rainmeter-studio/Library/Measure.cpp

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/*
Copyright (C) 2000 Kimmo Pekkola
This program is free software; you can redistribute it and/or
modify it under the terms of the GNU General Public License
as published by the Free Software Foundation; either version 2
of the License, or (at your option) any later version.
This program is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
GNU General Public License for more details.
You should have received a copy of the GNU General Public License
along with this program; if not, write to the Free Software
Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA.
*/
#include "StdAfx.h"
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#include "Measure.h"
#include "MeasureCPU.h"
#include "MeasureMemory.h"
#include "MeasurePhysicalMemory.h"
#include "MeasureVirtualMemory.h"
#include "MeasureNetIn.h"
#include "MeasureNetOut.h"
#include "MeasureNetTotal.h"
#include "MeasureDiskSpace.h"
#include "MeasureUptime.h"
#include "MeasurePlugin.h"
#include "MeasureRegistry.h"
#include "MeasureTime.h"
#include "MeasureCalc.h"
#include "MeasureScript.h"
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#include "Rainmeter.h"
#include "Error.h"
#include "Litestep.h"
#include "pcre-8.10/config.h"
#include "pcre-8.10/pcre.h"
#define OVECCOUNT 300 // Should be a multiple of 3
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enum AUTOSCALE_INDEX
{
AUTOSCALE_INDEX_1024 = 0,
AUTOSCALE_INDEX_1000 = 1
};
static const double g_TblScale[2][4] = {
{
1024.0 * 1024.0 * 1024.0 * 1024.0,
1024.0 * 1024.0 * 1024.0,
1024.0 * 1024.0,
1024.0
},
{
1000.0 * 1000.0 * 1000.0 * 1000.0,
1000.0 * 1000.0 * 1000.0,
1000.0 * 1000.0,
1000.0
}
};
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const int MEDIAN_SIZE = 7;
extern CRainmeter* Rainmeter;
/*
** CMeasure
**
** The constructor
**
*/
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CMeasure::CMeasure(CMeterWindow* meterWindow, const WCHAR* name) : m_MeterWindow(meterWindow), m_Name(name), m_ANSIName(ConvertToAscii(name)),
m_DynamicVariables(false),
m_Invert(false),
m_LogMaxValue(false),
m_MinValue(),
m_MaxValue(1.0),
m_Value(),
m_RegExpSubstitute(false),
m_MedianPos(),
m_AveragePos(),
m_AverageSize(),
m_IfEqualValue(),
m_IfAboveValue(),
m_IfBelowValue(),
m_IfEqualCommited(false),
m_IfAboveCommited(false),
m_IfBelowCommited(false),
m_Disabled(false),
m_UpdateDivider(1),
m_UpdateCounter(1),
m_Initialized(false)
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{
}
/*
** ~CMeasure
**
** The destructor
**
*/
CMeasure::~CMeasure()
{
}
/*
** Initialize
**
** Initializes the measure.
**
*/
void CMeasure::Initialize()
{
m_Initialized = true;
}
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/*
** ReadConfig
**
** Reads the common configs for all Measures. The inherited classes
** must call the base implementation if they overwrite this method.
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**
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*/
void CMeasure::ReadConfig(CConfigParser& parser, const WCHAR* section)
{
// Clear substitutes to prevent from being added more than once.
if (!m_Substitute.empty())
{
m_Substitute.clear();
}
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m_Invert = 0!=parser.ReadInt(section, L"InvertMeasure", 0);
if (!m_Initialized)
{
m_Disabled = 0!=parser.ReadInt(section, L"Disabled", 0);
}
else
{
const std::wstring& result = parser.ReadString(section, L"Disabled", L"0");
if (parser.GetLastReplaced())
{
m_Disabled = 0!=(int)parser.ParseDouble(result, 0.0, true);
}
}
int updateDivider = parser.ReadInt(section, L"UpdateDivider", 1);
if (updateDivider != m_UpdateDivider)
{
m_UpdateCounter = m_UpdateDivider = updateDivider;
}
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m_MinValue = parser.ReadFloat(section, L"MinValue", m_MinValue);
m_MaxValue = parser.ReadFloat(section, L"MaxValue", m_MaxValue);
// The ifabove/ifbelow define actions that are ran when the value goes above/below the given number.
