Mercurial > sdl-ios-xcode
view src/video/qnxgf/SDL_gf_input.c @ 3116:b17f1ae7ad66
Added support for single buffering, if double buffering is not available.
author | Mike Gorchak <lestat@i.com.ua> |
---|---|
date | Tue, 05 May 2009 17:50:34 +0000 |
parents | 7b3a09fb9c8b |
children | d7174e9f65ce |
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/* SDL - Simple DirectMedia Layer Copyright (C) 1997-2009 Sam Lantinga This library is free software; you can redistribute it and/or modify it under the terms of the GNU Lesser General Public License as published by the Free Software Foundation; either version 2.1 of the License, or (at your option) any later version. This library 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 Lesser General Public License for more details. You should have received a copy of the GNU Lesser General Public License along with this library; if not, write to the Free Software Foundation, Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA Sam Lantinga slouken@libsdl.org QNX Graphics Framework SDL driver Copyright (C) 2009 Mike Gorchak (mike@malva.ua, lestat@i.com.ua) */ #include "SDL_gf_input.h" #include "SDL_config.h" #include "SDL_events.h" #include "../../events/SDL_mouse_c.h" #include "../../events/SDL_keyboard_c.h" /* Include QNX HIDDI definitions */ #include "SDL_hiddi_keyboard.h" #include "SDL_hiddi_mouse.h" #include "SDL_hiddi_joystick.h" /* Mouse related functions */ SDL_Cursor* gf_createcursor(SDL_Surface* surface, int hot_x, int hot_y); int gf_showcursor(SDL_Cursor* cursor); void gf_movecursor(SDL_Cursor* cursor); void gf_freecursor(SDL_Cursor* cursor); void gf_warpmouse(SDL_Mouse* mouse, SDL_WindowID windowID, int x, int y); void gf_freemouse(SDL_Mouse* mouse); /* HIDDI interacting functions */ static int32_t hiddi_connect_devices(); static int32_t hiddi_disconnect_devices(); int32_t gf_addinputdevices(_THIS) { SDL_VideoData* gfdata=(SDL_VideoData*)_this->driverdata; SDL_DisplayData* didata; struct SDL_Mouse gf_mouse; SDL_Keyboard gf_keyboard; SDLKey keymap[SDL_NUM_SCANCODES]; SDL_MouseData* mdata; uint32_t it; for (it=0; it<_this->num_displays; it++) { /* Clear SDL mouse structure */ SDL_memset(&gf_mouse, 0x00, sizeof(struct SDL_Mouse)); /* Allocate SDL_MouseData structure */ mdata=(SDL_MouseData*)SDL_calloc(1, sizeof(SDL_MouseData)); if (mdata==NULL) { SDL_OutOfMemory(); return -1; } /* Mark this mouse with ID 0 */ gf_mouse.id=it; gf_mouse.driverdata=(void*)mdata; gf_mouse.CreateCursor=gf_createcursor; gf_mouse.ShowCursor=gf_showcursor; gf_mouse.MoveCursor=gf_movecursor; gf_mouse.FreeCursor=gf_freecursor; gf_mouse.WarpMouse=gf_warpmouse; gf_mouse.FreeMouse=gf_freemouse; /* Get display data */ didata=(SDL_DisplayData*)_this->displays[it].driverdata; /* Store SDL_DisplayData pointer in the mouse driver internals */ mdata->didata=didata; /* Set cursor pos to 0,0 to avoid cursor disappearing in some drivers */ gf_cursor_set_pos(didata->display, 0, 0, 0); /* Register mouse cursor in SDL */ SDL_AddMouse(&gf_mouse, "GF mouse cursor", 0, 0, 1); } /* Keyboard could be one only */ SDL_zero(gf_keyboard); SDL_AddKeyboard(&gf_keyboard, -1); /* Add scancode to key mapping, HIDDI uses USB HID codes, so */ /* map will be exact one-to-one */ SDL_GetDefaultKeymap(keymap); SDL_SetKeymap(0, 0, keymap, SDL_NUM_SCANCODES); /* Connect to HID server and enumerate all input devices */ hiddi_connect_devices(); return 