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// license:BSD-3-Clause
// copyright-holders:Bryan McPhail
/*
    The MLC graphics hardware is quite complicated - the usual method of having 'object ram' that
    controls sprites is expanded into object ram that controls sprite blocks that may be stored
    in RAM or ROM.  Each tile in a block may be specified explicitly via a display list in ROM or
    calculated as part of a block offset.

    Blocks can be scaled and subpositioned, and are usually 4-6bpp but two 4bpp blocks can be
    combined into 8bpp with a flag.
*/

#include "emu.h"
#include "includes/deco_mlc.h"

#include <algorithm>

/******************************************************************************/

VIDEO_START_MEMBER(deco_mlc_state,mlc)
{
	int max_color = (0x800 / m_gfxdecode->gfx(0)->granularity());
	m_colour_mask=max_color - 1;
	m_shadow_mask=max_color << 1;

//  temp_bitmap = std::make_unique<bitmap_rgb32>(512, 512 );
	m_buffered_spriteram = std::make_unique<uint16_t[]>(0x3000/4);
	m_spriteram_spare = std::make_unique<uint16_t[]>(0x3000/4);
	m_spriteram = std::make_unique<uint16_t[]>(0x3000/4);

	save_pointer(NAME(m_spriteram.get()), 0x3000/4);
	save_pointer(NAME(m_spriteram_spare.get()), 0x3000/4);
	save_pointer(NAME(m_buffered_spriteram.get()), 0x3000/4);
}


static void mlc_drawgfxzoomline(deco_mlc_state *state,
		uint32_t* dest,const rectangle &clip,gfx_element *gfx,
		uint32_t code1,uint32_t code2, uint32_t color,int flipx,int sx,
		int transparent_color,int use8bpp,
		int scalex, int alpha, int srcline, int shadowMode, int alphaMode  )
{
	if (!scalex) return;
	uint32_t shadowval = shadowMode ? 0xffffffff : 0;

	/*
	scalex and scaley are 16.16 fixed point numbers
	1<<15 : shrink to 50%
	1<<16 : uniform scale
	1<<17 : double to 200%
	*/

	/* KW 991012 -- Added code to force clip to bitmap boundary */


	int sprite_screen_width = (scalex*16+(sx&0xffff))>>16;

	sx>>=16;
	if (sprite_screen_width)
	{
		/* compute sprite increment per screen pixel */
		int dx = (16<<16)/sprite_screen_width;

		int ex = sx+sprite_screen_width;

		int x_index_base;

		if( flipx )
		{
			x_index_base = (sprite_screen_width-1)*dx;
			dx = -dx;
		}
		else
		{
			x_index_base = 0;
		}

		if( sx < clip.min_x)
		{ /* clip left */
			int pixels = clip.min_x-sx;
			sx += pixels;
			x_index_base += pixels*dx;
		}
		/* NS 980211 - fixed incorrect clipping */
		if( ex > clip.max_x+1 )
		{ /* clip right */
			int pixels = ex-clip.max_x-1;
			ex -= pixels;
		}

		if( ex>sx )
		{ /* skip if inner loop doesn't draw anything */
			const pen_t *pal = &state->m_palette->pen(gfx->colorbase() + gfx->granularity() * (color % gfx->colors()));
			const uint8_t *code_base1 = gfx->get_data(code1 % gfx->elements());
			const uint8_t *code_base2 = gfx->get_data(code2 % gfx->elements());
			const uint8_t *source1 = code_base1 + (srcline) * gfx->rowbytes();
			const uint8_t *source2 = code_base2 + (srcline) * gfx->rowbytes();
			/* no alpha */
			if ((alpha == 0xff) && (!shadowMode))
			{
				int x, x_index = x_index_base;

				for( x=sx; x<ex; x++ )
				{
					int c = source1[x_index>>16];
					if (use8bpp)
						c=(c<<4)|source2[x_index>>16];

					if( c != transparent_color ) dest[x] = pal[c];

					x_index += dx;
				}
			}
			else
			{ /* TODO : 8bpp and alpha can use simultaneously? */
				int x, x_index = x_index_base;
				for( x=sx; x<ex; x++ )
				{
					int c = source1[x_index>>16];
					if (use8bpp)
						c=(c<<4)|source2[x_index>>16];

