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

    testcpu.c

    Example driver for performing CPU stress tests.

****************************************************************************

    Copyright Aaron Giles
    All rights reserved.

    Redistribution and use in source and binary forms, with or without
    modification, are permitted provided that the following conditions are
    met:

        * Redistributions of source code must retain the above copyright
          notice, this list of conditions and the following disclaimer.
        * Redistributions in binary form must reproduce the above copyright
          notice, this list of conditions and the following disclaimer in
          the documentation and/or other materials provided with the
          distribution.
        * Neither the name 'MAME' nor the names of its contributors may be
          used to endorse or promote products derived from this software
          without specific prior written permission.

    THIS SOFTWARE IS PROVIDED BY AARON GILES ''AS IS'' AND ANY EXPRESS OR
    IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED
    WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE
    DISCLAIMED. IN NO EVENT SHALL AARON GILES BE LIABLE FOR ANY DIRECT,
    INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES
    (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR
    SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION)
    HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT,
    STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING
    IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE
    POSSIBILITY OF SUCH DAMAGE.

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


#include "emu.h"
#include "cpu/powerpc/ppc.h"


//**************************************************************************
//  CONSTANTS
//**************************************************************************

#define RAM_BASE 0x80000000



//**************************************************************************
//  DRIVER STATE
//**************************************************************************

class testcpu_state : public driver_device
{
public:
	// constructor
	testcpu_state(const machine_config &mconfig, device_type type, const char *tag)
		: driver_device(mconfig, type, tag),
		  m_cpu(*this, "maincpu"),
		  m_ram(*this, "ram")
	{
	}

	// timer callback; used to wrest control of the system
	virtual void device_timer(emu_timer &timer, device_timer_id id, int param, void *ptr)
	{
		static const UINT32 sample_instructions[] =
		{
			0x3d40f900,		// li r10,0xf9000000
			0x394af000,		// addi r10,r10,-0x1000
			0x38600146,		// li r3,0x00000146
			0x38800004,		// li r4,0x00000004
			0x7c64572c,		// sthbrx r3,r4,r10
			0x38600000,		// li r3,0x00000000
			0x986a0070		// stb r3,0x0070(r10)
		};

		// iterate over instructions
		for (int instnum = 0; instnum < ARRAY_LENGTH(sample_instructions); instnum++)
		{
			// write the instruction to execute, followed by a BLR which will terminate the
			// basic block in the DRC
			m_space->write_dword(RAM_BASE, sample_instructions[instnum]);
			m_space->write_dword(RAM_BASE + 4, 0x4e800020);

			// initialize the register state
			m_cpu->set_state_int(PPC_PC, RAM_BASE);
			for (int regnum = 0; regnum < 32; regnum++)
				m_cpu->set_state_int(PPC_R0 + regnum, regnum | (regnum << 8) | (regnum << 16) | (regnum << 24));
			m_cpu->set_state_int(PPC_CR, 0);
			m_cpu->set_state_int(PPC_LR, 0x12345678);
			m_cpu->set_state_int(PPC_CTR, 0x1000);
			m_cpu->set_state_int(PPC_XER, 0);
			for (int regnum = 0; regnum < 32; regnum++)
			{
				double value = double(regnum | (regnum << 8) | (regnum << 16) | (regnum << 24));
				m_cpu->set_state_int(PPC_F0 + regnum, d2u(value));
			}

			// output initial state
			printf("==================================================\n");
			printf("Initial state:\n");
			dump_state(true);

			// execute one instruction
			*m_cpu->m_icountptr = 0;
			m_cpu->run();

			// dump the final register state
			printf("Final state:\n");
			dump_state(false);
		}

		// all done; just bail
		throw emu_fatalerror(0, "All done");
	}

	// startup code; do basic configuration and set a timer to go off immediately
	virtual void machine_start()
	{
		// find the CPU's address space
		m_space = &m_cpu->space(AS_PROGRAM);

		// configure DRC in the most compatible mode
		ppcdrc_set_options(m_cpu, PPCDRC_COMPATIBLE_OPTIONS);

