rainmeter-studio/Library/MeterHistogram.cpp

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/*
Copyright (C) 2001 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 "MeterHistogram.h"
#include "Measure.h"
#include "Error.h"
#include "Rainmeter.h"
using namespace Gdiplus;
extern CRainmeter* Rainmeter;
/*
** CMeterHistogram
**
** The constructor
**
*/
CMeterHistogram::CMeterHistogram(CMeterWindow* meterWindow) : CMeter(meterWindow),
m_PrimaryColor(Color::Green),
m_SecondaryColor(Color::Red),
m_BothColor(Color::Yellow)
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{
m_PrimaryImage.SetConfigAttributes(L"PrimaryImage", L"Primary");
m_SecondaryImage.SetConfigAttributes(L"SecondaryImage", L"Secondary");
m_BothImage.SetConfigAttributes(L"BothImage", L"Both");
m_PrimaryNeedsReload = false;
m_SecondaryNeedsReload = false;
m_BothNeedsReload = false;
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m_SecondaryMeasure = NULL;
m_MeterPos = 0;
m_PrimaryValues = NULL;
m_SecondaryValues = NULL;
m_Autoscale = false;
m_Flip = false;
m_MaxPrimaryValue = 1.0;
m_MinPrimaryValue = 0.0;
m_MaxSecondaryValue = 1.0;
m_MinSecondaryValue = 0.0;
m_WidthChanged = true;
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}
/*
** ~CMeterHistogram
**
** The destructor
**
*/
CMeterHistogram::~CMeterHistogram()
{
DisposeBuffer();
}
/*
** DisposeBuffer
**
** Disposes the buffers.
**
*/
void CMeterHistogram::DisposeBuffer()
{
// Reset current position
m_MeterPos = 0;
// Delete buffers
if (m_PrimaryValues)
{
delete [] m_PrimaryValues;
m_PrimaryValues = NULL;
}
if (m_SecondaryValues)
{
delete [] m_SecondaryValues;
m_SecondaryValues = NULL;
}
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}
/*
** Initialize
**
** Load the images and calculate the dimensions of the meter from them.
** Or create the brushes if solid color histogram is used.
**
*/
void CMeterHistogram::Initialize()
{
CMeter::Initialize();
// A sanity check
if (m_SecondaryMeasure && !m_PrimaryImageName.empty() && (m_BothImageName.empty() || m_SecondaryImageName.empty()))
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{
LSLog(LOG_DEBUG, APPNAME, L"You need to define SecondaryImage and BothImage also!");
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m_PrimaryImage.DisposeImage();
m_SecondaryImage.DisposeImage();
m_BothImage.DisposeImage();
}
else
{
// Load the bitmaps if defined
if (!m_PrimaryImageName.empty())
{
m_PrimaryImage.LoadImage(m_PrimaryImageName, m_PrimaryNeedsReload);
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if (m_PrimaryImage.IsLoaded())
{
int oldW = m_W;
Bitmap* bitmap = m_PrimaryImage.GetImage();
m_W = bitmap->GetWidth();
m_H = bitmap->GetHeight();
if (oldW != m_W)
{
m_WidthChanged = true;
}
}
}
else if (m_PrimaryImage.IsLoaded())
{
m_PrimaryImage.DisposeImage();
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}
if (!m_SecondaryImageName.empty())
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{
m_SecondaryImage.LoadImage(m_SecondaryImageName, m_SecondaryNeedsReload);
}
else if (m_SecondaryImage.IsLoaded())
{
m_SecondaryImage.DisposeImage();
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}
if (!m_BothImageName.empty())
{
m_BothImage.LoadImage(m_BothImageName, m_BothNeedsReload);
}
else if (m_BothImage.IsLoaded())
{
m_BothImage.DisposeImage();
}
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}
if ((!m_PrimaryImageName.empty() && !m_PrimaryImage.IsLoaded()) ||
(!m_SecondaryImageName.empty() && !m_SecondaryImage.IsLoaded()) ||
(!m_BothImageName.empty() && !m_BothImage.IsLoaded()))
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{
DisposeBuffer();
m_WidthChanged = false;
}
else if (m_WidthChanged)
{
DisposeBuffer();
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// Create buffers for values
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if (m_W > 0)
{
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m_PrimaryValues = new double[m_W];
memset(m_PrimaryValues, 0, sizeof(double) * m_W);
if (m_SecondaryMeasure)
{
m_SecondaryValues = new double[m_W];
memset(m_SecondaryValues, 0, sizeof(double) * m_W);
}
}
m_WidthChanged = false;
