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chromium / chromium / src / 95b42e2745a2380a16112a059bd0e842d81f0c0a / . / printing / printing_context_win.cc
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// Copyright (c) 2012 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/printing_context_win.h"
#include <winspool.h>
#include <algorithm>
#include "base/i18n/file_util_icu.h"
#include "base/i18n/time_formatting.h"
#include "base/message_loop.h"
#include "base/metrics/histogram.h"
#include "base/time.h"
#include "base/utf_string_conversions.h"
#include "base/values.h"
#include "base/win/metro.h"
#include "printing/backend/print_backend.h"
#include "printing/backend/win_helper.h"
#include "printing/print_job_constants.h"
#include "printing/print_settings_initializer_win.h"
#include "printing/printed_document.h"
#include "printing/units.h"
#include "skia/ext/platform_device.h"
using base::Time;
namespace {
// Constants for setting default PDF settings.
const int kPDFDpi = 300; // 300 dpi
// LETTER: 8.5 x 11 inches
const int kPDFLetterWidth = 8.5 * kPDFDpi;
const int kPDFLetterHeight = 11 * kPDFDpi;
// LEGAL: 8.5 x 14 inches
const int kPDFLegalWidth = 8.5 * kPDFDpi;
const int kPDFLegalHeight = 14 * kPDFDpi;
// A4: 8.27 x 11.69 inches
const int kPDFA4Width = 8.27 * kPDFDpi;
const int kPDFA4Height = 11.69 * kPDFDpi;
// A3: 11.69 x 16.54 inches
const int kPDFA3Width = 11.69 * kPDFDpi;
const int kPDFA3Height = 16.54 * kPDFDpi;
// Retrieves the printer's PRINTER_INFO_* structure.
// Output |level| can be 9 (user-default), 8 (admin-default), or 2
// (printer-default).
// |devmode| is a pointer points to the start of DEVMODE structure in
// |buffer|.
bool GetPrinterInfo(HANDLE printer,
const std::wstring &device_name,
int* level,
scoped_array<uint8>* buffer,
DEVMODE** dev_mode) {
DCHECK(buffer);
// A PRINTER_INFO_9 structure specifying the per-user default printer
// settings.
printing::PrintingContextWin::GetPrinterHelper(printer, 9, buffer);
if (buffer->get()) {
PRINTER_INFO_9* info_9 = reinterpret_cast<PRINTER_INFO_9*>(buffer->get());
if (info_9->pDevMode != NULL) {
*level = 9;
*dev_mode = info_9->pDevMode;
return true;
}
buffer->reset();
}
// A PRINTER_INFO_8 structure specifying the global default printer settings.
printing::PrintingContextWin::GetPrinterHelper(printer, 8, buffer);
if (buffer->get()) {
PRINTER_INFO_8* info_8 = reinterpret_cast<PRINTER_INFO_8*>(buffer->get());
if (info_8->pDevMode != NULL) {
*level = 8;
*dev_mode = info_8->pDevMode;
return true;
}
buffer->reset();
}
// A PRINTER_INFO_2 structure specifying the driver's default printer
// settings.
printing::PrintingContextWin::GetPrinterHelper(printer, 2, buffer);
if (buffer->get()) {
PRINTER_INFO_2* info_2 = reinterpret_cast<PRINTER_INFO_2*>(buffer->get());
if (info_2->pDevMode != NULL) {
*level = 2;
*dev_mode = info_2->pDevMode;
return true;
}
buffer->reset();
}
return false;
}
} // anonymous namespace
namespace printing {
class PrintingContextWin::CallbackHandler : public IPrintDialogCallback,
public IObjectWithSite {
public:
CallbackHandler(PrintingContextWin& owner, HWND owner_hwnd)
: owner_(owner),
owner_hwnd_(owner_hwnd),
services_(NULL) {
}
~CallbackHandler() {
if (services_)
services_->Release();
}
IUnknown* ToIUnknown() {
return static_cast<IUnknown*>(static_cast<IPrintDialogCallback*>(this));
}
// IUnknown
virtual HRESULT WINAPI QueryInterface(REFIID riid, void**object) {
if (riid == IID_IUnknown) {
*object = ToIUnknown();
} else if (riid == IID_IPrintDialogCallback) {
*object = static_cast<IPrintDialogCallback*>(this);
} else if (riid == IID_IObjectWithSite) {
*object = static_cast<IObjectWithSite*>(this);
} else {
return E_NOINTERFACE;
}
return S_OK;
}
// No real ref counting.
