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

    drcfe.c

    Generic dynamic recompiler frontend structures and utilities.

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

    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.

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

    Future improvements/changes:

    * more aggressive handling of needed registers for conditional
        intrablock branches

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

#include "emu.h"
#include "drcfe.h"


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

const UINT32 MAX_STACK_DEPTH = 100;



//**************************************************************************
//  TYPE DEFINITIONS
//**************************************************************************

// an entry that maps branches for our code walking
struct pc_stack_entry
{
	offs_t				targetpc;
	offs_t				srcpc;
};



//**************************************************************************
//  DRC FRONTEND
//**************************************************************************

//-------------------------------------------------
//  drc_frontend - constructor
//-------------------------------------------------

drc_frontend::drc_frontend(device_t &cpu, UINT32 window_start, UINT32 window_end, UINT32 max_sequence)
	: m_window_start(window_start),
	  m_window_end(window_end),
	  m_max_sequence(max_sequence),
	  m_cpudevice(downcast<cpu_device &>(cpu)),
	  m_program(m_cpudevice.space(AS_PROGRAM)),
	  m_pageshift(m_cpudevice.space_config(AS_PROGRAM)->m_page_shift),
	  m_desc_live_list(cpu.machine().respool()),
	  m_desc_allocator(cpu.machine().respool()),
	  m_desc_array(auto_alloc_array_clear(cpu.machine(), opcode_desc *, window_end + window_start + 2))
{
}


//-------------------------------------------------
//  ~drc_frontend - destructor
//-------------------------------------------------

drc_frontend::~drc_frontend()
{
	// release any descriptions we've accumulated
	release_descriptions();

	// free the description array
	auto_free(m_cpudevice.machine(), m_desc_array);
}


//-------------------------------------------------
//  describe_code - describe a sequence of code
//  that falls within the configured window
//  relative to the specified startpc
//-------------------------------------------------

const opcode_desc *drc_frontend::describe_code(offs_t startpc)
{
	// release any descriptions we've accumulated
	release_descriptions();

	// add the initial PC to the stack
	pc_stack_entry pcstack[MAX_STACK_DEPTH];
	pc_stack_entry *pcstackptr = &pcstack[0];
	pcstackptr->srcpc = 0;
	pcstackptr->targetpc = startpc;
	pcstackptr++;

	// loop while we still have a stack
	offs_t minpc = startpc - MIN(m_window_start, startpc);
	offs_t maxpc = startpc + MIN(m_window_end, 0xffffffff - startpc);
	while (pcstackptr != &pcstack[0])
	{
		// if we've already hit this PC, just mark it a branch target and continue
		pc_stack_entry *curstack = --pcstackptr;
		opcode_desc *curdesc = m_desc_array[curstack->targetpc - minpc];
		if (curdesc != NULL)
		{
			curdesc->flags |= OPFLAG_IS_BRANCH_TARGET;

			// if the branch crosses a page boundary, mark the target as needing to revalidate
			if (m_pageshift != 0 && ((curstack->srcpc ^ curdesc->pc) >> m_pageshift) != 0)
				curdesc->flags |= OPFLAG_VALIDATE_TLB | OPFLAG_CAN_CAUSE_EXCEPTION;

			// continue processing
			continue;
		}

		// loop until we exit the block
		for (offs_t curpc = curstack->targetpc; curpc >= minpc && curpc < maxpc && m_desc_array[curpc - minpc] == NULL; curpc += m_desc_array[curpc - minpc]->length)
		{
			// allocate a new description and describe this instruction
			m_desc_array[curpc - minpc] = curdesc = describe_one(curpc, curdesc);

			// first instruction in a sequence is always a branch target
			if (curpc == curstack->targetpc)
				curdesc->flags |= OPFLAG_IS_BRANCH_TARGET;

			// stop if we hit a page fault
			if (curdesc->flags & OPFLAG_COMPILER_PAGE_FAULT)
				break;

			// if we are the first instruction in the whole window, we must validate the TLB
			if (curpc == startpc && m_pageshift != 0)
				curdesc->flags |= OPFLAG_VALIDATE_TLB | OPFLAG_CAN_CAUSE_EXCEPTION;

			// if we are a branch within the block range, add the branch target to our stack
			if ((curdesc->flags & OPFLAG_IS_BRANCH) && curdesc->targetpc >= minpc && curdesc->targetpc < maxpc && pcstackptr < &pcstack[MAX_STACK_DEPTH])
			{
				curdesc->flags |= OPFLAG_INTRABLOCK_BRANCH;
				pcstackptr->srcpc = curdesc->pc;
				pcstackptr->targetpc = curdesc->targetpc;
				pcstackptr++;
			}

