// Copyright 2014 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 "ui/base/ime/input_method_chromeos.h"
#include <algorithm>
#include <cstring>
#include <set>
#include <vector>
#include "base/basictypes.h"
#include "base/bind.h"
#include "base/i18n/char_iterator.h"
#include "base/logging.h"
#include "base/strings/string_util.h"
#include "base/strings/utf_string_conversions.h"
#include "base/sys_info.h"
#include "base/third_party/icu/icu_utf.h"
#include "chromeos/ime/composition_text.h"
#include "chromeos/ime/ime_keyboard.h"
#include "chromeos/ime/input_method_manager.h"
#include "ui/base/ime/text_input_client.h"
#include "ui/events/event.h"
#include "ui/gfx/rect.h"
namespace {
chromeos::IMEEngineHandlerInterface* GetEngine() {
return chromeos::IMEBridge::Get()->GetCurrentEngineHandler();
}
} // namespace
namespace ui {
// InputMethodChromeOS implementation -----------------------------------------
InputMethodChromeOS::InputMethodChromeOS(
internal::InputMethodDelegate* delegate)
: composing_text_(false),
composition_changed_(false),
current_keyevent_id_(0),
weak_ptr_factory_(this) {
SetDelegate(delegate);
chromeos::IMEBridge::Get()->SetInputContextHandler(this);
UpdateContextFocusState();
}
InputMethodChromeOS::~InputMethodChromeOS() {
AbandonAllPendingKeyEvents();
ConfirmCompositionText();
// We are dead, so we need to ask the client to stop relying on us.
OnInputMethodChanged();
chromeos::IMEBridge::Get()->SetInputContextHandler(NULL);
}
void InputMethodChromeOS::OnFocus() {
InputMethodBase::OnFocus();
OnTextInputTypeChanged(GetTextInputClient());
}
void InputMethodChromeOS::OnBlur() {
ConfirmCompositionText();
InputMethodBase::OnBlur();
OnTextInputTypeChanged(GetTextInputClient());
}
bool InputMethodChromeOS::OnUntranslatedIMEMessage(
const base::NativeEvent& event,
NativeEventResult* result) {
return false;
}
void InputMethodChromeOS::ProcessKeyEventDone(uint32 id,
ui::KeyEvent* event,
bool is_handled) {
if (pending_key_events_.find(id) == pending_key_events_.end())
return; // Abandoned key event.
DCHECK(event);
if (event->type() == ET_KEY_PRESSED) {
if (is_handled) {
// IME event has a priority to be handled, so that character composer
// should be reset.
character_composer_.Reset();
} else {
// If IME does not handle key event, passes keyevent to character composer
// to be able to compose complex characters.
is_handled = ExecuteCharacterComposer(*event);
}
}
if (event->type() == ET_KEY_PRESSED || event->type() == ET_KEY_RELEASED)
ProcessKeyEventPostIME(*event, is_handled);
// ProcessKeyEventPostIME may change the |pending_key_events_|.
pending_key_events_.erase(id);
}
bool InputMethodChromeOS::DispatchKeyEvent(const ui::KeyEvent& event) {
DCHECK(event.type() == ET_KEY_PRESSED || event.type() == ET_KEY_RELEASED);
DCHECK(system_toplevel_window_focused());
// For linux_chromeos, the ime keyboard cannot track the caps lock state by
// itself, so need to call SetCapsLockEnabled() method to reflect the caps
// lock state by the key event.
if (!base::SysInfo::IsRunningOnChromeOS()) {
chromeos::input_method::InputMethodManager* manager =
chromeos::input_method::InputMethodManager::Get();
if (manager) {
chromeos::input_method::ImeKeyboard* keyboard = manager->GetImeKeyboard();
if (keyboard && event.type() == ui::ET_KEY_PRESSED) {
bool caps = (event.key_code() == ui::VKEY_CAPITAL)
? !keyboard->CapsLockIsEnabled()
: (event.flags() & EF_CAPS_LOCK_DOWN);
keyboard->SetCapsLockEnabled(caps);
}
}
}
// If |context_| is not usable, then we can only dispatch the key event as is.
// We only dispatch the key event to input method when the |context_| is an
// normal input field (not a password field).
