/* 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" #include "MeterString.h" #include "Rainmeter.h" #include "Measure.h" #include "Error.h" using namespace Gdiplus; std::unordered_map CMeterString::c_FontFamilies; std::unordered_map CMeterString::c_Fonts; #define PI (3.14159265f) #define CONVERT_TO_DEGREES(X) ((X) * (180.0f / PI)) void StringToUpper(std::wstring& str) { //change each element of the string to upper case std::transform(str.begin(), str.end(), str.begin(), ::towupper); } void StringToLower(std::wstring& str) { //change each element of the string to lower case std::transform(str.begin(), str.end(), str.begin(), ::towlower); } void StringToProper(std::wstring& str) { //change each element of the string to lower case if (!str.empty()) { str[0] = towupper(str[0]); for (size_t i = 1; i < str.length(); ++i) { if (str[i-1] == L' ') { str[i] = towupper(str[i]); } else { str[i] = towlower(str[i]); } } } } /* ** CMeterString ** ** The constructor ** */ CMeterString::CMeterString(CMeterWindow* meterWindow, const WCHAR* name) : CMeter(meterWindow, name), m_Color(Color::White), m_EffectColor(Color::Black), m_AutoScale(AUTOSCALE_OFF), m_Align(ALIGN_LEFT), m_Style(NORMAL), m_Effect(EFFECT_NONE), m_textCase(TEXTCASE_NONE), m_FontSize(10), m_Scale(1.0), m_NoDecimals(true), m_Percentual(true), m_ClipString(false), m_Font(), m_FontFamily(), m_NumOfDecimals(-1), m_Angle() { } /* ** ~CMeterString ** ** The destructor ** */ CMeterString::~CMeterString() { } /* ** GetX ** ** Returns the X-coordinate of the meter ** */ int CMeterString::GetX(bool abs) { int x = CMeter::GetX(); if (!abs) { switch (m_Align) { case ALIGN_CENTER: x = x - (m_W / 2); break; case ALIGN_RIGHT: x -= m_W; break; case ALIGN_LEFT: // This is already correct break; } } return x; } /* ** Initialize ** ** Create the font that is used to draw the text. ** */ void CMeterString::Initialize() { CMeter::Initialize(); // Check if the font family is in the cache and use it std::wstring cacheKey; std::wstring systemFontFaceKey = FontFaceToString(m_FontFace, NULL); std::unordered_map::const_iterator iter = c_FontFamilies.find(systemFontFaceKey); if (iter != c_FontFamilies.end()) { m_FontFamily = (*iter).second; cacheKey = systemFontFaceKey; } else { m_FontFamily = NULL; PrivateFontCollection* collection = m_MeterWindow->GetPrivateFontCollection(); std::wstring privateFontFaceKey; if (collection) { // Check if the private font family is in the cache and use it privateFontFaceKey = FontFaceToString(m_FontFace, collection); iter = c_FontFamilies.find(privateFontFaceKey); if (iter != c_FontFamilies.end()) { m_FontFamily = (*iter).second; cacheKey = privateFontFaceKey; } } if (m_FontFamily == NULL) // Not found in the cache { m_FontFamily = new FontFamily(m_FontFace.c_str()); Status status = m_FontFamily->GetLastStatus(); if (Ok == status) { cacheKey = systemFontFaceKey; } else { delete m_FontFamily; // It couldn't find the font family // Therefore we look in the privatefontcollection of this meters MeterWindow if (collection) { m_FontFamily = new FontFamily(m_FontFace.c_str(), collection); status = m_FontFamily->GetLastStatus(); if (Ok == status) { cacheKey = privateFontFaceKey; } } else { m_FontFamily = NULL; } // It couldn't find the font family: Log it. if (Ok != status) { std::wstring