0; } int32_t gf_delinputdevices(_THIS) { /* Disconnect from HID server and release input devices */ hiddi_disconnect_devices(); /* Delete keyboard */ SDL_KeyboardQuit(); /* Destroy all of the mice */ SDL_MouseQuit(); } /*****************************************************************************/ /* GF Mouse related functions */ /*****************************************************************************/ SDL_Cursor* gf_createcursor(SDL_Surface* surface, int hot_x, int hot_y) { gf_cursor_t* internal_cursor; SDL_Cursor* sdl_cursor; uint8_t* image0=NULL; uint8_t* image1=NULL; uint32_t it; uint32_t jt; uint32_t shape_color; /* SDL converts monochrome cursor shape to 32bpp cursor shape */ /* and we must convert it back to monochrome, this routine handles */ /* 24/32bpp surfaces only */ if ((surface->format->BitsPerPixel!=32) && (surface->format->BitsPerPixel!=24)) { SDL_SetError("GF: Cursor shape is not 24/32bpp."); return NULL; } /* Since GF is not checking data, we must check */ if ((surface->w==0) || (surface->h==0)) { SDL_SetError("GF: Cursor shape dimensions are zero"); return NULL; } /* Allocate memory for the internal cursor format */ internal_cursor=(gf_cursor_t*)SDL_calloc(1, sizeof(gf_cursor_t)); if (internal_cursor==NULL) { SDL_OutOfMemory(); return NULL; } /* Allocate memory for the SDL cursor */ sdl_cursor=(SDL_Cursor*)SDL_calloc(1, sizeof(SDL_Cursor)); if (sdl_cursor==NULL) { SDL_free(internal_cursor); SDL_OutOfMemory(); return NULL; } /* Allocate two monochrome images */ image0=(uint8_t*)SDL_calloc(1, ((surface->w+7)/8)*surface->h); if (image0==NULL) { SDL_free(sdl_cursor); SDL_free(internal_cursor); SDL_OutOfMemory(); return NULL; } image1=(uint8_t*)SDL_calloc(1, ((surface->w+7)>>3)*surface->h); if (image1==NULL) { SDL_free(image0); SDL_free(sdl_cursor); SDL_free(internal_cursor); SDL_OutOfMemory(); return NULL; } /* Set driverdata as GF cursor format */ sdl_cursor->driverdata=(void*)internal_cursor; internal_cursor->type=GF_CURSOR_BITMAP; internal_cursor->hotspot.x=hot_x; internal_cursor->hotspot.y=hot_y; internal_cursor->cursor.bitmap.w=surface->w; internal_cursor->cursor.bitmap.h=surface->h; internal_cursor->cursor.bitmap.color0=SDL_GF_MOUSE_COLOR_BLACK; internal_cursor->cursor.bitmap.color1=SDL_GF_MOUSE_COLOR_WHITE; /* Setup cursor shape images */ internal_cursor->cursor.bitmap.stride=((surface->w+7)>>3); internal_cursor->cursor.bitmap.image0=image0; internal_cursor->cursor.bitmap.image1=image1; /* Convert cursor from 32 bpp */ for (jt=0; jt<surface->h; jt++) { for (it=0; it<surface->w; it++) { shape_color=*((uint32_t*)((uint8_t*)surface->pixels+jt*surface->pitch+it*surface->format->BytesPerPixel)); switch(shape_color) { case SDL_GF_MOUSE_COLOR_BLACK: { *(image0+jt*(internal_cursor->cursor.bitmap.stride)+(it>>3))|=0x80>>(it%8); *(image1+jt*(internal_cursor->cursor.bitmap.stride)+(it>>3))&=~(0x80>>(it%8)); } break; case SDL_GF_MOUSE_COLOR_WHITE: { *(image0+jt*(internal_cursor->cursor.bitmap.stride)+(it>>3))&=~(0x80>>(it%8)); *(image1+jt*(internal_cursor->cursor.bitmap.stride)+(it>>3))|=0x80>>(it%8); } break; case SDL_GF_MOUSE_COLOR_TRANS: { *(image0+jt*(internal_cursor->cursor.bitmap.stride)+(it>>3))&=~(0x80>>(it%8)); *(image1+jt*(internal_cursor->cursor.bitmap.stride)+(it>>3))&=~(0x80>>(it%8)); } break; default: { /* The same as transparent color, must not happen */ *(image0+jt*(internal_cursor->cursor.bitmap.stride)+(it>>3))&=~(0x80>>(it%8)); *(image1+jt*(internal_cursor->cursor.bitmap.stride)+(it>>3))&=~(0x80>>(it%8)); } break; } } } return sdl_cursor; } int gf_showcursor(SDL_Cursor* cursor) { SDL_VideoDisplay* display; SDL_DisplayData* didata; SDL_Window* window; SDL_WindowID window_id; gf_cursor_t* internal_cursor; int32_t status; /* Get current window id */ window_id=SDL_GetFocusWindow(); if (window_id<=0) { SDL_MouseData* mdata=NULL; /* If there is no current window, then someone calls this function */ /* to set global mouse settings during SDL initialization */ if (cursor!=NULL) { mdata=(SDL_MouseData*)cursor->mouse->driverdata; didata=(SDL_DisplayData*)mdata->didata; } else { /* We can't get SDL_DisplayData at this point, return fake success */ return 0; } } else { /* Sanity checks */ window=SDL_GetWindowFromID(window_id); if (window!=NULL) { display=SDL_GetDisplayFromWindow(window); if (display!=NULL) { didata=(SDL_DisplayData*)display->driverdata; if (didata==NULL) { return -1; } } else { return -1; } } else { return -1; } } /* Check if we need to set new shape or disable cursor shape */ if (cursor!=NULL) { /* Retrieve GF cursor shape */ internal_cursor=(gf_cursor_t*)cursor->driverdata; if (internal_cursor==NULL) { SDL_SetError("GF: Internal cursor data is absent"); return -1; } if ((internal_cursor->cursor.bitmap.image0==NULL) || (internal_cursor->cursor.bitmap.image1==NULL)) { SDL_SetError("GF: Cursor shape is absent"); return -1; } /* Store last shown cursor to display data */ didata->cursor.type=internal_cursor->type; didata->cursor.hotspot.x=internal_cursor->hotspot.x; didata->cursor.hotspot.y=internal_cursor->hotspot.y; if (internal_cursor->cursor.bitmap.w>SDL_VIDEO_GF_MAX_CURSOR_SIZE) { didata->cursor.cursor.bitmap.w=SDL_VIDEO_GF_MAX_CURSOR_SIZE; } else { didata->cursor.cursor.bitmap.w=internal_cursor->cursor.bitmap.w; } if (didata->cursor.cursor.bitmap.h>SDL_VIDEO_GF_MAX_CURSOR_SIZE) { didata->cursor.cursor.bitmap.h=SDL_VIDEO_GF_MAX_CURSOR_SIZE; } else { didata->cursor.cursor.bitmap.h=internal_cursor->cursor.bitmap.h; } didata->cursor.cursor.bitmap.color0=internal_cursor->cursor.bitmap.color0; didata->cursor.cursor.bitmap.color1=internal_cursor->cursor.bitmap.color1; didata->cursor.cursor.bitmap.stride=internal_cursor->cursor.bitmap.stride; SDL_memcpy(didata->cursor.cursor.bitmap.image0, internal_cursor->cursor.bitmap.image0, ((internal_cursor->cursor.bitmap.w+7)/(sizeof(uint8_t)*8))*internal_cursor->cursor.bitmap.h); SDL_memcpy(didata->cursor.cursor.bitmap.image1, internal_cursor->cursor.bitmap.image1, ((internal_cursor->cursor.bitmap.w+7)/(sizeof(uint8_t)*8))*internal_cursor->cursor.bitmap.h); /* Setup cursor shape */ status=gf_cursor_set(didata->display, 0, internal_cursor); if (status!=GF_ERR_OK) { if (status!=GF_ERR_NOSUPPORT) { SDL_SetError("GF: Can't set hardware cursor shape"); return -1; } } /* Enable just set cursor */ status=gf_cursor_enable(didata->display, 0); if (status!=GF_ERR_OK) { if (status!=GF_ERR_NOSUPPORT) { SDL_SetError("GF: Can't enable hardware cursor"); return -1; } } /* Set cursor visible */ didata->cursor_visible=SDL_TRUE; } else { /* SDL requests to disable cursor */ status=gf_cursor_disable(didata->display, 0); if (status!=GF_ERR_OK) { if (status!