Add ICU message format support
[chromium-blink-merge.git] / ui / base / ime / win / imm32_manager.cc
blob4fc176613c1d481dacd8d9500da0147207892fbf
1 // Copyright 2013 The Chromium Authors. All rights reserved.
2 // Use of this source code is governed by a BSD-style license that can be
3 // found in the LICENSE file.
5 #include "ui/base/ime/win/imm32_manager.h"
7 #include "base/basictypes.h"
8 #include "base/memory/scoped_ptr.h"
9 #include "base/strings/string16.h"
10 #include "base/strings/string_util.h"
11 #include "base/strings/utf_string_conversions.h"
12 #include "base/win/scoped_comptr.h"
13 #include "third_party/skia/include/core/SkColor.h"
14 #include "ui/base/ime/composition_text.h"
16 // "imm32.lib" is required by IMM32 APIs used in this file.
17 // NOTE(hbono): To comply with a comment from Darin, I have added
18 // this #pragma directive instead of adding "imm32.lib" to a project file.
19 #pragma comment(lib, "imm32.lib")
21 // Following code requires wchar_t to be same as char16. It should always be
22 // true on Windows.
23 static_assert(sizeof(wchar_t) == sizeof(base::char16),
24 "wchar_t should be the same size as char16");
26 ///////////////////////////////////////////////////////////////////////////////
27 // IMM32Manager
29 namespace {
31 // Determines whether or not the given attribute represents a target
32 // (a.k.a. a selection).
33 bool IsTargetAttribute(char attribute) {
34 return (attribute == ATTR_TARGET_CONVERTED ||
35 attribute == ATTR_TARGET_NOTCONVERTED);
38 // Helper function for IMM32Manager::GetCompositionInfo() method, to get the
39 // target range that's selected by the user in the current composition string.
40 void GetCompositionTargetRange(HIMC imm_context, int* target_start,
41 int* target_end) {
42 int attribute_size = ::ImmGetCompositionString(imm_context, GCS_COMPATTR,
43 NULL, 0);
44 if (attribute_size > 0) {
45 int start = 0;
46 int end = 0;
47 scoped_ptr<char[]> attribute_data(new char[attribute_size]);
48 if (attribute_data.get()) {
49 ::ImmGetCompositionString(imm_context, GCS_COMPATTR,
50 attribute_data.get(), attribute_size);
51 for (start = 0; start < attribute_size; ++start) {
52 if (IsTargetAttribute(attribute_data[start]))
53 break;
55 for (end = start; end < attribute_size; ++end) {
56 if (!IsTargetAttribute(attribute_data[end]))
57 break;
60 *target_start = start;
61 *target_end = end;
65 // Helper function for IMM32Manager::GetCompositionInfo() method, to get
66 // underlines information of the current composition string.
67 void GetCompositionUnderlines(HIMC imm_context,
68 int target_start,
69 int target_end,
70 ui::CompositionUnderlines* underlines) {
71 int clause_size = ::ImmGetCompositionString(imm_context, GCS_COMPCLAUSE,
72 NULL, 0);
73 int clause_length = clause_size / sizeof(uint32);
74 if (clause_length) {
75 scoped_ptr<uint32[]> clause_data(new uint32[clause_length]);
76 if (clause_data.get()) {
77 ::ImmGetCompositionString(imm_context, GCS_COMPCLAUSE,
78 clause_data.get(), clause_size);
79 for (int i = 0; i < clause_length - 1; ++i) {
80 ui::CompositionUnderline underline;
81 underline.start_offset = clause_data[i];
82 underline.end_offset = clause_data[i+1];
83 underline.color = SK_ColorBLACK;
84 underline.thick = false;
85 underline.background_color = SK_ColorTRANSPARENT;
87 // Use thick underline for the target clause.
88 if (underline.start_offset >= static_cast<uint32>(target_start) &&
89 underline.end_offset <= static_cast<uint32>(target_end)) {
90 underline.thick = true;
92 underlines->push_back(underline);
98 // Checks if a given primary language ID is a RTL language.