// Note: We need to send the key event to ibus even if the |context_| is not
// enabled, so that ibus can have a chance to enable the |context_|.
if (!IsInputFieldFocused() || !GetEngine()) {
if (event.type() == ET_KEY_PRESSED) {
if (ExecuteCharacterComposer(event)) {
// Treating as PostIME event if character composer handles key event and
// generates some IME event,
ProcessKeyEventPostIME(event, true);
return true;
}
ProcessUnfilteredKeyPressEvent(event);
} else {
DispatchKeyEventPostIME(event);
}
return true;
}
pending_key_events_.insert(current_keyevent_id_);
ui::KeyEvent* copied_event = new ui::KeyEvent(event);
GetEngine()->ProcessKeyEvent(
event,
base::Bind(&InputMethodChromeOS::ProcessKeyEventDone,
weak_ptr_factory_.GetWeakPtr(),
current_keyevent_id_,
// Pass the ownership of |copied_event|.
base::Owned(copied_event)));
++current_keyevent_id_;
return true;
}
void InputMethodChromeOS::OnTextInputTypeChanged(
const TextInputClient* client) {
if (!IsTextInputClientFocused(client))
return;
UpdateContextFocusState();
chromeos::IMEEngineHandlerInterface* engine = GetEngine();
if (engine) {
// When focused input client is not changed, a text input type change should
// cause blur/focus events to engine.
// The focus in to or out from password field should also notify engine.
engine->FocusOut();
chromeos::IMEEngineHandlerInterface::InputContext context(
GetTextInputType(), GetTextInputMode());
engine->FocusIn(context);
}
InputMethodBase::OnTextInputTypeChanged(client);
}
void InputMethodChromeOS::OnCaretBoundsChanged(const TextInputClient* client) {
if (!IsInputFieldFocused() || !IsTextInputClientFocused(client))
return;
// The current text input type should not be NONE if |context_| is focused.
DCHECK(!IsTextInputTypeNone());
const gfx::Rect rect = GetTextInputClient()->GetCaretBounds();
gfx::Rect composition_head;
if (!GetTextInputClient()->GetCompositionCharacterBounds(0,
&composition_head)) {
composition_head = rect;
}
chromeos::IMECandidateWindowHandlerInterface* candidate_window =
chromeos::IMEBridge::Get()->GetCandidateWindowHandler();
if (!candidate_window)
return;
candidate_window->SetCursorBounds(rect, composition_head);
gfx::Range text_range;
gfx::Range selection_range;
base::string16 surrounding_text;
if (!GetTextInputClient()->GetTextRange(&text_range) ||
!GetTextInputClient()->GetTextFromRange(text_range, &surrounding_text) ||
!GetTextInputClient()->GetSelectionRange(&selection_range)) {
previous_surrounding_text_.clear();
previous_selection_range_ = gfx::Range::InvalidRange();
return;
}
if (previous_selection_range_ == selection_range &&
previous_surrounding_text_ == surrounding_text)
return;
previous_selection_range_ = selection_range;
previous_surrounding_text_ = surrounding_text;
if (!selection_range.IsValid()) {
// TODO(nona): Ideally selection_range should not be invalid.
// TODO(nona): If javascript changes the focus on page loading, even (0,0)
// can not be obtained. Need investigation.
return;
}
// Here SetSurroundingText accepts relative position of |surrounding_text|, so
// we have to convert |selection_range| from node coordinates to
// |surrounding_text| coordinates.
if (!GetEngine())
return;
GetEngine()->SetSurroundingText(base::UTF16ToUTF8(surrounding_text),
selection_range.start() - text_range.start(),
selection_range.end() - text_range.start());
}
void InputMethodChromeOS::CancelComposition(const TextInputClient* client) {
if (IsInputFieldFocused() && IsTextInputClientFocused(client))
ResetContext();
}
void InputMethodChromeOS::OnInputLocaleChanged() {
// Not supported.
}
std::string InputMethodChromeOS::GetInputLocale() {
// Not supported.
return "";
}
bool InputMethodChromeOS::IsActive() {
return true;
}
bool InputMethodChromeOS::IsCandidatePopupOpen() const {
// TODO(yukishiino): Implement this method.
return false;
}
void InputMethodChromeOS::OnWillChangeFocusedClient(
TextInputClient* focused_before,
TextInputClient* focused) {
ConfirmCompositionText();
if (GetEngine())
GetEngine()->FocusOut();
}
void InputMethodChromeOS::OnDidChangeFocusedClient(
TextInputClient* focused_before,
TextInputClient* focused) {
// Force to update the input type since client's TextInputStateChanged()
// function might not be called if text input types before the client loses
// focus and after it acquires focus again are the same.
