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|
#!/usr/bin/env python3
class Block:
def addOp(self, op):
pass
def processLine(self, parts):
if parts[0] == 'switch':
o = Switch(self, parts[1])
self.addOp(o)
return o
elif parts[0] == 'if':
o = If(self, parts[1])
self.addOp(o)
return o
elif parts[0] == 'end':
raise Exception('end is only allowed inside a switch or if block')
else:
self.addOp(NormalOp(parts))
return self
def resolveLocal(self, name):
return None
class ChildBlock(Block):
def processLine(self, parts):
if parts[0] == 'end':
return self.parent
return super().processLine(parts)
#Represents an instruction of the emulated CPU
class Instruction(Block):
def __init__(self, value, fields, name):
self.value = value
self.fields = fields
self.name = name
self.implementation = []
self.locals = {}
self.regValues = {}
self.varyingBits = 0
self.invalidFieldValues = {}
self.newLocals = []
for field in fields:
self.varyingBits += fields[field][1]
def addOp(self, op):
if op.op == 'local':
name = op.params[0]
size = op.params[1]
self.locals[name] = size
elif op.op == 'invalid':
name = op.params[0]
value = int(op.params[1])
self.invalidFieldValues.setdefault(name, set()).add(value)
else:
self.implementation.append(op)
def resolveLocal(self, name):
if name in self.locals:
return name
return None
def addLocal(self, name, size):
self.locals[name] = size
self.newLocals.append(name)
def localSize(self, name):
return self.locals.get(name)
def __lt__(self, other):
if isinstance(other, Instruction):
if self.varyingBits != other.varyingBits:
return self.varyingBits < other.varyingBits
return self.value < other.value
else:
return NotImplemented
def allValues(self):
values = []
for i in range(0, 1 << self.varyingBits):
iword = self.value
doIt = True
for field in self.fields:
shift,bits = self.fields[field]
val = i & ((1 << bits) - 1)
if field in self.invalidFieldValues and val in self.invalidFieldValues[field]:
doIt = False
break
i >>= bits
iword |= val << shift
if doIt:
values.append(iword)
return values
def getFieldVals(self, value):
fieldVals = {}
fieldBits = {}
for field in self.fields:
shift,bits = self.fields[field]
val = (value >> shift) & ((1 << bits) - 1)
fieldVals[field] = val
fieldBits[field] = bits
return (fieldVals, fieldBits)
def generateName(self, value):
fieldVals,fieldBits = self.getFieldVals(value)
names = list(fieldVals.keys())
names.sort()
funName = self.name
for name in names:
funName += '_{0}_{1:0>{2}}'.format(name, bin(fieldVals[name])[2:], fieldBits[name])
return funName
def generateBody(self, value, prog, otype):
output = []
prog.meta = {}
prog.pushScope(self)
self.regValues = {}
for var in self.locals:
output.append('\n\tuint{sz}_t {name};'.format(sz=self.locals[var], name=var))
self.newLocals = []
fieldVals,_ = self.getFieldVals(value)
for op in self.implementation:
op.generate(prog, self, fieldVals, output, otype)
begin = '\nvoid ' + self.generateName(value) + '(' + prog.context_type + ' *context)\n{'
if prog.needFlagCoalesce:
begin += prog.flags.coalesceFlags(prog, otype)
if prog.needFlagDisperse:
output.append(prog.flags.disperseFlags(prog, otype))
for var in self.newLocals:
begin += '\n\tuint{sz}_t {name};'.format(sz=self.locals[var], name=var)
prog.popScope()
return begin + ''.join(output) + '\n}'
def __str__(self):
pieces = [self.name + ' ' + hex(self.value) + ' ' + str(self.fields)]
for name in self.locals:
pieces.append('\n\tlocal {0} {1}'.format(name, self.locals[name]))
for op in self.implementation:
pieces.append(str(op))
return ''.join(pieces)
#Represents the definition of a helper function
class SubRoutine(Block):
def __init__(self, name):
self.name = name
self.implementation = []
self.args = []
self.arg_map = {}
self.locals = {}
self.regValues = {}
def addOp(self, op):
if op.op == 'arg':
name = op.params[0]
size = op.params[1]
self.arg_map[name] = len(self.args)
self.args.append((name, size))
elif op.op == 'local':
name = op.params[0]
size = op.params[1]
self.locals[name] = size
else:
self.implementation.append(op)
def resolveLocal(self, name):
if name in self.locals:
return self.name + '_' + name
return None
def addLocal(self, name, size):
self.locals[name] = size
def localSize(self, name):
return self.locals.get(name)
def inline(self, prog, params, output, otype, parent):
if len(params) != len(self.args):
raise Exception('{0} expects {1} arguments, but was called with {2}'.format(self.name, len(self.args), len(params)))
argValues = {}
if parent:
self.regValues = parent.regValues
prog.pushScope(self)
i = 0
