// Copyright (c) 2006-2008 The Chromium Authors. All rights reserved. // Use of this source code is governed by a BSD-style license that can be // found in the LICENSE file. #include "printing/print_settings.h" #include "base/atomic_sequence_num.h" #include "base/logging.h" #include "base/sys_string_conversions.h" #include "printing/units.h" namespace printing { // Global SequenceNumber used for generating unique cookie values. static base::AtomicSequenceNumber cookie_seq(base::LINKER_INITIALIZED); PrintSettings::PrintSettings() : min_shrink(1.25), max_shrink(2.0), desired_dpi(72), selection_only(false), use_overlays(true), dpi_(0), landscape_(false) { } void PrintSettings::Clear() { ranges.clear(); min_shrink = 1.25; max_shrink = 2.; desired_dpi = 72; selection_only = false; printer_name_.clear(); device_name_.clear(); page_setup_device_units_.Clear(); dpi_ = 0; landscape_ = false; } #ifdef WIN32 void PrintSettings::Init(HDC hdc, const DEVMODE& dev_mode, const PageRanges& new_ranges, const std::wstring& new_device_name, bool print_selection_only) { DCHECK(hdc); printer_name_ = dev_mode.dmDeviceName; device_name_ = new_device_name; ranges = new_ranges; landscape_ = dev_mode.dmOrientation == DMORIENT_LANDSCAPE; selection_only = print_selection_only; dpi_ = GetDeviceCaps(hdc, LOGPIXELSX); // No printer device is known to advertise different dpi in X and Y axis; even // the fax device using the 200x100 dpi setting. It's ought to break so many // applications that it's not even needed to care about. WebKit doesn't // support different dpi settings in X and Y axis. DCHECK_EQ(dpi_, GetDeviceCaps(hdc, LOGPIXELSY)); DCHECK_EQ(GetDeviceCaps(hdc, SCALINGFACTORX), 0); DCHECK_EQ(GetDeviceCaps(hdc, SCALINGFACTORY), 0); // Initialize page_setup_device_units_. gfx::Size physical_size_device_units(GetDeviceCaps(hdc, PHYSICALWIDTH), GetDeviceCaps(hdc, PHYSICALHEIGHT)); gfx::Rect printable_area_device_units(GetDeviceCaps(hdc, PHYSICALOFFSETX), GetDeviceCaps(hdc, PHYSICALOFFSETY), GetDeviceCaps(hdc, HORZRES), GetDeviceCaps(hdc, VERTRES)); SetPrinterPrintableArea(physical_size_device_units, printable_area_device_units, dpi_); } #elif defined(OS_MACOSX) void PrintSettings::Init(PMPrinter printer, PMPageFormat page_format, const PageRanges& new_ranges, bool print_selection_only) { printer_name_ = base::SysCFStringRefToWide(PMPrinterGetName(printer)); device_name_ = base::SysCFStringRefToWide(PMPrinterGetID(printer)); ranges = new_ranges; PMOrientation orientation = kPMPortrait; PMGetOrientation(page_format, &orientation); landscape_ = orientation == kPMLandscape; selection_only = print_selection_only; UInt32 resolution_count = 0; PMResolution best_resolution = { 72.0, 72.0 }; OSStatus status = PMPrinterGetPrinterResolutionCount(printer, &resolution_count); if (status == noErr) { // Resolution indexes are 1-based. for (uint32 i = 1; i <= resolution_count; ++i) { PMResolution resolution; PMPrinterGetIndexedPrinterResolution(printer, i, &resolution); if (resolution.hRes > best_resolution.hRes) best_resolution = resolution; } } dpi_ = best_resolution.hRes; // See comment in the Windows code above. DCHECK_EQ(dpi_, best_resolution.vRes); // Get printable area and paper rects (in points) PMRect page_rect, paper_rect; PMGetAdjustedPageRect(page_format, &page_rect); PMGetAdjustedPaperRect(page_format, &paper_rect); // Device units are in points. Units per inch is 72. gfx::Size physical_size_device_units( (paper_rect.right - paper_rect.left), (paper_rect.bottom - paper_rect.top)); gfx::Rect printable_area_device_units( (page_rect.left - paper_rect.left), (page_rect.top - paper_rect.top), (page_rect.right - page_rect.left), (page_rect.bottom - page_rect.top)); SetPrinterPrintableArea(physical_size_device_units, printable_area_device_units, 72); } #endif void PrintSettings::SetPrinterPrintableArea( gfx::Size const& physical_size_device_units, gfx::Rect const& printable_area_device_units, int units_per_inch) { int header_footer_text_height = 0; int margin_printer_units = 0; if (use_overlays) { // Hard-code text_height = 0.5cm = ~1/5 of inch. header_footer_text_height = ConvertUnit(500, kHundrethsMMPerInch, units_per_inch); // Default margins 1.0cm = ~2/5 of an inch. margin_printer_units = ConvertUnit(1000, kHundrethsMMPerInch, units_per_inch); } // Start by setting the user configuration page_setup_device_units_.Init(physical_size_device_units, printable_area_device_units, header_footer_text_height); // Apply default margins (not user configurable just yet). // Since the font height is half the margin we put the header and footers at // the font height from the margins. PageMargins margins; margins.header = header_footer_text_height; margins.footer = header_footer_text_height; margins.left = margin_printer_units; margins.top = margin_printer_units; margins.right = margin_printer_units; margins.bottom = margin_printer_units; page_setup_device_units_.SetRequestedMargins(margins); } bool PrintSettings::Equals(const PrintSettings& rhs) const { // Do not test the display device name (printer_name_) for equality since it // may sometimes be chopped off at 30 chars. As long as device_name is the // same, that's fine. return ranges == rhs.ranges && min_shrink == rhs.min_shrink && max_shrink == rhs.max_shrink && desired_dpi == rhs.desired_dpi && overlays.Equals(rhs.overlays) && device_name_ == rhs.device_name_ && page_setup_device_units_.Equals(rhs.page_setup_device_units_) && dpi_ == rhs.dpi_ && landscape_ == rhs.landscape_; } int PrintSettings::NewCookie() { // A cookie of 0 is used to mark a document as unassigned, count from 1. return cookie_seq.GetNext() + 1; } } // namespace printing