99 bool IsRTLPrimaryLangID(LANGID lang) {
100 switch (lang) {
101 case LANG_ARABIC:
102 case LANG_HEBREW:
103 case LANG_PERSIAN:
104 case LANG_SYRIAC:
105 case LANG_UIGHUR:
106 case LANG_URDU:
107 return true;
108 default:
109 return false;
113 } // namespace
115 namespace ui {
117 IMM32Manager::IMM32Manager()
118 : is_composing_(false),
119 input_language_id_(LANG_USER_DEFAULT),
120 system_caret_(false),
121 caret_rect_(-1, -1, 0, 0),
122 use_composition_window_(false) {
125 IMM32Manager::~IMM32Manager() {
128 void IMM32Manager::SetInputLanguage() {
129 // Retrieve the current keyboard layout from Windows and determine whether
130 // or not the current input context has IMEs.
131 // Also save its input language for language-specific operations required
132 // while composing a text.
133 HKL keyboard_layout = ::GetKeyboardLayout(0);
134 input_language_id_ =
135 static_cast<LANGID>(reinterpret_cast<uintptr_t>(keyboard_layout));
138 void IMM32Manager::CreateImeWindow(HWND window_handle) {
139 // When a user disables TSF (Text Service Framework) and CUAS (Cicero
140 // Unaware Application Support), Chinese IMEs somehow ignore function calls
141 // to ::ImmSetCandidateWindow(), i.e. they do not move their candidate
142 // window to the position given as its parameters, and use the position
143 // of the current system caret instead, i.e. it uses ::GetCaretPos() to
144 // retrieve the position of their IME candidate window.
145 // Therefore, we create a temporary system caret for Chinese IMEs and use
146 // it during this input context.
147 // Since some third-party Japanese IME also uses ::GetCaretPos() to determine
148 // their window position, we also create a caret for Japanese IMEs.
149 if (PRIMARYLANGID(input_language_id_) == LANG_CHINESE ||
150 PRIMARYLANGID(input_language_id_) == LANG_JAPANESE) {
151 if (!system_caret_) {
152 if (::CreateCaret(window_handle, NULL, 1, 1)) {
153 system_caret_ = true;
157 // Restore the positions of the IME windows.
158 UpdateImeWindow(window_handle);
161 LRESULT IMM32Manager::SetImeWindowStyle(HWND window_handle, UINT message,
162 WPARAM wparam, LPARAM lparam,
163 BOOL* handled) {
164 // To prevent the IMM (Input Method Manager) from displaying the IME
165 // composition window, Update the styles of the IME windows and EXPLICITLY
166 // call ::DefWindowProc() here.
167 // NOTE(hbono): We can NEVER let WTL call ::DefWindowProc() when we update
168 // the styles of IME windows because the 'lparam' variable is a local one
169 // and all its updates disappear in returning from this function, i.e. WTL
170 // does not call ::DefWindowProc() with our updated 'lparam' value but call
171 // the function with its original value and over-writes our window styles.
172 *handled = TRUE;
173 lparam &= ~ISC_SHOWUICOMPOSITIONWINDOW;
174 return ::DefWindowProc(window_handle, message, wparam, lparam);
177 void IMM32Manager::DestroyImeWindow(HWND window_handle) {
178 // Destroy the system caret if we have created for this IME input context.
179 if (system_caret_) {
180 ::DestroyCaret();
181 system_caret_ = false;
185 void IMM32Manager::MoveImeWindow(HWND window_handle, HIMC imm_context) {
186 // Does nothing when the target window has no input focus. This is important
187 // because the renderer may issue SelectionBoundsChanged event even when it
188 // has no input focus. (e.g. the page update caused by incremental search.)
189 // So this event should be ignored when the |window_handle| no longer has the
190 // input focus.
191 if (GetFocus() != window_handle)
192 return;
194 int x = caret_rect_.x();
195 int y = caret_rect_.y();
197 const int kCaretMargin = 1;
198 if (!use_composition_window_ &&
199 PRIMARYLANGID(input_language_id_) == LANG_CHINESE) {
200 // As written in a comment in IMM32Manager::CreateImeWindow(),
201 // Chinese IMEs ignore function calls to ::ImmSetCandidateWindow()
202 // when a user disables TSF (Text Service Framework) and CUAS (Cicero
203 // Unaware Application Support).
204 // On the other hand, when a user enables TSF and CUAS, Chinese IMEs
205 // ignore the position of the current system caret and uses the
206 // parameters given to ::ImmSetCandidateWindow() with its 'dwStyle'
207 // parameter CFS_CANDIDATEPOS.
208 // Therefore, we do not only call ::ImmSetCandidateWindow() but also
209 // set the positions of the temporary system caret if it exists.
