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[DOC] Escape all usages of GC

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RDoc was making every usage of the word "GC" link to the page for GC
(which is the same page).
This commit is contained in:
Peter Zhu 2022-12-20 15:16:36 -05:00
parent 63fe03aa4e
commit 9f4472cad7
2 changed files with 29 additions and 29 deletions
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14
gc.c
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@ -10798,7 +10798,7 @@ gc_update_references(rb_objspace_t *objspace)
* call-seq:
* GC.latest_compact_info -> hash
*
* Returns information about object moved in the most recent GC compaction.
* Returns information about object moved in the most recent \GC compaction.
*
* The returned hash has two keys :considered and :moved. The hash for
* :considered lists the number of objects that were considered for movement
@ -10908,7 +10908,7 @@ heap_check_moved_i(void *vstart, void *vend, size_t stride, void *data)
* 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:
* To test whether \GC compaction is supported, use the idiom:
*
* GC.respond_to?(:compact)
*/
@ -13505,7 +13505,7 @@ gc_prof_set_heap_info(rb_objspace_t *objspace)
* call-seq:
* GC::Profiler.clear -> nil
*
* Clears the GC profiler data.
* Clears the \GC profiler data.
*
*/
@ -13819,7 +13819,7 @@ gc_profile_total_time(VALUE self)
* call-seq:
* GC::Profiler.enabled? -> true or false
*
* The current status of GC profile mode.
* The current status of \GC profile mode.
*/
static VALUE
@ -13833,7 +13833,7 @@ gc_profile_enable_get(VALUE self)
* call-seq:
* GC::Profiler.enable -> nil
*
* Starts the GC profiler.
* Starts the \GC profiler.
*
*/
@ -13850,7 +13850,7 @@ gc_profile_enable(VALUE _)
* call-seq:
* GC::Profiler.disable -> nil
*
* Stops the GC profiler.
* Stops the \GC profiler.
*
*/
@ -14573,7 +14573,7 @@ Init_GC(void)
{
VALUE opts;
/* GC build options */
/* \GC build options */
rb_define_const(rb_mGC, "OPTS", opts = rb_ary_new());
#define OPT(o) if (o) rb_ary_push(opts, rb_fstring_lit(#o))
OPT(GC_DEBUG);

44
gc.rb
View File

@ -6,7 +6,7 @@
# Some of the underlying methods are also available via the ObjectSpace
# module.
#
# You may obtain information about the operation of the GC through
# You may obtain information about the operation of the \GC through
# GC::Profiler.
module GC
@ -24,7 +24,7 @@ module GC
#
# def GC.start(full_mark: true, immediate_sweep: true); end
#
# Use full_mark: false to perform a minor GC.
# Use full_mark: false to perform a minor \GC.
# Use immediate_sweep: false to defer sweeping (use lazy sweep).
#
# Note: These keyword arguments are implementation and version dependent. They
@ -67,7 +67,7 @@ module GC
# call-seq:
# GC.stress -> integer, true or false
#
# Returns current status of GC stress mode.
# Returns current status of \GC stress mode.
def self.stress
Primitive.gc_stress_get
end
@ -75,9 +75,9 @@ module GC
# call-seq:
# GC.stress = flag -> flag
#
# Updates the GC stress mode.
# Updates the \GC stress mode.
#
# When stress mode is enabled, the GC is invoked at every GC opportunity:
# 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.
@ -93,9 +93,9 @@ module GC
# call-seq:
# GC.count -> Integer
#
# The number of times GC occurred.
# The number of times \GC occurred.
#
# It returns the number of times GC occurred since the process started.
# It returns the number of times \GC occurred since the process started.
def self.count
Primitive.gc_count
end
@ -105,12 +105,12 @@ module GC
# GC.stat(hash) -> Hash
# GC.stat(:key) -> Numeric
#
# Returns a Hash containing information about the GC.
# 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:
# The hash includes information about internal statistics about \GC such as:
#
# [count]
# The total number of garbage collections ran since application start
@ -123,7 +123,7 @@ module GC
# 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
# 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]
@ -133,7 +133,7 @@ module GC
# [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
# 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]
@ -147,9 +147,9 @@ module GC
# [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
# 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
# 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]
@ -165,15 +165,15 @@ module GC
# 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
# 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
# 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
# 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
# When `:old_malloc_increase_bytes` crosses this limit, major \GC is triggered
#
# If the optional argument, hash, is given,
# it is overwritten and returned.
@ -191,7 +191,7 @@ module GC
# GC.stat_heap(heap_name, hash) -> Hash
# GC.stat_heap(heap_name, :key) -> Numeric
#
# Returns information for memory pools in the GC.
# Returns information for memory pools in the \GC.
#
# If the first optional argument, +heap_name+, is passed in and not +nil+, it
# returns a +Hash+ containing information about the particular memory pool.
@ -244,7 +244,7 @@ module GC
#
# 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
# 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(toward: nil, double_heap: false, expand_heap: false)
@ -255,9 +255,9 @@ module GC
# call-seq:
# GC.measure_total_time = true/false
#
# Enable to measure GC time.
# Enable to measure \GC time.
# You can get the result with <tt>GC.stat(:time)</tt>.
# Note that GC time measurement can cause some performance overhead.
# Note that \GC time measurement can cause some performance overhead.
def self.measure_total_time=(flag)
Primitive.cstmt! %{
rb_objspace.flags.measure_gc = RTEST(flag) ? TRUE : FALSE;
@ -279,7 +279,7 @@ module GC
# call-seq:
# GC.total_time -> int
#
# Return measured GC total time in nano seconds.
# Return measured \GC total time in nano seconds.
def self.total_time
Primitive.cexpr! %{
ULL2NUM(rb_objspace.profile.total_time_ns)