// license:BSD-3-Clause // copyright-holders:Bryan McPhail /*************************************************************************** Emulation by Bryan McPhail, mish@tendril.co.uk Like NeoGeo sprite scale Y line selection is from an external rom. For 16 high sprites scale data starts at 0x3800 (9 scale levels) For 32 high sprites scale data starts at 0x7000 (17 scale levels) For 64 high sprites scale data starts at 0xa000 (33 scale levels) For 128 pixel high sprites scale data starts 0xc000 (65 scale levels) 0xe000 and up - possibly X scale data? unconfirmed Sprites are also double buffered, and this seems to be performed by having two complete sprite chips that are toggled per frame, rather than just ram. Beast Busters has 4 sprite chips as it has two sprite banks. ***************************************************************************/ #include "emu.h" #include "includes/bbusters.h" /******************************************************************************/ TILE_GET_INFO_MEMBER(bbusters_state_base::get_tile_info) { uint16_t tile = m_videoram[tile_index]; SET_TILE_INFO_MEMBER(0,tile&0xfff,tile>>12,0); } template TILE_GET_INFO_MEMBER(bbusters_state_base::get_pf_tile_info) { uint16_t tile = m_pf_data[Layer][tile_index]; SET_TILE_INFO_MEMBER(Gfx,tile&0xfff,tile>>12,0); } WRITE16_MEMBER(bbusters_state_base::video_w) { COMBINE_DATA(&m_videoram[offset]); m_fix_tilemap->mark_tile_dirty(offset); } /******************************************************************************/ void bbusters_state_base::video_start() { m_fix_tilemap = &machine().tilemap().create(*m_gfxdecode, tilemap_get_info_delegate(*this, FUNC(bbusters_state_base::get_tile_info)), TILEMAP_SCAN_ROWS, 8, 8, 32, 32); m_fix_tilemap->set_transparent_pen(15); save_item(NAME(m_scale_line_count)); } void bbusters_state::video_start() { bbusters_state_base::video_start(); m_pf_tilemap[0] = &machine().tilemap().create(*m_gfxdecode, tilemap_get_info_delegate(*this, NAME((&bbusters_state::get_pf_tile_info<0,3>))), TILEMAP_SCAN_COLS, 16, 16, 128, 32); m_pf_tilemap[1] = &machine().tilemap().create(*m_gfxdecode, tilemap_get_info_delegate(*this, NAME((&bbusters_state::get_pf_tile_info<1,4>))), TILEMAP_SCAN_COLS, 16, 16, 128, 32); m_pf_tilemap[0]->set_transparent_pen(15); } void mechatt_state::video_start() { bbusters_state_base::video_start(); m_pf_tilemap[0] = &machine().tilemap().create(*m_gfxdecode, tilemap_get_info_delegate(*this, NAME((&mechatt_state::get_pf_tile_info<0,2>))), TILEMAP_SCAN_COLS, 16, 16, 256, 32); m_pf_tilemap[1] = &machine().tilemap().create(*m_gfxdecode, tilemap_get_info_delegate(*this, NAME((&mechatt_state::get_pf_tile_info<1,3>))), TILEMAP_SCAN_COLS, 16, 16, 256, 32); m_pf_tilemap[0]->set_transparent_pen(15); } /******************************************************************************/ #define ADJUST_4x4 \ if ((dx&0x10) && (dy&0x10)) code+=3; \ else if (dy&0x10) code+=2; \ else if (dx&0x10) code+=1 #define ADJUST_8x8 \ if ((dx&0x20) && (dy&0x20)) code+=12; \ else if (dy&0x20) code+=8; \ else if (dx&0x20) code+=4 #define ADJUST_16x16 \ if ((dx&0x40) && (dy&0x40)) code+=48; \ else if (dy&0x40) code+=32; \ else if (dx&0x40) code+=16 inline const uint8_t *bbusters_state_base::get_source_ptr(gfx_element *gfx, uint32_t sprite, int dx, int dy, int block) { int code=0; /* Get a tile index from the x,y position in the block */ switch (block) { case 0: /* 16 x 16 sprite */ break; case 1: /* 32 x 32 block 0 1 2 3 */ ADJUST_4x4; break; case 2: /* 64 by 64 block 0 1 4 5 2 3 6 7 8 9 12 13 10 11 14 15 */ ADJUST_4x4; ADJUST_8x8; break; case 3: /* 128 by 128 block */ ADJUST_4x4; ADJUST_8x8; ADJUST_16x16; break; } return gfx->get_data((sprite+code) % gfx->elements()) + ((dy%16) * gfx->rowbytes()); } void bbusters_state_base::draw_block(screen_device &screen, bitmap_ind16 &dest,int x,int y,int size,int flipx,int flipy,uint32_t sprite,int color,int bank,int block,int priority) { gfx_element *gfx = m_gfxdecode->gfx(bank); pen_t pen_base = gfx->colorbase() + gfx->granularity() * (color % gfx->colors()); uint32_t xinc=(m_scale_line_count * 0x10000 ) / size; uint8_t pixel; int x_index; int dy=y; int sx, ex = m_scale_line_count; while (m_scale_line_count) { if (dy>=16 && dy<240) { uint16_t *destline = &dest.pix16(dy); uint8_t *priorityline = &screen.priority().pix8(dy); uint8_t srcline=*m_scale_table_ptr; const uint8_t *srcptr=nullptr; if (!flipy) srcline=size-srcline-1; if (flipx) x_index=(ex-1)*0x10000; else x_index=0; for (sx=0; sx priorityline[(x+(x_index>>16)) & 0x1ff]) { priorityline[(x+(x_index>>16)) & 0x1ff] = priority; destline[(x+(x_index>>16)) & 0x1ff]= pen_base + pixel; } if (flipx) x_index-=xinc; else x_index+=xinc; } } dy++; m_scale_table_ptr--; m_scale_line_count--; } } void bbusters_state_base::draw_sprites(screen_device &screen, bitmap_ind16 &bitmap, const uint16_t *source, int bank) { int offs; // Sprites are stored in memory in back to front order. // We draw them here front to back with a priority buffer in case any sprite // with priority under a tilemap is later in the list than a sprite with // above tilemap priority (which would cause a cut-out as only the top-most sprite // in the line buffer goes to the priority mixer) for (offs = 0x7fc;offs >=0 ;offs -= 4) { int x,sprite,colour,fx,fy,scale; int16_t y; int block; int priority; sprite=source[offs+1]; colour=source[offs+0]; if ((colour==0xf7 || colour==0xffff || colour == 0x43f9) && (sprite==0x3fff || sprite==0xffff || sprite==0x0001)) continue; // sprite 1, color 0x43f9 is the dead sprite in the top-right of the screen in Mechanized Attack's High Score table. y=source[offs+3]; x=source[offs+2]; if (x&0x200) x=-(0x100-(x&0xff)); if (y > 320 || y < -256) y &= 0x1ff; // fix for bbusters ending & "Zing!" attract-mode fullscreen zombie & Helicopter on the 3rd rotation of the attractmode sequence /* Source[0]: 0xf000: Colour 0x0800: FX 0x0400: FY? 0x0300: Block control 0x0080: ? 0x007f: scale Scale varies according to block size. Block type 0: 0x70 = no scale, 0x7f == half size - 16 pixel sprite Block type 1: 0x60 = no scale, 0x6f == half size - 32 pixel sprite Block type 2: 0x40 = no scale, 0x5f == half size - 64 pixel sprite Block type 3: 0x00 = no scale, 0x3f == half size - 128 pixel sprite */ colour=colour>>12; block=(source[offs+0]>>8)&0x3; fy=source[offs+0]&0x400; fx=source[offs+0]&0x800; sprite=sprite&0x3fff; // Palettes 0xc-0xf confirmed to be behind tilemap on Beast Busters for 2nd sprite chip priority = (bank==2) ? (((colour&0xc)==0xc) ? 1 : 4) : 8; switch ((source[offs+0]>>8)&0x3) { case 0: scale=source[offs+0]&0x7; m_scale_table_ptr = m_scale_table+0x387f+(0x80*scale); m_scale_line_count = 0x10-scale; draw_block(screen,bitmap,x,y,16,fx,fy,sprite,colour,bank,block,priority); break; case 1: /* 2 x 2 */ scale=source[offs+0]&0xf; m_scale_table_ptr = m_scale_table+0x707f+(0x80*scale); m_scale_line_count = 0x20-scale; draw_block(screen,bitmap,x,y,32,fx,fy,sprite,colour,bank,block,priority); break; case 2: /* 64 by 64 block (2 x 2) x 2 */ scale=source[offs+0]&0x1f; m_scale_table_ptr = m_scale_table+0xa07f+(0x80*scale); m_scale_line_count = 0x40-scale; draw_block(screen,bitmap,x,y,64,fx,fy,sprite,colour,bank,block,priority); break; case 3: /* 2 x 2 x 2 x 2 */ scale=source[offs+0]&0x3f; m_scale_table_ptr = m_scale_table+0xc07f+(0x80*scale); m_scale_line_count = 0x80-scale; draw_block(screen,bitmap,x,y,128,fx,fy,sprite,colour,bank,block,priority); break; } } } /******************************************************************************/ uint32_t bbusters_state::screen_update(screen_device &screen, bitmap_ind16 &bitmap, const rectangle &cliprect) { screen.priority().fill(0, cliprect); m_pf_tilemap[0]->set_scrollx(0, m_pf_scroll_data[0][0]); m_pf_tilemap[0]->set_scrolly(0, m_pf_scroll_data[0][1]); m_pf_tilemap[1]->set_scrollx(0, m_pf_scroll_data[1][0]); m_pf_tilemap[1]->set_scrolly(0, m_pf_scroll_data[1][1]); m_pf_tilemap[1]->draw(screen, bitmap, cliprect, 0, 0); m_pf_tilemap[0]->draw(screen, bitmap, cliprect, 0, 2); draw_sprites(screen, bitmap, m_spriteram[1]->buffer(), 2); draw_sprites(screen, bitmap, m_spriteram[0]->buffer(), 1); m_fix_tilemap->draw(screen, bitmap, cliprect, 0, 0); return 0; } uint32_t mechatt_state::screen_update(screen_device &screen, bitmap_ind16 &bitmap, const rectangle &cliprect) { screen.priority().fill(0, cliprect); m_pf_tilemap[0]->set_scrollx(0, m_pf_scroll_data[0][0]); m_pf_tilemap[0]->set_scrolly(0, m_pf_scroll_data[0][1]); m_pf_tilemap[1]->set_scrollx(0, m_pf_scroll_data[1][0]); m_pf_tilemap[1]->set_scrolly(0, m_pf_scroll_data[1][1]); m_pf_tilemap[1]->draw(screen, bitmap, cliprect, 0, 0); m_pf_tilemap[0]->draw(screen, bitmap, cliprect, 0, 0); draw_sprites(screen, bitmap, m_spriteram[0]->buffer(), 1); m_fix_tilemap->draw(screen, bitmap, cliprect, 0, 0); return 0; }