// license:BSD-3-Clause // copyright-holders:Luca Elia /*************************************************************************** WEC Le Mans 24 & Hot Chase (C) 1986 & 1988 Konami driver by Luca Elia (l.elia@tin.it) ***************************************************************************/ #include "emu.h" #include "includes/wecleman.h" #define BMP_PAD 8 #define BLEND_STEPS 16 #define BLEND_MIN 0 #define BLEND_MAX (BLEND_STEPS*0x20-1) #define BLEND_INC 1 #define BLEND_DEC -8 #define SPRITE_FLIPX 0x01 #define SPRITE_FLIPY 0x02 #define NUM_SPRITES 256 /*************************************************************************** Sprite Description and Routines ------------------------------- Sprites: 256 entries, 16 bytes each, first ten bytes used (and tested) Offset Bits Meaning 00.w fedc ba98 ---- ---- Screen Y stop ---- ---- 7654 3210 Screen Y start 02.w fedc ba-- ---- ---- High bits of sprite "address" ---- --9- ---- ---- Flip Y ? ---- ---8 7654 3210 Screen X start 04.w fedc ba98 ---- ---- Color ---- ---- 7654 3210 Source Width / 8 06.w f--- ---- ---- ---- Flip X -edc ba98 7654 3210 Low bits of sprite "address" 08.w --dc ba98 ---- ---- Y? Shrink Factor ---- ---- --54 3210 X? Shrink Factor Sprite "address" is the index of the pixel the hardware has to start fetching data from, divided by 8. Only the on-screen height and source data width are provided, along with two shrinking factors. So on screen width and source height are calculated by the hardware using the shrink factors. The factors are in the range 0 (no shrinking) - 3F (half size). Hot Chase: shadow of trees is pen 0x0a ***************************************************************************/ void wecleman_state::get_sprite_info() { const pen_t *base_pal = m_palette->pens(); int gfx_max = m_sprite_region.length(); uint16_t *source = m_spriteram; sprite_t *sprite = m_sprite_list.get(); sprite_t *const finish = sprite + NUM_SPRITES; int bank, code, gfx, zoom; for (m_spr_count = 0; sprite < finish; source += 0x10/2, sprite++) { if (source[0x00/2] == 0xffff) break; sprite->y = source[0x00/2] & 0xff; sprite->total_height = (source[0x00/2] >> 8) - sprite->y; if (sprite->total_height < 1) continue; sprite->x = source[0x02/2] & 0x1ff; bank = source[0x02/2] >> 10; if (bank == 0x3f) continue; sprite->tile_width = source[0x04/2] & 0xff; if (sprite->tile_width < 1) continue; sprite->shadow_mode = source[0x04/2] & 0x4000; code = source[0x06/2]; zoom = source[0x08/2]; sprite->pal_base = (source[0x0e/2] & 0xff) << 4; sprite->pal_data = base_pal + sprite->pal_base; gfx = (m_gfx_bank[bank] << 15) + (code & 0x7fff); sprite->flags = 0; if (code & 0x8000) { sprite->flags |= SPRITE_FLIPX; gfx += 1-sprite->tile_width; } if (source[0x02/2] & 0x0200) sprite->flags |= SPRITE_FLIPY; gfx <<= 3; sprite->tile_width <<= 3; sprite->tile_height = (sprite->total_height * 0x80) / (0x80 - (zoom >> 8)); // needs work if ((gfx + sprite->tile_width * sprite->tile_height - 1) >= gfx_max) continue; sprite->pen_data = &m_sprite_region[gfx]; sprite->line_offset = sprite->tile_width; sprite->total_width = sprite->tile_width - (sprite->tile_width * (zoom & 0xff)) / 0x80; sprite->total_height += 1; sprite->x += m_spr_offsx; sprite->y += m_spr_offsy; if (m_gameid == WECLEMAN_ID) { m_spr_idx_list[m_spr_count] = m_spr_count; m_spr_pri_list[m_spr_count] = source[0x0e/2] >> 8; } m_spr_ptr_list[m_spr_count] = sprite; m_spr_count++; } } // priority sorting, silly but good for smaller arrays void wecleman_state::sortsprite(int *idx_array, int *key_array, int size) { int i, j, tgt_val, low_val, low_pos, src_idx, tgt_idx, hi_idx; idx_array += size; for (j=-size; j<-1; j++) { src_idx = idx_array[j]; low_pos = j; low_val = key_array[src_idx]; hi_idx = src_idx; for (i=j+1; i; i++) { tgt_idx = idx_array[i]; tgt_val = key_array[tgt_idx]; if (low_val > tgt_val) { low_val = tgt_val; low_pos = i; } else if ((low_val == tgt_val) && (hi_idx <= tgt_idx)) { hi_idx = tgt_idx; low_pos = i; } } low_val = idx_array[low_pos]; idx_array[low_pos] = src_idx; idx_array[j] = low_val; } } // draws a 8bpp palette sprites on a 16bpp direct RGB target (sub-par implementation) template void wecleman_state::do_blit_zoom32(_BitmapClass &bitmap, const rectangle &cliprect, const sprite_t &sprite) { #define PRECISION_X 20 #define PRECISION_Y 20 #define FPY_HALF (1<<(PRECISION_Y-1)) const pen_t *pal_base; int src_f0y, src_fdy, src_f0x, src_fdx, src_fpx; int x1, x2, y1, y2, dx, dy, sx, sy; int xcount0=0, ycount0=0; if (sprite.flags & SPRITE_FLIPX) { x2 = sprite.x; x1 = x2 + sprite.total_width; dx = -1; if (x2 < cliprect.min_x) x2 = cliprect.min_x; if (x1 > cliprect.max_x ) { xcount0 = x1 - cliprect.max_x; x1 = cliprect.max_x; } if (x2 >= x1) return; x1--; x2--; } else { x1 = sprite.x; x2 = x1 + sprite.total_width; dx = 1; if (x1 < cliprect.min_x ) { xcount0 = cliprect.min_x - x1; x1 = cliprect.min_x; } if (x2 > cliprect.max_x ) x2 = cliprect.max_x; if (x1 >= x2) return; } if (sprite.flags & SPRITE_FLIPY) { y2 = sprite.y; y1 = y2 + sprite.total_height; dy = -1; if (y2 < cliprect.min_y ) y2 = cliprect.min_y; if (y1 > cliprect.max_y ) { ycount0 = cliprect.max_y; y1 = cliprect.max_y; } if (y2 >= y1) return; y1--; y2--; } else { y1 = sprite.y; y2 = y1 + sprite.total_height; dy = 1; if (y1 < cliprect.min_y ) { ycount0 = cliprect.min_y - y1; y1 = cliprect.min_y; } if (y2 > cliprect.max_y) y2 = cliprect.max_y; if (y1 >= y2) return; } // calculate entry point decimals src_fdy = (sprite.tile_height< cliprect.min_x) { x1 -= dx; x2 -= dx; } for (sy = y1; sy != y2; sy += dy) { uint8_t *row_base = sprite.pen_data + (src_f0y>>PRECISION_Y) * sprite.line_offset; src_fpx = src_f0x; typename _BitmapClass::pixel_t *dst_ptr = &bitmap.pix(sy); if (bitmap.format() == BITMAP_FORMAT_RGB32) // Wec Le Mans { if (!sprite.shadow_mode) { for (sx = x1; sx != x2; sx += dx) { int pix = row_base[src_fpx >> PRECISION_X]; if (pix & 0x80) break; if (pix) dst_ptr[sx] = pal_base[pix]; src_fpx += src_fdx; } } else { for (sx = x1; sx != x2; sx += dx) { int pix = row_base[src_fpx >> PRECISION_X]; if (pix & 0x80) break; if (pix) { if (pix != 