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// license:BSD-3-Clause
// copyright-holders:Aaron Giles
/*************************************************************************

    Midway Zeus2 Video

**************************************************************************/
#include "emu.h"
#include "zeus2.h"

#define LOG_REGS         1
// Setting ALWAYS_LOG_FIFO will always log the fifo versus having to hold 'L'
#define ALWAYS_LOG_FIFO  0

/*************************************
*  Constructor
*************************************/
zeus2_renderer::zeus2_renderer(zeus2_device *state)
	: poly_manager<float, zeus2_poly_extra_data, 4, 10000>(state->machine())
	, m_state(state)
{
}

const device_type ZEUS2 = device_creator<zeus2_device>;

zeus2_device::zeus2_device(const machine_config &mconfig, const char *tag, device_t *owner, uint32_t clock)
	: device_t(mconfig, ZEUS2, "Midway Zeus2", tag, owner, clock, "zeus2", __FILE__),
	m_vblank(*this), m_irq(*this), m_atlantis(0)
{
}

/*************************************
*  Display interrupt generation
*************************************/

TIMER_CALLBACK_MEMBER(zeus2_device::display_irq_off)
{
	m_vblank(CLEAR_LINE);

	//attotime vblank_period = m_screen->time_until_pos(m_zeusbase[0x37] & 0xffff);

	///* if zero, adjust to next frame, otherwise we may get stuck in an infinite loop */
	//if (vblank_period == attotime::zero)
	//  vblank_period = m_screen->frame_period();
	//vblank_timer->adjust(vblank_period);
	vblank_timer->adjust(m_screen->time_until_vblank_start());
	//machine().scheduler().timer_set(attotime::from_hz(30000000), timer_expired_delegate(FUNC(zeus2_device::display_irq), this));
}

TIMER_CALLBACK_MEMBER(zeus2_device::display_irq)
{
	m_vblank(ASSERT_LINE);
	/* set a timer for the next off state */
	//machine().scheduler().timer_set(m_screen->time_until_pos(0), timer_expired_delegate(FUNC(zeus2_device::display_irq_off), this), 0, this);
	machine().scheduler().timer_set(m_screen->time_until_vblank_end(), timer_expired_delegate(FUNC(zeus2_device::display_irq_off), this), 0, this);
	//machine().scheduler().timer_set(attotime::from_hz(30000000), timer_expired_delegate(FUNC(zeus2_device::display_irq_off), this));
}

TIMER_CALLBACK_MEMBER(zeus2_device::int_timer_callback)
{
	//m_maincpu->set_input_line(2, ASSERT_LINE);
	m_irq(ASSERT_LINE);
}

/*************************************
 *  Video startup
 *************************************/


void zeus2_device::device_start()
{
	/* allocate memory for "wave" RAM */
	waveram = auto_alloc_array(machine(), uint32_t, WAVERAM0_WIDTH * WAVERAM0_HEIGHT * 8/4);
	m_frameColor = std::make_unique<uint32_t[]>(WAVERAM1_WIDTH * WAVERAM1_HEIGHT * 2);
	m_frameDepth = std::make_unique<int32_t[]>(WAVERAM1_WIDTH * WAVERAM1_HEIGHT * 2);

	/* initialize polygon engine */
	poly = auto_alloc(machine(), zeus2_renderer(this));

	//m_screen = machine().first_screen();
	m_screen = downcast<screen_device *>(machine().device("screen"));
	m_vblank.resolve_safe();
	m_irq.resolve_safe();

	/* we need to cleanup on exit */
	//machine().add_notifier(MACHINE_NOTIFY_EXIT, machine_notify_delegate(&zeus2_device::exit_handler2, this));

	int_timer = machine().scheduler().timer_alloc(timer_expired_delegate(FUNC(zeus2_device::int_timer_callback), this));
	vblank_timer = machine().scheduler().timer_alloc(timer_expired_delegate(FUNC(zeus2_device::display_irq), this));

	//printf("%s\n", machine().system().name);
	// Set system type
	if (strcmp(machine().system().name, "thegrid") == 0 || strcmp(machine().system().name, "thegrida") == 0) {
		m_system = THEGRID;
	}
	else if (strcmp(machine().system().name, "crusnexo") == 0) {
		m_system = CRUSNEXO;
	}
	else {
		m_system = MWSKINS;
	}

	/* save states */
	save_pointer(NAME(waveram), WAVERAM0_WIDTH * WAVERAM0_HEIGHT * 2);
	save_pointer(NAME(m_frameColor.get()), WAVERAM1_WIDTH * WAVERAM1_HEIGHT * 2);
	save_pointer(NAME(m_frameDepth.get()), WAVERAM1_WIDTH * WAVERAM1_HEIGHT * 2);
	save_pointer(NAME(m_zeusbase), 0x80);
	save_pointer(NAME(m_renderRegs), 0x50);
	save_pointer(NAME(m_pal_table), 0x100);
	save_item(NAME(zeus_fifo));
	save_item(NAME(zeus_fifo_words));
	save_item(NAME(zeus_cliprect.min_x));
	save_item(NAME(zeus_cliprect.max_x));
	save_item(NAME(zeus_cliprect.min_y));
	save_item(NAME(zeus_cliprect.max_y));
	save_item(NAME(zeus_matrix));
	save_item(NAME(zeus_trans));
	save_item(NAME(zeus_light));
	save_item(NAME(zeus_texbase));
	save_item(NAME(zeus_quad_size));
	save_item(NAME(m_fill_color));
	save_item(NAME(m_fill_depth));
	save_item(NAME(m_yScale));
	save_item(NAME(m_system));
}

void zeus2_device::device_reset()
{
	memset(m_zeusbase, 0, sizeof(m_zeusbase[0]) * 0x80);
	memset(m_renderRegs, 0, sizeof(m_renderRegs[0]) * 0x50);

	m_curUCodeSrc = 0;
	m_curPalTableSrc = 0;
	m_palSize = 0;
	zbase = 32.0f;
	m_yScale = 0;
	yoffs = 0x1dc000;
	//yoffs = 0x00040000;
	texel_width = 256;
	zeus_fifo_words = 0;
	m_fill_color = 0;
	m_fill_depth = 0;
	m_texmodeReg = 0;
	zeus_trans[3] = 0.0f;
	m_useZOffset = false;
}
#if DUMP_WAVE_RAM
#include <iostream>
#include <fstream>
#endif
void zeus2_device::device_stop()
{
#if DUMP_WAVE_RAM
	std::string fileName = "waveram_";
	fileName += machine().system().name;
	fileName += ".bin";
	std::ofstream myfile;
	myfile.open(fileName.c_str(), std::ios::out | std::ios::trunc | std::ios::binary);

	if (myfile.is_open())
		myfile.write((char *)waveram, WAVERAM0_WIDTH * WAVERAM0_HEIGHT * 2 * sizeof(uint32_t));
	myfile.close();
#endif

#if TRACK_REG_USAGE
{
	reg_info *info;
	int regnum;

	for (regnum = 0; regnum < 0x80; regnum++)
	{
		printf("Register %02X\n", regnum);
		if (regread_count[regnum] == 0)
			printf("\tNever read\n");
		else
			printf("\tRead %d times\n", regread_count[regnum]);

		if (regwrite_count[regnum] == 0)
			printf("\tNever written\n");
		else
		{
			printf("\tWritten %d times\n", regwrite_count[regnum]);
			for (info = regdata[regnum]; info != nullptr; info = info->next)
				printf("\t%08X\n", info->value);
		}
	}

	for (regnum = 0; regnum < 0x100; regnum++)
		if (subregwrite_count[regnum] != 0)
		{
			printf("Sub-Register %02X (%d writes)\n", regnum, subregwrite_count[regnum]);
			for (info = subregdata[regnum]; info != nullptr; info = info->next)
				printf("\t%08X\n", info->value);
		}
}
#endif

}



/*************************************
 *
 *  Video update
 *
 *************************************/

uint32_t zeus2_device::screen_update(screen_device &screen, bitmap_rgb32 &bitmap, const rectangle &cliprect)
{
	// Wait until configuration is completed before transfering anything
	if (!(m_zeusbase[0x10] & 0x20))
		return 0;

	int x, y;

	//if (machine().input().code_pressed(KEYCODE_DOWN)) { zbase += machine().input().code_pressed(KEYCODE_LSHIFT) ? 0x10 : 1; popmessage("Zbase = %f", (double)zbase); }
	//if (machine().input().code_pressed(KEYCODE_UP)) { zbase -= machine().input().code_pressed(KEYCODE_LSHIFT) ? 0x10 : 1; popmessage("Zbase = %f", (double)zbase); }

	/* normal update case */
	//if (!machine().input().code_pressed(KEYCODE_W))
	if (1)
	{
		for (y = cliprect.min_y; y <= cliprect.max_y; y++)
		{
			uint32_t *colorptr = &m_frameColor[frame_addr_from_xy(0, y, false)];
			uint32_t *dest = &bitmap.pix32(y);
			for (x = cliprect.min_x; x <= cliprect.max_x; x++) {
				dest[x] = colorptr[x];
			}
		}
	}

	/* waveram drawing case */
	else
	{
		const void *base;

		if (machine().input().code_pressed(KEYCODE_DOWN)) yoffs += machine().input().code_pressed(KEYCODE_LSHIFT) ? 0x1000 : 40;
		if (machine().input().code_pressed(KEYCODE_UP)) yoffs -= machine().input().code_pressed(KEYCODE_LSHIFT) ? 0x1000 : 40;
		if (machine().input().code_pressed(KEYCODE_LEFT) && texel_width > 4) { texel_width >>= 1; while (machine().input().code_pressed(KEYCODE_LEFT)) ; }
		if (machine().input().code_pressed(KEYCODE_RIGHT) && texel_width < 512) { texel_width <<= 1; while (machine().input().code_pressed(KEYCODE_RIGHT)) ; }

		if (yoffs < 0) yoffs = 0;
		if (1) {
			//base = waveram0_ptr_from_expanded_addr(yoffs << 8);
			//base = waveram0_ptr_from_expanded_addr(yoffs);
			base = WAVERAM_BLOCK0(yoffs);
		}
		else
			base = (void *)&m_frameColor[yoffs << 6];

		int xoffs = screen.visible_area().min_x;
		for (y = cliprect.min_y; y <= cliprect.max_y; y++)
		{
			uint32_t *dest = &bitmap.pix32(y);
			for (x = cliprect.min_x; x <= cliprect.max_x; x++)
			{
				if (1) {
					uint8_t tex = get_texel_8bit_4x2((uint64_t *)base, y, x, texel_width);
					dest[x] = (tex << 16) | (tex << 8) | tex;
				}
				else {
					dest[x] = ((uint32_t *)(base))[((y * WAVERAM1_WIDTH)) + x - xoffs];
				}
			}
		}
		popmessage("offs = %06X base = %08X", yoffs, base);
	}

	return 0;
}



/*************************************
 *
 *  Core read handler
 *
 *************************************/

READ32_MEMBER( zeus2_device::zeus2_r )
{
	int logit = (offset != 0x00 && offset != 0x01 &&
		offset != 0x18 && offset != 0x19 && offset != 0x48 && offset != 0x49
		&& offset != 0x54 && offset != 0x58 && offset != 0x59 && offset != 0x5a
		);
	logit &= LOG_REGS;
	uint32_t result = m_zeusbase[offset];
#if TRACK_REG_USAGE
	regread_count[offset]++;
#endif

	switch (offset)
	{
		case 0x00:
			// STATUS0
			// 0x20 IFIFO Empty
			// 0x80 IFIFO Full
			result = 0x20;
			break;

		case 0x01:
			// STATUS1
			// 0x00000004 VBLANK
			// 0x40000000 Slave Error
			// 0x80000000 Master Error
			// 0x00000010 DP_ACTIVE
			// 0x00000020 TP_ACTIVE
			// 0x00000040 RP_ACTIVE
			// 0x00040000 EXPY_ACTIVE0
			// 0x00080000 EXPY_ACTIVE1
			/* bit  $000C0070 are tested in a loop until 0 */
			/* bits $00080000 is tested in a loop until 0 */
			/* bit  $00000004 is tested for toggling; probably VBLANK */
			result = 0x00;
			if (m_screen->vblank())
				result |= 0x04;
			break;

		case 0x07:
			/* this is needed to pass the self-test in thegrid */
			result = 0x10451998;
			break;

		case 0x18:
			// IFIFO Read Counter
			break;

		case 0x19:
			// MFIFO Read Counter
			break;

		case 0x54:
			// VCOUNT upper 16 bits
			//result = (m_screen->vpos() << 16) | m_screen->vpos();
			result = (m_screen->vpos() << 16);
			break;
	}

	if (logit)
		logerror("%08X:zeus2_r(%02X) = %08X\n", machine().device("maincpu")->safe_pc(), offset, result);

	return result;
}



/*************************************
 *
 *  Core write handler
 *
 *************************************/

