src/tests/cefclient/browser/osr_ime_handler_win.cc - cef - Git at Google

 // Copyright 2016 The Chromium Embedded Framework Authors. Portions copyright
 // 2013 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.

 // Implementation based on ui/base/ime/win/imm32_manager.cc from Chromium.

 #include <msctf.h>
 #include <windowsx.h>

 #include "include/base/cef_build.h"
 #include "tests/cefclient/browser/osr_ime_handler_win.h"
 #include "tests/cefclient/browser/resource.h"
 #include "tests/shared/browser/geometry_util.h"
 #include "tests/shared/browser/main_message_loop.h"
 #include "tests/shared/browser/util_win.h"

 #define ColorUNDERLINE 0xFF000000  // Black SkColor value for underline,
                                    // same as Blink.
 #define ColorBKCOLOR 0x00000000    // White SkColor value for background,
                                    // same as Blink.

 namespace client {

 namespace {

 // Determines whether or not the given attribute represents a selection
 bool IsSelectionAttribute(char attribute) {
   return (attribute == ATTR_TARGET_CONVERTED ||
           attribute == ATTR_TARGET_NOTCONVERTED);
 }

 // Helper function for OsrImeHandlerWin::GetCompositionInfo() method,
 // to get the target range that's selected by the user in the current
 // composition string.
 void GetCompositionSelectionRange(HIMC imc,
                                   int* target_start,
                                   int* target_end) {
   int attribute_size = ::ImmGetCompositionString(imc, GCS_COMPATTR, NULL, 0);
   if (attribute_size > 0) {
     int start = 0;
     int end = 0;
     std::vector<char> attribute_data(attribute_size);

     ::ImmGetCompositionString(imc, GCS_COMPATTR, &attribute_data[0],
                               attribute_size);
     for (start = 0; start < attribute_size; ++start) {
       if (IsSelectionAttribute(attribute_data[start]))
         break;
     }
     for (end = start; end < attribute_size; ++end) {
       if (!IsSelectionAttribute(attribute_data[end]))
         break;
     }

     *target_start = start;
     *target_end = end;
   }
 }

 // Helper function for OsrImeHandlerWin::GetCompositionInfo() method, to get
 // underlines information of the current composition string.
 void GetCompositionUnderlines(
     HIMC imc,
     int target_start,
     int target_end,
     std::vector<CefCompositionUnderline>& underlines) {
   int clause_size = ::ImmGetCompositionString(imc, GCS_COMPCLAUSE, NULL, 0);
   int clause_length = clause_size / sizeof(uint32);
   if (clause_length) {
     std::vector<uint32> clause_data(clause_length);

     ::ImmGetCompositionString(imc, GCS_COMPCLAUSE, &clause_data[0],
                               clause_size);
     for (int i = 0; i < clause_length - 1; ++i) {
       cef_composition_underline_t underline;
       underline.range.from = clause_data[i];
       underline.range.to = clause_data[i + 1];
       underline.color = ColorUNDERLINE;
       underline.background_color = ColorBKCOLOR;
       underline.thick = 0;

       // Use thick underline for the target clause.
       if (underline.range.from >= target_start &&
           underline.range.to <= target_end) {
         underline.thick = 1;
       }
       underlines.push_back(underline);
     }
   }
 }

 }  // namespace

 OsrImeHandlerWin::OsrImeHandlerWin(HWND hwnd)
     : is_composing_(false),
       input_language_id_(LANG_USER_DEFAULT),
       system_caret_(false),
       cursor_index_(-1),
       hwnd_(hwnd) {
   ime_rect_ = {-1, -1, 0, 0};
 }

