FreeCalypso > hg > tcs211-pirelli
view g23m/condat/ms/src/bmi/Mmigame.c @ 18:a0c4fd5c7430
pdt_2092 builds for Openmoko memory configuration
author | Space Falcon <falcon@ivan.Harhan.ORG> |
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date | Sun, 06 Sep 2015 03:05:37 +0000 |
parents | 509db1a7b7b8 |
children |
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/******************************************************************************* CONDAT (UK) ******************************************************************************** This software product is the property of Condat (UK) Ltd and may not be disclosed to any third party without the express permission of the owner. ******************************************************************************** $Project name: Basic MMI $Project code: BMI (6349) $Module: Game $File: Mmigame.c $Revision: 1.0 $Author: Condat(UK) $Date: 03/07/01 ******************************************************************************** Description Aug 16, 2004 REF: CRR 24323 Deepa M.D Bug:Clenup of sprintf used for tracing Fix:Replace the char buf[]; sprintf (buf, "...", ...); TRACE_EVENT (buf); statements by TRACE_EVENT_PX This provides the main game (four in a row) functionality ********************************************************************************/ /******************************************************************************* Include files *******************************************************************************/ #define ENTITY_MFW /* includes */ #include <string.h> #include <stdio.h> #include <stdlib.h> #if defined (NEW_FRAME) #include "typedefs.h" #include "vsi.h" #include "pei.h" #include "custom.h" #include "gsm.h" #else #include "STDDEFS.H" #include "custom.h" #include "gsm.h" #include "vsi.h" #endif #include "mfw_sys.h" #include "cus_aci.h" #include "mfw_mfw.h" #include "mfw_win.h" #include "mfw_kbd.h" /* SPR#1428 - SH - New Editor changes */ #ifndef NEW_EDITOR #include "mfw_edt.h" #endif #include "mfw_lng.h" #include "mfw_tim.h" #include "mfw_icn.h" #include "mfw_mnu.h" #include "mfw_phb.h" #include "mfw_cm.h" #include "mfw_sim.h" #include "mfw_nm.h" #include "mfw_sat.h" #include "mfw_ss.h" /*for convert*/ #include "mfw_phb.h" #include "ksd.h" #include "psa.h" #include "mfw_sms.h" #include "mfw_cphs.h" #include "mfw_sat.h" #include "Mfw_band.h" #include "mfw_ffs.h" #include "Mmigame.h" #include "dspl.h" #include "MmiMmi.h" #include "MmiDialogs.h" #include "MmiLists.h" #include "MmiBand.h" #include "MmiCPHS.h" /* SPR#1428 - SH - New Editor changes */ #ifdef NEW_EDITOR #include "ATBCommon.h" #include "ATBDisplay.h" #include "ATBEditor.h" #include "AUIEditor.h" #else #include "MmiEditor.h" #endif #include"MmiBookShared.h" #include "font_bitmaps.h" #include "mmiColours.h" #include "MmiResources.h" #include "Mmigame.h" //GW 14/09/01 Disable game when not required. #ifdef MMIGAME void dspl_show_bitmap(int x,int y,t_font_bitmap* current_bitmap,U32 attr ); /******************************************************************************* internal data *******************************************************************************/ #define FOUR_IN_A_ROW_INIT 121 #define MAX_X_BOARD 11 #define MAX_Y_BOARD 8 /* * The information related to every window must be encapsulated in such an structure */ typedef struct { T_MMI_CONTROL mmi_control; // common control parameter T_MFW_HND win; T_MFW_HND kbd; T_MFW_HND menu; T_MFW_HND parent_win; T_MFW_HND info_win; char board_array[MAX_Y_BOARD][MAX_X_BOARD]; //the virtual board } T_four_in_a_row; typedef struct { /* administrative data */ T_MMI_CONTROL mmi_control; T_MFW_HND win; T_MFW_HND parent_win; /* SPR#1428 - SH - New editor data */ #ifdef NEW_EDITOR T_AUI_EDITOR_DATA editor_data; #else /* NEW_EDITOR */ T_EDITOR_DATA editor_data; #endif /* NEW_EDITOR */ /* internal data */ char buffer[80]; UBYTE status; } tShowInfo; /* * These are common functions xxx_create and xxx_destroy */ T_MFW_HND four_in_a_row_create(MfwHnd parent); void four_in_a_row_destroy (T_MFW_HND); /* * This dialog function (the same name as the window) * is used to handle the comunication between different windows. The global macro SEND_EVENT can be used with parameter win * and the corresponding events to send from one mmi dialog to another. */ void four_in_a_row (T_MFW_HND win, USHORT event, SHORT value, void * parameter); /* * These are common optional functions handler */ int four_in_a_row_kbd_cb (MfwEvt e, MfwKbd *k); int four_in_a_row_win_cb (MfwEvt e, MfwWin *w); int Game_Result; /* * This an optional function, used often to call, create and init a new dialog, with different parameters depending * on the context */ T_MFW_HND four_in_a_row_start (T_MFW_HND win_parent,char *character); int four_in_a_row_aktivate(MfwMnu* m, MfwMnuItem* i); int check_column(T_four_in_a_row *data, int where_from); void drop_stone(T_four_in_a_row *data); int mobile_thinking(T_four_in_a_row *data); int check_line(T_four_in_a_row *data, int x_value, int drop_position, int dx, int dy, BOOL where_from); void check_for_winner(T_four_in_a_row *data, int check_out_position); int random_scoring(void); // RAVI T_MFW_HND Game_Info(T_MFW_HND parent_window); static T_MFW_HND ShowGame_Information(MfwHnd parent_window); static void ShowGame_DialogCB(T_MFW_HND win, USHORT e, SHORT identifier, void *parameter); void ShowGameInfoEditor(T_MFW_HND win); static void ShowInfoCB( T_MFW_HND win, USHORT Identifier,UBYTE reason); void showGameInfo_destroy(MfwHnd own_window); const char * info = "Welcome to Connect 4!"; const char * playAgain = "Play Again?"; //internal datas int column; //this is the current position of white player cursor int x_runer; //goes through the horizontal lines int y_runer; //goes through the vertical lines char winner; //describes the winner 0->nobody 'B'->black(mobile) 'W'->white(human player) int column_black; //this is the current position of black player cursor int request_stone; //helps to decide between black or white (for strategical things) static T_MFW_HND info_window=0; #ifndef BMP_FORMAT_BW_UNPACKED #define BMP_FORMAT_BW_UNPACKED 1 #endif t_font_bitmap plWin1 ={ 0, BMP_FORMAT_BW_UNPACKED, 21, 24, 0, (char*)player_win1}; t_font_bitmap plWin2 ={ 0, BMP_FORMAT_BW_UNPACKED, 21, 24, 0, (char*)player_win2}; t_font_bitmap plLost1 ={ 0, BMP_FORMAT_BW_UNPACKED, 21, 24, 0, (char*)player_lost1}; t_font_bitmap plLost2 ={ 0, BMP_FORMAT_BW_UNPACKED, 21, 24, 0, (char*)player_lost2}; t_font_bitmap draw1 ={ 0, BMP_FORMAT_BW_UNPACKED, 21, 