0xa) dst_ptr[sx] = pal_base[pix]; else dst_ptr[sx] = (dst_ptr[sx] >> 1) & rgb_t(0x7f,0x7f,0x7f); } src_fpx += src_fdx; } } } else // Hot Chase { pen_t base = sprite.pal_base; if (!sprite.shadow_mode) { for (sx = x1; sx != x2; sx += dx) { int pix = row_base[src_fpx >> PRECISION_X]; if (pix & 0x80) break; if (pix) dst_ptr[sx] = base + pix; src_fpx += src_fdx; } } else { for (sx = x1; sx != x2; sx += dx) { int pix = row_base[src_fpx >> PRECISION_X]; if (pix & 0x80) break; if (pix) { if (pix != 0xa) dst_ptr[sx] = base + pix; else { if (dst_ptr[sx] != m_black_pen) dst_ptr[sx] |= 0x800; } } src_fpx += src_fdx; } } } src_f0y += src_fdy; } } template void wecleman_state::sprite_draw(_BitmapClass &bitmap, const rectangle &cliprect) { int i; if (m_gameid == WECLEMAN_ID) // Wec Le Mans { sortsprite(m_spr_idx_list, m_spr_pri_list, m_spr_count); for (i=0; i>5&0x78)+(code>>12), 0); } WRITE16_MEMBER(wecleman_state::wecleman_txtram_w) { uint16_t old_data = m_txtram[offset]; uint16_t new_data = COMBINE_DATA(&m_txtram[offset]); if ( old_data != new_data ) { if (offset >= 0xE00/2 ) /* Video registers */ { /* pages selector for the background */ if (offset == 0xEFE/2) { m_bgpage[0] = (new_data >> 0x4) & 3; m_bgpage[1] = (new_data >> 0x0) & 3; m_bgpage[2] = (new_data >> 0xc) & 3; m_bgpage[3] = (new_data >> 0x8) & 3; m_bg_tilemap->mark_all_dirty(); } /* pages selector for the foreground */ if (offset == 0xEFC/2) { m_fgpage[0] = (new_data >> 0x4) & 3; m_fgpage[1] = (new_data >> 0x0) & 3; m_fgpage[2] = (new_data >> 0xc) & 3; m_fgpage[3] = (new_data >> 0x8) & 3; m_fg_tilemap->mark_all_dirty(); } /* Parallactic horizontal scroll registers follow */ } else m_txt_tilemap->mark_tile_dirty(offset); } } /*------------------------------------------------------------------------ [ Background ] ------------------------------------------------------------------------*/ TILE_GET_INFO_MEMBER(wecleman_state::wecleman_get_bg_tile_info) { int page = m_bgpage[((tile_index&0x7f)>>6) + ((tile_index>>12)<<1)]; int code = m_pageram[(tile_index&0x3f) + ((tile_index>>7&0x1f)<<6) + (page<<11)]; SET_TILE_INFO_MEMBER(PAGE_GFX, code&0xfff, (code>>5&0x78)+(code>>12), 0); } /*------------------------------------------------------------------------ [ Foreground ] ------------------------------------------------------------------------*/ TILE_GET_INFO_MEMBER(wecleman_state::wecleman_get_fg_tile_info) { int page = m_fgpage[((tile_index&0x7f)>>6) + ((tile_index>>12)<<1)]; int code = m_pageram[(tile_index&0x3f) + ((tile_index>>7&0x1f)<<6) + (page<<11)]; if (!code || code==0xffff) code = 0x20; SET_TILE_INFO_MEMBER(PAGE_GFX, code&0xfff, (code>>5&0x78)+(code>>12), 0); } /*------------------------------------------------------------------------ [ Pages (Background & Foreground) ] ------------------------------------------------------------------------*/ /* Pages that compose both the background and the foreground */ WRITE16_MEMBER(wecleman_state::wecleman_pageram_w) { COMBINE_DATA(&m_pageram[offset]); { int page,col,row; page = ( offset ) / (PAGE_NX * PAGE_NY); col = ( offset ) % PAGE_NX; row = ( offset / PAGE_NX ) % PAGE_NY; /* background */ if (m_bgpage[0] == page) m_bg_tilemap->mark_tile_dirty((col+PAGE_NX*0) + (row+PAGE_NY*0)*PAGE_NX*2 ); if (m_bgpage[1] == page) m_bg_tilemap->mark_tile_dirty((col+PAGE_NX*1) + (row+PAGE_NY*0)*PAGE_NX*2 ); if (m_bgpage[2] == page) m_bg_tilemap->mark_tile_dirty((col+PAGE_NX*0) + (row+PAGE_NY*1)*PAGE_NX*2 ); if (m_bgpage[3] == page) m_bg_tilemap->mark_tile_dirty((col+PAGE_NX*1) + (row+PAGE_NY*1)*PAGE_NX*2 ); /* foreground */ if (m_fgpage[0] == page) m_fg_tilemap->mark_tile_dirty((col+PAGE_NX*0) + (row+PAGE_NY*0)*PAGE_NX*2 ); if (m_fgpage[1] == page) m_fg_tilemap->mark_tile_dirty((col+PAGE_NX*1) + (row+PAGE_NY*0)*PAGE_NX*2 ); if (m_fgpage[2] == page) m_fg_tilemap->mark_tile_dirty((col+PAGE_NX*0) + (row+PAGE_NY*1)*PAGE_NX*2 ); if (m_fgpage[3] == page) m_fg_tilemap->mark_tile_dirty((col+PAGE_NX*1) + (row+PAGE_NY*1)*PAGE_NX*2 ); } } /*------------------------------------------------------------------------ Road Drawing This layer is composed of horizontal lines gfx elements There are 256 lines in ROM, each is 512 pixels wide Offset: Elements: Data: 0000-01ff 100 Words Code fedcba98-------- Priority? --------76543210 Line Number 0200-03ff 100 Words Horizontal Scroll 0400-05ff 100 Words Color 0600-07ff 100 Words ?? We draw each line using a bunch of 64x1 tiles ------------------------------------------------------------------------*/ void wecleman_state::wecleman_draw_road(bitmap_rgb32 &bitmap, const rectangle &cliprect, int priority) { // must be powers of 2 #define XSIZE 512 #define YSIZE 256 #define YMASK (YSIZE-1) #define DST_WIDTH 320 #define DST_HEIGHT 224 #define MIDCURB_DY 5 #define TOPCURB_DY 7 static const pen_t road_color[48] = { 0x3f1,0x3f3,0x3f5,0x3fd,0x3fd,0x3fb,0x3fd,0x7ff, // road color 0 0x3f0,0x3f2,0x3f4,0x3fc,0x3fc,0x3fb,0x3fc,0x7fe, // road color 1 0, 0, 0,0x3f9,0x3f9, 0, 0, 0, // midcurb color 0 0, 0, 0,0x3f8,0x3f8, 0, 0, 0, // midcurb color 1 0, 0, 0,0x3f7, 0, 0, 0, 0, // topcurb color 0 0, 0, 0,0x3f6, 0, 0, 0, 0 // topcutb color 1 }; const uint8_t *src_ptr; const pen_t *pal_ptr, *rgb_ptr; int scrollx, sy, sx; int mdy, tdy, i; rgb_ptr = m_palette->pens(); if (priority == 0x02) { // draw sky; each scanline is assumed to be dword aligned for (sy=cliprect.min_y-BMP_PAD; sy>8) != 0x02) continue; pix = rgb_ptr[(m_roadram[sy+(YSIZE*2)] & 0xf) + 0x7f0]; for (sx = 0; sx < DST_WIDTH; sx++) dst[sx] = pix; } } else if (priority == 0x04) { // draw road pen_t road_rgb[48]; for (i=0; i<48; i++) { int color = road_color[i]; road_rgb[i] = color ? rgb_ptr[color] : 0xffffffff; } for (sy=cliprect.min_y-BMP_PAD; sy>8) != 0x04) continue; road &= YMASK; src_ptr = m_gfxdecode->gfx(1)->get_data((road << 3)); m_gfxdecode->gfx(1)->get_data((road << 3) + 1); m_gfxdecode->gfx(1)->get_data((road << 3) + 2); m_gfxdecode->gfx(1)->get_data((road << 3) + 3); m_gfxdecode->gfx(1)->get_data((road << 3) + 4); m_gfxdecode->gfx(1)->get_data((road << 3) + 5); m_gfxdecode->gfx(1)->get_data((road << 3) + 6); m_gfxdecode->gfx(1)->get_data((road << 3) + 7); mdy = ((road * MIDCURB_DY) >> 8) * bitmap.rowpixels(); tdy = ((road * TOPCURB_DY) >> 8) * bitmap.rowpixels(); scrollx = m_roadram[sy+YSIZE] + (0x18 - 0xe00); pal_ptr = road_rgb + ((m_roadram[sy+(YSIZE*2)]<<3) & 8); for (sx = 0; sx < DST_WIDTH; sx++, scrollx++) { if (scrollx >= 0 && scrollx < XSIZE) { pen_t temp; pix = src_ptr[scrollx]; dst[sx] = pal_ptr[pix]; temp = pal_ptr[pix + 16]; if (temp != 0xffffffff) dst[sx - mdy] = temp; temp = pal_ptr[pix + 32]; if (temp != 0xffffffff) dst[sx - tdy] = temp; } else dst[sx] = pal_ptr[7]; } } } #undef YSIZE #undef XSIZE } /*------------------------------------------------------------------------ Sky Drawing ------------------------------------------------------------------------*/ // blends two 8x8x16bpp direct RGB tilemaps void wecleman_state::draw_cloud(bitmap_rgb32 &bitmap, gfx_element *gfx, uint16_t *tm_base, int x0, int y0, // target coordinate int xcount, int ycount, // number of tiles to draw in x and y int scrollx, int scrolly, // tilemap scroll position int tmw_l2, int tmh_l2, // tilemap width and height in log(2) int alpha, int pal_offset ) // alpha(0-3f), # of color codes to shift { const uint8_t *src_ptr; uint16_t *tmap_ptr; uint32_t *dst_base, *dst_ptr; const pen_t *pal_base, *pal_ptr; int tilew, tileh; int tmskipx, tmskipy, tmscanx, tmmaskx, tmmasky; int dx, dy; int i, j, tx, ty; if (alpha > 0x1f) return; tilew = gfx->width(); tileh = gfx->height(); tmmaskx = (1<pens() + pal_offset * gfx->granularity(); alpha <<= 6; dst_base += 8; for (i = 0; i < ycount; i++) { tmap_ptr = tm_base + ((tmskipy++ & tmmasky)<> 5) & 0x78) + (tiledata >> 12); src_ptr = gfx->get_data(tile_index); pal_ptr = pal_base + tile_color * gfx->granularity(); dst_ptr = dst_base + j * tilew; /* alpha case */ if (alpha > 0) { for (ty = 0; ty < tileh; ty++) { for (tx = 0; tx < tilew; tx++) { uint8_t srcpix = *src_ptr++; pen_t srcrgb = pal_ptr[srcpix]; uint32_t dstrgb = dst_ptr[tx]; int sr, sg, sb, dr, dg, db; sr = (srcrgb >> 3) & 0x1f; sg = (srcrgb >> 11) & 0x1f; sb = (srcrgb >> 19) & 0x1f; dr = (dstrgb >> 3) & 0x1f; dg = (dstrgb >> 11) & 0x1f; db = (dstrgb >> 19) & 0x1f; dr = (m_t32x32pm[dr - sr + alpha] >> 5) + dr; dg = (m_t32x32pm[dg - sg + alpha] >> 5) + dg; db = (m_t32x32pm[db - sb + alpha] >> 5) + db; dst_ptr[tx] = rgb_t(pal5bit(db), pal5bit(dg), pal5bit(dr)); } dst_ptr += bitmap.rowpixels(); } } /* non-alpha case */ else { for (ty = 0; ty < tileh; ty++) { for (tx = 0; tx < tilew; tx++) dst_ptr[tx] = pal_ptr[*src_ptr++]; dst_ptr += bitmap.rowpixels(); } } } dst_base += bitmap.rowpixels() * tileh; } } /*************************************************************************** Hot Chase ***************************************************************************/ /*------------------------------------------------------------------------ Road Drawing This layer is composed of horizontal lines gfx elements There are 512 lines in ROM, each is 512 pixels wide Offset: Elements: Data: 0000-03ff 00-FF Code (4 bytes) Code: 00.w fedc ba98 ---- ---- Unused? ---- ---- 7654 ---- color ---- ---- ---- 