/* Copyright (C) 2002 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 "MeterImage.h" #include "Measure.h" #include "Error.h" #include "Rainmeter.h" #include "System.h" #include "../Common/Gfx/Canvas.h" extern Rainmeter* g_Rainmeter; using namespace Gdiplus; /* ** The constructor ** */ MeterImage::MeterImage(MeterWindow* meterWindow, const WCHAR* name) : Meter(meterWindow, name), m_Image(L"ImageName", nullptr, false, meterWindow), m_NeedsRedraw(false), m_DrawMode(DRAWMODE_NONE), m_ScaleMargins() { } /* ** The destructor ** */ MeterImage::~MeterImage() { } /* ** Load the image and get the dimensions of the meter from it. ** */ void MeterImage::Initialize() { Meter::Initialize(); if (m_Measures.empty() && !m_DynamicVariables && !m_ImageName.empty()) { LoadImage(m_ImageName, true); } } /* ** Loads the image from disk ** */ void MeterImage::LoadImage(const std::wstring& imageName, bool bLoadAlways) { m_Image.LoadImage(imageName, bLoadAlways); if (m_Image.IsLoaded()) { // Calculate size of the meter Bitmap* bitmap = m_Image.GetImage(); int imageW = bitmap->GetWidth(); int imageH = bitmap->GetHeight(); if (m_WDefined) { if (!m_HDefined) { m_H = (imageW == 0) ? 0 : (m_DrawMode == DRAWMODE_TILE) ? imageH : m_W * imageH / imageW; } } else { if (m_HDefined) { m_W = (imageH == 0) ? 0 : (m_DrawMode == DRAWMODE_TILE) ? imageW : m_H * imageW / imageH; } else { m_W = imageW; m_H = imageH; } } } } /* ** Read the options specified in the ini file. ** */ void MeterImage::ReadOptions(ConfigParser& parser, const WCHAR* section) { Meter::ReadOptions(parser, section); m_ImageName = parser.ReadString(section, L"ImageName", L""); int mode = parser.ReadInt(section, L"Tile", 0); if (mode != 0) { m_DrawMode = DRAWMODE_TILE; } else { mode = parser.ReadInt(section, L"PreserveAspectRatio", 0); switch (mode) { case 0: m_DrawMode = DRAWMODE_NONE; break; case 1: default: m_DrawMode = DRAWMODE_KEEPRATIO; break; case 2: m_DrawMode = DRAWMODE_KEEPRATIOANDCROP; break; } } static const RECT defMargins = {0}; m_ScaleMargins = parser.ReadRECT(section, L"ScaleMargins", defMargins); // Deprecated! std::wstring path = parser.ReadString(section, L"Path", L""); if (!path.empty()) { if (!System::IsPathSeparator(path[path.length() - 1])) { path += L'\\'; } } // Read tinting options m_Image.ReadOptions(parser, section, path.c_str()); if (m_Initialized && m_Measures.empty() && !m_DynamicVariables) { Initialize(); m_NeedsRedraw = true; } } /* ** Updates the value(s) from the measures. ** */ bool MeterImage::Update() { if (Meter::Update()) { if (!m_Measures.empty() || m_DynamicVariables) { // Store the current values so we know if the image needs to be updated std::wstring oldResult = m_ImageName; if (!m_Measures.empty()) // read from the measures { if (m_ImageName.empty()) { m_ImageName = m_Measures[0]->GetStringOrFormattedValue(AUTOSCALE_OFF, 1, 0, false); } else { m_ImageName = m_ImageName; if (!ReplaceMeasures(m_ImageName, AUTOSCALE_OFF)) { // ImageName doesn't contain any measures, so use the result of MeasureName. m_ImageName = m_Measures[0]->GetStringOrFormattedValue(AUTOSCALE_OFF, 1, 0, false); } } } LoadImage(m_ImageName, (wcscmp(oldResult.c_str(), m_ImageName.c_str()) != 0)); return true; } else if (m_NeedsRedraw) { m_NeedsRedraw = false; return true; } } return false; } /* ** Draws the meter on the double buffer ** */ bool MeterImage::Draw(Gfx::Canvas& canvas) { if (!Meter::Draw(canvas)) return false; if (m_Image.IsLoaded()) { // Copy the image over the