 OsrImeHandlerWin::~OsrImeHandlerWin() {
   DestroyImeWindow();
 }

 void OsrImeHandlerWin::SetInputLanguage() {
   // Retrieve the current input language from the system's keyboard layout.
   // Using GetKeyboardLayoutName instead of GetKeyboardLayout, because
   // the language from GetKeyboardLayout is the language under where the
   // keyboard layout is installed. And the language from GetKeyboardLayoutName
   // indicates the language of the keyboard layout itself.
   // See crbug.com/344834.
   WCHAR keyboard_layout[KL_NAMELENGTH];
   if (::GetKeyboardLayoutNameW(keyboard_layout)) {
     input_language_id_ =
         static_cast<LANGID>(_wtoi(&keyboard_layout[KL_NAMELENGTH >> 1]));
   } else {
     input_language_id_ = 0x0409;  // Fallback to en-US.
   }
 }

 void OsrImeHandlerWin::CreateImeWindow() {
   // Chinese/Japanese IMEs somehow ignore function calls to
   // ::ImmSetCandidateWindow(), and use the position of the current system
   // caret instead -::GetCaretPos().
   // Therefore, we create a temporary system caret for Chinese IMEs and use
   // it during this input context.
   // Since some third-party Japanese IME also uses ::GetCaretPos() to determine
   // their window position, we also create a caret for Japanese IMEs.
   if (PRIMARYLANGID(input_language_id_) == LANG_CHINESE ||
       PRIMARYLANGID(input_language_id_) == LANG_JAPANESE) {
     if (!system_caret_) {
       if (::CreateCaret(hwnd_, NULL, 1, 1))
         system_caret_ = true;
     }
   }
 }

 void OsrImeHandlerWin::DestroyImeWindow() {
   // Destroy the system caret if we have created for this IME input context.
   if (system_caret_) {
     ::DestroyCaret();
     system_caret_ = false;
   }
 }

 void OsrImeHandlerWin::MoveImeWindow() {
   // Does nothing when the target window has no input focus.
   if (GetFocus() != hwnd_)
     return;

   CefRect rc = ime_rect_;
   int location = cursor_index_;

   // If location is not specified fall back to the composition range start.
   if (location == -1)
     location = composition_range_.from;

   // Offset location by the composition range start if required.
   if (location >= composition_range_.from)
     location -= composition_range_.from;

   if (location < static_cast<int>(composition_bounds_.size()))
     rc = composition_bounds_[location];
   else
     return;

   HIMC imc = ::ImmGetContext(hwnd_);
   if (imc) {
     const int kCaretMargin = 1;
     if (PRIMARYLANGID(input_language_id_) == LANG_CHINESE) {
       // Chinese IMEs ignore function calls to ::ImmSetCandidateWindow()
       // when a user disables TSF (Text Service Framework) and CUAS (Cicero
       // Unaware Application Support).
       // On the other hand, when a user enables TSF and CUAS, Chinese IMEs
       // ignore the position of the current system caret and use the
       // parameters given to ::ImmSetCandidateWindow() with its 'dwStyle'
       // parameter CFS_CANDIDATEPOS.
       // Therefore, we do not only call ::ImmSetCandidateWindow() but also
       // set the positions of the temporary system caret if it exists.
       CANDIDATEFORM candidate_position = {
           0, CFS_CANDIDATEPOS, {rc.x, rc.y}, {0, 0, 0, 0}};
       ::ImmSetCandidateWindow(imc, &candidate_position);
     }
     if (system_caret_) {
       switch (PRIMARYLANGID(input_language_id_)) {
         case LANG_JAPANESE:
           ::SetCaretPos(rc.x, rc.y + rc.height);
           break;
         default:
           ::SetCaretPos(rc.x, rc.y);
           break;
       }
     }

     if (PRIMARYLANGID(input_language_id_) == LANG_KOREAN) {
       // Korean IMEs require the lower-left corner of the caret to move their
       // candidate windows.
       rc.y += kCaretMargin;
     }

     // Japanese IMEs and Korean IMEs also use the rectangle given to
     // ::ImmSetCandidateWindow() with its 'dwStyle' parameter CFS_EXCLUDE
     // Therefore, we also set this parameter here.
     CANDIDATEFORM exclude_rectangle = {
         0,
         CFS_EXCLUDE,
         {rc.x, rc.y},
         {rc.x, rc.y, rc.x + rc.width, rc.y + rc.height}};
     ::ImmSetCandidateWindow(imc, &exclude_rectangle);