3210 scroll x 02.w fedc ba-- ---- ---- scroll x ---- --9- ---- ---- ? ---- ---8 7654 3210 code We draw each line using a bunch of 64x1 tiles ------------------------------------------------------------------------*/ void wecleman_state::hotchase_draw_road(bitmap_ind16 &bitmap, const rectangle &cliprect) { /* Referred to what's in the ROMs */ #define XSIZE 512 #define YSIZE 512 int sx, sy; const rectangle &visarea = m_screen->visible_area(); /* Let's draw from the top to the bottom of the visible screen */ for (sy = visarea.min_y;sy <= visarea.max_y;sy++) { int code = m_roadram[sy*4/2+2/2] + (m_roadram[sy*4/2+0/2] << 16); int color = ((code & 0x00f00000) >> 20) + 0x70; int scrollx = ((code & 0x0007fc00) >> 10) * 2; /* convert line number in gfx element number: */ /* code is the tile code of the start of this line */ code &= 0x1ff; code *= XSIZE / 32; for (sx=0; sx<2*XSIZE; sx+=64) { m_gfxdecode->gfx(0)->transpen(bitmap,cliprect, code++, color, 0,0, ((sx-scrollx)&0x3ff)-(384-32),sy,0); } } #undef XSIZE #undef YSIZE } /*************************************************************************** Palette Routines ***************************************************************************/ // new video and palette code // TODO: remove me. WRITE16_MEMBER(wecleman_state::wecleman_videostatus_w) { COMBINE_DATA(m_videostatus); // bit0-6: background transition, 0=off, 1=on // bit7: palette being changed, 0=no, 1=yes if (ACCESSING_BITS_0_7) { if ((data & 0x7f) == 0 && !m_cloud_ds) m_cloud_ds = BLEND_INC; else if ((data & 0x7f) == 1 && !m_cloud_visible) { data ^= 1; m_cloud_ds = BLEND_DEC; m_cloud_visible = 1; } } } WRITE16_MEMBER(wecleman_state::hotchase_paletteram16_SBGRBBBBGGGGRRRR_word_w) { int newword, r, g, b; newword = COMBINE_DATA(&m_generic_paletteram_16[offset]); r = ((newword << 1) & 0x1E ) | ((newword >> 12) & 0x01); g = ((newword >> 3) & 0x1E ) | ((newword >> 13) & 0x01); b = ((newword >> 7) & 0x1E ) | ((newword >> 14) & 0x01); m_palette->set_pen_color(offset, pal5bit(r), pal5bit(g), pal5bit(b)); r>>=1; g>>=1; b>>=1; m_palette->set_pen_color(offset+0x800, pal5bit(r)/2, pal5bit(g)/2, pal5bit(b)/2); } WRITE16_MEMBER(wecleman_state::wecleman_paletteram16_SSSSBBBBGGGGRRRR_word_w) { int newword = COMBINE_DATA(&m_generic_paletteram_16[offset]); // the highest nibble has some unknown functions // if (newword & 0xf000) logerror("MSN set on color %03x: %1x\n", offset, newword>>12); m_palette->set_pen_color(offset, pal4bit(newword >> 0), pal4bit(newword >> 4), pal4bit(newword >> 8)); } /*************************************************************************** Initializations ***************************************************************************/ VIDEO_START_MEMBER(wecleman_state,wecleman) { /* Sprite banking - each bank is 0x20000 bytes (we support 0x40 bank codes) This game has ROMs for 16 banks */ static const int bank[0x40] = { 0,0,1,1,2,2,3,3,4,4,5,5,6,6,7,7, 8,8,9,9,10,10,11,11,12,12,13,13,14,14,15,15, 0,0,1,1,2,2,3,3,4,4,5,5,6,6,7,7, 8,8,9,9,10,10,11,11,12,12,13,13,14,14,15,15 }; uint8_t *buffer; int i, j; assert(m_screen->format() == BITMAP_FORMAT_RGB32); buffer = auto_alloc_array(machine(), uint8_t, 0x12c00); // working buffer for sprite operations m_gameid = WECLEMAN_ID; m_gfx_bank = bank; m_spr_offsx = -0xbc + BMP_PAD; m_spr_offsy = 1 + BMP_PAD; m_cloud_blend = BLEND_MAX; m_cloud_ds = 0; m_cloud_visible = 0; m_black_pen = m_palette->black_pen(); m_rgb_half = (uint16_t*)(buffer + 0x00000); m_t32x32pm = (int*)(buffer + 0x10020); m_spr_ptr_list = (sprite_t **)(buffer + 0x12000); m_spr_idx_list = (int *)(buffer + 0x12400); m_spr_pri_list = (int *)(buffer + 0x12800); for (i=0; i<0x8000; i++) { j = i>>1; m_rgb_half[i] = (j&0xf) | (j&0x1e0) | (j&0x3c00); } for (j=0; j<0x20; j++) { for (i=-0x1f; i<0x20; i++) { *(m_t32x32pm + (j<<6) + i) = i * j; } } m_sprite_list = std::make_unique(NUM_SPRITES); m_bg_tilemap = &machine().tilemap().create(*m_gfxdecode, tilemap_get_info_delegate(*this, FUNC(wecleman_state::wecleman_get_bg_tile_info)), TILEMAP_SCAN_ROWS, /* We draw part of the road below */ 8,8, PAGE_NX * 2, PAGE_NY * 2 ); m_fg_tilemap = &machine().tilemap().create(*m_gfxdecode, tilemap_get_info_delegate(*this, FUNC(wecleman_state::wecleman_get_fg_tile_info)), TILEMAP_SCAN_ROWS, 8,8, PAGE_NX * 2, PAGE_NY * 2); m_txt_tilemap = &machine().tilemap().create(*m_gfxdecode, tilemap_get_info_delegate(*this, FUNC(wecleman_state::wecleman_get_txt_tile_info)), TILEMAP_SCAN_ROWS, 8,8, PAGE_NX * 1, PAGE_NY * 1); m_bg_tilemap->set_scroll_rows(TILEMAP_DIMY); /* Screen-wise scrolling */ m_bg_tilemap->set_scroll_cols(1); m_bg_tilemap->set_transparent_pen(0); m_fg_tilemap->set_scroll_rows(TILEMAP_DIMY); /* Screen-wise scrolling */ m_fg_tilemap->set_scroll_cols(1); m_fg_tilemap->set_transparent_pen(0); m_txt_tilemap->set_scroll_rows(1); m_txt_tilemap->set_scroll_cols(1); m_txt_tilemap->set_transparent_pen(0); m_txt_tilemap->set_scrollx(0, 512-320-16 -BMP_PAD); m_txt_tilemap->set_scrolly(0, -BMP_PAD ); // patches out a mysterious pixel floating in the sky (tile decoding bug?) *const_cast(m_gfxdecode->gfx(0)->get_data(0xaca)+7) = 0; } // Callbacks for the K051316 K051316_CB_MEMBER(wecleman_state::hotchase_zoom_callback_1) { *code |= (*color & 0x03) << 8; *color = (*color & 0xfc) >> 2; } K051316_CB_MEMBER(wecleman_state::hotchase_zoom_callback_2) { *color = ((*color & 0x3f) << 1) | ((*code & 0x80) >> 7); } VIDEO_START_MEMBER(wecleman_state,hotchase) { /* Sprite banking - each bank is 0x20000 bytes (we support 0x40 bank codes) This game has ROMs for 0x30 banks */ static const int bank[0x40] = { 0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15, 16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31, 32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47, 0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15 }; uint8_t *buffer; buffer = auto_alloc_array(machine(), uint8_t, 0x400); // reserve 1k for sprite list m_gameid = HOTCHASE_ID; m_gfx_bank = bank; m_spr_offsx = -0xc0; m_spr_offsy = 0; m_black_pen = m_palette->black_pen(); m_spr_ptr_list = (sprite_t **)buffer; m_sprite_list = std::make_unique(NUM_SPRITES); } /*************************************************************************** Video Updates ***************************************************************************/ uint32_t wecleman_state::screen_update_wecleman(screen_device &screen, bitmap_rgb32 &bitmap, const rectangle &cliprect) { const pen_t *mrct = m_palette->pens(); bool video_on = m_irqctrl & 0x40; m_led[0] = (m_selected_ip & 0x04) ? 