mirror of
https://github.com/ClickHouse/ClickHouse.git
synced 2024-12-16 03:12:43 +00:00
1816 lines
71 KiB
Python
1816 lines
71 KiB
Python
# Generated by Grammarinator 19.3
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from itertools import chain
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from grammarinator.runtime import *
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import ClickHouseUnlexer
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class ClickHouseUnparser(Grammarinator):
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def __init__(self, unlexer):
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super(ClickHouseUnparser, self).__init__()
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self.unlexer = unlexer
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@depthcontrol
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def queryList(self):
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current = self.create_node(UnparserRule(name='queryList'))
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current += self.queryStmt()
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if self.unlexer.max_depth >= 8:
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for _ in self.zero_or_more():
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current += self.unlexer.SEMICOLON()
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current += self.queryStmt()
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if self.unlexer.max_depth >= 1:
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for _ in self.zero_or_one():
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current += self.unlexer.SEMICOLON()
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current += self.unlexer.EOF()
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return current
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queryList.min_depth = 8
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@depthcontrol
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def queryStmt(self):
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current = self.create_node(UnparserRule(name='queryStmt'))
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current += self.query()
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if self.unlexer.max_depth >= 2:
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for _ in self.zero_or_one():
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current += self.unlexer.INTO()
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current += self.unlexer.OUTFILE()
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current += self.unlexer.STRING_LITERAL()
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if self.unlexer.max_depth >= 3:
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for _ in self.zero_or_one():
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current += self.unlexer.FORMAT()
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current += self.identifier()
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return current
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queryStmt.min_depth = 7
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@depthcontrol
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def query(self):
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current = self.create_node(UnparserRule(name='query'))
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choice = self.choice([0 if [6, 7, 6, 6][i] > self.unlexer.max_depth else w * self.unlexer.weights.get(('alt_108', i), 1) for i, w in enumerate([1, 1, 1, 1])])
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self.unlexer.weights[('alt_108', choice)] = self.unlexer.weights.get(('alt_108', choice), 1) * self.unlexer.cooldown
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if choice == 0:
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current += self.distributedStmt()
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elif choice == 1:
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current += self.insertStmt()
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elif choice == 2:
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current += self.selectUnionStmt()
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elif choice == 3:
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current += self.setStmt()
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return current
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query.min_depth = 6
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@depthcontrol
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def distributedStmt(self):
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current = self.create_node(UnparserRule(name='distributedStmt'))
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choice = self.choice([0 if [5, 6, 6][i] > self.unlexer.max_depth else w * self.unlexer.weights.get(('alt_113', i), 1) for i, w in enumerate([1, 1, 1])])
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self.unlexer.weights[('alt_113', choice)] = self.unlexer.weights.get(('alt_113', choice), 1) * self.unlexer.cooldown
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if choice == 0:
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current += self.createDatabaseStmt()
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elif choice == 1:
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current += self.createTableStmt()
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elif choice == 2:
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current += self.dropStmt()
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if self.unlexer.max_depth >= 3:
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for _ in self.zero_or_one():
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current += self.unlexer.ON()
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current += self.unlexer.CLUSTER()
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current += self.identifier()
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return current
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distributedStmt.min_depth = 5
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@depthcontrol
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def createDatabaseStmt(self):
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current = self.create_node(UnparserRule(name='createDatabaseStmt'))
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current += self.unlexer.CREATE()
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current += self.unlexer.DATABASE()
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if self.unlexer.max_depth >= 2:
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for _ in self.zero_or_one():
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current += self.unlexer.IF()
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current += self.unlexer.NOT()
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current += self.unlexer.EXISTS()
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current += self.databaseIdentifier()
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if self.unlexer.max_depth >= 4:
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for _ in self.zero_or_one():
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current += self.engineExpr()
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return current
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createDatabaseStmt.min_depth = 4
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@depthcontrol
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def createTableStmt(self):
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current = self.create_node(UnparserRule(name='createTableStmt'))
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current += self.unlexer.CREATE()
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current += self.unlexer.TABLE()
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if self.unlexer.max_depth >= 2:
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for _ in self.zero_or_one():
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current += self.unlexer.IF()
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current += self.unlexer.NOT()
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current += self.unlexer.EXISTS()
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current += self.tableIdentifier()
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current += self.schemaClause()
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return current
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createTableStmt.min_depth = 5
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@depthcontrol
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def schemaClause(self):
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current = self.create_node(UnparserRule(name='schemaClause'))
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choice = self.choice([0 if [8, 7, 5, 4][i] > self.unlexer.max_depth else w * self.unlexer.weights.get(('alt_121', i), 1) for i, w in enumerate([1, 1, 1, 1])])
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self.unlexer.weights[('alt_121', choice)] = self.unlexer.weights.get(('alt_121', choice), 1) * self.unlexer.cooldown
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if choice == 0:
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current = self.schemaClause_SchemaDescriptionClause()
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elif choice == 1:
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current = self.schemaClause_SchemaAsSubqueryClause()
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elif choice == 2:
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current = self.schemaClause_SchemaAsTableClause()
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elif choice == 3:
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current = self.schemaClause_SchemaAsFunctionClause()
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return current
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schemaClause.min_depth = 4
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@depthcontrol
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def schemaClause_SchemaDescriptionClause(self):
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current = self.create_node(UnparserRule(name='schemaClause_SchemaDescriptionClause'))