virtual ULONG WINAPI AddRef() {
return 1;
}
virtual ULONG WINAPI Release() {
return 1;
}
// IPrintDialogCallback methods
virtual HRESULT WINAPI InitDone() {
return S_OK;
}
virtual HRESULT WINAPI SelectionChange() {
if (services_) {
// TODO(maruel): Get the devmode for the new printer with
// services_->GetCurrentDevMode(&devmode, &size), send that information
// back to our client and continue. The client needs to recalculate the
// number of rendered pages and send back this information here.
}
return S_OK;
}
virtual HRESULT WINAPI HandleMessage(HWND dialog,
UINT message,
WPARAM wparam,
LPARAM lparam,
LRESULT* result) {
// Cheap way to retrieve the window handle.
if (!owner_.dialog_box_) {
// The handle we receive is the one of the groupbox in the General tab. We
// need to get the grand-father to get the dialog box handle.
owner_.dialog_box_ = GetAncestor(dialog, GA_ROOT);
// Trick to enable the owner window. This can cause issues with navigation
// events so it may have to be disabled if we don't fix the side-effects.
EnableWindow(owner_hwnd_, TRUE);
}
return S_FALSE;
}
virtual HRESULT WINAPI SetSite(IUnknown* site) {
if (!site) {
DCHECK(services_);
services_->Release();
services_ = NULL;
// The dialog box is destroying, PrintJob::Worker don't need the handle
// anymore.
owner_.dialog_box_ = NULL;
} else {
DCHECK(services_ == NULL);
HRESULT hr = site->QueryInterface(IID_IPrintDialogServices,
reinterpret_cast<void**>(&services_));
DCHECK(SUCCEEDED(hr));
}
return S_OK;
}
virtual HRESULT WINAPI GetSite(REFIID riid, void** site) {
return E_NOTIMPL;
}
private:
PrintingContextWin& owner_;
HWND owner_hwnd_;
IPrintDialogServices* services_;
DISALLOW_COPY_AND_ASSIGN(CallbackHandler);
};
// static
PrintingContext* PrintingContext::Create(const std::string& app_locale) {
return static_cast<PrintingContext*>(new PrintingContextWin(app_locale));
}
PrintingContextWin::PrintingContextWin(const std::string& app_locale)
: PrintingContext(app_locale),
context_(NULL),
dialog_box_(NULL),
print_dialog_func_(&PrintDlgEx) {
}
PrintingContextWin::~PrintingContextWin() {
ReleaseContext();
}
void PrintingContextWin::AskUserForSettings(
gfx::NativeView view, int max_pages, bool has_selection,
const PrintSettingsCallback& callback) {
#if !defined(USE_AURA)
DCHECK(!in_print_job_);
if (base::win::IsMetroProcess()) {
// The system dialog can not be opened while running in Metro.
// But we can programatically launch the Metro print device charm though.
HMODULE metro_module = base::win::GetMetroModule();
if (metro_module != NULL) {
typedef void (*MetroShowPrintUI)();
MetroShowPrintUI metro_show_print_ui =
reinterpret_cast<MetroShowPrintUI>(
::GetProcAddress(metro_module, "MetroShowPrintUI"));
if (metro_show_print_ui) {
// TODO(mad): Remove this once we can send user metrics from the metro
// driver. crbug.com/142330
UMA_HISTOGRAM_ENUMERATION("Metro.Print", 1, 2);
metro_show_print_ui();
}
}
return callback.Run(CANCEL);
}
dialog_box_dismissed_ = false;
HWND window;
if (!view || !IsWindow(view)) {
// TODO(maruel): bug 1214347 Get the right browser window instead.
window = GetDesktopWindow();
} else {
window = GetAncestor(view, GA_ROOTOWNER);
}
DCHECK(window);
// Show the OS-dependent dialog box.
