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array.rbs
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basic_object.rbs
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binding.rbs
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class.rbs
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comparable.rbs
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complex.rbs
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constants.rbs
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data.rbs
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dir.rbs
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encoding.rbs
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enumerable.rbs
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enumerator.rbs
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env.rbs
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errno.rbs
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errors.rbs
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exception.rbs
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false_class.rbs
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fiber.rbs
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fiber_error.rbs
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file.rbs
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file_test.rbs
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float.rbs
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gc.rbs
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global_variables.rbs
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hash.rbs
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integer.rbs
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io.rbs
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kernel.rbs
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marshal.rbs
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match_data.rbs
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math.rbs
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numeric.rbs
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object.rbs
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object_space.rbs
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proc.rbs
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process.rbs
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random.rbs
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range.rbs
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rational.rbs
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rb_config.rbs
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refinement.rbs
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regexp.rbs
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ruby_vm.rbs
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set.rbs
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signal.rbs
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string.rbs
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struct.rbs
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symbol.rbs
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thread.rbs
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thread_group.rbs
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time.rbs
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trace_point.rbs
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true_class.rbs
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unbound_method.rbs
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warning.rbs
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# <!-- rdoc-file=gc.rb --> # The GC module provides an interface to Ruby's mark and sweep garbage # collection mechanism. # # Some of the underlying methods are also available via the ObjectSpace module. # # You may obtain information about the operation of the GC through GC::Profiler. # module GC # <!-- # rdoc-file=gc.rb # - GC.count -> Integer # --> # The number of times GC occurred. # # It returns the number of times GC occurred since the process started. # def self.count: () -> Integer # <!-- # rdoc-file=gc.rb # - GC.disable -> true or false # --> # Disables garbage collection, returning `true` if garbage collection was # already disabled. # # GC.disable #=> false # GC.disable #=> true # def self.disable: () -> bool # <!-- # rdoc-file=gc.rb # - GC.enable -> true or false # --> # Enables garbage collection, returning `true` if garbage collection was # previously disabled. # # GC.disable #=> false # GC.enable #=> true # GC.enable #=> false # def self.enable: () -> bool # <!