=GF_ERR_NOSUPPORT) { SDL_SetError("GF: Can't disable hardware cursor"); return -1; } } /* Set cursor invisible */ didata->cursor_visible=SDL_FALSE; } /* New cursor shape is set */ return 0; } void gf_movecursor(SDL_Cursor* cursor) { SDL_VideoDisplay* display; SDL_DisplayData* didata; SDL_Window* window; SDL_WindowID window_id; int32_t status; uint32_t xmax; uint32_t ymax; /* Get current window id */ window_id=SDL_GetFocusWindow(); if (window_id<=0) { didata=(SDL_DisplayData*)cursor->mouse->driverdata; } else { /* Sanity checks */ window=SDL_GetWindowFromID(window_id); if (window!=NULL) { display=SDL_GetDisplayFromWindow(window); if (display!=NULL) { didata=(SDL_DisplayData*)display->driverdata; if (didata==NULL) { return; } } else { return; } } else { return; } } /* Add checks for out of screen bounds position */ if (cursor->mouse->x<0) { cursor->mouse->x=0; } if (cursor->mouse->y<0) { cursor->mouse->y=0; } /* Get window size to clamp maximum coordinates */ SDL_GetWindowSize(window_id, &xmax, &ymax); if (cursor->mouse->x>=xmax) { cursor->mouse->x=xmax-1; } if (cursor->mouse->y>=ymax) { cursor->mouse->y=ymax-1; } status=gf_cursor_set_pos(didata->display, 0, cursor->mouse->x, cursor->mouse->y); if (status!=GF_ERR_OK) { if (status!=GF_ERR_NOSUPPORT) { SDL_SetError("GF: Can't set hardware cursor position"); return; } } } void gf_freecursor(SDL_Cursor* cursor) { gf_cursor_t* internal_cursor; if (cursor!=NULL) { internal_cursor=(gf_cursor_t*)cursor->driverdata; if (internal_cursor!=NULL) { if (internal_cursor->cursor.bitmap.image0!=NULL) { SDL_free((uint8_t*)internal_cursor->cursor.bitmap.image0); } if (internal_cursor->cursor.bitmap.image1!=NULL) { SDL_free((uint8_t*)internal_cursor->cursor.bitmap.image1); } SDL_free(internal_cursor); } } } void gf_warpmouse(SDL_Mouse* mouse, SDL_WindowID windowID, int x, int y) { SDL_VideoDisplay* display; SDL_DisplayData* didata; SDL_Window* window; uint32_t xmax; uint32_t ymax; int32_t status; /* Sanity checks */ window=SDL_GetWindowFromID(windowID); if (window!=NULL) { display=SDL_GetDisplayFromWindow(window); if (display!=NULL) { didata=(SDL_DisplayData*)display->driverdata; if (didata==NULL) { return; } } else { return; } } else { return; } /* Add checks for out of screen bounds position */ if (x<0) { x=0; } if (y<0) { y=0; } /* Get window size to clamp maximum coordinates */ SDL_GetWindowSize(windowID, &xmax, &ymax); if (x>=xmax) { x=xmax-1; } if (y>=ymax) { y=ymax-1; } status=gf_cursor_set_pos(didata->display, 0, x, y); if (status!=GF_ERR_OK) { if (status!=GF_ERR_NOSUPPORT) { SDL_SetError("GF: Can't set hardware cursor position"); return; } } } void gf_freemouse(SDL_Mouse* mouse) { if (mouse->driverdata==NULL) { return; } /* Mouse framework doesn't deletes automatically our driverdata */ SDL_free(mouse->driverdata); mouse->driverdata=NULL; return; } /*****************************************************************************/ /* HIDDI handlers code */ /*****************************************************************************/ static key_packet key_last_state[SDL_HIDDI_MAX_DEVICES]; static void hiddi_keyboard_handler(uint32_t devno, uint8_t* report_data, uint32_t report_len) { key_packet* packet; uint32_t it; uint32_t jt; packet=(key_packet*)report_data; /* Check for special states */ switch (report_len) { case 8: /* 8 bytes of report length */ { for (it=0; it<6; it++) { /* Check for keyboard overflow, when it can't handle */ /* many simultaneous pressed keys */ if (packet->codes[it]==HIDDI_KEY_OVERFLOW) { return; } } } break; default: { /* Do not process unknown reports */ return; } break; } /* Check if modifier key was pressed */ if (packet->modifiers!