UpdateContextFocusState();
if (GetEngine()) {
chromeos::IMEEngineHandlerInterface::InputContext context(
GetTextInputType(), GetTextInputMode());
GetEngine()->FocusIn(context);
}
}
void InputMethodChromeOS::ConfirmCompositionText() {
TextInputClient* client = GetTextInputClient();
if (client && client->HasCompositionText())
client->ConfirmCompositionText();
ResetContext();
}
void InputMethodChromeOS::ResetContext() {
if (!IsInputFieldFocused() || !GetTextInputClient())
return;
DCHECK(system_toplevel_window_focused());
composition_.Clear();
result_text_.clear();
composing_text_ = false;
composition_changed_ = false;
// We need to abandon all pending key events, but as above comment says, there
// is no reliable way to abandon all results generated by these abandoned key
// events.
AbandonAllPendingKeyEvents();
// This function runs asynchronously.
// Note: some input method engines may not support reset method, such as
// ibus-anthy. But as we control all input method engines by ourselves, we can
// make sure that all of the engines we are using support it correctly.
if (GetEngine())
GetEngine()->Reset();
character_composer_.Reset();
}
void InputMethodChromeOS::UpdateContextFocusState() {
ResetContext();
OnInputMethodChanged();
// Propagate the focus event to the candidate window handler which also
// manages the input method mode indicator.
chromeos::IMECandidateWindowHandlerInterface* candidate_window =
chromeos::IMEBridge::Get()->GetCandidateWindowHandler();
if (candidate_window)
candidate_window->FocusStateChanged(IsInputFieldFocused());
chromeos::IMEBridge::Get()->SetCurrentTextInputType(GetTextInputType());
if (!IsTextInputTypeNone())
OnCaretBoundsChanged(GetTextInputClient());
}
void InputMethodChromeOS::ProcessKeyEventPostIME(
const ui::KeyEvent& event,
bool handled) {
TextInputClient* client = GetTextInputClient();
if (!client) {
// As ibus works asynchronously, there is a chance that the focused client
// loses focus before this method gets called.
DispatchKeyEventPostIME(event);
return;
}
if (event.type() == ET_KEY_PRESSED && handled)
ProcessFilteredKeyPressEvent(event);
// In case the focus was changed by the key event. The |context_| should have
// been reset when the focused window changed.
if (client != GetTextInputClient())
return;
if (HasInputMethodResult())
ProcessInputMethodResult(event, handled);
// In case the focus was changed when sending input method results to the
// focused window.
if (client != GetTextInputClient())
return;
if (event.type() == ET_KEY_PRESSED && !handled)
ProcessUnfilteredKeyPressEvent(event);
else if (event.type() == ET_KEY_RELEASED)
DispatchKeyEventPostIME(event);
}
void InputMethodChromeOS::ProcessFilteredKeyPressEvent(
const ui::KeyEvent& event) {
if (NeedInsertChar()) {
DispatchKeyEventPostIME(event);
} else {
const ui::KeyEvent fabricated_event(ET_KEY_PRESSED,
VKEY_PROCESSKEY,
event.flags(),
false); // is_char
DispatchKeyEventPostIME(fabricated_event);
}
}
void InputMethodChromeOS::ProcessUnfilteredKeyPressEvent(
const ui::KeyEvent& event) {
const TextInputClient* prev_client = GetTextInputClient();
DispatchKeyEventPostIME(event);
// We shouldn't dispatch the character anymore if the key event dispatch
// caused focus change. For example, in the following scenario,
// 1. visit a web page which has a <textarea>.
// 2. click Omnibox.
// 3. enable Korean IME, press A, then press Tab to move the focus to the web
// page.
// We should return here not to send the Tab key event to RWHV.
