191
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1
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2 # Instruction selection with DAG (Directed Acyclic Graph)
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3 class DagLeaf:
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4 def __init__(self, v):
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5 self.v = v
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6
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7 class DagNode:
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8 def __init__(self, name):
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9 self.name = name
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10 self.children = []
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11 def __repr__(self):
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12 return str(self.name)
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13
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14 class Dag:
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15 def __init__(self, bb):
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16 self.mapping = {}
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17 self.buildFromBB(bb)
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18 def buildFromBB(self, bb):
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19 for ins in bb.Instructions:
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20 if type(ins) is ir.BinaryOperator:
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21 if not ins.value1 in self.mapping:
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22 self.mapping[ins.value1] = DagNode(ins.value1)
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23 if not ins.value2 in self.mapping:
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24 self.mapping[ins.value2] = DagNode(ins.value2)
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25 # look for op with left and right operand the same:
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26 N = None
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27 lnode = self.mapping[ins.value1]
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28 rnode = self.mapping[ins.value2]
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29 for node in self.mapping.values():
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30 if node.name == ins.operation:
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31 if node.children[0] == lnode and node.children[1] == rnode:
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32 N = node
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33 break
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34 if not N:
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35 # Create a node.
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36 N = DagNode(ins.operation)
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37 N.children.append(lnode)
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38 N.children.append(rnode)
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39 self.mapping[ins.result] = N
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40 else:
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41 pass
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42 def dumpgv(self, outf):
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43 outf.write('subgraph {0} {{\n'.format(id(self)))
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44 for node in self.mapping.values():
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45 outf.write('{0} [label="{1}"];\n'.format(id(node), node.name))
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46 for c in node.children:
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47 outf.write('{0} -> {1};\n'.format(id(node), id(c)))
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48 outf.write('label="dag"}\n')
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49
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50 def insSelect(mod):
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51 """ Create DAG from ir-code """
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52 for bb in mod.BasicBlocks:
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53 print(bb)
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54 dag = Dag(bb)
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55 print(dag.mapping)
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56 bb.dag = dag
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57
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