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current += self.unlexer.LPAREN()
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current += self.tableElementExpr()
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if self.unlexer.max_depth >= 7:
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for _ in self.zero_or_more():
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current += self.unlexer.COMMA()
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current += self.tableElementExpr()
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current += self.unlexer.RPAREN()
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current += self.engineClause()
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return current
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schemaClause_SchemaDescriptionClause.min_depth = 7
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@depthcontrol
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def schemaClause_SchemaAsSubqueryClause(self):
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current = self.create_node(UnparserRule(name='schemaClause_SchemaAsSubqueryClause'))
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if self.unlexer.max_depth >= 5:
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for _ in self.zero_or_one():
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current += self.engineClause()
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current += self.unlexer.AS()
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current += self.selectUnionStmt()
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return current
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schemaClause_SchemaAsSubqueryClause.min_depth = 6
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@depthcontrol
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def schemaClause_SchemaAsTableClause(self):
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current = self.create_node(UnparserRule(name='schemaClause_SchemaAsTableClause'))
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current += self.unlexer.AS()
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current += self.tableIdentifier()
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if self.unlexer.max_depth >= 5:
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for _ in self.zero_or_one():
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current += self.engineClause()
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return current
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schemaClause_SchemaAsTableClause.min_depth = 4
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@depthcontrol
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def schemaClause_SchemaAsFunctionClause(self):
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current = self.create_node(UnparserRule(name='schemaClause_SchemaAsFunctionClause'))
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current += self.unlexer.AS()
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current += self.identifier()
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current += self.unlexer.LPAREN()
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if self.unlexer.max_depth >= 5:
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for _ in self.zero_or_one():
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current += self.tableArgList()
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current += self.unlexer.RPAREN()
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return current
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schemaClause_SchemaAsFunctionClause.min_depth = 3
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@depthcontrol
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def engineClause(self):
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current = self.create_node(UnparserRule(name='engineClause'))
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current += self.engineExpr()
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if self.unlexer.max_depth >= 6:
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for _ in self.zero_or_one():
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current += self.orderByClause()
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if self.unlexer.max_depth >= 4:
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for _ in self.zero_or_one():
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current += self.partitionByClause()
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if self.unlexer.max_depth >= 4:
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for _ in self.zero_or_one():
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current += self.primaryKeyClause()
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if self.unlexer.max_depth >= 4:
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for _ in self.zero_or_one():
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current += self.sampleByClause()
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if self.unlexer.max_depth >= 5:
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for _ in self.zero_or_one():
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current += self.ttlClause()
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if self.unlexer.max_depth >= 6:
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for _ in self.zero_or_one():
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current += self.settingsClause()
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return current
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engineClause.min_depth = 4
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@depthcontrol
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def partitionByClause(self):
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current = self.create_node(UnparserRule(name='partitionByClause'))
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current += self.unlexer.PARTITION()
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current += self.unlexer.BY()
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current += self.columnExpr()
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return current
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partitionByClause.min_depth = 3
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@depthcontrol
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def primaryKeyClause(self):
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current = self.create_node(UnparserRule(name='primaryKeyClause'))
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current += self.unlexer.PRIMARY()
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current += self.unlexer.KEY()
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current += self.columnExpr()
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return current
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primaryKeyClause.min_depth = 3
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@depthcontrol
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def sampleByClause(self):
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current = self.create_node(UnparserRule(name='sampleByClause'))
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current += self.unlexer.SAMPLE()
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current += self.unlexer.BY()
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current += self.columnExpr()
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return current
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sampleByClause.min_depth = 3
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@depthcontrol
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def ttlClause(self):
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current = self.create_node(UnparserRule(name='ttlClause'))
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current += self.unlexer.TTL()
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current += self.ttlExpr()
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if self.unlexer.max_depth >= 4:
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for _ in self.zero_or_more():
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current += self.unlexer.COMMA()
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current += self.ttlExpr()
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return current
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ttlClause.min_depth = 4
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@depthcontrol
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def engineExpr(self):
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current = self.create_node(UnparserRule(name='engineExpr'))
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current += self.unlexer.ENGINE()
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if self.unlexer.max_depth >= 1:
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for _ in self.zero_or_one():
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current += self.unlexer.EQ_SINGLE()
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current += self.identifier()
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if self.unlexer.max_depth >= 1:
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for _ in self.zero_or_one():
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current += self.unlexer.LPAREN()
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if self.unlexer.max_depth >= 5:
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for _ in self.zero_or_one():
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current += self.tableArgList()
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current += self.unlexer.RPAREN()
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return current
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engineExpr.min_depth = 3
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@depthcontrol
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def tableElementExpr(self):
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current = self.create_node(UnparserRule(name='tableElementExpr'))
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current = self.tableElementExpr_TableElementColumn()