     ::ImmReleaseContext(hwnd_, imc);
   }
 }

 void OsrImeHandlerWin::CleanupComposition() {
   // Notify the IMM attached to the given window to complete the ongoing
   // composition (when given window is de-activated while composing and
   // re-activated) and reset the composition status.
   if (is_composing_) {
     HIMC imc = ::ImmGetContext(hwnd_);
     if (imc) {
       ::ImmNotifyIME(imc, NI_COMPOSITIONSTR, CPS_COMPLETE, 0);
       ::ImmReleaseContext(hwnd_, imc);
     }
     ResetComposition();
   }
 }

 void OsrImeHandlerWin::ResetComposition() {
   // Reset the composition status.
   is_composing_ = false;
   cursor_index_ = -1;
 }

 void OsrImeHandlerWin::GetCompositionInfo(
     HIMC imc,
     LPARAM lparam,
     CefString& composition_text,
     std::vector<CefCompositionUnderline>& underlines,
     int& composition_start) {
   // We only care about GCS_COMPATTR, GCS_COMPCLAUSE and GCS_CURSORPOS, and
   // convert them into underlines and selection range respectively.
   underlines.clear();

   int length = static_cast<int>(composition_text.length());

   // Find out the range selected by the user.
   int target_start = length;
   int target_end = length;
   if (lparam & GCS_COMPATTR)
     GetCompositionSelectionRange(imc, &target_start, &target_end);

   // Retrieve the selection range information. If CS_NOMOVECARET is specified
   // it means the cursor should not be moved and we therefore place the caret at
   // the beginning of the composition string. Otherwise we should honour the
   // GCS_CURSORPOS value if it's available.
   // TODO(suzhe): Due to a bug in WebKit we currently can't use selection range
   // with composition string.
   // See: https://bugs.webkit.org/show_bug.cgi?id=40805
   if (!(lparam & CS_NOMOVECARET) && (lparam & GCS_CURSORPOS)) {
     // IMM32 does not support non-zero-width selection in a composition. So
     // always use the caret position as selection range.
     int cursor = ::ImmGetCompositionString(imc, GCS_CURSORPOS, NULL, 0);
     composition_start = cursor;
   } else {
     composition_start = 0;
   }

   // Retrieve the clause segmentations and convert them to underlines.
   if (lparam & GCS_COMPCLAUSE)
     GetCompositionUnderlines(imc, target_start, target_end, underlines);

   // Set default underlines in case there is no clause information.
   if (!underlines.size()) {
     CefCompositionUnderline underline;
     underline.color = ColorUNDERLINE;
     underline.background_color = ColorBKCOLOR;
     if (target_start > 0) {
       underline.range.from = 0;
       underline.range.to = target_start;
       underline.thick = 0;
       underlines.push_back(underline);
     }
     if (target_end > target_start) {
       underline.range.from = target_start;
       underline.range.to = target_end;
       underline.thick = 1;
       underlines.push_back(underline);
     }
     if (target_end < length) {
       underline.range.from = target_end;
       underline.range.to = length;
       underline.thick = 0;
       underlines.push_back(underline);
     }
   }
 }

 bool OsrImeHandlerWin::GetString(HIMC imc,
                                  WPARAM lparam,
                                  int type,
                                  CefString& result) {
   if (!(lparam & type))
     return false;
   LONG string_size = ::ImmGetCompositionString(imc, type, NULL, 0);
   if (string_size <= 0)
     return false;