WRITE32_MEMBER( zeus2_device::zeus2_w )
{
	int logit = (offset != 0x08 &&
					 offset != 0x18 && offset != 0x19 && (offset != 0x20 || data != 0) &&
					 offset != 0x35 && offset != 0x36 && offset != 0x37 &&
					 offset != 0x48 && offset != 0x49 && offset != 0x40 && offset != 0x41 && offset != 0x4e &&
					 offset != 0x50 && offset != 0x51 && offset != 0x57 && offset != 0x58 && offset != 0x59 && offset != 0x5a && offset != 0x5e
		);
	logit &= LOG_REGS;
	if (logit)
		logerror("%08X:zeus2_w", machine().device("maincpu")->safe_pc());
	zeus2_register32_w(offset, data, logit);
}



/*************************************
 *
 *  Handle register writes
 *
 *************************************/

void zeus2_device::zeus2_register32_w(offs_t offset, uint32_t data, int logit)
{
	uint32_t oldval = m_zeusbase[offset];

#if TRACK_REG_USAGE
regwrite_count[offset]++;
if (regdata_count[offset] < 256)
{
	reg_info **tailptr;

	for (tailptr = &regdata[offset]; *tailptr != nullptr; tailptr = &(*tailptr)->next)
		if ((*tailptr)->value == data)
			break;
	if (*tailptr == nullptr)
	{
		*tailptr = alloc_or_die(reg_info);
		(*tailptr)->next = nullptr;
		(*tailptr)->value = data;
		regdata_count[offset]++;
	}
}
#endif

	/* writes to register $CC need to force a partial update */
//  if ((offset & ~1) == 0xcc)
//      m_screen->update_partial(m_screen->vpos());

	/* always write to low word? */
	m_zeusbase[offset] = data;

	/* log appropriately */
	if (logit) {
		logerror("(%02X) = %08X", offset, data);
	}
	/* handle the update */
	zeus2_register_update(offset, oldval, logit);
}



/*************************************
 *
 *  Update state after a register write
 *
 *************************************/

void zeus2_device::zeus2_register_update(offs_t offset, uint32_t oldval, int logit)
{
	/* handle the writes; only trigger on low accesses */
	switch (offset)
	{
	case 0x08:
		zeus_fifo[zeus_fifo_words++] = m_zeusbase[0x08];
		if (zeus2_fifo_process(zeus_fifo, zeus_fifo_words))
			zeus_fifo_words = 0;

		/* set the interrupt signal to indicate we can handle more */
		// Not sure how much to time to put here
		int_timer->adjust(attotime::from_usec(20));
		break;

	case 0x10:
		// BITS 11 - 10 COL SIZE / BANK FOR WR1
		// BITS 9 - 8   COL SIZE / BANK FOR WR0
		if (logit) logerror("\tSys Setup");
		if (m_zeusbase[0x10] & 0x20)
		{
			m_yScale = (((m_zeusbase[0x39] >> 16) & 0xfff) < 0x100) ? 0 : 1;
			int hor = ((m_zeusbase[0x34] & 0xffff) - (m_zeusbase[0x33] >> 16)) << m_yScale;
			int ver = ((m_zeusbase[0x35] & 0xffff) + 1) << m_yScale;
			popmessage("reg[30]: %08X Screen: %dH X %dV yScale: %d", m_zeusbase[0x30], hor, ver, m_yScale);
			int vtotal = (m_zeusbase[0x37] & 0xffff) << m_yScale;
			int htotal = (m_zeusbase[0x34] >> 16) << m_yScale;
			//rectangle visarea((m_zeusbase[0x33] >> 16) << m_yScale, htotal - 1, 0, (m_zeusbase[0x35] & 0xffff) << m_yScale);
			rectangle visarea(0, hor - 1, 0, ver - 1);
			m_screen->configure(htotal, vtotal, visarea, HZ_TO_ATTOSECONDS((double)ZEUS2_VIDEO_CLOCK / 4.0 / (htotal * vtotal)));
			zeus_cliprect = visarea;
			zeus_cliprect.max_x -= zeus_cliprect.min_x;
			zeus_cliprect.min_x = 0;
			// Startup vblank timer
			vblank_timer->adjust(attotime::from_usec(1));
		}
		break;

	case 0x11:
		if (logit) logerror("\tHost Interface Setup");
		break;

	case 0x12:
		if (logit) logerror("\tPLL Setup");
		break;

	case 0x13:
		if (logit) logerror("\tZeus Test Out");
		break;

	case 0x20:
		zeus2_pointer_write(m_zeusbase[0x20] >> 24, (m_zeusbase[0x20] & 0xffffff), logit);
		break;

	case 0x22:
		if (logit) logerror("\tRend Setup 0");
		break;

	case 0x23:
		if (logit) logerror("\tRend Setup 1");
		break;

	case 0x24:
		// 0x601 == test mode
		if (logit) logerror("\tRend Setup 4");
		break;

	case 0x2a:
		// 0x000000c0 = bilinear off
		if (logit) logerror("\tRend Force Off");
		break;

	case 0x2b:
		if (logit) logerror("\tRend Force On");
		break;

	case 0x2c:
		if (logit) logerror("\tRend AE Flag");
		break;

	case 0x2d:
		if (logit) logerror("\tRend AF Flag");
		break;

	case 0x2f:
		if (logit) logerror("\tPixel Proc Setup");
		break;


	case 0x30:
		if (logit) logerror("\tCRT Controller Setup = %08X", m_zeusbase[offset]);
		break;

	case 0x31:
		if (logit) logerror("\tDotClk Sel 1 : DotClk Sel 2 = %08X", m_zeusbase[offset]);
		break;
	case 0x32:
		if (logit) logerror("\tHSync End = %i HSync Start = %i", (m_zeusbase[offset] >> 16), m_zeusbase[offset] & 0xffff);
		break;
	case 0x33:
		if (logit) logerror("\tHBlank End = %i Update Start = %i", (m_zeusbase[offset] >> 16), m_zeusbase[offset] & 0xffff);
		break;
	case 0x34:
		if (logit) logerror("\tHTotal = %i HBlank Start = %i", (m_zeusbase[offset] >> 16), m_zeusbase[offset] & 0xffff);
		break;
	case 0x35:
		if (logit) logerror("\tVSync Start = %i VBlank Start = %i", (m_zeusbase[offset] >> 16), m_zeusbase[offset] & 0xffff);
		break;
	case 0x36:
		if (logit) logerror("\tVTotal = %i VSync End = %i", (m_zeusbase[offset] >> 16), m_zeusbase[offset] & 0xffff);
		break;
	case 0x37:
		if (logit) logerror("\tVTotal = %i", m_zeusbase[offset]);
		break;
	case 0x38:
	{
		uint32_t temp = m_zeusbase[0x38];
		m_zeusbase[0x38] = oldval;
		m_screen->update_partial(m_screen->vpos());
		log_fifo = machine().input().code_pressed(KEYCODE_L) | ALWAYS_LOG_FIFO;
		m_zeusbase[0x38] = temp;
	}
	break;
	case 0x39:
		if (logit) logerror("\tLine Length = %i FIFO AF = %i FIFO AE = %i", (m_zeusbase[offset] >> 16) & 0xfff, (m_zeusbase[offset] >> 8) & 0xff, m_zeusbase[offset] & 0xff);
		break;

	case 0x40: case 0x41: case 0x48: case 0x49: case 0x4e:
		if (offset == 0x41) {
			// mwskinsa (atlantis) writes 0xffffffff and expects 0x1fff03ff to be read back
			m_zeusbase[0x41] &= 0x1fff03ff;
		}
		/*
		m_zeusbase[0x4e] :
			bit 0 - 1 : which register triggers write through
			bit 3 : enable write through via these registers
			bit 4 : seems to be set during reads, when 0x41 is used for latching
			bit 6 : enable autoincrement on write through
		*/
		if ((offset & 0xf) == (m_zeusbase[0x4e] & 0xf)) {
			// If the address is auto-increment then don't load new value
			// In reality address is latched by a write to 0x40
			if (offset == 0x41 && (m_zeusbase[0x4e] & 0x40)) {
				m_zeusbase[0x41] = oldval;
			}

			int code = (m_zeusbase[0x40] >> 16) & 0xf;
			switch (code) {
			case 0:
				// NOP
				break;
			case 1:
				// Special mode register write
				//if (logit)
				logerror("\t-- Special Mode Write: [4e]: %08X [40]: %08X [41]: %08x [48]: %08x [49]: %08x\n", code, m_zeusbase[0x4e], m_zeusbase[0x40], m_zeusbase[0x41], m_zeusbase[0x48], m_zeusbase[0x49]);
				break;
			case 2:
			{
				/* Read waveram0 */
				//if ((m_zeusbase[0x4e] & 0x20))
				//{
				const void *src = waveram0_ptr_from_expanded_addr(m_zeusbase[0x41]);
				m_zeusbase[0x48] = WAVERAM_READ32(src, 0);
				m_zeusbase[0x49] = WAVERAM_READ32(src, 1);

