278 lines
9.1 KiB
Ruby
278 lines
9.1 KiB
Ruby
# License: AGPL-3.0-or-later WITH Web-Template-Output-Additional-Permission-3.0-or-later
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# A module that allows you to construct complex SQL expressions by piecing
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# together methods in ruby.
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#
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# Uses Hamster data structures
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#
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# Goals:
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# - composability and reusability of sql fragments
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# - pretty printing of sql with formatting and color
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require 'hamster'
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require 'colorize'
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class Qexpr
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attr_accessor :tree
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def initialize(h=nil)
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@tree = Hamster::Hash[h]
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end
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def to_s
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self.parse
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end
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# Parse an qexpr object into a sql string expression
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def parse
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expr = ""
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if @tree[:insert]
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expr = "#{@tree[:insert]} #{@tree[:values].blue}"
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expr += "\nRETURNING ".bold.light_blue + (@tree[:returning] || ['id']).join(', ').blue
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return expr
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end
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# Query-based expessions
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expr = @tree[:update] || @tree[:delete_from] || @tree[:select]
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if expr.nil? || expr.empty?
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raise ArgumentError.new("Must have a select, update, or delete clause")
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end
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if @tree[:from]
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expr += "\nFROM".bold.light_blue + @tree[:from].map do |f|
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f.is_a?(String) ? f : " (#{f[:sub_expr].parse}\n) AS #{f[:as]}"
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end.join(', ').blue
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end
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expr += @tree[:joins].join(' ') if @tree[:joins]
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expr += @tree[:where] if @tree[:where]
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expr += @tree[:group_by] if @tree[:group_by]
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expr += @tree[:having] if @tree[:having]
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expr += @tree[:order_by] if @tree[:order_by]
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expr += @tree[:limit] if @tree[:limit]
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expr += @tree[:offset] if @tree[:offset]
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if @tree[:select] && @tree[:as]
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expr = "(#{expr}) AS #{@tree[:as]}"
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end
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if @tree[:update] && @tree[:returning]
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expr += "\nRETURNING ".bold.light_blue + @tree[:returning].join(', ').blue
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end
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return expr
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end
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# insert into table_name the values from every hash inside of arr
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# optionally pass in:
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# no_timestamps: don't set created_at and updated_at
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# common_data: a hash of data to set for all rows
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# returning: what columns to return
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def insert(table_name, arr, options={})
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arr = [arr] if arr.is_a? Hash
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arr = arr.map{|h| h.sort.to_h} # Make sure all key/vals are ordered the same way
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keys = arr.first.keys
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keys = keys.concat(options[:common_data].keys) if options[:common_data]
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keys = keys.map{|k| "\"#{k}\""}.join(', ')
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ts_columns = options[:no_timestamps] ? "" : "created_at, updated_at, "
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ts_values = options[:no_timestamps] ? "" : "#{Qexpr.now}, #{Qexpr.now}, "
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common_vals = options[:common_data] ? options[:common_data].values.map{|v| Qexpr.quote(v)} : []
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vals = arr.map{|h| '(' + ts_values + h.values.map{|v| Qexpr.quote(v)}.concat(common_vals).join(',') + ')'}.join(',')
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Qexpr.new @tree
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.put(:insert, "INSERT INTO".bold.light_blue + " #{table_name} (#{ts_columns} #{keys})".blue)
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.put(:values, "\nVALUES".bold.light_blue + " #{vals}".blue)
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end
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def update(table_name, settings, os={})
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Qexpr.new @tree.put(:update, "UPDATE".bold.light_blue + " #{table_name}".blue + "\nSET".bold.light_blue + " #{settings.map{|key,val| "#{key.to_s}=#{Qexpr.quote(val)}"}.join(', ')}".blue)
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end
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def delete_from(table_name)
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Qexpr.new @tree.put(:delete_from, "DELETE FROM".bold.light_blue + " #{table_name}".blue)
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end
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# Create or append select columns
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def select(*cols)
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if @tree[:select]
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Qexpr.new @tree.put(:select, @tree[:select] + ", #{cols.join(', ')}".blue)
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else
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if cols.count < 4
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cols = " #{cols.join(", ")}"
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else
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cols = "\n #{cols.join("\n, ")}"
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end
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Qexpr.new @tree.put(:select, "\nSELECT".bold.light_blue + "#{cols}".blue)
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end
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end
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def select_distinct(*cols)
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Qexpr.new @tree.put(:select, "\nSELECT DISTINCT".bold.light_blue + "\n #{cols.join("\n, ")}".blue)
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end
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def select_distinct_on(cols_distinct, cols_select)
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Qexpr.new @tree.put(:select, "SELECT DISTINCT ON".bold.light_blue + " (#{Array(cols_distinct).join(', ')})\n #{Array(cols_select).join("\n, ")}".blue)
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end
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def from(expr, as=nil)
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Qexpr.new @tree.put(:from, (@tree[:from] || Hamster::Vector[]).add(Qexpr.from_expr(expr, as)))
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end
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def group_by(*cols)
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Qexpr.new @tree.put(:group_by, "\nGROUP BY".bold.light_blue + " #{cols.join(', ')}".blue)
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end
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def order_by(expr)
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Qexpr.new @tree.put(:order_by, "\nORDER BY".bold.light_blue + " #{expr.to_s}".blue)
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end
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def limit(i)
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Qexpr.new @tree.put(:limit, "\nLIMIT".bold.light_blue + " #{i.to_i}".blue)
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end
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def offset(i)
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Qexpr.new @tree.put(:offset, "\nOFFSET".bold.light_blue + " #{i.to_i}".blue)
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end
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def join(table_name, on_expr, data={})
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on_expr = Qexpr.interpolate_expr(on_expr, data)
