def sqlf(self, compact): lines = [TB('ARRAY_AGG(')] if self.is_distinct: lines.append(TB('DISTINCT ')) lines.append(self.expr.sqlf(True)) if self.nulls: lines.append(TB(self.nulls) + ' NULLS') if self.order_limit_offset: lines.append(self.order_limit_offset.sqlf(True)) if self.analytic: lines.append(self.analytic.sqlf(True)) lines.append(TB(')')) compact_sql = LB(lines) if compact: return compact_sql stack = [TB('ARRAY_AGG(')] indent = [] if self.is_distinct: indent.append(LB([TB('DISTINCT '), self.expr.sqlf(compact)])) else: indent.append(self.expr.sqlf(compact)) if self.nulls: indent.append(TB(self.nulls) + ' NULLS') if self.order_limit_offset: indent.append(self.order_limit_offset.sqlf(compact)) if self.analytic: indent.append(self.analytic.sqlf(compact)) stack.append(IB(SB(indent))) stack.append(TB(')')) return CB([compact_sql, SB(stack)])
def sqlf(self, compact): lines = [] if self.order: lines.append(TB(' ORDER BY ')) lines.append(LB(with_commas(compact, self.order))) if self.limit: lines.append(TB(' LIMIT ')) lines.append(TB(str(self.limit))) if self.offset: lines.append(TB(' OFFSET ')) lines.append(TB(str(self.offset))) compact_sql = LB(lines) if compact: return compact_sql stack = [] if self.order: stack.append(TB(' ORDER BY')) stack.append(IB(WB(with_commas(compact, self.order)))) if self.limit: stack.append(TB(' LIMIT')) stack.append(IB(TB(str(self.limit)))) if self.offset: stack.append(TB(' OFFSET')) stack.append(IB(TB(str(self.offset)))) return CB([compact_sql, SB(stack)])
def sqlf(self, compact): compact_sql = LB([TB('['), LB(with_commas(True, self.args)), TB(']')]) if compact: return compact_sql return CB([ compact_sql, LB([TB('['), WB(with_commas(compact, self.args, tail=']'))]), ])
def sqlf(self, compact): compact_sql = LB([TB('(')] + with_commas(True, self.exprs, tail=')')) if compact: return compact_sql return CB([ compact_sql, SB([ TB('('), WB(with_commas(False, self.exprs, tail=')')), ]) ])
def sqlf(self, compact): compact_sql = LB([TB('ARRAY('), self.query.sqlf(True), TB(')')]) if compact: return compact_sql return CB([ compact_sql, SB([TB('ARRAY('), IB(self.query.sqlf(compact)), TB(')')]) ])
def sqlf(self, compact): compact_sql = LB([TB(key), TB('='), TB(self.val.sqlf(True))]) if compact: return compact_sql return CB([ compact_sql, SB([ LB([TB(key), TB(' =')]), IB(self.val.sqlf(False)), ]) ])
def sqlf(self, compact): select_clause = [TB('SELECT')] if self.select_as_type: select_clause.append(TB(' AS ' + self.select_as_type)) if self.select_type: select_clause.append(TB(' ' + self.select_type)) lines = [] lines.append(LB(select_clause)) lines.append(TB(' ')) lines.append(LB(with_commas(True, self.fields))) if self.from_tables: lines.append(TB(' FROM ')) lines.append(self.from_tables.sqlf(True)) if self.where_expr: lines.append(TB(' WHERE ')) lines.append(self.where_expr.sqlf(True)) if self.groups: lines.append(TB(' GROUP BY ')) lines.append(LB(with_commas(True, self.groups))) if self.having_expr: lines.append(TB(' HAVING ')) lines.append(self.having_expr.sqlf(True)) if self.qualify_expr: lines.append(TB(' QUALIFY ')) lines.append(self.qualify_expr.sqlf(True)) compact_sql = LB(lines) if compact: return compact_sql stack = comments_sqlf(self.comments) stack.append(LB(select_clause)) stack.append(IB(SB(with_commas(compact, self.fields)))) if self.from_tables: stack.append(TB('FROM')) stack.append(IB(self.from_tables.sqlf(compact))) if self.where_expr: stack.append(TB('WHERE')) stack.append(IB(self.where_expr.sqlf(compact))) if self.groups: stack.append(TB('GROUP BY')) stack.append(IB(WB(with_commas(compact, self.groups)))) if self.having_expr: stack.append(TB('HAVING')) stack.append(IB(self.having_expr.sqlf(compact))) if self.qualify_expr: stack.append(TB('QUALIFY')) stack.append(IB(self.qualify_expr.sqlf(compact))) return CB([compact_sql, SB(stack)])
