X-Git-Url: https://git.artsoft.org/?p=rocksndiamonds.git;a=blobdiff_plain;f=src%2Fgame_mm%2Fmm_game.c;h=7d22eb30013d94876aed548f120b7846243f9270;hp=3fcc8f8be68cc9190b133dfcdd8c202514a43d95;hb=14801844faf14be284c590b66f030c6bf7cea5c2;hpb=471051c626d95bc35e2272c6f9c67bc32c8bf830 diff --git a/src/game_mm/mm_game.c b/src/game_mm/mm_game.c index 3fcc8f8b..7d22eb30 100644 --- a/src/game_mm/mm_game.c +++ b/src/game_mm/mm_game.c @@ -744,19 +744,25 @@ void InitGameActions_MM() if (game_mm.kettles_still_needed == 0) CheckExitMM(); + + SetTileCursorXY(laser.start_edge.x, laser.start_edge.y); + SetTileCursorActive(TRUE); } void AddLaserEdge(int lx, int ly) { - if (lx < -2 || ly < -2 || lx >= SXSIZE + 2 || ly >= SYSIZE + 2) + int clx = dSX + lx; + int cly = dSY + ly; + + if (clx < -2 || cly < -2 || clx >= SXSIZE + 2 || cly >= SYSIZE + 2) { Error(ERR_WARN, "AddLaserEdge: out of bounds: %d, %d", lx, ly); return; } - laser.edge[laser.num_edges].x = SX + 2 + lx; - laser.edge[laser.num_edges].y = SY + 2 + ly; + laser.edge[laser.num_edges].x = cSX2 + lx; + laser.edge[laser.num_edges].y = cSY2 + ly; laser.num_edges++; laser.redraw = TRUE; @@ -778,8 +784,8 @@ boolean StepBehind() { int x = LX - XS; int y = LY - YS; - int last_x = laser.edge[laser.num_edges - 1].x - SX - 2; - int last_y = laser.edge[laser.num_edges - 1].y - SY - 2; + int last_x = laser.edge[laser.num_edges - 1].x - cSX2; + int last_y = laser.edge[laser.num_edges - 1].y - cSY2; return ((x - last_x) * XS < 0 || (y - last_y) * YS < 0); } @@ -857,8 +863,8 @@ int ScanPixel() } else { - pixel = (SX + px < REAL_SX || SX + px >= REAL_SX + FULL_SXSIZE || - SY + py < REAL_SY || SY + py >= REAL_SY + FULL_SYSIZE); + pixel = (cSX + px < REAL_SX || cSX + px >= REAL_SX + FULL_SXSIZE || + cSY + py < REAL_SY || cSY + py >= REAL_SY + FULL_SYSIZE); } if ((Sign[laser.current_angle] & (1 << i)) && pixel) @@ -1188,8 +1194,8 @@ void DrawLaserExt(int start_edge, int num_edges, int mode) if (start_edge == 0) laser.current_angle = laser.start_angle; - LX = laser.edge[start_edge].x - (SX + 2); - LY = laser.edge[start_edge].y - (SY + 2); + LX = laser.edge[start_edge].x - cSX2; + LY = laser.edge[start_edge].y - cSY2; XS = 2 * Step[laser.current_angle].x; YS = 2 * Step[laser.current_angle].y; @@ -1538,6 +1544,8 @@ boolean HitElement(int element, int hit_mask) if (game_mm.kettles_still_needed > 0) game_mm.kettles_still_needed--; + game.snapshot.collected_item = TRUE; + if (game_mm.kettles_still_needed == 0) { CheckExitMM(); @@ -1965,8 +1973,12 @@ boolean HitLaserDestination(int element, int hit_mask) AddDamagedField(ELX, ELY); if (game_mm.lights_still_needed == 0) + { game_mm.level_solved = TRUE; + SetTileCursorActive(FALSE); + } + return TRUE; } @@ -2320,7 +2332,7 @@ void OpenSurpriseBall(int x, int y) getGraphicSource(graphic, 0, &bitmap, &gx, &gy); BlitBitmap(bitmap, drawto, gx + dx, gy + dy, 6, 6, - SX + x * TILEX + dx, SY + y * TILEY + dy); + cSX + x * TILEX + dx, cSY + y * TILEY + dy); MarkTileDirty(x, y); } @@ -2474,11 +2486,15 @@ static void Explode_MM(int x, int y, int phase, int mode) game_mm.game_over = TRUE; game_mm.game_over_cause = GAME_OVER_BOMB; + SetTileCursorActive(FALSE); + laser.overloaded = FALSE; } else if (IS_MCDUFFIN(Store[x][y])) { Store[x][y] = EL_EMPTY; + + game.restart_game_message = "Bomb killed Mc Duffin ! Play it again ?"; } Feld[x][y] = Store[x][y]; @@ -2527,7 +2543,7 @@ static void Explode_MM(int x, int y, int phase, int mode) getGraphicSource(graphic, graphic_phase, &bitmap, &src_x, &src_y); BlitBitmap(bitmap, drawto_field, src_x, src_y, TILEX, TILEY, - FX + x * TILEX, FY + y * TILEY); + cFX + x * TILEX, cFY + y * TILEY); MarkTileDirty(x, y); } @@ -2722,11 +2738,12 @@ static void ContinueMoving_MM(int x, int y) laser.redraw = TRUE; } -void ClickElement(int x, int y, int button) +boolean ClickElement(int x, int y, int button) { static unsigned int click_delay = 0; static int click_delay_value = CLICK_DELAY; static boolean new_button = TRUE; + boolean element_clicked = FALSE; int element; if (button == -1) @@ -2736,12 +2753,12 @@ void ClickElement(int x, int y, int button) click_delay_value = CLICK_DELAY; new_button = TRUE; - return; + return FALSE; } /* do not rotate objects hit by the laser after the game was solved */ if (game_mm.level_solved && Hit[x][y]) - return; + return FALSE; if (button == MB_RELEASED) { @@ -2751,20 +2768,20 @@ void ClickElement(int x, int y, int button) /* release eventually hold auto-rotating mirror */ RotateMirror(x, y, MB_RELEASED); - return; + return FALSE; } if (!FrameReached(&click_delay, click_delay_value) && !new_button) - return; + return FALSE; if (button == MB_MIDDLEBUTTON) /* middle button has no function */ - return; + return FALSE; if (!IN_LEV_FIELD(x, y)) - return; + return FALSE; if (Feld[x][y] == EL_EMPTY) - return; + return FALSE; element = Feld[x][y]; @@ -2776,6 +2793,8 @@ void ClickElement(int x, int y, int button) IS_DF_MIRROR_AUTO(element)) { RotateMirror(x, y, button); + + element_clicked = TRUE; } else if (IS_MCDUFFIN(element)) { @@ -2802,17 +2821,21 @@ void ClickElement(int x, int y, int button) if (!laser.fuse_off) ScanLaser(); + + element_clicked = TRUE; } else if (element == EL_FUSE_ON && laser.fuse_off) { if (x != laser.fuse_x || y != laser.fuse_y) - return; + return FALSE; laser.fuse_off = FALSE; laser.fuse_x = laser.fuse_y = -1; DrawGraphic_MM(x, y, IMG_MM_FUSE_ACTIVE); ScanLaser(); + + element_clicked = TRUE; } else if (element == EL_FUSE_ON && !laser.fuse_off && new_button) { @@ -2823,16 +2846,22 @@ void ClickElement(int x, int y, int button) DrawLaser(0, DL_LASER_DISABLED); DrawGraphic_MM(x, y, IMG_MM_FUSE); + + element_clicked = TRUE; } else if (element == EL_LIGHTBALL) { Bang_MM(x, y); RaiseScoreElement_MM(element); DrawLaser(0, DL_LASER_ENABLED); + + element_clicked = TRUE; } click_delay_value = (new_button ? CLICK_DELAY_FIRST : CLICK_DELAY); new_button = FALSE; + + return element_clicked; } void RotateMirror(int x, int y, int button) @@ -2965,24 +2994,24 @@ boolean ObjHit(int obx, int oby, int bits) if (bits & HIT_POS_CENTER) { - if (CheckLaserPixel(SX + obx + 15, - SY + oby + 15)) + if (CheckLaserPixel(cSX + obx + 15, + cSY + oby + 15)) return TRUE; } if (bits & HIT_POS_EDGE) { for (i = 0; i < 4; i++) - if (CheckLaserPixel(SX + obx + 31 * (i % 2), - SY + oby + 31 * (i / 2))) + if (CheckLaserPixel(cSX + obx + 31 * (i % 2), + cSY + oby + 31 * (i / 2))) return TRUE; } if (bits & HIT_POS_BETWEEN) { for (i = 0; i < 4; i++) - if (CheckLaserPixel(SX + 4 + obx + 22 * (i % 2), - SY + 4 + oby + 22 * (i / 2))) + if (CheckLaserPixel(cSX + 4 + obx + 22 * (i % 2), + cSY + 4 + oby + 22 * (i / 2))) return TRUE; } @@ -3155,6 +3184,10 @@ static void GameActions_MM_Ext(struct MouseActionInfo action, boolean warp_mode) game_mm.game_over = TRUE; game_mm.game_over_cause = GAME_OVER_NO_ENERGY; + SetTileCursorActive(FALSE); + + game.restart_game_message = "Out of magic energy ! Play it again ?"; + #if 0 if (Request("Out of magic energy ! Play it again ?", REQ_ASK | REQ_STAY_CLOSED)) @@ -3285,6 +3318,10 @@ static void GameActions_MM_Ext(struct MouseActionInfo action, boolean warp_mode) game_mm.game_over = TRUE; game_mm.game_over_cause = GAME_OVER_OVERLOADED; + SetTileCursorActive(FALSE); + + game.restart_game_message = "Magic spell hit Mc Duffin ! Play it again ?"; + #if 0 if (Request("Magic spell hit Mc Duffin ! Play it again ?", REQ_ASK | REQ_STAY_CLOSED)) @@ -3508,8 +3545,8 @@ static void GameActions_MM_Ext(struct MouseActionInfo action, boolean warp_mode) /* laser.num_edges--; - LX = laser.edge[laser.num_edges].x - (SX + 2); - LY = laser.edge[laser.num_edges].y - (SY + 2); + LX = laser.edge[laser.num_edges].x - cSX2; + LY = laser.edge[laser.num_edges].y - cSY2; */ for (i = (laser.num_damages > 0 ? laser.num_damages - 1 : 0); i >= 0; i--) @@ -3562,12 +3599,12 @@ static void GameActions_MM_Ext(struct MouseActionInfo action, boolean warp_mode) { if (laser.wall_mask & (1 << i)) { - if (CheckLaserPixel(SX + ELX * TILEX + 14 + (i % 2) * 2, - SY + ELY * TILEY + 31 * (i / 2))) + if (CheckLaserPixel(cSX + ELX * TILEX + 14 + (i % 2) * 2, + cSY + ELY * TILEY + 31 * (i / 2))) break; - if (CheckLaserPixel(SX + ELX * TILEX + 31 * (i % 2), - SY + ELY * TILEY + 14 + (i / 2) * 2)) + if (CheckLaserPixel(cSX + ELX * TILEX + 31 * (i % 2), + cSY + ELY * TILEY + 14 + (i / 2) * 2)) break; } } @@ -3578,8 +3615,8 @@ static void GameActions_MM_Ext(struct MouseActionInfo action, boolean warp_mode) { if (laser.wall_mask & (1 << i)) { - if (CheckLaserPixel(SX + ELX * TILEX + 31 * (i % 2), - SY + ELY * TILEY + 31 * (i / 2))) + if (CheckLaserPixel(cSX + ELX * TILEX + 31 * (i % 2), + cSY + ELY * TILEY + 31 * (i / 2))) break; } } @@ -3588,8 +3625,8 @@ static void GameActions_MM_Ext(struct MouseActionInfo action, boolean warp_mode) if (laser.num_beamers > 0 || k1 < 1 || k2 < 4 || k3 < 4 || - CheckLaserPixel(SX + ELX * TILEX + 14, - SY + ELY * TILEY + 14)) + CheckLaserPixel(cSX + ELX * TILEX + 14, + cSY + ELY * TILEY + 14)) { laser.num_edges = r; laser.num_damages = d; @@ -3731,9 +3768,12 @@ static void GameActions_MM_Ext(struct MouseActionInfo action, boolean warp_mode) void GameActions_MM(struct MouseActionInfo action, boolean warp_mode) { - ClickElement(action.lx, action.ly, action.button); + boolean element_clicked = ClickElement(action.lx, action.ly, action.button); + boolean button_released = (action.button == MB_RELEASED); GameActions_MM_Ext(action, warp_mode); + + CheckSingleStepMode_MM(element_clicked, button_released); } void MovePacMen() @@ -3801,8 +3841,8 @@ void MovePacMen() getGraphicSource(graphic, 0, &bitmap, &src_x, &src_y); CT = FrameCounter; - ox = SX + ox * TILEX; - oy = SY + oy * TILEY; + ox = cSX + ox * TILEX; + oy = cSY + oy * TILEY; for (i = 1; i < 33; i += 2) BlitBitmap(bitmap, window, @@ -4286,24 +4326,26 @@ void LoadEngineSnapshotValues_MM() RedrawPlayfield_MM(TRUE); } -static int getAngleFromTouchDelta(int dx, int dy) +static int getAngleFromTouchDelta(int dx, int dy, int base) { double pi = 3.141592653; double rad = atan2((double)-dy, (double)dx); double rad2 = (rad < 0 ? rad + 2 * pi : rad); double deg = rad2 * 180.0 / pi; - return (int)(deg * 16.0 / 360.0 + 0.5) % 16; + return (int)(deg * base / 360.0 + 0.5) % base; } int getButtonFromTouchPosition(int x, int y, int dst_mx, int dst_my) { // calculate start (source) position to be at the middle of the tile - int src_mx = SX + x * TILESIZE_VAR + TILESIZE_VAR / 2; - int src_my = SY + y * TILESIZE_VAR + TILESIZE_VAR / 2; + int src_mx = cSX + x * TILESIZE_VAR + TILESIZE_VAR / 2; + int src_my = cSY + y * TILESIZE_VAR + TILESIZE_VAR / 2; int dx = dst_mx - src_mx; int dy = dst_my - src_my; int element; + int base = 16; + int phases = 16; int angle_old = -1; int angle_new = -1; int button = 0; @@ -4315,26 +4357,25 @@ int getButtonFromTouchPosition(int x, int y, int dst_mx, int dst_my) element = Feld[x][y]; if (!IS_MCDUFFIN(element) && - !IS_LASER(element) && !IS_MIRROR(element) && !IS_BEAMER(element) && !IS_POLAR(element) && !IS_POLAR_CROSS(element) && - !IS_DF_MIRROR(element) && - !IS_DF_MIRROR_AUTO(element)) + !IS_DF_MIRROR(element)) return 0; - if (IS_MCDUFFIN(element) || - IS_LASER(element)) + angle_old = get_element_angle(element); + + if (IS_MCDUFFIN(element)) { - angle_old = laser.start_angle; angle_new = (dx > 0 && ABS(dy) < ABS(dx) ? ANG_RAY_RIGHT : dy < 0 && ABS(dx) < ABS(dy) ? ANG_RAY_UP : dx < 0 && ABS(dy) < ABS(dx) ? ANG_RAY_LEFT : dy > 0 && ABS(dx) < ABS(dy) ? ANG_RAY_DOWN : -1); } - else + else if (IS_MIRROR(element) || + IS_DF_MIRROR(element)) { for (i = 0; i < laser.num_damages; i++) { @@ -4342,22 +4383,30 @@ int getButtonFromTouchPosition(int x, int y, int dst_mx, int dst_my) laser.damage[i].y == y && ObjHit(x, y, HIT_POS_CENTER)) { - angle_old = laser.damage[i].angle; + angle_old = get_mirrored_angle(laser.damage[i].angle, angle_old); + angle_new = getAngleFromTouchDelta(dx, dy, base) % phases; break; } } + } + + if (angle_new == -1) + { + if (IS_MIRROR(element) || + IS_DF_MIRROR(element) || + IS_POLAR(element)) + base = 32; - if (angle_old == -1) - return 0; + if (IS_POLAR_CROSS(element)) + phases = 4; - angle_old = get_mirrored_angle(angle_old, get_element_angle(element)); - angle_new = getAngleFromTouchDelta(dx, dy); + angle_new = getAngleFromTouchDelta(dx, dy, base) % phases; } button = (angle_new == angle_old ? 0 : - (angle_new - angle_old + 16) % 16 < 8 ? MB_LEFTBUTTON : - MB_RIGHTBUTTON); + (angle_new - angle_old + phases) % phases < (phases / 2) ? + MB_LEFTBUTTON : MB_RIGHTBUTTON); return button; }