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return current
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tableElementExpr.min_depth = 6
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@depthcontrol
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def tableElementExpr_TableElementColumn(self):
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current = self.create_node(UnparserRule(name='tableElementExpr_TableElementColumn'))
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current += self.identifier()
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current += self.columnTypeExpr()
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if self.unlexer.max_depth >= 4:
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for _ in self.zero_or_one():
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current += self.tableColumnPropertyExpr()
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if self.unlexer.max_depth >= 3:
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for _ in self.zero_or_one():
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current += self.unlexer.TTL()
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current += self.columnExpr()
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return current
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tableElementExpr_TableElementColumn.min_depth = 5
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@depthcontrol
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def tableColumnPropertyExpr(self):
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current = self.create_node(UnparserRule(name='tableColumnPropertyExpr'))
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choice = self.choice([0 if [2, 2, 2][i] > self.unlexer.max_depth else w * self.unlexer.weights.get(('alt_142', i), 1) for i, w in enumerate([1, 1, 1])])
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self.unlexer.weights[('alt_142', choice)] = self.unlexer.weights.get(('alt_142', choice), 1) * self.unlexer.cooldown
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if choice == 0:
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current += self.unlexer.DEFAULT()
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elif choice == 1:
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current += self.unlexer.MATERIALIZED()
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elif choice == 2:
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current += self.unlexer.ALIAS()
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current += self.columnExpr()
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return current
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tableColumnPropertyExpr.min_depth = 3
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@depthcontrol
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def ttlExpr(self):
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current = self.create_node(UnparserRule(name='ttlExpr'))
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current += self.columnExpr()
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if self.unlexer.max_depth >= 2:
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for _ in self.zero_or_one():
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choice = self.choice([0 if [2, 2, 2][i] > self.unlexer.max_depth else w * self.unlexer.weights.get(('alt_147', i), 1) for i, w in enumerate([1, 1, 1])])
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self.unlexer.weights[('alt_147', choice)] = self.unlexer.weights.get(('alt_147', choice), 1) * self.unlexer.cooldown
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if choice == 0:
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current += self.unlexer.DELETE()
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elif choice == 1:
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current += self.unlexer.TO()
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current += self.unlexer.DISK()
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current += self.unlexer.STRING_LITERAL()
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elif choice == 2:
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current += self.unlexer.TO()
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current += self.unlexer.VOLUME()
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current += self.unlexer.STRING_LITERAL()
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return current
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ttlExpr.min_depth = 3
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@depthcontrol
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def dropStmt(self):
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current = self.create_node(UnparserRule(name='dropStmt'))
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choice = self.choice([0 if [5, 5][i] > self.unlexer.max_depth else w * self.unlexer.weights.get(('alt_151', i), 1) for i, w in enumerate([1, 1])])
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self.unlexer.weights[('alt_151', choice)] = self.unlexer.weights.get(('alt_151', choice), 1) * self.unlexer.cooldown
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if choice == 0:
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current = self.dropStmt_DropDatabaseStmt()
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elif choice == 1:
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current = self.dropStmt_DropTableStmt()
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return current
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dropStmt.min_depth = 5
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@depthcontrol
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def dropStmt_DropDatabaseStmt(self):
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current = self.create_node(UnparserRule(name='dropStmt_DropDatabaseStmt'))
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current += self.unlexer.DROP()
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current += self.unlexer.DATABASE()
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if self.unlexer.max_depth >= 2:
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for _ in self.zero_or_one():
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current += self.unlexer.IF()
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current += self.unlexer.EXISTS()
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current += self.databaseIdentifier()
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return current
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dropStmt_DropDatabaseStmt.min_depth = 4
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@depthcontrol
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def dropStmt_DropTableStmt(self):
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current = self.create_node(UnparserRule(name='dropStmt_DropTableStmt'))
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current += self.unlexer.DROP()
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if self.unlexer.max_depth >= 2:
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for _ in self.zero_or_one():
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current += self.unlexer.TEMPORARY()
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current += self.unlexer.TABLE()
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if self.unlexer.max_depth >= 2:
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for _ in self.zero_or_one():
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current += self.unlexer.IF()
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current += self.unlexer.EXISTS()
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current += self.tableIdentifier()
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return current
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dropStmt_DropTableStmt.min_depth = 4
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@depthcontrol
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def insertStmt(self):
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current = self.create_node(UnparserRule(name='insertStmt'))
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current += self.unlexer.INSERT()
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current += self.unlexer.INTO()
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current += self.tableIdentifier()
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if self.unlexer.max_depth >= 3:
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for _ in self.zero_or_one():
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current += self.unlexer.LPAREN()
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current += self.identifier()
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if self.unlexer.max_depth >= 3:
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for _ in self.zero_or_more():
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current += self.unlexer.COMMA()
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current += self.identifier()
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current += self.unlexer.RPAREN()
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current += self.valuesClause()
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return current
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insertStmt.min_depth = 6
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@depthcontrol
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def valuesClause(self):
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current = self.create_node(UnparserRule(name='valuesClause'))
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choice = self.choice([0 if [5, 6][i] > self.unlexer.max_depth else w * self.unlexer.weights.get(('alt_159', i), 1) for i, w in enumerate([1, 1])])
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self.unlexer.weights[('alt_159', choice)] = self.unlexer.weights.get(('alt_159', choice), 1) * self.unlexer.cooldown
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if choice == 0:
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current += self.unlexer.VALUES()
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current += self.valueTupleExpr()
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if self.unlexer.max_depth >= 5:
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for _ in self.zero_or_more():