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}
}
/*
** ReadConfig
**
** Read the meter-specific configs from the ini-file.
**
*/
void CMeterHistogram::ReadConfig(const WCHAR* section)
{
// Store the current values so we know if the image needs to be updated
std::wstring oldPrimaryImageName = m_PrimaryImageName;
std::wstring oldSecondaryImageName = m_SecondaryImageName;
std::wstring oldBothImageName = m_BothImageName;
int oldW = m_W;
int oldH = m_H;
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// Read common configs
CMeter::ReadConfig(section);
CConfigParser& parser = m_MeterWindow->GetParser();
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m_PrimaryColor = parser.ReadColor(section, L"PrimaryColor", Color::Green);
m_SecondaryColor = parser.ReadColor(section, L"SecondaryColor", Color::Red);
m_BothColor = parser.ReadColor(section, L"BothColor", Color::Yellow);
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m_SecondaryMeasureName = parser.ReadString(section, L"MeasureName2", L"");
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if (m_SecondaryMeasureName.empty())
{
m_SecondaryMeasureName = parser.ReadString(section, L"SecondaryMeasureName", L"");
}
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m_PrimaryImageName = parser.ReadString(section, L"PrimaryImage", L"");
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if (!m_PrimaryImageName.empty())
{
m_PrimaryImageName = m_MeterWindow->MakePathAbsolute(m_PrimaryImageName);
// Read tinting configs
m_PrimaryImage.ReadConfig(parser, section);
}
else
{
m_PrimaryImage.ClearConfigFlags();
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}
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m_SecondaryImageName = parser.ReadString(section, L"SecondaryImage", L"");
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if (!m_SecondaryImageName.empty())
{
m_SecondaryImageName = m_MeterWindow->MakePathAbsolute(m_SecondaryImageName);
// Read tinting configs
m_SecondaryImage.ReadConfig(parser, section);
}
else
{
m_SecondaryImage.ClearConfigFlags();
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}
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m_BothImageName = parser.ReadString(section, L"BothImage", L"");
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if (!m_BothImageName.empty())
{
m_BothImageName = m_MeterWindow->MakePathAbsolute(m_BothImageName);
// Read tinting configs
m_BothImage.ReadConfig(parser, section);
}
else
{
m_BothImage.ClearConfigFlags();
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}
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m_Autoscale = 0!=parser.ReadInt(section, L"AutoScale", 0);
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m_Flip = 0!=parser.ReadInt(section, L"Flip", 0);
if (m_Initialized)
{
if (m_PrimaryImageName.empty())
{
if (oldW != m_W)
{
m_WidthChanged = true;
Initialize(); // Reload the image
}
}
else
{
// Reset to old dimensions
m_W = oldW;
m_H = oldH;
m_PrimaryNeedsReload = (oldPrimaryImageName != m_PrimaryImageName);
m_SecondaryNeedsReload = (oldSecondaryImageName != m_SecondaryImageName);
m_BothNeedsReload = (oldBothImageName != m_BothImageName);
if (m_PrimaryNeedsReload ||
m_SecondaryNeedsReload ||
m_BothNeedsReload ||
m_PrimaryImage.IsConfigsChanged() ||
m_SecondaryImage.IsConfigsChanged() ||
m_BothImage.IsConfigsChanged())
{
Initialize(); // Reload the image
}
}
}
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}
/*
** Update
**
** Updates the value(s) from the measures.
**
*/
bool CMeterHistogram::Update()
{
if (CMeter::Update() && m_Measure && m_PrimaryValues)
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{
// Gather values
m_PrimaryValues[m_MeterPos] = m_Measure->GetValue();
if (m_SecondaryMeasure && m_SecondaryValues)
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{
m_SecondaryValues[m_MeterPos] = m_SecondaryMeasure->GetValue();
}
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++m_MeterPos;
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m_MeterPos %= m_W;
m_MaxPrimaryValue = m_Measure->GetMaxValue();
m_MinPrimaryValue = m_Measure->GetMinValue();
m_MaxSecondaryValue = 0.0;
m_MinSecondaryValue = 0.0;
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if (m_SecondaryMeasure)
{
m_MaxSecondaryValue = m_SecondaryMeasure->GetMaxValue();
m_MinSecondaryValue = m_SecondaryMeasure->GetMinValue();
}
if (m_Autoscale)
{
// Go through all values and find the max
double newValue = 0.0;
for (int i = 0; i < m_W; ++i)
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{
newValue = max(newValue, m_PrimaryValues[i]);
}
// Scale the value up to nearest power of 2
if (newValue > DBL_MAX / 2.0)
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{
m_MaxPrimaryValue = DBL_MAX;
}
else
{
m_MaxPrimaryValue = 2.0;
while (m_MaxPrimaryValue < newValue)
{
m_MaxPrimaryValue *= 2.0;
}
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}
if (m_SecondaryMeasure && m_SecondaryValues)
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{
for (int i = 0; i < m_W; ++i)
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{
newValue = max(newValue, m_SecondaryValues[i]);
}
// Scale the value up to nearest power of 2
if (newValue > DBL_MAX / 2.0)
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{
m_MaxSecondaryValue = DBL_MAX;
}
else
{
m_MaxSecondaryValue = 2.0;
while (m_MaxSecondaryValue < newValue)
{
m_MaxSecondaryValue *= 2.0;
}
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}
}
}
return true;
}
return false;
}
/*
** Draw
**
** Draws the meter on the double buffer
**
*/
bool CMeterHistogram::Draw(Graphics& graphics)
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{
if(!CMeter::Draw(graphics) ||
(m_Measure && !m_PrimaryValues) ||
(m_SecondaryMeasure && !m_SecondaryValues)) return false;
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GraphicsPath primaryPath;
GraphicsPath secondaryPath;
GraphicsPath bothPath;
Bitmap* primaryBitmap = m_PrimaryImage.GetImage();
Bitmap* secondaryBitmap = m_SecondaryImage.GetImage();
Bitmap* bothBitmap = m_BothImage.GetImage();
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int x = GetX();
int y = GetY();
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for (int i = 0; i < m_W; ++i)
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{
double value = (m_MaxPrimaryValue == 0.0) ?