-- # rdoc-file=gc.rb # - start(full_mark: true, immediate_mark: true, immediate_sweep: true) # --> # Initiates garbage collection, even if manually disabled. # # The `full_mark` keyword argument determines whether or not to perform a major # garbage collection cycle. When set to `true`, a major garbage collection cycle # is ran, meaning all objects are marked. When set to `false`, a minor garbage # collection cycle is ran, meaning only young objects are marked. # # The `immediate_mark` keyword argument determines whether or not to perform # incremental marking. When set to `true`, marking is completed during the call # to this method. When set to `false`, marking is performed in steps that is # interleaved with future Ruby code execution, so marking might not be completed # during this method call. Note that if `full_mark` is `false` then marking will # always be immediate, regardless of the value of `immediate_mark`. # # The `immedate_sweep` keyword argument determines whether or not to defer # sweeping (using lazy sweep). When set to `true`, sweeping is performed in # steps that is interleaved with future Ruby code execution, so sweeping might # not be completed during this method call. When set to `false`, sweeping is # completed during the call to this method. # # Note: These keyword arguments are implementation and version dependent. They # are not guaranteed to be future-compatible, and may be ignored if the # underlying implementation does not support them. # def self.start: (?immediate_sweep: boolish immediate_sweep, ?immediate_mark: boolish immediate_mark, ?full_mark: boolish full_mark) -> nil # <!-- # rdoc-file=gc.rb # - GC.stat -> Hash # - GC.stat(hash) -> Hash # - GC.stat(:key) -> Numeric # --> # Returns a Hash containing information about the GC. # # The contents of the hash are implementation specific and may change in the # future without notice. # # The hash includes information about internal statistics about GC such as: # # count # : The total number of garbage collections ran since application start (count # includes both minor and major garbage collections) # time # : The total time spent in garbage collections (in milliseconds) # heap_allocated_pages # : The total number of `:heap_eden_pages` + `:heap_tomb_pages` # heap_sorted_length # : The number of pages that can fit into the buffer that holds references to # all pages # heap_allocatable_pages # : The total number of pages the application could allocate without # additional GC # heap_available_slots # : The total number of slots in all `:heap_allocated_pages` # heap_live_slots # : The total number of slots which contain live objects # heap_free_slots # : The total number of slots which do not contain live objects # heap_final_slots # : The total number of slots with pending finalizers to be run # heap_marked_slots # : The total number of objects marked in the last GC # heap_eden_pages # : The total number of pages which contain at least one live slot # heap_tomb_pages # : The total number of pages which do not contain any live slots # total_allocated_pages # : The cumulative number of pages allocated since application start # total_freed_pages # : The cumulative number of pages freed since application start # total_allocated_objects # : The cumulative number of objects allocated since application start # total_freed_objects # : The cumulative number of objects freed since application start # malloc_increase_bytes # : Amount of memory allocated on the heap for objects. Decreased by any GC # malloc_increase_bytes_limit # : When `:malloc_increase_bytes` crosses this limit, GC is triggered # minor_gc_count # : The total number of minor garbage collections run since process start # major_gc_count # : The total number of major garbage collections run since process start # compact_count # : The total number of compactions run since process start # read_barrier_faults # : The total number of times the read barrier was triggered during compaction # total_moved_objects # : The total number of objects compaction has moved # remembered_wb_unprotected_objects # : The total number of objects without write barriers # remembered_wb_unprotected_objects_limit # : When `:remembered_wb_unprotected_objects` crosses this limit, major GC is # triggered # old_objects # : Number of live, old objects which have survived at least 3 garbage # collections # old_objects_limit # : When `:old_objects` crosses this limit, major GC is triggered # oldmalloc_increase_bytes # : Amount of memory allocated on the heap for objects. Decreased by major GC # oldmalloc_increase_bytes_limit # : When `:old_malloc_increase_bytes` crosses this limit, major GC is # triggered # # # If the optional argument, hash, is given, it is overwritten and returned. This # is intended to avoid probe effect. # # This method is only expected to work on CRuby. # def self.stat: (?::Hash[Symbol, Integer] arg0) -> ::Hash[Symbol, Integer] | (?Symbol arg0) -> Integer # <!-- # rdoc-file=gc.rb # - GC.stress -> integer, true or false # --> # Returns current status of GC stress mode. # def self.stress: () -> (Integer | TrueClass | FalseClass) # <!-- # rdoc-file=gc.rb # - GC.stress = flag -> flag # --> # Updates the GC stress mode. # # When stress mode is enabled, the GC is invoked at every GC opportunity: all # memory and object allocations. # # Enabling stress mode will degrade performance, it is only for debugging. # # flag can be true, false, or an integer bit-ORed following flags. # 0x01:: no major GC # 0x02:: no immediate sweep # 0x04:: full mark after malloc/calloc/realloc # def self.stress=: (Integer | TrueClass | FalseClass flag) -> (Integer | TrueClass | FalseClass) # <!-- # rdoc-file=gc.rb # - GC.total_time -> int # --> # Return measured GC total time in nano seconds. # def self.total_time: () -> Integer # <!