for name,size in self.args:
argValues[name] = params[i]
i += 1
for name in self.locals:
size = self.locals[name]
output.append('\n\tuint{size}_t {sub}_{local};'.format(size=size, sub=self.name, local=name))
for op in self.implementation:
op.generate(prog, self, argValues, output, otype)
prog.popScope()
def __str__(self):
pieces = [self.name]
for name,size in self.args:
pieces.append('\n\targ {0} {1}'.format(name, size))
for name in self.locals:
pieces.append('\n\tlocal {0} {1}'.format(name, self.locals[name]))
for op in self.implementation:
pieces.append(str(op))
return ''.join(pieces)
class Op:
def __init__(self, evalFun = None):
self.evalFun = evalFun
self.impls = {}
self.outOp = ()
def cBinaryOperator(self, op):
def _impl(prog, params):
if op == '-':
a = params[1]
b = params[0]
else:
a = params[0]
b = params[1]
return '\n\t{dst} = {a} {op} {b};'.format(
dst = params[2], a = a, b = b, op = op
)
self.impls['c'] = _impl
self.outOp = (2,)
return self
def cUnaryOperator(self, op):
def _impl(prog, params):
return '\n\t{dst} = {op}{a};'.format(
dst = params[1], a = params[0], op = op
)
self.impls['c'] = _impl
self.outOp = (1,)
return self
def addImplementation(self, lang, outOp, impl):
self.impls[lang] = impl
if not outOp is None:
if type(outOp) is tuple:
self.outOp = outOp
else:
self.outOp = (outOp,)
return self
def evaluate(self, params):
return self.evalFun(*params)
def canEval(self):
return not self.evalFun is None
def numArgs(self):
return self.evalFun.__code__.co_argcount
def generate(self, otype, prog, params, rawParams):
if self.impls[otype].__code__.co_argcount == 2:
return self.impls[otype](prog, params)
else:
return self.impls[otype](prog, params, rawParams)
def _xchgCImpl(prog, params, rawParams):
size = prog.paramSize(rawParams[0])
decl,name = prog.getTemp(size)
return decl + '\n\t{tmp} = {a};\n\t{a} = {b};\n\t{b} = {tmp};'.format(a = params[0], b = params[1], tmp = name)
def _dispatchCImpl(prog, params):
if len(params) == 1:
table = 'main'
else:
table = params[1]
return '\n\timpl_{tbl}[{op}](context);'.format(tbl = table, op = params[0])
def _updateFlagsCImpl(prog, params, rawParams):
i = 0
last = ''
autoUpdate = set()
explicit = {}
for c in params[0]:
if c.isdigit():
if last.isalpha():
num = int(c)
if num > 1:
raise Exception(c + ' is not a valid digit for update_flags')
explicit[last] = num
last = c
else:
raise Exception('Digit must follow flag letter in update_flags')
else:
if last.isalpha():
autoUpdate.add(last)
last = c
if last.isalpha():
autoUpdate.add(last)
output = []
#TODO: handle autoUpdate flags
for flag in autoUpdate:
calc = prog.flags.flagCalc[flag]
calc,_,resultBit = calc.partition('-')
lastDst = prog.resolveParam(prog.lastDst, None, {})
storage = prog.flags.getStorage(flag)
if calc == 'bit' or calc == 'sign':
if calc == 'sign':
resultBit = prog.paramSize(prog.lastDst) - 1
else:
resultBit = int(resultBit)
if type(storage) is tuple:
reg,storageBit = storage
reg = prog.resolveParam(reg, None, {})
if storageBit == resultBit:
#TODO: optimize this case
output.append('\n\t{reg} = ({reg} & ~{mask}U) | ({res} & {mask}U);'.format(
reg = reg, mask = 1 << resultBit, res = lastDst
))
else:
if resultBit > storageBit:
op = '>>'
shift = resultBit - storageBit
else:
op = '<<'
shift = storageBit - resultBit
output.append('\n\t{reg} = ({reg} & ~{mask}U) | ({res} {op} {shift}U & {mask}U);'.format(
reg = reg, mask = 1 << storageBit, res = lastDst, op = op, shift = shift
))
else:
reg = prog.resolveParam(storage, None, {})
output.append('\n\t{reg} = {res} & {mask}U;'.format(reg=reg, res=lastDst, mask = 1 << resultBit))
elif calc == 'zero':
if type(storage) is tuple:
reg,storageBit = storage
reg = prog.resolveParam(reg, None, {})
output.append('\n\t{reg} = {res} ? ({reg} & {mask}U) : ({reg} | {bit}U);'.format(
reg = reg, mask = ~(1 << storageBit), res = lastDst, bit = 1 << storageBit
))
else:
reg = prog.resolveParam(storage, None, {})
output.append('\n\t{reg} = {res} == 0;'.format(
reg = reg, res = lastDst
))
elif calc == 'half-carry':
pass
elif calc == 'carry':
pass
elif calc == 'overflow':
pass
elif calc == 'parity':
pass
#TODO: combine explicit flags targeting the same storage location
for flag in explicit:
location = prog.flags.getStorage(flag)
if type(location) is tuple:
reg,bit = location
reg = prog.resolveReg(reg, None, {})
value = str(1 << bit)
if explicit[flag]:
operator = '|='
else:
operator = '&='
value = '~' + value
output.append('\n\t{reg} {op} {val};'.format(reg=reg, op=operator, val=value))
else:
reg = prog.resolveReg(location, None, {})