				if (m_zeusbase[0x4e] & 0x40)
				{
					m_zeusbase[0x41]++;
					m_zeusbase[0x41] += (m_zeusbase[0x41] & 0x400) << 6;
					m_zeusbase[0x41] &= ~0xfc00;
				}
				//}
			}
			break;
			case 4:
			{
				// Load pal table from RGB555
				if (logit)
					logerror("\t-- pal table rgb555 load: control: %08X addr: %08X", m_zeusbase[0x40], m_zeusbase[0x41]);
				poly->wait("PAL_TABLE_WRITE");
				// blocknum = (addr % WAVERAM0_WIDTH) + ((addr >> 16) % WAVERAM0_HEIGHT) * WAVERAM0_WIDTH;
				m_curPalTableSrc = (m_zeusbase[0x41] % WAVERAM0_WIDTH) + ((m_zeusbase[0x41] >> 16) % WAVERAM0_HEIGHT) * WAVERAM0_WIDTH;
				void *dataPtr = waveram0_ptr_from_expanded_addr(m_zeusbase[0x41]);
				load_pal_table(dataPtr, m_zeusbase[0x40], 0, logit);
			}
			break;
			case 5:
			{
				//if (m_zeusbase[0x41] == 0x266) {
				//	logit = 1;
				//	log_fifo = 1;
				//}
				// Zeus microcode burst from waveram
				if (logit)
					logerror("\t-- ucode load: control: %08X addr: %08X", m_zeusbase[0x40], m_zeusbase[0x41]);
				// Load ucode from waveram
				poly->wait("UCODE_LOAD");
				void *dataPtr = waveram0_ptr_from_expanded_addr(m_zeusbase[0x41]);
				load_ucode(dataPtr, m_zeusbase[0x40], logit);
				if (((m_zeusbase[0x40] >> 24) & 0xff) >= 0xc0) {
					// Light table load
					if (logit) logerror("\t-- light table loaded");
				}
				else {
					m_curUCodeSrc = m_zeusbase[0x41];
					m_useZOffset = false;
					// Zeus Quad Size
					if (m_system == THEGRID) {
						switch (m_curUCodeSrc) {
						case 0x000000037:
							// pm4dl: mfifo quads dynamic light
							zeus_quad_size = 14;
							if (logit) logerror(" pm4dl quad size %d\n", zeus_quad_size);
							break;
						case 0x0000000b3:
							// pm4sl: mfifo quads static light
							zeus_quad_size = 12;
							if (logit) logerror(" pm4sl quad size %d\n", zeus_quad_size);
							break;
						case 0x00000015d:
							// pm4nl: mfifo quads no light
							m_useZOffset = true;
							zeus_quad_size = 10;
							if (logit) logerror(" pm4nl quad size %d\n", zeus_quad_size);
							break;
						case 0x0000001d5:
							// pm4nluv: mfifo quads no light (tga and uv variants)
							m_useZOffset = true;
							zeus_quad_size = 10;
							if (logit) logerror(" pm4nluv pm4nl_tga quad size %d\n", zeus_quad_size);
							break;
						case 0x000000266:
							// pm3dli: mfifo trimesh dynamic light interpolation
							zeus_quad_size = 8;
							if (logit) logerror(" pm3dli quad size %d\n", zeus_quad_size);
							break;
						case 0x0000002e9:
							// px3sl: xfifo trimesh static light
							zeus_quad_size = 10;
							if (logit) logerror(" px3sl quad size %d\n", zeus_quad_size);
							break;
						case 0x000000343:
							// blit24: The Grid direct rendering
							// Really should be 128 but this works
							zeus_quad_size = 512;
							if (logit) logerror(" blit24 quad size %d\n", zeus_quad_size);
							break;
						default:
							zeus_quad_size = 10;
							logerror(" unknown quad size from source [41]=%08X\n", m_curUCodeSrc);
							break;
						}
					}
					else if (m_system == CRUSNEXO) {
						switch (m_curUCodeSrc) {
						case 0x0000000c0:
							zeus_quad_size = 10;
							if (logit) logerror(" c0 quad size %d\n", zeus_quad_size);
							break;
						case 0x000000136:
							zeus_quad_size = 14;
							if (logit) logerror(" 136 quad size %d\n", zeus_quad_size);
							break;
						case 0x0000001ba:
							zeus_quad_size = 10;
							if (logit) logerror(" 1ba quad size %d\n", zeus_quad_size);
							break;
						case 0x00000022b:
							zeus_quad_size = 12;
							if (logit) logerror(" 22b quad size %d\n", zeus_quad_size);
							break;
						case 0x00000029b:
							zeus_quad_size = 12;
							if (logit) logerror(" 29b quad size %d\n", zeus_quad_size);
							break;
						case 0x000000324:
							zeus_quad_size = 12;
							if (logit) logerror(" 324 quad size %d\n", zeus_quad_size);
							break;
						default:
							zeus_quad_size = 10;
							logerror(" unknown quad size from source [41]=%08X\n", m_curUCodeSrc);
							break;
						}

					}
					else {
						switch (m_curUCodeSrc) {
						case 0x000000000:
							zeus_quad_size = 14;
							if (logit) logerror(" 00 quad size %d\n", zeus_quad_size);
							break;
						case 0x00000002d:
							zeus_quad_size = 14;
							if (logit) logerror(" 2d quad size %d\n", zeus_quad_size);
							break;
						case 0x0000001aa:
							// Direct frame buffer access, render data is rgb565
							zeus_quad_size = 14;
							if (logit) logerror(" 1aa quad size %d\n", zeus_quad_size);
							break;
						default:
							zeus_quad_size = 14;
							logerror(" unknown quad size from source [41]=%08X\n", m_curUCodeSrc);
							break;
						}

					}
				}
				if (1 && logit) {
					uint32_t *wavePtr = (uint32_t*)waveram0_ptr_from_expanded_addr(m_zeusbase[0x41]);
					uint32_t waveData;
					int size = m_zeusbase[0x40] & 0xff;
					logerror("\n Setup size=%d [40]=%08X [41]=%08X [4e]=%08X\n", zeus_quad_size, m_zeusbase[0x40], m_zeusbase[0x41], m_zeusbase[0x4e]);
					for (int i = 0; i <= size; ++i) {
						if (m_zeusbase[0x41] < 0xc0) {
							waveData = wavePtr[1];
							logerror(" %08X", waveData);
							waveData = wavePtr[0];
							logerror("%08X", waveData);
						}
						else {
							waveData = wavePtr[0];
							logerror(" %08X", waveData);
							waveData = wavePtr[1];
							logerror(" %08X", waveData);
						}
						wavePtr += 2;
						if (0 && (i + 1) % 16 == 0)
							logerror("\n");
					}
				}
			}
			break;
			//case 6: {
			//	// Zeus model fifo burst from waveram
			//}
			//break;
			case 9:
			{
				// Waveram Write
				void *dest = waveram0_ptr_from_expanded_addr(m_zeusbase[0x41]);
				WAVERAM_WRITE32(dest, 0, m_zeusbase[0x48]);
				WAVERAM_WRITE32(dest, 1, m_zeusbase[0x49]);
				if (logit)
					logerror("\t[41]=%08X [4E]=%08X", m_zeusbase[0x41], m_zeusbase[0x4e]);

				if (m_zeusbase[0x4e] & 0x40)
				{
					m_zeusbase[0x41]++;
					m_zeusbase[0x41] += (m_zeusbase[0x41] & 0x400) << 6;
					m_zeusbase[0x41] &= ~0xfc00;
				}
			}
			break;
			default:
			{
				//if (logit)
				logerror("\t-- unknown code (%d): [4e]: %08X [40]: %08X [41]: %08x [48]: %08x [49]: %08x\n", code, m_zeusbase[0x4e], m_zeusbase[0x40], m_zeusbase[0x41], m_zeusbase[0x48], m_zeusbase[0x49]);
			}
			break;
			}
		}
		break;

	case 0x50: case 0x51: case 0x58: case 0x59: case 0x5a: case 0x5b: case 0x5e:
		// m_zeusbase[0x5e]:
		// bits 3:0 select which offset triggers an access
		// bit 4:   clear error
		// bit 5:   24 bit (1) / 32 bit mode (0)
		// bit 6:   enable autoincrement wave address
		// bit 7    autoincrement desination address?
		// bit 8    autoincrement row/col address by 1 (0) or 2 (1)
		if ((offset & 0xf) == (m_zeusbase[0x5e] & 0xf)) {

			int code = (m_zeusbase[0x50] >> 16) & 0xf;

			// If the address is auto-increment then don't load new value
			// In reality address is latched by a write to 0x50
			if (offset == 0x51 && (m_zeusbase[0x5e] & 0x40)) {
				m_zeusbase[0x51] = oldval;
			}

			switch (code) {
			case 0:
				// NOP
				break;
			case 1:
				// SGRAM Special Mode Register Write
				if (m_zeusbase[0x51] == 0x00200000) {
					// SGRAM Mask Register
					if ((m_zeusbase[0x58] & m_zeusbase[0x59] & m_zeusbase[0x5a]) != 0xffffffff)
						logerror("zeus2_register_update: Warning! Mask Register not equal to 0xffffffff\n");
				}
				if (m_zeusbase[0x51] == 0x00400000) {
					// SGRAM Color Register
					m_fill_color = m_zeusbase[0x58] & 0xffffff;
					m_fill_depth = ((m_zeusbase[0x5a] & 0xffff) << 8) | (m_zeusbase[0x58] >> 24);
					//m_fill_depth = -1;
					if (m_zeusbase[0x58] != m_zeusbase[0x59])
						logerror("zeus2_register_update: Warning! Different fill colors are set.\n");
					if (logit)
						logerror(" -- Setting fill color = %06X depth = %06X ", m_fill_color, m_fill_depth);
				}
				break;
			case 0x2:
				frame_read();
				break;
			case 0x8:
			{
				// Fast clear
				// Atlantis: 0x00983FFF => clear entire frame buffer, 0x00981FFF => clear one frame
				// crusnexo: 0x007831FF => clear one frame
				// thegrid:  0x008831FF => clear one frame
				// thegrid:  0x0079FFFF => clear entire frame buffer at 51=0 then 51=00800000, only seen at initial tests in thegrid
				uint32_t addr = frame_addr_from_phys_addr(m_zeusbase[0x51]);
				uint32_t numPixels = (m_zeusbase[0x50] & 0xffff) + 1;
				numPixels *= 0x10;
				if (m_zeusbase[0x50] & 0x10000) {
					addr = 0x0;
					numPixels = WAVERAM1_WIDTH * WAVERAM1_HEIGHT * 8;
					printf("Clearing buffer: numPixels: %08X addr: %08X reg50: %08X\n", numPixels, addr, m_zeusbase[0x50]);
				}
				if (logit)
					logerror(" -- Clearing buffer: numPixels: %08X addr: %08X reg51: %08X", numPixels, addr, m_zeusbase[0x51]);
				for (int count = 0; count < numPixels; count++) {
					// Crusn wraps the frame buffer during fill so need to mask address
					m_frameColor[(addr + count) & (WAVERAM1_WIDTH * WAVERAM1_HEIGHT * 2 - 1)] = m_fill_color;
					m_frameDepth[(addr + count) & (WAVERAM1_WIDTH * WAVERAM1_HEIGHT * 2 - 1)] = m_fill_depth;
				}
			}
			break;
			case 0x9:
			{
				// Fast fill from local regs
				uint32_t numDWords = (m_zeusbase[0x50] & 0xffff) + 1;
				// Set autoincrement
				if (numDWords>1)
					m_zeusbase[0x5e] |= 0x40;
				if (logit && numDWords > 1)
					logerror(" -- Filling buffer: numDWords: %08X addr: %08X reg50: %08X reg5e: %08X\n", numDWords, m_zeusbase[0x51], m_zeusbase[0x50], m_zeusbase[0x5e]);
				for (int dword = 0; dword < numDWords; dword++)
					frame_write();
			}
			break;
			default:
				logerror("unknown code = %x offset = %x", code, offset);
				break;
			}
		}
		break;

		// 0x60, 0x61, 0x62 Translation matrix, set using fifo command

	case 0x60: case 0x61: case 0x62: case 0x63:
		zeus_trans[offset & 3] = convert_float(m_zeusbase[offset]);
		if (logit)
			logerror("\tMAC Trans%d = %8.2f", offset & 3, reinterpret_cast<float&>(m_zeusbase[offset]));
		break;

	case 0x64:
		if (logit)
			logerror("\tMAC Offset");
		break;

	case 0x65:
		if (logit)
			logerror("\tMAC Offset");
		break;

	case 0x66:
		if (logit)
			logerror("\tMultiply Offset");
		break;

	case 0x67:
		if (logit)
			logerror("\tMath MAC Setup");
		break;

	case 0x68:
		if (logit)
			logerror("\tALU Float Offset");
		break;

	case 0x6A:
		if (logit)
			logerror("\tALU RegC X_OFF = %8.2f", reinterpret_cast<float&>(m_zeusbase[offset]));
		break;

	case 0x6B:
		if (logit)
			logerror("\tALU RegD Y_OFF = %8.2f", reinterpret_cast<float&>(m_zeusbase[offset]));
		break;

	case 0x6c:
		if (logit)
			logerror("\tALU Inv Offset");
		break;

	case 0x6f:
		if (logit)
			logerror("\tLight Table Setup Page: %02X Mask: %02X", (m_zeusbase[offset] >> 8) & 0xff, m_zeusbase[offset] & 0xff);
		break;

	case 0x76:
		if (logit)
			logerror("\tMath Comp Reg0 XClip = %8.2f", reinterpret_cast<float&>(m_zeusbase[offset]));
		break;

	case 0x77:
		if (logit)
			logerror("\tMath Comp Reg1 YClip = %8.2f", reinterpret_cast<float&>(m_zeusbase[offset]));
		break;

	case 0x78:
		if (logit)
			logerror("\tMath Comp Reg2 ZClip = %8.2f", reinterpret_cast<float&>(m_zeusbase[offset]));
		break;

	case 0x79:
		if (logit)
			logerror("\tMath Comp Reg3 YRange = %8.2f", reinterpret_cast<float&>(m_zeusbase[offset]));
		break;

	case 0x7a:
		if (logit)
			logerror("\tMath Conditional Branch Setup");
		break;

	case 0x7c:
		if (logit)
			logerror("\tMath Compare Setup 1");
		break;

	case 0x7D:
		if (logit)
			logerror("\tMath FIFO AF / AE Input FIFO AF / AE");
		break;

	case 0x7f:
		if (logit)
			logerror("\tMath Setup Reg");
		break;