=key_last_state[devno].modifiers) { if (((packet->modifiers & HIDDI_MKEY_LEFT_CTRL)==HIDDI_MKEY_LEFT_CTRL) && (key_last_state[devno].modifiers & HIDDI_MKEY_LEFT_CTRL)==0) { /* Left Ctrl key was pressed */ SDL_SendKeyboardKey(0, SDL_PRESSED, SDL_SCANCODE_LCTRL); } if (((packet->modifiers & HIDDI_MKEY_LEFT_CTRL)==0) && (key_last_state[devno].modifiers & HIDDI_MKEY_LEFT_CTRL)==HIDDI_MKEY_LEFT_CTRL) { /* Left Ctrl key was released */ SDL_SendKeyboardKey(0, SDL_RELEASED, SDL_SCANCODE_LCTRL); } if (((packet->modifiers & HIDDI_MKEY_LEFT_SHIFT)==HIDDI_MKEY_LEFT_SHIFT) && (key_last_state[devno].modifiers & HIDDI_MKEY_LEFT_SHIFT)==0) { /* Left Shift key was pressed */ SDL_SendKeyboardKey(0, SDL_PRESSED, SDL_SCANCODE_LSHIFT); } if (((packet->modifiers & HIDDI_MKEY_LEFT_SHIFT)==0) && (key_last_state[devno].modifiers & HIDDI_MKEY_LEFT_SHIFT)==HIDDI_MKEY_LEFT_SHIFT) { /* Left Shift key was released */ SDL_SendKeyboardKey(0, SDL_RELEASED, SDL_SCANCODE_LSHIFT); } if (((packet->modifiers & HIDDI_MKEY_LEFT_ALT)==HIDDI_MKEY_LEFT_ALT) && (key_last_state[devno].modifiers & HIDDI_MKEY_LEFT_ALT)==0) { /* Left Alt key was pressed */ SDL_SendKeyboardKey(0, SDL_PRESSED, SDL_SCANCODE_LALT); } if (((packet->modifiers & HIDDI_MKEY_LEFT_ALT)==0) && (key_last_state[devno].modifiers & HIDDI_MKEY_LEFT_ALT)==HIDDI_MKEY_LEFT_ALT) { /* Left Alt key was released */ SDL_SendKeyboardKey(0, SDL_RELEASED, SDL_SCANCODE_LALT); } if (((packet->modifiers & HIDDI_MKEY_LEFT_WFLAG)==HIDDI_MKEY_LEFT_WFLAG) && (key_last_state[devno].modifiers & HIDDI_MKEY_LEFT_WFLAG)==0) { /* Left Windows flag key was pressed */ SDL_SendKeyboardKey(0, SDL_PRESSED, SDL_SCANCODE_LGUI); } if (((packet->modifiers & HIDDI_MKEY_LEFT_WFLAG)==0) && (key_last_state[devno].modifiers & HIDDI_MKEY_LEFT_WFLAG)==HIDDI_MKEY_LEFT_WFLAG) { /* Left Windows flag key was released */ SDL_SendKeyboardKey(0, SDL_RELEASED, SDL_SCANCODE_LGUI); } if (((packet->modifiers & HIDDI_MKEY_RIGHT_CTRL)==HIDDI_MKEY_RIGHT_CTRL) && (key_last_state[devno].modifiers & HIDDI_MKEY_RIGHT_CTRL)==0) { /* Right Ctrl key was pressed */ SDL_SendKeyboardKey(0, SDL_PRESSED, SDL_SCANCODE_RCTRL); } if (((packet->modifiers & HIDDI_MKEY_RIGHT_CTRL)==0) && (key_last_state[devno].modifiers & HIDDI_MKEY_RIGHT_CTRL)==HIDDI_MKEY_RIGHT_CTRL) { /* Right Ctrl key was released */ SDL_SendKeyboardKey(0, SDL_RELEASED, SDL_SCANCODE_RCTRL); } if (((packet->modifiers & HIDDI_MKEY_RIGHT_SHIFT)==HIDDI_MKEY_RIGHT_SHIFT) && (key_last_state[devno].modifiers & HIDDI_MKEY_RIGHT_SHIFT)==0) { /* Right Shift key was pressed */ SDL_SendKeyboardKey(0, SDL_PRESSED, SDL_SCANCODE_RSHIFT); } if (((packet->modifiers & HIDDI_MKEY_RIGHT_SHIFT)==0) && (key_last_state[devno].modifiers & HIDDI_MKEY_RIGHT_SHIFT)==HIDDI_MKEY_RIGHT_SHIFT) { /* Right Shift key was released */ SDL_SendKeyboardKey(0, SDL_RELEASED, SDL_SCANCODE_RSHIFT); } if (((packet->modifiers & HIDDI_MKEY_RIGHT_ALT)==HIDDI_MKEY_RIGHT_ALT) && (key_last_state[devno].modifiers & HIDDI_MKEY_RIGHT_ALT)==0) { /* Right Alt key was pressed */ SDL_SendKeyboardKey(0, SDL_PRESSED, SDL_SCANCODE_RALT); } if (((packet->modifiers & HIDDI_MKEY_RIGHT_ALT)==0) && (key_last_state[devno].modifiers & HIDDI_MKEY_RIGHT_ALT)==HIDDI_MKEY_RIGHT_ALT) { /* Right Alt key was released */ SDL_SendKeyboardKey(0, SDL_RELEASED, SDL_SCANCODE_RALT); } if (((packet->modifiers & HIDDI_MKEY_RIGHT_WFLAG)==HIDDI_MKEY_RIGHT_WFLAG) && (key_last_state[devno].modifiers & HIDDI_MKEY_RIGHT_WFLAG)==0) { /* Right Windows flag key was pressed */ SDL_SendKeyboardKey(0, SDL_PRESSED, SDL_SCANCODE_RGUI); } if (((packet->modifiers & HIDDI_MKEY_RIGHT_WFLAG)==0) && (key_last_state[devno].modifiers & HIDDI_MKEY_RIGHT_WFLAG)==HIDDI_MKEY_RIGHT_WFLAG) { /* Right Windows flag key was released */ SDL_SendKeyboardKey(0, SDL_RELEASED, SDL_SCANCODE_RGUI); } } /* Check each key in the press/release buffer */ switch (report_len) { case 8: /* 8 bytes of report length */ { /* Check if at least one key was unpressed */ for (it=0; it<6; it++) { if (key_last_state[devno].codes[it]==HIDDI_KEY_UNPRESSED) { /* if stored keycode is zero, find another */ continue; } for (jt=0; jt<6; jt++) { /* Find stored keycode in the current pressed codes */ if (packet->codes[jt]==key_last_state[devno].codes[it]) { /* If found then particular key state is not changed */ break; } } /* Check if pressed key can't longer be found */ if (jt==6) { SDL_SendKeyboardKey(0, SDL_RELEASED, key_last_state[devno].codes[it]); } } /* Check if at least one new key was pressed */ for (it=0; it<6; it++) { if (packet->codes[it]==HIDDI_KEY_UNPRESSED) { continue; } for (jt=0; jt<6; jt++) { /* Find new keycode it the array of old pressed keys */ if (packet->codes[it]==key_last_state[devno].codes[jt]) { break; } } /* Check if new key was pressed */ if (jt==6) { SDL_SendKeyboardKey(0, SDL_PRESSED, packet->codes[it]); } } } default: /* unknown keyboard report type */ { /* Ignore all unknown reports */ } break; } /* Store last state */ key_last_state[devno]=*packet; } static uint32_t mouse_last_state_button[SDL_HIDDI_MAX_DEVICES]; static uint32_t collect_reports=0; static void hiddi_mouse_handler(uint32_t devno, uint8_t* report_data, uint32_t report_len) { uint32_t it; uint32_t sdlbutton; /* We do not want to collect stored events */ if (collect_reports==0) { return; } /* Check for special states */ switch (report_len) { case 8: /* 8 bytes of report length, usually multi-button USB mice */ { mouse_packet8* packet; packet=(mouse_packet8*)report_data; /* Send motion event if motion really was */ if ((packet->horizontal_precision!=0) || (packet->vertical_precision!=0)) { SDL_SendMouseMotion(0, 1, packet->horizontal_precision, packet->vertical_precision, 0); } /* Send mouse button press/release events */ if (mouse_last_state_button[devno]!=packet->buttons) { /* Cycle all buttons status */ for (it=0; it<8; it++) { /* convert hiddi button id to sdl button id */ switch(it) { case 0: { sdlbutton=SDL_BUTTON_LEFT; } break; case 1: { sdlbutton=SDL_BUTTON_RIGHT; } break; case 2: { sdlbutton=SDL_BUTTON_MIDDLE; } break; default: { sdlbutton=it+1; } break; } /* Button pressed */ if (((packet->buttons & (0x01<<it))==(0x01<<it)) && ((mouse_last_state_button[devno] & (0x01<<it))==0x00)) { SDL_SendMouseButton(0, SDL_PRESSED, sdlbutton); } /* Button released */ if (((packet->buttons & (0x01<<it))==0x00) && ((mouse_last_state_button[devno] & (0x01<<it))==(0x01<<it))) { SDL_SendMouseButton(0, SDL_RELEASED, sdlbutton); } } mouse_last_state_button[devno]=packet->buttons; } /* Send mouse wheel events */ if (packet->wheel!=0) { /* Send vertical wheel event only */ SDL_SendMouseWheel(0, 0, packet->wheel); } } break; case 4: /* 4 bytes of report length, usually PS/2 mice */ { mouse_packet4* packet; packet=(mouse_packet4*)report_data; /* Send motion event if motion really was */ if ((packet->horizontal!