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current += self.unlexer.COMMA()
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current += self.valueTupleExpr()
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elif choice == 1:
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current += self.selectUnionStmt()
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return current
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valuesClause.min_depth = 5
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|
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@depthcontrol
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def valueTupleExpr(self):
|
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current = self.create_node(UnparserRule(name='valueTupleExpr'))
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current += self.unlexer.LPAREN()
|
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current += self.valueExprList()
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current += self.unlexer.RPAREN()
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return current
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valueTupleExpr.min_depth = 4
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@depthcontrol
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def selectUnionStmt(self):
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current = self.create_node(UnparserRule(name='selectUnionStmt'))
|
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current += self.selectStmt()
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|
if self.unlexer.max_depth >= 5:
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|
for _ in self.zero_or_more():
|
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current += self.unlexer.UNION()
|
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current += self.unlexer.ALL()
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current += self.selectStmt()
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return current
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selectUnionStmt.min_depth = 5
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|
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@depthcontrol
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def selectStmt(self):
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current = self.create_node(UnparserRule(name='selectStmt'))
|
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if self.unlexer.max_depth >= 5:
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for _ in self.zero_or_one():
|
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current += self.withClause()
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current += self.unlexer.SELECT()
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if self.unlexer.max_depth >= 2:
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for _ in self.zero_or_one():
|
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current += self.unlexer.DISTINCT()
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|
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current += self.columnExprList()
|
|
if self.unlexer.max_depth >= 8:
|
|
for _ in self.zero_or_one():
|
|
current += self.fromClause()
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|
|
if self.unlexer.max_depth >= 4:
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|
for _ in self.zero_or_one():
|
|
current += self.sampleClause()
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|
|
if self.unlexer.max_depth >= 5:
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|
for _ in self.zero_or_one():
|
|
current += self.arrayJoinClause()
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|
|
if self.unlexer.max_depth >= 4:
|
|
for _ in self.zero_or_one():
|
|
current += self.prewhereClause()
|
|
|
|
if self.unlexer.max_depth >= 4:
|
|
for _ in self.zero_or_one():
|
|
current += self.whereClause()
|
|
|
|
if self.unlexer.max_depth >= 5:
|
|
for _ in self.zero_or_one():
|
|
current += self.groupByClause()
|
|
|
|
if self.unlexer.max_depth >= 4:
|
|
for _ in self.zero_or_one():
|
|
current += self.havingClause()
|
|
|
|
if self.unlexer.max_depth >= 6:
|
|
for _ in self.zero_or_one():
|
|
current += self.orderByClause()
|
|
|
|
if self.unlexer.max_depth >= 5:
|
|
for _ in self.zero_or_one():
|
|
current += self.limitByClause()
|
|
|
|
if self.unlexer.max_depth >= 4:
|
|
for _ in self.zero_or_one():
|
|
current += self.limitClause()
|
|
|
|
if self.unlexer.max_depth >= 6:
|
|
for _ in self.zero_or_one():
|
|
current += self.settingsClause()
|
|
|
|
return current
|
|
selectStmt.min_depth = 4
|
|
|
|
@depthcontrol
|
|
def withClause(self):
|
|
current = self.create_node(UnparserRule(name='withClause'))
|
|
current += self.unlexer.WITH()
|
|
current += self.columnExprList()
|
|
return current
|
|
withClause.min_depth = 4
|
|
|
|
@depthcontrol
|
|
def fromClause(self):
|
|
current = self.create_node(UnparserRule(name='fromClause'))
|
|
current += self.unlexer.FROM()
|
|
current += self.joinExpr()
|
|
if self.unlexer.max_depth >= 2:
|
|
for _ in self.zero_or_one():
|
|
current += self.unlexer.FINAL()
|
|
|
|
return current
|
|
fromClause.min_depth = 7
|
|
|
|
@depthcontrol
|
|
def sampleClause(self):
|
|
current = self.create_node(UnparserRule(name='sampleClause'))
|
|
current += self.unlexer.SAMPLE()
|
|
current += self.ratioExpr()
|
|
if self.unlexer.max_depth >= 3:
|
|
for _ in self.zero_or_one():
|
|
current += self.unlexer.OFFSET()
|
|
current += self.ratioExpr()
|
|
|
|
return current
|
|
sampleClause.min_depth = 3
|
|
|
|
@depthcontrol
|
|
def arrayJoinClause(self):
|
|
current = self.create_node(UnparserRule(name='arrayJoinClause'))
|
|
if self.unlexer.max_depth >= 2:
|
|
for _ in self.zero_or_one():
|
|
current += self.unlexer.LEFT()
|
|
|
|
current += self.unlexer.ARRAY()
|
|
current += self.unlexer.JOIN()
|
|
current += self.columnExprList()
|
|
return current
|
|
arrayJoinClause.min_depth = 4
|
|
|
|
@depthcontrol
|
|
def prewhereClause(self):
|
|
current = self.create_node(UnparserRule(name='prewhereClause'))
|
|
current += self.unlexer.PREWHERE()
|
|
current += self.columnExpr()
|
|
return current
|
|
prewhereClause.min_depth = 3
|
|
|
|
@depthcontrol
|
|
def whereClause(self):
|
|
current = self.create_node(UnparserRule(name='whereClause'))
|
|
current += self.unlexer.WHERE()
|
|
current += self.columnExpr()
|
|
return current
|
|
whereClause.min_depth = 3
|
|
|
|
@depthcontrol
|
|
def groupByClause(self):
|
|
current = self.create_node(UnparserRule(name='groupByClause'))
|
|
current += self.unlexer.GROUP()
|
|
current += self.unlexer.BY()
|
|
current += self.columnExprList()
|
|
if self.unlexer.max_depth >= 2:
|
|
for _ in self.zero_or_one():
|
|
current += self.unlexer.WITH()
|
|
current += self.unlexer.TOTALS()
|
|
|
|
return current
|
|
groupByClause.min_depth = 4
|
|
|
|
@depthcontrol
|
|
def havingClause(self):
|
|
current = self.create_node(UnparserRule(name='havingClause'))
|
|
current += self.unlexer.HAVING()
|
|
current += self.columnExpr()
|
|
return current
|
|
havingClause.min_depth = 3
|
|
|
|
@depthcontrol
|
|
def orderByClause(self):
|
|
current = self.create_node(UnparserRule(name='orderByClause'))
|
|
current += self.unlexer.ORDER()
|
|
current += self.unlexer.BY()
|
|
current += self.orderExprList()
|
|
return current
|
|
orderByClause.min_depth = 5
|
|
|
|
@depthcontrol
|
|
def limitByClause(self):
|
|
current = self.create_node(UnparserRule(name='limitByClause'))
|
|
current += self.unlexer.LIMIT()
|
|
current += self.limitExpr()
|
|
current += self.unlexer.BY()
|
|
current += self.columnExprList()
|
|
return current
|
|
limitByClause.min_depth = 4
|
|
|
|
@depthcontrol
|
|
def limitClause(self):
|
|
current = self.create_node(UnparserRule(name='limitClause'))
|
|
current += self.unlexer.LIMIT()
|
|
current += self.limitExpr()
|
|
return current
|
|
limitClause.min_depth = 3
|
|
|
|
@depthcontrol
|
|
def settingsClause(self):
|
|
current = self.create_node(UnparserRule(name='settingsClause'))
|
|
current += self.unlexer.SETTINGS()
|
|
current += self.settingExprList()
|
|
return current
|
|
settingsClause.min_depth = 5
|
|
|
|
@depthcontrol
|
|
def joinExpr(self):
|
|
current = self.create_node(UnparserRule(name='joinExpr'))
|
|
choice = self.choice([0 if [6, 8, 8, 8][i] > self.unlexer.max_depth else w * self.unlexer.weights.get(('alt_181', i), 1) for i, w in enumerate([1, 1, 1, 1])])
|
|
self.unlexer.weights[('alt_181', choice)] = self.unlexer.weights.get(('alt_181', choice), 1) * self.unlexer.cooldown
|
|
if choice == 0:
|
|
current = self.joinExpr_JoinExprTable()
|
|
elif choice == 1:
|
|
current = self.joinExpr_JoinExprParens()
|
|
elif choice == 2:
|
|
current = self.joinExpr_JoinExprOp()
|
|
elif choice == 3:
|
|
current = self.joinExpr_JoinExprCrossOp()
|
|
return current
|
|
joinExpr.min_depth = 6
|
|
|
|
@depthcontrol
|
|
def joinExpr_JoinExprTable(self):
|
|
current = self.create_node(UnparserRule(name='joinExpr_JoinExprTable'))
|
|
current += self.tableExpr()
|
|
return current
|
|
joinExpr_JoinExprTable.min_depth = 5
|
|
|
|
@depthcontrol
|
|
def joinExpr_JoinExprParens(self):
|
|
current = self.create_node(UnparserRule(name='joinExpr_JoinExprParens'))
|
|
current += self.unlexer.LPAREN()
|
|
current += self.joinExpr()
|
|
current += self.unlexer.RPAREN()
|
|
return current
|
|
joinExpr_JoinExprParens.min_depth = 7
|
|
|
|
@depthcontrol
|
|
def joinExpr_JoinExprOp(self):
|
|
current = self.create_node(UnparserRule(name='joinExpr_JoinExprOp'))
|
|
current += self.joinExpr()
|
|
if self.unlexer.max_depth >= 2:
|
|
for _ in self.zero_or_one():
|
|
choice = self.choice([0 if [2, 2][i] > self.unlexer.max_depth else w * self.unlexer.weights.get(('alt_187', i), 1) for i, w in enumerate([1, 1])])
|
|
self.unlexer.weights[('alt_187', choice)] = self.unlexer.weights.get(('alt_187', choice), 1) * self.unlexer.cooldown
|
|
if choice == 0:
|
|
current += self.unlexer.GLOBAL()
|
|
elif choice == 1:
|
|
current += self.unlexer.LOCAL()
|
|
|
|
current += self.joinOp()
|
|
current += self.unlexer.JOIN()
|
|
current += self.joinExpr()
|
|
current += self.joinConstraintClause()
|
|
return current
|
|
joinExpr_JoinExprOp.min_depth = 7
|
|
|
|
@depthcontrol
|
|
def joinExpr_JoinExprCrossOp(self):
|
|
current = self.create_node(UnparserRule(name='joinExpr_JoinExprCrossOp'))
|
|
current += self.joinExpr()
|
|
current += self.joinOpCross()
|
|