24, 0, (char*)board_full1}; t_font_bitmap draw2 ={ 0, BMP_FORMAT_BW_UNPACKED, 21, 24, 0, (char*)board_full2}; t_font_bitmap gameName1 ={ 0, BMP_FORMAT_BW_UNPACKED, 18, 24, 0, (char*)game_name1}; t_font_bitmap gameName2 ={ 0, BMP_FORMAT_BW_UNPACKED, 24, 24, 0, (char*)game_name2}; #ifdef COLOURDISPLAY char colBmp[256*4]; t_font_bitmap allCol ={ 0, BMP_FORMAT_256_COLOUR, 32, 32, 0, colBmp }; t_font_bitmap stone_colour ={ 0, BMP_FORMAT_BW_UNPACKED, 8, 8, 0, (char*)black_stone_bw}; t_font_bitmap gameCursor = { 0, BMP_FORMAT_BW_UNPACKED, 8, 8, 0, (char*)game_cursor}; #else #ifdef LSCREEN t_font_bitmap blackStone_bw ={ 0, BMP_FORMAT_BW_UNPACKED, 8, 8, 0, (char*)black_stone_bw}; t_font_bitmap whiteStone_bw ={ 0, BMP_FORMAT_BW_UNPACKED, 8, 8, 0, (char*)white_stone_bw}; t_font_bitmap gameCursor = { 0, BMP_FORMAT_BW_UNPACKED, 8, 8, 0, (char*)game_cursor}; #else t_font_bitmap blackStone_bw ={ 0, BMP_FORMAT_BW_UNPACKED, 4, 4, 0, (char*)black_stone_bw}; t_font_bitmap whiteStone_bw ={ 0, BMP_FORMAT_BW_UNPACKED, 4, 4, 0, (char*)white_stone_bw}; t_font_bitmap gameCursor = { 0, BMP_FORMAT_BW_UNPACKED, 6, 6, 0, (char*)game_cursor}; #endif #endif t_font_bitmap *blackStone, *whiteStone; /******************************************************************************* $Function: four_in_a_row_create $Description: $Returns: $Arguments: *******************************************************************************/ T_MFW_HND four_in_a_row_create (T_MFW_HND parent_window) { T_MFW_WIN * win; /* * This window is dynamic, for that reason the associated data are allocated in the mfw heap */ T_four_in_a_row * data = (T_four_in_a_row *)ALLOC_MEMORY (sizeof (T_four_in_a_row)); TRACE_FUNCTION ("four_in_a_row_create()"); /* * Create window handler */ data->win = win_create (parent_window, 0, E_WIN_VISIBLE, (T_MFW_CB)four_in_a_row_win_cb); if (data->win EQ 0) return 0; /* * These assignments are necessary to attach the data to the window, and to handle the mmi event communication. */ data->mmi_control.dialog = (T_DIALOG_FUNC)four_in_a_row; data->mmi_control.data = data; data->parent_win = parent_window; win = ((T_MFW_HDR *)data->win)->data; win->user = (void *) data; /* * Create any other handler */ data->kbd = kbd_create (data->win,KEY_ALL,(T_MFW_CB)four_in_a_row_kbd_cb); column=0; //set start value for game cursor winner ='0'; //game starts, so set winner to nobody /*clear the board*/ for (y_runer=0;y_runer<MAX_Y_BOARD;y_runer++){ for(x_runer=0;x_runer<MAX_X_BOARD;x_runer++){ data->board_array[y_runer][x_runer] ='0'; } } winShow(data->win); return data->win; } /******************************************************************************* $Function: four_in_a_rowr_destroy $Description: $Returns: $Arguments: *******************************************************************************/ void four_in_a_row_destroy (T_MFW_HND own_window) { T_MFW_WIN * win; T_four_in_a_row * data; TRACE_EVENT("four_in_a_row_destroy"); if (own_window) { win = ((T_MFW_HDR *)own_window)->data; data = (T_four_in_a_row *)win->user; if (data) { /* * Exit Keyboard Handler */ /* * Delete WIN Handler */ win_delete (data->win); } /* * In this case the data attached to window must be also deleted. */ FREE_MEMORY ((void *)data, sizeof (T_four_in_a_row)); column=0; //set the current column back to 0 } } /******************************************************************************* $Function: four_in_a_row_start $Description: This function just creates and inits the new dialog $Returns: $Arguments: *******************************************************************************/ T_MFW_HND four_in_a_row_start (T_MFW_HND win_parent,char *character) { T_MFW_HND win; /* MmiTetrisStart(); return; */ win = four_in_a_row_create (win_parent); TRACE_EVENT("four_in_a_row_start"); if (win NEQ NULL) { SEND_EVENT(win,FOUR_IN_A_ROW_INIT,0,character); } return win; } /******************************************************************************* $Function: four_in_a_row $Description: $Returns: $Arguments: *******************************************************************************/ void four_in_a_row (T_MFW_HND win, USHORT event, SHORT value, void * parameter) { T_MFW_WIN * win_data = ((T_MFW_HDR *) win)->data; T_four_in_a_row * data = (T_four_in_a_row *)win_data->user; TRACE_FUNCTION ("four_in_a_row()"); /* * In this case the communication is very simple (only one intern event) */ switch (event) { case FOUR_IN_A_ROW_INIT: softKeys_displayId(TxtSearchName,TxtNull,0,COLOUR_IDLE); winShow(data->win); break; default: return; } } /******************************************************************************* $Function: four_in_a_row_win_cb $Description: win calback function of four in a row $Returns: $Arguments: *******************************************************************************/ int four_in_a_row_win_cb (MfwEvt e, MfwWin *w) { // T_DISPLAY_DATA display_info; // RAVI T_four_in_a_row * data = (T_four_in_a_row *)w->user; int xOfs,yOfs, xScale, yScale; int manOfsX,manOfsY; int xPos,yPos; int y_axis; //goes through the vertical lines int x_axis; //goes through the horizontal lines // int x,y,i,b; // RAVI int displayPosX, temp; TRACE_FUNCTION ("four_in_a_row_win_cb()"); switch (e) { case MfwWinVisible: #ifdef COLOURDISPLAY whiteStone = &stone_colour; blackStone = &stone_colour; #else whiteStone = &blackStone_bw; blackStone = &whiteStone_bw; #endif #ifdef LSCREEN manOfsX = GAME_POS_X + 3; manOfsY = GAME_POS_Y + 3; #else manOfsX = GAME_POS_X + 1; manOfsY = GAME_POS_Y + 1; #endif xOfs = GAME_POS_X; yOfs = GAME_POS_Y; xScale = GAME_SCALE_X; yScale = GAME_SCALE_Y; //dspl_ClearAll(); //Clears to white, not BGD! TRACE_EVENT("display clear"); resources_setColour( COLOUR_GAME ); dspl_Clear( 0,0, SCREEN_SIZE_X,SCREEN_SIZE_Y); #ifdef LSCREEN softKeys_displayId(TxtHelp,TxtExit,0,COLOUR_LIST_SUBMENU); #endif resources_setColour( COLOUR_GAME ); dspl_Clear( xOfs, yOfs, xOfs+MAX_X_BOARD*xScale, yOfs+MAX_Y_BOARD*yScale ); //Clears to white, not BGD! //dspl_BitBlt(column*xScale+xOfs+1,yOfs-yScale,8,8,0,(void*)game_cursor,0); //place the cursor bitmap dspl_show_bitmap(column*xScale+xOfs+1,yOfs-yScale, &gameCursor, 0 ); for (y_axis=0;y_axis<=MAX_Y_BOARD;y_axis++) { dspl_DrawLine( xOfs, yOfs+y_axis*yScale, xOfs+MAX_X_BOARD*xScale, yOfs+y_axis*yScale); } for(x_axis=0;x_axis<=MAX_X_BOARD;x_axis++) { dspl_DrawLine( xOfs+x_axis*xScale, yOfs, xOfs+x_axis*xScale, yOfs+MAX_Y_BOARD*yScale); } //go through the board-array and check for W or B and set the stones for (y_axis=0;y_axis<MAX_Y_BOARD;y_axis++) { for(x_axis=0;x_axis<MAX_X_BOARD;x_axis++) { xPos = manOfsX+x_axis*xScale; yPos = manOfsY+y_axis*yScale; if(data->board_array[y_axis][x_axis] EQ 'W'){ //found white //set white_stone bitmap dspl_SetFgdColour( COL_R ); dspl_show_bitmap(xPos,yPos, whiteStone, 0 ); } if(data->board_array[y_axis][x_axis] EQ 'B'){ //found black //set black_stone bitmap dspl_SetFgdColour( COL_G ); //0x00404040 dspl_show_bitmap(xPos,yPos, blackStone, 0 ); } } } dspl_SetFgdColour( COL_RB ); dspl_SetBgdColour( COL_RG ); dspl_show_bitmap(GAME_NAMEPOSX1, GAME_NAMEPOSY1, &gameName1, 0 ); displayPosX = (SCREEN_SIZE_X/2); temp = strlen((char*)playAgain); //this if-clause is to set the bitmap, for win or lost game if(winner EQ 'W'){ //human player wins, so set win bitmap #ifdef LSCREEN dspl_SetFgdColour( COL_BLK ); dspl_SetBgdColour( COL_TRANSPARENT ); Game_Result = TRUE; softKeys_displayId(TxtYes,TxtNo,0,COLOUR_LIST_SUBMENU); dspl_TextOut((displayPosX-((temp*CHAR_WIDTH)/2)),170,DSPL_TXTATTR_NORMAL,(char*)playAgain); #endif dspl_SetFgdColour( COL_RB ); dspl_SetBgdColour( COL_GB ); dspl_show_bitmap(GAME_WINPOSX1, GAME_WINPOSY1, &plWin1, 0 ); dspl_show_bitmap(GAME_WINPOSX2, GAME_WINPOSY2, &plWin2, 0 ); } else if(winner EQ 'B'){ //human player lost, so set lost bitmap #ifdef LSCREEN dspl_SetFgdColour( COL_BLK ); dspl_SetBgdColour( COL_TRANSPARENT ); Game_Result = TRUE; softKeys_displayId(TxtYes,TxtNo,0,COLOUR_LIST_SUBMENU); dspl_TextOut((displayPosX-((temp*CHAR_WIDTH)/2)),170,DSPL_TXTATTR_NORMAL,(char*)playAgain); #endif dspl_SetFgdColour( COL_RB ); dspl_SetBgdColour( COL_GB ); dspl_show_bitmap(GAME_WINPOSX1, GAME_WINPOSY1, &plLost1, 0 ); dspl_show_bitmap(GAME_WINPOSX2, GAME_WINPOSY2, &plLost2, 0 ); } else if(winner EQ 'N'){ //board is full, nobody (N) wins #ifdef LSCREEN dspl_SetFgdColour( COL_BLK ); dspl_SetBgdColour( COL_TRANSPARENT ); Game_Result = TRUE; softKeys_displayId(TxtYes,TxtNo,0,COLOUR_LIST_SUBMENU); dspl_TextOut((displayPosX-((temp*CHAR_WIDTH)/2)),170,DSPL_TXTATTR_NORMAL,(char*)playAgain); #endif dspl_SetFgdColour( COL_R ); dspl_SetBgdColour( COL_G ); dspl_show_bitmap(GAME_WINPOSX1, GAME_WINPOSY1, &draw1, 0 ); dspl_show_bitmap(GAME_WINPOSX2, GAME_WINPOSY2, &draw2, 0 ); } else { dspl_SetFgdColour( COL_RB ); dspl_SetBgdColour( COL_RG ); dspl_show_bitmap(GAME_NAMEPOSX1, GAME_NAMEPOSY1, &gameName1, 0 ); dspl_show_bitmap(GAME_NAMEPOSX2, GAME_NAMEPOSY2, &gameName2, 0 ); dspl_show_bitmap(GAME_NAMEPOSX3, GAME_NAMEPOSY3, &gameName2, 0 ); } break; default: return 0; } return 1; } /******************************************************************************* $Function: four_in_a_row_kbd_cb $Description: $Returns: $Arguments: *******************************************************************************/ int four_in_a_row_kbd_cb (MfwEvt e, MfwKbd *k) { T_MFW_HND win = mfw_parent (mfw_header()); T_MFW_WIN * win_data = ((T_MFW_HDR *)win)->data; T_four_in_a_row * data = (T_four_in_a_row *)win_data->user; TRACE_EVENT ("four_in_a_row_kbd_cb()"); switch (k->code) { case KCD_HUP: //quit the game "four in a row" case KCD_RIGHT: //quit the game "four in a row" TRACE_EVENT ("quit four_in_a_row"); dspl_ClearAll(); //clear mobile screen four_in_a_row_destroy (win); //destroy win-handler break; case KCD_MNULEFT: case KCD_1: if(winner EQ '0'){ //while nobody has won.... TRACE_EVENT ("KCD_1"); if(column > 0) { //cursor must be greater than 0 column=column-1; } winShow(data->win); } break; case KCD_MNUSELECT: case KCD_2: if(winner EQ '0'){ //while nobody has won.... TRACE_EVENT ("KCD_2"); drop_stone(data); //drop stone } winShow(data->win); break; case KCD_MNURIGHT: case KCD_3: if(winner EQ '0'){ //while nobody has won.... TRACE_EVENT ("KCD_3"); if(column<MAX_X_BOARD-1 ){ //cursor must be less than 50 column=column+1; } winShow(data->win); } break; case KCD_LEFT: if(Game_Result == TRUE) { Game_Result = FALSE; four_in_a_row_destroy(win); //destroy win-handler four_in_a_row_start(win,0); } else Game_Info(win); break; } return MFW_EVENT_CONSUMED; } /******************************************************************************* $Function: four_in_a_row_aktivate $Description: Starts the game function on user selection $Returns: MFW_EVENT_CONSUMED if event handled, otherwise MFW_EVENT_PASSED $Arguments: menu, menu item *******************************************************************************/ int four_in_a_row_aktivate(MfwMnu* m, MfwMnuItem* i) { T_four_in_a_row * data; T_MFW_HND parent = mfwParent( mfw_header()); TRACE_EVENT("four_in_a_row_aktivate()"); four_in_a_row_start(parent,0); return MFW_EVENT_CONSUMED; } /******************************************************************************* $Function: drop_stone $Description: decide whether a stone can be droped and where it can be droped $Returns: $Arguments: T_four_in_a_row *******************************************************************************/ void drop_stone(T_four_in_a_row *data) { int drop_position; //position (y in current board column) where to drop the stone TRACE_EVENT("drop_stone()"); request_stone=0; //white is on turn drop_position=check_column(data,request_stone); //set the drop position for the white stone in the current white, board column if(drop_position>=0){ //if the current column is not filled up set stone data->board_array[drop_position][column]='W'; //white is first and set a 'W' in the virtual board for a white stone check_for_winner(data,drop_position); //check whether the last move(white) was a win-move... if(winner EQ '0'){ //...if not, then the mobile(black) is on turn drop_position=mobile_thinking(data); //set the drop position for the black stone in the current black, board column data->board_array[drop_position][column_black]='B'; //set a 'B' for in the virtual board for a black stone check_for_winner(data,drop_position); //check whether the last move(black) was a win-move... } } } /******************************************************************************* $Function: check_for_winner $Description: checks the current drop position for a win-position $Returns: $Arguments: T_four_in_a_row *******************************************************************************/ void check_for_winner(T_four_in_a_row *data, int check_out_position) { int check_with_this_color; //set the color to check for int color_regulator; //helps to switch between both colors int check_this_column; //declares the column to check for TRACE_EVENT("check_for_winner()"); color_regulator=0; //at first, use white to check for winner='0'; //at