// If the user press
// - OK, the settings are reset and reinitialized with the new settings. OK is
// returned.
// - Apply then Cancel, the settings are reset and reinitialized with the new
// settings. CANCEL is returned.
// - Cancel, the settings are not changed, the previous setting, if it was
// initialized before, are kept. CANCEL is returned.
// On failure, the settings are reset and FAILED is returned.
PRINTDLGEX dialog_options = { sizeof(PRINTDLGEX) };
dialog_options.hwndOwner = window;
// Disable options we don't support currently.
// TODO(maruel): Reuse the previously loaded settings!
dialog_options.Flags = PD_RETURNDC | PD_USEDEVMODECOPIESANDCOLLATE |
PD_NOCURRENTPAGE | PD_HIDEPRINTTOFILE;
if (!has_selection)
dialog_options.Flags |= PD_NOSELECTION;
PRINTPAGERANGE ranges[32];
dialog_options.nStartPage = START_PAGE_GENERAL;
if (max_pages) {
// Default initialize to print all the pages.
memset(ranges, 0, sizeof(ranges));
ranges[0].nFromPage = 1;
ranges[0].nToPage = max_pages;
dialog_options.nPageRanges = 1;
dialog_options.nMaxPageRanges = arraysize(ranges);
dialog_options.nMinPage = 1;
dialog_options.nMaxPage = max_pages;
dialog_options.lpPageRanges = ranges;
} else {
// No need to bother, we don't know how many pages are available.
dialog_options.Flags |= PD_NOPAGENUMS;
}
if ((*print_dialog_func_)(&dialog_options) != S_OK) {
ResetSettings();
callback.Run(FAILED);
}
// TODO(maruel): Support PD_PRINTTOFILE.
callback.Run(ParseDialogResultEx(dialog_options));
#endif
}
PrintingContext::Result PrintingContextWin::UseDefaultSettings() {
DCHECK(!in_print_job_);
PRINTDLG dialog_options = { sizeof(PRINTDLG) };
dialog_options.Flags = PD_RETURNDC | PD_RETURNDEFAULT;
if (PrintDlg(&dialog_options))
return ParseDialogResult(dialog_options);
// No default printer configured, do we have any printers at all?
DWORD bytes_needed = 0;
DWORD count_returned = 0;
(void)::EnumPrinters(PRINTER_ENUM_LOCAL|PRINTER_ENUM_CONNECTIONS,
NULL, 2, NULL, 0, &bytes_needed, &count_returned);
if (bytes_needed) {
DCHECK(bytes_needed >= count_returned * sizeof(PRINTER_INFO_2));
scoped_array<BYTE> printer_info_buffer(new BYTE[bytes_needed]);
BOOL ret = ::EnumPrinters(PRINTER_ENUM_LOCAL|PRINTER_ENUM_CONNECTIONS,
NULL, 2, printer_info_buffer.get(),
bytes_needed, &bytes_needed,
&count_returned);
if (ret && count_returned) { // have printers
// Open the first successfully found printer.