current += self.joinExpr()
|
|
return current
|
|
joinExpr_JoinExprCrossOp.min_depth = 7
|
|
|
|
@depthcontrol
|
|
def joinOp(self):
|
|
current = self.create_node(UnparserRule(name='joinOp'))
|
|
choice = self.choice([0 if [3, 3, 3][i] > self.unlexer.max_depth else w * self.unlexer.weights.get(('alt_190', i), 1) for i, w in enumerate([1, 1, 1])])
|
|
self.unlexer.weights[('alt_190', choice)] = self.unlexer.weights.get(('alt_190', choice), 1) * self.unlexer.cooldown
|
|
if choice == 0:
|
|
current = self.joinOp_JoinOpInner()
|
|
elif choice == 1:
|
|
current = self.joinOp_JoinOpLeftRight()
|
|
elif choice == 2:
|
|
current = self.joinOp_JoinOpFull()
|
|
return current
|
|
joinOp.min_depth = 3
|
|
|
|
@depthcontrol
|
|
def joinOp_JoinOpInner(self):
|
|
current = self.create_node(UnparserRule(name='joinOp_JoinOpInner'))
|
|
choice = self.choice([0 if [2, 2][i] > self.unlexer.max_depth else w * self.unlexer.weights.get(('alt_194', i), 1) for i, w in enumerate([1, 1])])
|
|
self.unlexer.weights[('alt_194', choice)] = self.unlexer.weights.get(('alt_194', choice), 1) * self.unlexer.cooldown
|
|
if choice == 0:
|
|
if self.unlexer.max_depth >= 2:
|
|
for _ in self.zero_or_one():
|
|
current += self.unlexer.ANY()
|
|
|
|
current += self.unlexer.INNER()
|
|
elif choice == 1:
|
|
current += self.unlexer.INNER()
|
|
if self.unlexer.max_depth >= 2:
|
|
for _ in self.zero_or_one():
|
|
current += self.unlexer.ANY()
|
|
|
|
return current
|
|
joinOp_JoinOpInner.min_depth = 2
|
|
|
|
@depthcontrol
|
|
def joinOp_JoinOpLeftRight(self):
|
|
current = self.create_node(UnparserRule(name='joinOp_JoinOpLeftRight'))
|
|
choice = self.choice([0 if [2, 2][i] > self.unlexer.max_depth else w * self.unlexer.weights.get(('alt_199', i), 1) for i, w in enumerate([1, 1])])
|
|
self.unlexer.weights[('alt_199', choice)] = self.unlexer.weights.get(('alt_199', choice), 1) * self.unlexer.cooldown
|
|
if choice == 0:
|
|
if self.unlexer.max_depth >= 2:
|
|
for _ in self.zero_or_one():
|
|
choice = self.choice([0 if [2, 2, 2, 2, 2][i] > self.unlexer.max_depth else w * self.unlexer.weights.get(('alt_203', i), 1) for i, w in enumerate([1, 1, 1, 1, 1])])
|
|
self.unlexer.weights[('alt_203', choice)] = self.unlexer.weights.get(('alt_203', choice), 1) * self.unlexer.cooldown
|
|
if choice == 0:
|
|
current += self.unlexer.OUTER()
|
|
elif choice == 1:
|
|
current += self.unlexer.SEMI()
|
|
elif choice == 2:
|
|
current += self.unlexer.ANTI()
|
|
elif choice == 3:
|
|
current += self.unlexer.ANY()
|
|
elif choice == 4:
|
|
current += self.unlexer.ASOF()
|
|
|
|
choice = self.choice([0 if [2, 2][i] > self.unlexer.max_depth else w * self.unlexer.weights.get(('alt_209', i), 1) for i, w in enumerate([1, 1])])
|
|
self.unlexer.weights[('alt_209', choice)] = self.unlexer.weights.get(('alt_209', choice), 1) * self.unlexer.cooldown
|
|
if choice == 0:
|
|
current += self.unlexer.LEFT()
|
|
elif choice == 1:
|
|
current += self.unlexer.RIGHT()
|
|
elif choice == 1:
|
|
choice = self.choice([0 if [2, 2][i] > self.unlexer.max_depth else w * self.unlexer.weights.get(('alt_212', i), 1) for i, w in enumerate([1, 1])])
|
|
self.unlexer.weights[('alt_212', choice)] = self.unlexer.weights.get(('alt_212', choice), 1) * self.unlexer.cooldown
|
|
if choice == 0:
|
|
current += self.unlexer.LEFT()
|
|
elif choice == 1:
|
|
current += self.unlexer.RIGHT()
|
|
if self.unlexer.max_depth >= 2:
|
|
for _ in self.zero_or_one():
|
|
choice = self.choice([0 if [2, 2, 2, 2, 2][i] > self.unlexer.max_depth else w * self.unlexer.weights.get(('alt_216', i), 1) for i, w in enumerate([1, 1, 1, 1, 1])])
|
|
self.unlexer.weights[('alt_216', choice)] = self.unlexer.weights.get(('alt_216', choice), 1) * self.unlexer.cooldown
|
|
if choice == 0:
|
|
current += self.unlexer.OUTER()
|
|
elif choice == 1:
|
|
current += self.unlexer.SEMI()
|
|
elif choice == 2:
|
|
current += self.unlexer.ANTI()
|
|
elif choice == 3:
|
|
current += self.unlexer.ANY()
|
|
elif choice == 4:
|
|
current += self.unlexer.ASOF()
|
|
|
|
return current
|
|
joinOp_JoinOpLeftRight.min_depth = 2
|
|
|
|
@depthcontrol
|
|
def joinOp_JoinOpFull(self):
|
|
current = self.create_node(UnparserRule(name='joinOp_JoinOpFull'))
|
|
choice = self.choice([0 if [2, 2][i] > self.unlexer.max_depth else w * self.unlexer.weights.get(('alt_222', i), 1) for i, w in enumerate([1, 1])])
|
|
self.unlexer.weights[('alt_222', choice)] = self.unlexer.weights.get(('alt_222', choice), 1) * self.unlexer.cooldown
|
|
if choice == 0:
|
|
if self.unlexer.max_depth >= 2:
|
|
for _ in self.zero_or_one():
|
|
choice = self.choice([0 if [2, 2][i] > self.unlexer.max_depth else w * self.unlexer.weights.get(('alt_226', i), 1) for i, w in enumerate([1, 1])])
|
|
self.unlexer.weights[('alt_226', choice)] = self.unlexer.weights.get(('alt_226', choice), 1) * self.unlexer.cooldown
|
|
if choice == 0:
|
|
current += self.unlexer.OUTER()
|
|
elif choice == 1:
|
|
current += self.unlexer.ANY()
|
|
|
|
current += self.unlexer.FULL()
|
|
elif choice == 1:
|
|
current += self.unlexer.FULL()
|
|
if self.unlexer.max_depth >= 2:
|
|
for _ in self.zero_or_one():
|
|
choice = self.choice([0 if [2, 2][i] > self.unlexer.max_depth else w * self.unlexer.weights.get(('alt_230', i), 1) for i, w in enumerate([1, 1])])
|
|
self.unlexer.weights[('alt_230', choice)] = self.unlexer.weights.get(('alt_230', choice), 1) * self.unlexer.cooldown
|
|
if choice == 0:
|
|
current += self.unlexer.OUTER()
|
|
elif choice == 1:
|
|
current += self.unlexer.ANY()
|
|
|
|
return current
|
|
joinOp_JoinOpFull.min_depth = 2
|
|
|
|
@depthcontrol
|
|
def joinOpCross(self):
|
|
current = self.create_node(UnparserRule(name='joinOpCross'))
|
|
choice = self.choice([0 if [2, 1][i] > self.unlexer.max_depth else w * self.unlexer.weights.get(('alt_233', i), 1) for i, w in enumerate([1, 1])])
|
|
self.unlexer.weights[('alt_233', choice)] = self.unlexer.weights.get(('alt_233', choice), 1) * self.unlexer.cooldown
|
|
if choice == 0:
|
|
if self.unlexer.max_depth >= 2:
|
|
for _ in self.zero_or_one():
|
|
choice = self.choice([0 if [2, 2][i] > self.unlexer.max_depth else w * self.unlexer.weights.get(('alt_237', i), 1) for i, w in enumerate([1, 1])])
|
|
self.unlexer.weights[('alt_237', choice)] = self.unlexer.weights.get(('alt_237', choice), 1) * self.unlexer.cooldown
|
|
if choice == 0:
|
|
current += self.unlexer.GLOBAL()
|
|
elif choice == 1:
|
|
current += self.unlexer.LOCAL()
|
|
|
|
current += self.unlexer.CROSS()
|
|
current += self.unlexer.JOIN()
|
|
elif choice == 1:
|
|
current += self.unlexer.COMMA()
|
|
return current
|
|
joinOpCross.min_depth = 1
|
|
|
|
@depthcontrol
|
|
def joinConstraintClause(self):
|
|
current = self.create_node(UnparserRule(name='joinConstraintClause'))
|
|
choice = self.choice([0 if [4, 4, 4][i] > self.unlexer.max_depth else w * self.unlexer.weights.get(('alt_240', i), 1) for i, w in enumerate([1, 1, 1])])
|
|
self.unlexer.weights[('alt_240', choice)] = self.unlexer.weights.get(('alt_240', choice), 1) * self.unlexer.cooldown
|
|
if choice == 0:
|
|
current += self.unlexer.ON()
|
|
current += self.columnExprList()
|
|
elif choice == 1:
|
|
current += self.unlexer.USING()
|
|
current += self.unlexer.LPAREN()
|
|
current += self.columnExprList()
|
|
current += self.unlexer.RPAREN()
|
|
elif choice == 2:
|
|
current += self.unlexer.USING()
|
|
current += self.columnExprList()
|
|
return current
|
|
joinConstraintClause.min_depth = 4
|
|
|
|
@depthcontrol
|
|
def limitExpr(self):
|
|
current = self.create_node(UnparserRule(name='limitExpr'))
|
|
current += self.unlexer.INTEGER_LITERAL()
|
|
if self.unlexer.max_depth >= 2:
|
|
for _ in self.zero_or_one():
|
|
choice = self.choice([0 if [1, 2][i] > self.unlexer.max_depth else w * self.unlexer.weights.get(('alt_245', i), 1) for i, w in enumerate([1, 1])])
|
|
self.unlexer.weights[('alt_245', choice)] = self.unlexer.weights.get(('alt_245', choice), 1) * self.unlexer.cooldown
|
|
if choice == 0:
|
|
current += self.unlexer.COMMA()
|
|
elif choice == 1:
|
|
current += self.unlexer.OFFSET()
|
|
current += self.unlexer.INTEGER_LITERAL()
|
|
|
|
return current
|
|
limitExpr.min_depth = 2
|
|
|
|
@depthcontrol
|
|
def orderExprList(self):
|
|
current = self.create_node(UnparserRule(name='orderExprList'))
|
|
current += self.orderExpr()
|
|
if self.unlexer.max_depth >= 4:
|
|
for _ in self.zero_or_more():
|
|
current += self.unlexer.COMMA()
|
|
current += self.orderExpr()
|
|
|
|
return current
|
|
orderExprList.min_depth = 4
|
|
|
|
@depthcontrol
|
|
def orderExpr(self):
|
|
current = self.create_node(UnparserRule(name='orderExpr'))
|
|
current += self.columnExpr()
|
|
if self.unlexer.max_depth >= 2:
|
|
for _ in self.zero_or_one():
|
|
choice = self.choice([0 if [2, 2][i] > self.unlexer.max_depth else w * self.unlexer.weights.get(('alt_250', i), 1) for i, w in enumerate([1, 1])])
|
|
self.unlexer.weights[('alt_250', choice)] = self.unlexer.weights.get(('alt_250', choice), 1) * self.unlexer.cooldown
|
|
if choice == 0:
|
|
current += self.unlexer.ASCENDING()
|
|
elif choice == 1:
|
|
current += self.unlexer.DESCENDING()
|
|
|
|
if self.unlexer.max_depth >= 2:
|
|
for _ in self.zero_or_one():
|
|
current += self.unlexer.NULLS()
|
|
choice = self.choice([0 if [2, 2][i] > self.unlexer.max_depth else w * self.unlexer.weights.get(('alt_254', i), 1) for i, w in enumerate([1, 1])])
|
|
self.unlexer.weights[('alt_254', choice)] = self.unlexer.weights.get(('alt_254', choice), 1) * self.unlexer.cooldown
|
|
if choice == 0:
|
|
current += self.unlexer.FIRST()
|
|
elif choice == 1:
|
|
current += self.unlexer.LAST()
|
|
|
|
if self.unlexer.max_depth >= 2:
|
|
for _ in self.zero_or_one():
|
|
current += self.unlexer.COLLATE()
|
|
current += self.unlexer.STRING_LITERAL()
|
|
|
|
return current
|
|
orderExpr.min_depth = 3
|
|
|
|
@depthcontrol
|
|
def ratioExpr(self):
|
|
current = self.create_node(UnparserRule(name='ratioExpr'))
|
|
current += self.unlexer.INTEGER_LITERAL()
|
|
current += self.unlexer.SLASH()
|
|
current += self.unlexer.INTEGER_LITERAL()
|
|
return current
|
|
ratioExpr.min_depth = 2
|
|
|
|
@depthcontrol
|
|
def settingExprList(self):
|
|
current = self.create_node(UnparserRule(name='settingExprList'))
|
|
current += self.settingExpr()
|
|
if self.unlexer.max_depth >= 4:
|
|
for _ in self.zero_or_more():
|
|
current += self.unlexer.COMMA()
|
|
current += self.settingExpr()
|
|
|
|
return current
|
|
settingExprList.min_depth = 4
|
|
|
|
@depthcontrol
|
|
def settingExpr(self):
|
|
current = self.create_node(UnparserRule(name='settingExpr'))
