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window.h
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window.h
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// Licensed to the Apache Software Foundation (ASF) under one
// or more contributor license agreements. See the NOTICE file
// distributed with this work for additional information
// regarding copyright ownership. The ASF licenses this file
// to you under the Apache License, Version 2.0 (the
// "License"); you may not use this file except in compliance
// with the License. You may obtain a copy of the License at
//
// http://www.apache.org/licenses/LICENSE-2.0
//
// Unless required by applicable law or agreed to in writing,
// software distributed under the License is distributed on an
// "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY
// KIND, either express or implied. See the License for the
// specific language governing permissions and limitations
// under the License.
// Date: Wed Jul 29 23:25:43 CST 2015
#ifndef BVAR_WINDOW_H
#define BVAR_WINDOW_H
#include <limits> // std::numeric_limits
#include <math.h> // round
#include <gflags/gflags_declare.h>
#include "butil/logging.h" // LOG
#include "bvar/detail/sampler.h"
#include "bvar/detail/series.h"
#include "bvar/variable.h"
namespace bvar {
DECLARE_int32(bvar_dump_interval);
enum SeriesFrequency {
SERIES_IN_WINDOW = 0,
SERIES_IN_SECOND = 1
};
namespace detail {
// Just for constructor reusing of Window<>
template <typename R, SeriesFrequency series_freq>
class WindowBase : public Variable {
public:
typedef typename R::value_type value_type;
typedef typename R::sampler_type sampler_type;
class SeriesSampler : public detail::Sampler {
public:
struct Op {
explicit Op(R* var) : _var(var) {}
void operator()(value_type& v1, const value_type& v2) const {
_var->op()(v1, v2);
}
private:
R* _var;
};
SeriesSampler(WindowBase* owner, R* var)
: _owner(owner), _series(Op(var)) {}
~SeriesSampler() {}
void take_sample() override {
if (series_freq == SERIES_IN_SECOND) {
// Get one-second window value for PerSecond<>, otherwise the
// "smoother" plot may hide peaks.
_series.append(_owner->get_value(1));
} else {
// Get the value inside the full window. "get_value(1)" is
// incorrect when users intend to see aggregated values of
// the full window in the plot.
_series.append(_owner->get_value());
}
}
void describe(std::ostream& os) { _series.describe(os, NULL); }
private:
WindowBase* _owner;
detail::Series<value_type, Op> _series;
};
WindowBase(R* var, time_t window_size)
: _var(var)
, _window_size(window_size > 0 ? window_size : FLAGS_bvar_dump_interval)
, _sampler(var->get_sampler())
, _series_sampler(NULL) {
CHECK_EQ(0, _sampler->set_window_size(_window_size));
}
~WindowBase() {
hide();
if (_series_sampler) {
_series_sampler->destroy();
_series_sampler = NULL;
}
}
bool get_span(time_t window_size, detail::Sample<value_type>* result) const {
return _sampler->get_value(window_size, result);
}
bool get_span(detail::Sample<value_type>* result) const {
return get_span(_window_size, result);
}
virtual value_type get_value(time_t window_size) const {
detail::Sample<value_type> tmp;
if (get_span(window_size, &tmp)) {
return tmp.data;
}
return value_type();
}
value_type get_value() const { return get_value(_window_size); }
void describe(std::ostream& os, bool quote_string) const override {
if (butil::is_same<value_type, std::string>::value && quote_string) {
os << '"' << get_value() << '"';
} else {
os << get_value();
}
}
#ifdef BAIDU_INTERNAL
void get_value(boost::any* value) const override { *value = get_value(); }
#endif
time_t window_size() const { return _window_size; }
int describe_series(std::ostream& os, const SeriesOptions& options) const override {
if (_series_sampler == NULL) {
return 1;
}
if (!options.test_only) {
_series_sampler->describe(os);
}
return 0;
}
void get_samples(std::vector<value_type> *samples) const {
samples->clear();
samples->reserve(_window_size);
return _sampler->get_samples(samples, _window_size);
}
protected:
int expose_impl(const butil::StringPiece& prefix,
const butil::StringPiece& name,
DisplayFilter display_filter) override {
const int rc = Variable::expose_impl(prefix, name, display_filter);
if (rc == 0 &&
_series_sampler == NULL &&
FLAGS_save_series) {
_series_sampler = new SeriesSampler(this, _var);
_series_sampler->schedule();
}
return rc;
}
R* _var;
time_t _window_size;
sampler_type* _sampler;
SeriesSampler* _series_sampler;
};
} // namespace detail
// Get data within a time window.
// The time unit is 1 second fixed.
// Window relies on other bvar which should be constructed before this window
// and destructs after this window.
// R must:
// - have get_sampler() (not require thread-safe)
// - defined value_type and sampler_type
template <typename R, SeriesFrequency series_freq = SERIES_IN_WINDOW>
class Window : public detail::WindowBase<R, series_freq> {
typedef detail::WindowBase<R, series_freq> Base;
typedef typename R::value_type value_type;
typedef typename R::sampler_type sampler_type;
public:
// Different from PerSecond, we require window_size here because get_value
// of Window is largely affected by window_size while PerSecond is not.