output.append('\n\t{reg} = {val};'.format(reg=reg, val=explicit[flag]))
return ''.join(output)
def _cmpCImpl(prog, params):
size = prog.paramSize(params[1])
tmpvar = 'cmp_tmp{sz}__'.format(sz=size)
typename = ''
scope = prog.getRootScope()
if not scope.resolveLocal(tmpvar):
scope.addLocal(tmpvar, size)
prog.lastDst = tmpvar
return '\n\t{var} = {b} - {a};'.format(var = tmpvar, a = params[0], b = params[1])
def _asrCImpl(prog, params, rawParams):
shiftSize = prog.paramSize(rawParams[0])
mask = 1 << (shiftSize - 1)
return '\n\t{dst} = ({a} >> {b}) | ({a} & {mask});'.format(a = params[0], b = params[1], dst = params[2], mask = mask)
def _sext(size, src):
if size == 16:
return src | 0xFF00 if src & 0x80 else src
else:
return src | 0xFFFF0000 if src & 0x8000 else src
def _sextCImpl(prog, params, rawParms):
if params[0] == 16:
fmt = '\n\t{dst} = {src} & 0x80 ? {src} | 0xFF00 : {src};'
else:
fmt = '\n\t{dst} = {src} & 0x8000 ? {src} | 0xFFFF0000 : {src};'
return fmt.format(src=params[1], dst=params[2])
def _getCarryCheck(prog):
carryFlag = None
for flag in prog.flags.flagCalc:
if prog.flags.flagCalc[flag] == 'carry':
carryFlag = flag
if carryFlag is None:
raise Exception('adc requires a defined carry flag')
carryStorage = prog.flags.getStorage(carryFlag)
if type(carryStorage) is tuple:
reg,bit = carryStorage
reg = prog.resolveReg(reg, None, (), False)
return '({reg} & 1 << {bit})'.format(reg=reg, bit=bit)
else:
return prog.resolveReg(carryStorage, None, (), False)
def _adcCImpl(prog, params, rawParams):
return '\n\t{dst} = {a} + {b} + ({check} ? 1 : 0);'.format(dst = params[2],
a = params[0], b = params[1], check=_getCarryCheck(prog)
)
def _sbcCImpl(prog, params, rawParams):
return '\n\t{dst} = {a} - {b} - ({check} ? 1 : 0);'.format(dst = params[2],
a = params[0], b = params[1], check=_getCarryCheck(prog)
)
_opMap = {
'mov': Op(lambda val: val).cUnaryOperator(''),
'not': Op(lambda val: ~val).cUnaryOperator('~'),
'lnot': Op(lambda val: 0 if val else 1).cUnaryOperator('!'),
'neg': Op(lambda val: -val).cUnaryOperator('-'),
'add': Op(lambda a, b: a + b).cBinaryOperator('+'),
'adc': Op().addImplementation('c', 2, _adcCImpl),
'sub': Op(lambda a, b: b - a).cBinaryOperator('-'),
'sbc': Op().addImplementation('c', 2, _sbcCImpl),
'lsl': Op(lambda a, b: a << b).cBinaryOperator('<<'),
'lsr': Op(lambda a, b: a >> b).cBinaryOperator('>>'),
'asr': Op(lambda a, b: a >> b).addImplementation('c', 2, _asrCImpl),
'and': Op(lambda a, b: a & b).cBinaryOperator('&'),
'or': Op(lambda a, b: a | b).cBinaryOperator('|'),
'xor': Op(lambda a, b: a ^ b).cBinaryOperator('^'),
'abs': Op(lambda val: abs(val)).addImplementation(
'c', 1, lambda prog, params: '\n\t{dst} = abs({src});'.format(dst=params[1], src=params[0])
),
'cmp': Op().addImplementation('c', None, _cmpCImpl),
'sext': Op(_sext).addImplementation('c', 2, _sextCImpl),
'ocall': Op().addImplementation('c', None, lambda prog, params: '\n\t{pre}{fun}({args});'.format(
pre = prog.prefix, fun = params[0], args = ', '.join(['context'] + [str(p) for p in params[1:]])
)),
'cycles': Op().addImplementation('c', None,
lambda prog, params: '\n\tcontext->cycles += context->opts->gen.clock_divider * {0};'.format(
params[0]
)
),
'addsize': Op(
lambda a, b: b + (2 * a if a else 1)
).addImplementation('c', 2, lambda prog, params: '\n\t{dst} = {val} + {sz} ? {sz} * 2 : 1;'.format(
dst = params[2], sz = params[0], val = params[1]
)),
'decsize': Op(
lambda a, b: b - (2 * a if a else 1)
).addImplementation('c', 2, lambda prog, params: '\n\t{dst} = {val} - {sz} ? {sz} * 2 : 1;'.format(
dst = params[2], sz = params[0], val = params[1]
)),
'xchg': Op().addImplementation('c', (0,1), _xchgCImpl),
'dispatch': Op().addImplementation('c', None, _dispatchCImpl),
'update_flags': Op().addImplementation('c', None, _updateFlagsCImpl)
}
#represents a simple DSL instruction
class NormalOp:
def __init__(self, parts):
self.op = parts[0]
self.params = parts[1:]
def generate(self, prog, parent, fieldVals, output, otype):
procParams = []
allParamsConst = True
opDef = _opMap.get(self.op)
for param in self.params:
allowConst = (self.op in prog.subroutines or len(procParams) != len(self.params) - 1) and param in parent.regValues
isDst = (not opDef is None) and len(procParams) in opDef.outOp
param = prog.resolveParam(param, parent, fieldVals, allowConst, isDst)
if (not type(param) is int) and len(procParams) != len(self.params) - 1:
allParamsConst = False
procParams.append(param)
if self.op == 'meta':
param,_,index = self.params[1].partition('.')