|
|
current += self.identifier()
|
|
current += self.unlexer.EQ_SINGLE()
|
|
current += self.literal()
|
|
return current
|
|
settingExpr.min_depth = 3
|
|
|
|
@depthcontrol
|
|
def setStmt(self):
|
|
current = self.create_node(UnparserRule(name='setStmt'))
|
|
current += self.unlexer.SET()
|
|
current += self.settingExprList()
|
|
return current
|
|
setStmt.min_depth = 5
|
|
|
|
@depthcontrol
|
|
def valueExprList(self):
|
|
current = self.create_node(UnparserRule(name='valueExprList'))
|
|
current += self.valueExpr()
|
|
if self.unlexer.max_depth >= 3:
|
|
for _ in self.zero_or_more():
|
|
current += self.unlexer.COMMA()
|
|
current += self.valueExpr()
|
|
|
|
return current
|
|
valueExprList.min_depth = 3
|
|
|
|
@depthcontrol
|
|
def valueExpr(self):
|
|
current = self.create_node(UnparserRule(name='valueExpr'))
|
|
choice = self.choice([0 if [4, 6, 2][i] > self.unlexer.max_depth else w * self.unlexer.weights.get(('alt_260', i), 1) for i, w in enumerate([1, 1, 1])])
|
|
self.unlexer.weights[('alt_260', choice)] = self.unlexer.weights.get(('alt_260', choice), 1) * self.unlexer.cooldown
|
|
if choice == 0:
|
|
current = self.valueExpr_ValueExprLiteral()
|
|
elif choice == 1:
|
|
current = self.valueExpr_ValueExprTuple()
|
|
elif choice == 2:
|
|
current = self.valueExpr_ValueExprArray()
|
|
return current
|
|
valueExpr.min_depth = 2
|
|
|
|
@depthcontrol
|
|
def valueExpr_ValueExprLiteral(self):
|
|
current = self.create_node(UnparserRule(name='valueExpr_ValueExprLiteral'))
|
|
current += self.literal()
|
|
return current
|
|
valueExpr_ValueExprLiteral.min_depth = 3
|
|
|
|
@depthcontrol
|
|
def valueExpr_ValueExprTuple(self):
|
|
current = self.create_node(UnparserRule(name='valueExpr_ValueExprTuple'))
|
|
current += self.valueTupleExpr()
|
|
return current
|
|
valueExpr_ValueExprTuple.min_depth = 5
|
|
|
|
@depthcontrol
|
|
def valueExpr_ValueExprArray(self):
|
|
current = self.create_node(UnparserRule(name='valueExpr_ValueExprArray'))
|
|
current += self.unlexer.LBRACKET()
|
|
if self.unlexer.max_depth >= 4:
|
|
for _ in self.zero_or_one():
|
|
current += self.valueExprList()
|
|
|
|
current += self.unlexer.RBRACKET()
|
|
return current
|
|
valueExpr_ValueExprArray.min_depth = 1
|
|
|
|
@depthcontrol
|
|
def columnTypeExpr(self):
|
|
current = self.create_node(UnparserRule(name='columnTypeExpr'))
|
|
choice = self.choice([0 if [4, 5, 4, 6][i] > self.unlexer.max_depth else w * self.unlexer.weights.get(('alt_265', i), 1) for i, w in enumerate([1, 1, 1, 1])])
|
|
self.unlexer.weights[('alt_265', choice)] = self.unlexer.weights.get(('alt_265', choice), 1) * self.unlexer.cooldown
|
|
if choice == 0:
|
|
current = self.columnTypeExpr_ColumnTypeExprSimple()
|
|
elif choice == 1:
|
|
current = self.columnTypeExpr_ColumnTypeExprParam()
|
|
elif choice == 2:
|
|
current = self.columnTypeExpr_ColumnTypeExprEnum()
|
|
elif choice == 3:
|
|
current = self.columnTypeExpr_ColumnTypeExprComplex()
|
|
return current
|
|
columnTypeExpr.min_depth = 4
|
|
|
|
@depthcontrol
|
|
def columnTypeExpr_ColumnTypeExprSimple(self):
|
|
current = self.create_node(UnparserRule(name='columnTypeExpr_ColumnTypeExprSimple'))
|
|
current += self.identifier()
|
|
return current
|
|
columnTypeExpr_ColumnTypeExprSimple.min_depth = 3
|
|
|
|
@depthcontrol
|
|
def columnTypeExpr_ColumnTypeExprParam(self):
|
|
current = self.create_node(UnparserRule(name='columnTypeExpr_ColumnTypeExprParam'))
|
|
current += self.identifier()
|
|
current += self.unlexer.LPAREN()
|
|
current += self.columnParamList()
|
|
current += self.unlexer.RPAREN()
|
|
return current
|
|
columnTypeExpr_ColumnTypeExprParam.min_depth = 4
|
|
|
|
@depthcontrol
|
|
def columnTypeExpr_ColumnTypeExprEnum(self):
|
|
current = self.create_node(UnparserRule(name='columnTypeExpr_ColumnTypeExprEnum'))
|
|
current += self.identifier()
|
|
current += self.unlexer.LPAREN()
|
|
current += self.enumValue()
|
|
if self.unlexer.max_depth >= 3:
|
|
for _ in self.zero_or_more():
|
|
current += self.unlexer.COMMA()
|
|
current += self.enumValue()
|
|
|
|
current += self.unlexer.RPAREN()
|
|
return current
|
|
columnTypeExpr_ColumnTypeExprEnum.min_depth = 3
|
|
|
|
@depthcontrol
|
|
def columnTypeExpr_ColumnTypeExprComplex(self):
|
|
current = self.create_node(UnparserRule(name='columnTypeExpr_ColumnTypeExprComplex'))
|
|
current += self.identifier()
|
|
current += self.unlexer.LPAREN()
|
|
current += self.columnTypeExpr()
|
|
if self.unlexer.max_depth >= 5:
|
|
for _ in self.zero_or_more():
|
|
current += self.unlexer.COMMA()
|
|
current += self.columnTypeExpr()
|
|
|
|
current += self.unlexer.RPAREN()
|
|
return current
|
|
columnTypeExpr_ColumnTypeExprComplex.min_depth = 5
|
|
|
|
@depthcontrol
|
|
def columnExprList(self):
|
|
current = self.create_node(UnparserRule(name='columnExprList'))
|
|
current += self.columnExpr()
|
|
if self.unlexer.max_depth >= 3:
|
|
for _ in self.zero_or_more():
|
|
current += self.unlexer.COMMA()
|
|
current += self.columnExpr()
|
|
|
|
return current
|
|
columnExprList.min_depth = 3
|
|
|
|
@depthcontrol
|
|
def columnExpr(self):
|
|
current = self.create_node(UnparserRule(name='columnExpr'))
|
|
choice = self.choice([0 if [4, 2, 5, 2, 4, 4, 4, 4, 5, 4, 4, 4, 4, 4, 4, 4, 4, 4][i] > self.unlexer.max_depth else w * self.unlexer.weights.get(('alt_273', i), 1) for i, w in enumerate([1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1])])
|
|
self.unlexer.weights[('alt_273', choice)] = self.unlexer.weights.get(('alt_273', choice), 1) * self.unlexer.cooldown
|
|
if choice == 0:
|
|
current = self.columnExpr_ColumnExprLiteral()
|
|
elif choice == 1:
|
|
current = self.columnExpr_ColumnExprAsterisk()
|
|
elif choice == 2:
|
|
current = self.columnExpr_ColumnExprTuple()
|
|
elif choice == 3:
|
|
current = self.columnExpr_ColumnExprArray()
|
|
elif choice == 4:
|
|
current = self.columnExpr_ColumnExprCase()
|
|
elif choice == 5:
|
|
current = self.columnExpr_ColumnExprExtract()
|
|
elif choice == 6:
|
|
current = self.columnExpr_ColumnExprTrim()
|
|
elif choice == 7:
|
|
current = self.columnExpr_ColumnExprInterval()
|
|
elif choice == 8:
|
|
current = self.columnExpr_ColumnExprIdentifier()
|
|
elif choice == 9:
|
|
current = self.columnExpr_ColumnExprFunction()
|
|
elif choice == 10:
|
|
current = self.columnExpr_ColumnExprArrayAccess()
|
|
elif choice == 11:
|
|
current = self.columnExpr_ColumnExprTupleAccess()
|
|
elif choice == 12:
|
|
current = self.columnExpr_ColumnExprUnaryOp()
|
|
elif choice == 13:
|
|
current = self.columnExpr_ColumnExprIsNull()
|
|
elif choice == 14:
|
|
current = self.columnExpr_ColumnExprBinaryOp()
|
|
elif choice == 15:
|
|
current = self.columnExpr_ColumnExprTernaryOp()
|
|
elif choice == 16:
|
|
current = self.columnExpr_ColumnExprBetween()
|
|
elif choice == 17:
|
|
current = self.columnExpr_ColumnExprAlias()
|
|
return current
|
|
columnExpr.min_depth = 2
|
|
|
|
@depthcontrol
|
|
def columnExpr_ColumnExprLiteral(self):
|
|
current = self.create_node(UnparserRule(name='columnExpr_ColumnExprLiteral'))
|
|
current += self.literal()
|
|
return current
|
|
columnExpr_ColumnExprLiteral.min_depth = 3
|
|
|
|
@depthcontrol
|
|
def columnExpr_ColumnExprAsterisk(self):
|
|
current = self.create_node(UnparserRule(name='columnExpr_ColumnExprAsterisk'))
|
|
current += self.unlexer.ASTERISK()
|
|
return current
|
|
columnExpr_ColumnExprAsterisk.min_depth = 1
|
|
|
|
@depthcontrol
|
|
def columnExpr_ColumnExprTuple(self):
|
|
current = self.create_node(UnparserRule(name='columnExpr_ColumnExprTuple'))
|
|
current += self.unlexer.LPAREN()
|
|
current += self.columnExprList()
|
|
current += self.unlexer.RPAREN()
|
|
return current
|
|
columnExpr_ColumnExprTuple.min_depth = 4
|
|
|
|
@depthcontrol
|
|
def columnExpr_ColumnExprArray(self):
|
|
current = self.create_node(UnparserRule(name='columnExpr_ColumnExprArray'))
|
|
current += self.unlexer.LBRACKET()
|
|
if self.unlexer.max_depth >= 4:
|
|
for _ in self.zero_or_one():
|
|
current += self.columnExprList()
|
|
|
|
current += self.unlexer.RBRACKET()
|
|
return current
|
|
columnExpr_ColumnExprArray.min_depth = 1
|
|
|
|
@depthcontrol
|
|
def columnExpr_ColumnExprCase(self):
|
|
current = self.create_node(UnparserRule(name='columnExpr_ColumnExprCase'))
|
|
current += self.unlexer.CASE()
|
|
if self.unlexer.max_depth >= 3:
|
|
for _ in self.zero_or_one():
|
|
current += self.columnExpr()
|
|
|
|
if self.unlexer.max_depth >= 0:
|
|
for _ in self.one_or_more():
|
|
current += self.unlexer.WHEN()
|
|
current += self.columnExpr()
|
|
current += self.unlexer.THEN()
|
|
current += self.columnExpr()
|
|
|
|
if self.unlexer.max_depth >= 3:
|
|
for _ in self.zero_or_one():
|
|
current += self.unlexer.ELSE()
|
|
current += self.columnExpr()
|
|
|
|
current += self.unlexer.END()
|
|
return current
|
|
columnExpr_ColumnExprCase.min_depth = 3
|
|
|
|
@depthcontrol
|
|
def columnExpr_ColumnExprExtract(self):
|
|
current = self.create_node(UnparserRule(name='columnExpr_ColumnExprExtract'))
|
|
current += self.unlexer.EXTRACT()
|
|
current += self.unlexer.LPAREN()
|
|
current += self.unlexer.INTERVAL_TYPE()
|
|
current += self.unlexer.FROM()
|
|
current += self.columnExpr()
|
|
current += self.unlexer.RPAREN()
|
|
return current
|
|
columnExpr_ColumnExprExtract.min_depth = 3
|
|
|
|
@depthcontrol
|
|
def columnExpr_ColumnExprTrim(self):
|
|
current = self.create_node(UnparserRule(name='columnExpr_ColumnExprTrim'))
|
|
current += self.unlexer.TRIM()
|
|
current += self.unlexer.LPAREN()
|
|
choice = self.choice([0 if [2, 2, 2][i] > self.unlexer.max_depth else w * self.unlexer.weights.get(('alt_295', i), 1) for i, w in enumerate([1, 1, 1])])
|
|
self.unlexer.weights[('alt_295', choice)] = self.unlexer.weights.get(('alt_295', choice), 1) * self.unlexer.cooldown
|
|
if choice == 0:
|
|
current += self.unlexer.BOTH()
|
|
elif choice == 1:
|
|
current += self.unlexer.LEADING()
|
|
elif choice == 2:
|
|
current += self.unlexer.TRAILING()
|
|
current += self.unlexer.STRING_LITERAL()
|
|
current += self.unlexer.FROM()
|
|
current += self.columnExpr()
|
|
current += self.unlexer.RPAREN()
|
|
return current
|
|
columnExpr_ColumnExprTrim.min_depth = 3
|
|
|
|
@depthcontrol
|
|
def columnExpr_ColumnExprInterval(self):
|
|
current = self.create_node(UnparserRule(name='columnExpr_ColumnExprInterval'))
|
|
current += self.unlexer.INTERVAL()
|
|
current += self.columnExpr()
|
|
current += self.unlexer.INTERVAL_TYPE()
|
|
return current
|
|
columnExpr_ColumnExprInterval.min_depth = 3
|
|
|
|
@depthcontrol
|
|
