module OrigenTesters module IGXLBasedTester class Base class TestInstance attr_accessor :type, :index, :version, :append_version, :finalize, :meta def self.define # Generate accessors for all attributes and their aliases attrs.each do |attr| writer = "#{attr}=".to_sym reader = attr.to_sym attr_reader attr.to_sym unless method_defined? reader attr_writer attr.to_sym unless method_defined? writer end # Define the common aliases now, the instance type specific ones will # be created when the instance type is known self::TEST_INSTANCE_ALIASES.each do |_alias, val| writer = "#{_alias}=".to_sym reader = _alias.to_sym unless val.is_a? Hash unless method_defined? writer define_method("#{_alias}=") do |v| send("#{val}=", v) end end unless method_defined? reader define_method("#{_alias}") do send(val) end end end end end def self.attrs @attrs ||= begin attrs = self::TEST_INSTANCE_ATTRS.dup self::TEST_INSTANCE_EXTRA_ARGS.times do |i| attrs << "arg#{i}" end attrs << 'comment' attrs end end def initialize(name, type, attrs = {}) @type = type @append_version = true self.name = name # Build the type specific accessors (aliases) self.class::TEST_INSTANCE_ALIASES[@type.to_sym].each do |_alias, val| define_singleton_method("#{_alias}=") do |v| send("#{val}=", v) if self.respond_to?("#{val}=", v) end define_singleton_method("#{_alias}") do send(val) if self.respond_to?(val) end end # Set the defaults self.class::TEST_INSTANCE_DEFAULTS[@type.to_sym].each do |k, v| send("#{k}=", v) if self.respond_to?("#{k}=", v) end # Then the values that have been supplied attrs.each do |k, v| send("#{k}=", v) if self.respond_to?("#{k}=", v) end end def inspect "" end def ==(other_instance) self.class == other_instance.class && unversioned_name.to_s == other_instance.unversioned_name.to_s && self.class.attrs.all? do |attr| # Exclude test name, already examined above and don't want to include # the version in the comparison if attr == 'test_name' true else send(attr) == other_instance.send(attr) end end end def self.new_empty(name, attrs = {}) new(name, :empty, attrs) end def self.new_functional(name, attrs = {}) new(name, :functional, attrs) end def self.new_board_pmu(name, attrs = {}) new(name, :board_pmu, attrs) end def self.new_pin_pmu(name, attrs = {}) new(name, :pin_pmu, attrs) end def self.new_apmu_powersupply(name, attrs = {}) new(name, :apmu_powersupply, attrs) end def self.new_powersupply(name, attrs = {}) new(name, :powersupply, attrs) end def self.new_mto_memory(name, attrs = {}) new(name, :mto_memory, attrs) end # Returns the fully formatted test instance for insertion into an instance sheet def to_s(override_name = nil) l = "\t" self.class.attrs.each do |attr| if attr == 'test_name' && override_name l += "#{override_name}\t" else l += "#{send(attr)}\t" end end "#{l}" end def name if version && @append_version "#{@test_name}_v#{version}" else @test_name.to_s end end alias_method :test_name, :name def name=(val) self.test_name = val end def unversioned_name @test_name.to_s end # Set the cpu wait flags for the given test instance # instance.set_wait_flags(:a) # instance.set_wait_flags(:a, :c) def set_wait_flags(*flags) # This method is tester-specific and must be overridden by the child class fail 'The #{self.class} class has not defined a set_wait_flags method!' end # Set and enable the hi limit of a parametric test instance, passing in # nil or false as the lim parameter will disable the hi limit. def set_hi_limit(lim) if lim self.hi_limit = lim end self end alias_method :hi_limit=, :set_hi_limit # Set and enable the hi limit of a parametric test instance, passing in # nil or false as the lim parameter will disable the hi limit. def set_lo_limit(lim) if lim self.lo_limit = lim end self end alias_method :lo_limit=, :set_lo_limit # Set the current range of the test instance, the following are valid: # # Board PMU # * 2uA # * 20uA # * 200uA # * 2mA # * 20mA # * 200mA # * :smart # # Pin PMU # * 200nA # * 2uA # * 20uA # * 200uA # * 2mA # * :auto # * :smart # # Examples # instance.set_irange(:smart) # instance.set_irange(:ua => 2) # instance.set_irange(2.uA) # Same as above # instance.set_irange(:ma => 200) # instance.set_irange(0.2) # Same as above # instance.set_irange(:a => 0.2) # Same as above def set_irange(r = nil, options = {}) r, options = nil, r if r.is_a?(Hash) unless r if r = options.delete(:na) || options.delete(:nA) r = r / 1_000_000_000 elsif r = options.delete(:ua) || options.delete(:uA) r = r / 1_000_000.0 elsif r = options.delete(:ma) || options.delete(:mA) r = r / 1000.0 elsif r = options.delete(:a) || options.delete(:A) else fail "Can't determine requested irange!" end end if @type == :board_pmu if r == :smart self.irange = 6 else self.irange = case when r > 0.02 then 5 when r > 0.002 then 4 when r > 0.0002 then 3 when r > 0.00002 then 2 when r > 0.000002 then 1 else 0 end end elsif @type == :powersupply if r == :smart self.irange = 6 elsif r == :auto self.irange = 5 else self.irange = case when r > 0.25 then 4 # between 250mA - 1A when r > 0.1 then 7 # between 100mA - 250mA when r > 0.01 then 0 # between 10mA - 100mA when r > 0.0005 then 1 # between 500ua - 10mA when r > 0.00005 then 2 # between 50ua - 500u when r > 0.000005 then 3 # between 5u - 50u else 8 end end else # :pin_pmu if r == :smart self.irange = 5 elsif r == :auto fail 'Auto range not available in FIMV mode!' if self.fimv? self.irange = 6 else if fimv? self.irange = case when r > 0.0002 then 2 else 4 end else self.irange = case when r > 0.0002 then 2 when r > 0.00002 then 4 when r > 0.000002 then 0 when r > 0.0000002 then 1 else 3 end end end end self end # Set the voltage range of the test instance, the following are valid: # # Board PMU # * 2V # * 5V # * 10V # * 24V # * :auto # * :smart # # Examples # instance.set_vrange(:auto) # instance.set_vrange(:v => 5) # instance.set_vrange(5) # Same as above def set_vrange(r = nil, options = {}) r, options = nil, r if r.is_a?(Hash) if r == :smart self.vrange = 4 elsif r == :auto self.vrange = 5 elsif !r if r = options.delete(:v) || options.delete(:V) else fail "Can't determine requested vrange!" end end self.vrange = case when r > 10 then 3 when r > 5 then 2 when r > 2 then 1 else 0 end self end # Returns true if instance configured for force current, measure voltage def fimv? measure_mode == 1 end # Returns true if instance configured for force voltage, measure current def fvmi? measure_mode == 0 end end end end end