m_IfAboveValue = parser.ReadFloat(section, L"IfAboveValue", 0.0);
m_IfAboveAction = parser.ReadString(section, L"IfAboveAction", L"", false);
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m_IfBelowValue = parser.ReadFloat(section, L"IfBelowValue", 0.0);
m_IfBelowAction = parser.ReadString(section, L"IfBelowAction", L"", false);
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m_IfEqualValue = parser.ReadFloat(section, L"IfEqualValue", 0.0);
m_IfEqualAction = parser.ReadString(section, L"IfEqualAction", L"", false);
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m_AverageSize = parser.ReadUInt(section, L"AverageSize", 0);
m_DynamicVariables = 0!=parser.ReadInt(section, L"DynamicVariables", 0);
m_RegExpSubstitute = 0!=parser.ReadInt(section, L"RegExpSubstitute", 0);
std::wstring subs = parser.ReadString(section, L"Substitute", L"");
if (!subs.empty() &&
(subs[0] != L'\"' || subs[subs.length() - 1] != L'\'') &&
(subs[0] != L'\'' || subs[subs.length() - 1] != L'\"'))
{
// Add quotes since they are removed by the GetProfileString
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subs.insert(0, L"\"");
subs.append(L"\"");
}
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if (!ParseSubstitute(subs))
{
LogWithArgs(LOG_ERROR, L"Measure: Invalid Substitute=%s", subs.c_str());
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}
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const std::wstring& group = parser.ReadString(section, L"Group", L"");
InitializeGroup(group);
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}
/*
** MakePlainSubstitute
**
** Substitues text using a straight find and replace method
*/
bool CMeasure::MakePlainSubstitute(std::wstring& str, size_t index)
{
size_t start = 0;
size_t pos = std::wstring::npos;
do
{
pos = str.find(m_Substitute[index].first, start);
if (pos != std::wstring::npos)
{
str.replace(pos, m_Substitute[index].first.length(), m_Substitute[index].second);
start = pos + m_Substitute[index].second.length();
}
} while (pos != std::wstring::npos);
return true;
}
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/*
** CheckSubstitute
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**
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** Substitutes part of the text
*/
const WCHAR* CMeasure::CheckSubstitute(const WCHAR* buffer)
{
static std::wstring str;
if (!m_Substitute.empty())
{
if (!m_RegExpSubstitute) // Plain Substitutions only
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{
str = buffer;
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for (size_t i = 0, isize = m_Substitute.size(); i < isize; ++i)
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{
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if (!m_Substitute[i].first.empty())
{
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MakePlainSubstitute(str, i);
}
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else if (str.empty())
{
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// Empty result and empty substitute -> use second
str = m_Substitute[i].second;
}
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}
}
else // Contains a RegEx
{
std::string utf8str = ConvertToUTF8(buffer);
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int* ovector = new int[OVECCOUNT];
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for (size_t i = 0, isize = m_Substitute.size() ; i < isize ; ++i)
{
pcre* re;
const char* error;
int erroffset;
int rc;
int flags = PCRE_UTF8;
int offset = 0;
re = pcre_compile(
ConvertToUTF8(m_Substitute[i].first.c_str()).c_str(), // the pattern
flags, // default options
&error, // for error message
&erroffset, // for error offset
NULL); // use default character tables
if (re == NULL)
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{
MakePlainSubstitute(str, i);
Log(LOG_NOTICE, ConvertToWide(error).c_str());
}
else
{
do
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{
rc = pcre_exec(
re, // the compiled pattern
NULL, // no extra data - we didn't study the pattern
utf8str.c_str(), // the subject string
utf8str.length(), // the length of the subject
offset, // start at offset 0 in the subject
0, // default options
ovector, // output vector for substring information
OVECCOUNT); // number of elements in the output vector
if (rc <= 0)
{
break;
}
else
{
std::string result = ConvertToUTF8(m_Substitute[i].second.c_str());
if (rc > 1)
{
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for (int j = rc - 1 ; j >= 0 ; --j)
{
size_t new_start = ovector[2*j];
size_t in_length = ovector[2*j+1] - ovector[2*j];
char tmpName[64];
_snprintf_s(tmpName, _TRUNCATE, "\\%i", j);
size_t cut_length = strlen(tmpName);
size_t pos = result.find(tmpName);
while (pos != std::string::npos)
{
result.replace(pos, cut_length, utf8str, new_start, in_length);
pos = result.find(tmpName, pos + in_length);
}
}
}
size_t start = ovector[0];
size_t length = ovector[1] - ovector[0];
utf8str.replace(start, length, result);
offset = start + result.length();
}
} while (true);
// Release memory used for the compiled pattern
pcre_free(re);
}
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}
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delete [] ovector;
str = ConvertUTF8ToWide(utf8str.c_str());
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}
return str.c_str();
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}
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else
{
return buffer;
}
}
/*
** ParseSubstitute
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**
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** Reads the buffer for "Name":"Value"-pairs separated with comma and
