/* 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., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA. */ #include "StdAfx.h" #include "Error.h" #include "Meter.h" #include "MeterBitmap.h" #include "MeterBar.h" #include "MeterHistogram.h" #include "MeterString.h" #include "MeterImage.h" #include "MeterLine.h" #include "MeterRoundLine.h" #include "MeterRotator.h" #include "MeterButton.h" #include "Measure.h" #include "Rainmeter.h" using namespace Gdiplus; extern CRainmeter* Rainmeter; /* ** The constructor ** */ CMeter::CMeter(CMeterWindow* meterWindow, const WCHAR* name) : m_MeterWindow(meterWindow), m_Name(name), m_X(), m_Y(), m_W(), m_H(), m_Hidden(false), m_WDefined(false), m_HDefined(false), m_RelativeMeter(), m_DynamicVariables(false), m_Transformation(), m_ToolTipWidth(), m_ToolTipType(false), m_ToolTipHidden(meterWindow->GetMeterToolTipHidden()), m_ToolTipHandle(), m_HasMouseAction(false), m_MouseOver(false), m_RelativeX(POSITION_ABSOLUTE), m_RelativeY(POSITION_ABSOLUTE), m_UpdateDivider(1), m_UpdateCounter(1), m_SolidBevel(BEVELTYPE_NONE), m_SolidAngle(), m_AntiAlias(false), m_Initialized(false) { } /* ** The destructor ** */ CMeter::~CMeter() { delete m_Transformation; if (m_ToolTipHandle != NULL) { DestroyWindow(m_ToolTipHandle); } } /* ** Initializes the meter. Usually this method is overwritten by the inherited ** classes, which load bitmaps and such things during initialization. ** */ void CMeter::Initialize() { m_Initialized = true; } /* ** Returns the X-position of the meter. ** */ int CMeter::GetX(bool abs) { if (m_RelativeX != POSITION_ABSOLUTE && m_RelativeMeter) { if (m_RelativeX == POSITION_RELATIVE_TL) { return m_RelativeMeter->GetX(true) + m_X; } else { return m_RelativeMeter->GetX(true) + m_RelativeMeter->GetW() + m_X; } } return m_X; } /* ** Returns the Y-position of the meter. ** */ int CMeter::GetY(bool abs) { if (m_RelativeY != POSITION_ABSOLUTE && m_RelativeMeter) { if (m_RelativeY == POSITION_RELATIVE_TL) { return m_RelativeMeter->GetY() + m_Y; } else { return m_RelativeMeter->GetY() + m_RelativeMeter->GetH() + m_Y; } } return m_Y; } void CMeter::SetX(int x) { m_X = x; m_RelativeX = POSITION_ABSOLUTE; // Change the option as well to avoid reset in ReadOptions(). WCHAR buffer[32]; _itow_s(x, buffer, 10); m_MeterWindow->GetParser().SetValue(m_Name, L"X", buffer); } void CMeter::SetY(int y) { m_Y = y; m_RelativeY = POSITION_ABSOLUTE; // Change the option as well to avoid reset in ReadOptions(). WCHAR buffer[32]; _itow_s(y, buffer, 10); m_MeterWindow->GetParser().SetValue(m_Name, L"Y", buffer); } /* ** Returns a RECT containing the dimensions of the meter within the MeterWindow ** */ RECT CMeter::GetMeterRect() { RECT meterRect; meterRect.left = GetX(); meterRect.top = GetY(); meterRect.right = meterRect.left + m_W; meterRect.bottom = meterRect.top + m_H; return meterRect; } /* ** Checks if the given point is inside the meter. ** */ bool CMeter::HitTest(int x, int y) { if (x >= GetX() && x < GetX() + GetW() && y >= GetY() && y < GetY() + GetH()) { return true; } return false; } /* ** Shows the meter and tooltip. ** */ void CMeter::Show() { m_Hidden = false; // Change the option as well to avoid reset in ReadOptions(). m_MeterWindow->GetParser().SetValue(m_Name, L"Hidden", L"0"); if (m_ToolTipHandle != NULL) { if (!m_ToolTipHidden) { SendMessage(m_ToolTipHandle, TTM_ACTIVATE, TRUE, NULL); } } } /* ** Hides the meter and tooltip. ** */ void CMeter::Hide() { m_Hidden = true; // Change the option as well to avoid reset in ReadOptions(). m_MeterWindow->GetParser().SetValue(m_Name, L"Hidden", L"1"); if (m_ToolTipHandle != NULL) { SendMessage(m_ToolTipHandle, TTM_ACTIVATE, FALSE, NULL); } } /* ** Read the common options specified in the ini file. The inherited classes must ** call this base implementation if they overwrite this method. ** */ void CMeter::ReadOptions(CConfigParser& parser, const WCHAR* section) { // The MeterStyle defines a template where the values are read if the meter doesn't have it itself const std::wstring& style = parser.ReadString(section, L"MeterStyle", L""); if (!style.empty()) { parser.SetStyleTemplate(style); } BindMeasures(parser, section); int oldX = m_X; std::wstring& x = (std::wstring&)parser.ReadString(section, L"X", L"0"); if (!x.empty()) { WCHAR lastChar = x[x.size() - 1]; if (lastChar == L'r') { m_RelativeX = POSITION_RELATIVE_TL; x.pop_back(); } else if (lastChar == L'R') { m_RelativeX = POSITION_RELATIVE_BR; x.pop_back(); } else { m_RelativeX = POSITION_ABSOLUTE; } m_X = parser.ParseInt(x.c_str(), 0); } else { m_X = 0; m_RelativeX = POSITION_ABSOLUTE; } int oldY = m_Y; std::wstring& y = (std::wstring&)parser.ReadString(section, L"Y", L"0"); if (!y.empty()) { WCHAR lastChar = y[y.size() - 1]; if (lastChar == L'r') { m_RelativeY = POSITION_RELATIVE_TL; y.pop_back(); } else if (lastChar == L'R') { m_RelativeY = POSITION_RELATIVE_BR; y.pop_back(); } else { m_RelativeY = POSITION_ABSOLUTE; } m_Y = parser.ParseInt(y.c_str(), 0); } else { m_Y = 0; m_RelativeY = POSITION_ABSOLUTE; } m_W = parser.ReadInt(section, L"W", 1); m_WDefined = parser.GetLastValueDefined(); m_H = parser.ReadInt(section, L"H", 1); m_HDefined = parser.GetLastValueDefined(); bool oldHidden = m_Hidden; m_Hidden = 0!=parser.ReadInt(section, L"Hidden", 0); if (oldX != m_X || oldY != m_Y || oldHidden != m_Hidden) { m_MeterWindow->SetResizeWindowMode(RESIZEMODE_CHECK); // Need to recalculate the window size } m_SolidBevel = (BEVELTYPE)parser.ReadInt(section, L"BevelType", BEVELTYPE_NONE); m_SolidColor = parser.ReadColor(section, L"SolidColor", Color::MakeARGB(0, 0, 0, 0)); m_SolidColor2 = parser.ReadColor(section, L"SolidColor2", m_SolidColor.GetValue()); m_SolidAngle = (Gdiplus::REAL)parser.ReadFloat(section, L"GradientAngle", 0.0); m_Mouse.ReadOptions(parser, section, m_MeterWindow); m_HasMouseAction = !(m_Mouse.GetLeftUpAction().empty() && m_Mouse.GetLeftDownAction().empty() && m_Mouse.GetLeftDoubleClickAction().empty() && m_Mouse.GetMiddleUpAction().empty() && m_Mouse.GetMiddleDownAction().empty() && m_Mouse.GetMiddleDoubleClickAction().empty() && m_Mouse.GetRightUpAction().empty() && m_Mouse.GetRightDownAction().empty() && m_Mouse.GetRightDoubleClickAction().empty()); m_ToolTipText = parser.ReadString(section, L"ToolTipText", L""); m_ToolTipTitle = parser.ReadString(section, L"ToolTipTitle", L""); m_ToolTipIcon = parser.ReadString(section, L"ToolTipIcon", L""); m_ToolTipWidth = (int)parser.ReadFloat(section, L"ToolTipWidth", 1000); m_ToolTipType = 0!