-- # rdoc-file=gc.c # - GC.compact # --> # This function compacts objects together in Ruby's heap. It eliminates unused # space (or fragmentation) in the heap by moving objects in to that unused # space. This function returns a hash which contains statistics about which # objects were moved. See `GC.latest_gc_info` for details about compaction # statistics. # # This method is implementation specific and not expected to be implemented in # any implementation besides MRI. # # To test whether GC compaction is supported, use the idiom: # # GC.respond_to?(:compact) # def self.compact: () -> ::Hash[:considered | :moved, Hash[Symbol | Integer, Integer]] # <!-- # rdoc-file=gc.rb # - GC.verify_compaction_references(toward: nil, double_heap: false) -> hash # --> # Verify compaction reference consistency. # # This method is implementation specific. During compaction, objects that were # moved are replaced with T_MOVED objects. No object should have a reference to # a T_MOVED object after compaction. # # This function expands the heap to ensure room to move all objects, compacts # the heap to make sure everything moves, updates all references, then performs # a full GC. If any object contains a reference to a T_MOVED object, that # object should be pushed on the mark stack, and will make a SEGV. # def self.verify_compaction_references: () -> ::Hash[:considered | :moved, Hash[Symbol | Integer, Integer]] # <!-- # rdoc-file=gc.c # - GC.verify_internal_consistency -> nil # --> # Verify internal consistency. # # This method is implementation specific. Now this method checks generational # consistency if RGenGC is supported. # def self.verify_internal_consistency: () -> nil # <!-- # rdoc-file=gc.rb # - GC.latest_gc_info -> hash # - GC.latest_gc_info(hash) -> hash # - GC.latest_gc_info(:major_by) -> :malloc # --> # Returns information about the most recent garbage collection. # # If the optional argument, hash, is given, it is overwritten and returned. This # is intended to avoid probe effect. # def self.latest_gc_info: () -> ::Hash[::Symbol, untyped] | [K] (?Hash[K, untyped] hash) -> ::Hash[::Symbol | K, untyped] | (Symbol key) -> untyped # <!-- # rdoc-file=gc.rb # - garbage_collect(full_mark: true, immediate_mark: true, immediate_sweep: true) # --> # def garbage_collect: (?immediate_sweep: boolish immediate_sweep, ?immediate_mark: boolish immediate_mark, ?full_mark: boolish full_mark) -> nil end # <!-- rdoc-file=gc.c --> # Internal constants in the garbage collector. # GC::INTERNAL_CONSTANTS: Hash[Symbol, Integer] # <!-- rdoc-file=gc.c --> # GC build options # GC::OPTS: Array[String] # <!-- rdoc-file=gc.c --> # The GC profiler provides access to information on GC runs including time, # length and object space size. # # Example: # # GC::Profiler.enable # # require 'rdoc/rdoc' # # GC::Profiler.report # # GC::Profiler.disable # # See also GC.count, GC.malloc_allocated_size and GC.malloc_allocations # module GC::Profiler # <!-- # rdoc-file=gc.c # - GC::Profiler.clear -> nil # --> # Clears the GC profiler data. # def self.clear: () -> void # <!-- # rdoc-file=gc.c # - GC::Profiler.disable -> nil # --> # Stops the GC profiler. # def self.disable: () -> void # <!-- # rdoc-file=gc.c # - GC::Profiler.enable -> nil # --> # Starts the GC profiler. # def self.enable: () -> void # <!-- # rdoc-file=gc.c # - GC::Profiler.enabled? -> true or false # --> # The current status of GC profile mode. # def self.enabled?: () -> bool # <!-- # rdoc-file=gc.c # - GC::Profiler.raw_data -> [Hash, ...] # --> # Returns an Array of individual raw profile data Hashes ordered from earliest # to latest by `:GC_INVOKE_TIME`. # # For example: # # [ # { # :GC_TIME=>1.3000000000000858e-05, # :GC_INVOKE_TIME=>0.010634999999999999, # :HEAP_USE_SIZE=>289640, # :HEAP_TOTAL_SIZE=>588960, # :HEAP_TOTAL_OBJECTS=>14724, # :GC_IS_MARKED=>false # }, # # ... # ] # # The keys mean: # # `:GC_TIME` # : Time elapsed in seconds for this GC run # `:GC_INVOKE_TIME` # : Time elapsed in seconds from startup to when the GC was invoked # `:HEAP_USE_SIZE` # : Total bytes of heap used # `:HEAP_TOTAL_SIZE` # : Total size of heap in bytes # `:HEAP_TOTAL_OBJECTS` # : Total number of objects # `:GC_IS_MARKED` # : Returns `true` if the GC is in mark phase # # # If ruby was built with `GC_PROFILE_MORE_DETAIL`, you will also have access to # the following hash keys: # # `:GC_MARK_TIME` # `:GC_SWEEP_TIME` # `:ALLOCATE_INCREASE` # `:ALLOCATE_LIMIT` # `:HEAP_USE_PAGES` # `:HEAP_LIVE_OBJECTS` # `:HEAP_FREE_OBJECTS` # `:HAVE_FINALIZE` # : # def self.raw_data: () -> ::Array[::Hash[Symbol, untyped]] # <!-- # rdoc-file=gc.c # - GC::Profiler.report # - GC::Profiler.report(io) # --> # Writes the GC::Profiler.result to `$stdout` or the given IO object. # def self.report: (?IO io) -> void # <!-- # rdoc-file=gc.c # - GC::Profiler.result -> String # --> # Returns a profile data report such as: # # GC 1 invokes. # Index Invoke Time(sec) Use Size(byte) Total Size(byte) Total Object GC time(ms) # 1 0.012 159240 212940 10647 0.00000000000001530000 # def self.result: () -> String # <!-- # rdoc-file=gc.c # - GC::Profiler.total_time -> float # --> # The total time used for garbage collection in seconds # def self.total_time: () -> Float end