Dir.glob("#{File.dirname(__FILE__)}/charz/**/*.rb").sort.each do |file| require file end module OrigenTesters module Charz # @!attribute charz_stack # @return [Array] FILO queue of charz session defining data # @!attribute charz_routines # @return [Hash] user defined charz routines # @!attribute charz_profiles # @return [Hash] user defined charz profiles # @!attribute charz_session # @return [Session] current charz session, based on data in the top of the charz_stack # @!attribute eof_charz_tests # @return [Array] charz tests to be added at the end of the flow # @!attribute skip_group_eof_charz_tests # @return [Boolean] whether or not to wrap eof charz tests in a group # @!attribute eof_charz_tests_group_name # @return [String, Symbol] group name to be used to for eof charz tests attr_accessor :charz_stack, :charz_routines, :charz_profiles, :charz_session, :eof_charz_tests, :skip_group_eof_charz_tests, :eof_charz_tests_group_name def charz_stack @charz_stack ||= [] end def charz_profiles @charz_profiles ||= {} end def charz_routines @charz_routines ||= {} end def charz_session @charz_session ||= Session.new end def eof_charz_tests @eof_charz_tests ||= [] end # Add a new charz routine to @charz_routines # A charz routine is a object that contains all the necessary info specific to a characterization test # Its intended to be used in combination with an existing point test (regular non charz test) to create # a characterization version of the point test # # To use your own Routine classes, override the create_charz_routine method in your interface # # @example create a 1d search routine that searches vdd, from 900mv to 300mv, resolution of 5mv # add_charz_routine :my_routine, type: search do |rt| # rt.start = 900.mv # rt.stop = 300.mv # rt.res = 5.mv # rt.spec = 'vdd' # end # # @param [Symbol] id charz_routine id, will be the key value in the @charz_routines hash. Must not have been previously used # @param [Hash] options charz_routine options # @option options [Symbol] :type :search or :'1d' will create a SearchRoutine, :shmoo or :'2d' will create a ShmooRoutine, nil will create a Routine def add_charz_routine(id, options = {}, &block) if charz_routines.ids.include?(id) Origen.log.error("Cannot create charz routine '#{id}', it already exists!") fail end charz_routines[id] = create_charz_routine(id, options, &block) end # Called by add_charz_routine, split out from that method to make it easier to override this handler from a user's interface # This is the method to override if you want to use custom Routines specifc to your company's implementation # # @param [Symbol] id charz_routine id, will be the key value in the @charz_routines hash. Must not have been previously used # @param [Hash] options charz_routine options # @option options [Symbol] :type :search or :'1d' will create a SearchRoutine, :shmoo or :'2d' will create a ShmooRoutine, nil will create a Routine # @return [Routine] a charz routine object def create_charz_routine(id, options = {}, &block) case options[:type] when :search, :'1d' SearchRoutine.new(id, options, &block) when :shmoo, :'2d' ShmooRoutine.new(id, options, &block) else Routine.new(id, options, &block) end end # Add a new charz profile to @charz_profiles # A charz profile is a collection of one or more charz routines, as well as flow control and placement data for # the charz tests generated by those routines # # @example create a profile containing 2 routines, end of flow placement, whose tests are only ran if the parent fails # add_charz_profile :my_profile do |prof| # prof.routines = [:my_routine1, :my_routine2] # prof.placement = :eof # prof.on_result = :on_fail # end # # @param [Symbol] id charz_profile id, will be the key value in the @charz_profiles hash. Must not have been previously used # @param [Hash] options charz_profile options def add_charz_profile(id, options = {}, &block) if charz_profiles.ids.include?(id) Origen.log.error("Cannot create charz profile '#{id}', it already exists!") fail end charz_profiles[id] = Profile.new(id, options.merge(defined_routines: charz_routines.ids), &block) end # Queries the current charz session to see if its active, indicating point tests should be generating charz tests def charz_active? charz_session.active end # Queries the current charz session to see if point tests should skip generation, only adding the resulting charz test def charz_only? charz_active? && charz_session.charz_only end # Pauses the current charz session, preventing point tests from generating charz tests even if the session is valid def charz_pause charz_session.pause end # Resumes the current charz session. If