			// if we're done, we're done
			if (curdesc->flags & OPFLAG_END_SEQUENCE)
				break;
		}
	}

	// now build the list of descriptions in order
	// first from startpc -> maxpc, then from minpc -> startpc
	build_sequence(startpc - minpc, maxpc - minpc, OPFLAG_REDISPATCH);
	build_sequence(minpc - minpc, startpc - minpc, OPFLAG_RETURN_TO_START);
	return m_desc_live_list.first();
}


//-------------------------------------------------
//  describe_one - describe a single instruction,
//  recursively describing opcodes in delay
//  slots of branches as well
//-------------------------------------------------

opcode_desc *drc_frontend::describe_one(offs_t curpc, const opcode_desc *prevdesc)
{
	// initialize the description
	opcode_desc *desc = m_desc_allocator.alloc();
	memset(desc, 0, sizeof(*desc));
	desc->pc = curpc;
	desc->physpc = curpc;
	desc->targetpc = BRANCH_TARGET_DYNAMIC;

	// call the callback to describe an instruction
	if (!describe(*desc, prevdesc))
	{
		desc->flags |= OPFLAG_WILL_CAUSE_EXCEPTION | OPFLAG_INVALID_OPCODE;
		return desc;
	}

	// validate the TLB if we are exactly at the start of a page, or if we cross a page boundary
	if (m_pageshift != 0 && (((curpc - 1) ^ (curpc + desc->length - 1)) >> m_pageshift) != 0)
		desc->flags |= OPFLAG_VALIDATE_TLB | OPFLAG_CAN_CAUSE_EXCEPTION;

	// validate stuff
	assert(desc->length > 0 || (desc->flags & OPFLAG_VIRTUAL_NOOP) != 0);

	// if we are a branch with delay slots, recursively walk those
	if (desc->flags & OPFLAG_IS_BRANCH)
	{
		// iterate over slots and describe them
		offs_t delaypc = curpc + desc->length;
		opcode_desc *prev = desc;
		for (UINT8 slotnum = 0; slotnum < desc->delayslots; slotnum++)
		{
			// recursively describe the next instruction
			opcode_desc *delaydesc = describe_one(delaypc, prev);
			if (delaydesc == NULL)
				break;
			desc->delay.append(*delaydesc);
			prev = desc;

			// set the delay slot flag and a pointer back to the original branch
			delaydesc->flags |= OPFLAG_IN_DELAY_SLOT;
			delaydesc->branch = desc;

			// stop if we hit a page fault
			if (delaydesc->flags & OPFLAG_COMPILER_PAGE_FAULT)
				break;

			// otherwise, advance
			delaypc += delaydesc->length;
		}
	}
	return desc;
}


//-------------------------------------------------
//  build_sequence - build an ordered sequence
//  of instructions
//-------------------------------------------------

void drc_frontend::build_sequence(int start, int end, UINT32 endflag)
{
	// iterate in order from start to end, picking up all non-NULL instructions
	int consecutive = 0;
	int seqstart = -1;
	int skipsleft = 0;
	for (int descnum = start; descnum < end; descnum++)
		if (m_desc_array[descnum] != NULL)
		{
			// determine the next instruction, taking skips into account
			opcode_desc *curdesc = m_desc_array[descnum];
			int nextdescnum = descnum + curdesc->length;
			opcode_desc *nextdesc = (nextdescnum < end) ? m_desc_array[nextdescnum] : NULL;
			for (UINT8 skipnum = 0; skipnum < curdesc->skipslots && nextdesc != NULL; skipnum++)
			{
				nextdescnum = nextdescnum + nextdesc->length;
				nextdesc = (nextdescnum < end) ? m_desc_array[nextdescnum] : NULL;
			}

			// start a new sequence if we aren't already in the middle of one
			if (seqstart == -1 && skipsleft == 0)
			{
				// tag all start-of-sequence instructions as needing TLB verification
				curdesc->flags |= OPFLAG_VALIDATE_TLB | OPFLAG_CAN_CAUSE_EXCEPTION;
				seqstart = descnum;
			}

			// if we are the last instruction, indicate end-of-sequence and redispatch
			if (nextdesc == NULL)
			{
				curdesc->flags |= OPFLAG_END_SEQUENCE;
				if (endflag != OPFLAG_RETURN_TO_START || nextdescnum == end)
					curdesc->flags |= endflag;
			}