   // For trailing NULL - ImmGetCompositionString excludes that.
   string_size += sizeof(WCHAR);

   std::vector<wchar_t> buffer(string_size);
   ::ImmGetCompositionString(imc, type, &buffer[0], string_size);
   result.FromWString(&buffer[0]);
   return true;
 }

 bool OsrImeHandlerWin::GetResult(LPARAM lparam, CefString& result) {
   bool ret = false;
   HIMC imc = ::ImmGetContext(hwnd_);
   if (imc) {
     ret = GetString(imc, lparam, GCS_RESULTSTR, result);
     ::ImmReleaseContext(hwnd_, imc);
   }
   return ret;
 }

 bool OsrImeHandlerWin::GetComposition(
     LPARAM lparam,
     CefString& composition_text,
     std::vector<CefCompositionUnderline>& underlines,
     int& composition_start) {
   bool ret = false;
   HIMC imc = ::ImmGetContext(hwnd_);
   if (imc) {
     // Copy the composition string to the CompositionText object.
     ret = GetString(imc, lparam, GCS_COMPSTR, composition_text);

     if (ret) {
       // Retrieve the composition underlines and selection range information.
       GetCompositionInfo(imc, lparam, composition_text, underlines,
                          composition_start);

       // Mark that there is an ongoing composition.
       is_composing_ = true;
     }

     ::ImmReleaseContext(hwnd_, imc);
   }
   return ret;
 }

 void OsrImeHandlerWin::DisableIME() {
   CleanupComposition();
   ::ImmAssociateContextEx(hwnd_, NULL, 0);
 }

 void OsrImeHandlerWin::CancelIME() {
   if (is_composing_) {
     HIMC imc = ::ImmGetContext(hwnd_);
     if (imc) {
       ::ImmNotifyIME(imc, NI_COMPOSITIONSTR, CPS_CANCEL, 0);
       ::ImmReleaseContext(hwnd_, imc);
     }
     ResetComposition();
   }
 }

 void OsrImeHandlerWin::EnableIME() {
   // Load the default IME context.
   ::ImmAssociateContextEx(hwnd_, NULL, IACE_DEFAULT);
 }

 void OsrImeHandlerWin::UpdateCaretPosition(int index) {
   // Save the caret position.
   cursor_index_ = index;
   // Move the IME window.
   MoveImeWindow();
 }

 void OsrImeHandlerWin::ChangeCompositionRange(
     const CefRange& selection_range,
     const std::vector<CefRect>& bounds) {
   composition_range_ = selection_range;
   composition_bounds_ = bounds;
   MoveImeWindow();
 }

 }  // namespace client
	// Copyright 2016 The Chromium Embedded Framework Authors. Portions copyright
	// 2013 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.

	// Implementation based on ui/base/ime/win/imm32_manager.cc from Chromium.

	#include <msctf.h>
	#include <windowsx.h>

	#include "include/base/cef_build.h"
	#include "tests/cefclient/browser/osr_ime_handler_win.h"
	#include "tests/cefclient/browser/resource.h"
	#include "tests/shared/browser/geometry_util.h"
	#include "tests/shared/browser/main_message_loop.h"
	#include "tests/shared/browser/util_win.h"

	#define ColorUNDERLINE 0xFF000000 // Black SkColor value for underline,
	// same as Blink.
	#define ColorBKCOLOR 0x00000000 // White SkColor value for background,
	// same as Blink.

	namespace client {

	namespace {

	// Determines whether or not the given attribute represents a selection
	bool IsSelectionAttribute(char attribute) {
	return (attribute == ATTR_TARGET_CONVERTED \|\|
	attribute == ATTR_TARGET_NOTCONVERTED);
	}

	// Helper function for OsrImeHandlerWin::GetCompositionInfo() method,
	// to get the target range that's selected by the user in the current
	// composition string.
	void GetCompositionSelectionRange(HIMC imc,
	int* target_start,
	int* target_end) {
	int attribute_size = ::ImmGetCompositionString(imc, GCS_COMPATTR, NULL, 0);
	if (attribute_size > 0) {
	int start = 0;
	int end = 0;
	std::vector<char> attribute_data(attribute_size);

	::ImmGetCompositionString(imc, GCS_COMPATTR, &attribute_data[0],
	attribute_size);
	for (start = 0; start < attribute_size; ++start) {
	if (IsSelectionAttribute(attribute_data[start]))
	break;
	}
	for (end = start; end < attribute_size; ++end) {
	if (!IsSelectionAttribute(attribute_data[end]))
	break;
	}