** fills the map with the parsed data.
*/
bool CMeasure::ParseSubstitute(std::wstring buffer)
{
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if (buffer.empty()) return true;
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while (!buffer.empty())
{
std::wstring word1 = ExtractWord(buffer);
std::wstring sep = ExtractWord(buffer);
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if (sep != L":") return false;
std::wstring word2 = ExtractWord(buffer);
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if (word1 != word2)
{
m_Substitute.push_back(std::pair<std::wstring, std::wstring>(word1, word2));
}
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sep = ExtractWord(buffer);
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if (!sep.empty() && sep != L",") return false;
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}
return true;
}
/*
** ExtractWord
**
** Returns the first word from the buffer. The word can be inside quotes.
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** If not, the separators are ' ', '\t', ',' and ':'. Whitespaces are removed
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** and buffer _will_ be modified.
*/
std::wstring CMeasure::ExtractWord(std::wstring& buffer)
{
std::wstring::size_type end, len;
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std::wstring ret;
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if (buffer.empty()) return ret;
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len = buffer.size();
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// Remove whitespaces
end = 0;
while (end < len && (buffer[end] == L' ' || buffer[end] == L'\t' || buffer[end] == L'\n')) ++end;
if (end == len)
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{
// End of line reached
end = std::wstring::npos;
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}
else
{
buffer.erase(0, end);
len = buffer.size();
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if (buffer[0] == L'\"' || buffer[0] == L'\'')
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{
WCHAR quote = buffer[0];
end = 1; // Skip the '"'
// Quotes around the word
while (end < len && (buffer[end] != quote)) ++end;
if (end == len) end = std::wstring::npos;
if (end != std::wstring::npos)
{
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ret.assign(buffer, 1, end - 1);
++end;
}
else
{
// End of string reached - discard result
}
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}
else
{
end = 0;
while (end < len && (buffer[end] != L',' && buffer[end] != L':' && buffer[end] != L' ' && buffer[end] != L'\t')) ++end;
if (end == len) end = std::wstring::npos;
if (end == std::wstring::npos)
{
// End of line reached
ret = buffer;
}
else
{
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ret.assign(buffer, 0, ++end); // The separator is also returned!
}
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}
}
buffer.erase(0, end);
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return ret;
}
/*
** PreUpdate
**
** The base implementation of the update method. This includes the code
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** that is common for all measures. This is called every time the measure
** is updated. The inherited classes must call the base implementation if
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** they overwrite this method. If this method returns false, the update
** needs not to be done.
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**
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*/
bool CMeasure::PreUpdate()
{
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if (IsDisabled())
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{
m_Value = 0.0; // Disable measures return 0 as value
return false;
}
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// Only update the counter if the divider
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++m_UpdateCounter;
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if (m_UpdateCounter < m_UpdateDivider) return false;
m_UpdateCounter = 0;
// If we're logging the maximum value of the measure, check if
// the new value is greater than the old one, and update if necessary.
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if (m_LogMaxValue)
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{
if (m_MedianMaxValues.empty())
{
m_MedianMaxValues.resize(MEDIAN_SIZE, 0);
m_MedianMinValues.resize(MEDIAN_SIZE, 0);
}
m_MedianMaxValues[m_MedianPos] = m_Value;
m_MedianMinValues[m_MedianPos] = m_Value;
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++m_MedianPos;
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m_MedianPos %= MEDIAN_SIZE;
std::vector<double> medianArray;
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medianArray = m_MedianMaxValues;
std::sort(medianArray.begin(), medianArray.end());
m_MaxValue = max(m_MaxValue, medianArray[MEDIAN_SIZE / 2]);
medianArray = m_MedianMinValues;
std::sort(medianArray.begin(), medianArray.end());
m_MinValue = min(m_MinValue, medianArray[MEDIAN_SIZE / 2]);
}
if (m_MeterWindow)
{
// Check the IfEqualValue
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if (!m_IfEqualAction.empty())
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{
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if ((int)m_Value == (int)m_IfEqualValue)
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{
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if (!m_IfEqualCommited)
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{
m_IfEqualCommited = true; // To avoid crashing by !RainmeterUpdate due to infinite loop
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Rainmeter->ExecuteCommand(m_IfEqualAction.c_str(), m_MeterWindow);
}
}
else
{
m_IfEqualCommited = false;
}
}
// Check the IfAboveValue
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if (!m_IfAboveAction.empty())
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{
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if (m_Value > m_IfAboveValue)
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{
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if (!m_IfAboveCommited)
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{
m_IfAboveCommited = true; // To avoid crashing by !RainmeterUpdate due to infinite loop
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Rainmeter->ExecuteCommand(m_IfAboveAction.c_str(), m_MeterWindow);
}
}
else
{
m_IfAboveCommited = false;
}
}
// Check the IfBelowValue
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if (!m_IfBelowAction.empty())
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{
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if (m_Value < m_IfBelowValue)
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{
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if (!m_IfBelowCommited)
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{
m_IfBelowCommited = true; // To avoid crashing by !RainmeterUpdate due to infinite loop
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Rainmeter->ExecuteCommand(m_IfBelowAction.c_str(), m_MeterWindow);
}
}
else
{
m_IfBelowCommited = false;
}
}
}
return true;