			// otherwise, do some analysis based on the next instruction
			else
			{
				// if there are instructions between us and the next instruction, we must end our sequence here
				int scandescnum;
				opcode_desc *scandesc = NULL;
				for (scandescnum = descnum + 1; scandescnum < end; scandescnum++)
				{
					scandesc = m_desc_array[scandescnum];
					if (scandesc != NULL || scandesc == nextdesc)
						break;
				}
				if (scandesc != nextdesc)
					curdesc->flags |= OPFLAG_END_SEQUENCE;

				// if the next instruction is a branch target, mark this instruction as end of sequence
				if (nextdesc->flags & OPFLAG_IS_BRANCH_TARGET)
					curdesc->flags |= OPFLAG_END_SEQUENCE;
			}

			// if we exceed the maximum consecutive count, cut off the sequence
			if (++consecutive >= m_max_sequence)
				curdesc->flags |= OPFLAG_END_SEQUENCE;
			if (curdesc->flags & OPFLAG_END_SEQUENCE)
				consecutive = 0;

			// if this is the end of a sequence, work backwards
			if (curdesc->flags & OPFLAG_END_SEQUENCE)
			{
				// figure out which registers we *must* generate, assuming at the end all must be
				UINT32 reqmask[4] = { 0xffffffff, 0xffffffff, 0xffffffff, 0xffffffff };
				if (seqstart != -1)
					for (int backdesc = descnum; backdesc != seqstart - 1; backdesc--)
						if (m_desc_array[backdesc] != NULL)
							accumulate_required_backwards(*m_desc_array[backdesc], reqmask);

				// reset the register states
				seqstart = -1;
			}

			// if we have instructions remaining to be skipped, and this instruction is a branch target
			// belay the skip order
			if (skipsleft > 0 && (curdesc->flags & OPFLAG_IS_BRANCH_TARGET))
				skipsleft = 0;

			// if we're not getting skipped, add us to the end of the list and clear our array slot
			if (skipsleft == 0)
				m_desc_live_list.append(*curdesc);
			else
				m_desc_allocator.reclaim(*curdesc);

			// if the current instruction starts skipping, reset our skip count
			// otherwise, just decrement
			if (curdesc->skipslots > 0)
				skipsleft = curdesc->skipslots;
			else if (skipsleft > 0)
				skipsleft--;
		}

	// zap the array
	memset(&m_desc_array[start], 0, (end - start) * sizeof(m_desc_array[0]));
}


//-------------------------------------------------
//  accumulate_required_backwards - recursively
//  accumulate live register liveness information
//  walking in a backwards direction
//-------------------------------------------------

void drc_frontend::accumulate_required_backwards(opcode_desc &desc, UINT32 *reqmask)
{
	// recursively handle delay slots
	if (desc.delay.first() != NULL)
		accumulate_required_backwards(*desc.delay.first(), reqmask);

	// if this is a branch, we have to reset our requests
	if (desc.flags & OPFLAG_IS_BRANCH)
		reqmask[0] = reqmask[1] = reqmask[2] = reqmask[3] = 0xffffffff;

	// determine the required registers
	desc.regreq[0] = desc.regout[0] & reqmask[0];
	desc.regreq[1] = desc.regout[1] & reqmask[1];
	desc.regreq[2] = desc.regout[2] & reqmask[2];
	desc.regreq[3] = desc.regout[3] & reqmask[3];

	// any registers modified by this instruction aren't required upstream until referenced
	reqmask[0] &= ~desc.regout[0];
	reqmask[1] &= ~desc.regout[1];
	reqmask[2] &= ~desc.regout[2];
	reqmask[3] &= ~desc.regout[3];

	// any registers required by this instruction now get marked required
	reqmask[0] |= desc.regin[0];
	reqmask[1] |= desc.regin[1];
	reqmask[2] |= desc.regin[2];
	reqmask[3] |= desc.regin[3];
}


//-------------------------------------------------
//  release_descriptions - release any
//  descriptions we've allocated back to the
//  free list
//------------------------------------------------

void drc_frontend::release_descriptions()
{
	// release all delay slots first
	for (opcode_desc *curdesc = m_desc_live_list.first(); curdesc != NULL; curdesc = curdesc->next())
		m_desc_allocator.reclaim_all(curdesc->delay);

	// reclaim all the descriptors
	m_desc_allocator.reclaim_all(m_desc_live_list);
}