hpx/performance_counters/counters.hpp
hpx/performance_counters/counters.hpp#
Defined in header hpx/performance_counters/counters.hpp.
See Public API for a list of names and headers that are part of the public HPX API.
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namespace hpx
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namespace performance_counters
Typedefs
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typedef hpx::function<naming::gid_type(counter_info const&, error_code&)> create_counter_func#
This declares the type of a function, which will be called by HPX whenever a new performance counter instance of a particular type needs to be created.
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typedef hpx::function<bool(counter_info const&, error_code&)> discover_counter_func#
This declares a type of a function, which will be passed to a discover_counters_func in order to be called for each discovered performance counter instance.
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typedef hpx::function<bool(counter_info const&, discover_counter_func const&, discover_counters_mode, error_code&)> discover_counters_func#
This declares the type of a function, which will be called by HPX whenever it needs to discover all performance counter instances of a particular type.
Enums
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enum class counter_type#
Values:
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enumerator text#
text shows a variable-length text string. It does not deliver calculated values.
Formula: None Average: None Type: Text
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enumerator raw#
raw shows the last observed value only. It does not deliver an average.
Formula: None. Shows raw data as collected. Average: None Type: Instantaneous
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enumerator monotonically_increasing#
monotonically_increasing shows the cumulatively accumulated observed value. It does not deliver an average.
Formula: None. Shows cumulatively accumulated data as collected. Average: None Type: Instantaneous
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enumerator average_base#
average_base is used as the base data (denominator) in the computation of time or count averages for the counter_type::average_count and counter_type::average_timer counter types. This counter type collects the last observed value only.
Formula: None. This counter uses raw data in factional calculations without delivering an output. Average: SUM (N) / x Type: Instantaneous
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enumerator average_count#
average_count shows how many items are processed, on average, during an operation. Counters of this type display a ratio of the items processed (such as bytes sent) to the number of operations completed. The ratio is calculated by comparing the number of items processed during the last interval to the number of operations completed during the last interval.
Formula: (N1 - N0) / (D1 - D0), where the numerator (N) represents the number of items processed during the last sample interval, and the denominator (D) represents the number of operations completed during the last two sample intervals. Average: (Nx - N0) / (Dx - D0) Type: Average
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enumerator aggregating#
aggregating applies a function to an embedded counter instance. The embedded counter is usually evaluated repeatedly after a fixed (but configurable) time interval.
Formula: F(Nx)
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enumerator average_timer#
average_timer measures the average time it takes to complete a process or operation. Counters of this type display a ratio of the total elapsed time of the sample interval to the number of processes or operations completed during that time. This counter type measures time in ticks of the system clock. The variable F represents the number of ticks per second. The value of F is factored into the equation so that the result is displayed in seconds.
Formula: ((N1 - N0) / F) / (D1 - D0), where the numerator (N) represents the number of ticks counted during the last sample interval, the variable F represents the frequency of the ticks, and the denominator (D) represents the number of operations completed during the last sample interval. Average: ((Nx - N0) / F) / (Dx - D0) Type: Average
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enumerator elapsed_time#
elapsed_time shows the total time between when the component or process started and the time when this value is calculated. The variable F represents the number of time units that elapse in one second. The value of F is factored into the equation so that the result is displayed in seconds.
Formula: (D0 - N0) / F, where the nominator (D) represents the current time, the numerator (N) represents the time the object was started, and the variable F represents the number of time units that elapse in one second. Average: (Dx - N0) / F Type: Difference
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enumerator histogram#
histogram exposes a histogram of the measured values instead of a single value as many of the other counter types. Counters of this type expose a counter_value_array instead of a counter_value. Those will also not implement the get_counter_value() functionality. The results are exposed through a separate get_counter_values_array() function.
The first three values in the returned array represent the lower and upper boundaries, and the size of the histogram buckets. All remaining values in the returned array represent the number of measurements for each of the buckets in the histogram.
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enumerator raw_values#
raw_values exposes an array of measured values instead of a single value as many of the other counter types. Counters of this type expose a counter_value_array instead of a counter_value. Those will also not implement the get_counter_value() functionality. The results are exposed through a separate get_counter_values_array() function.