def sqlf(self, compact): # TODO(scannell) Wrap in braces if it's not a SQLSelect type compact_sql = LB([self.query.sqlf(True), self.ordering.sqlf(True)]) if compact: return compact_sql return CB([ compact_sql, SB([ self.query.sqlf(compact), self.ordering.sqlf(compact), ]) ])
def sqlf(self, compact): compact_sqlf = LB([ self.function.sqlf(compact), TB(' '), self.analytic.sqlf(compact) ]) if compact: return compact_sqlf return CB([ compact_sqlf, SB([self.function.sqlf(compact), self.analytic.sqlf(compact)]) ])
def sqlf(self, compact): sql_op = TB(' ' + self.sql_op + ' (') compact_sql = LB([self.expr.sqlf(True), sql_op] + [self.sql.sqlf(True), TB(')')]) if compact: return compact_sql return CB([ compact_sql, SB([ LB([self.expr.sqlf(False), sql_op]), IB(self.sql.sqlf(True)), TB(')') ]), ])
def sqlf(self): lines = [TB('OPTIONS(')] lines.extend(with_commas(True, self.options)) lines.append(TB(')')) if compact: return LB(lines) stack = [TB('OPTIONS(')] stack.extend(IB(WB(with_commas(False, self.options)))) stack.append(TB(')')) return CB([ LB(lines), SB(stack), ])
def sqlf(self, compact): name = LB([x.sqlf(True) for x in self.names]) compact_sql = LB([name, TB('(')] + with_commas(True, self.args) + [TB(')')]) if compact: return compact_sql if not self.args: return compact_sql return CB([ compact_sql, LB([ LB([name, TB('(')]), WB(with_commas(False, self.args)), TB(')') ]) ])
def sqlf(self, compact): comments_sql = comments_sqlf(self.comments) compact_sql = self.expr.sqlf(True) if self.alias: compact_sql = LB([compact_sql, TB(' '), self.alias.sqlf(True)]) if comments_sql: compact_sql = SB(comments_sql + [compact_sql]) if compact: return compact_sql full_sql = self.expr.sqlf(False) if self.alias: full_sql = SB(comments_sql + [full_sql, IB(self.alias.sqlf(True))]) elif comments_sql: full_sql = SB(comments_sql + [full_sql]) return CB([compact_sql, full_sql])
def sqlf(self, compact): join_type = TB(self.join_type + ' JOIN ') if self.join_expr is None: return LB([join_type, self.table.sqlf(compact)]) compact_sql = LB([ join_type, self.table.sqlf(True), TB(' ON '), self.join_expr.sqlf(True) ]) if compact: return compact_sql return CB([ compact_sql, SB([ LB([join_type, self.table.sqlf(False), TB(' ON')]), IB(self.join_expr.sqlf(False)) ]) ])
def sqlf(self, compact): in_vals = [] for arg in self.args[:-1]: in_vals.append(LB([arg.sqlf(True), TB(',')])) in_vals.append(self.args[-1].sqlf(True)) sql_op = TB(' ' + self.sql_op + ' (') compact_sql = LB([self.iexpr.sqlf(True), sql_op] + in_vals + [TB(')')]) if compact: return compact_sql # TODO(scannell): Bug with separator - incorrect usage return CB([ compact_sql, SB([ LB([self.iexpr.sqlf(False), sql_op]), IB(WB(in_vals, sep=' ')), TB(')') ]), ])