1 : 0; int fg_y = (m_txtram[0x0f24 >> 1] & (TILEMAP_DIMY - 1)); int bg_y = (m_txtram[0x0f26 >> 1] & (TILEMAP_DIMY - 1)); int cloud_sx = m_txtram[0xfee >> 1] + 0xb0; int cloud_sy = bg_y; m_bg_tilemap->set_scrolly(0, bg_y -BMP_PAD); m_fg_tilemap->set_scrolly(0, fg_y -BMP_PAD); for (int i = 0; i < (28 << 2); i += 4) { int fg_x = m_txtram[(i + 0xf80) >> 1] + (0xb0 - BMP_PAD); int bg_x = m_txtram[(i + 0xf82) >> 1] + (0xb0 - BMP_PAD); int k = i << 1; for (int j = 0; j < 8; j++) { m_fg_tilemap->set_scrollx((fg_y + k + j) & (TILEMAP_DIMY - 1), fg_x); m_bg_tilemap->set_scrollx((bg_y + k + j) & (TILEMAP_DIMY - 1), bg_x); } } // temporary fix for ranking screen tile masking /* palette hacks! */ ((pen_t *)mrct)[0x27] = mrct[0x24]; get_sprite_info(); bitmap.fill(m_black_pen, cliprect); if (video_on) { /* Draw the road (lines which have priority 0x02) */ wecleman_draw_road(bitmap, cliprect, 0x02); /* Draw the background */ m_bg_tilemap->draw(screen, bitmap, cliprect, 0, 0); } // draws the cloud layer; needs work if (m_cloud_visible) { /* palette hacks! */ ((pen_t *)mrct)[0] = ((pen_t *)mrct)[0x40] = ((pen_t *)mrct)[0x200] = ((pen_t *)mrct)[0x205]; if (video_on) { draw_cloud(bitmap, m_gfxdecode->gfx(0), m_pageram + 0x1800, BMP_PAD, BMP_PAD, 41, 20, cloud_sx, cloud_sy, 6, 5, m_cloud_blend/BLEND_STEPS, 0); } m_cloud_blend += m_cloud_ds; if (m_cloud_blend < BLEND_MIN) { m_cloud_blend = BLEND_MIN; m_cloud_ds = 0; *m_videostatus |= 1; } else if (m_cloud_blend > BLEND_MAX) { m_cloud_blend = BLEND_MAX; m_cloud_ds = 0; m_cloud_visible = 0; } } if (video_on) { /* Draw the foreground */ m_fg_tilemap->draw(screen, bitmap, cliprect, 0, 0); /* Draw the road (lines which have priority 0x04) */ wecleman_draw_road(bitmap,cliprect, 0x04); /* Draw the sprites */ sprite_draw(bitmap,cliprect); /* Draw the text layer */ m_txt_tilemap->draw(screen, bitmap, cliprect, 0, 0); } return 0; } /*************************************************************************** Hot Chase ***************************************************************************/ uint32_t wecleman_state::screen_update_hotchase(screen_device &screen, bitmap_ind16 &bitmap, const rectangle &cliprect) { bool video_on = (m_irqctrl & 0x40) ? true : false; m_led[0] = (m_selected_ip & 0x04) ? 1 : 0; // Start lamp get_sprite_info(); bitmap.fill(m_black_pen, cliprect); if (video_on) { /* Draw the background */ m_k051316[0]->zoom_draw(screen, bitmap, cliprect, 0, 0); /* Draw the road */ hotchase_draw_road(bitmap, cliprect); /* Draw the sprites */ sprite_draw(bitmap,cliprect); /* Draw the foreground (text) */ m_k051316[1]->zoom_draw(screen, bitmap, cliprect, 0, 0); } return 0; }