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enumerator text
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enumerator raw
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enumerator monotonically_increasing
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enumerator average_base
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enumerator average_count
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enumerator aggregating
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enumerator average_timer
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enumerator elapsed_time
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enumerator histogram
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enumerator raw_values
raw_values counter exposes an array of measured values instead of a single value as many of the other counter types. Counters of this type expose a counter_value_array instead of a counter_value. Those will also not implement the get_counter_value() functionality. The results are exposed through a separate get_counter_values_array() function.
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enumerator text#
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enum class counter_status#
Status and error codes used by the functions related to performance counters.
Values:
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enumerator valid_data#
No error occurred, data is valid.
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enumerator new_data#
Data is valid and different from last call.
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enumerator invalid_data#
Some error occurred, data is not value.
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enumerator already_defined#
The type or instance already has been defined.
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enumerator counter_unknown#
The counter instance is unknown.
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enumerator counter_type_unknown#
The counter type is unknown.
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enumerator generic_error#
A unknown error occurred.
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enumerator valid_data
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enumerator new_data
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enumerator invalid_data
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enumerator already_defined
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enumerator counter_unknown
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enumerator counter_type_unknown
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enumerator generic_error
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enumerator valid_data#
Functions
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char const *get_counter_type_name(counter_type state)#
Return the readable name of a given counter type.
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inline bool status_is_valid(counter_status s)#
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inline counter_status add_counter_type(counter_info const &info, error_code &ec)#
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inline hpx::id_type get_counter(std::string const &name, error_code &ec)#
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inline hpx::id_type get_counter(counter_info const &info, error_code &ec)#
Variables
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constexpr const char counter_prefix[] = "/counters"#
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constexpr std::size_t counter_prefix_len = std::size(counter_prefix) - 1#
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struct counter_info#
Public Functions
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inline explicit counter_info(counter_type type = counter_type::raw)#
Public Members
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counter_type type_#
The type of the described counter.
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counter_status status_#
The status of the counter object.
Private Functions
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void serialize(serialization::output_archive &ar, unsigned int) const#
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void serialize(serialization::input_archive &ar, unsigned int)#
Friends
- friend class hpx::serialization::access
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inline explicit counter_info(counter_type type = counter_type::raw)#
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struct counter_path_elements : public hpx::performance_counters::counter_type_path_elements#
- #include <counters.hpp>
A counter_path_elements holds the elements of a full name for a counter instance. Generally, a full name of a counter instance has the structure:
/objectname{parentinstancename::parentindex/instancename#instanceindex} /countername#parameters
i.e. /queue{localityprefix/thread#2}/length
Public Types
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using base_type = counter_type_path_elements#
Public Functions
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inline counter_path_elements()#
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inline counter_path_elements(std::string const &objectname, std::string const &countername, std::string const ¶meters, std::string const &parentname, std::string const &instancename, std::int64_t parentindex = -1, std::int64_t instanceindex = -1, bool parentinstance_is_basename = false)#
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inline counter_path_elements(std::string const &objectname, std::string const &countername, std::string const ¶meters, std::string const &parentname, std::string const &instancename, std::string const &subinstancename, std::int64_t parentindex = -1, std::int64_t instanceindex = -1, std::int64_t subinstanceindex = -1, bool parentinstance_is_basename = false)#
Public Members
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bool parentinstance_is_basename_#
the parentinstancename_
Private Functions
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void serialize(serialization::output_archive &ar, unsigned int)#
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void serialize(serialization::input_archive &ar, unsigned int)#
Friends
- friend class hpx::serialization::access
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using base_type = counter_type_path_elements#
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struct counter_type_path_elements#
- #include <counters.hpp>
A counter_type_path_elements holds the elements of a full name for a counter type. Generally, a full name of a counter type has the structure:
/objectname/countername
i.e. /queue/length
Subclassed by hpx::performance_counters::counter_path_elements
Public Functions
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counter_type_path_elements() = default#
Public Members
Protected Functions
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void serialize(serialization::output_archive &ar, unsigned int) const#
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void serialize(serialization::input_archive &ar, unsigned int)#
Friends
- friend class hpx::serialization::access
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counter_type_path_elements() = default#
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typedef hpx::function<naming::gid_type(counter_info const&, error_code&)> create_counter_func#
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namespace performance_counters