	}
	if (logit)
		logerror("\n");
}

/*************************************
*  Load pal table from waveram
*************************************/
void zeus2_device::load_pal_table(void *wavePtr, uint32_t ctrl, int type, int logit)
{
	int count = ctrl & 0xffff;
	m_palSize = (count + 1) * 4;
	uint32_t addr = (ctrl >> 24) << 1;
	uint32_t *tablePtr = &m_pal_table[addr];
	if (type == 0) {
		// Convert from RGB555
		uint16_t *src = (uint16_t*)wavePtr;
		for (int i = 0; i <= count; ++i) {
			*tablePtr++ = conv_rgb555_to_rgb32(*src++);
			*tablePtr++ = conv_rgb555_to_rgb32(*src++);
			*tablePtr++ = conv_rgb555_to_rgb32(*src++);
			*tablePtr++ = conv_rgb555_to_rgb32(*src++);
		}
	}
	else {
		// Raw Copy
		uint32_t *src = (uint32_t*)wavePtr;
		for (int i = 0; i <= count; ++i) {
			*tablePtr++ = *src++;
			*tablePtr++ = *src++;
		}
	}
	if (logit) {
		logerror("\ntable: ");
		tablePtr = &m_pal_table[addr];
		for (int i = 0; i < (count+1)*4; ++i) {
			logerror(" %08X", *tablePtr++);
			if (0 && (i + 1) % 16 == 0)
				logerror("\n");
		}
		logerror("\n");
	}
}
/*************************************
*  Load microcode from waveram
*************************************/
void zeus2_device::load_ucode(void *wavePtr, uint32_t ctrl, int logit)
{
	int count = ctrl & 0xffff;
	uint32_t addr = (ctrl >> 24) << 1;
	uint32_t *src = (uint32_t*)wavePtr;
	uint32_t *tablePtr = &m_ucode[addr];
	for (int i = 0; i <= count; ++i) {
		*tablePtr++ = *src++;
		*tablePtr++ = *src++;
	}
}

/*************************************
 *
 *  Process the FIFO
 *
 *************************************/

void zeus2_device::zeus2_pointer_write(uint8_t which, uint32_t value, int logit)
{
#if TRACK_REG_USAGE
subregwrite_count[which]++;
if (subregdata_count[which] < 256)
{
	reg_info **tailptr;

	for (tailptr = &subregdata[which]; *tailptr != nullptr; tailptr = &(*tailptr)->next)
		if ((*tailptr)->value == value)
			break;
	if (*tailptr == nullptr)
	{
		*tailptr = alloc_or_die(reg_info);
		(*tailptr)->next = nullptr;
		(*tailptr)->value = value;
		subregdata_count[which]++;
	}
}
#endif
	if (which<0x50)
		m_renderRegs[which] = value;

	switch (which)
	{
		case 0x01:
			// Limit to 12 bits
			m_renderRegs[which] &= 0xfff;
			zeus_cliprect.max_x = m_renderRegs[which];
			if (logit)
				logerror("\t(R%02X) = %4i Rend XClip", which & 0xfff, value);
			break;

		case 0x02:
			// Limit to 12 bits
			m_renderRegs[which] &= 0xfff;
			zeus_cliprect.max_y = m_renderRegs[which];
			if (logit)
				logerror("\t(R%02X) = %4i Rend YClip", which & 0xfff, value);
			break;

		case 0x03:
			if (logit)
				logerror("\t(R%02X) = %06x Rend XOffset", which, value);
			break;

		case 0x04:
			if (logit)
				logerror("\t(R%02X) = %06x Rend YOffset", which, value);
			break;

		case 0x05:
			zeus_texbase = value % (WAVERAM0_HEIGHT * WAVERAM0_WIDTH);
			if (logit)
				logerror("\t(R%02X)  texbase = %06x", which, zeus_texbase);
			break;

		case 0x07:
			if (logit)
				logerror("\t(R%02X)  Texel Mask = %06x", which, value);
			break;

		case 0x08:
			{
				//int blockNum = ((m_renderRegs[0x9] >> 16) * 1024 + (m_renderRegs[0x9] & 0xffff));
				int blockNum = m_renderRegs[0x9];
				void *dataPtr = (void *)(&waveram[blockNum * 2]);
				if (logit)
					logerror("\t(R%02X) = %06x PAL Control Load Table Byte Addr = %08X", which, value, blockNum * 8);
				m_curPalTableSrc = m_renderRegs[0x9];
				load_pal_table(dataPtr, m_renderRegs[0x8], 0, logit);
			}
			break;

		case 0x09:
			if (logit) logerror("\t(R%02X) = %06x PAL Addr", which, value);
			break;

		case 0x0a:
			if (logit) logerror("\t(R%02X) = %4i Pixel ALU IntA", which, value);
			break;

		case 0x0b:
			if (logit) logerror("\t(R%02X) = %4i Pixel ALU IntB (Obj Light Color)", which, value);
			break;

		case 0x0c:
			if (logit) logerror("\t(R%02X) = %4i Pixel ALU IntC (Translucency FG)", which, value);
			break;

		case 0x0d:
			if (logit) logerror("\t(R%02X) = %4i Pixel ALU IntD (Translucency BG)", which, value);
			break;

		case 0x11:
			if (logit) logerror("\t(R%02X)  Texel Setup = %06x", which, value);
			break;

		case 0x12:
			if (logit) logerror("\t(R%02X)  Pixel FIFO Setup = %06x", which, value);
			break;

		case 0x14:
			if (logit) logerror("\t(R%02X) = %06x ZBuf Control", which, value);
			break;

		case 0x15:
			//m_zbufmin = value & 0xffffff;
			if (logit) logerror("\t(R%02X) = %06X ZBuf Min", which, value);
			break;

		case 0x40:
			// 0x004000 no shading
			// 0x024004 gouraud shading
			if (logit) logerror("\t(R%02X) = %06x Pixel ALU Control", which, value);
			break;

		case 0xff:
			// Reset???
			if (logit) logerror("\tRender Reset");
			break;

		default:
			if (logit) logerror("\t(R%02X) = %06x", which, value);
			break;


#if 0
		case 0x0c:
		case 0x0d:
			// These seem to have something to do with blending.
			// There are fairly unique 0x0C,0x0D pairs for various things:
			// Car reflection on initial screen: 0x40, 0x00
			// Additively-blended "flares": 0xFA, 0xFF
			// Car windshields (and drivers, apparently): 0x82, 0x7D
			// Other minor things: 0xA4, 0x100
			break;
#endif
	}
}

/*************************************
 *  Process the FIFO
 *************************************/

bool zeus2_device::zeus2_fifo_process(const uint32_t *data, int numwords)
{
	int dataoffs = 0;

	// Increment ififo counter
	m_zeusbase[0x18]++;

	/* handle logging */
	switch (data[0] >> 24)
	{
		// 0x00: write 32-bit value to low registers
	case 0x00:
		// Ignore the all zeros commmand
		if (((data[0] >> 16) & 0x7f) == 0x0) {
			if (log_fifo && (data[0] & 0xfff) != 0x2c0)
				log_fifo_command(data, numwords, " -- ignored\n");
			return true;
		}
		// Drop through to 0x05 command
	/* 0x05: write 32-bit value to low registers */
	case 0x05:
		if (numwords < 2)
			return false;
		if (log_fifo)
			log_fifo_command(data, numwords, " -- reg32");
		if (((data[0] >> 16) & 0x7f) != 0x08)
			zeus2_register32_w((data[0] >> 16) & 0x7f, data[1], log_fifo);
		break;

		/* 0x08: set matrix and point (thegrid) */
		case 0x08:
			if (numwords < 14)
				return false;
			zeus_trans[3] = convert_float(data[1]);
			dataoffs = 1;

		/* 0x07: set matrix and point (crusnexo) */
		case 0x07:
			if (numwords < 13)
				return false;

			/* extract the matrix from the raw data */
			zeus_matrix[0][0] = convert_float(data[dataoffs + 1]);
			zeus_matrix[0][1] = convert_float(data[dataoffs + 2]);
			zeus_matrix[0][2] = convert_float(data[dataoffs + 3]);
			zeus_matrix[1][0] = convert_float(data[dataoffs + 4]);
			zeus_matrix[1][1] = convert_float(data[dataoffs + 5]);
			zeus_matrix[1][2] = convert_float(data[dataoffs + 6]);
			zeus_matrix[2][0] = convert_float(data[dataoffs + 7]);
			zeus_matrix[2][1] = convert_float(data[dataoffs + 8]);
			zeus_matrix[2][2] = convert_float(data[dataoffs + 9]);

			/* extract the translation point from the raw data */
			zeus_trans[0] = convert_float(data[dataoffs + 10]);
			zeus_trans[1] = convert_float(data[dataoffs + 11]);
			zeus_trans[2] = convert_float(data[dataoffs + 12]);

			if (log_fifo)
			{
				log_fifo_command(data, numwords, "\n");
				logerror("\t\tmatrix ( %8.2f %8.2f %8.2f ) ( %8.2f %8.2f %8.2f ) ( %8.2f %8.2f %8.2f )\n\t\ttrans_vector %8.2f %8.2f %8.5f %8.2f\n",
						(double) zeus_matrix[0][0], (double) zeus_matrix[0][1], (double) zeus_matrix[0][2],
						(double) zeus_matrix[1][0], (double) zeus_matrix[1][1], (double) zeus_matrix[1][2],
						(double) zeus_matrix[2][0], (double) zeus_matrix[2][1], (double) zeus_matrix[2][2],
						(double) zeus_trans[0], (double) zeus_trans[1], (double) zeus_trans[2], (double)zeus_trans[3]);
			}
			break;

		/* 0x15: set point only (thegrid) */
		/* 0x16: set point only (crusnexo) */
		// 0x10: atlantis
		case 0x10:
		case 0x15:
		case 0x16:
			if (numwords < 4)
				return false;

			/* extract the translation point from the raw data */
			zeus_trans[0] = convert_float(data[1]);
			zeus_trans[1] = convert_float(data[2]);
			zeus_trans[2] = convert_float(data[3]);

			if (log_fifo)
			{
				log_fifo_command(data, numwords, "\n");
				logerror("\t\ttrans_vector %8.2f %8.2f %8.2f %8.2f\n",
					(double)zeus_trans[0], (double)zeus_trans[1], (double)zeus_trans[2], (double)zeus_trans[3]);
			}
			break;

		// 0x1c: thegrid (3 words)
		// 0x14: atlantis
		case 0x14:
		case 0x1c:
			if (m_system == THEGRID) {
				if (numwords < 3)
					return false;
				zeus_light[1] = convert_float(data[1]);
				zeus_light[2] = convert_float(data[2]);
				if (log_fifo)
				{
					log_fifo_command(data, numwords, " -- Set static fade\n");
					logerror("\t\tlight_vector %8.2f %8.2f %8.2f\n",
						(double)zeus_light[0], (double)zeus_light[1], (double)zeus_light[2]);
				}
				break;
			}
		// 0x1b: thegrid
		// 0x1c: crusnexo (4 words)
		case 0x1b:
			if (numwords < 4)
				return false;
			/* extract the translation point from the raw data */
			zeus_light[0] = convert_float(data[1]);
			zeus_light[1] = convert_float(data[2]);
			zeus_light[2] = convert_float(data[3]);
			if (log_fifo)
			{
				log_fifo_command(data, numwords, " -- Set light vector\n");
				logerror("\t\tlight_vector %8.2f %8.2f %8.2f\n",
					(double)zeus_light[0], (double)zeus_light[1], (double)zeus_light[2]);

