x86/isa/specialize.isa

// -*- mode:c++ -*-

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// Authors: Gabe Black

////////////////////////////////////////////////////////////////////
//
//  Code to "specialize" a microcode sequence to use a particular
//  variety of operands
//

let {{
    # This code builds up a decode block which decodes based on switchval.
    # vals is a dict which matches case values with what should be decoded to.
    # builder is called on the exploded contents of "vals" values to generate
    # whatever code should be used.
    def doSplitDecode(Name, builder, switchVal, vals, default = None):
        decode_block = 'switch(%s) {\n' % switchVal
        for (val, todo) in vals.items():
            new_block = builder(Name, *todo)
            new_block = '\tcase %s: %s\n' % (val, new_block)
            decode_block += new_block
        if default:
            new_block = builder(Name, *default)
            new_block = '\tdefault: %s\n' % new_block
            decode_block += new_block
        decode_block += '}\n'
        return decode_block
}};

let {{
    class OpType(object):
        parser = re.compile(r"(?P<tag>[A-Z][A-Z]*)(?P<size>[a-z][a-z]*)|(r(?P<reg>[A-Z0-9])(?P<rsize>[a-z]*))")
        def __init__(self, opTypeString):
            match = OpType.parser.search(opTypeString)
            if match == None:
                raise Exception, "Problem parsing operand type %s" % opTypeString
            self.reg = match.group("reg")
            self.tag = match.group("tag")
            self.size = match.group("size")
            self.rsize = match.group("rsize")

    # This function specializes the given piece of code to use a particular
    # set of argument types described by "opTypes".
    def specializeInst(Name, opTypes, env):
        while len(opTypes):
            # print "Building a composite op with tags", opTypes
            # print "And code", code
            opNum = len(opTypes) - 1

            # Parse the operand type string we're working with
            opType = OpType(opTypes[opNum])

            if opType.reg:
                #Figure out what to do with fixed register operands
                #This is the index to use, so we should stick it some place.
                print "INTREG_R%s" % (opType.reg + opType.size.upper())
                if opType.size:
                    if opType.rsize in ("l", "h", "b"):
                        print "byte"
                    elif opType.rsize == "x":
                        print "word"
                    else:
                        print "Didn't recognize fixed register size %s!" % opType.rsize
            elif opType.tag == None or opType.size == None:
                raise Exception, "Problem parsing operand tag: %s" % opType.tag
            elif opType.tag in ("C", "D", "G", "P", "S", "T", "V"):
                # Use the "reg" field of the ModRM byte to select the register
                print "(uint8_t)MODRM_REG"
            elif opType.tag in ("E", "Q", "W"):
                # This might refer to memory or to a register. We need to
                # divide it up farther.
                print "(uint8_t)MODRM_RM"
                regTypes = copy.copy(opTypes)
                regTypes.pop(0)
                regEnv = copy.copy(env)
                # This needs to refer to memory, but we'll fill in the details
                # later. It needs to take into account unaligned memory
                # addresses.
                print "%0"
                memTypes = copy.copy(opTypes)
                memTypes.pop(0)
                memEnv = copy.copy(env)
                return doSplitDecode(Name, specializeInst, "MODRM_MOD",
                    {"3" : (regTypes, memEnv)}, (memTypes, memEnv))
            elif opType.tag in ("I", "J"):
                # Immediates
                print "IMMEDIATE"
            elif opType.tag == "M":
                # This needs to refer to memory, but we'll fill in the details
                # later. It needs to take into account unaligned memory
                # addresses.
                print "%0"
            elif opType.tag in ("PR", "R", "VR"):
                # There should probably be a check here to verify that mod
                # is equal to 11b
                print "(uint8_t)MODRM_RM"
            else:
                raise Exception, "Unrecognized tag %s." % opType.tag
            opTypes.pop(0)

        # Generate code to return a macroop of the given name which will
        # operate in the given "emulation environment"
        return genMacroop(Name, env)
}};