for (DWORD count = 0; count < count_returned; ++count) {
PRINTER_INFO_2* info_2 = reinterpret_cast<PRINTER_INFO_2*>(
printer_info_buffer.get() + count * sizeof(PRINTER_INFO_2));
std::wstring printer_name = info_2->pPrinterName;
if (info_2->pDevMode == NULL || printer_name.length() == 0)
continue;
if (!AllocateContext(printer_name, info_2->pDevMode, &context_))
break;
if (InitializeSettings(*info_2->pDevMode, printer_name,
NULL, 0, false)) {
break;
}
ReleaseContext();
}
if (context_)
return OK;
}
}
ResetSettings();
return FAILED;
}
PrintingContext::Result PrintingContextWin::UpdatePrinterSettings(
const DictionaryValue& job_settings,
const PageRanges& ranges) {
DCHECK(!in_print_job_);
bool collate;
int color;
bool landscape;
bool print_to_pdf;
bool is_cloud_dialog;
int copies;
int duplex_mode;
string16 device_name;
if (!job_settings.GetBoolean(kSettingLandscape, &landscape) ||
!job_settings.GetBoolean(kSettingCollate, &collate) ||
!job_settings.GetInteger(kSettingColor, &color) ||
!job_settings.GetBoolean(kSettingPrintToPDF, &print_to_pdf) ||
!job_settings.GetInteger(kSettingDuplexMode, &duplex_mode) ||
!job_settings.GetInteger(kSettingCopies, &copies) ||
!job_settings.GetString(kSettingDeviceName, &device_name) ||
!job_settings.GetBoolean(kSettingCloudPrintDialog, &is_cloud_dialog)) {
return OnError();
}
bool print_to_cloud = job_settings.HasKey(kSettingCloudPrintId);
if (print_to_pdf || print_to_cloud || is_cloud_dialog) {
// Default fallback to Letter size.
gfx::Size paper_size;
gfx::Rect paper_rect;
paper_size.SetSize(kPDFLetterWidth, kPDFLetterHeight);
// Get settings from locale. Paper type buffer length is at most 4.
const int paper_type_buffer_len = 4;
wchar_t paper_type_buffer[paper_type_buffer_len] = {0};
GetLocaleInfo(LOCALE_USER_DEFAULT, LOCALE_IPAPERSIZE, paper_type_buffer,
paper_type_buffer_len);
if (wcslen(paper_type_buffer)) { // The call succeeded.
int paper_code = _wtoi(paper_type_buffer);
switch (paper_code) {
case DMPAPER_LEGAL:
paper_size.SetSize(kPDFLegalWidth, kPDFLegalHeight);
break;
case DMPAPER_A4:
paper_size.SetSize(kPDFA4Width, kPDFA4Height);
break;
case DMPAPER_A3:
paper_size.SetSize(kPDFA3Width, kPDFA3Height);
break;
default: // DMPAPER_LETTER is used for default fallback.
break;
}
}
paper_rect.SetRect(0, 0, paper_size.width(), paper_size.height());
settings_.SetPrinterPrintableArea(paper_size, paper_rect, kPDFDpi);
settings_.set_dpi(kPDFDpi);
settings_.SetOrientation(landscape);
settings_.ranges = ranges;
return OK;
}
ScopedPrinterHandle printer;
LPWSTR device_name_wide = const_cast<wchar_t*>(device_name.c_str());
if (!OpenPrinter(device_name_wide, printer.Receive(), NULL))
return OnError();
// Make printer changes local to Chrome.
// See MSDN documentation regarding DocumentProperties.
scoped_array<uint8> buffer;
DEVMODE* dev_mode = NULL;
LONG buffer_size = DocumentProperties(NULL, printer, device_name_wide,
NULL, NULL, 0);
if (buffer_size > 0) {
buffer.reset(new uint8[buffer_size]);
memset(buffer.get(), 0, buffer_size);
if (DocumentProperties(NULL, printer, device_name_wide,
reinterpret_cast<PDEVMODE>(buffer.get()), NULL,
DM_OUT_BUFFER) == IDOK) {
dev_mode = reinterpret_cast<PDEVMODE>(buffer.get());
}
}
if (dev_mode == NULL) {
buffer.reset();
return OnError();
}
if (color == GRAY)
dev_mode->dmColor = DMCOLOR_MONOCHROME;
else
dev_mode->dmColor = DMCOLOR_COLOR;
dev_mode->dmCopies = std::max(copies, 1);
if (dev_mode->dmCopies > 1) // do not change collate unless multiple copies
dev_mode->dmCollate = collate ? DMCOLLATE_TRUE : DMCOLLATE_FALSE;
switch (duplex_mode) {
case LONG_EDGE:
dev_mode->dmDuplex = DMDUP_VERTICAL;
break;
case SHORT_EDGE:
dev_mode->dmDuplex = DMDUP_HORIZONTAL;
break;
case SIMPLEX:
dev_mode->dmDuplex = DMDUP_SIMPLEX;
break;
default: // UNKNOWN_DUPLEX_MODE
break;
}
dev_mode->dmOrientation = landscape ? DMORIENT_LANDSCAPE : DMORIENT_PORTRAIT;
// Update data using DocumentProperties.