					 // alphaMode & 0xc0 = 0xc0 : Shadow, 0 : Alpha, Other bits unknown
					if( c != transparent_color ) dest[x] = alpha_blend_r32(dest[x], (alphaMode & 0xc0) ? shadowval : pal[c], shadowMode ? 0x80 : alpha);
					x_index += dx;
				}
			}
		}
	}
}


void deco_mlc_state::draw_sprites( const rectangle &cliprect, int scanline, uint32_t* dest)
{
	uint32_t *index_ptr=nullptr;
	int offs,fx=0,fy=0,x,y,color,colorOffset,sprite,indx,h,w,bx,by,fx1,fy1;
	int xoffs,yoffs;
	uint8_t *rom = m_gfx2 + 0x20000, *index_ptr8;
	uint8_t *rawrom = m_gfx2;
	int blockIsTilemapIndex=0;
	int sprite2=0,indx2=0,use8bppMode=0;
	int yscale,xscale;
	int alpha;
	int useIndicesInRom=0;
	int hibits=0;
	int tileFormat=0;
	int rasterMode=0;
	int shadowMode=0;

	int clipper=0;
	rectangle user_clip;
	uint16_t* spriteram=m_buffered_spriteram.get();

	//printf("%d - (%08x %08x %08x) (%08x %08x %08x) (%08x %08x %08x)\n", scanline, m_irq_ram[6], m_irq_ram[7], m_irq_ram[8], m_irq_ram[9], m_irq_ram[10], m_irq_ram[11] , m_irq_ram[12] , m_irq_ram[13] , m_irq_ram[14]);

	for (offs = (0x3000/4)-8; offs>=0; offs-=8)
	{
		if ((spriteram[offs+0]&0x8000)==0)
			continue;
		if ((spriteram[offs+1]&0x2000) && (m_screen->frame_number() & 1))
			continue;

		/*
		    Spriteram (1) format (16 bit):

		    Word 0: 0x8000 - Sprite enable
		            0x4000 - Use ROM or RAM for spriteram 2 (really top bit of index)
		            0x3fff - Index into spriteram 2
		    Word 1: 0x8000 - X flip
		            0x4000 - Y flip
		            0x2000 - Auto-flicker (display sprite only every other frame)
		            0x1000 - If set combine this 4bpp sprite & next one, into 8bpp sprite
		            0x0800 - upper clip bit (stadhr96 view of bases)
		            0x0400 - Use raster IRQ lookup table when drawing object - or not? (OK for stadhr96, NOT enabled for avengrgs)
		            0x0300 - lower clipping window to use (swapped) - and upper bits of raster select (stadhr96)
		            0x0080 - seems to be both the lower bit of the raster select (stadhr96) AND the upper bit of colour / alpha (avngrgs?) - might depend on other bits?
		            0x007f - Colour/alpha shadow enable
		    Word 2: 0x07ff - Y position
		    Word 3: 0x07ff - X position
		    Word 4: 0x03ff - X scale
		    Word 5: 0x03ff - Y scale

		    Spriteram (2) format (16 bit):