TextInputClient* client = GetTextInputClient();
if (!client || client != prev_client)
return;
// If a key event was not filtered by |context_| and |character_composer_|,
// then it means the key event didn't generate any result text. So we need
// to send corresponding character to the focused text input client.
uint16 ch = event.GetCharacter();
if (ch)
client->InsertChar(ch, event.flags());
}
void InputMethodChromeOS::ProcessInputMethodResult(const ui::KeyEvent& event,
bool handled) {
TextInputClient* client = GetTextInputClient();
DCHECK(client);
if (result_text_.length()) {
if (handled && NeedInsertChar()) {
for (base::string16::const_iterator i = result_text_.begin();
i != result_text_.end(); ++i) {
client->InsertChar(*i, event.flags());
}
} else {
client->InsertText(result_text_);
composing_text_ = false;
}
}
if (composition_changed_ && !IsTextInputTypeNone()) {
if (composition_.text.length()) {
composing_text_ = true;
client->SetCompositionText(composition_);
} else if (result_text_.empty()) {
client->ClearCompositionText();
}
}
// We should not clear composition text here, as it may belong to the next
// composition session.
result_text_.clear();
composition_changed_ = false;
}
bool InputMethodChromeOS::NeedInsertChar() const {
return GetTextInputClient() &&
(IsTextInputTypeNone() ||
(!composing_text_ && result_text_.length() == 1));
}
bool InputMethodChromeOS::HasInputMethodResult() const {
return result_text_.length() || composition_changed_;
}
void InputMethodChromeOS::SendFakeProcessKeyEvent(bool pressed) const {
if (!GetTextInputClient())
return;
KeyEvent evt(pressed ? ET_KEY_PRESSED : ET_KEY_RELEASED,
pressed ? VKEY_PROCESSKEY : VKEY_UNKNOWN,
EF_IME_FABRICATED_KEY,
false); // is_char
DispatchKeyEventPostIME(evt);
}
void InputMethodChromeOS::AbandonAllPendingKeyEvents() {
pending_key_events_.clear();
}
void InputMethodChromeOS::CommitText(const std::string& text) {
if (text.empty())
return;
// We need to receive input method result even if the text input type is
// TEXT_INPUT_TYPE_NONE, to make sure we can always send correct
// character for each key event to the focused text input client.
if (!GetTextInputClient())
return;
const base::string16 utf16_text = base::UTF8ToUTF16(text);
if (utf16_text.empty())
return;
// Append the text to the buffer, because commit signal might be fired
// multiple times when processing a key event.
result_text_.append(utf16_text);
// If we are not handling key event, do not bother sending text result if the
// focused text input client does not support text input.
if (pending_key_events_.empty() && !IsTextInputTypeNone()) {
SendFakeProcessKeyEvent(true);
GetTextInputClient()->InsertText(utf16_text);
SendFakeProcessKeyEvent(false);
result_text_.clear();
}
}
void InputMethodChromeOS::UpdateCompositionText(
const chromeos::CompositionText& text,
uint32 cursor_pos,
bool visible) {
if (IsTextInputTypeNone())
return;
if (!CanComposeInline()) {
chromeos::IMECandidateWindowHandlerInterface* candidate_window =
chromeos::IMEBridge::Get()->GetCandidateWindowHandler();
if (candidate_window)
candidate_window->UpdatePreeditText(text.text(), cursor_pos, visible);
}
// |visible| argument is very confusing. For example, what's the correct
// behavior when:
// 1. OnUpdatePreeditText() is called with a text and visible == false, then
// 2. OnShowPreeditText() is called afterwards.
//
// If it's only for clearing the current preedit text, then why not just use
// OnHidePreeditText()?
if (!visible) {
HidePreeditText();
return;
}
ExtractCompositionText(text, cursor_pos, &composition_);
composition_changed_ = true;
// In case OnShowPreeditText() is not called.
if (composition_.text.length())
composing_text_ = true;
// If we receive a composition text without pending key event, then we need to
// send it to the focused text input client directly.
if (pending_key_events_.empty()) {
SendFakeProcessKeyEvent(true);
GetTextInputClient()->SetCompositionText(composition_);
SendFakeProcessKeyEvent(false);
composition_changed_ = false;
composition_.Clear();
}
}
void InputMethodChromeOS::HidePreeditText() {
if (composition_.text.empty() || IsTextInputTypeNone())
return;
// Intentionally leaves |composing_text_| unchanged.
