////////////////////////////////////////////////////////////////////////////////////////// // Project description // ŻŻŻŻŻŻŻŻŻŻŻŻŻŻŻŻŻŻŻ // Name: Input Configuration and Calibration // Description: Common SDL Input Functions // // Author: Falcon4ever (nJoy@falcon4ever.com, www.multigesture.net), JPeterson etc // Copyright (C) 2003-2008 Dolphin Project. // ////////////////////////////////////////////////////////////////////////////////////////// // // Licensetype: GNU General Public License (GPL) // // This program is free software: you can redistribute it and/or modify // it under the terms of the GNU General Public License as published by // the Free Software Foundation, version 2.0. // // This program is distributed in the hope that it will be useful, // but WITHOUT ANY WARRANTY; without even the implied warranty of // MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the // GNU General Public License 2.0 for more details. // // A copy of the GPL 2.0 should have been included with the program. // If not, see http://www.gnu.org/licenses/ // // Official SVN repository and contact information can be found at // http://code.google.com/p/dolphin-emu/ // ////////////////////////////////////////////////////////////////////////////////////////// ////////////////////////////////////////////////////////////////////////////////////////// // Include // ŻŻŻŻŻŻŻŻŻŻŻŻŻŻŻŻŻŻŻ #if defined HAVE_WX && HAVE_WX #include #endif #include "SDL.h" // Local //////////////////////////////////// namespace InputCommon { ////////////////////////////////////////////////////////////////////////////////////////// // Degree to radian and back // ŻŻŻŻŻŻŻŻŻŻŻŻŻ float Deg2Rad(float Deg) { return Deg * (M_PI / 180.0); } float Rad2Deg(float Rad) { return (Rad * 180.0) / M_PI; } ///////////////////////////////////////// ////////////////////////////////////////////////////////////////////////////////////////// // Check if the pad is within the dead zone, we assume the range is 0x8000 // ŻŻŻŻŻŻŻŻŻŻŻŻŻŻŻŻ float CoordinatesToRadius(int x, int y) { return sqrt(pow((float)x, 2) + pow((float)y, 2)); } bool IsDeadZone(float DeadZone, int x, int y) { // Get the distance from the center float Distance = CoordinatesToRadius(x, y) / 32767.0; //Console::Print("%f\n", Distance); // Check if it's within the dead zone if (Distance <= DeadZone) return true; else return false; } ///////////////////////////////////////// ////////////////////////////////////////////////////////////////////////////////////////// // Scale down stick values from 0x8000 to 0x80 /* ŻŻŻŻŻŻŻŻŻŻŻŻŻŻŻŻ The value returned by SDL_JoystickGetAxis is a signed integer s16 (-32768 to 32767). The value used for the gamecube controller is an unsigned char u8 (0 to 255) with neutral at 0x80 (128), so that it's equivalent to a signed -128 to 127. */ // ŻŻŻŻŻŻŻŻŻŻŻŻŻŻŻŻŻŻŻŻŻ int Pad_Convert(int _val) { /* If the limits on PadState[].axis[] actually is a u16 then we don't need this but if it's not actually limited to that we need to apply these limits */ if(_val > 32767) _val = 32767; // upper limit if(_val < -32768) _val = -32768; // lower limit // Convert the range (-0x8000 to 0x7fff) to (0 to 0xffff) _val = 0x8000 +_val; // Convert the range (-32768 to 32767) to (-128 to 127) _val = _val >> 8; //Console::Print("0x%04x %06i\n\n", _val, _val); return _val; } ///////////////////////////////////////// ////////////////////////////////////////////////////////////////////////////////////////// /* Convert the stick raidus from a square or rounded box to a circular radius. I don't know what input values the actual GC controller produce for the GC, it may be a square, a circle or something in between. But one thing that is certain is that PC pads differ in their output (as shown in the list below), so it may be beneficiary to convert whatever radius they produce to the radius the GC games expect. This is the first implementation of this that convert a square radius to a circual radius. Use the advanced settings to enable and calibrate it. Observed diagonals: Perfect circle: 71% = sin(45) Logitech Dual Action: 100% PS2 Dual Shock 2 (Original) with Super Dual Box Pro: 90% XBox 360 Wireless: 85% GameCube Controller (Third Party) with EMS Trio Linker Plus II: 60% */ // ŻŻŻŻŻŻŻŻŻŻŻŻŻŻŻŻŻŻŻŻŻ /* Calculate the distance from the outer edges of the box to the outer edges of the circle inside the box at any angle from 0° to 360°. The returned value is 1 + Distance, for example at most sqrt(2) in the corners and at least 1.0 at the horizontal and vertical angles. */ float Square2CircleDistance(float deg) { // See if we have to adjust the angle deg = abs(deg); if( (deg > 45 && deg < 135) ) deg = deg - 90; // Calculate distance from center float val = abs(cos(Deg2Rad(deg))); float Distance = 1 / val; //m_frame->m_pStatusBar2->SetLabel(wxString::Format("Deg:%f Val:%f Dist:%f", deg, val, dist)); return Distance; } // Produce a perfect circle from an original square or rounded box std::vector Square2Circle(int _x, int _y, int _pad, std::string SDiagonal, bool Circle2Square) { // Do we need this? if(_x > 32767) _x = 32767; if(_y > 32767) _y = 32767; // upper limit if(_x < -32768) _x = -32768; if(_y < -32768) _y = -32768; // lower limit // ==================================== // Convert to circle // ----------- // Get the manually configured diagonal distance int Tmp = atoi (SDiagonal.substr(0, SDiagonal.length() - 1).c_str()); float Diagonal = Tmp / 100.0; // First make a perfect square in case we don't have one already float OrigDist = sqrt( pow((float)_y, 2) + pow((float)_x, 2) ); // Get current distance float deg = Rad2Deg(atan2((float)_y, (float)_x)); // Get current angle /* Calculate the actual distance between the maxium diagonal values, and the outer edges of the square. A diagonal of 85% means a maximum distance of 0.85 * sqrt(2) ~1.2 in the diagonals. */ float corner_circle_dist = ( Diagonal / sin(Deg2Rad(45)) ); float SquareDist = Square2CircleDistance(deg); // The original-to-square distance adjustment float adj_ratio1; // The circle-to-square distance adjustment float adj_ratio2 = SquareDist; // The resulting distance float result_dist; // Calculate the corner-to-square adjustment ratio if(corner_circle_dist < SquareDist) adj_ratio1 = SquareDist / corner_circle_dist; else adj_ratio1 = 1; // Calculate the resulting distance if(Circle2Square) result_dist = OrigDist * adj_ratio1; else result_dist = OrigDist * adj_ratio1 / adj_ratio2; // Calculate x and y and return it float x = result_dist * cos(Deg2Rad(deg)); float y = result_dist * sin(Deg2Rad(deg)); // Make integers int int_x = (int)floor(x); int int_y = (int)floor(y); // Boundaries if (int_x < -32768) int_x = -32768; if (int_x > 32767) int_x = 32767; if (int_y < -32768) int_y = -32768; if (int_y > 32767) int_y = 32767; // Return it std::vector vec; vec.push_back(int_x); vec.push_back(int_y); // Debugging //Console::Print("%f %f %i", corner_circle_dist, Diagonal, Tmp)); return vec; } ///////////////////////////////////////////////////////////////////// ////////////////////////////////////////////////////////////////////////////////////////// // Windows Virtual Key Codes Names // ŻŻŻŻŻŻŻŻŻŻŻŻŻŻŻŻŻŻŻŻŻ #ifdef _WIN32 std::string VKToString(int keycode) { #ifdef _WIN32 // Default value char KeyStr[64] = {0}; GetKeyNameText(MapVirtualKey(keycode, MAPVK_VK_TO_VSC) << 16, KeyStr, 64); std::string KeyString = KeyStr; switch(keycode) { // Give it some help with a few keys case VK_END: return "END"; case VK_INSERT: return "INS"; case VK_DELETE: return "DEL"; case VK_PRIOR: return "PGUP"; case VK_NEXT: return "PGDN"; case VK_UP: return "UP"; case VK_DOWN: return "DOWN"; case VK_LEFT: return "LEFT"; case VK_RIGHT: return "RIGHT"; case VK_LSHIFT: return "LEFT SHIFT"; case VK_LCONTROL: return "LEFT CTRL"; case VK_RCONTROL: return "RIGHT CTRL"; case VK_LMENU: return "LEFT ALT"; default: return KeyString; } #else // An equivalent name translation can probably be used on other systems to? return ""; #endif } #endif ///////////////////////////////////////////////////////////////////// }