210 CANDIDATEFORM candidate_position = {0, CFS_CANDIDATEPOS, {x, y},
211 {0, 0, 0, 0}};
212 ::ImmSetCandidateWindow(imm_context, &candidate_position);
214 if (system_caret_) {
215 switch (PRIMARYLANGID(input_language_id_)) {
216 case LANG_JAPANESE:
217 ::SetCaretPos(x, y + caret_rect_.height());
218 break;
219 default:
220 ::SetCaretPos(x, y);
221 break;
224 if (use_composition_window_) {
225 // Moves the composition text window.
226 COMPOSITIONFORM cf = {CFS_POINT, {x, y}};
227 ::ImmSetCompositionWindow(imm_context, &cf);
228 // Don't need to set the position of candidate window.
229 return;
232 if (PRIMARYLANGID(input_language_id_) == LANG_KOREAN) {
233 // Chinese IMEs and Japanese IMEs require the upper-left corner of
234 // the caret to move the position of their candidate windows.
235 // On the other hand, Korean IMEs require the lower-left corner of the
236 // caret to move their candidate windows.
237 y += kCaretMargin;
239 // Japanese IMEs and Korean IMEs also use the rectangle given to
240 // ::ImmSetCandidateWindow() with its 'dwStyle' parameter CFS_EXCLUDE
241 // to move their candidate windows when a user disables TSF and CUAS.
242 // Therefore, we also set this parameter here.
243 CANDIDATEFORM exclude_rectangle = {0, CFS_EXCLUDE, {x, y},
244 {x, y, x + caret_rect_.width(), y + caret_rect_.height()}};
245 ::ImmSetCandidateWindow(imm_context, &exclude_rectangle);
248 void IMM32Manager::UpdateImeWindow(HWND window_handle) {
249 // Just move the IME window attached to the given window.
250 if (caret_rect_.x() >= 0 && caret_rect_.y() >= 0) {
251 HIMC imm_context = ::ImmGetContext(window_handle);
252 if (imm_context) {
253 MoveImeWindow(window_handle, imm_context);
254 ::ImmReleaseContext(window_handle, imm_context);
259 void IMM32Manager::CleanupComposition(HWND window_handle) {
260 // Notify the IMM attached to the given window to complete the ongoing
261 // composition, (this case happens when the given window is de-activated
262 // while composing a text and re-activated), and reset the omposition status.
263 if (is_composing_) {
264 HIMC imm_context = ::ImmGetContext(window_handle);
265 if (imm_context) {
266 ::ImmNotifyIME(imm_context, NI_COMPOSITIONSTR, CPS_COMPLETE, 0);
267 ::ImmReleaseContext(window_handle, imm_context);
269 ResetComposition(window_handle);
273 void IMM32Manager::ResetComposition(HWND window_handle) {
274 // Currently, just reset the composition status.
275 is_composing_ = false;
278 void IMM32Manager::CompleteComposition(HWND window_handle, HIMC imm_context) {
279 // We have to confirm there is an ongoing composition before completing it.
280 // This is for preventing some IMEs from getting confused while completing an
281 // ongoing composition even if they do not have any ongoing compositions.)
282 if (is_composing_) {
283 ::ImmNotifyIME(imm_context, NI_COMPOSITIONSTR, CPS_COMPLETE, 0);
284 ResetComposition(window_handle);
288 void IMM32Manager::GetCompositionInfo(HIMC imm_context, LPARAM lparam,
289 CompositionText* composition) {
290 // We only care about GCS_COMPATTR, GCS_COMPCLAUSE and GCS_CURSORPOS, and
291 // convert them into underlines and selection range respectively.
292 composition->underlines.clear();
294 int length = static_cast<int>(composition->text.length());
296 // Find out the range selected by the user.
297 int target_start = length;
298 int target_end = length;
299 if (lparam & GCS_COMPATTR)
300 GetCompositionTargetRange(imm_context, &target_start, &target_end);
302 // Retrieve the selection range information. If CS_NOMOVECARET is specified,
303 // that means the cursor should not be moved, then we just place the caret at
304 // the beginning of the composition string. Otherwise we should honour the
305 // GCS_CURSORPOS value if it's available.