if index:
index = (parent.resolveLocal(index) or index)
if index in fieldVals:
index = str(fieldVals[index])
param = param + '.' + index
else:
param = parent.resolveLocal(param) or param
if param in fieldVals:
param = fieldVals[index]
prog.meta[self.params[0]] = param
elif self.op == 'dis':
#TODO: Disassembler
pass
elif not opDef is None:
if opDef.canEval() and allParamsConst:
#do constant folding
if opDef.numArgs() >= len(procParams):
raise Exception('Insufficient args for ' + self.op + ' (' + ', '.join(self.params) + ')')
dst = self.params[opDef.numArgs()]
result = opDef.evaluate(procParams[:opDef.numArgs()])
while dst in prog.meta:
dst = prog.meta[dst]
maybeLocal = parent.resolveLocal(dst)
if maybeLocal:
dst = maybeLocal
parent.regValues[dst] = result
if prog.isReg(dst):
shortProc = (procParams[0], procParams[-1])
shortParams = (self.params[0], self.params[-1])
output.append(_opMap['mov'].generate(otype, prog, shortProc, shortParams))
else:
output.append(opDef.generate(otype, prog, procParams, self.params))
elif self.op in prog.subroutines:
prog.subroutines[self.op].inline(prog, procParams, output, otype, parent)
else:
output.append('\n\t' + self.op + '(' + ', '.join([str(p) for p in procParams]) + ');')
prog.lastOp = self
def __str__(self):
return '\n\t' + self.op + ' ' + ' '.join(self.params)
#represents a DSL switch construct
class Switch(ChildBlock):
def __init__(self, parent, param):
self.op = 'switch'
self.parent = parent
self.param = param
self.cases = {}
self.regValues = None
self.current_locals = {}
self.case_locals = {}
self.current_case = None
self.default = None
self.default_locals = None
def addOp(self, op):
if op.op == 'case':
val = int(op.params[0], 16) if op.params[0].startswith('0x') else int(op.params[0])
self.cases[val] = self.current_case = []
self.case_locals[val] = self.current_locals = {}
elif op.op == 'default':
self.default = self.current_case = []
self.default_locals = self.current_locals = {}
elif self.current_case == None:
raise ion('Orphan instruction in switch')
elif op.op == 'local':
name = op.params[0]
size = op.params[1]
self.current_locals[name] = size
else:
self.current_case.append(op)
def resolveLocal(self, name):
if name in self.current_locals:
return name
return self.parent.resolveLocal(name)
def addLocal(self, name, size):
self.current_locals[name] = size
def localSize(self, name):
if name in self.current_locals:
return self.current_locals[name]
return self.parent.localSize(name)
def generate(self, prog, parent, fieldVals, output, otype):
prog.pushScope(self)
param = prog.resolveParam(self.param, parent, fieldVals)
if type(param) is int:
self.regValues = self.parent.regValues
if param in self.cases:
self.current_locals = self.case_locals[param]
output.append('\n\t{')
for local in self.case_locals[param]:
output.append('\n\tuint{0}_t {1};'.format(self.case_locals[param][local], local))
for op in self.cases[param]:
op.generate(prog, self, fieldVals, output, otype)
output.append('\n\t}')
elif self.default:
self.current_locals = self.default_locals
output.append('\n\t{')
for local in self.default_locals:
output.append('\n\tuint{0}_t {1};'.format(self.default[local], local))
for op in self.default:
op.generate(prog, self, fieldVals, output, otype)
output.append('\n\t}')
else:
output.append('\n\tswitch(' + param + ')')
output.append('\n\t{')
for case in self.cases:
self.current_locals = self.case_locals[case]
self.regValues = dict(self.parent.regValues)
output.append('\n\tcase {0}U: '.format(case) + '{')
for local in self.case_locals[case]:
output.append('\n\tuint{0}_t {1};'.format(self.case_locals[case][local], local))
for op in self.cases[case]:
op.generate(prog, self, fieldVals, output, otype)
output.append('\n\tbreak;')
output.append('\n\t}')
if self.default:
self.current_locals = self.default_locals
self.regValues = dict(self.parent.regValues)
output.append('\n\tdefault: {')
for local in self.default_locals:
output.append('\n\tuint{0}_t {1};'.format(self.default_locals[local], local))