			}
			break;

		// thegrid
		case 0x1d:
			if (numwords < 2)
				return false;
			zeus_light[2] = convert_float(data[1]);
			if (log_fifo)
			{
				log_fifo_command(data, numwords, " -- Set zoffset\n");
				logerror("\t\tdata %8.5f\n", (double)convert_float(data[1]));
			}
			break;

		/* 0x23: render model in waveram (thegrid) */
		/* 0x24: render model in waveram (crusnexo) */
		// 0x17: ??? (atlantis)
		case 0x17:
		case 0x23:
		case 0x24:
			if (numwords < 2)
				return false;
			if (log_fifo)
				log_fifo_command(data, numwords, "");
			zeus2_draw_model(data[1], data[0] & 0xffff, log_fifo);
			break;

		// 0x2d; set direct render pixels location (atlantis)
		case 0x2d:
			if (numwords < 2)
				return false;
			if (log_fifo)
				log_fifo_command(data, numwords, "\n");
			// Need to figure how the 0x40 gets there
			m_zeusbase[0x5e] = (data[0] << 16) | 0x40;
			m_zeusbase[0x51] = data[1];
			//zeus2_draw_model(data[1], data[0] & 0xff, log_fifo);
			break;

		/* 0x31: sync pipeline? (thegrid) */
		/* 0x32: sync pipeline? (crusnexo) */
		// 0x25 ?? (atlantis)
		case 0x25:
		case 0x31:
		case 0x32:
			poly->wait("REND_WAIT");
			if (log_fifo)
				log_fifo_command(data, numwords, " wait for renderer idle \n");
			break;

		/* 0x38: direct render quad (crusnexo) */
		// 0x38: direct write to frame buffer (atlantis)
		case 0x38:
			if (m_curUCodeSrc == 0x1aa) {
				if (numwords < 3)
					return false;
				// mwskins direct write to frame buffer
				m_zeusbase[0x58] = conv_rgb555_to_rgb32((uint16_t)data[1]);
				m_zeusbase[0x59] = conv_rgb555_to_rgb32((uint16_t)(data[1] >> 16));
				frame_write();
				m_zeusbase[0x58] = conv_rgb555_to_rgb32((uint16_t)data[2]);
				m_zeusbase[0x59] = conv_rgb555_to_rgb32((uint16_t)(data[2] >> 16));
				frame_write();
				if (((m_zeusbase[0x51] & 0xff) == 2) && log_fifo)
					log_fifo_command(data, numwords, "\n");
			}
			else if (numwords < 12) {
				return false;
				//print_fifo_command(data, numwords, "\n");
				if (log_fifo)
					log_fifo_command(data, numwords, "\n");
			}
			break;

			// thegrid
		case 0xb7:
			if (numwords < 2)
				return false;
			if (log_fifo)
			{
				log_fifo_command(data, numwords, " -- Set interp factor\n");
				logerror("\t\tdata %8.5f\n", (double)convert_float(data[1]));
			}
			break;

		default:
			if (1 || data[0] != 0x2c0)
			{
				printf("Unknown command %08X\n", data[0]);
				if (log_fifo)
					log_fifo_command(data, numwords, "\n");
			}
			break;
	}
	return true;
}

/*************************************
 *  Draw a model in waveram
 *************************************/

void zeus2_device::zeus2_draw_model(uint32_t baseaddr, uint16_t count, int logit)
{
	uint32_t databuffer[512];
	int databufcount = 0;
	int model_done = false;
	uint32_t texdata = 0;

	if (logit)
		logerror(" -- model @ %08X, len %04X, palSrc %08x, rendSrc %08x\n", baseaddr, count, m_curPalTableSrc, m_curUCodeSrc);

	if (count > 0xc800)
		fatalerror("Extreme count\n");

	while (baseaddr != 0 && !model_done)
	{
		const void *base = waveram0_ptr_from_expanded_addr(baseaddr);
		int curoffs;

		/* reset the objdata address */
		baseaddr = 0;

		/* loop until we run out of data */
		for (curoffs = 0; curoffs <= count; curoffs++)
		{
			int countneeded = 2;
			uint8_t cmd;

			/* accumulate 2 words of data */
			databuffer[databufcount++] = WAVERAM_READ32(base, curoffs * 2 + 0);
			databuffer[databufcount++] = WAVERAM_READ32(base, curoffs * 2 + 1);

			/* if this is enough, process the command */
			cmd = databuffer[0] >> 24;

			if ((cmd == 0x38) || (cmd == 0x2d) || (cmd == 0xa7) || (cmd == 0xaf)) {
				countneeded = zeus_quad_size;
			}
			if (databufcount == countneeded)
			{
				// Increment mfifo counter
				m_zeusbase[0x19] += databufcount;

				/* handle logging of the command */
				if (logit)
				{
					if (cmd != 0x00 || (cmd == 0x00 && curoffs == count)) {
						logerror("\t");
						// Limit logging to 16 words
						for (int offs = 0; offs < databufcount && offs < 16; offs++)
							logerror("%08X ", databuffer[offs]);
						logerror("-- ");
					}
				}

				/* handle the command */
				switch (cmd)
				{
					case 0x00: // crusnexo
						if (logit && curoffs == count)
							logerror(" end cmd 00\n");
					case 0x21:  /* thegrid */
					case 0x22:  /* crusnexo */
					{
						// Sets 0x68 (uv float offset) and texture line and mode
						// In reality this sets internal registers that are used in the
						// zeus2 microcode to set these registers
						m_zeusbase[0x68] = (databuffer[0] >> 16) & 0xff;
						texdata = databuffer[1];
						if (logit)
								logerror(" (0x68)=%02X texMode=%08X\n", m_zeusbase[0x68], texdata);
					}
						break;

					case 0x31:  /* thegrid */
						poly->wait("REND_WAIT");
						if (logit)
							logerror("wait for renderer not active\n");
						break;

					case 0x29:  // atlantis
					case 0x35:  /* thegrid */
					case 0x36:  /* crusnexo */
						if (logit)
							logerror("reg32");
						zeus2_register32_w((databuffer[0] >> 16) & 0x7f, databuffer[1], logit);
						break;

					case 0x2d:  // atlantis
						poly->zeus2_draw_quad(databuffer, texdata, logit);
						break;

					case 0x38:  /* crusnexo/thegrid */
						if (m_system==THEGRID && m_curUCodeSrc==0x00000343) {
							if (logit)
								logerror("direct write [57]=%08X [51]==%08X\n", m_zeusbase[0x57], m_zeusbase[0x51]);
							// Direct write to frame buffer
							for (int subIndex = 0; subIndex < zeus_quad_size / 2; ++subIndex) {
								m_zeusbase[0x5a] = databuffer[subIndex * 2 + 1] & 0xffffff;
								m_zeusbase[0x58] = databuffer[subIndex * 2 + 0] & 0xffffff;
								frame_write();
							}
						}
						else {
							poly->zeus2_draw_quad(databuffer, texdata, logit);
						}
						break;

					// thegrid: triangle mesh, pm3dli
					case 0xa7:
					case 0xaf:
						if (1 || logit)
							logerror(" unknown triangle data\n");
						break;

					default:
						if (logit)
							logerror("unknown model data\n");
						break;
				}

				/* reset the count */
				databufcount = 0;
			}
		}
		// Log unused data
		if (databufcount != 0) {
			if (logit)
			{
				logerror("\t");
				for (int offs = 0; offs < databufcount; offs++)
					logerror("%08X ", databuffer[offs]);
				logerror("-- Unused data\n");
			}
		}
	}
}

/*************************************
 *  Draw a quad
 *************************************/
void zeus2_renderer::zeus2_draw_quad(const uint32_t *databuffer, uint32_t texdata, int logit)
{
	z2_poly_vertex vert[4];

	if (logit) {
		m_state->logerror("quad %d", m_state->zeus_quad_size);
#if PRINT_TEX_INFO
		m_state->logerror(" %s\n", m_state->tex_info());
#else
		m_state->logerror("\n");
#endif
	}
	//if (machine().input().code_pressed(KEYCODE_Q) && (m_state->m_renderRegs[0x5] != 0x1fdf00)) return;
	//if (machine().input().code_pressed(KEYCODE_E) && (m_state->m_renderRegs[0x5] != 0x07f540)) return;
	//if (machine().input().code_pressed(KEYCODE_R) && (m_state->m_renderRegs[0x5] != 0x081580)) return;
	//if (machine().input().code_pressed(KEYCODE_T) && (m_state->m_renderRegs[0x5] != 0x14db00)) return;
	//if (machine().input().code_pressed(KEYCODE_Y) && (m_state->m_renderRegs[0x5] != 0x14d880)) return;
	//if (machine().input().code_pressed(KEYCODE_Q) && (texdata & 0xffff) == 0x119) return;
	//if (machine().input().code_pressed(KEYCODE_E) && (texdata & 0xffff) == 0x01d) return;
	//if (machine().input().code_pressed(KEYCODE_R) && (texdata & 0xffff) == 0x11d) return;
	//if (machine().input().code_pressed(KEYCODE_T) && (texdata & 0xffff) == 0x05d) return;
	//if (machine().input().code_pressed(KEYCODE_Y) && (texdata & 0xffff) == 0x0dd) return;
	//if (machine().input().code_pressed(KEYCODE_U) && (texdata & 0xffff) == 0x119) return;
	//if (machine().input().code_pressed(KEYCODE_I) && (texdata & 0xffff) == 0x119) return;
	//if (machine().input().code_pressed(KEYCODE_O) && (texdata & 0xffff) == 0x119) return;
	//if (machine().input().code_pressed(KEYCODE_L) && (texdata & 0x100)) return;
	//if (m_state->m_texmodeReg != 0x9b) return;

	// PZr = (PZ * M22) + (PY * M21) + (PX * M20) + 0
	// AZp = (AZ * M22) + (AY * M21) + (AX * M20) + TZ
	// AYp = (AZ * M12) + (AY * M11) + (AX * M10) + TY
	// AXp = (AZ * M02) + (AY * M01) + (AX * M00) + TX

	// Fast HSR Removal
	if (1)
	{
		float PZr;

		int8_t normal[3];
		normal[0] = databuffer[0] >> 0;
		normal[1] = databuffer[0] >> 8;
		normal[2] = databuffer[0] >> 16;

		PZr = normal[0] * m_state->zeus_matrix[2][0] + normal[1] * m_state->zeus_matrix[2][1] + normal[2] * m_state->zeus_matrix[2][2] + m_state->zeus_trans[3];

		//m_state->logerror("norm: %i %i %i PZr: %f\n", normal[0], normal[1], normal[2], PZr);
		if (PZr >= 0)
			return;
	}