def columnExpr_ColumnExprIdentifier(self):
|
|
current = self.create_node(UnparserRule(name='columnExpr_ColumnExprIdentifier'))
|
|
current += self.columnIdentifier()
|
|
return current
|
|
columnExpr_ColumnExprIdentifier.min_depth = 4
|
|
|
|
@depthcontrol
|
|
def columnExpr_ColumnExprFunction(self):
|
|
current = self.create_node(UnparserRule(name='columnExpr_ColumnExprFunction'))
|
|
current += self.identifier()
|
|
if self.unlexer.max_depth >= 1:
|
|
for _ in self.zero_or_one():
|
|
current += self.unlexer.LPAREN()
|
|
if self.unlexer.max_depth >= 4:
|
|
for _ in self.zero_or_one():
|
|
current += self.columnParamList()
|
|
|
|
current += self.unlexer.RPAREN()
|
|
|
|
current += self.unlexer.LPAREN()
|
|
if self.unlexer.max_depth >= 5:
|
|
for _ in self.zero_or_one():
|
|
current += self.columnArgList()
|
|
|
|
current += self.unlexer.RPAREN()
|
|
return current
|
|
columnExpr_ColumnExprFunction.min_depth = 3
|
|
|
|
@depthcontrol
|
|
def columnExpr_ColumnExprArrayAccess(self):
|
|
current = self.create_node(UnparserRule(name='columnExpr_ColumnExprArrayAccess'))
|
|
current += self.columnExpr()
|
|
current += self.unlexer.LBRACKET()
|
|
current += self.columnExpr()
|
|
current += self.unlexer.RBRACKET()
|
|
return current
|
|
columnExpr_ColumnExprArrayAccess.min_depth = 3
|
|
|
|
@depthcontrol
|
|
def columnExpr_ColumnExprTupleAccess(self):
|
|
current = self.create_node(UnparserRule(name='columnExpr_ColumnExprTupleAccess'))
|
|
current += self.columnExpr()
|
|
current += self.unlexer.DOT()
|
|
current += self.unlexer.INTEGER_LITERAL()
|
|
return current
|
|
columnExpr_ColumnExprTupleAccess.min_depth = 3
|
|
|
|
@depthcontrol
|
|
def columnExpr_ColumnExprUnaryOp(self):
|
|
current = self.create_node(UnparserRule(name='columnExpr_ColumnExprUnaryOp'))
|
|
current += self.unaryOp()
|
|
current += self.columnExpr()
|
|
return current
|
|
columnExpr_ColumnExprUnaryOp.min_depth = 3
|
|
|
|
@depthcontrol
|
|
def columnExpr_ColumnExprIsNull(self):
|
|
current = self.create_node(UnparserRule(name='columnExpr_ColumnExprIsNull'))
|
|
current += self.columnExpr()
|
|
current += self.unlexer.IS()
|
|
if self.unlexer.max_depth >= 2:
|
|
for _ in self.zero_or_one():
|
|
current += self.unlexer.NOT()
|
|
|
|
current += self.unlexer.NULL_SQL()
|
|
return current
|
|
columnExpr_ColumnExprIsNull.min_depth = 3
|
|
|
|
@depthcontrol
|
|
def columnExpr_ColumnExprBinaryOp(self):
|
|
current = self.create_node(UnparserRule(name='columnExpr_ColumnExprBinaryOp'))
|
|
current += self.columnExpr()
|
|
current += self.binaryOp()
|
|
current += self.columnExpr()
|
|
return current
|
|
columnExpr_ColumnExprBinaryOp.min_depth = 3
|
|
|
|
@depthcontrol
|
|
def columnExpr_ColumnExprTernaryOp(self):
|
|
current = self.create_node(UnparserRule(name='columnExpr_ColumnExprTernaryOp'))
|
|
current += self.columnExpr()
|
|
current += self.unlexer.QUERY()
|
|
current += self.columnExpr()
|
|
current += self.unlexer.COLON()
|
|
current += self.columnExpr()
|
|
return current
|
|
columnExpr_ColumnExprTernaryOp.min_depth = 3
|
|
|
|
@depthcontrol
|
|
def columnExpr_ColumnExprBetween(self):
|
|
current = self.create_node(UnparserRule(name='columnExpr_ColumnExprBetween'))
|
|
current += self.columnExpr()
|
|
if self.unlexer.max_depth >= 2:
|
|
for _ in self.zero_or_one():
|
|
current += self.unlexer.NOT()
|
|
|
|
current += self.unlexer.BETWEEN()
|
|
current += self.columnExpr()
|
|
current += self.unlexer.AND()
|
|
current += self.columnExpr()
|
|
return current
|
|
columnExpr_ColumnExprBetween.min_depth = 3
|
|
|
|
@depthcontrol
|
|
def columnExpr_ColumnExprAlias(self):
|
|
current = self.create_node(UnparserRule(name='columnExpr_ColumnExprAlias'))
|
|
current += self.columnExpr()
|
|
current += self.unlexer.AS()
|
|
current += self.identifier()
|
|
return current
|
|
columnExpr_ColumnExprAlias.min_depth = 3
|
|
|
|
@depthcontrol
|
|
def columnParamList(self):
|
|
current = self.create_node(UnparserRule(name='columnParamList'))
|
|
current += self.literal()
|
|
if self.unlexer.max_depth >= 3:
|
|
for _ in self.zero_or_more():
|
|
current += self.unlexer.COMMA()
|
|
current += self.literal()
|
|
|
|
return current
|
|
columnParamList.min_depth = 3
|
|
|
|
@depthcontrol
|
|
def columnArgList(self):
|
|
current = self.create_node(UnparserRule(name='columnArgList'))
|
|
current += self.columnArgExpr()
|
|
if self.unlexer.max_depth >= 4:
|
|
for _ in self.zero_or_more():
|
|
current += self.unlexer.COMMA()
|
|
current += self.columnArgExpr()
|
|
|
|
return current
|
|
columnArgList.min_depth = 4
|
|
|
|
@depthcontrol
|
|
def columnArgExpr(self):
|
|
current = self.create_node(UnparserRule(name='columnArgExpr'))
|
|
choice = self.choice([0 if [4, 3][i] > self.unlexer.max_depth else w * self.unlexer.weights.get(('alt_306', i), 1) for i, w in enumerate([1, 1])])
|
|
self.unlexer.weights[('alt_306', choice)] = self.unlexer.weights.get(('alt_306', choice), 1) * self.unlexer.cooldown
|
|
if choice == 0:
|
|
current += self.columnLambdaExpr()
|
|
elif choice == 1:
|
|
current += self.columnExpr()
|
|
return current
|
|
columnArgExpr.min_depth = 3
|
|
|
|
@depthcontrol
|
|
def columnLambdaExpr(self):
|
|
current = self.create_node(UnparserRule(name='columnLambdaExpr'))
|
|
choice = self.choice([0 if [3, 3][i] > self.unlexer.max_depth else w * self.unlexer.weights.get(('alt_309', i), 1) for i, w in enumerate([1, 1])])
|
|
self.unlexer.weights[('alt_309', choice)] = self.unlexer.weights.get(('alt_309', choice), 1) * self.unlexer.cooldown
|
|
if choice == 0:
|
|
current += self.unlexer.LPAREN()
|
|
current += self.identifier()
|
|
if self.unlexer.max_depth >= 3:
|
|
for _ in self.zero_or_more():
|
|
current += self.unlexer.COMMA()
|
|
current += self.identifier()
|
|
|
|
current += self.unlexer.RPAREN()
|
|
elif choice == 1:
|
|
current += self.identifier()
|
|
if self.unlexer.max_depth >= 3:
|
|
for _ in self.zero_or_more():
|
|
current += self.unlexer.COMMA()
|
|
current += self.identifier()
|
|
|
|
current += self.unlexer.ARROW()
|
|
current += self.columnExpr()
|
|
return current
|
|
columnLambdaExpr.min_depth = 3
|
|
|
|
@depthcontrol
|
|
def columnIdentifier(self):
|
|
current = self.create_node(UnparserRule(name='columnIdentifier'))
|
|
if self.unlexer.max_depth >= 4:
|
|
for _ in self.zero_or_one():
|
|
current += self.tableIdentifier()
|
|
current += self.unlexer.DOT()
|
|
|
|
current += self.identifier()
|
|
return current
|
|
columnIdentifier.min_depth = 3
|
|
|
|
@depthcontrol
|
|
def tableExpr(self):
|
|
current = self.create_node(UnparserRule(name='tableExpr'))
|
|
choice = self.choice([0 if [5, 4, 7, 6][i] > self.unlexer.max_depth else w * self.unlexer.weights.get(('alt_315', i), 1) for i, w in enumerate([1, 1, 1, 1])])
|
|
self.unlexer.weights[('alt_315', choice)] = self.unlexer.weights.get(('alt_315', choice), 1) * self.unlexer.cooldown
|
|
if choice == 0:
|
|
current = self.tableExpr_TableExprIdentifier()
|
|
elif choice == 1:
|
|
current = self.tableExpr_TableExprFunction()
|
|
elif choice == 2:
|
|
current = self.tableExpr_TableExprSubquery()
|
|
elif choice == 3:
|
|
current = self.tableExpr_TableExprAlias()
|
|
return current
|
|
tableExpr.min_depth = 4
|
|
|
|
@depthcontrol
|
|
def tableExpr_TableExprIdentifier(self):
|
|
current = self.create_node(UnparserRule(name='tableExpr_TableExprIdentifier'))
|
|
current += self.tableIdentifier()
|
|
return current
|
|
tableExpr_TableExprIdentifier.min_depth = 4
|
|
|
|
@depthcontrol
|
|
def tableExpr_TableExprFunction(self):
|
|
current = self.create_node(UnparserRule(name='tableExpr_TableExprFunction'))
|
|
current += self.identifier()
|
|
current += self.unlexer.LPAREN()
|
|
if self.unlexer.max_depth >= 5:
|
|
for _ in self.zero_or_one():
|
|
current += self.tableArgList()
|
|
|
|
current += self.unlexer.RPAREN()
|
|
return current
|
|
tableExpr_TableExprFunction.min_depth = 3
|
|
|
|
@depthcontrol
|
|
def tableExpr_TableExprSubquery(self):
|
|
current = self.create_node(UnparserRule(name='tableExpr_TableExprSubquery'))
|
|
current += self.unlexer.LPAREN()
|
|
current += self.selectUnionStmt()
|
|
current += self.unlexer.RPAREN()
|
|
return current
|
|
tableExpr_TableExprSubquery.min_depth = 6
|
|
|
|
@depthcontrol
|
|
def tableExpr_TableExprAlias(self):
|
|
current = self.create_node(UnparserRule(name='tableExpr_TableExprAlias'))
|
|
current += self.tableExpr()
|
|
current += self.unlexer.AS()
|
|
current += self.identifier()
|
|
return current
|
|
tableExpr_TableExprAlias.min_depth = 5
|
|
|
|
@depthcontrol
|
|
def tableIdentifier(self):
|
|
current = self.create_node(UnparserRule(name='tableIdentifier'))
|
|
if self.unlexer.max_depth >= 4:
|
|
for _ in self.zero_or_one():
|
|
current += self.databaseIdentifier()
|
|
current += self.unlexer.DOT()
|
|
|
|
current += self.identifier()
|
|
return current
|
|
tableIdentifier.min_depth = 3
|
|
|
|
@depthcontrol
|
|
def tableArgList(self):
|
|
current = self.create_node(UnparserRule(name='tableArgList'))
|
|
current += self.tableArgExpr()
|
|
if self.unlexer.max_depth >= 4:
|
|
for _ in self.zero_or_more():
|
|
current += self.unlexer.COMMA()
|
|
current += self.tableArgExpr()
|
|
|
|
return current
|
|
tableArgList.min_depth = 4
|
|
|
|
@depthcontrol
|
|
def tableArgExpr(self):
|
|
current = self.create_node(UnparserRule(name='tableArgExpr'))
|
|
choice = self.choice([0 if [3, 4][i] > self.unlexer.max_depth else w * self.unlexer.weights.get(('alt_323', i), 1) for i, w in enumerate([1, 1])])
|
|
self.unlexer.weights[('alt_323', choice)] = self.unlexer.weights.get(('alt_323', choice), 1) * self.unlexer.cooldown
|
|
if choice == 0:
|
|
current += self.literal()
|
|
elif choice == 1:
|
|
current += self.tableIdentifier()
|
|
return current
|
|
tableArgExpr.min_depth = 3
|
|
|
|
@depthcontrol
|
|
def databaseIdentifier(self):
|
|
current = self.create_node(UnparserRule(name='databaseIdentifier'))
|
|
current += self.identifier()
|
|
return current
|
|
databaseIdentifier.min_depth = 3
|
|
|
|
@depthcontrol
|
|
def literal(self):
|
|
current = self.create_node(UnparserRule(name='literal'))
|
|
choice = self.choice([0 if [2, 2, 2][i] > self.unlexer.max_depth else w * self.unlexer.weights.get(('alt_326', i), 1) for i, w in enumerate([1, 1, 1])])
|
|
self.unlexer.weights[('alt_326', choice)] = self.unlexer.weights.get(('alt_326', choice), 1) * self.unlexer.cooldown
|
|
if choice == 0:
|
|
if self.unlexer.max_depth >= 1:
|
|
for _ in self.zero_or_one():
|
|
choice = self.choice([0 if [1, 1][i] > self.unlexer.max_depth else w * self.unlexer.weights.get(('alt_331', i), 1) for i, w in enumerate([1, 1])])