composition_changed_ = true;
composition_.Clear();
if (pending_key_events_.empty()) {
TextInputClient* client = GetTextInputClient();
if (client && client->HasCompositionText()) {
SendFakeProcessKeyEvent(true);
client->ClearCompositionText();
SendFakeProcessKeyEvent(false);
}
composition_changed_ = false;
}
}
void InputMethodChromeOS::DeleteSurroundingText(int32 offset, uint32 length) {
if (!composition_.text.empty())
return; // do nothing if there is ongoing composition.
if (offset < 0 && static_cast<uint32>(-1 * offset) != length)
return; // only preceding text can be deletable.
if (GetTextInputClient())
GetTextInputClient()->ExtendSelectionAndDelete(length, 0U);
}
bool InputMethodChromeOS::ExecuteCharacterComposer(const ui::KeyEvent& event) {
if (!character_composer_.FilterKeyPress(event))
return false;
// CharacterComposer consumed the key event. Update the composition text.
chromeos::CompositionText preedit;
preedit.set_text(character_composer_.preedit_string());
UpdateCompositionText(preedit, preedit.text().size(),
!preedit.text().empty());
std::string commit_text =
base::UTF16ToUTF8(character_composer_.composed_character());
if (!commit_text.empty()) {
CommitText(commit_text);
}
return true;
}
void InputMethodChromeOS::ExtractCompositionText(
const chromeos::CompositionText& text,
uint32 cursor_position,
CompositionText* out_composition) const {
out_composition->Clear();
out_composition->text = text.text();
if (out_composition->text.empty())
return;
// ibus uses character index for cursor position and attribute range, but we
// use char16 offset for them. So we need to do conversion here.
std::vector<size_t> char16_offsets;
size_t length = out_composition->text.length();
base::i18n::UTF16CharIterator char_iterator(&out_composition->text);
do {
char16_offsets.push_back(char_iterator.array_pos());
} while (char_iterator.Advance());
// The text length in Unicode characters.
uint32 char_length = static_cast<uint32>(char16_offsets.size());
// Make sure we can convert the value of |char_length| as well.
char16_offsets.push_back(length);
size_t cursor_offset =
char16_offsets[std::min(char_length, cursor_position)];
out_composition->selection = gfx::Range(cursor_offset);
const std::vector<chromeos::CompositionText::UnderlineAttribute>&
underline_attributes = text.underline_attributes();
if (!underline_attributes.empty()) {
for (size_t i = 0; i < underline_attributes.size(); ++i) {
const uint32 start = underline_attributes[i].start_index;
const uint32 end = underline_attributes[i].end_index;
if (start >= end)
continue;
CompositionUnderline underline(char16_offsets[start],
char16_offsets[end],
SK_ColorBLACK,
false /* thick */,
SK_ColorTRANSPARENT);
if (underline_attributes[i].type ==
chromeos::CompositionText::COMPOSITION_TEXT_UNDERLINE_DOUBLE)
underline.thick = true;
else if (underline_attributes[i].type ==
chromeos::CompositionText::COMPOSITION_TEXT_UNDERLINE_ERROR)
underline.color = SK_ColorRED;
out_composition->underlines.push_back(underline);
}
}
DCHECK(text.selection_start() <= text.selection_end());
if (text.selection_start() < text.selection_end()) {
const uint32 start = text.selection_start();
const uint32 end = text.selection_end();
CompositionUnderline underline(char16_offsets[start],
char16_offsets[end],
SK_ColorBLACK,
true /* thick */,
SK_ColorTRANSPARENT);
out_composition->underlines.push_back(underline);
// If the cursor is at start or end of this underline, then we treat
// it as the selection range as well, but make sure to set the cursor
// position to the selection end.
if (underline.start_offset == cursor_offset) {
out_composition->selection.set_start(underline.end_offset);
out_composition->selection.set_end(cursor_offset);
} else if (underline.end_offset == cursor_offset) {
out_composition->selection.set_start(underline.start_offset);
out_composition->selection.set_end(cursor_offset);
}
}
// Use a black thin underline by default.
if (out_composition->underlines.empty()) {
out_composition->underlines.push_back(CompositionUnderline(
0, length, SK_ColorBLACK, false /* thick */, SK_ColorTRANSPARENT));
}
}
bool InputMethodChromeOS::IsInputFieldFocused() {
TextInputType type = GetTextInputType();
return (type != TEXT_INPUT_TYPE_NONE) && (type != TEXT_INPUT_TYPE_PASSWORD);
}
} // namespace ui