for op in self.default:
op.generate(prog, self, fieldVals, output, otype)
output.append('\n\t}')
prog.popScope()
def __str__(self):
keys = self.cases.keys()
keys.sort()
lines = ['\n\tswitch']
for case in keys:
lines.append('\n\tcase {0}'.format(case))
lines.append(''.join([str(op) for op in self.cases[case]]))
lines.append('\n\tend')
return ''.join(lines)
def _geuCImpl(prog, parent, fieldVals, output):
if prog.lastOp.op == 'cmp':
output.pop()
params = [prog.resolveParam(p, parent, fieldVals) for p in prog.lastOp.params]
return '\n\tif ({a} >= {b}) '.format(a=params[1], b = params[0]) + '{'
else:
raise ion(">=U not implemented in the general case yet")
_ifCmpImpl = {
'c': {
'>=U': _geuCImpl
}
}
#represents a DSL conditional construct
class If(ChildBlock):
def __init__(self, parent, cond):
self.op = 'if'
self.parent = parent
self.cond = cond
self.body = []
self.elseBody = []
self.curBody = self.body
self.locals = {}
self.elseLocals = {}
self.curLocals = self.locals
self.regValues = None
def addOp(self, op):
if op.op in ('case', 'arg'):
raise Exception(self.op + ' is not allows inside an if block')
if op.op == 'local':
name = op.params[0]
size = op.params[1]
self.locals[name] = size
elif op.op == 'else':
self.curLocals = self.elseLocals
self.curBody = self.elseBody
else:
self.curBody.append(op)
def localSize(self, name):
return self.curLocals.get(name)
def resolveLocal(self, name):
if name in self.locals:
return name
return self.parent.resolveLocal(name)
def _genTrueBody(self, prog, fieldVals, output, otype):
self.curLocals = self.locals
for local in self.locals:
output.append('\n\tuint{sz}_t {nm};'.format(sz=self.locals[local], nm=local))
for op in self.body:
op.generate(prog, self, fieldVals, output, otype)
def _genFalseBody(self, prog, fieldVals, output, otype):
self.curLocals = self.elseLocals
for local in self.elseLocals:
output.append('\n\tuint{sz}_t {nm};'.format(sz=self.elseLocals[local], nm=local))
for op in self.elseBody:
op.generate(prog, self, fieldVals, output, otype)
def _genConstParam(self, param, prog, fieldVals, output, otype):
if param:
self._genTrueBody(prog, fieldVals, output, otype)
else:
self._genFalseBody(prog, fieldVals, output, otype)
def generate(self, prog, parent, fieldVals, output, otype):
self.regValues = parent.regValues
try:
self._genConstParam(prog.checkBool(self.cond), prog, fieldVals, output, otype)
except Exception:
if self.cond in _ifCmpImpl[otype]:
output.append(_ifCmpImpl[otype][self.cond](prog, parent, fieldVals, output))
self._genTrueBody(prog, fieldVals, output, otype)
if self.elseBody:
output.append('\n\t} else {')
self._genFalseBody(prog, fieldVals, output, otype)
output.append('\n\t}')
else:
cond = prog.resolveParam(self.cond, parent, fieldVals)
if type(cond) is int:
self._genConstParam(cond, prog, fieldVals, output, otype)
else:
output.append('\n\tif ({cond}) '.format(cond=cond) + '{')
self._genTrueBody(prog, fieldVals, output, otype)
if self.elseBody:
output.append('\n\t} else {')
self._genFalseBody(prog, fieldVals, output, otype)
output.append('\n\t}')
def __str__(self):
lines = ['\n\tif']
for op in self.body:
lines.append(str(op))
lines.append('\n\tend')
return ''.join(lines)
class Registers:
def __init__(self):
self.regs = {}
self.pointers = {}
self.regArrays = {}
self.regToArray = {}
def addReg(self, name, size):
self.regs[name] = size
def addPointer(self, name, size):
self.pointers[name] = size
def addRegArray(self, name, size, regs):
self.regArrays[name] = (size, regs)
idx = 0
if not type(regs) is int:
for reg in regs:
self.regs[reg] = size
self.regToArray[reg] = (name, idx)
idx += 1
def isReg(self, name):
return name in self.regs
def isRegArray(self, name):
return name in self.regArrays
def isRegArrayMember(self, name):
return name in self.regToArray
def arrayMemberParent(self, name):
return self.regToArray[name][0]
def arrayMemberIndex(self, name):
return self.regToArray[name][1]
def arrayMemberName(self, array, index):
if type(index) is int and not type(self.regArrays[array][1]) is int:
return self.regArrays[array][1][index]
else:
return None
def isNamedArray(self, array):
return array in self.regArrays and type(self.regArrays[array][1]) is int
def processLine(self, parts):
if len(parts) == 3:
self.addRegArray(parts[0], int(parts[1]), int(parts[2]))
elif len(parts) > 2:
self.addRegArray(parts[0], int(parts[1]), parts[2:])
else:
if parts[1].startswith('ptr'):
self.addPointer(parts[0], int(parts[1][3:]))
else:
self.addReg(parts[0], int(parts[1]))
return self
def writeHeader(self, otype, hFile):
fieldList = []
for pointer in self.pointers:
hFile.write('\n\tuint{sz}_t *{nm};'.format(nm=pointer, sz=self.pointers[pointer]))
for reg in self.regs:
if not self.isRegArrayMember(reg):
fieldList.append((self.regs[reg], 1, reg))
for arr in self.regArrays:
size,regs = self.regArrays[arr]
if not type(regs) is int:
regs = len(regs)
fieldList.append((size, regs, arr))
fieldList.sort()
fieldList.reverse()
for size, count, name in fieldList:
if count > 1:
hFile.write('\n\tuint{sz}_t {nm}[{ct}];'.format(sz=size, nm=name, ct=count))
else:
hFile.write('\n\tuint{sz}_t {nm};'.format(sz=size, nm=name))
class Flags:
def __init__(self):
self.flagBits = {}
self.flagCalc = {}
self.flagStorage = {}
self.flagReg = None
self.maxBit = -1
def processLine(self, parts):
if parts[0] == 'register':
self.flagReg = parts[1]
else:
flag,bit,calc,storage = parts
bit,_,top = bit.partition('-')
bit = int(bit)
if top:
top = int(bit)
if top > self.maxBit:
self.maxBit = top
self.flagBits[flag] = (bit,top)
else:
if bit > self.maxBit:
self.maxBit = bit
self.flagBits[flag] = bit
self.flagCalc[flag] = calc
self.flagStorage[flag] = storage
return self
def getStorage(self, flag):
if not flag in self.flagStorage:
raise Exception('Undefined flag ' + flag)
loc,_,bit = self.flagStorage[flag].partition('.')
if bit:
return (loc, int(bit))
else:
return loc
def disperseFlags(self, prog, otype):
bitToFlag = [None] * (self.maxBit+1)
src = prog.resolveReg(self.flagReg, None, {})
output = []
for flag in self.flagBits:
bit = self.flagBits[flag]
if type(bit) is tuple:
bot,top = bit
mask = ((1 << (top + 1 - bot)) - 1) << bot
output.append('\n\t{dst} = {src} & mask;'.format(
dst=prog.resolveReg(self.flagStorage[flag], None, {}), src=src, mask=mask
))
else:
bitToFlag[self.flagBits[flag]] = flag
multi = {}
for bit in range(len(bitToFlag)-1,-1,-1):
flag = bitToFlag[bit]
if not flag is None:
field,_,dstbit = self.flagStorage[flag].partition('.')
dst = prog.resolveReg(field, None, {})
if dstbit:
dstbit = int(dstbit)
multi.setdefault(dst, []).append((dstbit, bit))
else:
output.append('\n\t{dst} = {src} & {mask};'.format(dst=dst, src=src, mask=(1 << bit)))
for dst in multi:
didClear = False
direct = []
for dstbit, bit in multi[dst]:
if dstbit == bit:
direct.append(bit)
else:
if not didClear:
output.append('\n\t{dst} = 0;'.format(dst=dst))
didClear = True
if dstbit > bit:
shift = '<<'
diff = dstbit - bit
else:
shift = '>>'
diff = bit - dstbit
output.append('\n\t{dst} |= {src} {shift} {diff} & {mask};'.format(
src=src, dst=dst, shift=shift, diff=diff, mask=(1 << dstbit)
))
if direct:
if len(direct) == len(multi[dst]):
output.append('\n\t{dst} = {src};'.format(dst=dst, src=src))
else:
mask = 0
for bit in direct:
mask = mask | (1 << bit)
output.append('\n\t{dst} = {src} & {mask};'.format(dst=dst, src=src, mask=mask))
return ''.join(output)
def coalesceFlags(self, prog, otype):
dst = prog.resolveReg(self.flagReg, None, {})
output = ['\n\t{dst} = 0;'.format(dst=dst)]
bitToFlag = [None] * (self.maxBit+1)
for flag in self.flagBits:
bit = self.flagBits[flag]
if type(bit) is tuple:
bot,_ = bit
src = prog.resolveReg(self.flagStorage[flag], None, {})
if bot:
output.append('\n\t{dst} |= {src} << {shift};'.format(
dst=dst, src = src, shift = bot
))
else:
output.append('\n\t{dst} |= {src};'.format(
dst=dst, src = src
))
else:
bitToFlag[bit] = flag
multi = {}
for bit in range(len(bitToFlag)-1,-1,-1):
flag = bitToFlag[bit]
if not flag is None:
field,_,srcbit = self.flagStorage[flag].partition('.')