error = L"String: Unable to load font: " + m_FontFace; Log(LOG_ERROR, error.c_str()); delete m_FontFamily; m_FontFamily = NULL; cacheKey = L"<>"; // set dummy key } } if (m_FontFamily) { // Cache //LogWithArgs(LOG_DEBUG, L"FontFamilyCache-Add: %s", cacheKey.c_str()); c_FontFamilies[cacheKey] = m_FontFamily; } } } FontStyle style = FontStyleRegular; switch (m_Style) { case ITALIC: style = FontStyleItalic; break; case BOLD: style = FontStyleBold; break; case BOLDITALIC: style = FontStyleBoldItalic; break; } // Adjust the font size with screen DPI HDC dc = GetDC(0); int dpi = GetDeviceCaps(dc, LOGPIXELSX); ReleaseDC(0, dc); REAL size = (REAL)m_FontSize * (96.0f / (REAL)dpi); // Check if the font is in the cache and use it cacheKey += L"-"; cacheKey += FontPropertiesToString(size, style); std::unordered_map::const_iterator iter2 = c_Fonts.find(cacheKey); if (iter2 != c_Fonts.end()) { m_Font = (*iter2).second; } else { if (m_FontFamily) { m_Font = new Gdiplus::Font(m_FontFamily, size, style); } else { m_Font = new Gdiplus::Font(FontFamily::GenericSansSerif (), size, style); } Status status = m_Font->GetLastStatus(); if (Ok == status) { // Cache //LogWithArgs(LOG_DEBUG, L"FontCache-Add: %s", cacheKey.c_str()); c_Fonts[cacheKey] = m_Font; } else { delete m_Font; m_Font = NULL; if (m_FontSize != 0) { std::wstring error = L"String: Unable to create font: " + m_FontFace; throw CError(error, __LINE__, __FILE__); } } } } /* ** ReadConfig ** ** Read the meter-specific configs from the ini-file. ** */ void CMeterString::ReadConfig(CConfigParser& parser, const WCHAR* section) { // Store the current font values so we know if the font needs to be updated std::wstring oldFontFace = m_FontFace; int oldFontSize = m_FontSize; TEXTSTYLE oldStyle = m_Style; // Read common configs CMeter::ReadConfig(parser, section); // Check for extra measures if (!m_Initialized && !m_MeasureName.empty()) { ReadMeasureNames(parser, section, m_MeasureNames); } m_Color = parser.ReadColor(section, L"FontColor", Color::Black); m_EffectColor = parser.ReadColor(section, L"FontEffectColor", Color::Black); m_Prefix = parser.ReadString(section, L"Prefix", L""); m_Postfix = parser.ReadString(section, L"Postfix", L""); m_Text = parser.ReadString(section, L"Text", L""); m_Percentual = 0!=parser.ReadInt(section, L"Percentual", 0); m_ClipString = 0!=parser.ReadInt(section, L"ClipString", 0); m_FontFace = parser.ReadString(section, L"FontFace", L"Arial"); if (m_FontFace.empty()) { m_FontFace = L"Arial"; } m_FontSize = (int)parser.ReadFormula(section, L"FontSize", 10); if (m_FontSize < 0) { m_FontSize = 10; } m_NumOfDecimals = parser.ReadInt(section, L"NumOfDecimals", -1); m_Angle = (Gdiplus::REAL)parser.ReadFloat(section, L"Angle", 0.0); const std::wstring& autoscale = parser.ReadString(section, L"AutoScale", L"0"); int autoscaleValue = _wtoi(autoscale.c_str()); if (autoscaleValue == 0) { m_AutoScale = AUTOSCALE_OFF; } else { if (autoscale.find_last_of(L"kK") == std::wstring::npos) { m_AutoScale = (autoscaleValue == 2) ? AUTOSCALE_1000 : AUTOSCALE_1024; } else { m_AutoScale = (autoscaleValue == 2) ? AUTOSCALE_1000K : AUTOSCALE_1024K; } } const std::wstring& scale = parser.ReadString(section, L"Scale", L"1"); if (scale.find(L'.') == std::wstring::npos) { m_NoDecimals = true; } else { m_NoDecimals = false; } m_Scale = wcstod(scale.c_str(), NULL); const std::wstring& align = parser.ReadString(section, L"StringAlign", L"LEFT"); if (_wcsicmp(align.c_str(), L"LEFT") == 0) { m_Align = ALIGN_LEFT; } else if (_wcsicmp(align.c_str(), L"RIGHT") == 0) { m_Align = ALIGN_RIGHT; } else if (_wcsicmp(align.c_str(), L"CENTER") == 0) { m_Align = ALIGN_CENTER; } else { std::wstring error = L"StringAlign=" + align; error += L" is not valid in meter ["; error += m_Name; error += L"]."; throw CError(error, __LINE__, __FILE__); } const std::wstring& stringCase = parser.ReadString(section, L"StringCase", L"NONE"); if (_wcsicmp(stringCase.c_str(), L"NONE") == 0) { m_textCase = TEXTCASE_NONE; } else if (_wcsicmp(stringCase.c_str(), L"UPPER") == 0) { m_textCase = TEXTCASE_UPPER; } else if (_wcsicmp(stringCase.c_str(), L"LOWER") == 0) { m_textCase = TEXTCASE_LOWER; } else if (_wcsicmp(stringCase.c_str(), L"PROPER") == 0) { m_textCase = TEXTCASE_PROPER; } else { std::wstring error = L"StringCase=" + stringCase; error += L" is not valid in meter ["; error += m_Name; error += L"]."; throw CError(error, __LINE__, __FILE__); } const std::wstring& style = parser.ReadString(section, L"StringStyle", L"NORMAL"); if (_wcsicmp(style.c_str(), L"NORMAL") == 0) { m_Style = NORMAL; } else if (_wcsicmp(style.c_str(), L"BOLD") == 0) { m_Style = BOLD; } else if (_wcsicmp(style.c_str(), L"ITALIC") == 0) { m_Style = ITALIC; } else if (_wcsicmp(style.c_str(), L"BOLDITALIC") == 0) { m_Style = BOLDITALIC; } else { std::wstring error = L"StringStyle=" + style; error += L" is not valid in meter ["; error += m_Name; error += L"]."; throw CError(error, __LINE__, __FILE__); } const std::wstring& effect = parser.ReadString(section, L"StringEffect", L"NONE"); if (_wcsicmp(effect.c_str(), L"NONE") == 0) { m_Effect = EFFECT_NONE; } else if (_wcsicmp(effect.c_str(), L"SHADOW") == 0) { m_Effect = EFFECT_SHADOW; } else if (_wcsicmp(effect.c_str(), L"BORDER") == 0) { m_Effect = EFFECT_BORDER; } else { std::wstring error = L"StringEffect=" + effect; error += L" is not valid in meter ["; error += m_Name; error += L"]."; throw CError(error, __LINE__, __FILE__); } if (m_Initialized && (oldFontFace != m_FontFace || oldFontSize != m_FontSize || oldStyle != m_Style)) { Initialize(); // Recreate the font } } /* ** Update ** ** Updates the value(s) from the measures. ** */ bool CMeterString::Update() { if (CMeter::Update()) { std::vector stringValues; int decimals = (m_NumOfDecimals != -1) ? m_NumOfDecimals : (m_NoDecimals && (m_Percentual || m_AutoScale == AUTOSCALE_OFF)) ? 0 : 1; if (m_Measure) stringValues.push_back(m_Measure->GetStringValue(m_AutoScale, m_Scale, decimals, m_Percentual)); // Get the values for the other measures std::vector::const_iterator iter = m_Measures.begin(); for ( ; iter != m_Measures.end(); ++iter) { stringValues.push_back((*iter)->GetStringValue(m_AutoScale, m_Scale, decimals, m_Percentual)); } // Create the text m_String = m_Prefix; if (m_Text.empty()) { if (!stringValues.empty()) { m_String += stringValues[0]; } } else if (!stringValues.empty()) { std::wstring tmpText = m_Text; ReplaceMeasures(stringValues, tmpText); m_String += tmpText; } else { m_String += m_Text; } if (!m_Postfix.empty()) m_String += m_Postfix; switch (m_textCase) { case