}
/*
** PostUpdate
**
** Does post measuring things to the value. All measures must call this
** after they have set the m_Value.
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**
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*/
bool CMeasure::PostUpdate()
{
if (m_AverageSize > 0)
{
size_t averageValuesSize = m_AverageValues.size();
if (m_AverageSize != averageValuesSize)
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{
m_AverageValues.resize(m_AverageSize, m_Value);
averageValuesSize = m_AverageValues.size();
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if (m_AveragePos >= averageValuesSize) m_AveragePos = 0;
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}
m_AverageValues[m_AveragePos] = m_Value;
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++m_AveragePos;
m_AveragePos %= averageValuesSize;
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// Calculate the average value
m_Value = 0;
for (size_t i = 0; i < averageValuesSize; ++i)
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{
m_Value += m_AverageValues[i];
}
m_Value /= (double)averageValuesSize;
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}
return true;
}
/*
** GetValue
**
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** Returns the value of the measure.
**
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*/
double CMeasure::GetValue()
{
// Invert if so requested
if (m_Invert)
{
return m_MaxValue - m_Value + m_MinValue;
}
return m_Value;
}
/*
** GetRelativeValue
**
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** Returns the relative value of the measure (0.0 - 1.0).
**
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*/
double CMeasure::GetRelativeValue()
{
double range = GetValueRange();
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if (range != 0.0)
{
double value = GetValue();
value = min(m_MaxValue, value);
value = max(m_MinValue, value);
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value -= m_MinValue;
return value / range;
}
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return 1.0;
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}
/*
** GetValueRange
**
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** Returns the value range.
**
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*/
double CMeasure::GetValueRange()
{
return m_MaxValue - m_MinValue;
}
/*
** GetStringValue
**
** This method returns the value as text string. The actual value is
** get with GetValue() so we don't have to worry about m_Invert.
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**
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** autoScale If true, scale the value automatically to some sensible range.
** scale The scale to use if autoScale is false.
** decimals Number of decimals used in the value. If -1, get rid of ".00000" for dynamic variables.
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** percentual Return the value as % from the maximum value.
*/
const WCHAR* CMeasure::GetStringValue(AUTOSCALE autoScale, double scale, int decimals, bool percentual)
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{
static WCHAR buffer[MAX_LINE_LENGTH];
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WCHAR format[32];
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if (percentual)
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{
double val = 100.0 * GetRelativeValue();
if (decimals == 0)
{
_snwprintf_s(buffer, _TRUNCATE, L"%i", (int)val);
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}
else
{
_snwprintf_s(format, _TRUNCATE, L"%%.%if", decimals);
_snwprintf_s(buffer, _TRUNCATE, format, val);
}
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}
else if (autoScale != AUTOSCALE_OFF)
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{
GetScaledValue(autoScale, decimals, GetValue(), buffer, _countof(buffer));
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}
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else
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{
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double val = GetValue() / scale;
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if (decimals == 0)
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{
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val += (val >= 0) ? 0.5 : -0.5;
_snwprintf_s(buffer, _TRUNCATE, L"%lli", (LONGLONG)val);
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}
else if (decimals == -1)
{
int len = _snwprintf_s(buffer, _TRUNCATE, L"%.5f", val);
RemoveTrailingZero(buffer, len);
}
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else
{
_snwprintf_s(format, _TRUNCATE, L"%%.%if", decimals);
_snwprintf_s(buffer, _TRUNCATE, format, val);
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}
}
return CheckSubstitute(buffer);
}
void CMeasure::GetScaledValue(AUTOSCALE autoScale, int decimals, double theValue, WCHAR* buffer, size_t sizeInWords)
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{
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WCHAR format[32];
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double value = 0;
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if (decimals == 0)
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{
wcsncpy_s(format, L"%.0f", _TRUNCATE);
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}
else
{
_snwprintf_s(format, _TRUNCATE, L"%%.%if", decimals);
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}
int index = (autoScale == AUTOSCALE_1000 || autoScale == AUTOSCALE_1000K) ? AUTOSCALE_INDEX_1000 : AUTOSCALE_INDEX_1024;
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if (theValue > (g_TblScale[index][0] * 0.99))
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{
wcsncat_s(format, L" T", _TRUNCATE);
value = theValue / g_TblScale[index][0];
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}
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else if (theValue > (g_TblScale[index][1] * 0.99))
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{
wcsncat_s(format, L" G", _TRUNCATE);
value = theValue / g_TblScale[index][1];
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}
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else if (theValue > (g_TblScale[index][2] * 0.99))
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{
wcsncat_s(format, L" M", _TRUNCATE);
value = theValue / g_TblScale[index][2];
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}
