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Copy pathconvert_tosa_to_mlir.py
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convert_tosa_to_mlir.py
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import argparse
import flatbuffers
import importlib.util
import numpy as np
import os as os
import shutil as shutil
import subprocess as subprocess
import tempfile as tmpfile
import sys
class RegisterMap():
def __init__(self):
self._argcount = 0
self._varcount = 0
self._stack = [{}]
# def Push(self):
# self._stack.append(self._stack[-1].deepcopy())
# def Pop(self):
# self._stack = self._stack[:-1]
def AddArg(self, name):
newarg = "%arg{}".format(self._argcount)
self._stack[-1][name] = newarg
self._argcount = self._argcount + 1
return newarg
def AddVar(self, name):
if not isinstance(name, list):
newvar = "%{}".format(self._varcount)
self._stack[-1][name] = newvar
self._varcount = self._varcount + 1
return newvar
if (len(name) < 2):
newvar = "%{}".format(self._varcount)
self._stack[-1][name[0]] = newvar
self._varcount = self._varcount + 1
return newvar
for i, n in enumerate(name):
newvar = "%{}#{}".format(self._varcount, i)
self._stack[-1][n] = newvar
vardecl = "%{}:{}".format(self._varcount, len(name))
self._varcount = self._varcount + 1
return vardecl
def Get(self, name):
return self._stack[-1][name]
def GetVars(self, lst):
return [self.Get(v) for v in lst]
def __getitem__(self, key):
return self.Get(key)
class MlirPrinter():
def __init__(self, path):
buf = open(path, 'rb').read()
self.graph = TosaGraph.TosaGraph.GetRootAsTosaGraph(buf, 0)
self.OpMap = {}
self.blockMap = self.GetBlockMap(self.graph)
self.mainBlock = self.blockMap[b'main']
self.registerMap = self.InitRegisterMap(self.mainBlock, 0)
self.tensorTypeMap = {}
self.UpdateTensorTypeMap(self.mainBlock)
for key in OpEnum.Op.__dict__.keys():
if key.startswith("__"):
continue
self.OpMap[OpEnum.Op.__dict__[key]] = key.lower()
def GetMlirElementType(self, elementTy):
if (elementTy == TosaType.DType.BOOL):
return "i1"
if (elementTy == TosaType.DType.UINT8):
return "ui8"
if (elementTy == TosaType.DType.INT4):
return "i4"
if (elementTy == TosaType.DType.INT8):
return "i8"
if (elementTy == TosaType.DType.INT16):
return "i16"
if (elementTy == TosaType.DType.INT32):
return "i32"
if (elementTy == TosaType.DType.INT48):
return "i48"
if (elementTy == TosaType.DType.FLOAT):
return "f32"
raise Exception("Unknown type: " + elementTy)
def GetTensorType(self, tensor):
rank = tensor.ShapeLength()
elementTy = self.GetMlirElementType(tensor.Type())
shape = "x".join([str(tensor.Shape(i)) for i in range(rank)])
return "tensor<{}x{}>".format(shape, elementTy)
def InitRegisterMap(self, block, varStart):
registerMap = RegisterMap()
for i in range(block.InputsLength()):
registerMap.AddArg(block.Inputs(i))
return registerMap
def UpdateTensorTypeMap(self, block):
for i in range(block.TensorsLength()):
tensor = block.Tensors(i)
tensorTy = self.GetTensorType(tensor)
self.tensorTypeMap[tensor.Name()] = tensorTy
def GetFunctionHeader(self, block):
name = block.Name()
typeMap = self.tensorTypeMap
argDecl = ["{} : {}".format(self.registerMap[block.Inputs(i)], typeMap[block.Inputs(i)]) for i in range(block.InputsLength())]
argDecl = ", ".join(argDecl)
retTypes = [typeMap[block.Outputs(i)] for i in range(block.OutputsLength())]
retTypes = ", ".join(retTypes)
return "func @{}({}) -> ({}) {{".format(str(name.decode()), argDecl, retTypes)
def GetReturnOp(self, block):
registerMap = self.registerMap
typeMap = self.tensorTypeMap
retVals = [registerMap[block.Outputs(i)] for i in range(block.OutputsLength())]
retTypes = [typeMap[block.Outputs(i)] for i in range(block.OutputsLength())]
retVals = ", ".join(retVals)
retTypes = ", ".join(retTypes)
return " return {} : {}".format(retVals, retTypes)
def GetOperatorName(self, openum):
opname = self.OpMap[openum]
if opname == "unknown":
raise "Unknown Op"
return "\"tosa.{}\"".format(opname)
def GetOperatorIR(self, operator):
opname = self.GetOperatorName(operator.Op())
inputs = [operator.Inputs(i) for i in range(operator.InputsLength())]
outputs = [operator.Outputs(i) for i in range(operator.OutputsLength())]
# Handle a placeholder special case.
if opname == '"tosa.placeholder"':
if not inputs:
return (" // placeholder() -> " + outputs[0].decode())
# TODO(suderman): Handle attribute info.
if operator.AttributeType() != 0 or operator.Attribute() is not None:
raise Exception("Unhandled attribute")
# TODO(suderman): Handle quant info.
if operator.QuantInfoType() != 0 or operator.QuantInfo() is not None:
raise Exception("Unhandled quantization information")
var = self.registerMap.AddVar(outputs)
args = ", ".join(self.registerMap.GetVars(inputs))
argTypes = ", ".join([self.tensorTypeMap[inp] for inp in inputs])
retTypes = ", ".join([self.tensorTypeMap[out] for out in outputs])
return " {} = {}({}) : ({}) -> ({})".format(var, opname, args, argTypes, retTypes)
def GetBlockIR(self, block):
self.UpdateTensorTypeMap(block)
lines = []
for i in range(block.OperatorsLength()):
operator = block.Operators(i)
lines.append(self.GetOperatorIR(operator))
return lines
def GetBlockMap(self, graph):
blockMap = {}
for i in range(graph.BlocksLength()):
blockMap[graph.Blocks(i).Name()] = graph.Blocks(i)
return blockMap
def GetIR(self):
blockIR = []
blockIR.append(self.GetFunctionHeader(self.mainBlock))
blockIR.append("\n".join(self.GetBlockIR(self.mainBlock)))
blockIR.append(self.GetReturnOp(self.mainBlock))
blockIR.append("}")
blockIR.append("")
return "\n".join(blockIR)
def GlobalSetup(referenceDir):
serializationDir = referenceDir + "/serialization"
global TosaGraph
global TosaType
global OpEnum
sys.path.append(serializationDir)
import tosa.TosaGraph as TosaGraph
import tosa.DType as TosaType
import tosa.Op as OpEnum
def GenerateTosaToMlir(testDir, tosaReferenceLibrary, outputFile):
GlobalSetup(tosaReferenceLibrary)
tosaFile = testDir + "/test.tosa"
mlirFile = testDir + "/test.mlir"
printer = MlirPrinter(tosaFile);
ir = printer.GetIR()
if outputFile:
mlirFile = open(outputFile, "w")
mlirFile.write(ir)
mlirFile.write("\n")
mlirFile.close()
else:
print(ir)
if __name__ == "__main__":
parser = argparse.ArgumentParser(description='Convert TOSA flatbuffer to MLIR')
parser.add_argument('--input-path', metavar='i', type=str, help='path for input path', required=True)
parser.add_argument('--tosa-reference-library', metavar='i', type=str, help='path for input file', required=True)
parser.add_argument('--output-file', metavar='i', type=str, help='path for output file')
args = parser.parse_args()
GenerateTosaToMlir(args.input_path, args.tosa_reference_library, args.output_file)