens: Array[Array[Long]] =
inputIds.map { tokenIds =>
Array(tokenIds.last.toLong)
}
val lastTokensTensor: OnnxTensor =
OnnxTensor.createTensor(env, lastTokens)
val decoderAttentionMask: OnnxTensor =
OnnxTensor.createTensor(env, lastTokens.map(_.map(_ => 1L)))
val decoderWithPastInputs: java.util.Map[String, OnnxTensor] = (Map(
OnnxSignatures.decoderInputIDs -> lastTokensTensor,
OnnxSignatures.decoderAttentionMask -> decoderAttentionMask) ++ decoderPast).asJava
val sessionOutput = session.run(decoderWithPastInputs)
val logits = sessionOutput.getFloatArray(OnnxSignatures.decoderOutput)
val decoderPresent = sessionOutput.getOnnxTensors(OnnxSignatures.decoderPresent)
lastTokensTensor.close()
val batchLogits = logits.grouped(vocabSize).toArray
(batchLogits, decoderPresent)
}
override def getModelOutput(
encoderInputIds: Seq[Array[Int]],
decoderInputIds: Seq[Array[Int]],
decoderEncoderStateTensors: Either[Tensor, OnnxTensor],
encoderAttentionMaskTensors: Either[Tensor, OnnxTensor],
maxLength: Int,
session: Either[Session, (OrtEnvironment, OrtSession)],
ovInferRequest: Option[InferRequest]): Array[Array[Float]] = {
detectedEngine match {
case TensorFlow.name =>
// not implemented yet
Array()
case ONNX.name =>
val (env, decoderSession) = session.right.get
val decoderOutputs =
getDecoderOutputs(decoderInputIds.toArray, onnxSession = (decoderSession, env))
decoderOutputs
case Openvino.name =>
val decoderOutputs =
getDecoderOutputsOv(
encoderInputIds.toArray,
decoderInputIds.toArray,
ovInferRequest.get)
decoderOutputs
}
}
private def getDecoderOutputsOv(
encoderInputIds: Array[Array[Int]],
decoderInputIds: Array[Array[Int]],
inferRequest: InferRequest): (Array[Array[Float]]) = {
val (inputIdsLong, inputPositionIDsLong): (Array[Long], Array[Long]) =
if (encoderInputIds.head.length == decoderInputIds.head.length) {
// First pass
val inpIdsLong = decoderInputIds.flatMap { tokenIds => tokenIds.map(_.toLong) }
val posIdsLong = decoderInputIds.flatMap { tokenIds =>
tokenIds.zipWithIndex.map { case (_, i) =>
i.toLong
}
}
(inpIdsLong, posIdsLong)
} else {
// Subsequent passes
val inpIdsLong = decoderInputIds.map { tokenIds => tokenIds.last.toLong }
val posIdsLong = decoderInputIds.map { tokenIds =>
tokenIds.zipWithIndex.map { case (_, i) =>
i.toLong
}.last
}
(inpIdsLong, posIdsLong)
}
val attentionMask: Array[Long] =
decoderInputIds.flatMap { tokenIds => tokenIds.map(_ => 1L) }
val batchSize: Int = decoderInputIds.length
val beamIdx: Array[Int] = new Array[Int](batchSize)
val shape: Array[Int] = Array(batchSize, inputIdsLong.length / batchSize)
val inputIdsLongTensor: org.intel.openvino.Tensor =
new org.intel.openvino.Tensor(shape, inputIdsLong)
val decoderAttentionMask: org.intel.openvino.Tensor =
new org.intel.openvino.Tensor(Array(batchSize, decoderInputIds.head.length), attentionMask)
val decoderPositionIDs: org.intel.openvino.Tensor =
new org.intel.openvino.Tensor(shape, inputPositionIDsLong)
val beamIdxTensor: org.intel.openvino.Tensor =
new org.intel.openvino.Tensor(Array(batchSize), beamIdx)
inferRequest.set_tensor("input_ids", inputIdsLongTensor)
inferRequest.set_tensor("attention_mask", decoderAttentionMask)
inferRequest.set_tensor("position_ids", decoderPositionIDs)
inferRequest.set_tensor("beam_idx", beamIdxTensor)
inferRequest.infer()
val result = inferRequest.get_tensor("logits")
val logitsRaw = result.data()
val sequenceLength = inputIdsLong.length / batchSize
val decoderOutputs = (0 until batchSize).map(i => {