doublebuffer Bitmap* drawBitmap = m_Image.GetImage(); int imageW = drawBitmap->GetWidth(); int imageH = drawBitmap->GetHeight(); if (imageW == 0 || imageH == 0 || m_W == 0 || m_H == 0) return true; int x = GetX(); int y = GetY(); int drawW = m_W; int drawH = m_H; if (drawW == imageW && drawH == imageH && m_ScaleMargins.left == 0 && m_ScaleMargins.top == 0 && m_ScaleMargins.right == 0 && m_ScaleMargins.bottom == 0) { canvas.DrawBitmap(drawBitmap, Rect(x, y, drawW, drawH), Rect(0, 0, imageW, imageH)); } else if (m_DrawMode == DRAWMODE_TILE) { Gdiplus::Graphics& graphics = canvas.BeginGdiplusContext(); ImageAttributes imgAttr; imgAttr.SetWrapMode(WrapModeTile); Rect r(x, y, drawW, drawH); graphics.DrawImage(drawBitmap, r, 0, 0, drawW, drawH, UnitPixel, &imgAttr); canvas.EndGdiplusContext(); } else if (m_DrawMode == DRAWMODE_KEEPRATIO || m_DrawMode == DRAWMODE_KEEPRATIOANDCROP) { int cropX = 0; int cropY = 0; int cropW = imageW; int cropH = imageH; if (m_WDefined && m_HDefined) { REAL imageRatio = imageW / (REAL)imageH; REAL meterRatio = m_W / (REAL)m_H; if (imageRatio != meterRatio) { if (m_DrawMode == DRAWMODE_KEEPRATIO) { if (imageRatio > meterRatio) { drawH = m_W * imageH / imageW; y += (m_H - drawH) / 2; } else { drawW = m_H * imageW / imageH; x += (m_W - drawW) / 2; } } else { if (imageRatio > meterRatio) { cropW = (int)(imageH * meterRatio); cropX = (imageW - cropW) / 2; } else { cropH = (int)(imageW / meterRatio); cropY = (imageH - cropH) / 2; } } } } Rect r(x, y, drawW, drawH); canvas.DrawBitmap(drawBitmap, r, Rect(cropX, cropY, cropW, cropH)); } else { const RECT& m = m_ScaleMargins; if (m.top > 0) { if (m.left > 0) { // Top-Left Rect r(x, y, m.left, m.top); canvas.DrawBitmap(drawBitmap, r, Rect(0, 0, m.left, m.top)); } // Top Rect r(x + m.left, y, drawW - m.left - m.right, m.top); canvas.DrawBitmap(drawBitmap, r, Rect(m.left, 0, imageW - m.left - m.right, m.top)); if (m.right > 0) { // Top-Right Rect r(x + drawW - m.right, y, m.right, m.top); canvas.DrawBitmap(drawBitmap, r, Rect(imageW - m.right, 0, m.right, m.top)); } } if (m.left > 0) { // Left Rect r(x, y + m.top, m.left, drawH - m.top - m.bottom); canvas.DrawBitmap(drawBitmap, r, Rect(0, m.top, m.left, imageH - m.top - m.bottom)); } // Center Rect r(x + m.left, y + m.top, drawW - m.left - m.right, drawH - m.top - m.bottom); canvas.DrawBitmap(drawBitmap, r, Rect(m.left, m.top, imageW - m.left - m.right, imageH - m.top - m.bottom)); if (m.right > 0) { // Right Rect r(x + drawW - m.right, y + m.top, m.right, drawH - m.top - m.bottom); canvas.DrawBitmap(drawBitmap, r, Rect(imageW - m.right, m.top, m.right, imageH - m.top - m.bottom)); } if (m.bottom > 0) { if (m.left > 0) { // Bottom-Left Rect r(x, y + drawH - m.bottom, m.left, m.bottom); canvas.DrawBitmap(drawBitmap, r, Rect(0, imageH - m.bottom, m.left, m.bottom)); } // Bottom Rect r(x + m.left, y + drawH - m.bottom, drawW - m.left - m.right, m.bottom); canvas.DrawBitmap(drawBitmap, r, Rect(m.left, imageH - m.bottom, imageW - m.left - m.right, m.bottom)); if (m.right > 0) { // Bottom-Right Rect r(x + drawW - m.right, y + drawH - m.bottom, m.right, m.bottom); canvas.DrawBitmap(drawBitmap, r, Rect(imageW - m.right, imageH - m.bottom, m.right, m.bottom)); } } } } return true; } /* ** Overridden method. The Image meters need not to be bound on anything ** */ void MeterImage::BindMeasures(ConfigParser& parser, const WCHAR* section) { if (BindPrimaryMeasure(parser, section, true)) { BindSecondaryMeasures(parser, section); } }