		    Word 0: 0xe000 - ? (Always 0x2000?)
		            0x1000 - X flip
		            0x0f00 - Width in tiles (0==16)
		            0x00ff - X position offset
		    Word 1: 0xe000 - ? (Always 0x2000?)
		            0x1000 - Y flip
		            0x0f00 - Height in tiles (0==16)
		            0x00ff - Y position offset
		    Word 2: 0xff00 - ? (Always 0?)
		            0x00c0 - If set use tile index as pointer into tile index array, else use as tile index directly
		            0x0080 - If set tile index array format is 12 bit tile, 4 bit colour
		            0x0040 - If set tile index array is 16 bit tile, 0 bit colour
		            0x003c - Hi-bits of tile index after array lookup
		            0x0003 - Hi-bits of tile index, selects ROM or RAM for array
		    Word 3: 0xffff - Low-bits of tile index
		*/

		y = spriteram[offs+2]&0x7ff;
		x = spriteram[offs+3]&0x7ff;

		if (x&0x400) x=-(0x400-(x&0x3ff));
		if (y&0x400) y=-(0x400-(y&0x3ff));

		fx = spriteram[offs+1]&0x8000;
		fy = spriteram[offs+1]&0x4000;
		color = spriteram[offs+1]&0xff;

		int raster_select = (spriteram[offs+1]&0x0180)>>7;


		// there are 3 different sets of raster values, must be a way to selects
		// between them? furthermore avengrgs doesn't even enable this
		// although it doesn't seem to set the scroll values very often either
		// so the irq mechanism might be wrong
		//
		// actually avengrgs has our current clipper&1 set on the areas that should
		// have the scroll effect applied to them.  all clip windows are the same
		// so there is no reason to select a clip window other than to be using it
		// to select a set of raster-set scroll regs?
		rasterMode = (spriteram[offs+1]>>10)&0x1;


		clipper = (spriteram[offs+1]>>8)&0x3;

		indx = spriteram[offs+0]&0x3fff;
		yscale = spriteram[offs+4]&0x3ff;
		xscale = spriteram[offs+5]&0x3ff;
		colorOffset = 0;

		/* Clip windows - this mapping seems odd, but is correct for Skull Fang and StadHr96,
		however there are space for 8 clipping windows, where is the high bit? (Or is it ~0x400?) */
		clipper=((clipper&2)>>1)|((clipper&1)<<1); // Swap low two bits


		int upperclip = (spriteram[offs+1]>>10)&0x2;
		// this is used on some ingame gfx in stadhr96
		// to clip the images of your guys on the bases
		if (upperclip)
			clipper |= 0x4;


		int min_y = m_clip_ram[(clipper*4)+0];
		int max_y = m_clip_ram[(clipper*4)+1];

		if (scanline<min_y)
			continue;

		if (scanline>max_y)
			continue;


		user_clip.min_x=m_clip_ram[(clipper*4)+2];
		user_clip.max_x=m_clip_ram[(clipper*4)+3];

		user_clip &= cliprect;

		/* Any colours out of range (for the bpp value) trigger 'shadow' mode */
		shadowMode = (color & (m_shadow_mask)) ? 1 : 0; // shadow mode (OK for skullfng)
		if ((color & (m_colour_mask+1)) || (shadowMode))
			alpha=0x80;
		else
			alpha=0xff;

		color&=m_colour_mask;

		/* If this bit is set, combine this block with the next one */
		if (spriteram[offs+1]&0x1000) {
			use8bppMode=1;
			/* In 8bpp the palette base is stored in the next block */
			if (offs-8>=0) {
				color = (spriteram[offs+1-8]&0x7f);
				indx2 = spriteram[offs+0-8]&0x3fff;
			}
		} else
			use8bppMode=0;

		/* Lookup tiles/size in sprite index ram OR in the lookup rom */
		if (spriteram[offs+0]&0x4000) {
			index_ptr8=rom + indx*8; /* Byte ptr */
			h=(index_ptr8[1]>>0)&0xf;
			w=(index_ptr8[3]>>0)&0xf;

			if (!h) h=16;
			if (!w) w=16;

			sprite = (index_ptr8[7]<<8)|index_ptr8[6];
			sprite |= (index_ptr8[4]&3)<<16;

			if (use8bppMode) {
				uint8_t* index_ptr28=rom + indx2*8;
				sprite2=(index_ptr28[7]<<8)|index_ptr28[6];
			}
			//unused byte 5
			yoffs=index_ptr8[0]&0xff;
			xoffs=index_ptr8[2]&0xff;

			fy1=(index_ptr8[1]&0x10)>>4;
			fx1=(index_ptr8[3]&0x10)>>4;

			tileFormat=index_ptr8[4]&0x80;

			if (index_ptr8[4]&0xc0)
				blockIsTilemapIndex=1;
			else
				blockIsTilemapIndex=0;

			useIndicesInRom=0;