	*target_start = start;
	*target_end = end;
	}
	}

	// Helper function for OsrImeHandlerWin::GetCompositionInfo() method, to get
	// underlines information of the current composition string.
	void GetCompositionUnderlines(
	HIMC imc,
	int target_start,
	int target_end,
	std::vector<CefCompositionUnderline>& underlines) {
	int clause_size = ::ImmGetCompositionString(imc, GCS_COMPCLAUSE, NULL, 0);
	int clause_length = clause_size / sizeof(uint32);
	if (clause_length) {
	std::vector<uint32> clause_data(clause_length);

	::ImmGetCompositionString(imc, GCS_COMPCLAUSE, &clause_data[0],
	clause_size);
	for (int i = 0; i < clause_length - 1; ++i) {
	cef_composition_underline_t underline;
	underline.range.from = clause_data[i];
	underline.range.to = clause_data[i + 1];
	underline.color = ColorUNDERLINE;
	underline.background_color = ColorBKCOLOR;
	underline.thick = 0;

	// Use thick underline for the target clause.
	if (underline.range.from >= target_start &&
	underline.range.to <= target_end) {
	underline.thick = 1;
	}
	underlines.push_back(underline);
	}
	}
	}

	} // namespace

	OsrImeHandlerWin::OsrImeHandlerWin(HWND hwnd)
	: is_composing_(false),
	input_language_id_(LANG_USER_DEFAULT),
	system_caret_(false),
	cursor_index_(-1),
	hwnd_(hwnd) {
	ime_rect_ = {-1, -1, 0, 0};
	}

	OsrImeHandlerWin::~OsrImeHandlerWin() {
	DestroyImeWindow();
	}

	void OsrImeHandlerWin::SetInputLanguage() {
	// Retrieve the current input language from the system's keyboard layout.
	// Using GetKeyboardLayoutName instead of GetKeyboardLayout, because
	// the language from GetKeyboardLayout is the language under where the
	// keyboard layout is installed. And the language from GetKeyboardLayoutName
	// indicates the language of the keyboard layout itself.
	// See crbug.com/344834.
	WCHAR keyboard_layout[KL_NAMELENGTH];
	if (::GetKeyboardLayoutNameW(keyboard_layout)) {
	input_language_id_ =
	static_cast<LANGID>(_wtoi(&keyboard_layout[KL_NAMELENGTH >> 1]));
	} else {
	input_language_id_ = 0x0409; // Fallback to en-US.
	}
	}

	void OsrImeHandlerWin::CreateImeWindow() {
	// Chinese/Japanese IMEs somehow ignore function calls to
	// ::ImmSetCandidateWindow(), and use the position of the current system
	// caret instead -::GetCaretPos().
	// Therefore, we create a temporary system caret for Chinese IMEs and use
	// it during this input context.
	// Since some third-party Japanese IME also uses ::GetCaretPos() to determine
	// their window position, we also create a caret for Japanese IMEs.
	if (PRIMARYLANGID(input_language_id_) == LANG_CHINESE \|\|
	PRIMARYLANGID(input_language_id_) == LANG_JAPANESE) {
	if (!system_caret_) {
	if (::CreateCaret(hwnd_, NULL, 1, 1))
	system_caret_ = true;
	}
	}
	}

	void OsrImeHandlerWin::DestroyImeWindow() {
	// Destroy the system caret if we have created for this IME input context.
	if (system_caret_) {
	::DestroyCaret();
	system_caret_ = false;
	}
	}

	void OsrImeHandlerWin::MoveImeWindow() {
	// Does nothing when the target window has no input focus.
	if (GetFocus() != hwnd_)
	return;

	CefRect rc = ime_rect_;
	int location = cursor_index_;

	// If location is not specified fall back to the composition range start.
	if (location == -1)
	location = composition_range_.from;

	// Offset location by the composition range start if required.
	if (location >= composition_range_.from)
	location -= composition_range_.from;

	if (location < static_cast<int>(composition_bounds_.size()))
	rc = composition_bounds_[location];
	else
	return;