def sqlf(self, compact): right_expr_compact = self.right.sqlf(True) left_expr_compact = self.left.sqlf(True) compact_sql = LB([ left_expr_compact, TB(' '), TB(self.sql_op), TB(' '), right_expr_compact ]) if compact: return compact_sql right_expr = self.right.sqlf(False) left_expr = self.left.sqlf(False) return CB([ compact_sql, SB([ LB([left_expr, TB(' '), TB(self.sql_op)]), right_expr ]) ])
def sqlf(self, compact): lines = [TB(self.name), TB(' '), self.col_type.sqlf(True)] if not self.nullable: lines.append(TB(' NOT NULL')) if self.opts: lines.append(TB(' ')) lines.append(self.opts.sqlf(True)) if compact: return LB(lines) # Indented block for non-compact iblock = [self.col_type.sqlf(False)] if not self.nullable: iblock.append(TB('NOT NULL')) if self.opts: iblock.append(self.opts.sqlf(False)) return CB([LB(lines), SB([ TB(self.name), IB(SB(iblock)), ])])
def sqlf(self, compact): lines = [] lines.append(TB('OVER (')) if self.partition_by: lines.append(TB('PARTITION BY ')) lines.extend(with_commas(True, self.partition_by, ' ')) if self.order_by: lines.append(TB('ORDER BY ')) lines.extend(with_commas(True, self.order_by, ' ')) if self.range_desc: lines.append(TB(self.range_desc)) lines.append(TB(')')) if compact: return LB(lines) full_sql = [ TB('OVER ('), ] if self.partition_by: full_sql.append( IB( SB([ TB('PARTITION BY'), IB(WB(with_commas(True, self.partition_by))) ]))) if self.order_by: full_sql.append( IB( SB([ TB('ORDER BY'), IB(WB(with_commas(True, self.order_by))) ]))) if self.range_desc: full_sql.append(IB(TB(self.range_desc))) full_sql.append(TB(')')) r = CB([LB(lines), SB(full_sql)]) return r
def sqlf(self, compact): lines = [TB(self.clause), TB(' ')] lines.append(self.table.sqlf(True)) if self.columns: lines.append(TB(' (')) lines.extend(with_commas(True, self.columns)) lines.append(TB(')')) if self.options: lines.append(TB(' ')) lines.append(self.options.sqlf(True)) if self.query: lines.append(TB(' AS ')) lines.append(self.query.sqlf(True)) if compact: return LB(lines) stack = [LB([TB(self.clause), TB(' '), self.table.sqlf(True)])] if self.columns: stack.extend([ TB('('), IB(WB(with_commas(False, self.columns), )), TB(')'), ]) if self.options: stack.append(self.options.sqlf(False)) if self.query: stack.extend([ TB('AS'), self.query.sqlf(False), ]) return CB([ LB(lines), SB(stack), ])
def sqlf(self, compact): big_block = [] small_block = [] for if_then in zip(self.args[0::2], self.args[1::2]): if_expr = if_then[0].sqlf(False) if_expr_compact = if_then[0].sqlf(True) then_expr = if_then[1].sqlf(False) then_expr_compact = if_then[1].sqlf(True) # Most compact form - one line small_block.append( LB([ TB(' WHEN '), if_expr_compact, TB(' THEN '), then_expr_compact ])) # Choice big_block.append( CB([ SB([ TB('WHEN'), IB(if_expr), TB('THEN'), IB(then_expr) ]), SB([ LB([TB('WHEN '), if_expr_compact, TB(' THEN')]), IB(then_expr) ]) ]) ) if self.else_expr: else_expr_compact = LB([TB(' ELSE '), self.else_expr.sqlf(True)]) small_block.append(else_expr_compact) else_expr_norm = self.else_expr.sqlf(False) big_block.append( CB([ SB([TB('ELSE '), IB(else_expr_norm)]), else_expr_compact ]) ) case_block = TB('CASE ') case_block_compact = TB('CASE') if self.base_expr: case_block_compact = LB([ TB('CASE '), self.base_expr.sqlf(True) ]) case_block = LB([ TB('CASE '), self.base_expr.sqlf(False), TB(' ') ]) compact_sql = LB([case_block_compact] + small_block + [TB(' END')]) if compact: return compact_sql return CB([ compact_sql, SB([case_block, IB(SB(big_block)), TB('END')]) ])