if (DocumentProperties(NULL, printer, device_name_wide, dev_mode, dev_mode,
DM_IN_BUFFER | DM_OUT_BUFFER) != IDOK) {
return OnError();
}
// Set printer then refresh printer settings.
if (!AllocateContext(device_name, dev_mode, &context_)) {
return OnError();
}
PrintSettingsInitializerWin::InitPrintSettings(context_, *dev_mode,
ranges, device_name,
false, &settings_);
return OK;
}
PrintingContext::Result PrintingContextWin::InitWithSettings(
const PrintSettings& settings) {
DCHECK(!in_print_job_);
settings_ = settings;
// TODO(maruel): settings_.ToDEVMODE()
ScopedPrinterHandle printer;
if (!OpenPrinter(const_cast<wchar_t*>(settings_.device_name().c_str()),
printer.Receive(), NULL))
return FAILED;
Result status = OK;
if (!GetPrinterSettings(printer, settings_.device_name()))
status = FAILED;
if (status != OK)
ResetSettings();
return status;
}
PrintingContext::Result PrintingContextWin::NewDocument(
const string16& document_name) {
DCHECK(!in_print_job_);
if (!context_)
return OnError();
// Set the flag used by the AbortPrintJob dialog procedure.
abort_printing_ = false;
in_print_job_ = true;
// Register the application's AbortProc function with GDI.
if (SP_ERROR == SetAbortProc(context_, &AbortProc))
return OnError();
DCHECK(PrintBackend::SimplifyDocumentTitle(document_name) == document_name);
DOCINFO di = { sizeof(DOCINFO) };
const std::wstring& document_name_wide = UTF16ToWide(document_name);
di.lpszDocName = document_name_wide.c_str();
// Is there a debug dump directory specified? If so, force to print to a file.
FilePath debug_dump_path = PrintedDocument::debug_dump_path();
if (!debug_dump_path.empty()) {
// Create a filename.
std::wstring filename;
Time now(Time::Now());
filename = base::TimeFormatShortDateNumeric(now);
filename += L"_";
filename += base::TimeFormatTimeOfDay(now);
filename += L"_";
filename += UTF16ToWide(document_name);
filename += L"_";
filename += L"buffer.prn";
file_util::ReplaceIllegalCharactersInPath(&filename, '_');
debug_dump_path.Append(filename);
di.lpszOutput = debug_dump_path.value().c_str();
}
// No message loop running in unit tests.
DCHECK(!MessageLoop::current() ? true :
!MessageLoop::current()->NestableTasksAllowed());
// Begin a print job by calling the StartDoc function.
// NOTE: StartDoc() starts a message loop. That causes a lot of problems with
// IPC. Make sure recursive task processing is disabled.
if (StartDoc(context_, &di) <= 0)
return OnError();
return OK;
}
PrintingContext::Result PrintingContextWin::NewPage() {
if (abort_printing_)
return CANCEL;
DCHECK(context_);
DCHECK(in_print_job_);
// Intentional No-op. NativeMetafile::SafePlayback takes care of calling
// ::StartPage().
return OK;
}
PrintingContext::Result PrintingContextWin::PageDone() {
if (abort_printing_)
return CANCEL;
DCHECK(in_print_job_);
// Intentional No-op. NativeMetafile::SafePlayback takes care of calling
// ::EndPage().
return OK;
}
PrintingContext::Result PrintingContextWin::DocumentDone() {
if (abort_printing_)
return CANCEL;
DCHECK(in_print_job_);
DCHECK(context_);
// Inform the driver that document has ended.