TEXTCASE_UPPER: StringToUpper(m_String); break; case TEXTCASE_LOWER: StringToLower(m_String); break; case TEXTCASE_PROPER: StringToProper(m_String); break; } if (!m_WDefined || !m_HDefined) { // Calculate the text size RectF rect; Graphics graphics(m_MeterWindow->GetDoubleBuffer()); if (DrawString(graphics, &rect)) { m_W = (int)rect.Width; m_H = (int)rect.Height; } else { m_W = 1; m_H = 1; } } return true; } return false; } /* ** Draw ** ** Draws the meter on the double buffer ** */ bool CMeterString::Draw(Graphics& graphics) { if (!CMeter::Draw(graphics)) return false; return DrawString(graphics, NULL); } /* ** DrawString ** ** Draws the string or calculates it's size ** */ bool CMeterString::DrawString(Graphics& graphics, RectF* rect) { if (m_Font == NULL) return false; LPCWSTR string = m_String.c_str(); int stringLen = (int)m_String.length(); StringFormat stringFormat; if (m_AntiAlias) { graphics.SetTextRenderingHint(TextRenderingHintAntiAlias); } else { graphics.SetTextRenderingHint(TextRenderingHintSingleBitPerPixelGridFit); } switch (m_Align) { case ALIGN_CENTER: stringFormat.SetAlignment(StringAlignmentCenter); break; case ALIGN_RIGHT: stringFormat.SetAlignment(StringAlignmentFar); break; case ALIGN_LEFT: stringFormat.SetAlignment(StringAlignmentNear); break; } if (m_ClipString) { stringFormat.SetTrimming(StringTrimmingEllipsisCharacter); } else { stringFormat.SetTrimming(StringTrimmingNone); stringFormat.SetFormatFlags(StringFormatFlagsNoClip | StringFormatFlagsNoWrap); } CharacterRange range(0, stringLen); stringFormat.SetMeasurableCharacterRanges(1, &range); REAL x = (REAL)GetX(); REAL y = (REAL)GetY(); if (rect) { PointF pos(x, y); graphics.MeasureString(string, stringLen, m_Font, pos, &stringFormat, rect); } else { RectF rcDest(x, y, (REAL)m_W, (REAL)m_H); m_Rect = rcDest; if (m_Angle != 0.0f) { graphics.TranslateTransform((Gdiplus::REAL)CMeter::GetX(), y); graphics.RotateTransform(CONVERT_TO_DEGREES(m_Angle)); graphics.TranslateTransform(-(Gdiplus::REAL)CMeter::GetX(), -y); } if (m_Effect != EFFECT_NONE) { SolidBrush solidBrush(m_EffectColor); RectF rcEffect(rcDest); if (m_Effect == EFFECT_SHADOW) { rcEffect.Offset(1, 1); graphics.DrawString(string, stringLen, m_Font, rcEffect, &stringFormat, &solidBrush); } else //if (m_Effect == EFFECT_BORDER) { rcEffect.Offset(0, 1); graphics.DrawString(string, stringLen, m_Font, rcEffect, &stringFormat, &solidBrush); rcEffect.Offset(1, -1); graphics.DrawString(string, stringLen, m_Font, rcEffect, &stringFormat, &solidBrush); rcEffect.Offset(-1, -1); graphics.DrawString(string, stringLen, m_Font, rcEffect, &stringFormat, &solidBrush); rcEffect.Offset(-1, 1); graphics.DrawString(string, stringLen, m_Font, rcEffect, &stringFormat, &solidBrush); } } SolidBrush solidBrush(m_Color); graphics.DrawString(string, stringLen, m_Font, rcDest, &stringFormat, &solidBrush); if (m_Angle != 0.0f) { graphics.ResetTransform(); } } return true; } /* ** BindMeasure ** ** Overridden method. The string meters need not to be bound on anything ** */ void CMeterString::BindMeasure(const std::list& measures) { if (m_MeasureName.empty()) return; // Allow NULL measure binding CMeter::BindMeasure(measures); std::vector::const_iterator j = m_MeasureNames.begin(); for (; j != m_MeasureNames.end(); ++j) { // Go