		} else {
			indx&=0x1fff;
			index_ptr=m_vram + indx*4;
			h=(index_ptr[0]>>8)&0xf;
			w=(index_ptr[1]>>8)&0xf;

			if (!h) h=16;
			if (!w) w=16;

			if (use8bppMode) {
				uint32_t* index_ptr2=m_vram + ((indx2*4)&0x7fff);
				sprite2=((index_ptr2[2]&0x3)<<16) | (index_ptr2[3]&0xffff);
			}

			sprite = ((index_ptr[2]&0x3)<<16) | (index_ptr[3]&0xffff);
			if (index_ptr[2]&0xc0)
				blockIsTilemapIndex=1;
			else
				blockIsTilemapIndex=0;

			tileFormat=index_ptr[2]&0x80;

			hibits=(index_ptr[2]&0x3c)<<10;
			useIndicesInRom=index_ptr[2]&3;

			yoffs=index_ptr[0]&0xff;
			xoffs=index_ptr[1]&0xff;

			fy1=(index_ptr[0]&0x1000)>>12;
			fx1=(index_ptr[1]&0x1000)>>12;
		}

		if(fx1) fx^=0x8000;
		if(fy1) fy^=0x4000;

		int extra_x_scale = 0x100;

		// I think we need some hardware tests..
		//  see notes about how this can't be our enable register (avengrgs doesn't touch it
		//  and relies on something else, probably just the bits we use to select the window)
		//  (although as previously noted, it isn't writing valid per-scanline values either)
		if (rasterMode)
		{
				// use of these is a bit weird.  (it's probably just 16-bit .. like spriteram so the upper dupes are ignored?)
				// -ZZZ -yyy   ---- -xxx   -YYY -zzz

				// xxx = x offset?
				// yyy = y offset?
				// zzz = xzoom (confirmed? stadium hero)
				//  0x100 = no zoom
				//
				// YYY = duplicate bits of yyy?
				// ZZZ = (sometimes) duplicate bits of zzz

			if (raster_select==1 || raster_select==2 || raster_select==3)
			{
				shadowMode = 0; // TODO : Raster enable and shadow mode can't use simultaneously?
				int irq_base_reg; /* 6, 9, 12  are possible */
				if (raster_select== 1) irq_base_reg = 6;    // OK upper screen.. left?
				else if (raster_select== 2) irq_base_reg = 9; // OK upper screen.. main / center
				else irq_base_reg = 12;

				int extra_y_off = m_irq_ram[irq_base_reg+0] & 0x7ff;
				int extra_x_off = m_irq_ram[irq_base_reg+1] & 0x7ff;
				extra_x_scale = (m_irq_ram[irq_base_reg+2]>>0) & 0x3ff;

				if (extra_x_off & 0x400) { extra_x_off -= 0x800; }
				if (extra_y_off & 0x400) { extra_y_off -= 0x800; }


				x += extra_x_off;
				y += extra_y_off;
			}
			else if (raster_select==0x0)
			{
				// possibly disabled?
			}
		}

		xscale *= extra_x_scale;

		int ybase=y<<16;
		int yinc=(yscale<<8)*16;

		if (fy)
			ybase+=(yoffs-15) * (yscale<<8) - ((h-1)*yinc);
		else
			ybase-=yoffs * (yscale<<8);

		int xbase=x<<16;
		int xinc=(xscale)*16;

		if (fx)
			xbase+=(xoffs-15) * (xscale) - ((w-1)*xinc);
		else
			xbase-=xoffs * (xscale);


		int full_realybase = ybase;
		int full_sprite_screen_height = ((yscale<<8)*(h*16)+(0));
		int full_sprite_screen_height_unscaled = ((1)*(h*16)+(0));



		if (!full_sprite_screen_height_unscaled)
			continue;


		int ratio = full_sprite_screen_height / full_sprite_screen_height_unscaled;

		if (!ratio)
			continue;

		int bby = scanline - (full_realybase>>16);

		if (bby < 0)
			continue;

		if (bby >= full_sprite_screen_height>>16)
			continue;