src = prog.resolveReg(field, None, {})
if srcbit:
srcbit = int(srcbit)
multi.setdefault(src, []).append((srcbit,bit))
else:
output.append('\n\tif ({src}) {{\n\t\t{dst} |= 1 << {bit};\n\t}}'.format(
dst=dst, src=src, bit=bit
))
for src in multi:
direct = 0
for srcbit, dstbit in multi[src]:
if srcbit == dstbit:
direct = direct | (1 << srcbit)
else:
output.append('\n\tif ({src} & (1 << {srcbit})) {{\n\t\t{dst} |= 1 << {dstbit};\n\t}}'.format(
src=src, dst=dst, srcbit=srcbit, dstbit=dstbit
))
if direct:
output.append('\n\t{dst} |= {src} & {mask};'.format(
dst=dst, src=src, mask=direct
))
return ''.join(output)
class Program:
def __init__(self, regs, instructions, subs, info, flags):
self.regs = regs
self.instructions = instructions
self.subroutines = subs
self.meta = {}
self.booleans = {}
self.prefix = info.get('prefix', [''])[0]
self.opsize = int(info.get('opcode_size', ['8'])[0])
self.extra_tables = info.get('extra_tables', [])
self.context_type = self.prefix + 'context'
self.body = info.get('body', [None])[0]
self.includes = info.get('include', [])
self.flags = flags
self.lastDst = None
self.scopes = []
self.currentScope = None
self.lastOp = None
def __str__(self):
pieces = []
for reg in self.regs:
pieces.append(str(self.regs[reg]))
for name in self.subroutines:
pieces.append('\n'+str(self.subroutines[name]))
for instruction in self.instructions:
pieces.append('\n'+str(instruction))
return ''.join(pieces)
def writeHeader(self, otype, header):
hFile = open(header, 'w')
macro = header.upper().replace('.', '_')
hFile.write('#ifndef {0}_'.format(macro))
hFile.write('\n#define {0}_'.format(macro))
hFile.write('\n#include "backend.h"')
hFile.write('\n\ntypedef struct {')
hFile.write('\n\tcpu_options gen;')
hFile.write('\n}} {0}options;'.format(self.prefix))
hFile.write('\n\ntypedef struct {')
hFile.write('\n\t{0}options *opts;'.format(self.prefix))
hFile.write('\n\tuint32_t cycles;')
self.regs.writeHeader(otype, hFile)
hFile.write('\n}} {0}context;'.format(self.prefix))
hFile.write('\n')
hFile.write('\nvoid {pre}execute({type} *context, uint32_t target_cycle);'.format(pre = self.prefix, type = self.context_type))
hFile.write('\n#endif //{0}_'.format(macro))
hFile.write('\n')
hFile.close()
def _buildTable(self, otype, table, body):
pieces = []
opmap = [None] * (1 << self.opsize)
bodymap = {}
if table in self.instructions:
instructions = self.instructions[table]
instructions.sort()
for inst in instructions:
for val in inst.allValues():
if opmap[val] is None:
self.meta = {}
self.temp = {}
self.needFlagCoalesce = False
self.needFlagDisperse = False
self.lastOp = None
opmap[val] = inst.generateName(val)
bodymap[val] = inst.generateBody(val, self, otype)
pieces.append('\ntypedef void (*impl_fun)({pre}context *context);'.format(pre=self.prefix))
pieces.append('\nstatic impl_fun impl_{name}[{sz}] = {{'.format(name = table, sz=len(opmap)))
for inst in range(0, len(opmap)):
op = opmap[inst]
if op is None:
pieces.append('\n\tunimplemented,')
else:
pieces.append('\n\t' + op + ',')
body.append(bodymap[inst])
pieces.append('\n};')
body.extend(pieces)
def build(self, otype):
body = []
pieces = []
for include in self.includes:
body.append('#include "{0}"\n'.format(include))
body.append('\nstatic void unimplemented({pre}context *context)'.format(pre = self.prefix))
body.append('\n{')
body.append('\n\tfatal_error("Unimplemented instruction");')
body.append('\n}\n')
for table in self.extra_tables:
self._buildTable(otype, table, body)
self._buildTable(otype, 'main', body)
if self.body in self.subroutines:
pieces.append('\nvoid {pre}execute({type} *context, uint32_t target_cycle)'.format(pre = self.prefix, type = self.context_type))
pieces.append('\n{')
pieces.append('\n\twhile (context->cycles < target_cycle)')
pieces.append('\n\t{')
self.meta = {}
self.temp = {}
self.subroutines[self.body].inline(self, [], pieces, otype, None)
pieces.append('\n\t}')
pieces.append('\n}')
return ''.join(body) + ''.join(pieces)
def checkBool(self, name):
if not name in self.booleans:
raise Exception(name + ' is not a defined boolean flag')
return self.booleans[name]
def getTemp(self, size):
if size in self.temp:
return ('', self.temp[size])
self.temp[size] = 'tmp{sz}'.format(sz=size);
return ('\n\tuint{sz}_t tmp{sz};'.format(sz=size), self.temp[size])
def resolveParam(self, param, parent, fieldVals, allowConstant=True, isdst=False):
keepGoing = True
while keepGoing:
keepGoing = False
try:
if type(param) is int:
pass
elif param.startswith('0x'):
param = int(param, 16)
else:
param = int(param)
except ValueError:
if parent:
if param in parent.regValues and allowConstant:
return parent.regValues[param]
maybeLocal = parent.resolveLocal(param)
if maybeLocal:
return maybeLocal
if param in fieldVals:
param = fieldVals[param]
elif param in self.meta:
param = self.meta[param]
keepGoing = True
elif self.isReg(param):
param = self.resolveReg(param, parent, fieldVals, isdst)
return param
def isReg(self, name):
if not type(name) is str:
return False
begin,sep,_ = name.partition('.')