	HIMC imc = ::ImmGetContext(hwnd_);
	if (imc) {
	const int kCaretMargin = 1;
	if (PRIMARYLANGID(input_language_id_) == LANG_CHINESE) {
	// Chinese IMEs ignore function calls to ::ImmSetCandidateWindow()
	// when a user disables TSF (Text Service Framework) and CUAS (Cicero
	// Unaware Application Support).
	// On the other hand, when a user enables TSF and CUAS, Chinese IMEs
	// ignore the position of the current system caret and use the
	// parameters given to ::ImmSetCandidateWindow() with its 'dwStyle'
	// parameter CFS_CANDIDATEPOS.
	// Therefore, we do not only call ::ImmSetCandidateWindow() but also
	// set the positions of the temporary system caret if it exists.
	CANDIDATEFORM candidate_position = {
	0, CFS_CANDIDATEPOS, {rc.x, rc.y}, {0, 0, 0, 0}};
	::ImmSetCandidateWindow(imc, &candidate_position);
	}
	if (system_caret_) {
	switch (PRIMARYLANGID(input_language_id_)) {
	case LANG_JAPANESE:
	::SetCaretPos(rc.x, rc.y + rc.height);
	break;
	default:
	::SetCaretPos(rc.x, rc.y);
	break;
	}
	}

	if (PRIMARYLANGID(input_language_id_) == LANG_KOREAN) {
	// Korean IMEs require the lower-left corner of the caret to move their
	// candidate windows.
	rc.y += kCaretMargin;
	}

	// Japanese IMEs and Korean IMEs also use the rectangle given to
	// ::ImmSetCandidateWindow() with its 'dwStyle' parameter CFS_EXCLUDE
	// Therefore, we also set this parameter here.
	CANDIDATEFORM exclude_rectangle = {
	0,
	CFS_EXCLUDE,
	{rc.x, rc.y},
	{rc.x, rc.y, rc.x + rc.width, rc.y + rc.height}};
	::ImmSetCandidateWindow(imc, &exclude_rectangle);

	::ImmReleaseContext(hwnd_, imc);
	}
	}

	void OsrImeHandlerWin::CleanupComposition() {
	// Notify the IMM attached to the given window to complete the ongoing
	// composition (when given window is de-activated while composing and
	// re-activated) and reset the composition status.
	if (is_composing_) {
	HIMC imc = ::ImmGetContext(hwnd_);
	if (imc) {
	::ImmNotifyIME(imc, NI_COMPOSITIONSTR, CPS_COMPLETE, 0);
	::ImmReleaseContext(hwnd_, imc);
	}
	ResetComposition();
	}
	}

	void OsrImeHandlerWin::ResetComposition() {
	// Reset the composition status.
	is_composing_ = false;
	cursor_index_ = -1;
	}

	void OsrImeHandlerWin::GetCompositionInfo(
	HIMC imc,
	LPARAM lparam,
	CefString& composition_text,
	std::vector<CefCompositionUnderline>& underlines,
	int& composition_start) {
	// We only care about GCS_COMPATTR, GCS_COMPCLAUSE and GCS_CURSORPOS, and
	// convert them into underlines and selection range respectively.
	underlines.clear();

	int length = static_cast<int>(composition_text.length());

	// Find out the range selected by the user.
	int target_start = length;
	int target_end = length;
	if (lparam & GCS_COMPATTR)
	GetCompositionSelectionRange(imc, &target_start, &target_end);

	// Retrieve the selection range information. If CS_NOMOVECARET is specified
	// it means the cursor should not be moved and we therefore place the caret at
	// the beginning of the composition string. Otherwise we should honour the
	// GCS_CURSORPOS value if it's available.
	// TODO(suzhe): Due to a bug in WebKit we currently can't use selection range
	// with composition string.
	// See: https://bugs.webkit.org/show_bug.cgi?id=40805
	if (!(lparam & CS_NOMOVECARET) && (lparam & GCS_CURSORPOS)) {
	// IMM32 does not support non-zero-width selection in a composition. So
	// always use the caret position as selection range.
	int cursor = ::ImmGetCompositionString(imc, GCS_CURSORPOS, NULL, 0);
	composition_start = cursor;
	} else {
	composition_start = 0;
	}