//      color = machine().rand();

		int srcline = ((bby<<16) / ratio);

		by = srcline >> 4;


		srcline &=0xf;
		if( fy )
		{
			srcline = 15 - srcline;
		}


		for (bx=0; bx<w; bx++) {
			int realxbase = xbase + bx * xinc;
			int count = 0;
			if (fx)
			{
				if (fy)
					count = (h-1-by) * w + (w-1-bx);
				else
					count = by * w + (w-1-bx);
			}
			else
			{
				if (fy)
					count = (h-1-by) * w + bx;
				else
					count = by * w + bx;
			}

			int tile=sprite + count;
			int tile2=sprite2 + count;

			if (blockIsTilemapIndex) {
				if (useIndicesInRom)
				{
					const uint8_t* ptr=rawrom+(tile*2);
					tile=(*ptr) + ((*(ptr+1))<<8);

					if (use8bppMode) {
						const uint8_t* ptr2=rawrom+(tile2*2);
						tile2=(*ptr2) + ((*(ptr2+1))<<8);
					}
					else
					{
						tile2=0;
					}

					if (tileFormat)
					{
						colorOffset=(tile&0xf000)>>12;
						tile=(tile&0x0fff)|hibits;
						tile2=(tile2&0x0fff)|hibits;
					}
					else
					{
						colorOffset=0;
						tile=(tile&0xffff)|(hibits<<2);
						tile2=(tile2&0xffff)|(hibits<<2);
					}
				}
				else
				{
					const uint32_t* ptr=m_vram + ((tile)&0x7fff);
					tile=(*ptr)&0xffff;

					if (tileFormat)
					{
						colorOffset=(tile&0xf000)>>12;
						tile=(tile&0x0fff)|hibits;
					}
					else
					{
						colorOffset=0;
						tile=(tile&0xffff)|(hibits<<2);
					}

					tile2=0;
				}
			}

			mlc_drawgfxzoomline(this,
							dest,user_clip,m_gfxdecode->gfx(0),
							tile,tile2,
							color + colorOffset,fx,realxbase,
							0,
							use8bppMode,(xscale),alpha, srcline,
							shadowMode, m_irq_ram[0x04/4]);

		}

		if (use8bppMode)
			offs-=8;
	}
}

WRITE_LINE_MEMBER(deco_mlc_state::screen_vblank_mlc)
{
	// rising edge
	if (state)
	{
		/* Spriteram is definitely double buffered, as the vram lookup tables
		are often updated a frame after spriteram is setup to point to a new
		lookup table.  Without buffering incorrect one frame glitches are seen
		in several places, especially in Hoops.
		*/
		std::copy(&m_spriteram[0], &m_spriteram[0x3000/4], &m_buffered_spriteram[0]);
	}
}

uint32_t deco_mlc_state::screen_update(screen_device &screen, bitmap_rgb32 &bitmap, const rectangle &cliprect)
{
//  temp_bitmap->fill(0, cliprect);
	bitmap.fill(m_palette->pen(0), cliprect); /* Pen 0 fill colour confirmed from Skull Fang level 2 */

	for (int i=cliprect.min_y;i<=cliprect.max_y;i++)
	{
		uint32_t *dest = &bitmap.pix32(i);

		/*
		printf("%d -", i);
		for (int j=0;j<0x20;j++)
		{
		    printf("%08x, ",m_irq_ram[j]);
		}
		printf("\n");
		*/
		draw_sprites(cliprect, i, dest);
	}
	return 0;
}