=parser.ReadInt(section, L"ToolTipType", 0); m_ToolTipHidden = 0!=parser.ReadInt(section, L"ToolTipHidden", m_MeterWindow->GetMeterToolTipHidden()); int updateDivider = parser.ReadInt(section, L"UpdateDivider", 1); if (updateDivider != m_UpdateDivider) { m_UpdateCounter = m_UpdateDivider = updateDivider; } m_AntiAlias = 0!=parser.ReadInt(section, L"AntiAlias", 0); m_DynamicVariables = 0!=parser.ReadInt(section, L"DynamicVariables", 0); std::vector matrix = parser.ReadFloats(section, L"TransformationMatrix"); if (matrix.size() == 6) { if (m_Transformation) { m_Transformation->SetElements(matrix[0], matrix[1], matrix[2], matrix[3], matrix[4], matrix[5]); } else { m_Transformation = new Matrix(matrix[0], matrix[1], matrix[2], matrix[3], matrix[4], matrix[5]); } } else if (!matrix.empty()) { delete m_Transformation; m_Transformation = NULL; LogWithArgs(LOG_ERROR, L"Meter: Incorrect number of values in TransformationMatrix=%s", parser.ReadString(section, L"TransformationMatrix", L"").c_str()); } const std::wstring& group = parser.ReadString(section, L"Group", L""); InitializeGroup(group); } /* ** Binds this meter to the given measure. The same measure can be bound to ** several meters but one meter and only be bound to one measure. ** */ void CMeter::BindMeasures(CConfigParser& parser, const WCHAR* section) { BindPrimaryMeasure(parser, section, false); } /* ** Creates the given meter. This is the factory method for the meters. ** If new meters are implemented this method needs to be updated. ** */ CMeter* CMeter::Create(const WCHAR* meter, CMeterWindow* meterWindow, const WCHAR* name) { if (_wcsicmp(L"STRING", meter) == 0) { return new CMeterString(meterWindow, name); } else if (_wcsicmp(L"IMAGE", meter) == 0) { return new CMeterImage(meterWindow, name); } else if (_wcsicmp(L"HISTOGRAM", meter) == 0) { return new CMeterHistogram(meterWindow, name); } else if (_wcsicmp(L"BAR", meter) == 0) { return new CMeterBar(meterWindow, name); } else if (_wcsicmp(L"BITMAP", meter) == 0) { return new CMeterBitmap(meterWindow, name); } else if (_wcsicmp(L"LINE", meter) == 0) { return new CMeterLine(meterWindow, name); } else if (_wcsicmp(L"ROUNDLINE", meter) == 0) { return new CMeterRoundLine(meterWindow, name); } else if (_wcsicmp(L"ROTATOR", meter) == 0) { return new CMeterRotator(meterWindow, name); } else if (_wcsicmp(L"BUTTON", meter) == 0) { return new CMeterButton(meterWindow, name); } LogWithArgs(LOG_ERROR, L"Meter=%s is not valid in [%s]", meter, name); return NULL; } /* ** Updates the value(s) from the measures. Derived classes should ** only update if this returns true; */ bool CMeter::Update() { // Only update the meter's value when the divider is equal to the counter ++m_UpdateCounter; if (m_UpdateCounter < m_UpdateDivider) return false; m_UpdateCounter = 0; return true; } /* ** Reads and binds the primary MeasureName. This must always be called in overridden ** BindMeasures() implementations. ** */ bool CMeter::BindPrimaryMeasure(CConfigParser& parser, const WCHAR* section, bool optional) { m_Measures.clear(); const std::wstring& measureName = parser.ReadString(section, L"MeasureName", L""); CMeasure* measure = parser.GetMeasure(measureName); if (measure) { m_Measures.push_back(measure); return true; } else if (!optional) { LogWithArgs(LOG_ERROR, L"MeasureName=%s is not valid in [%s]", measureName.c_str(), section); } return false; } /* ** Reads and binds secondary measures (MeasureName2 - MeasureNameN). ** */ void CMeter::BindSecondaryMeasures(CConfigParser& parser, const WCHAR* section) { if (!m_Measures.empty()) { WCHAR tmpName[64]; int i = 2; do { _snwprintf_s(tmpName, _TRUNCATE, L"MeasureName%i", i); const std::wstring& measureName = parser.ReadString(section, tmpName, L""); CMeasure* measure = parser.GetMeasure(measureName); if (measure) { m_Measures.push_back(measure); } else { if (!measureName.empty()) { LogWithArgs(LOG_ERROR, L"MeasureName%i=%s is not valid in [%s]", i, measureName.c_str(), section); } break; } ++i; } while (true); } } /* ** Replaces %1, %2, ... with the corresponding measure value. ** */ bool CMeter::ReplaceMeasures(std::wstring& str, AUTOSCALE autoScale, double scale, int decimals, bool percentual) { bool replaced = false; if (str.find(L'%') != std::wstring::npos) { WCHAR buffer[64]; for (size_t i = m_Measures.size(); i > 0; --i) { size_t len = _snwprintf_s(buffer, _TRUNCATE, L"%%%i", (int)i); size_t start = 0, pos; const WCHAR* measureValue = m_Measures[i - 1]->GetStringValue(autoScale, scale, decimals, percentual); int measureValueLen = wcslen(measureValue); do { pos = str.find(buffer, start, len); if (pos != std::wstring::npos) { str.replace(pos, len, measureValue, measureValueLen); start = pos + measureValueLen; replaced = true; } } while (pos != std::wstring::npos); } } return replaced; } /* ** Does the initial construction of the ToolTip for the meter */ void CMeter::CreateToolTip(CMeterWindow* meterWindow) { HWND hMeterWindow = m_MeterWindow->GetWindow(); HINSTANCE hInstance = Rainmeter->GetInstance(); DWORD style = WS_POPUP | TTS_NOPREFIX | TTS_ALWAYSTIP; if (m_ToolTipType) { style |= TTS_BALLOON; } HWND hwndTT = CreateWindowEx(WS_EX_TOPMOST, TOOLTIPS_CLASS, NULL, style, CW_USEDEFAULT, CW_USEDEFAULT, CW_USEDEFAULT, CW_USEDEFAULT, hMeterWindow, NULL, hInstance, NULL); if (hwndTT) { SetWindowPos(hwndTT, HWND_TOPMOST, 0, 0, 0, 0, SWP_NOMOVE | SWP_NOSIZE | SWP_NOACTIVATE); TOOLINFO ti = {sizeof(TOOLINFO), TTF_SUBCLASS, hMeterWindow, 0, GetMeterRect(), hInstance}; SendMessage(hwndTT, TTM_ADDTOOL, NULL, (LPARAM) (LPTOOLINFO) &ti); m_ToolTipHandle = hwndTT; UpdateToolTip(); } } /* ** Updates the ToolTip to match new values */ void CMeter::UpdateToolTip() { HWND hwndTT = m_ToolTipHandle; TOOLINFO ti = {sizeof(TOOLINFO)}; ti.hwnd = m_MeterWindow->GetWindow(); SendMessage(hwndTT, TTM_GETTOOLINFO, NULL, (LPARAM)&ti); std::wstring text = m_ToolTipText; ReplaceMeasures(text); ti.lpszText = (LPTSTR)text.c_str(); ti.rect = GetMeterRect(); SendMessage(hwndTT, TTM_SETTOOLINFO, NULL, (LPARAM)&ti); SendMessage(hwndTT, TTM_SETMAXTIPWIDTH, NULL, m_ToolTipWidth); if (!m_ToolTipTitle.empty()) { HICON hIcon = NULL; bool destroy = false; if (!m_ToolTipIcon.empty()) { const WCHAR* tipIcon = m_ToolTipIcon.c_str(); if (_wcsicmp(tipIcon, L"INFO") == 0) { hIcon = (HICON)TTI_INFO; } else if (_wcsicmp(tipIcon, L"WARNING") == 0) { hIcon = (HICON)TTI_WARNING; } else if (_wcsicmp(tipIcon, L"ERROR") == 0) { hIcon = (HICON)TTI_ERROR; } else if (_wcsicmp(tipIcon, L"QUESTION") == 0) { hIcon = LoadIcon(NULL, IDI_QUESTION); } else if (_wcsicmp(tipIcon, L"SHIELD") == 0) { hIcon = LoadIcon(NULL, IDI_SHIELD); } else { hIcon = (HICON)LoadImage(NULL, tipIcon, IMAGE_ICON, 0, 0, LR_LOADFROMFILE); destroy = true; } } text = m_ToolTipTitle; ReplaceMeasures(text); SendMessage(hwndTT, TTM_SETTITLE, (WPARAM) hIcon, (LPARAM)text.c_str()); if (destroy) { DestroyIcon(hIcon); } } if (m_ToolTipHidden) { SendMessage(hwndTT, TTM_ACTIVATE, FALSE, NULL); } else { SendMessage(hwndTT, TTM_ACTIVATE, !IsHidden(), NULL); } } /* ** Draws the solid background & bevel if such are defined */ bool CMeter::Draw(Graphics& graphics) { if (IsHidden()) return false; graphics.SetInterpolationMode(InterpolationModeDefault); graphics.SetCompositingQuality(CompositingQualityDefault); if (m_AntiAlias) { graphics.SetSmoothingMode(SmoothingModeHighQuality); graphics.SetPixelOffsetMode(PixelOffsetModeHighQuality); } else { graphics.SetSmoothingMode(SmoothingModeNone); graphics.SetPixelOffsetMode(PixelOffsetModeDefault); } if (m_SolidColor.GetA() != 0 || m_SolidColor2.GetA() != 0) { int x = GetX(); int y = GetY(); Rect r(x, y, m_W, m_H); if (m_SolidColor.GetValue() == m_SolidColor2.GetValue()) { SolidBrush solid(m_SolidColor); graphics.FillRectangle(&solid, r); } else { if (!m_AntiAlias) { // Fix the tiling issue in some GradientAngle values graphics.SetPixelOffsetMode(PixelOffsetModeHalf); } LinearGradientBrush gradient(r, m_SolidColor, m_SolidColor2, m_SolidAngle, TRUE); graphics.FillRectangle(&gradient, r); if (!m_AntiAlias) { graphics.SetPixelOffsetMode(PixelOffsetModeDefault); } } } if (m_SolidBevel != BEVELTYPE_NONE) { int x = GetX(); int y = GetY(); Color lightColor(255, 255, 255, 255); Color darkColor(255, 0, 0, 0); if (m_SolidBevel == BEVELTYPE_DOWN) { lightColor.SetValue(Color::MakeARGB(255, 0, 0, 0)); darkColor.SetValue(Color::MakeARGB(255, 255, 255, 255)); } Pen light(lightColor); Pen dark(darkColor); // The bevel is drawn outside the meter Rect rect(x - 2, y - 2, m_W + 4, m_H + 4); DrawBevel(graphics, rect, light, dark); } return true; } /* ** Draws a bevel inside the given area */ void CMeter::DrawBevel(Graphics& graphics, const Rect& rect, const Pen& light, const Pen& dark) { int l = rect.GetLeft(); int r = rect.GetRight() - 1; int t = rect.GetTop(); int b = rect.GetBottom() - 1; graphics.DrawLine(&light, l, t, l, b); graphics.DrawLine(&light, l, t, r, t); graphics.DrawLine(&light, l + 1, t + 1, l + 1, b - 1); graphics.DrawLine(&light, l + 1, t + 1, r - 1, t + 1); graphics.DrawLine(&dark, l, b, r, b); graphics.DrawLine(&dark, r, t, r, b); graphics.DrawLine(&dark, l + 1, b - 1, r - 1, b - 1); graphics.DrawLine(&dark, r - 1, t + 1, r - 1, b - 1); }