306 // TODO(suzhe): due to a bug of webkit, we currently can't use selection range
307 // with composition string. See: https://bugs.webkit.org/show_bug.cgi?id=40805
308 if (!(lparam & CS_NOMOVECARET) && (lparam & GCS_CURSORPOS)) {
309 // IMM32 does not support non-zero-width selection in a composition. So
310 // always use the caret position as selection range.
311 int cursor = ::ImmGetCompositionString(imm_context, GCS_CURSORPOS, NULL, 0);
312 composition->selection = gfx::Range(cursor);
313 } else {
314 composition->selection = gfx::Range(0);
317 // Retrieve the clause segmentations and convert them to underlines.
318 if (lparam & GCS_COMPCLAUSE) {
319 GetCompositionUnderlines(imm_context, target_start, target_end,
320 &composition->underlines);
323 // Set default underlines in case there is no clause information.
324 if (!composition->underlines.size()) {
325 CompositionUnderline underline;
326 underline.color = SK_ColorBLACK;
327 underline.background_color = SK_ColorTRANSPARENT;
328 if (target_start > 0) {
329 underline.start_offset = 0U;
330 underline.end_offset = static_cast<uint32>(target_start);
331 underline.thick = false;
332 composition->underlines.push_back(underline);
334 if (target_end > target_start) {
335 underline.start_offset = static_cast<uint32>(target_start);
336 underline.end_offset = static_cast<uint32>(target_end);
337 underline.thick = true;
338 composition->underlines.push_back(underline);
340 if (target_end < length) {
341 underline.start_offset = static_cast<uint32>(target_end);
342 underline.end_offset = static_cast<uint32>(length);
343 underline.thick = false;
344 composition->underlines.push_back(underline);
349 bool IMM32Manager::GetString(HIMC imm_context,
350 WPARAM lparam,
351 int type,
352 base::string16* result) {
353 if (!(lparam & type))
354 return false;
355 LONG string_size = ::ImmGetCompositionString(imm_context, type, NULL, 0);
356 if (string_size <= 0)
357 return false;
358 DCHECK_EQ(0u, string_size % sizeof(wchar_t));
359 ::ImmGetCompositionString(imm_context, type,
360 base::WriteInto(result, (string_size / sizeof(wchar_t)) + 1),
361 string_size);
362 return true;
365 bool IMM32Manager::GetResult(
366 HWND window_handle, LPARAM lparam, base::string16* result) {
367 bool ret = false;
368 HIMC imm_context = ::ImmGetContext(window_handle);
369 if (imm_context) {
370 ret = GetString(imm_context, lparam, GCS_RESULTSTR, result);
371 ::ImmReleaseContext(window_handle, imm_context);
373 return ret;
376 bool IMM32Manager::GetComposition(HWND window_handle, LPARAM lparam,
377 CompositionText* composition) {
378 bool ret = false;
379 HIMC imm_context = ::ImmGetContext(window_handle);
380 if (imm_context) {
381 // Copy the composition string to the CompositionText object.
382 ret = GetString(imm_context, lparam, GCS_COMPSTR, &composition->text);
384 if (ret) {
385 // This is a dirty workaround for facebook. Facebook deletes the
386 // placeholder character (U+3000) used by Traditional-Chinese IMEs at the
387 // beginning of composition text. This prevents WebKit from replacing this
388 // placeholder character with a Traditional-Chinese character, i.e. we
389 // cannot input any characters in a comment box of facebook with
390 // Traditional-Chinese IMEs. As a workaround, we replace U+3000 at the
391 // beginning of composition text with U+FF3F, a placeholder character used
392 // by Japanese IMEs.
393 if (input_language_id_ == MAKELANGID(LANG_CHINESE,
394 SUBLANG_CHINESE_TRADITIONAL) &&
395 composition->text[0] == 0x3000) {
396 composition->text[0] = 0xFF3F;
399 // Retrieve the composition underlines and selection range information.
400 GetCompositionInfo(imm_context, lparam, composition);
402 // Mark that there is an ongoing composition.
403 is_composing_ = true;
406 ::ImmReleaseContext(window_handle, imm_context);
408 return ret;
411 void IMM32Manager::DisableIME(HWND window_handle) {
412 // A renderer process have moved its input focus to a password input
413 // when there is an ongoing composition, e.g. a user has clicked a
414 // mouse button and selected a password input while composing a text.
415 // For this case, we have to complete the ongoing composition and
416 // clean up the resources attached to this object BEFORE DISABLING THE IME.