through the list and check it there is a secondary measures for us std::list::const_iterator i = measures.begin(); for ( ; i != measures.end(); ++i) { if (_wcsicmp((*i)->GetName(), (*j).c_str()) == 0) { m_Measures.push_back(*i); break; } } if (i == measures.end()) { std::wstring error = L"The meter [" + m_Name; error += L"] cannot be bound with ["; error += (*j); error += L"]!"; throw CError(error, __LINE__, __FILE__); } } CMeter::SetAllMeasures(m_Measures); } /* ** FreeFontCache ** ** Static function which frees the font cache. ** If collection is not NULL, frees the private font cache. ** */ void CMeterString::FreeFontCache(PrivateFontCollection* collection) { std::wstring prefix; if (collection) { WCHAR buffer[32]; _snwprintf_s(buffer, _TRUNCATE, L"<%p>", collection); prefix = buffer; StringToLower(prefix); } std::unordered_map::iterator iter2 = c_Fonts.begin(); while (iter2 != c_Fonts.end()) { if (collection == NULL || wcsncmp((*iter2).first.c_str(), prefix.c_str(), prefix.length()) == 0) { //LogWithArgs(LOG_DEBUG, L"FontCache-Remove: %s", (*iter2).first.c_str()); delete (*iter2).second; if (collection) { c_Fonts.erase(iter2++); continue; } } ++iter2; } if (collection == NULL) c_Fonts.clear(); std::unordered_map::iterator iter = c_FontFamilies.begin(); while (iter != c_FontFamilies.end()) { if (collection == NULL || wcsncmp((*iter).first.c_str(), prefix.c_str(), prefix.length()) == 0) { //LogWithArgs(LOG_DEBUG, L"FontFamilyCache-Remove: %s", (*iter).first.c_str()); delete (*iter).second; if (collection) { c_FontFamilies.erase(iter++); continue; } } ++iter; } if (collection == NULL) c_FontFamilies.clear(); } /* ** FontFaceToString ** ** Static helper to convert font name to a string so it can be used as a key for the cache map. ** */ std::wstring CMeterString::FontFaceToString(const std::wstring& fontFace, PrivateFontCollection* collection) { WCHAR buffer[32]; _snwprintf_s(buffer, _TRUNCATE, L"<%p>", collection); std::wstring strTmp = buffer + fontFace; StringToLower(strTmp); return strTmp; } /* ** FontPropertiesToString ** ** Static helper to convert font properties to a string so it can be used as a key for the cache map. ** */ std::wstring CMeterString::FontPropertiesToString(REAL size, FontStyle style) { WCHAR buffer[64]; _snwprintf_s(buffer, _TRUNCATE, L"%.1f-%i", size, (int)style); return buffer; } /* ** EnumerateInstalledFontFamilies ** ** Static helper to log all installed font families. ** */ void CMeterString::EnumerateInstalledFontFamilies() { INT fontCount; InstalledFontCollection fontCollection; if (Ok == fontCollection.GetLastStatus()) { fontCount = fontCollection.GetFamilyCount(); if (fontCount > 0) { INT fontFound; FontFamily* fontFamilies = new FontFamily[fontCount]; if (Ok == fontCollection.GetFamilies(fontCount, fontFamilies, &fontFound)) { std::wstring fonts; for (INT i = 0; i < fontCount; ++i) { WCHAR familyName[LF_FACESIZE]; if (Ok == fontFamilies[i].GetFamilyName(familyName)) { fonts += familyName; } else { fonts += L"***"; } fonts += L", "; } Log(LOG_NOTICE, fonts.c_str()); } else { Log(LOG_ERROR, L"Font enumeration: GetFamilies failed"); } delete [] fontFamilies; } else { Log(LOG_WARNING, L"No installed fonts"); } } else { Log(LOG_ERROR, L"Font enumeration: InstalledFontCollection failed"); } }