=0) || (packet->vertical!=0)) { SDL_SendMouseMotion(0, 1, packet->horizontal, packet->vertical, 0); } /* Send mouse button press/release events */ if (mouse_last_state_button[devno]!=packet->buttons) { /* Cycle all buttons status */ for (it=0; it<8; it++) { /* convert hiddi button id to sdl button id */ switch(it) { case 0: { sdlbutton=SDL_BUTTON_LEFT; } break; case 1: { sdlbutton=SDL_BUTTON_RIGHT; } break; case 2: { sdlbutton=SDL_BUTTON_MIDDLE; } break; default: { sdlbutton=it+1; } break; } /* Button pressed */ if (((packet->buttons & (0x01<<it))==(0x01<<it)) && ((mouse_last_state_button[devno] & (0x01<<it))==0x00)) { SDL_SendMouseButton(0, SDL_PRESSED, sdlbutton); } /* Button released */ if (((packet->buttons & (0x01<<it))==0x00) && ((mouse_last_state_button[devno] & (0x01<<it))==(0x01<<it))) { SDL_SendMouseButton(0, SDL_RELEASED, sdlbutton); } } mouse_last_state_button[devno]=packet->buttons; } /* Send mouse wheel events */ if (packet->wheel!=0) { /* Send vertical wheel event only */ SDL_SendMouseWheel(0, 0, packet->wheel); } } break; } } /*****************************************************************************/ /* HIDDI interacting code */ /*****************************************************************************/ static hidd_device_ident_t hiddevice= { HIDD_CONNECT_WILDCARD, /* vendor id: any */ HIDD_CONNECT_WILDCARD, /* product id: any */ HIDD_CONNECT_WILDCARD, /* version: any */ }; static hidd_connect_parm_t hidparams={NULL, HID_VERSION, HIDD_VERSION, 0, 0, &hiddevice, NULL, 0}; static void hiddi_insertion(struct hidd_connection* connection, hidd_device_instance_t* device_instance); static void hiddi_removal(struct hidd_connection* connection, hidd_device_instance_t* instance); static void hiddi_report(struct hidd_connection* connection, struct hidd_report* report, void* report_data, uint32_t report_len, uint32_t flags, void* user); static hidd_funcs_t hidfuncs={_HIDDI_NFUNCS, hiddi_insertion, hiddi_removal, hiddi_report, NULL}; /* HID handle, singletone */ struct hidd_connection* connection=NULL; /* SDL detected input device types, singletone */ static uint32_t sdl_input_devices[SDL_HIDDI_MAX_DEVICES]; static int hiddi_register_for_reports(struct hidd_collection* col, hidd_device_instance_t* device_instance) { int it; uint16_t num_col; struct hidd_collection** hidd_collections; struct hidd_report_instance* report_instance; struct hidd_report* report; int status=0; hidview_device_t* device; for (it=0 ; it<10 && !status; it++) { status=hidd_get_report_instance(col, it, HID_INPUT_REPORT, &report_instance); if (status==EOK) { status=hidd_report_attach(connection, device_instance, report_instance, 0, sizeof(hidview_device_t), &report); if (status==EOK) { device=hidd_report_extra(report); device->report=report; device->instance=report_instance; } } } hidd_get_collections(NULL, col, &hidd_collections, &num_col); for (it=0; it<num_col; it++) { hiddi_register_for_reports(hidd_collections[it], device_instance); } return EOK; } static void hiddi_insertion(struct hidd_connection* connection, hidd_device_instance_t* device_instance) { uint32_t it; struct hidd_collection** hidd_collections; uint16_t num_col; /* get root level collections */ hidd_get_collections(device_instance, NULL, &hidd_collections, &num_col); for (it=0; it<num_col; it++) { hiddi_register_for_reports(hidd_collections[it], device_instance); } } static