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return Qexpr.new @tree
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.put(:joins, (@tree[:joins] || Hamster::Vector[]).add("\nJOIN".bold.light_blue + " #{table_name}\n ".blue + "ON".bold.light_blue + " #{on_expr}".blue))
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end
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def inner_join(table_name, on_expr, data={})
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on_expr = Qexpr.interpolate_expr(on_expr, data)
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return Qexpr.new @tree
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.put(:joins, (@tree[:joins] || Hamster::Vector[]).add("\nINNER JOIN".bold.light_blue + " #{table_name}\n ".blue + "ON".bold.light_blue + " #{on_expr}".blue))
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end
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def left_outer_join(table_name, on_expr, data={})
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on_expr = Qexpr.interpolate_expr(on_expr, data)
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return Qexpr.new @tree
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.put(:joins, (@tree[:joins] || Hamster::Vector[]).add("\nLEFT OUTER JOIN".bold.light_blue + " #{table_name}\n ".blue + "ON".bold.light_blue + " #{on_expr}".blue))
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end
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def join_lateral(join_name, select_statement, success_condition=true, data={})
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select_statement = Qexpr.interpolate_expr(select_statement, data)
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return Qexpr.new @tree
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.put(:joins, (@tree[:joins] || Hamster::Vector[]).add("\n JOIN LATERAL".bold.light_blue + " (#{select_statement})\n #{join_name} ".blue + "ON".bold.light_blue + " #{success_condition}".blue))
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end
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def as(name)
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return Qexpr.new @tree.put(:as, name)
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end
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def where(expr, data={})
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expr = Qexpr.interpolate_expr(expr, data)
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if @tree[:where]
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Qexpr.new @tree.put(:where, @tree[:where] + "\nAND".bold.light_blue + " (#{expr})".blue)
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else
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Qexpr.new @tree.put(:where, "\nWHERE".bold.light_blue + " (#{expr})".blue)
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end
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end
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def returning(*cols)
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Qexpr.new @tree.put(:returning, (@tree[:returning] || Hamster::Vector[]).concat(cols))
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end
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def having(expr, data={})
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if @tree[:having]
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Qexpr.new @tree.put(:having, @tree[:having] + "\nAND".bold.light_blue + " (#{Qexpr.interpolate_expr(expr, data)})".blue)
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else
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Qexpr.new @tree.put(:having, "\nHAVING".bold.light_blue + " (#{Qexpr.interpolate_expr(expr, data)})".blue)
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end
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end
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# Merge a Qexpr tree with another to create one single qexpr expression
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def self.merge_with(qexpr)
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Qexpr.new @tree.merge(qexpr.tree)
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end
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# Remove clauses from the expression
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# eg expr.remove(:from, :where)
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def remove(*keys)
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return Qexpr.new keys.reduce(@tree){|tree, key| tree.delete(key)}
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end
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# Quote a string for use in sql to prevent injection or weird errors
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# Always use this for all values!
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# Just uses double-dollar quoting universally. Should be generally safe and easy.
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# Will return an unquoted value it it's a Fixnum
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def self.quote(val)
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if val.is_a?(Fixnum) || (val.is_a?(String) && val =~ /^\$Q\$.+\$Q\$$/) # is a valid num or already quoted
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val
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elsif val == nil
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"NULL"
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elsif !!val == val # is a boolean
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val ? "'t'" : "'f'"
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else
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return "$Q$" + val.to_s + "$Q$"
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end
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end
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# An alias of PG.quote_ident, for convenience sake
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# Double-quotes sql identifiers
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def self.quote_ident(str)
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str.split('.').map{|s| "\"#{s}\""}.join('.')
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end
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# sql-quoted datetime value useful for created_at and updated_at columns
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def self.now
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Qexpr.quote(Time.current)
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end
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# Given a max page length and the current page,
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# return the offset value
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# (eg: page_length=30 and page=3, then return 60)
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def self.page_offset(page_length, page=1)
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page = page.to_i
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page = 1 if page <= 0
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Qexpr.quote((page.to_i - 1) * page_length.to_i)
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end
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# Given the total row count, the max page length, and the current page,
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# return the total results left
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def self.remaining_count(total_count, page_length, current_page=1)
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return 0 unless current_page
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rem = total_count.to_i - (current_page.to_i) * page_length.to_i
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rem = 0 if rem < 0
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return rem
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end
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# Given a string sql expression with interpolations like "WHERE id > ${id}"
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# and given a hash of key/vals.
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# interpolate the hash data into the expression
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def self.interpolate_expr(expr, data)
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expr.gsub(/\$\w+/) do |match|
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val = data[match.gsub(/[ \$]*/, '').to_sym]
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if val.is_a?(Array) || val.is_a?(Hamster::Vector)
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val.to_a.map{|x| Qexpr.quote(x)}.join(', ')
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else
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Qexpr.quote val
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end
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end
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end
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private
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# Given some kind of expr object (might be just a string or another whole Qexpr expr), and an 'as' value
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# then give back either a hash for the sub-Qexpr expression, or just a string.
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# #parse will deal with the from string/hash
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def self.from_expr(expr, as)
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if expr.is_a?(Qexpr)
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Hamster::Hash[sub_expr: expr, as: as]
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else
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" #{expr} #{as ? "AS #{as.to_s}" : ""}"
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end
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end
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end
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