if (EndDoc(context_) <= 0)
return OnError();
ResetSettings();
return OK;
}
void PrintingContextWin::Cancel() {
abort_printing_ = true;
in_print_job_ = false;
if (context_)
CancelDC(context_);
if (dialog_box_) {
DestroyWindow(dialog_box_);
dialog_box_dismissed_ = true;
}
}
void PrintingContextWin::ReleaseContext() {
if (context_) {
DeleteDC(context_);
context_ = NULL;
}
}
gfx::NativeDrawingContext PrintingContextWin::context() const {
return context_;
}
// static
BOOL PrintingContextWin::AbortProc(HDC hdc, int nCode) {
if (nCode) {
// TODO(maruel): Need a way to find the right instance to set. Should
// leverage PrintJobManager here?
// abort_printing_ = true;
}
return true;
}
bool PrintingContextWin::InitializeSettings(const DEVMODE& dev_mode,
const std::wstring& new_device_name,
const PRINTPAGERANGE* ranges,
int number_ranges,
bool selection_only) {
skia::InitializeDC(context_);
DCHECK(GetDeviceCaps(context_, CLIPCAPS));
DCHECK(GetDeviceCaps(context_, RASTERCAPS) & RC_STRETCHDIB);
DCHECK(GetDeviceCaps(context_, RASTERCAPS) & RC_BITMAP64);
// Some printers don't advertise these.
// DCHECK(GetDeviceCaps(context_, RASTERCAPS) & RC_SCALING);
// DCHECK(GetDeviceCaps(context_, SHADEBLENDCAPS) & SB_CONST_ALPHA);
// DCHECK(GetDeviceCaps(context_, SHADEBLENDCAPS) & SB_PIXEL_ALPHA);
// StretchDIBits() support is needed for printing.
if (!(GetDeviceCaps(context_, RASTERCAPS) & RC_STRETCHDIB) ||
!(GetDeviceCaps(context_, RASTERCAPS) & RC_BITMAP64)) {
NOTREACHED();
ResetSettings();
return false;
}
DCHECK(!in_print_job_);
DCHECK(context_);
PageRanges ranges_vector;
if (!selection_only) {
// Convert the PRINTPAGERANGE array to a PrintSettings::PageRanges vector.
ranges_vector.reserve(number_ranges);
for (int i = 0; i < number_ranges; ++i) {
PageRange range;
// Transfer from 1-based to 0-based.
range.from = ranges[i].nFromPage - 1;
range.to = ranges[i].nToPage - 1;
ranges_vector.push_back(range);
}
}
PrintSettingsInitializerWin::InitPrintSettings(context_,
dev_mode,
ranges_vector,
new_device_name,
selection_only,
&settings_);
return true;
}
bool PrintingContextWin::GetPrinterSettings(HANDLE printer,
const std::wstring& device_name) {
DCHECK(!in_print_job_);
scoped_array<uint8> buffer;
int level = 0;
DEVMODE* dev_mode = NULL;
if (GetPrinterInfo(printer, device_name, &level, &buffer, &dev_mode) &&
AllocateContext(device_name, dev_mode, &context_)) {
return InitializeSettings(*dev_mode, device_name, NULL, 0, false);
}
buffer.reset();
ResetSettings();
return false;
}
// static
bool PrintingContextWin::AllocateContext(const std::wstring& device_name,
const DEVMODE* dev_mode,
gfx::NativeDrawingContext* context) {
*context = CreateDC(L"WINSPOOL", device_name.c_str(), NULL, dev_mode);
DCHECK(*context);
return *context != NULL;
}
PrintingContext::Result PrintingContextWin::ParseDialogResultEx(
const PRINTDLGEX& dialog_options) {
// If the user clicked OK or Apply then Cancel, but not only Cancel.
if (dialog_options.dwResultAction != PD_RESULT_CANCEL) {
// Start fresh.