void hiddi_removal(struct hidd_connection* connection, hidd_device_instance_t* instance) { hidd_reports_detach(connection, instance); } static void hiddi_report(struct hidd_connection* connection, hidd_report_t* report, void* report_data, uint32_t report_len, uint32_t flags, void* user) { if (report->dev_inst->devno>=SDL_HIDDI_MAX_DEVICES) { /* Unknown HID device, with devno number out of supported range */ return; } /* Check device type which generates event */ switch (sdl_input_devices[report->dev_inst->devno]) { case SDL_GF_HIDDI_NONE: { /* We do not handle other devices type*/ return; } break; case SDL_GF_HIDDI_MOUSE: { /* Call mouse handler */ hiddi_mouse_handler(report->dev_inst->devno, report_data, report_len); } break; case SDL_GF_HIDDI_KEYBOARD: { /* Call keyboard handler */ hiddi_keyboard_handler(report->dev_inst->devno, report_data, report_len); } break; case SDL_GF_HIDDI_JOYSTICK: { /* Call joystick handler */ } break; } } static hiddi_get_device_type(uint8_t* report_data, uint16_t report_length) { hid_byte_t byte; uint16_t usage_page=0; uint16_t usage=0; uint16_t data=0; while (report_length && !(usage_page && usage)) { if (hidp_analyse_byte(*report_data, &byte)) { /* Error in parser, do nothing */ } data=hidp_get_data((report_data+1), &byte); switch (byte.HIDB_Type) { case HID_TYPE_GLOBAL: if (!usage_page && byte.HIDB_Tag==HID_GLOBAL_USAGE_PAGE) { usage_page=data; } break; case HID_TYPE_LOCAL: if (!usage && byte.HIDB_Tag==HID_LOCAL_USAGE) { usage=data; } break; } report_data+=byte.HIDB_Length+1; report_length-=byte.HIDB_Length+1; } switch (usage_page) { case HIDD_PAGE_DESKTOP: { switch (usage) { case HIDD_USAGE_MOUSE: { return SDL_GF_HIDDI_MOUSE; } break; case HIDD_USAGE_JOYSTICK: { return SDL_GF_HIDDI_JOYSTICK; } break; case HIDD_USAGE_KEYBOARD: { return SDL_GF_HIDDI_KEYBOARD; } break; } } break; case HIDD_PAGE_DIGITIZER: { /* Do not handle digitizers */ } break; case HIDD_PAGE_CONSUMER: { /* Do not handle consumer input devices */ } break; } return SDL_GF_HIDDI_NONE; } static int32_t hiddi_connect_devices() { int32_t status; uint32_t it; uint8_t* report_data; uint16_t report_length; hidd_device_instance_t instance; /* Cleanup initial keys and mice state */ SDL_memset(key_last_state, 0x00, sizeof(key_packet)*SDL_HIDDI_MAX_DEVICES); SDL_memset(mouse_last_state_button, 0x00, sizeof(uint32_t)*SDL_HIDDI_MAX_DEVICES); status=hidd_connect(&hidparams, &connection); if (status!=EOK) { return -1; } for (it=0; it<SDL_HIDDI_MAX_DEVICES; it++) { /* Get device instance */ status=hidd_get_device_instance(connection, it, &instance); if (status!=EOK) { continue; } status=hidd_get_report_desc(connection, &instance, &report_data, &report_length); if (status!=EOK) { continue; } status=hiddi_get_device_type(report_data, report_length); sdl_input_devices[it]=status; free(report_data); } /* Disconnect from HID server */ status=hidd_disconnect(connection); if (status!=EOK) { return -1; } /* Add handlers for HID devices */ hidparams.funcs=&hidfuncs; status=hidd_connect(&hidparams, &connection); if (status!=EOK) { return -1; } return 0; } static int32_t hiddi_disconnect_devices() { int32_t status; hiddi_disable_mouse(); /* Disconnect from HID server */ status=hidd_disconnect(connection); if (status!=EOK) { return -1; } } void hiddi_enable_mouse() { collect_reports=1; } void hiddi_disable_mouse() { collect_reports=0; }