the session isn't valid (ie charz_resume before setting up the session) then nothing will happen def charz_resume charz_session.resume end # Removes the current session generating data off the charz stack # If charz data is still on the stack afterward, the session will update to reflect the new data # if not, the session will become inactive def charz_off charz_stack.pop if charz_stack.empty? update_charz_session(nil) else update_charz_session(*charz_stack.last) end end # Pushes a charz object (either a profile or a routine) onto the stack, along with any optional updates to modify the current session # Once pushed, the charz_session will attempt to update itself with the new data, failing if the resulting session is invalid # # If a block is passed, yield the block of tests to enable charz for those tests, then disable charz with a charz_off call # # @param [Symbol] charz_id either a routine or profile id. Method fails if the id can't be found in @charz_routines or @charz_profiles # @param [Hash] options charz_on options # @option options [Symbol] :type (:profile) whether the charz_id refers to a charz profile or routine def charz_on(charz_id, options = {}) options = { type: :profile }.merge(options) case options[:type] when :profile charz_obj = charz_profiles[charz_id] when :routine if charz_id.is_a?(Array) charz_obj = charz_routines[charz_id.first] options[:routines] = charz_id else charz_obj = charz_routines[charz_id] options[:routines] = [charz_id] end else Origen.log.error "Unknown charz object type #{options[:type]}, valid types: :profile, :routine" fail end if charz_obj.nil? Origen.log.error "No #{options[:type]} found for charz_id: #{charz_id}" fail end charz_stack.push([charz_obj, options]) unless update_charz_session(*charz_stack.last) Origen.log.error 'charz_on failed to create a valid charz session' fail end if block_given? yield charz_off end end # An optional helper method to automatically assign an id to tests that will be generating charz tests that depend on the result of the parent test # @param [Hash] options the options for a test before its created and added to the flow # @param [TestInstance, #name] instance the test instance whose name is stored in .name, alternatively pass the name in the options hash under :parent_test_name def set_conditional_charz_id(*args) case args.size when 1 options = args[0] parent_test_name = options[:parent_test_name] when 2 instance = args[0] options = args[1] parent_test_name = instance.name else Origen.log.error 'Too many arguments passed to set_conditional_charz_id. Pass either (test_instance, options), or just (options)' fail end unless options[:id] if charz_active? if charz_session.on_result options[:id] = "#{parent_test_name}_charz_#{charz_session.name}".to_sym end end end end # Called after the relevant point test has been inserted into the flow # Takes the options used to build the previous point test as well as insert_charz_test specific options to then # drill down to the point of the flow where the charz test would go, at which point control is handed back to the user's # interface to handle creating and inserting the test # # By default, this method will handle: # - the placement of the test (inline aka right after the point test, end of flow, or other) # - wrapping the created charz tests in a group (skippable, group name defaults to charz ) # - conditionally executing the charz tests based on if the point test passed or failed (see set_conditional_charz_id) # - conditionally executing some/all charz tests based on a mix of enables and flags # # After the above is determined, the user regains control on a per-routine (if multiple routines) basis to then process generating the charz test def insert_charz_tests(options, &block) if charz_active? if options[:id] # two purposes: # 1) prevent all charz tests inadverntently using the same ID as their parent # 2) used in on_result behavior current_id = options.delete(:id) options[:last_test_id] ||= current_id end case charz_session.placement when :inline create_charz_group(options, &block) when :eof # collect the current session and options into a proc, stored in eof_charz_tests to be called later current_session = charz_session.clone eof_charz_tests << proc do @charz_session = current_session create_charz_group(options, &block) end else # inline is the default behavior, and eof (end of flow) has built in support. if respond_to?(:"create_#{charz_session.placement}_charz_tests") send(:"create_#{charz_session.placement}_charz_tests", options, &block) elsif respond_to?