417 CleanupComposition(window_handle);
418 ::ImmAssociateContextEx(window_handle, NULL, 0);
421 void IMM32Manager::CancelIME(HWND window_handle) {
422 if (is_composing_) {
423 HIMC imm_context = ::ImmGetContext(window_handle);
424 if (imm_context) {
425 ::ImmNotifyIME(imm_context, NI_COMPOSITIONSTR, CPS_CANCEL, 0);
426 ::ImmReleaseContext(window_handle, imm_context);
428 ResetComposition(window_handle);
432 void IMM32Manager::EnableIME(HWND window_handle) {
433 // Load the default IME context.
434 // NOTE(hbono)
435 // IMM ignores this call if the IME context is loaded. Therefore, we do
436 // not have to check whether or not the IME context is loaded.
437 ::ImmAssociateContextEx(window_handle, NULL, IACE_DEFAULT);
440 void IMM32Manager::UpdateCaretRect(HWND window_handle,
441 const gfx::Rect& caret_rect) {
442 // Save the caret position, and Update the position of the IME window.
443 // This update is used for moving an IME window when a renderer process
444 // resize/moves the input caret.
445 if (caret_rect_ != caret_rect) {
446 caret_rect_ = caret_rect;
447 // Move the IME windows.
448 HIMC imm_context = ::ImmGetContext(window_handle);
449 if (imm_context) {
450 MoveImeWindow(window_handle, imm_context);
451 ::ImmReleaseContext(window_handle, imm_context);
456 void IMM32Manager::SetUseCompositionWindow(bool use_composition_window) {
457 use_composition_window_ = use_composition_window;
460 std::string IMM32Manager::GetInputLanguageName() const {
461 const LCID locale_id = MAKELCID(input_language_id_, SORT_DEFAULT);
462 // max size for LOCALE_SISO639LANGNAME and LOCALE_SISO3166CTRYNAME is 9.
463 wchar_t buffer[9];
465 // Get language id.
466 int length = ::GetLocaleInfo(locale_id, LOCALE_SISO639LANGNAME, &buffer[0],
467 arraysize(buffer));
468 if (length <= 1)
469 return std::string();
471 std::string language;
472 base::WideToUTF8(buffer, length - 1, &language);
473 if (SUBLANGID(input_language_id_) == SUBLANG_NEUTRAL)
474 return language;
476 // Get region id.
477 length = ::GetLocaleInfo(locale_id, LOCALE_SISO3166CTRYNAME, &buffer[0],
478 arraysize(buffer));
479 if (length <= 1)
480 return language;
482 std::string region;
483 base::WideToUTF8(buffer, length - 1, &region);
484 return language.append(1, '-').append(region);
487 void IMM32Manager::SetTextInputMode(HWND window_handle,
488 TextInputMode input_mode) {
489 if (input_mode == ui::TEXT_INPUT_MODE_DEFAULT)
490 return;
492 const HIMC imm_context = ::ImmGetContext(window_handle);
493 if (!imm_context)
494 return;
496 DWORD conversion_mode = 0;
497 DWORD sentence_mode = 0;
498 if (::ImmGetConversionStatus(imm_context, &conversion_mode, &sentence_mode)
499 == FALSE) {
500 return;
503 BOOL open = FALSE;
504 ConvertInputModeToImmFlags(input_mode, conversion_mode, &open,
505 &conversion_mode),
507 ::ImmSetOpenStatus(imm_context, open);
508 if (open)
509 ::ImmSetConversionStatus(imm_context, conversion_mode, sentence_mode);
510 ::ImmReleaseContext(window_handle, imm_context);
513 // static
514 bool IMM32Manager::IsRTLKeyboardLayoutInstalled() {
515 static enum {
516 RTL_KEYBOARD_LAYOUT_NOT_INITIALIZED,
517 RTL_KEYBOARD_LAYOUT_INSTALLED,
518 RTL_KEYBOARD_LAYOUT_NOT_INSTALLED,
519 RTL_KEYBOARD_LAYOUT_ERROR,
520 } layout = RTL_KEYBOARD_LAYOUT_NOT_INITIALIZED;
522 // Cache the result value.
523 if (layout != RTL_KEYBOARD_LAYOUT_NOT_INITIALIZED)
524 return layout == RTL_KEYBOARD_LAYOUT_INSTALLED;
526 // Retrieve the number of layouts installed in this system.