if sep:
if begin in self.meta:
begin = self.meta[begin]
return self.regs.isRegArray(begin)
else:
return self.regs.isReg(name)
def resolveReg(self, name, parent, fieldVals, isDst=False):
begin,sep,end = name.partition('.')
if sep:
if begin in self.meta:
begin = self.meta[begin]
if not self.regs.isRegArrayMember(end):
end = self.resolveParam(end, parent, fieldVals)
if not type(end) is int and self.regs.isRegArrayMember(end):
arrayName = self.regs.arrayMemberParent(end)
end = self.regs.arrayMemberIndex(end)
if arrayName != begin:
end = 'context->{0}[{1}]'.format(arrayName, end)
if self.regs.isNamedArray(begin):
regName = self.regs.arrayMemberName(begin, end)
else:
regName = '{0}.{1}'.format(begin, end)
ret = 'context->{0}[{1}]'.format(begin, end)
else:
regName = name
if self.regs.isRegArrayMember(name):
arr,idx = self.regs.regToArray[name]
ret = 'context->{0}[{1}]'.format(arr, idx)
else:
ret = 'context->' + name
if regName == self.flags.flagReg:
if isDst:
self.needFlagDisperse = True
else:
self.needFlagCoalesce = True
if isDst:
self.lastDst = regName
return ret
def paramSize(self, name):
size = self.currentScope.localSize(name)
if size:
return size
begin,sep,_ = name.partition('.')
if sep and self.regs.isRegArray(begin):
return self.regs.regArrays[begin][0]
if self.regs.isReg(name):
return self.regs.regs[name]
return 32
def pushScope(self, scope):
self.scopes.append(scope)
self.currentScope = scope
def popScope(self):
ret = self.scopes.pop()
self.currentScope = self.scopes[-1] if self.scopes else None
return ret
def getRootScope(self):
return self.scopes[0]
def parse(f):
instructions = {}
subroutines = {}
registers = None
flags = None
errors = []
info = {}
line_num = 0
cur_object = None
for line in f:
line_num += 1
line,_,comment = line.partition('#')
if not line.strip():
continue
if line[0].isspace():
if not cur_object is None:
parts = [el.strip() for el in line.split(' ')]
if type(cur_object) is dict:
cur_object[parts[0]] = parts[1:]
else:
cur_object = cur_object.processLine(parts)
# if type(cur_object) is Registers:
# if len(parts) > 2:
# cur_object.addRegArray(parts[0], int(parts[1]), parts[2:])
# else:
# cur_object.addReg(parts[0], int(parts[1]))
# elif type(cur_object) is dict:
# cur_object[parts[0]] = parts[1:]
# elif parts[0] == 'switch':
# o = Switch(cur_object, parts[1])
# cur_object.addOp(o)
# cur_object = o
# elif parts[0] == 'if':
# o = If(cur_object, parts[1])
# cur_object.addOp(o)
# cur_object = o
# elif parts[0] == 'end':
# cur_object = cur_object.parent
# else:
# cur_object.addOp(NormalOp(parts))
else:
errors.append("Orphan instruction on line {0}".format(line_num))
else:
parts = line.split(' ')
if len(parts) > 1:
if len(parts) > 2:
table,bitpattern,name = parts
else:
bitpattern,name = parts
table = 'main'
value = 0
fields = {}
curbit = len(bitpattern) - 1
for char in bitpattern:
value <<= 1
if char in ('0', '1'):
value |= int(char)
else:
if char in fields:
fields[char] = (curbit, fields[char][1] + 1)
else:
fields[char] = (curbit, 1)
curbit -= 1
cur_object = