// Copyright (c) 2013 GitHub, Inc. // Use of this source code is governed by the MIT license that can be // found in the LICENSE file. #include "atom/browser/ui/accelerator_util.h" #include #include #include #include "base/stl_util.h" #include "base/strings/string_number_conversions.h" #include "base/strings/string_split.h" #include "base/strings/string_util.h" #include "ui/base/models/simple_menu_model.h" namespace accelerator_util { namespace { // Return key code of the char. ui::KeyboardCode KeyboardCodeFromCharCode(char c, bool* shifted) { *shifted = false; switch (c) { case 8: case 0x7F: return ui::VKEY_BACK; case 9: return ui::VKEY_TAB; case 0xD: case 3: return ui::VKEY_RETURN; case 0x1B: return ui::VKEY_ESCAPE; case ' ': return ui::VKEY_SPACE; case 'a': return ui::VKEY_A; case 'b': return ui::VKEY_B; case 'c': return ui::VKEY_C; case 'd': return ui::VKEY_D; case 'e': return ui::VKEY_E; case 'f': return ui::VKEY_F; case 'g': return ui::VKEY_G; case 'h': return ui::VKEY_H; case 'i': return ui::VKEY_I; case 'j': return ui::VKEY_J; case 'k': return ui::VKEY_K; case 'l': return ui::VKEY_L; case 'm': return ui::VKEY_M; case 'n': return ui::VKEY_N; case 'o': return ui::VKEY_O; case 'p': return ui::VKEY_P; case 'q': return ui::VKEY_Q; case 'r': return ui::VKEY_R; case 's': return ui::VKEY_S; case 't': return ui::VKEY_T; case 'u': return ui::VKEY_U; case 'v': return ui::VKEY_V; case 'w': return ui::VKEY_W; case 'x': return ui::VKEY_X; case 'y': return ui::VKEY_Y; case 'z': return ui::VKEY_Z; case ')': *shifted = true; case '0': return ui::VKEY_0; case '!': *shifted = true; case '1': return ui::VKEY_1; case '@': *shifted = true; case '2': return ui::VKEY_2; case '#': *shifted = true; case '3': return ui::VKEY_3; case '$': *shifted = true; case '4': return ui::VKEY_4; case '%': *shifted = true; case '5': return ui::VKEY_5; case '^': *shifted = true; case '6': return ui::VKEY_6; case '&': *shifted = true; case '7': return ui::VKEY_7; case '*': *shifted = true; case '8': return ui::VKEY_8; case '(': *shifted = true; case '9': return ui::VKEY_9; case ':': *shifted = true; case ';': return ui::VKEY_OEM_1; case '+': *shifted = true; case '=': return ui::VKEY_OEM_PLUS; case '<': *shifted = true; case ',': return ui::VKEY_OEM_COMMA; case '_': *shifted = true; case '-': return ui::VKEY_OEM_MINUS; case '>': *shifted = true; case '.': return ui::VKEY_OEM_PERIOD; case '?': *shifted = true; case '/': return ui::VKEY_OEM_2; case '~': *shifted = true; case '`': return ui::VKEY_OEM_3; case '{': *shifted = true; case '[': return ui::VKEY_OEM_4; case '|': *shifted = true; case '\\': return ui::VKEY_OEM_5; case '}': *shifted = true; case ']': return ui::VKEY_OEM_6; case '"': *shifted = true; case '\'': return ui::VKEY_OEM_7; default: return ui::VKEY_UNKNOWN; } } } // namespace bool StringToAccelerator(const std::string& description, ui::Accelerator* accelerator) { if (!base::IsStringASCII(description)) { LOG(ERROR) << "The accelerator string can only contain ASCII characters"; return false; } std::string shortcut(base::StringToLowerASCII(description)); std::vector tokens; base::SplitString(shortcut, '+', &tokens); // Now, parse it into an accelerator. int modifiers = ui::EF_NONE; ui::KeyboardCode key = ui::VKEY_UNKNOWN; for (size_t i = 0; i < tokens.size(); i++) { // We use straight comparing instead of map because the accelerator tends // to be correct and usually only uses few special tokens. if (tokens[i].size() == 1) { bool shifted = false; key = KeyboardCodeFromCharCode(tokens[i][0], &shifted); if (shifted) modifiers |= ui::EF_SHIFT_DOWN; } else if (tokens[i] == "ctrl" || tokens[i] == "control") { modifiers |= ui::EF_CONTROL_DOWN; } else if (tokens[i] == "super") { modifiers |= ui::EF_COMMAND_DOWN; #if defined(OS_MACOSX) } else if (tokens[i] == "cmd" || tokens[i] == "command") { modifiers |= ui::EF_COMMAND_DOWN; #endif } else if (tokens[i] == "commandorcontrol" || tokens[i] == "cmdorctrl") { #if defined(OS_MACOSX) modifiers |= ui::EF_COMMAND_DOWN; #else modifiers |= ui::EF_CONTROL_DOWN; #endif } else if (tokens[i] == "alt") { modifiers |= ui::EF_ALT_DOWN; } else if (tokens[i] == "shift") { modifiers |= ui::EF_SHIFT_DOWN; } else if (tokens[i] == "plus") { modifiers |= ui::EF_SHIFT_DOWN; key = ui::VKEY_OEM_PLUS; } else if (tokens[i] == "tab") { key = ui::VKEY_TAB; } else if (tokens[i] == "space") { key = ui::VKEY_SPACE; } else if (tokens[i] == "backspace") { key = ui::VKEY_BACK; } else if (tokens[i] == "delete") { key = ui::VKEY_DELETE; } else if (tokens[i] == "insert") { key = ui::VKEY_INSERT; } else if (tokens[i] == "enter" || tokens[i] == "return") { key = ui::VKEY_RETURN; } else if (tokens[i] == "up") { key = ui::VKEY_UP; } else if (tokens[i] == "down") { key = ui::VKEY_DOWN; } else if (tokens[i] == "left") { key = ui::VKEY_LEFT; } else if (tokens[i] == "right") { key = ui::VKEY_RIGHT; } else if (tokens[i] == "home") { key = ui::VKEY_HOME; } else if (tokens[i] == "end") { key = ui::VKEY_END; } else if (tokens[i] == "pageup") { key = ui::VKEY_PRIOR; } else if (tokens[i] == "pagedown") { key = ui::VKEY_NEXT; } else if (tokens[i] == "esc" || tokens[i] == "escape") { key = ui::VKEY_ESCAPE; } else if (tokens[i] == "volumemute") { key = ui::VKEY_VOLUME_MUTE; } else if (tokens[i] == "volumeup") { key = ui::VKEY_VOLUME_UP; } else if (tokens[i] == "volumedown") { key = ui::VKEY_VOLUME_DOWN; } else if (tokens[i] == "medianexttrack") { key = ui::VKEY_MEDIA_NEXT_TRACK; } else if (tokens[i] == "mediaprevioustrack") { key = ui::VKEY_MEDIA_PREV_TRACK; } else if (tokens[i] == "mediastop") { key = ui::VKEY_MEDIA_STOP; } else if (tokens[i] == "mediaplaypause") { key = ui::VKEY_MEDIA_PLAY_PAUSE; } else if (tokens[i].size() > 1 && tokens[i][0] == 'f') { // F1 - F24. int n; if (base::StringToInt(tokens[i].c_str() + 1, &n) && n > 0 && n < 25) { key = static_cast(ui::VKEY_F1 + n - 1); } else { LOG(WARNING) << tokens[i] << "is not available on keyboard"; return false; } } else { LOG(WARNING) << "Invalid accelerator token: " << tokens[i]; return false; } } if (key == ui::VKEY_UNKNOWN) { LOG(WARNING) << "The accelerator doesn't contain a valid key"; return false; } *accelerator = ui::Accelerator(key, modifiers); SetPlatformAccelerator(accelerator); return true; } void GenerateAcceleratorTable(AcceleratorTable* table, ui::MenuModel* model) { int count = model->GetItemCount(); for (int i = 0; i < count; ++i) { ui::MenuModel::ItemType type = model->GetTypeAt(i); if (type == ui::MenuModel::TYPE_SUBMENU) { ui::MenuModel* submodel = model->GetSubmenuModelAt(i); GenerateAcceleratorTable(table, submodel); } else { ui::Accelerator accelerator; if (model->GetAcceleratorAt(i, &accelerator)) { MenuItem item = { i, model }; (*table)[accelerator] = item; } } } } bool TriggerAcceleratorTableCommand(AcceleratorTable* table, const ui::Accelerator& accelerator) { if (ContainsKey(*table, accelerator)) { const accelerator_util::MenuItem& item = (*table)[accelerator]; item.model->ActivatedAt(item.position); return true; } else { return false; } } } // namespace accelerator_util