		// set a timer to go off right away
		timer_set(attotime::zero);
	}

	// dump the current CPU state
	void dump_state(bool disassemble)
	{
		char buffer[256];
		UINT8 instruction[32];
		buffer[0] = 0;
		int bytes = 0;
		if (disassemble)
		{
			// fill in an array of bytes in the CPU's natural order
			int maxbytes = m_cpu->max_opcode_bytes();
			for (int bytenum = 0; bytenum < maxbytes; bytenum++)
				instruction[bytenum] = m_space->read_byte(RAM_BASE + bytenum);

			// disassemble the current instruction
			bytes = m_cpu->disassemble(buffer, RAM_BASE, instruction, instruction) & DASMFLAG_LENGTHMASK;
		}

		// output the registers
		printf("PC : %08X", UINT32(m_cpu->state_int(PPC_PC)));
		if (disassemble && bytes > 0)
		{
			printf(" => ");
			for (int bytenum = 0; bytenum < bytes; bytenum++)
				printf("%02X", instruction[bytenum]);
			printf("  %s", buffer);
		}
		printf("\n");
		for (int regnum = 0; regnum < 32; regnum++)
		{
			printf("R%-2d: %08X   ", regnum, UINT32(m_cpu->state_int(PPC_R0 + regnum)));
			if (regnum % 4 == 3) printf("\n");
		}
		printf("CR : %08X   LR : %08X   CTR: %08X   XER: %08X\n",
				UINT32(m_cpu->state_int(PPC_CR)), UINT32(m_cpu->state_int(PPC_LR)),
				UINT32(m_cpu->state_int(PPC_CTR)), UINT32(m_cpu->state_int(PPC_XER)));
		for (int regnum = 0; regnum < 32; regnum++)
		{
			printf("F%-2d: %10g   ", regnum, u2d(m_cpu->state_int(PPC_F0 + regnum)));
			if (regnum % 4 == 3) printf("\n");
		}
	}

	// report reads from anywhere
	READ64_MEMBER( general_r )
	{
		UINT64 fulloffs = offset;
		UINT64 result = fulloffs + (fulloffs << 8) + (fulloffs << 16) + (fulloffs << 24) + (fulloffs << 32);
		printf("Read from %08X & %016" I64FMT "X = %016" I64FMT "X\n", offset * 8, mem_mask, result);
		return result;
	}

	// report writes to anywhere
	WRITE64_MEMBER( general_w )
	{
		printf("Write to %08X & %016" I64FMT "X = %016" I64FMT "X\n", offset * 8, mem_mask, data);
	}

private:
	// internal state
	required_device<ppc603e_device> m_cpu;
	required_shared_ptr<UINT64> m_ram;
	address_space *m_space;
};



//**************************************************************************
//  ADDRESS MAPS
//**************************************************************************

static ADDRESS_MAP_START( ppc_mem, AS_PROGRAM, 64, testcpu_state )
	AM_RANGE(RAM_BASE, RAM_BASE+7) AM_RAM AM_SHARE("ram")
	AM_RANGE(0x00000000, 0xffffffff) AM_READWRITE(general_r, general_w)
ADDRESS_MAP_END



//**************************************************************************
//  MACHINE DRIVERS
//**************************************************************************

static const powerpc_config ppc_config =
{
	// 603e, Stretch, 1.3
	66000000		// Multiplier 1, Bus = 66MHz, Core = 66MHz
};

static MACHINE_CONFIG_START( testcpu, testcpu_state )

	// CPUs
	MCFG_CPU_ADD("maincpu", PPC603E, 66000000)
	MCFG_CPU_CONFIG(ppc_config)
	MCFG_CPU_PROGRAM_MAP(ppc_mem)
MACHINE_CONFIG_END



//**************************************************************************
//  ROM DEFINITIONS
//**************************************************************************

ROM_START( testcpu )
	ROM_REGION( 0x10, "user1", ROMREGION_ERASEFF )
ROM_END



//**************************************************************************
//  GAME DRIVERS
//**************************************************************************

GAME( 2012, testcpu, 0, testcpu, 0, driver_device, 0, ROT0, "MAME", "CPU Tester", GAME_NO_SOUND )