527 int size = GetKeyboardLayoutList(0, NULL);
528 if (size <= 0) {
529 layout = RTL_KEYBOARD_LAYOUT_ERROR;
530 return false;
533 // Retrieve the keyboard layouts in an array and check if there is an RTL
534 // layout in it.
535 scoped_ptr<HKL[]> layouts(new HKL[size]);
536 ::GetKeyboardLayoutList(size, layouts.get());
537 for (int i = 0; i < size; ++i) {
538 if (IsRTLPrimaryLangID(
539 PRIMARYLANGID(reinterpret_cast<uintptr_t>(layouts[i])))) {
540 layout = RTL_KEYBOARD_LAYOUT_INSTALLED;
541 return true;
545 layout = RTL_KEYBOARD_LAYOUT_NOT_INSTALLED;
546 return false;
549 bool IMM32Manager::IsCtrlShiftPressed(base::i18n::TextDirection* direction) {
550 uint8_t keystate[256];
551 if (!::GetKeyboardState(&keystate[0]))
552 return false;
554 // To check if a user is pressing only a control key and a right-shift key
555 // (or a left-shift key), we use the steps below:
556 // 1. Check if a user is pressing a control key and a right-shift key (or
557 // a left-shift key).
558 // 2. If the condition 1 is true, we should check if there are any other
559 // keys pressed at the same time.
560 // To ignore the keys checked in 1, we set their status to 0 before
561 // checking the key status.
562 const int kKeyDownMask = 0x80;
563 if ((keystate[VK_CONTROL] & kKeyDownMask) == 0)
564 return false;
566 if (keystate[VK_RSHIFT] & kKeyDownMask) {
567 keystate[VK_RSHIFT] = 0;
568 *direction = base::i18n::RIGHT_TO_LEFT;
569 } else if (keystate[VK_LSHIFT] & kKeyDownMask) {
570 keystate[VK_LSHIFT] = 0;
571 *direction = base::i18n::LEFT_TO_RIGHT;
572 } else {
573 return false;
576 // Scan the key status to find pressed keys. We should abandon changing the
577 // text direction when there are other pressed keys.
578 // This code is executed only when a user is pressing a control key and a
579 // right-shift key (or a left-shift key), i.e. we should ignore the status of
580 // the keys: VK_SHIFT, VK_CONTROL, VK_RCONTROL, and VK_LCONTROL.
581 // So, we reset their status to 0 and ignore them.
582 keystate[VK_SHIFT] = 0;
583 keystate[VK_CONTROL] = 0;
584 keystate[VK_RCONTROL] = 0;
585 keystate[VK_LCONTROL] = 0;
586 // Oddly, pressing F10 in another application seemingly breaks all subsequent
587 // calls to GetKeyboardState regarding the state of the F22 key. Perhaps this
588 // defect is limited to my keyboard driver, but ignoring F22 should be okay.
589 keystate[VK_F22] = 0;
590 for (int i = 0; i <= VK_PACKET; ++i) {
591 if (keystate[i] & kKeyDownMask)
592 return false;
594 return true;
597 void IMM32Manager::ConvertInputModeToImmFlags(TextInputMode input_mode,
598 DWORD initial_conversion_mode,
599 BOOL* open,
600 DWORD* new_conversion_mode) {
601 *open = TRUE;
602 *new_conversion_mode = initial_conversion_mode;
603 switch (input_mode) {
604 case ui::TEXT_INPUT_MODE_FULL_WIDTH_LATIN:
605 *new_conversion_mode |= IME_CMODE_FULLSHAPE;
606 *new_conversion_mode &= ~(IME_CMODE_NATIVE
607 | IME_CMODE_KATAKANA);
608 break;
609 case ui::TEXT_INPUT_MODE_KANA:
610 *new_conversion_mode |= (IME_CMODE_NATIVE
611 | IME_CMODE_FULLSHAPE);
612 *new_conversion_mode &= ~IME_CMODE_KATAKANA;
613 break;
614 case ui::TEXT_INPUT_MODE_KATAKANA:
615 *new_conversion_mode |= (IME_CMODE_NATIVE
616 | IME_CMODE_KATAKANA
617 | IME_CMODE_FULLSHAPE);
618 break;
619 default:
620 *open = FALSE;
621 break;
625 } // namespace ui