logitsRaw
.slice(
i * sequenceLength * vocabSize + (sequenceLength - 1) * vocabSize,
i * sequenceLength * vocabSize + sequenceLength * vocabSize)
})
decoderOutputs.toArray
}
private def getDecoderOutputs(
inputIds: Array[Array[Int]],
onnxSession: (OrtSession, OrtEnvironment)): (Array[Array[Float]]) = {
val (session, env) = onnxSession
val inputIdsLong: Array[Array[Long]] =
inputIds.map { tokenIds => tokenIds.map(_.toLong) }
val inputPositionIDsLong: Array[Array[Long]] =
inputIds.map { tokenIds =>
tokenIds.zipWithIndex.map { case (_, i) =>
i.toLong
}
}
val inputIdsLongTensor: OnnxTensor =
OnnxTensor.createTensor(env, inputIdsLong)
val decoderAttentionMask: OnnxTensor =
OnnxTensor.createTensor(env, inputIdsLong.map(_.map(_ => 1L)))
val decoderPositionIDs: OnnxTensor =
OnnxTensor.createTensor(env, inputPositionIDsLong)
val decoderInputs: java.util.Map[String, OnnxTensor] = Map(
OnnxSignatures.decoderInputIDs -> inputIdsLongTensor,
OnnxSignatures.decoderAttentionMask -> decoderAttentionMask,
OnnxSignatures.decoderPositionIDs -> decoderPositionIDs).asJava
val sessionOutput = session.run(decoderInputs)
val sequenceLength = inputIds.head.length
val batchSize = inputIds.length
// val logits = sessionOutput.getFloatArray(OnnxSignatures.decoderOutput)
// inputIdsLongTensor.close()
// decoderPositionIDs.close()
// decoderAttentionMask.close()
// val batchLogits = logits.grouped(vocabSize).toArray
// batchLogits
val logitsRaw = sessionOutput.getFloatArray(OnnxSignatures.decoderOutput)
val decoderOutputs = (0 until batchSize).map(i => {
logitsRaw
.slice(
i * sequenceLength * vocabSize + (sequenceLength - 1) * vocabSize,
i * sequenceLength * vocabSize + sequenceLength * vocabSize)
})
decoderOutputs.toArray
}
/** Gets the index with the highest score
*
* @param scores
* Array of Scores to max
* @return
* Index of the highest score
*/
private def argmax(scores: Array[Float]): Int =
scores.zipWithIndex.maxBy { case (score, _) =>
score
}._2
private def greedyGenerationFinished(
decoderIds: Seq[Array[Int]],
eosTokenId: Int,
maxOutputLength: Int): Boolean =
decoderIds.map(_.last).forall(_ == eosTokenId) || decoderIds.head.length == maxOutputLength
private def generateGreedyOnnx(
inputIds: Array[Array[Int]],
onnxSession: (OrtSession, OrtEnvironment),
maxOutputLength: Int): (Array[Array[Int]]) = {
val sequencesLength = inputIds.map(x => x.length).toArray
val maxSentenceLength = sequencesLength.max // - curLen
var generatedIds: Array[Array[Int]] = inputIds
while (!greedyGenerationFinished(
generatedIds,
eosTokenId,
maxOutputLength + maxSentenceLength)) {
val (batchLogits: Array[Array[Float]]) =
Array(getDecoderOutputs(generatedIds, onnxSession).last)
val nextTokenIds: Array[Int] = batchLogits.map(argmax)
generatedIds =
generatedIds.zip(nextTokenIds).map { case (currentIds: Array[Int], nextId: Int) =>
currentIds ++ Array(nextId)
}
}
generatedIds
}
private object OnnxSignatures {
val decoderInputIDs: String = "input_ids"
val decoderAttentionMask: String = "attention_mask"
val decoderPositionIDs: String = "position_ids"
// create decoder past for 32 layers of key and value eg. past_key_values.0.key and past_key_values.0.value
val decoderPast: Array[String] = (0 until 32)
.flatMap(i => Seq(s"past_key_values.$i.key", s"past_key_values.$i.value"))
.toArray
val decoderOutput: String = "logits"
val decoderPresent: Array[String] =
(0 until 32).flatMap(i => Seq(s"present.$i.key", s"present.$i.value")).toArray
}
}