first we don't know who wins, so nobody is set as winner while(color_regulator<2){ //while checking for white(0) and black(1) is not ready.... if(color_regulator EQ 0){ //if color_regulator is 0, the board will be checked for white stones ('W') check_with_this_color='W'; }else{ //if color_regulator is 1, the board will be checked for black stones ('B') check_with_this_color='B'; } if(request_stone EQ 0){ //if the board will be checked for white, use column as the current column check_this_column=column; }else{ //if the board will be checked for black, use column_black as the current column check_this_column=column_black; } /*Begin with the checks, the mobile checks for vertical, horizontal and diagonal possibilities*/ //check row if(data->board_array[check_out_position][check_this_column-3] EQ check_with_this_color && data->board_array[check_out_position][check_this_column-2] EQ check_with_this_color && data->board_array[check_out_position][check_this_column-1] EQ check_with_this_color && data->board_array[check_out_position][check_this_column] EQ check_with_this_color && check_this_column>=3 && check_this_column<=10){ winner=check_with_this_color; //set the current color to check for as the winner break; }else if(data->board_array[check_out_position][check_this_column-1] EQ check_with_this_color && data->board_array[check_out_position][check_this_column-2] EQ check_with_this_color && data->board_array[check_out_position][check_this_column+1] EQ check_with_this_color && data->board_array[check_out_position][check_this_column] EQ check_with_this_color && check_this_column>=2 && check_this_column<=9){ winner=check_with_this_color; //set the current color to check for as the winner break; }else if(data->board_array[check_out_position][check_this_column+1] EQ check_with_this_color && data->board_array[check_out_position][check_this_column+2] EQ check_with_this_color && data->board_array[check_out_position][check_this_column+3] EQ check_with_this_color && data->board_array[check_out_position][check_this_column] EQ check_with_this_color && check_this_column>=0 && check_this_column<=7){ winner=check_with_this_color; //set the current color to check for as the winner break; }else if(data->board_array[check_out_position][check_this_column-1] EQ check_with_this_color && data->board_array[check_out_position][check_this_column+1] EQ check_with_this_color && data->board_array[check_out_position][check_this_column+2] EQ check_with_this_color && data->board_array[check_out_position][check_this_column] EQ check_with_this_color && check_this_column>=1 && check_this_column<=8){ winner=check_with_this_color; //set the current color to check for as the winner break; //check column }else if(data->board_array[check_out_position+1][check_this_column] EQ check_with_this_color && data->board_array[check_out_position+2][check_this_column] EQ check_with_this_color && data->board_array[check_out_position+3][check_this_column] EQ check_with_this_color && data->board_array[check_out_position][check_this_column] EQ check_with_this_color && check_out_position<=4){ winner=check_with_this_color; //set the current color to check for as the winner break; //check diagonal }else if(data->board_array[check_out_position+1][check_this_column-1] EQ check_with_this_color && data->board_array[check_out_position+2][check_this_column-2] EQ check_with_this_color && data->board_array[check_out_position+3][check_this_column-3] EQ check_with_this_color && data->board_array[check_out_position][check_this_column] EQ check_with_this_color && check_out_position<=4 && check_this_column>=3 && check_this_column<=10){ winner=check_with_this_color; //set the current color to check for as the winner break; }else if(data->board_array[check_out_position+1][check_this_column+1] EQ check_with_this_color && data->board_array[check_out_position+2][check_this_column+2] EQ check_with_this_color && data->board_array[check_out_position+3][check_this_column+3] EQ check_with_this_color && data->board_array[check_out_position][check_this_column] EQ check_with_this_color && check_out_position<=4 && check_this_column>=0 && check_this_column<=7){ winner=check_with_this_color; //set the current color to check for as the winner break; }else if(data->board_array[check_out_position-1][check_this_column+1] EQ check_with_this_color && data->board_array[check_out_position-2][check_this_column+2] EQ check_with_this_color && data->board_array[check_out_position-3][check_this_column+3] EQ check_with_this_color && data->board_array[check_out_position][check_this_column] EQ check_with_this_color && check_out_position>=3 && check_this_column>=0 && check_this_column<=7){ winner=check_with_this_color; //set the current color to check for as the winner break; }else if(data->board_array[check_out_position-1][check_this_column-1] EQ check_with_this_color && data->board_array[check_out_position-2][check_this_column-2] EQ check_with_this_color && data->board_array[check_out_position-3][check_this_column-3] EQ check_with_this_color && data->board_array[check_out_position][check_this_column] EQ check_with_this_color && check_out_position>=3 && check_this_column>=3 && check_this_column<=10){ winner=check_with_this_color; //set the current color to check for as the winner break; }else if(data->board_array[check_out_position+1][check_this_column-1] EQ check_with_this_color && data->board_array[check_out_position-1][check_this_column+1] EQ check_with_this_color && data->board_array[check_out_position-2][check_this_column+2] EQ check_with_this_color && data->board_array[check_out_position][check_this_column] EQ check_with_this_color && check_out_position<=6 && check_out_position>=2 && check_this_column>=1 && check_this_column<=8){ winner=check_with_this_color; //set the current color to check for as the winner break; }else if(data->board_array[check_out_position+1][check_this_column-1] EQ check_with_this_color && data->board_array[check_out_position+2][check_this_column-2] EQ check_with_this_color && data->board_array[check_out_position-1][check_this_column+1] EQ check_with_this_color && data->board_array[check_out_position][check_this_column] EQ check_with_this_color && check_out_position<=5 && check_out_position>=1 && check_this_column>=2 && check_this_column<=9){ winner=check_with_this_color; //set the current color to check for as the winner break; }else if(data->board_array[check_out_position-1][check_this_column-1] EQ check_with_this_color && data->board_array[check_out_position+1][check_this_column+1] EQ check_with_this_color && data->board_array[check_out_position+2][check_this_column+2] EQ check_with_this_color && data->board_array[check_out_position][check_this_column] EQ check_with_this_color && check_out_position<=5 && check_out_position>=1 && check_this_column>=1 && check_this_column<=8){ winner=check_with_this_color; //set the current color to check for as the winner break; }else if(data->board_array[check_out_position-1][check_this_column-1] EQ check_with_this_color && data->board_array[check_out_position-2][check_this_column-2] EQ check_with_this_color && data->board_array[check_out_position+1][check_this_column+1] EQ check_with_this_color && data->board_array[check_out_position][check_this_column] EQ check_with_this_color && check_out_position>=2 && check_out_position<=6 && check_this_column>=2 && check_this_column<=9){ winner=check_with_this_color; //set the current color to check for as the winner break; }else{ winner='0'; //no win-moves found, so nobody is the winner and the game goes on } color_regulator++; //set the check color one up (to black) } } /******************************************************************************* $Function: check_column $Description: checks for already set stones $Returns: int unused_position $Arguments: T_four_in_a_row *******************************************************************************/ int check_column(T_four_in_a_row *data, int where_from) { int unused_position; //is for a free drop position int column_for_check; //column (vertical board line) to check for if(where_from EQ 0){ //is the current game color(player) 0 then use column column_for_check=column; }else{ //is the current game color(player) 1 then use column_black column_for_check=column_black; } unused_position=-9999; for(y_runer=0;y_runer<MAX_Y_BOARD;y_runer++){ //test all vertical fields whether they are empty('0') or not if(data->board_array[y_runer][column_for_check] EQ '0'){ unused_position=y_runer; //.this field is empty, so it is a unused position } } return unused_position; //return the unused position } /******************************************************************************* $Function: mobile_thinking $Description: mobile moves $Returns: drop position of black stone (drop_me) $Arguments: T_four_in_a_row *******************************************************************************/ int mobile_thinking(T_four_in_a_row *data) { int position_score[11]; //this array takes the scoring values of each column in the game board int drop_position; //drop position for stone int drop_me; //buffer value int scores[4]; //this array keeps the scores for row, column and diagonals int add_random_score; TRACE_EVENT("mobile_thinking()"); request_stone=1; //black is //check for good spots to drop the black stone for(x_runer=0;x_runer<MAX_X_BOARD;x_runer++){ //found the possible drop position column_black=x_runer; //set the x_runer to the current column (column_black) drop_position=check_column(data,request_stone); //check for possible drop positions if(drop_position>=0){ //if there is a possible drop position..... //check the scoring of the current point add_random_score=random_scoring(); data->board_array[drop_position][x_runer]='B'; //set a test black stone scores[0]=check_line(data,x_runer,drop_position,1,0,0); //scores row scores[1]=check_line(data,x_runer,drop_position,1,1,0); //scores diagonal right-up/left-down scores[2]=check_line(data,x_runer,drop_position,1,-1,0); //scores diagonal left-up/right-down scores[3]=check_line(data,x_runer,drop_position,0,1,0); //scores down(column) position_score[x_runer]=scores[0]+scores[1]+scores[2]+scores[3]; //count all scores together to one total score if(drop_position-1 >=0){ //Is it possible to set a future stone here? If Yes go on... data->board_array[drop_position-1][x_runer]='W'; //set a test white stone for a possible next opponent move scores[0]=check_line(data,x_runer,drop_position-1,1,0,1); //scores row scores[1]=check_line(data,x_runer,drop_position-1,1,1,1); //scores diagonal right-up/left-down scores[2]=check_line(data,x_runer,drop_position-1,1,-1,1); //scores diagonal left-up/right-down scores[3]=check_line(data,x_runer,drop_position-1,0,1,1); //scores down(column) position_score[x_runer]=position_score[x_runer]-scores[0]-scores[1]-scores[2]-scores[3]+add_random_score; //substraction of the future score from the normal score data->board_array[drop_position-1][x_runer]='0'; //remove test white stone } data->board_array[drop_position][x_runer]='0'; //remove test black stone }else{ //if there is no possible drop position set the score to -1 position_score[x_runer]=-9999; } } drop_me=-9999; //buffer is set to absolutely minus column_black=-9999; //position of black cursor is left outer side of board for(x_runer=0;x_runer<MAX_X_BOARD;x_runer++){ //goes through the scoring array to find the highest score if(position_score[x_runer]>drop_me){ drop_me=position_score[x_runer]; column_black=x_runer; //set the x_runer to the current column(column_black) drop_position=check_column(data,request_stone); //this is the best drop position for the mobile } } if(column_black EQ -9999){ //if the column is -1, then the game board is filled up and nobody has won TRACE_EVENT("Board Full!!!"); winner='N'; //set winner to nobody (N) } return drop_position; //return the mobile drop position } /******************************************************************************* $Function: check_line $Description: set score points for the mobile, so the mobile knows where to set the next stone $Returns: total_score $Arguments: T_four_in_a_row, x_value, drop_position, dx, dy, where_from *******************************************************************************/ int check_line(T_four_in_a_row *data, int x_value, int y_value, int dx, int dy, BOOL where_from) { int lSc,nSc,oSc,total_score,sx,sy,i,j; int pl_nSc; //no of empty squares that have a man under them (i.e. we/opponent can use next shot) total_score=0; for (i=0;i<4;i++){ sx = x_value-i*dx; sy = y_value-i*dy; lSc=0; nSc=0; pl_nSc=0; oSc=0; for (j=0;j<4;j++){ if ((sx<0) || (sx>MAX_X_BOARD) ||(sy<0) || (sy>MAX_Y_BOARD)){ lSc = -1; }else if (lSc>=0){ if(where_from EQ 0){ if (data->board_array[sy][sx] EQ 'B'){ lSc++; }else if (data->board_array[sy][sx] EQ '0'){ nSc++; if ((sy EQ MAX_Y_BOARD) || (data->board_array[sy+1][sx] NEQ '0')) pl_nSc++; }else if (data->board_array[sy][sx] EQ 'W'){ oSc++; }else //edge of board found lSc=-1; sx = sx+dx; sy = sy+dy; }else{ if (data->board_array[sy][sx] EQ 'W'){ lSc++; }else if (data->board_array[sy][sx] EQ '0'){ nSc++; if ((sy EQ MAX_Y_BOARD) || (data->board_array[sy+1][sx] NEQ '0')) pl_nSc++; }else if (data->board_array[sy][sx] EQ 'B'){ oSc++; }else //edge of board found lSc=-1; sx = sx+dx; sy = sy+dy; } } } if (lSc >= 0){ if (lSc EQ 4){ return(9999);//got 4 in a row. }else if (oSc EQ 3) //and ISc==1 { // 3 opp men - good spot! if(where_from EQ 0){ total_score = total_score + 1000; //this is for the normal, current position score }else{ total_score = -total_score - 1000; //this is for the possible future score, it must be minus, because it will be substracted from normal score } }else if ((lSc EQ 3) && (nSc EQ 1)){ //playing here will form 3 in a row and a blank - good spot if (pl_nSc EQ 0) //can't reach the 4th position total_score = total_score + 75; else total_score = total_score + 125;//better if we can reach 4th position }else if ((oSc EQ 2) && (nSc EQ 1)){ // 2 opp men + 1 blank- good spot! if (pl_nSc EQ 0) //can't reach the 4th position-not too bad total_score = total_score + 50; else total_score = total_score + 200;//can get to both positions - have to block. }else if ((lSc EQ 2) && (nSc EQ 2)){ // 2 in a row and 2 blanks - OK spot if (pl_nSc EQ 0) //can't reach the 3rd or 4th position-not too good total_score = total_score + 20; else if (pl_nSc EQ 1) //can reach one of the 3rd or 4th position - good total_score = total_score + 45; else if (pl_nSc EQ 2) //can reach both 3rd and 4th position - very good total_score = total_score + 95; }else if ((lSc EQ 1) && (nSc EQ 3)){ // 1 in a row and 3 blanks - OK spot, better if we can reach the other 3 points. total_score = total_score + 2*(pl_nSc+1); //pl_nSc=0,1,2 or 3 sc=sc+2,4,6 or 8 } //else //line is neither good nor bad. } else //line is not valid total_score = total_score - 1; } return(total_score); } /******************************************************************************* $Function: check_line $Description: generates a random number to add on the field scores $Returns: random_score_result $Arguments: *******************************************************************************/ int random_scoring(void) { return(rand()%100); } #define MAX_TET_X 11 #define MAX_TET_Y 20 typedef struct { T_MMI_CONTROL mmi_control; // common control parameter T_MFW_HND win; T_MFW_HND hKbd; T_MFW_HND menu; T_MFW_HND parent_win; T_MFW_HND info_tim; int dropTime; int maxDropTime; int timeStep; int xPos; int yPos; int px; int py; int shapeId; char shapeStr[20]; int rotateId; int score; int level; int linesToGo; int resetSpeed; int gameOver; char tetrisScreen[MAX_TET_X][MAX_TET_Y]; } T_TETRIS; static MfwHnd TetrisCreate(MfwHnd hParentWin); static void TetrisExecCb (MfwHnd hWin, USHORT uiE, SHORT iValue, void *pParameter); static int TetrisKbdCb (MfwEvt uiE, MfwKbd *psK); static int tetris_tim_cb(MfwEvt e, MfwTim *t); static int TetrisWinCb (MfwEvt uiE, MfwWin *psWin); #define E_INIT 0x5000 #define E_EXIT 0x5001 void initTetGame(T_TETRIS *data) { int x,y; for (y=0;y<MAX_TET_Y;y++) { for (x=0;x<MAX_TET_X;x++) data->tetrisScreen[x][y]=' '; data->tetrisScreen[0][y]='#'; data->tetrisScreen[MAX_TET_X-1][y]='#'; } for (x=0;x<MAX_TET_X;x++) data->tetrisScreen[x][MAX_TET_Y-1]='#'; } #define MAX_SHAPE 7 void tetris_getShape(int shapeId, int rotate, char* shapeStr) { int j,k; int index; const char* tetShape[4*4*MAX_SHAPE] = { " ", " A ", " B ", " C ", " ", "F ", " G ", "EEEE", " AA ", " BB ", "CCC ", " DD ", "FFF ", "GGG ", " ", " A ", " B ", " ", " DD ", " ", " ", " ", " ", " ", " ", " ", " ", " ", " E ", " AA ", "BB ", " C ", " ", " FF ", " G ", " E ", "AA ", " BB ", " CC ", " DD ", " F ", " G ", " E ", " ", " ", " C ", " DD ", " F ", " GG ", " E ", " ", " ", " ", " ", " ", " ", " ", " A ", " B ", " ", " ", " ", " ", "EEEE", " AA ", " BB ", "CCC ", " DD ", "FFF ", "GGG ", " ", " A ", " B ", " C ", " DD ", " F ", "G ", " ", " ", " ", " ", " ", " ", " ", " E ", " AA ", "BB ", " C ", " ", " F ", "GG ", " E ", "AA ", " BB ", "CC ", " DD ", " F ", " G ", " E ", " ", " ", " C ", " DD ", "FF ", " G ", " E ", " ", " ", " ", " ", " ", " " }; for (k=0;k<4;k++) { index = rotate*4*MAX_SHAPE+k*MAX_SHAPE; for (j=0;j<4;j++) shapeStr[j+k*4] = tetShape[index+shapeId][j]; } } int tetris_getNextShapeId( void ) { static int shapeIndex = 0; shapeIndex = (shapeIndex+1) % MAX_SHAPE; return (shapeIndex); } void tetris_getNextShape(T_TETRIS *data) { data->shapeId = tetris_getNextShapeId( ); data->rotateId = 0; tetris_getShape(data->shapeId, data->rotateId, data->shapeStr); data->px = (MAX_TET_X-2)/2; data->py = 0; } void tetris_getNextLevel(T_TETRIS *data) { initTetGame(data); tetris_getNextShape(data); data->level = data->level+1; data->linesToGo = 5*(data->level+1); data->resetSpeed = 0; data->maxDropTime = (120-data->level*5); } void initTetrisData( T_TETRIS *data ) { data->level = 0; data->score = 0; data->gameOver = 0; tetris_getNextLevel(data); } void dspl_FillRect( int x1, int y1, int sx, int sy) { dspl_DrawFilledBgdRect(x1,y1,x1+sx,y1+sy); } void tetris_drawScreen( int allScreen, T_TETRIS *data) { int x1,y1,x2,y2; int bCol; int xOfs =5; int yOfs=10; int xOfs2=30; int yOfs2=10; int sx,sy; int px,py; // U32 oldfCol=0; // RAVI // U32 oldbCol=0; // RAVI int x = data->px; int y = data->py; // char dbg[80]; // RAVI #ifdef LSCREEN //Calculate size based on the screen properties sx = (SCREEN_SIZE_X-xOfs-xOfs2)/MAX_TET_X; sy = (SCREEN_SIZE_Y-yOfs-yOfs2-Mmi_layout_softkeyHeight())/MAX_TET_Y; #else //Screen is very small - ensure shapes are as large as possible sy = SCREEN_SIZE_Y/MAX_TET_Y; sx = SCREEN_SIZE_X/MAX_TET_X; if (sx >sy+1) sx = sy+1; xOfs = 5; xOfs2 = SCREEN_SIZE_X - (sx*MAX_TET_X+xOfs); yOfs = 0; yOfs2 = SCREEN_SIZE_Y - (sy*MAX_TET_Y+xOfs); #endif //allScreen= 1; resources_setColour(COLOUR_GAME); if (allScreen) { //redraw everything x1 = 0; y1 = 0; x2 = MAX_TET_X; y2 = MAX_TET_Y; } else //just draw+1 box around current man { x1 = x-1; y1 = y-1; x2 = x+5; y2 = y+4; if (x1<1)x1=1; if (y1<0)y1=0; if (x2>MAX_TET_X-1) x2=MAX_TET_X-1; if (y2>MAX_TET_Y-1) y2=MAX_TET_Y-1; } #ifndef COLOURDISPLAY dspl_Clear (xOfs+x1*sx,yOfs+y1*sy,xOfs+x2*sx-1,yOfs+y2*sy-1); #endif for (px = x1;px<x2;px++) { for (py = y1;py<y2;py++) { char boardChr = data->tetrisScreen[px][py]; if ((px >= x ) && (px < x+4) && (py >= y ) && (py < y+4)) { int shapeX,shapeY; shapeX = px-x; shapeY = py-y; if (data->shapeStr[shapeX+shapeY*4] != ' ') boardChr = data->shapeStr[shapeX+shapeY*4]; } #ifdef COLOURDISPLAY switch (boardChr) { case '#': bCol = 0x00FFFFFF; break; case ' ': bCol = 0x00404040; break; case 'A': bCol = 0x000000FF; break; case 'B': bCol = 0x0000FF00; break; case 'C': bCol = 0x00FF0000; break; case 'D': bCol = 0x0000FFFF; break; case 'E': bCol = 0x00FF00FF; break; case 'F': bCol = 0x00FFFF00; break; default: bCol = 0x00FFFFFF; break; } dspl_SetBgdColour(bCol); dspl_FillRect(xOfs+px*sx,yOfs+py*sy,sx,sy); // dspl_SetFgdColour(0x00802040); if (boardChr != ' ') dspl_DrawRect (xOfs+px*sx,yOfs+py*sy,xOfs+px*sx+sx-1,yOfs+py*sy+sy-1); #else if (boardChr != ' ') dspl_DrawRect (xOfs+px*sx,yOfs+py*sy,xOfs+px*sx+sx-1,yOfs+py*sy+sy-1); #endif } } if (data->gameOver) { int oldfCol = dspl_SetFgdColour(0x00FFFF00); dspl_SetBgdColour(0x008000FF); dspl_FillRect(xOfs+sx*3-5,yOfs+sy*3-5, xOfs+sx*3+5+6*4,yOfs+sy*3+5+18); dspl_TextOut(xOfs+sx*3,yOfs+sy*3, 0, "GAME"); dspl_TextOut(xOfs+sx*3,yOfs+sy*3+Mmi_layout_line_height()+4, 0, "OVER"); dspl_SetFgdColour(oldfCol); } resources_restoreColour(); } int tetris_addShapeToScreen(T_TETRIS *data) { int x,y; for (x=0;x<4;x++) for (y=0;y<4;y++) if (data->shapeStr[x+y*4] != ' ') { if (data->tetrisScreen[data->px+x][data->py+y]!= ' ') return(1); else data->tetrisScreen[data->px+x][data->py+y] = data->shapeStr[x+y*4]; } return(0); } int tetris_testForCompleteLines( T_TETRIS *data ) { int nLines=0; int x,y; int blanks; for (y=MAX_TET_Y-2;y>0;y--) { blanks = 0; for (x=1;x<MAX_TET_X-1;x++) { if (data->tetrisScreen[x][y] == ' ') blanks++; if (nLines >0) data->tetrisScreen[x][y+nLines] = data->tetrisScreen[x][y]; } if (blanks==0) nLines++; } return (nLines); } void tetris_testGameOver( T_TETRIS *data ) { int linesComplete; data->gameOver = tetris_addShapeToScreen(data); if (!data->gameOver) { linesComplete = tetris_testForCompleteLines(data); if (linesComplete >0) { data->score = data->score + linesComplete*linesComplete; data->linesToGo = data->linesToGo - linesComplete; if (data->linesToGo <0) tetris_getNextLevel(data); } tetris_getNextShape(data); } } void tetris_destroy (T_MFW_HND own_window) { T_MFW_WIN * win = ((T_MFW_HDR *)own_window)->data; T_TETRIS * data = (T_TETRIS *)win->user; TRACE_EVENT ("tetris_destroy()"); if (own_window == NULL) { TRACE_EVENT ("Error :- Called with NULL Pointer"); return; } if (data) { /* * Exit ICON & KEYBOARD Handle */ kbdDelete (data->hKbd); timDelete(data->info_tim); /* * Delete WIN Handler */ winDelete (data->win); /* * Free Memory */ FREE_MEMORY ((void *)data, sizeof (T_TETRIS)); } } int MmiTetrisStart(void ) { MfwHnd hWin; MfwHnd hParentWin = mfwParent(mfwHeader()); TRACE_FUNCTION ("TetrisStart()"); hWin = TetrisCreate (hParentWin); if (hWin NEQ NULL) { SEND_EVENT (hWin, E_INIT, NULL, NULL); } return 1; } void initTetrisData( T_TETRIS *data ); static MfwHnd TetrisCreate(MfwHnd hParentWin) { T_TETRIS *psData = (T_TETRIS *)ALLOC_MEMORY (sizeof( T_TETRIS)); MfwWin *psWin; MfwWinAttr *win_attr; TRACE_FUNCTION ("TetrisCreate()"); if (psData == NULL) { TRACE_EVENT ("ALLOC_MEMORY() failed"); return NULL; } win_attr = (MfwWinAttr *) ALLOC_MEMORY (sizeof(MfwWinAttr)); if (win_attr) { win_attr->win.px = 0; win_attr->win.py = 0; win_attr->win.sx = SCREEN_SIZE_X; win_attr->win.sy = SCREEN_SIZE_Y; } psData->win = winCreate (hParentWin, win_attr, E_WIN_VISIBLE, (T_MFW_CB)TetrisWinCb); if (psData->win == NULL) { mfwFree((U8*) win_attr, sizeof(MfwWinAttr)); FREE_MEMORY((void *)psData, sizeof (T_TETRIS)); return NULL; } psData->mmi_control.dialog = (T_DIALOG_FUNC)TetrisExecCb; psData->mmi_control.data = psData; psData->timeStep = 150; psData->maxDropTime = 120; psData->dropTime = psData->maxDropTime; psWin = ((MfwHdr *)psData->win)->data; psWin->user = (void *)psData; psData->parent_win = hParentWin; initTetrisData( psData ); return psData->win; } static int TetrisWinCb (MfwEvt uiE, MfwWin *psWin) { T_TETRIS *psData = (T_TETRIS *)psWin->user; TRACE_FUNCTION ("TetrisWinCb()"); switch (uiE) { case MfwWinVisible: dspl_ResetWindow(); dspl_SetBgdColour(0x000000FF); dspl_Clear(0,0,SCREEN_SIZE_X-1,SCREEN_SIZE_Y-1 ); tetris_drawScreen( 1, psData); break; case MfwWinFocussed: case MfwWinDelete: default: return MFW_EVENT_REJECTED; } TRACE_FUNCTION ("TetrisWinCb() - end"); return MFW_EVENT_CONSUMED; } static void TetrisExecCb (MfwHnd hWin, USHORT uiE, SHORT iValue, void *pParameter) { MfwWin *psWin = ((MfwHdr *) hWin)->data; T_TETRIS *psData = (T_TETRIS *)psWin->user; TRACE_FUNCTION ("TetrisExecCb()"); switch (uiE) { case E_INIT: psData->info_tim = timCreate(hWin, psData->timeStep, (MfwCb)tetris_tim_cb); psData->hKbd = kbdCreate(psData->win, KEY_ALL, (MfwCb)TetrisKbdCb); timStart(psData->info_tim); /* */ winShow(hWin); break; case E_EXIT: tetris_destroy(hWin); break; default: return; } return; } static int tetris_checkPos( T_TETRIS *data, int px, int py, char* shape) { int x,y; for (x=0;x<4;x++) for (y=0;y<4;y++) if (shape[x+y*4] != ' ') { if (data->tetrisScreen[px+x][py+y]!= ' ') return(1); } return(0); } static int tetris_moveDown(T_TETRIS *data,int *px, int *py) { int cannotMove; cannotMove = tetris_checkPos(data,*px,*py+1,data->shapeStr); if (cannotMove) return (1); else *py = *py+1; return (0); } static int tetris_moveLeft(T_TETRIS *data, int *px, int *py) { int cannotMove; cannotMove = tetris_checkPos(data,*px-1,*py,data->shapeStr); if (cannotMove) return (1); else *px = *px-1; return (0); } static int tetris_moveRight( T_TETRIS *data, int *px, int *py) { int cannotMove; cannotMove = tetris_checkPos(data,*px+1,*py,data->shapeStr); if (cannotMove) return (1); else *px = *px+1; return (0); } static int tetris_rotateLeft( T_TETRIS *data, int *px, int *py ) { int i; int cannotMove; char tmpShape[20]; tetris_getShape(data->shapeId,(data->rotateId+1)%4,tmpShape); cannotMove = tetris_checkPos(data,*px,*py,tmpShape); if (cannotMove) return (1); for (i=0;i<16;i++) data->shapeStr[i] = tmpShape[i]; data->rotateId = (data->rotateId+1)%4; return (0); } static int tetris_rotateRight( T_TETRIS *data, int *px, int *py ) { int i; int cannotMove; char tmpShape[20]; tetris_getShape(data->shapeId,(data->rotateId+3)%4,tmpShape); cannotMove = tetris_checkPos(data,*px,*py,tmpShape); if (cannotMove) return (1); for (i=0;i<16;i++) data->shapeStr[i] = tmpShape[i]; data->rotateId = (data->rotateId+3)%4; return (0); } #define KEY_TET_MOVELEFT KCD_1 #define KEY_TET_MOVERIGHT KCD_3 #define KEY_TET_ROTATELEFT KCD_4 #define KEY_TET_ROTATERIGHT KCD_6 #define KEY_TET_DROPALL KCD_5 #define KEY_TET_DROP KCD_2 static int TetrisKbdCb (MfwEvt uiE, MfwKbd *psK) { MfwHnd hWin = mfwParent(mfwHeader()); MfwWin *psWin = ((MfwHdr *)hWin)->data; T_TETRIS *psData = (T_TETRIS *)psWin->user; int cannotMove=0; TRACE_FUNCTION ("TetrisKbdCb()"); /***************************Go-lite Optimization changes Start***********************/ // Aug 16, 2004 REF: CRR 24323 Deepa M.D TRACE_EVENT_P1 ("Code : %d",(int)psK->code); /***************************Go-lite Optimization changes Start***********************/ switch(psK->code ) { case KEY_TET_MOVELEFT: case KCD_MNULEFT: tetris_moveLeft(psData,&psData->px,&psData->py); break; case KEY_TET_MOVERIGHT: case KCD_MNURIGHT: tetris_moveRight(psData,&psData->px,&psData->py); break; case KEY_TET_ROTATELEFT: tetris_rotateLeft(psData,&psData->px,&psData->py); break; case KCD_MNUSELECT: case KEY_TET_ROTATERIGHT: tetris_rotateRight(psData,&psData->px,&psData->py); break; case KEY_TET_DROP: cannotMove = tetris_moveDown(psData,&psData->px,&psData->py); if (cannotMove) tetris_testGameOver( psData ); break; case KEY_TET_DROPALL: while(tetris_moveDown(psData,&psData->px,&psData->py) ==0) { //loop until we hit the bottom } cannotMove = 1; tetris_testGameOver( psData ); break; case KCD_RIGHT: SEND_EVENT (hWin, E_EXIT, 0, 0); return MFW_EVENT_CONSUMED; default: return MFW_EVENT_CONSUMED; } tetris_drawScreen(cannotMove, psData); TRACE_FUNCTION ("TetrisKbdCb()-end"); return MFW_EVENT_CONSUMED; } static int tetris_tim_cb(MfwEvt e, MfwTim *t) { T_MFW_HND win = mfw_parent (mfw_header()); T_MFW_WIN * win_data = ((T_MFW_HDR *)win)->data; T_TETRIS * data = (T_TETRIS *)win_data->user; static int nCycles = 0; int cannotMove; char bfr[80]; nCycles = nCycles+ data->timeStep; if (nCycles > 1000) { nCycles = nCycles - 1000; data->maxDropTime = data->maxDropTime-1; } TRACE_EVENT("tetris_tim_cb"); data->dropTime = data->dropTime - data->timeStep; if (data->dropTime < 0) { if (data->maxDropTime > 90) data->dropTime = data->dropTime+75*10; else if (data->maxDropTime > 60) data->dropTime = data->dropTime+(60+(data->maxDropTime-60)/2)*10; else if (data->maxDropTime > 30) data->dropTime = data->dropTime+data->maxDropTime*10; else data->dropTime = data->dropTime+(data->maxDropTime+90)/4*10; if (data->dropTime < data->timeStep) data->dropTime = data->timeStep; else if (data->dropTime < data->timeStep) data->dropTime = data->timeStep; resources_setColour(COLOUR_GAME); sprintf(bfr,"%d ",data->score); dspl_TextOut(SCREEN_SIZE_X-30 ,10, 0, bfr); sprintf(bfr,"%d ",data->linesToGo); dspl_TextOut(SCREEN_SIZE_X-30 ,12+Mmi_layout_line_height(), 0, bfr); resources_restoreColour(); cannotMove = tetris_moveDown(data,&data->px,&data->py); tetris_getNextShapeId( );//To randomize it if (cannotMove) { tetris_testGameOver( data ); } tetris_drawScreen(cannotMove, data); } timStart(data->info_tim); TRACE_EVENT("tetris_tim_cb-end"); return 1; } T_MFW_HND Game_Info(T_MFW_HND parent_window) { T_MFW_HND win = ShowGame_Information(parent_window); TRACE_FUNCTION("ShowVerion()"); if (win NEQ NULL) { SEND_EVENT (win, SHOWGAMEINFO_INIT, 0, 0); } return win; } static T_MFW_HND ShowGame_Information(MfwHnd parent_window) { tShowInfo* data = (tShowInfo*)ALLOC_MEMORY (sizeof (tShowInfo)); T_MFW_WIN* win; if (data EQ NULL) { return NULL; } // Create the window handler data->win = win_create (parent_window, 0, E_WIN_VISIBLE, NULL); if (data->win EQ NULL) { return NULL; } // connect the dialog data to the MFW window data->mmi_control.dialog = (T_DIALOG_FUNC)ShowGame_DialogCB; data->mmi_control.data = data; win = ((T_MFW_HDR *)data->win)->data; win->user = (void *)data; data->parent_win = parent_window; return data->win; } static void ShowGame_DialogCB(T_MFW_HND win, USHORT e, SHORT identifier, void *parameter) { T_MFW_WIN *win_data = ((T_MFW_HDR *) win)->data; tShowInfo* data = (tShowInfo*) win_data->user; /* SPR#1428 - SH - New editor data */ #ifdef NEW_EDITOR // T_AUI_EDITOR_DATA editor_data; // RAVI #else /* NEW_EDITOR */ // T_EDITOR_DATA editor_data; // RAVI #endif /* NEW_EDITOR */ switch (e) { case SHOWGAMEINFO_INIT: { strcat(data->buffer, info); ShowGameInfoEditor(win); /* SPR#1428 - SH - New editor changes */ #ifdef NEW_EDITOR data->editor_data.Callback = (T_AUI_EDIT_CB)ShowInfoCB; AUI_edit_Start(win, &(data->editor_data)); #else /* NEW_EDITOR */ data->editor_data.Callback = (T_EDIT_CB)ShowInfoCB; editor_start(win, &(data->editor_data)); #endif /* NEW_EDITOR */ winShow(data->win); } break; default: { TRACE_EVENT("Show Game Info : Unknown Event"); } break; } } void ShowGameInfoEditor (T_MFW_HND win) { T_MFW_WIN *win_data = ((T_MFW_HDR *) win)->data; tShowInfo* data = (tShowInfo*) win_data->user; /* SPR#1428 - SH - New editor changes */ #ifdef NEW_EDITOR AUI_edit_SetDefault(&data->editor_data); AUI_edit_SetDisplay(&data->editor_data, NULL, COLOUR_EDITOR, EDITOR_FONT); AUI_edit_SetTextStr(&data->editor_data, TxtSoftBack, TxtNull, TxtNull, NULL); AUI_edit_SetEvents(&data->editor_data, 0, TRUE, FOREVER, NULL); AUI_edit_SetBuffer(&data->editor_data, ATB_DCS_ASCII, (UBYTE *)data->buffer, 35); AUI_edit_SetMode(&data->editor_data, ED_MODE_READONLY, ED_CURSOR_NONE); #else /* NEW_EDITOR */ editor_attr_init(&((data->editor_data).editor_attr), NULL, edtCurNone, 0, (char*)data->buffer, 35, COLOUR_EDITOR); editor_data_init(&data->editor_data, NULL, TxtSoftBack, TxtNull, 0, 1, READ_ONLY_MODE, FOREVER); data->editor_data.hide = FALSE; data->editor_data.Identifier = 0; data->editor_data.TextString = NULL; data->editor_data.destroyEditor = TRUE; #endif /* NEW_EDITOR */ } static void ShowInfoCB( T_MFW_HND win, USHORT Identifier,UBYTE reason) { T_MFW_WIN *win_data = ( (T_MFW_HDR *) win )->data; tShowInfo*data = (tShowInfo*) win_data->user; TRACE_FUNCTION("ShowVerionCB()"); switch (reason ) { case INFO_KCD_LEFT: case INFO_KCD_HUP: case INFO_KCD_RIGHT: default: showGameInfo_destroy(data->win); break; } } /******************************************************************************* $Function: showVersion_destroy $Description: Destroys the editor $Returns: $Arguments: *******************************************************************************/ void showGameInfo_destroy(MfwHnd own_window) { T_MFW_WIN * win_data; tShowInfo* data = NULL; if (own_window == NULL) { TRACE_EVENT ("Error : showGameInfo_destroy called with NULL Pointer"); return; } win_data = ((T_MFW_HDR *)own_window)->data; if (win_data != NULL) data = (tShowInfo*)win_data->user; if (data) { TRACE_EVENT ("calc_destroy()"); win_delete (data->win); // Free Memory FREE_MEMORY ((void *)data, sizeof (tShowInfo)); } else { TRACE_EVENT ("calc_destroy() called twice"); } } #endif