ResetSettings();
DEVMODE* dev_mode = NULL;
if (dialog_options.hDevMode) {
dev_mode =
reinterpret_cast<DEVMODE*>(GlobalLock(dialog_options.hDevMode));
DCHECK(dev_mode);
}
std::wstring device_name;
if (dialog_options.hDevNames) {
DEVNAMES* dev_names =
reinterpret_cast<DEVNAMES*>(GlobalLock(dialog_options.hDevNames));
DCHECK(dev_names);
if (dev_names) {
device_name =
reinterpret_cast<const wchar_t*>(
reinterpret_cast<const wchar_t*>(dev_names) +
dev_names->wDeviceOffset);
GlobalUnlock(dialog_options.hDevNames);
}
}
bool success = false;
if (dev_mode && !device_name.empty()) {
context_ = dialog_options.hDC;
PRINTPAGERANGE* page_ranges = NULL;
DWORD num_page_ranges = 0;
bool print_selection_only = false;
if (dialog_options.Flags & PD_PAGENUMS) {
page_ranges = dialog_options.lpPageRanges;
num_page_ranges = dialog_options.nPageRanges;
}
if (dialog_options.Flags & PD_SELECTION) {
print_selection_only = true;
}
success = InitializeSettings(*dev_mode,
device_name,
page_ranges,
num_page_ranges,
print_selection_only);
}
if (!success && dialog_options.hDC) {
DeleteDC(dialog_options.hDC);
context_ = NULL;
}
if (dev_mode) {
GlobalUnlock(dialog_options.hDevMode);
}
} else {
if (dialog_options.hDC) {
DeleteDC(dialog_options.hDC);
}
}
if (dialog_options.hDevMode != NULL)
GlobalFree(dialog_options.hDevMode);
if (dialog_options.hDevNames != NULL)
GlobalFree(dialog_options.hDevNames);
switch (dialog_options.dwResultAction) {
case PD_RESULT_PRINT:
return context_ ? OK : FAILED;
case PD_RESULT_APPLY:
return context_ ? CANCEL : FAILED;
case PD_RESULT_CANCEL:
return CANCEL;
default:
return FAILED;
}
}
PrintingContext::Result PrintingContextWin::ParseDialogResult(
const PRINTDLG& dialog_options) {
// If the user clicked OK or Apply then Cancel, but not only Cancel.
// Start fresh.
ResetSettings();
DEVMODE* dev_mode = NULL;
if (dialog_options.hDevMode) {
dev_mode =
reinterpret_cast<DEVMODE*>(GlobalLock(dialog_options.hDevMode));
DCHECK(dev_mode);
}
std::wstring device_name;
if (dialog_options.hDevNames) {
DEVNAMES* dev_names =
reinterpret_cast<DEVNAMES*>(GlobalLock(dialog_options.hDevNames));
DCHECK(dev_names);
if (dev_names) {
device_name =
reinterpret_cast<const wchar_t*>(
reinterpret_cast<const wchar_t*>(dev_names) +
dev_names->wDeviceOffset);
GlobalUnlock(dialog_options.hDevNames);
}
}
bool success = false;
if (dev_mode && !device_name.empty()) {
context_ = dialog_options.hDC;
success = InitializeSettings(*dev_mode, device_name, NULL, 0, false);
}
if (!success && dialog_options.hDC) {
DeleteDC(dialog_options.hDC);
context_ = NULL;
}
if (dev_mode) {
GlobalUnlock(dialog_options.hDevMode);
}
if (dialog_options.hDevMode != NULL)
GlobalFree(dialog_options.hDevMode);
if (dialog_options.hDevNames != NULL)
GlobalFree(dialog_options.hDevNames);
return context_ ? OK : FAILED;
}
// static
void PrintingContextWin::GetPrinterHelper(HANDLE printer, int level,
scoped_array<uint8>* buffer) {
DWORD buf_size = 0;
GetPrinter(printer, level, NULL, 0, &buf_size);
if (buf_size) {
buffer->reset(new uint8[buf_size]);
memset(buffer->get(), 0, buf_size);
if (!GetPrinter(printer, level, buffer->get(), buf_size, &buf_size)) {
buffer->reset();
}
}
}
} // namespace printing