	/* extract raw x,y,z */
	if (m_state->m_atlantis) {
			// Atlantis quad 14
		texdata = databuffer[1];
		vert[0].x = (int16_t)databuffer[2];
		vert[0].y = (int16_t)databuffer[3];
		vert[0].p[0] = (int16_t)databuffer[4];
		vert[0].p[1] = ((databuffer[5] >> 0) & 0xff);
		vert[0].p[2] = ((databuffer[5] >> 8) & 0xff);

		vert[1].x = (int16_t)(databuffer[2] >> 16);
		vert[1].y = (int16_t)(databuffer[3] >> 16);
		vert[1].p[0] = (int16_t)(databuffer[4] >> 16);
		vert[1].p[1] = ((databuffer[5] >> 16) & 0xff);
		vert[1].p[2] = ((databuffer[5] >> 24) & 0xff);

		vert[2].x = (int16_t)databuffer[6];
		vert[2].y = (int16_t)databuffer[7];
		vert[2].p[0] = (int16_t)databuffer[8];
		vert[2].p[1] = ((databuffer[9] >> 0) & 0xff);
		vert[2].p[2] = ((databuffer[9] >> 8) & 0xff);

		vert[3].x = (int16_t)(databuffer[6] >> 16);
		vert[3].y = (int16_t)(databuffer[7] >> 16);
		vert[3].p[0] = (int16_t)(databuffer[8] >> 16);
		vert[3].p[1] = ((databuffer[9] >> 16) & 0xff);
		vert[3].p[2] = ((databuffer[9] >> 24) & 0xff);
	}
	else {
		//printf("R40: %06X\n", m_state->m_renderRegs[0x40]);
		vert[0].x = (int16_t)databuffer[2];
		vert[0].y = (int16_t)databuffer[3];
		vert[0].p[0] = (int16_t)databuffer[6];
		vert[0].p[1] = (databuffer[1] >> 0) & 0x3ff;
		vert[0].p[2] = (databuffer[1] >> 16) & 0x3ff;

		vert[1].x = (int16_t)(databuffer[2] >> 16);
		vert[1].y = (int16_t)(databuffer[3] >> 16);
		vert[1].p[0] = (int16_t)(databuffer[6] >> 16);
		vert[1].p[1] = (databuffer[4] >> 0) & 0x3ff;
		vert[1].p[2] = (databuffer[4] >> 10) & 0x3ff;

		vert[2].x = (int16_t)databuffer[8];
		vert[2].y = (int16_t)databuffer[9];
		vert[2].p[0] = (int16_t)databuffer[7];
		vert[2].p[1] = (databuffer[4] >> 20) & 0x3ff;
		vert[2].p[2] = (databuffer[5] >> 0) & 0x3ff;

		vert[3].x = (int16_t)(databuffer[8] >> 16);
		vert[3].y = (int16_t)(databuffer[9] >> 16);
		vert[3].p[0] = (int16_t)(databuffer[7] >> 16);
		vert[3].p[1] = (databuffer[5] >> 10) & 0x3ff;
		vert[3].p[2] = (databuffer[5] >> 20) & 0x3ff;
	}
	int unknown[8];
	float unknownFloat[4];
	if (m_state->zeus_quad_size == 14) {
		// buffer 10-13 ???? 00000000 1FF7FC00 00000000 1FF7FC00 -- mwskinsa quad 14
		/* 10:13 16 bit coordinates */
		unknown[0] = (int16_t)databuffer[10];
		unknown[1] = (int16_t)(databuffer[10] >> 16);
		unknown[2] = (int16_t)databuffer[11];
		unknown[3] = (int16_t)(databuffer[11] >> 16);
		unknown[4] = (int16_t)databuffer[12];
		unknown[5] = (int16_t)(databuffer[12] >> 16);
		unknown[6] = (int16_t)databuffer[13];
		unknown[7] = (int16_t)(databuffer[13] >> 16);
		unknownFloat[0] = m_state->convert_float(databuffer[10]);
		unknownFloat[1] = m_state->convert_float(databuffer[11]);
		unknownFloat[2] = m_state->convert_float(databuffer[12]);
		unknownFloat[3] = m_state->convert_float(databuffer[13]);
	}

	int logextra = 0;

	int intScale = m_state->m_zeusbase[0x66] - 0x8e;
	float fScale = pow(2.0f, intScale);
	int intUVScale = m_state->m_zeusbase[0x68] - 0x9d;
	float uvScale = pow(2.0f, intUVScale);
	for (int i = 0; i < 4; i++)
	{
		float x = vert[i].x;
		float y = vert[i].y;
		float z = vert[i].p[0];
		if (1) {
		  x *= fScale;
		  y *= fScale;
		  z *= fScale;
		}
#if PRINT_TEX_INFO
		if (logit && i == 0) {
			m_state->check_tex(texdata, z, m_state->zeus_matrix[2][2], m_state->zeus_trans[2]);
		}
#endif
		vert[i].x =    x * m_state->zeus_matrix[0][0] + y * m_state->zeus_matrix[0][1] + z * m_state->zeus_matrix[0][2];
		vert[i].y =    x * m_state->zeus_matrix[1][0] + y * m_state->zeus_matrix[1][1] + z * m_state->zeus_matrix[1][2];
		vert[i].p[0] = x * m_state->zeus_matrix[2][0] + y * m_state->zeus_matrix[2][1] + z * m_state->zeus_matrix[2][2];

		vert[i].x += m_state->zeus_trans[0];
		vert[i].y += m_state->zeus_trans[1];
		vert[i].p[0] += m_state->zeus_trans[2];

		//vert[i].p[1] += ((texdata >> 8) & 0x1) ? 1.0f : 0.0f;
		vert[i].p[1] *= uvScale;
		vert[i].p[2] *= uvScale;
		vert[i].p[2] += (texdata >> 16);
		vert[i].p[1] *= 256.0f;
		vert[i].p[2] *= 256.0f;



		if (logextra & logit)
		{
			m_state->logerror("\t\t(%f,%f,%f) (%02X,%02X)\n",
				(double)vert[i].x, (double)vert[i].y, (double)vert[i].p[0],
				(int)(vert[i].p[1] / 256.0f), (int)(vert[i].p[2] / 256.0f));
		}
	}
	if (0 && logextra & logit && m_state->zeus_quad_size == 14) {
		m_state->logerror("unknown: int16: %d %d %d %d %d %d %d %d float: %f %f %f %f\n",
			unknown[0], unknown[1], unknown[2], unknown[3], unknown[4], unknown[5], unknown[6], unknown[7],
			unknownFloat[0], unknownFloat[1], unknownFloat[2], unknownFloat[3]);
	}

	// Z Clipping, done before clamp to 0
	float clipVal = reinterpret_cast<float&>(m_state->m_zeusbase[0x78]);
	for (int i = 0; i < 4; i++)
	{
		if (vert[i].p[0] < clipVal)
			return;
	}

	float xOrigin = reinterpret_cast<float&>(m_state->m_zeusbase[0x6a]);
	float yOrigin = reinterpret_cast<float&>(m_state->m_zeusbase[0x6b]);

	// crusn seems to use a different z scale
	float zRound = (m_state->m_system == m_state->CRUSNEXO) ? 2.0f : 0.5f;

	float oozBase = 1 << m_state->m_zeusbase[0x6c];
	float ooz;
	for (int i = 0; i < 4; i++)
	{
		// Clamp to zero if negative
		if (vert[i].p[0] < 0)
			vert[i].p[0] = 0.0f;

		ooz = oozBase / (vert[i].p[0] + zRound);

		if (1) {
			//vert[i].p[0] += reinterpret_cast<float&>(m_state->m_zeusbase[0x63]);
			vert[i].x *= ooz;
			vert[i].y *= ooz;
			//vert[i].p[0] = ooz;
		}

		vert[i].x += xOrigin;
		vert[i].y += yOrigin;
		// The Grid adds zoffset for objects with no light
		if (m_state->m_useZOffset)
			vert[i].p[0] += m_state->zeus_light[2];

		//clipvert[i].p[0] *= 65536.0f * 16.0f;
		vert[i].p[0] *= 4096.0f * 1.0f;  // 12.12

		if (logextra & logit)
			m_state->logerror("\t\t\tTranslated=(%f,%f, %f) scale = %f\n", (double)vert[i].x, (double)vert[i].y, (double)vert[i].p[0], ooz);
	}
	// Slow HSR
	// ((AYs - BYs) * (BXs - CXs)) - ((AXs - BXs) * (BYs - CYs))
	if (1) {
		float slowHSR = ((vert[0].y - vert[1].y) * (vert[1].x - vert[2].x) - (vert[0].x - vert[1].x) * (vert[1].y - vert[2].y));
		if (slowHSR >= 0)
			return;
	}

	zeus2_poly_extra_data& extra = this->object_data_alloc();

	extra.ucode_src = m_state->m_curUCodeSrc;
	extra.tex_src = m_state->zeus_texbase;
	int texmode = texdata & 0xffff;
	extra.texwidth = 0x20 << ((texmode >> 2) & 3);
	extra.solidcolor = 0;//m_zeusbase[0x00] & 0x7fff;
	extra.transcolor = (texmode & 0x180) ? 0 : 0x100;
	extra.texbase = WAVERAM_BLOCK0_EXT(m_state->zeus_texbase);
	extra.depth_min_enable = true;// (m_state->m_renderRegs[0x14] & 0x008000);
	extra.zbuf_min = int32_t((m_state->m_renderRegs[0x15]) << 8) >> 8;
	//extra.zbuf_min = m_state->m_renderRegs[0x15];
	extra.depth_test_enable = !(m_state->m_renderRegs[0x14] & 0x000020);
	//extra.depth_test_enable &= !(m_state->m_renderRegs[0x14] & 0x008000);
	extra.depth_write_enable = !(m_state->m_renderRegs[0x14] & 0x001000);
	extra.depth_clear_enable = (m_state->m_renderRegs[0x14] & 0x000c00);
	// 021e0e = blend with texture alpha for type 2, 020202 blend src / dst alpha
	extra.blend_enable = ((m_state->m_renderRegs[0x40] == 0x020202) || (m_state->m_renderRegs[0x40] == 0x021e0e && (texmode & 0x3) == 2));
	extra.srcAlpha = m_state->m_renderRegs[0x0c];
	extra.dstAlpha = m_state->m_renderRegs[0x0d];
	extra.texture_alpha = false;
	extra.texture_rgb555 = false;
	switch (texmode & 0x3) {
	case 0:
		extra.get_texel = m_state->get_texel_4bit_2x2;
		extra.texwidth >>= 1;
		break;
	case 1:
		extra.get_texel = m_state->get_texel_8bit_4x2;
		break;
	case 2:
		// Seems to select texture with embedded alpha
		if (texmode & 0x80) {
			// Texel , Alpha
			extra.get_texel = m_state->get_texel_8bit_2x2_alpha;
			extra.texture_alpha = true;
			extra.get_alpha = m_state->get_alpha_8bit_2x2_alpha;
			extra.depth_test_enable = false;
			extra.depth_write_enable = false;
		}
		else {
			extra.texture_rgb555 = true;
		}
		break;
	default:
		m_state->logerror("unknown texel type");
		extra.get_texel = m_state->get_texel_8bit_2x2;
		break;
	}

	//if (numverts == 3)
	//	render_triangle(m_state->zeus_cliprect, render_delegate(&zeus2_renderer::render_poly_8bit, this), 4, vert[0], vert[1], vert[2]);
	render_polygon<4>(m_state->zeus_cliprect, render_delegate(&zeus2_renderer::render_poly_8bit, this), 4, vert);
}



/*************************************
*  Rasterizers
*************************************/

void zeus2_renderer::render_poly_8bit(int32_t scanline, const extent_t& extent, const zeus2_poly_extra_data& object, int threadid)
{
	int32_t curz = extent.param[0].start;
	int32_t curu = extent.param[1].start;
	int32_t curv = extent.param[2].start;
	//  int32_t curi = extent.param[3].start;
	int32_t dzdx = extent.param[0].dpdx;
	int32_t dudx = extent.param[1].dpdx;
	int32_t dvdx = extent.param[2].dpdx;
	//  int32_t didx = extent.param[3].dpdx;
	const void *texbase = object.texbase;
	//const void *palbase = object.palbase;
	uint16_t transcolor = object.transcolor;
	int32_t srcAlpha = object.srcAlpha;
	int32_t dstAlpha = object.dstAlpha;
	bool depth_write_enable = object.depth_write_enable;
	int texwidth = object.texwidth;
	int x;

	uint32_t addr = m_state->frame_addr_from_xy(0, scanline, true);
	int32_t *depthptr = &m_state->m_frameDepth[addr];
	uint32_t *colorptr = &m_state->m_frameColor[addr];
	int32_t curDepthVal;

	for (x = extent.startx; x < extent.stopx; x++)
	{
		if (object.depth_clear_enable) {
			//curDepthVal = object.zbuf_min;
			curDepthVal = 0xffffff;
		} else if (object.depth_min_enable) {
			curDepthVal = curz + object.zbuf_min;
		}
		else {
			curDepthVal = curz;
		}
		//if (curz < object.zbuf_min)
		//	curDepthVal = object.zbuf_min;
		//else
		//	curDepthVal = curz;
		if (curDepthVal < 0)
			curDepthVal = 0;
		bool depth_pass = true;
		if (object.depth_test_enable) {
			if (curDepthVal > depthptr[x])
				depth_pass = false;
		}
		if (depth_pass) {
			int u0 = (curu >> 8);// &(texwidth - 1);
			int v0 = (curv >> 8);// &255;
			int u1 = (u0 + 1);
			int v1 = (v0 + 1);
			if (object.texture_rgb555) {
				// Rendering for textures with direct color
				rgb_t srcColor = m_state->get_rgb555(texbase, v0, u0, texwidth);
				colorptr[x] = srcColor;
			}
			else if (object.texture_alpha) {
				// Rendering for textures with embedded alpha
				// To bilinear filter or not to bilinear filter
				if (0) {
					// Add rounding
					u0 += (curu >> 7) & 1;
					v0 += (curv >> 7) & 1;
					uint8_t texel0 = object.get_texel(texbase, v0, u0, texwidth);
					srcAlpha = object.get_alpha(texbase, v0, u0, texwidth);
					if (srcAlpha != 0) {
						rgb_t srcColor = m_state->m_pal_table[texel0];
						rgb_t dstColor = colorptr[x];
						dstAlpha = 0xff - srcAlpha;
						srcColor.scale8(srcAlpha);
						srcColor += dstColor.scale8(dstAlpha);
						colorptr[x] = srcColor;
						if (depth_write_enable)
							depthptr[x] = curDepthVal; // Should limit to 24 bits
					}
				}
				else {
					uint8_t texel0 = object.get_texel(texbase, v0, u0, texwidth);
					uint8_t texel1 = object.get_texel(texbase, v0, u1, texwidth);
					uint8_t texel2 = object.get_texel(texbase, v1, u0, texwidth);
					uint8_t texel3 = object.get_texel(texbase, v1, u1, texwidth);
					uint8_t alpha0 = object.get_alpha(texbase, v0, u0, texwidth);
					uint8_t alpha1 = object.get_alpha(texbase, v0, u1, texwidth);
					uint8_t alpha2 = object.get_alpha(texbase, v1, u0, texwidth);
					uint8_t alpha3 = object.get_alpha(texbase, v1, u1, texwidth);
					if (1)
					{
						// Calculate source alpha
						//srcAlpha = ((uint32_t)alpha0 + (uint32_t)alpha1 + (uint32_t)alpha2 + (uint32_t)alpha3) >> 2;
						uint32_t uFactor = curu & 0xff;
						uint32_t vFactor = curv & 0xff;
						srcAlpha = ((alpha0 * (256 - uFactor) + alpha1 * (uFactor)) * (256 - vFactor) + (alpha2 * (256 - uFactor) + alpha3 * (uFactor)) * (vFactor)) >> 16;
						if (srcAlpha != 0) {
							uint32_t color0 = m_state->m_pal_table[texel0];
							uint32_t color1 = m_state->m_pal_table[texel1];
							uint32_t color2 = m_state->m_pal_table[texel2];
							uint32_t color3 = m_state->m_pal_table[texel3];
							rgb_t filtered = rgbaint_t::bilinear_filter(color0, color1, color2, color3, curu, curv);
							rgb_t dstColor = colorptr[x];
							dstAlpha = 0x100 - srcAlpha;
							filtered.scale8(srcAlpha);
							filtered += dstColor.scale8(dstAlpha);
							colorptr[x] = filtered;
							if (depth_write_enable)
								depthptr[x] = curDepthVal; // Should limit to 24 bits
						}
					}
				}
			// Rendering for textures with no transparent color
			} else if (1 || transcolor == 0x100) {
				uint8_t texel0 = object.get_texel(texbase, v0, u0, texwidth);
				uint8_t texel1 = object.get_texel(texbase, v0, u1, texwidth);
				uint8_t texel2 = object.get_texel(texbase, v1, u0, texwidth);
				uint8_t texel3 = object.get_texel(texbase, v1, u1, texwidth);
				if ((texel0 != transcolor) && (texel1 != transcolor) && (texel2 != transcolor) && (texel3 != transcolor))
				//if (1)
				{
					uint32_t color0 = m_state->m_pal_table[texel0];
					uint32_t color1 = m_state->m_pal_table[texel1];
					uint32_t color2 = m_state->m_pal_table[texel2];
					uint32_t color3 = m_state->m_pal_table[texel3];
					rgb_t srcColor = rgbaint_t::bilinear_filter(color0, color1, color2, color3, curu, curv);
					if (object.blend_enable) {
						// Need to check if this is correct or use incoming dstAlpha
						//dstAlpha = 0x100 - srcAlpha;

						// If src alpha is 256 don't blend
						if (1 || srcAlpha != 0x100) {
							rgb_t dstColor = colorptr[x];
							if (srcAlpha != 0x100)
								srcColor.scale8(srcAlpha);
							if (dstAlpha == 0x100)
								srcColor += dstColor;
							else
								srcColor += dstColor.scale8(dstAlpha);
						}
						// If src alpha is 0 don't write
						if (srcAlpha != 0x00) {
							colorptr[x] = srcColor;
							if (depth_write_enable)
								depthptr[x] = curDepthVal; // Should limit to 24 bits
						}
					}
					else {
						colorptr[x] = srcColor;
						if (depth_write_enable)
							depthptr[x] = curDepthVal; // Should limit to 24 bits
					}
				}
			// Rendering for textures with transparent color
			//} else {
			//	// Add rounding
			//	u0 += (curu >> 7) & 1;
			//	v0 += (curv >> 7) & 1;
			//	uint8_t texel0 = object.get_texel(texbase, v0, u0, texwidth);
			//	if (texel0 != transcolor) {
			//		uint32_t color0 = m_state->m_pal_table[texel0];
			//		colorptr[x] = color0;
			//		if (object.depth_write_enable)
			//			depthptr[x] = curz; // Should limit to 24 bits
			//	}
			}
		}
		curz += dzdx;
		curu += dudx;
		curv += dvdx;
		//      curi += didx;
	}
}

/*************************************
 *  Debugging tools
 *************************************/

void zeus2_device::log_fifo_command(const uint32_t *data, int numwords, const char *suffix)
{
	int wordnum;
	logerror("Zeus cmd %02X :", data[0] >> 24);
	for (wordnum = 0; wordnum < numwords; wordnum++)
		logerror(" %08X", data[wordnum]);
	logerror("%s", suffix);
}

void zeus2_device::print_fifo_command(const uint32_t *data, int numwords, const char *suffix)
{
	int wordnum;
	printf("Zeus cmd %02X :", data[0] >> 24);
	for (wordnum = 0; wordnum < numwords; wordnum++)
		printf(" %08X", data[wordnum]);
	printf("%s", suffix);
}

void zeus2_device::log_render_info(uint32_t texdata)
{
	logerror("-- RMode0 R40 = %08X texdata = %08X", m_renderRegs[0x40], texdata);
	logerror("\n-- RMode1 ");
	for (int i = 1; i <= 0x9; ++i)
		logerror(" R%02X=%06X", i, m_renderRegs[i]);
	for (int i = 0xa; i <= 0x15; ++i)
		logerror(" R%02X=%06X", i, m_renderRegs[i]);
	logerror("\n-- RMode2 ");
	for (int i = 0x63; i <= 0x6f; ++i)
		logerror(" %02X=%08X", i, m_zeusbase[i]);
	logerror("\n");
}

#if PRINT_TEX_INFO
#include <iomanip>

void zeus2_device::check_tex(uint32_t &texmode, float &zObj, float &zMat, float &zOff)
{
	if (tex_map.count(zeus_texbase) == 0) {
		std::string infoStr;
		std::stringstream infoStream;
		infoStream << "tex=0x" << std::setw(8) << std::setfill('0') << std::hex << zeus_texbase << " ";
		//infoStream << "pal=0x" << std::setw(4) << std::setfill('0') << (m_curPalTableSrc >> 16) << ", 0x" << std::setw(4) << (m_curPalTableSrc & 0xffff) << " ";
		infoStream << "pal=0x" << std::setw(8) << std::setfill('0') << m_curPalTableSrc << " ";
		infoStream << "texdata=" << std::setw(8) << std::hex << texmode << " ";
		infoStream << "68(uvFloat)=" << std::setw(2) << std::hex << m_zeusbase[0x68] << " ";
		infoStream << "(6c)=" << m_zeusbase[0x6c] << " ";
		infoStream << "(63)=" << std::setw(6) << std::dec << reinterpret_cast<float&>(m_zeusbase[0x63]) << " ";
		//infoStream << "zObj=" << std::setw(6) << std::dec << zObj << " ";
		//infoStream << "zMat=" << std::setw(6) << std::dec << zMat << " ";
		infoStream << "zOff=" << std::setw(6) << std::dec << zOff << " ";
		infoStream << "R40=" << std::setw(6) << std::hex << m_renderRegs[0x40] << " ";
		infoStream << "R14=" << m_renderRegs[0x14] << " ";
		infoStream << "R15=" << m_renderRegs[0x15] << " ";
		//infoStream << "R0A=" << std::setw(2) << m_renderRegs[0x0a] << " ";
		infoStream << "R0B(LC)=" << std::setw(6) << m_renderRegs[0x0b] << " ";
		infoStream << "R0C(FGD)=" << std::setw(3) << m_renderRegs[0x0c] << " ";
		infoStream << "R0D(BGD)=" << std::setw(3) << m_renderRegs[0x0d] << " ";
		infoStr += infoStream.str();
		infoStr += tex_info();

		tex_map.insert(std::pair<uint32_t, std::string>(zeus_texbase, infoStr));
		osd_printf_info("%s\n", infoStr.c_str());
	}
}