|
|
self.unlexer.weights[('alt_331', choice)] = self.unlexer.weights.get(('alt_331', choice), 1) * self.unlexer.cooldown
|
|
if choice == 0:
|
|
current += self.unlexer.PLUS()
|
|
elif choice == 1:
|
|
current += self.unlexer.DASH()
|
|
|
|
choice = self.choice([0 if [3, 2, 2, 2, 2][i] > self.unlexer.max_depth else w * self.unlexer.weights.get(('alt_334', i), 1) for i, w in enumerate([1, 1, 1, 1, 1])])
|
|
self.unlexer.weights[('alt_334', choice)] = self.unlexer.weights.get(('alt_334', choice), 1) * self.unlexer.cooldown
|
|
if choice == 0:
|
|
current += self.unlexer.FLOATING_LITERAL()
|
|
elif choice == 1:
|
|
current += self.unlexer.HEXADECIMAL_LITERAL()
|
|
elif choice == 2:
|
|
current += self.unlexer.INTEGER_LITERAL()
|
|
elif choice == 3:
|
|
current += self.unlexer.INF()
|
|
elif choice == 4:
|
|
current += self.unlexer.NAN_SQL()
|
|
elif choice == 1:
|
|
current += self.unlexer.STRING_LITERAL()
|
|
elif choice == 2:
|
|
current += self.unlexer.NULL_SQL()
|
|
return current
|
|
literal.min_depth = 2
|
|
|
|
@depthcontrol
|
|
def keyword(self):
|
|
current = self.create_node(UnparserRule(name='keyword'))
|
|
choice = self.choice([0 if [2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2][i] > self.unlexer.max_depth else w * self.unlexer.weights.get(('alt_340', i), 1) for i, w in enumerate([1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1])])
|
|
self.unlexer.weights[('alt_340', choice)] = self.unlexer.weights.get(('alt_340', choice), 1) * self.unlexer.cooldown
|
|
if choice == 0:
|
|
current += self.unlexer.ALIAS()
|
|
elif choice == 1:
|
|
current += self.unlexer.ALL()
|
|
elif choice == 2:
|
|
current += self.unlexer.AND()
|
|
elif choice == 3:
|
|
current += self.unlexer.ANTI()
|
|
elif choice == 4:
|
|
current += self.unlexer.ANY()
|
|
elif choice == 5:
|
|
current += self.unlexer.ARRAY()
|
|
elif choice == 6:
|
|
current += self.unlexer.AS()
|
|
elif choice == 7:
|
|
current += self.unlexer.ASCENDING()
|
|
elif choice == 8:
|
|
current += self.unlexer.ASOF()
|
|
elif choice == 9:
|
|
current += self.unlexer.BETWEEN()
|
|
elif choice == 10:
|
|
current += self.unlexer.BOTH()
|
|
elif choice == 11:
|
|
current += self.unlexer.BY()
|
|
elif choice == 12:
|
|
current += self.unlexer.CASE()
|
|
elif choice == 13:
|
|
current += self.unlexer.CAST()
|
|
elif choice == 14:
|
|
current += self.unlexer.CLUSTER()
|
|
elif choice == 15:
|
|
current += self.unlexer.COLLATE()
|
|
elif choice == 16:
|
|
current += self.unlexer.CREATE()
|
|
elif choice == 17:
|
|
current += self.unlexer.CROSS()
|
|
elif choice == 18:
|
|
current += self.unlexer.DAY()
|
|
elif choice == 19:
|
|
current += self.unlexer.DATABASE()
|
|
elif choice == 20:
|
|
current += self.unlexer.DEFAULT()
|
|
elif choice == 21:
|
|
current += self.unlexer.DELETE()
|
|
elif choice == 22:
|
|
current += self.unlexer.DESCENDING()
|
|
elif choice == 23:
|
|
current += self.unlexer.DISK()
|
|
elif choice == 24:
|
|
current += self.unlexer.DISTINCT()
|
|
elif choice == 25:
|
|
current += self.unlexer.DROP()
|
|
elif choice == 26:
|
|
current += self.unlexer.ELSE()
|
|
elif choice == 27:
|
|
current += self.unlexer.END()
|
|
elif choice == 28:
|
|
current += self.unlexer.ENGINE()
|
|
elif choice == 29:
|
|
current += self.unlexer.EXISTS()
|
|
elif choice == 30:
|
|
current += self.unlexer.EXTRACT()
|
|
elif choice == 31:
|
|
current += self.unlexer.FINAL()
|
|
elif choice == 32:
|
|
current += self.unlexer.FIRST()
|
|
elif choice == 33:
|
|
current += self.unlexer.FORMAT()
|
|
elif choice == 34:
|
|
current += self.unlexer.FROM()
|
|
elif choice == 35:
|
|
current += self.unlexer.FULL()
|
|
elif choice == 36:
|
|
current += self.unlexer.GLOBAL()
|
|
elif choice == 37:
|
|
current += self.unlexer.GROUP()
|
|
elif choice == 38:
|
|
current += self.unlexer.HAVING()
|
|
elif choice == 39:
|
|
current += self.unlexer.HOUR()
|
|
elif choice == 40:
|
|
current += self.unlexer.IF()
|
|
elif choice == 41:
|
|
current += self.unlexer.IN()
|
|
elif choice == 42:
|
|
current += self.unlexer.INNER()
|
|
elif choice == 43:
|
|
current += self.unlexer.INSERT()
|
|
elif choice == 44:
|
|
current += self.unlexer.INTERVAL()
|
|
elif choice == 45:
|
|
current += self.unlexer.INTO()
|
|
elif choice == 46:
|
|
current += self.unlexer.IS()
|
|
elif choice == 47:
|
|
current += self.unlexer.JOIN()
|
|
elif choice == 48:
|
|
current += self.unlexer.KEY()
|
|
elif choice == 49:
|
|
current += self.unlexer.LAST()
|
|
elif choice == 50:
|
|
current += self.unlexer.LEADING()
|
|
elif choice == 51:
|
|
current += self.unlexer.LEFT()
|
|
elif choice == 52:
|
|
current += self.unlexer.LIKE()
|
|
elif choice == 53:
|
|
current += self.unlexer.LIMIT()
|
|
elif choice == 54:
|
|
current += self.unlexer.LOCAL()
|
|
elif choice == 55:
|
|
current += self.unlexer.MATERIALIZED()
|
|
elif choice == 56:
|
|
current += self.unlexer.MINUTE()
|
|
elif choice == 57:
|
|
current += self.unlexer.MONTH()
|
|
elif choice == 58:
|
|
current += self.unlexer.NOT()
|
|
elif choice == 59:
|
|
current += self.unlexer.NULLS()
|
|
elif choice == 60:
|
|
current += self.unlexer.OFFSET()
|
|
elif choice == 61:
|
|
current += self.unlexer.ON()
|
|
elif choice == 62:
|
|
current += self.unlexer.OR()
|
|
elif choice == 63:
|
|
current += self.unlexer.ORDER()
|
|
elif choice == 64:
|
|
current += self.unlexer.OUTER()
|
|
elif choice == 65:
|
|
current += self.unlexer.OUTFILE()
|
|
elif choice == 66:
|
|
current += self.unlexer.PARTITION()
|
|
elif choice == 67:
|
|
current += self.unlexer.PREWHERE()
|
|
elif choice == 68:
|
|
current += self.unlexer.PRIMARY()
|
|
elif choice == 69:
|
|
current += self.unlexer.QUARTER()
|
|
elif choice == 70:
|
|
current += self.unlexer.RIGHT()
|
|
elif choice == 71:
|
|
current += self.unlexer.SAMPLE()
|
|
elif choice == 72:
|
|
current += self.unlexer.SECOND()
|
|
elif choice == 73:
|
|
current += self.unlexer.SEMI()
|
|
elif choice == 74:
|
|
current += self.unlexer.SET()
|
|
elif choice == 75:
|
|
current += self.unlexer.SETTINGS()
|
|
elif choice == 76:
|
|
current += self.unlexer.TABLE()
|
|
elif choice == 77:
|
|
current += self.unlexer.TEMPORARY()
|
|
elif choice == 78:
|
|
current += self.unlexer.THEN()
|
|
elif choice == 79:
|
|
current += self.unlexer.TOTALS()
|
|
elif choice == 80:
|
|
current += self.unlexer.TRAILING()
|
|
elif choice == 81:
|
|
current += self.unlexer.TRIM()
|
|
elif choice == 82:
|
|
current += self.unlexer.TO()
|
|
elif choice == 83:
|
|
current += self.unlexer.TTL()
|
|
elif choice == 84:
|
|
current += self.unlexer.UNION()
|
|
elif choice == 85:
|
|
current += self.unlexer.USING()
|
|
elif choice == 86:
|
|
current += self.unlexer.VALUES()
|
|
elif choice == 87:
|
|
current += self.unlexer.VOLUME()
|
|
elif choice == 88:
|
|
current += self.unlexer.WEEK()
|
|
elif choice == 89:
|
|
current += self.unlexer.WHEN()
|
|
elif choice == 90:
|
|
current += self.unlexer.WHERE()
|
|
elif choice == 91:
|
|
current += self.unlexer.WITH()
|
|
elif choice == 92:
|
|
current += self.unlexer.YEAR()
|
|
return current
|
|
keyword.min_depth = 2
|
|
|
|
@depthcontrol
|
|
def identifier(self):
|
|
current = self.create_node(UnparserRule(name='identifier'))
|
|
choice = self.choice([0 if [2, 3, 3][i] > self.unlexer.max_depth else w * self.unlexer.weights.get(('alt_434', i), 1) for i, w in enumerate([1, 1, 1])])
|
|
self.unlexer.weights[('alt_434', choice)] = self.unlexer.weights.get(('alt_434', choice), 1) * self.unlexer.cooldown
|
|
if choice == 0:
|
|
current += self.unlexer.IDENTIFIER()
|
|
elif choice == 1:
|
|
current += self.unlexer.INTERVAL_TYPE()
|
|
elif choice == 2:
|
|
current += self.keyword()
|
|
return current
|
|
identifier.min_depth = 2
|
|
|
|
@depthcontrol
|
|
def unaryOp(self):
|
|
current = self.create_node(UnparserRule(name='unaryOp'))
|
|
choice = self.choice([0 if [1, 2][i] > self.unlexer.max_depth else w * self.unlexer.weights.get(('alt_438', i), 1) for i, w in enumerate([1, 1])])
|
|
self.unlexer.weights[('alt_438', choice)] = self.unlexer.weights.get(('alt_438', choice), 1) * self.unlexer.cooldown
|
|
if choice == 0:
|
|
current += self.unlexer.DASH()
|
|
elif choice == 1:
|
|
current += self.unlexer.NOT()
|
|
return current
|
|
unaryOp.min_depth = 1
|
|
|
|
@depthcontrol
|
|
def binaryOp(self):
|
|
current = self.create_node(UnparserRule(name='binaryOp'))
|
|
choice = self.choice([0 if [1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 2, 2, 2, 2][i] > self.unlexer.max_depth else w * self.unlexer.weights.get(('alt_441', i), 1) for i, w in enumerate([1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1])])
|
|
self.unlexer.weights[('alt_441', choice)] = self.unlexer.weights.get(('alt_441', choice), 1) * self.unlexer.cooldown
|
|
if choice == 0:
|
|
current += self.unlexer.CONCAT()
|
|
elif choice == 1:
|
|
current += self.unlexer.ASTERISK()
|
|
elif choice == 2:
|
|
current += self.unlexer.SLASH()
|
|
elif choice == 3:
|
|
current += self.unlexer.PLUS()
|
|
elif choice == 4:
|
|
current += self.unlexer.DASH()
|
|
elif choice == 5:
|
|
current += self.unlexer.PERCENT()
|
|
elif choice == 6:
|
|
current += self.unlexer.EQ_DOUBLE()
|
|
elif choice == 7:
|
|
current += self.unlexer.EQ_SINGLE()
|
|
elif choice == 8:
|
|
current += self.unlexer.NOT_EQ()
|
|
elif choice == 9:
|
|
current += self.unlexer.LE()
|
|
elif choice == 10:
|
|
current += self.unlexer.GE()
|
|
elif choice == 11:
|
|
current += self.unlexer.LT()
|
|
elif choice == 12:
|
|
current += self.unlexer.GT()
|
|
elif choice == 13:
|
|
current += self.unlexer.AND()
|
|
elif choice == 14:
|
|
current += self.unlexer.OR()
|
|
elif choice == 15:
|
|
if self.unlexer.max_depth >= 2:
|
|
for _ in self.zero_or_one():
|
|
current += self.unlexer.NOT()
|
|
|
|
current += self.unlexer.LIKE()
|
|
elif choice == 16:
|
|
if self.unlexer.max_depth >= 2:
|
|
for _ in self.zero_or_one():
|
|
current += self.unlexer.GLOBAL()
|
|
|
|
if self.unlexer.max_depth >= 2:
|
|
for _ in self.zero_or_one():
|
|
current += self.unlexer.NOT()
|
|
|
|
current += self.unlexer.IN()
|
|
return current
|
|
binaryOp.min_depth = 1
|
|
|
|
@depthcontrol
|
|
def enumValue(self):
|
|
current = self.create_node(UnparserRule(name='enumValue'))
|
|
current += self.unlexer.STRING_LITERAL()
|
|
current += self.unlexer.EQ_SINGLE()
|
|
current += self.unlexer.INTEGER_LITERAL()
|
|
return current
|
|
enumValue.min_depth = 2
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default_rule = queryList
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