0.0
: m_PrimaryValues[(i + m_MeterPos) % m_W] / m_MaxPrimaryValue;
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value -= m_MinPrimaryValue;
int primaryBarHeight = (int)(m_H * value);
primaryBarHeight = min(m_H, primaryBarHeight);
primaryBarHeight = max(0, primaryBarHeight);
if (m_SecondaryMeasure)
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{
value = (m_MaxSecondaryValue == 0.0) ?
0.0
: m_SecondaryValues[(i + m_MeterPos) % m_W] / m_MaxSecondaryValue;
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value -= m_MinSecondaryValue;
int secondaryBarHeight = (int)(m_H * value);
secondaryBarHeight = min(m_H, secondaryBarHeight);
secondaryBarHeight = max(0, secondaryBarHeight);
// Check which measured value is higher
int bothBarHeight = min(primaryBarHeight, secondaryBarHeight);
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// Cache image/color rectangle for the both lines
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{
Rect& r = (m_Flip) ?
Rect(x + i, y, 1, bothBarHeight)
: Rect(x + i, y + m_H - bothBarHeight, 1, bothBarHeight);
bothPath.AddRectangle(r); // cache
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}
// Cache the image/color rectangle for the rest
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if (secondaryBarHeight > primaryBarHeight)
{
Rect& r = (m_Flip) ?
Rect(x + i, y + bothBarHeight, 1, secondaryBarHeight - bothBarHeight)
: Rect(x + i, y + m_H - secondaryBarHeight, 1, secondaryBarHeight - bothBarHeight);
secondaryPath.AddRectangle(r); // cache
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}
else
{
Rect& r = (m_Flip) ?
Rect(x + i, y + bothBarHeight, 1, primaryBarHeight - bothBarHeight)
: Rect(x + i, y + m_H - primaryBarHeight, 1, primaryBarHeight - bothBarHeight);
primaryPath.AddRectangle(r); // cache
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}
}
else
{
Rect& r = (m_Flip) ?
Rect(x + i, y, 1, primaryBarHeight)
: Rect(x + i, y + m_H - primaryBarHeight, 1, primaryBarHeight);
primaryPath.AddRectangle(r); // cache
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}
}
// Draw cached rectangles
if (primaryBitmap)
{
Rect r(x, y, primaryBitmap->GetWidth(), primaryBitmap->GetHeight());
graphics.SetClip(&primaryPath);
graphics.DrawImage(primaryBitmap, r, 0, 0, r.Width, r.Height, UnitPixel);
graphics.ResetClip();
}
else
{
SolidBrush brush(m_PrimaryColor);
graphics.FillPath(&brush, &primaryPath);
}
if (m_SecondaryMeasure)
{
if (secondaryBitmap)
{
Rect r(x, y, secondaryBitmap->GetWidth(), secondaryBitmap->GetHeight());
graphics.SetClip(&secondaryPath);
graphics.DrawImage(secondaryBitmap, r, 0, 0, r.Width, r.Height, UnitPixel);
graphics.ResetClip();
}
else
{
SolidBrush brush(m_SecondaryColor);
graphics.FillPath(&brush, &secondaryPath);
}
if (bothBitmap)
{
Rect r(x, y, bothBitmap->GetWidth(), bothBitmap->GetHeight());
graphics.SetClip(&bothPath);
graphics.DrawImage(bothBitmap, r, 0, 0, r.Width, r.Height, UnitPixel);
graphics.ResetClip();
}
else
{
SolidBrush brush(m_BothColor);
graphics.FillPath(&brush, &bothPath);
}
}
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return true;
}
/*
** BindMeasure
**
** Overwritten method to handle the secondary measure binding.
**
*/
void CMeterHistogram::BindMeasure(const std::list<CMeasure*>& measures)
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{
CMeter::BindMeasure(measures);
if(!m_SecondaryMeasureName.empty())
{
// Go through the list and check it there is a secondary measure for us
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std::list<CMeasure*>::const_iterator i = measures.begin();
for( ; i != measures.end(); ++i)
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{
if(_wcsicmp((*i)->GetName(), m_SecondaryMeasureName.c_str()) == 0)
{
m_SecondaryMeasure = (*i);
CMeter::SetAllMeasures(m_SecondaryMeasure);
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return;
}
}
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std::wstring error = L"The meter [" + m_Name;
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error += L"] cannot be bound with [";
error += m_SecondaryMeasureName;
error += L"]!";
throw CError(error, __LINE__, __FILE__);
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}
}