std::string zeus2_device::tex_info(void)
{
	std::string retVal;
	if (m_system == CRUSNEXO) {
		switch (zeus_texbase) {
		// crusnexo
		case 0x01fc00:      retVal = "credits / insert coin"; break;
		case 0x1dc000:      retVal = "copywrite text"; break;
		case 0x0e7400:      retVal = "tire"; break;
		case 0x0e8800:      retVal = "star behind tire"; break;
		case 0x0e6800:      retVal = "crusn exotica text"; break;
		case 0x02a400:      retVal = "Yellow Letters / Numbers"; break;
		case 0x1fd000:      retVal = "Star burst in license plate screen"; break;
		case 0x1e9800:      retVal = "Red Letter in license plate screen"; break;
		case 0x0c1c00:      retVal = "Car parts"; break;
		case 0x0006f000:    retVal = "license plate background"; break;
		case 0x0006f400:    retVal = "blue on white license plate names"; break;
		case 0x00047800:    retVal = "baby body"; break;
		case 0x000e7000:    retVal = "crusn exotica yellow glow"; break;
		case 0x0002b000:    retVal = "blue crusn stencil behind leader list"; break;
		case 0x001f4800:    retVal = "number keypad"; break;
		case 0x001e7800:    retVal = "register now logo"; break;
		case 0x001e5000:    retVal = "blue start game / enter code / earn miles"; break;
		case 0x0001c800:    retVal = "black letters silver back track select / crusn"; break;
		case 0x001df400:    retVal = "first place / free race logo"; break;
		case 0x001ddc00:    retVal = "secret car logo"; break;
		case 0x0006e800:    retVal = "???"; break;
		case 0x001f1c00:    retVal = "black 0-9 on silver background"; break;
		case 0x001ec800:    retVal = "black on silver holland/amazon/sahara"; break;
		case 0x001f7800:    retVal = "license plate background white"; break;
		case 0x001f7000:    retVal = "red Hot Times writing"; break;
		case 0x001eb000:    retVal = "black numbers 0-10 on silver background"; break;
		case 0x00100800:    retVal = "sunset and stars sky background"; break;
		case 0x00108c00:    retVal = "asphalt surface"; break;
		case 0x0010c000:    retVal = "wood surface?"; break;
		case 0x0010e400:    retVal = "palm tree"; break;
		case 0x00118c00:    retVal = "highway green signs"; break;
		case 0x000f6400:    retVal = "glowing feather?"; break;
		case 0x00112c00:    retVal = "fancy street lamps"; break;
		case 0x00032400:    retVal = "lady driver body"; break;
		case 0x000b5400:    retVal = "blue firebird car"; break;
		case 0x00089c00:    retVal = "brown hummer car"; break;
		case 0x00110c00:    retVal = "oak tree"; break;
		case 0x00115400:    retVal = "welcome to las vegas sign"; break;
		case 0x000f3c00:    retVal = "star or headlight?"; break;
		case 0x00127400:    retVal = "another (lod) star or headlight?"; break;
		default: retVal = "Unknown"; break;
		}
	}
	else if (m_system == MWSKINS) {
		switch (zeus_texbase) {
		// mwskinsa
		case 0x1fdf00:      retVal = "Skins Tip Box, s=256"; break;
		case 0x07f540:      retVal = "Left main intro"; break;
		case 0x081580:      retVal = "Right main intro"; break;
		case 0x14db00:      retVal = "silver letter b, s=64"; break;
		case 0x14d880:      retVal = "letter a"; break;
		case 0x14e000:      retVal = "letter d"; break;
		case 0x0014dd80:    retVal = "silver letter c, s=64"; break;
		case 0x0014fb80:    retVal = "silver letter o, s=64"; break;
		case 0x0014ec80:    retVal = "silver letter i, s=64"; break;
		case 0x0014f900:    retVal = "silver letter n, s=64"; break;
		case 0x00150580:    retVal = "silver letter s, s=64"; break;
		case 0x00150800:    retVal = "silver letter t, s=64"; break;
		case 0x00150300:    retVal = "silver letter r, s=64"; break;
		case 0x0014e780:    retVal = "silver letter g, s=64"; break;
		case 0x00153280:    retVal = "silver letter C, s=64"; break;
		case 0x0014e280:    retVal = "silver letter e, s=64"; break;
		case 0x0014b800:    retVal = "silver letter O, s=64"; break;
		case 0x00152d80:    retVal = "silver letter A, s=64"; break;
		case 0x0014f680:    retVal = "silver letter m, s=64"; break;
		case 0x00142b40:    retVal = "Black Screen?"; break;
		case 0x00004740:    retVal = "picture bridge over water, s=256"; break;
		case 0x00005c80:    retVal = "picture water shore, s=256"; break;
		case 0x000030c0:    retVal = "left leaderboard background graphics, s=256"; break;
		case 0x00003c00:    retVal = "right leaderboard background graphics, s=256"; break;
		case 0x00040bc0:    retVal = "extreme mode, s=128, t=8alpha"; break;
		case 0x001602a0:    retVal = "photo black hat, sunglasses, gautee, s=64, t=8"; break;
		case 0x00091630:    retVal = "photo wild eye guy, s=64"; break;
		case 0x00159d80:    retVal = "white M s=32, t=4"; break;
		case 0x0015a080:    retVal = "white 9 s=32, t=4"; break;
		case 0x00159f00:    retVal = "white P s=32, t=4"; break;
		case 0x00145a40:    retVal = "white crossbar? s=32, t=4"; break;
		case 0x00145c40:    retVal = "white crossbar2? s=32, t=4"; break;
		case 0x00159300:    retVal = "white _ s=32, t=4"; break;
		case 0x00158d00:    retVal = "white 1 s=32, t=4"; break;
		case 0x00158e80:    retVal = "white 4 s=32, t=4"; break;
		case 0x0001c080:    retVal = "scorecard background, s=256, t=8alpha"; break;
		default: retVal = "Unknown"; break;
		}
	}
	else {
		switch (zeus_texbase) {
		// thegrid
		case 0x000116c8:    retVal = "letter L, s=16, t=4a"; break;
		case 0x00011668:    retVal = "letter O, s=16, t=4a"; break;
		case 0x00011828:    retVal = "letter A, s=16, t=4a"; break;
		case 0x000117c8:    retVal = "letter D, s=16, t=4a"; break;
		case 0x00011728:    retVal = "letter I, s=16, t=4a"; break;
		case 0x00011688:    retVal = "letter N, s=16, t=4a"; break;
		case 0x00011768:    retVal = "letter G, s=16, t=4a"; break;
		case 0x00155b40:    retVal = "green 1010, s=256, t=8"; break;
		case 0x0014db80:    retVal = "The Grid logo, s=256, t=8alpha"; break;
		case 0x0014f280:    retVal = "Searching fo, s=256, t=8alpha"; break;
		case 0x00150500:    retVal = "or, s=64, t=8alpha"; break;
		case 0x000c4400:    retVal = "P, s=32, t=8alpha"; break;
		case 0x000c3ba0:    retVal = "U, s=32, t=8alpha"; break;
		case 0x000c3c00:    retVal = "S, s=32, t=8alpha"; break;
		case 0x000c3c60:    retVal = "H, s=32, t=8alpha"; break;
		case 0x000c39c0:    retVal = "T, s=32, t=8alpha"; break;
		case 0x000c4c70:    retVal = "A, s=32, t=8alpha"; break;
		case 0x000c4070:    retVal = "R, s=32, t=8alpha"; break;
		case 0x000c4460:    retVal = "O, s=32, t=8alpha"; break;
		case 0x000c47a0:    retVal = "E, s=32, t=8alpha"; break;
		case 0x000c48f0:    retVal = "C, s=32, t=8alpha"; break;
		case 0x000c3de0:    retVal = "V, s=32, t=8alpha"; break;
		case 0x000c4650:    retVal = "I, s=32, t=8alpha"; break;
		case 0x000c3a20:    retVal = "N, s=32, t=8alpha"; break;
		case 0x000c4fd0:    retVal = "0, s=32, t=8alpha"; break;
		case 0x000c4290:    retVal = "., s=32, t=8alpha"; break;
		case 0x000c4f70:    retVal = "2, s=32, t=8alpha"; break;
		case 0x000c5030:    retVal = "1, s=32, t=8alpha"; break;
		case 0x000c3ec0:    retVal = "/, s=32, t=8alpha"; break;
		case 0x000c4df0:    retVal = "6, s=32, t=8alpha"; break;
		case 0x00150d00:    retVal = "System 1, s=128, t=8"; break;
		case 0x00151360:    retVal = "System 2, s=128, t=8"; break;
		case 0x001519c0:    retVal = "System 3, s=128, t=8"; break;
		case 0x00152020:    retVal = "System 4, s=128, t=8"; break;
		case 0x00152680:    retVal = "System 5, s=128, t=8"; break;
		case 0x00152ce0:    retVal = "System 6, s=128, t=8"; break;
		case 0x001509c0:    retVal = "READY!, s=128, t=8alpha"; break;
		case 0x000c2d10:    retVal = "6, s=32, t=8alpha"; break;
		case 0x000c30d0:    retVal = "0, s=32, t=8alpha"; break;
		case 0x000c2db0:    retVal = "5, s=32, t=8alpha"; break;
		case 0x000c2b30:    retVal = "9, s=32, t=8alpha"; break;
		case 0x000c2bd0:    retVal = "8, s=32, t=8alpha"; break;
		case 0x000c2c70:    retVal = "7, s=32, t=8alpha"; break;
		case 0x000c2e50:    retVal = "4, s=32, t=8alpha"; break;
		case 0x000c2ef0:    retVal = "3, s=32, t=8alpha"; break;
		case 0x000c2f90:    retVal = "2, s=32, t=8alpha"; break;
		case 0x000c3030:    retVal = "1, s=32, t=8alpha"; break;
		case 0x0014fb80:    retVal = "Brownish circle, s=64, t=8_4x2"; break;
		case 0x0014fd80:    retVal = "Midsize Dark circle rainbow edge, s=256, t=8_4x2"; break;
		case 0x00150580:    retVal = "Dark circle rainbow edge, s=256, t=8_4x2"; break;
		case 0x00012fb0:    retVal = "Red dots, s=16, t=4_2x2"; break;
		case 0x0013b500:    retVal = "Flash with purple outer edge, s=128, t=8_alpha"; break;
		case 0x001c6220:    retVal = "Yellow console?, s=128, t=8_4x2"; break;
		case 0x001c58e0:    retVal = "White/Red Fabric?, s=128, t=8_4x2"; break;
		case 0x001c8b10:    retVal = "White Fabric with yellow band LOD0?, s=64, t=8_4x2"; break;
		case 0x001c6880:    retVal = "White Fabric with yellow band LOD1?, s=128, t=8_4x2"; break;
		case 0x001c76e0:    retVal = "Chiller face, s=128, t=8_4x2"; break;
		case 0x0018cc80:    retVal = "Green grid square 10101, s=256, t=8_4x2"; break;
		case 0x00187780:    retVal = "Left logo The Grid, s=256, t=8_alpha"; break;
		case 0x0018a200:    retVal = "Right logo the Grid, s=256, t=8_alpha"; break;
		case 0x0003cc00:    retVal = "CREDITS, s=256, t=8_alpha"; break;
		case 0x0003e780:    retVal = "INSERT COINS, s=256, t=8_alpha"; break;
		case 0x0003fe00:    retVal = "White 1, s=32, t=8_alpha"; break;
		case 0x0003fbc0:    retVal = "White 2, s=64, t=8_alpha"; break;
		case 0x0003d580:    retVal = "PRESS START, s=256, t=8_alpha"; break;
		//case 0x00154740:    retVal = "Chiller Face, s=128, t=16rgb"; break;
		//case 0x00153340:    retVal = "Ike Face, s=128, t=16rgb"; break;
		case 0x00154740:    retVal = "Just Play, s=256, t=8_4x2"; break;
		case 0x00153340:    retVal = "Enter Name, s=256, t=8_4x2"; break;
		case 0x00130d00:    retVal = "Cyrus highlight screen, s=128, t=8_4x2"; break;
		case 0x00139700:    retVal = "Green Welcome To, s=128, t=4_2x2"; break;
		case 0x0012f300:    retVal = "More people in stands, s=64, t=8_4x2"; break;
		case 0x0012fd00:    retVal = "Even more people in stands, s=64, t=8_4x2"; break;
		case 0x0003ff20:    retVal = "0, s=64, t=8_alpha"; break;
		case 0x00130300:    retVal = "People in stands, s=64, t=8_4x2"; break;
		case 0x0007c8e0:    retVal = "Greenish blob, s=64, t=8_alpha"; break;
		case 0x0015c940:	retVal = "Red +"; break;
		case 0x0015bf40:	retVal = "Blue circle with green outline"; break;
		case 0x0015c740:	retVal = "Radiation symbol"; break;
		case 0x0015cb80:	retVal = "Grey square"; break;
		case 0x0015d380:	retVal = "Green circle inside grey square"; break;
		case 0x00159f40:	retVal = "Shinny green square"; break;
		case 0x001a6340:	retVal = "Yellow ski tip"; break;
		case 0x001a65a0:	retVal = "Metal vest"; break;
		case 0x001a6a00:	retVal = "Head hole metal vest"; break;
		case 0x001a6b70:	retVal = "Yellow WES badge"; break;
		case 0x001a6140:	retVal = "Backwards Yellow WES badge"; break;
		case 0x001a6d70:	retVal = "Maybe stomach"; break;
		case 0x001a6e60:	retVal = "Maybe back"; break;
		case 0x001a6f20:	retVal = "Hand with black glove"; break;
		case 0x001a7090:	retVal = "Wes Face"; break;
		case 0x001a72c0:	retVal = "Dark red strip"; break;
		case 0x001a7340:	retVal = "Wes shoulder pad"; break;
		case 0x001a7460:	retVal = "Orange circle"; break;
		case 0x001a5e20:	retVal = "Wes belt"; break;
		case 0x001a5f40:	retVal = "Wes orange strip on side"; break;
		case 0x001a7770:	retVal = "Grey something"; break;
		case 0x001a74e0:	retVal = "Grey maybe top of boot"; break;
		case 0x001a76e0:	retVal = "Grey hexagon"; break;
		case 0x001a7800:	retVal = "Belt pouches"; break;
		case 0x0015a340:	retVal = "Green shinny block"; break;
		default: retVal = "Unknown"; break;
		}
	}
	return retVal;
}
#endif