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else if (autoScale == AUTOSCALE_1024K || autoScale == AUTOSCALE_1000K || theValue > (g_TblScale[index][3] * 0.99))
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{
wcsncat_s(format, L" k", _TRUNCATE);
value = theValue / g_TblScale[index][3];
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}
else
{
wcsncat_s(format, L" ", _TRUNCATE);
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value = theValue;
}
_snwprintf_s(buffer, sizeInWords, _TRUNCATE, format, value);
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}
void CMeasure::RemoveTrailingZero(WCHAR* str, int strLen)
{
--strLen;
while (strLen >= 0)
{
if (str[strLen] == L'0')
{
str[strLen] = L'\0';
--strLen;
}
else
{
if (str[strLen] == L'.')
{
str[strLen] = L'\0';
}
break;
}
}
}
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/*
** GetStats
**
** Returns the stats as string. The stats are shown in the About dialog.
*/
const WCHAR* CMeasure::GetStats()
{
return GetStringValue(AUTOSCALE_OFF, 1, -1, false);
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}
/*
** Create
**
** Creates the given measure. This is the factory method for the measures.
** If new measures are implemented this method needs to be updated.
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**
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*/
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CMeasure* CMeasure::Create(const WCHAR* measure, CMeterWindow* meterWindow, const WCHAR* name)
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{
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// Comparison is caseinsensitive
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if (*measure == L'\0')
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{
return NULL;
}
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else if (_wcsicmp(L"CPU", measure) == 0)
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{
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return new CMeasureCPU(meterWindow, name);
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}
else if (_wcsicmp(L"Memory", measure) == 0)
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{
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return new CMeasureMemory(meterWindow, name);
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}
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else if (_wcsicmp(L"NetIn", measure) == 0)
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{
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return new CMeasureNetIn(meterWindow, name);
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}
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else if (_wcsicmp(L"NetOut", measure) == 0)
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{
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return new CMeasureNetOut(meterWindow, name);
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}
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else if (_wcsicmp(L"NetTotal", measure) == 0)
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{
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return new CMeasureNetTotal(meterWindow, name);
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}
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else if (_wcsicmp(L"PhysicalMemory", measure) == 0)
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{
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return new CMeasurePhysicalMemory(meterWindow, name);
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}
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else if (_wcsicmp(L"SwapMemory", measure) == 0)
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{
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return new CMeasureVirtualMemory(meterWindow, name);
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}
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else if (_wcsicmp(L"FreeDiskSpace", measure) == 0)
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{
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return new CMeasureDiskSpace(meterWindow, name);
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}
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else if (_wcsicmp(L"Uptime", measure) == 0)
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{
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return new CMeasureUptime(meterWindow, name);
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}
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else if (_wcsicmp(L"Time", measure) == 0)
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{
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return new CMeasureTime(meterWindow, name);
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}
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else if (_wcsicmp(L"Plugin", measure) == 0)
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{
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return new CMeasurePlugin(meterWindow, name);
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}
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else if (_wcsicmp(L"Registry", measure) == 0)
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{
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return new CMeasureRegistry(meterWindow, name);
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}
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else if (_wcsicmp(L"Calc", measure) == 0)
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{
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return new CMeasureCalc(meterWindow, name);
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}
else if (_wcsicmp(L"Script", measure) == 0)
{
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return new CMeasureScript(meterWindow, name);
}
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// Error
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std::wstring error = L"Measure=";
error += measure;
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error += L" is not valid in section [";
error += name;
error += L"].";
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throw CError(error, __LINE__, __FILE__);
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return NULL;
}
/*
** ExecuteBang
**
** Executes a custom bang
*/
void CMeasure::ExecuteBang(const WCHAR* args)
{
LogWithArgs(LOG_WARNING, L"!CommandMeasure: Not supported by [%s]", m_Name.c_str());
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}