(:"insert_#{charz_session.placement}_charz_tests") send(:"insert_#{charz_session.placement}_charz_tests", options, &block) else Origen.log.error "No handling specified for #{charz_session.placement} placement charz tests" fail end end end end # called automatically right after a top_level shutdown, generates end of flow charz tests # user should not have to reference this call explicitly def generate_eof_charz_tests unless eof_charz_tests.empty? if skip_group_eof_charz_tests eof_charz_tests.map(&:call) else group_name = eof_charz_tests_group_name || 'End of Flow Charz Tests' group group_name do eof_charz_tests.map(&:call) end end end end private # called by charz_on, updates the current session, and passes the available routines in for validity checks def update_charz_session(charz_obj, options = {}) charz_session.update(charz_obj, options.merge(defined_routines: charz_routines.ids)) end # called by insert_charz_tests # # if insert_charz_tests was called with the skip group option, then skip to processing the sessions on_result functionality # otherwise, on_result processing occurs within the created group # # group name defaults to charz , but can be set by the user by passing :group_name in the options def create_charz_group(options, &block) if options[:skip_group] process_on_result(options, &block) else group_name = options[:group_name] || "#{options[:parent_test_name]} charz #{charz_session.name}" group group_name.to_sym do process_on_result(options, &block) end end end # called by create_charz_group # # Handles the case where the session indicates these charz tests' execution depend on the point test's result # Requires that the id of the point test has been passed to use this functionality. Otherwise, make sure that # charz_session.on_result == nil # # on_fail and on_pass results are built-in, but if the user has a different check to make, it can be handled # by defining the method process__charz_tests # # @see set_conditional_charz_id def process_on_result(options, &block) if charz_session.on_result case charz_session.on_result when :on_fail, :fail, :failed last_test_id = options[:last_test_id] || @last_test_id if_failed last_test_id do process_gates(options, &block) end when :on_pass, :pass, :passed last_test_id = options[:last_test_id] || @last_test_id if_passed last_test_id do process_gates(options, &block) end else if respond_to?(:"process_#{charz_session.placement}_charz_tests") send(:"process_#{charz_session.on_result}_charz_tests", options, &block) else Origen.log.error "No handling specified for result #{charz_session.on_result} charz tests" fail end end else process_gates(options, &block) end end # called by process_on_result # # Handles the case where charz_session.enables or charz_session.flags have been set # referring to enables and flags both as gates, gates can wrap all routines in a session if they're in the form of an # array, symbol, or a string (think of the normal use case of if_enable or if_flag) # # If the gate is a Hash, then that means different routines are getting different gate wrappers. # Also if a routine is not indicated in the values of the gate, then that means that routine should not be gated at all # # This is the final method of handling the insert_charz_test usecases, where the block thats been passed around is finally called # the user's provided block is passed the current routine (one at a time) to then take its info to generate a charz test # Pass an "and_if_true" variable for enables and flags? And use that to to decide what to do? Then we don't need 4. # But the hash has to be structured a different way for the enable_and (routine is key, enables is value.) def process_gates(options, &block) if options[:skip_gates] || !(charz_session.enables || charz_session.flags) charz_session.routines.each do |routine| block.call(options.merge(current_routine: routine)) end else if charz_session.and_enables if charz_session.flags # Wrap all tests in flag, wrap some tests in anded enables. ungated_routines = charz_session.routines - charz_session.enables.keys ungated_routines.each do |routine| if_flag charz_session.flags do block.call(options.merge(current_routine: routine)) end end gated_routines = charz_session.routines - ungated_routines # Build the proc which contains the nested if statements for each routine so they are anded. gated_routines.each do |routine| my_proc = -> do if_flag charz_session.flags do block.call(options.merge(current_routine: routine)) end end charz_session.enables[routine].inject(my_proc) do |my_block, enable| lambda do if_enable :"#{enable}" do my_block.call end end end.call end else ungated_routines = charz_session.routines - charz_session.enables.keys ungated_routines.each