	// Retrieve the clause segmentations and convert them to underlines.
	if (lparam & GCS_COMPCLAUSE)
	GetCompositionUnderlines(imc, target_start, target_end, underlines);

	// Set default underlines in case there is no clause information.
	if (!underlines.size()) {
	CefCompositionUnderline underline;
	underline.color = ColorUNDERLINE;
	underline.background_color = ColorBKCOLOR;
	if (target_start > 0) {
	underline.range.from = 0;
	underline.range.to = target_start;
	underline.thick = 0;
	underlines.push_back(underline);
	}
	if (target_end > target_start) {
	underline.range.from = target_start;
	underline.range.to = target_end;
	underline.thick = 1;
	underlines.push_back(underline);
	}
	if (target_end < length) {
	underline.range.from = target_end;
	underline.range.to = length;
	underline.thick = 0;
	underlines.push_back(underline);
	}
	}
	}

	bool OsrImeHandlerWin::GetString(HIMC imc,
	WPARAM lparam,
	int type,
	CefString& result) {
	if (!(lparam & type))
	return false;
	LONG string_size = ::ImmGetCompositionString(imc, type, NULL, 0);
	if (string_size <= 0)
	return false;

	// For trailing NULL - ImmGetCompositionString excludes that.
	string_size += sizeof(WCHAR);

	std::vector<wchar_t> buffer(string_size);
	::ImmGetCompositionString(imc, type, &buffer[0], string_size);
	result.FromWString(&buffer[0]);
	return true;
	}

	bool OsrImeHandlerWin::GetResult(LPARAM lparam, CefString& result) {
	bool ret = false;
	HIMC imc = ::ImmGetContext(hwnd_);
	if (imc) {
	ret = GetString(imc, lparam, GCS_RESULTSTR, result);
	::ImmReleaseContext(hwnd_, imc);
	}
	return ret;
	}

	bool OsrImeHandlerWin::GetComposition(
	LPARAM lparam,
	CefString& composition_text,
	std::vector<CefCompositionUnderline>& underlines,
	int& composition_start) {
	bool ret = false;
	HIMC imc = ::ImmGetContext(hwnd_);
	if (imc) {
	// Copy the composition string to the CompositionText object.
	ret = GetString(imc, lparam, GCS_COMPSTR, composition_text);

	if (ret) {
	// Retrieve the composition underlines and selection range information.
	GetCompositionInfo(imc, lparam, composition_text, underlines,
	composition_start);

	// Mark that there is an ongoing composition.
	is_composing_ = true;
	}

	::ImmReleaseContext(hwnd_, imc);
	}
	return ret;
	}

	void OsrImeHandlerWin::DisableIME() {
	CleanupComposition();
	::ImmAssociateContextEx(hwnd_, NULL, 0);
	}

	void OsrImeHandlerWin::CancelIME() {
	if (is_composing_) {
	HIMC imc = ::ImmGetContext(hwnd_);
	if (imc) {
	::ImmNotifyIME(imc, NI_COMPOSITIONSTR, CPS_CANCEL, 0);
	::ImmReleaseContext(hwnd_, imc);
	}
	ResetComposition();
	}
	}

	void OsrImeHandlerWin::EnableIME() {
	// Load the default IME context.
	::ImmAssociateContextEx(hwnd_, NULL, IACE_DEFAULT);
	}

	void OsrImeHandlerWin::UpdateCaretPosition(int index) {
	// Save the caret position.
	cursor_index_ = index;
	// Move the IME window.
	MoveImeWindow();
	}

	void OsrImeHandlerWin::ChangeCompositionRange(
	const CefRange& selection_range,
	const std::vector<CefRect>& bounds) {
	composition_range_ = selection_range;
	composition_bounds_ = bounds;
	MoveImeWindow();
	}

	} // namespace client