Window(R* var, time_t window_size) : Base(var, window_size) {}
Window(const butil::StringPiece& name, R* var, time_t window_size)
: Base(var, window_size) {
this->expose(name);
}
Window(const butil::StringPiece& prefix,
const butil::StringPiece& name, R* var, time_t window_size)
: Base(var, window_size) {
this->expose_as(prefix, name);
}
};
// Get data per second within a time window.
// The only difference between PerSecond and Window is that PerSecond divides
// the data by time duration.
template <typename R>
class PerSecond : public detail::WindowBase<R, SERIES_IN_SECOND> {
typedef detail::WindowBase<R, SERIES_IN_SECOND> Base;
typedef typename R::value_type value_type;
typedef typename R::sampler_type sampler_type;
public:
// If window_size is non-positive or absent, use FLAGS_bvar_dump_interval.
PerSecond(R* var) : Base(var, -1) {}
PerSecond(R* var, time_t window_size) : Base(var, window_size) {}
PerSecond(const butil::StringPiece& name, R* var) : Base(var, -1) {
this->expose(name);
}
PerSecond(const butil::StringPiece& name, R* var, time_t window_size)
: Base(var, window_size) {
this->expose(name);
}
PerSecond(const butil::StringPiece& prefix,
const butil::StringPiece& name, R* var)
: Base(var, -1) {
this->expose_as(prefix, name);
}
PerSecond(const butil::StringPiece& prefix,
const butil::StringPiece& name, R* var, time_t window_size)
: Base(var, window_size) {
this->expose_as(prefix, name);
}
value_type get_value(time_t window_size) const override {
detail::Sample<value_type> s;
this->get_span(window_size, &s);
// We may test if the multiplication overflows and use integral ops
// if possible. However signed/unsigned 32-bit/64-bit make the solution
// complex. Since this function is not called often, we use floating
// point for simplicity.
if (s.time_us <= 0) {
return static_cast<value_type>(0);
}
if (butil::is_floating_point<value_type>::value) {
return static_cast<value_type>(s.data * 1000000.0 / s.time_us);
} else {
return static_cast<value_type>(round(s.data * 1000000.0 / s.time_us));
}
}
value_type get_value() const { return Base::get_value(); }
};
namespace adapter {
template <typename R>
class WindowExType {
public:
typedef R var_type;
typedef bvar::Window<var_type > window_type;
typedef typename R::value_type value_type;
struct WindowExVar {
WindowExVar(time_t window_size) : window(&var, window_size) {}
var_type var;
window_type window;
};
};
template <typename R>
class PerSecondExType {
public:
typedef R var_type;
typedef bvar::PerSecond<var_type > window_type;
typedef typename R::value_type value_type;
struct WindowExVar {
WindowExVar(time_t window_size) : window(&var, window_size) {}
var_type var;
window_type window;
};
};
template <typename R, typename WindowType>
class WindowExAdapter : public Variable{
public:
typedef typename R::value_type value_type;
typedef typename WindowType::WindowExVar WindowExVar;
WindowExAdapter(time_t window_size)
: _window_size(window_size > 0 ? window_size : FLAGS_bvar_dump_interval)
, _window_ex_var(_window_size) {
}
value_type get_value() const {
return _window_ex_var.window.get_value();
}
template <typename ANT_TYPE>
WindowExAdapter& operator<<(ANT_TYPE value) {
_window_ex_var.var << value;
return *this;
}
// Implement Variable::describe()
void describe(std::ostream& os, bool quote_string) const {
if (butil::is_same<value_type, std::string>::value && quote_string) {
os << '"' << get_value() << '"';
} else {
os << get_value();
}
}
virtual ~WindowExAdapter() {
hide();
}
private:
time_t _window_size;
WindowExVar _window_ex_var;
};
} // namespace adapter
// Get data within a time window.
// The time unit is 1 second fixed.
// Window not relies on other bvar.
// R must:
// - window_size must be a constant
template <typename R, time_t window_size = 0>
class WindowEx : public adapter::WindowExAdapter<R, adapter::WindowExType<R> > {
public:
typedef adapter::WindowExAdapter<R, adapter::WindowExType<R> > Base;
WindowEx() : Base(window_size) {}
WindowEx(const butil::StringPiece& name) : Base(window_size) {
this->expose(name);
}
WindowEx(const butil::StringPiece& prefix,
const butil::StringPiece& name)
: Base(window_size) {
this->expose_as(prefix, name);
}
};
// Get data per second within a time window.
// The only difference between PerSecondEx and WindowEx is that PerSecondEx divides
// the data by time duration.
// R must:
// - window_size must be a constant
template <typename R, time_t window_size = 0>
class PerSecondEx : public adapter::WindowExAdapter<R, adapter::PerSecondExType<R> > {
public:
typedef adapter::WindowExAdapter<R, adapter::PerSecondExType<R> > Base;
PerSecondEx() : Base(window_size) {}
PerSecondEx(const butil::StringPiece& name) : Base(window_size) {
this->expose(name);
}
PerSecondEx(const butil::StringPiece& prefix,
const butil::StringPiece& name)
: Base(window_size) {
this->expose_as(prefix, name);
}
};
} // namespace bvar
#endif //BVAR_WINDOW_H