do |routine| block.call(options.merge(current_routine: routine)) end # Build the proc which contains the nested if statements for each routine so they are anded. gated_routines = charz_session.routines - ungated_routines gated_routines.each do |routine| my_proc = -> { block.call(options.merge(current_routine: routine)) } charz_session.enables[routine].inject(my_proc) do |my_block, enable| lambda do if_enable :"#{enable}" do my_block.call end end end.call end end elsif charz_session.and_flags if charz_session.enables # Wrap all tests in enable, some tests in anded flags. ungated_routines = charz_session.routines - charz_session.flags.keys ungated_routines.each do |routine| if_enable charz_session.enables do block.call(options.merge(current_routine: routine)) end end # Build the proc which contains the nested if statemements for each routine so they are anded. gated_routines = charz_session.routines - ungated_routines gated_routines.each do |routine| my_proc = -> do if_enable charz_session.enables do block.call(options.merge(current_routine: routine)) end end charz_session.flags[routine].inject(my_proc) do |my_block, flag| lambda do if_flag :"#{flag}" do my_block.call end end end.call end else ungated_routines = charz_session.routines - charz_session.flags.keys ungated_routines.each do |routine| block.call(options.merge(current_routine: routine)) end # Build the proc which contains the nested if statemements for each routine so they are anded. gated_routines = charz_session.routines - ungated_routines gated_routines.each do |routine| my_proc = -> { block.call(options.merge(current_routine: routine)) } charz_session.flags[routine].inject(my_proc) do |my_block, flag| lambda do if_flag :"#{flag}" do my_block.call end end end.call end end elsif charz_session.enables && charz_session.flags if charz_session.enables.is_a?(Hash) && !charz_session.flags.is_a?(Hash) # wrap all tests in flags, wrap specific tests in enables if_flag charz_session.flags do insert_hash_gates(options, charz_session.enables, :if_enable, &block) end elsif !charz_session.enables.is_a?(Hash) && charz_session.flags.is_a?(Hash) # wrap all tests in enables, wrap specific tests in flags if_enable charz_session.enables do insert_hash_gates(options, charz_session.flags, :if_flag, &block) end elsif charz_session.enables.is_a?(Hash) && charz_session.flags.is_a?(Hash) # first insert the tests that are not tied to an enable or flag gate ungated_routines = charz_session.routines - (charz_session.enables.values.flatten | charz_session.flags.values.flatten) ungated_routines.each do |routine| block.call(options.merge(current_routine: routine)) end # wrap tests in an enable gate, flag gate, or both gated_routines = charz_session.routines - ungated_routines gated_routines.each do |routine| enable = charz_session.enables.find { |gates, routines| routines.include?(routine) }&.first flag = charz_session.flags.find { |gates, routines| routines.include?(routine) }&.first if enable && flag if_enable enable do if_flag flag do # wrap test in both enable and flag gate block.call(options.merge(current_routine: routine)) end end elsif enable if_enable enable do # enable only block.call(options.merge(current_routine: routine)) end elsif flag if_flag flag do # flag only block.call(options.merge(current_routine: routine)) end end end else # both enable and flag is set, and both apply to all routines in session if_enable charz_session.enables do if_flag charz_session.flags do charz_session.routines.each do |routine| block.call(options.merge(current_routine: routine)) end end end end else # only enables or flags is set, not both if charz_session.enables gates = charz_session.enables gate_method = :if_enable elsif charz_session.flags gates = charz_session.flags gate_method = :if_flag end if gates.is_a?(Hash) # wrap some tests in specific gates insert_hash_gates(options, gates, gate_method, &block) else # wrap all tests in the indicated gates send(gate_method, gates) do charz_session.routines.each do |routine| block.call(options.merge(current_routine: routine)) end end end end end end # helper method for the process gates method above # handles wrapping routines in specific gates, and passing ungated routines back to the user def insert_hash_gates(options, gate_hash, gate_method, &block) ungated_routines = charz_session.routines - gate_hash.values.flatten ungated_routines.each do |routine| block.call(options.merge(current_routine: routine)) end gate_hash.each do |gate, gated_routines| send(gate_method, gate) do gated_routines.each do |routine| block.call(options.merge(current_routine: routine)) end end end end end end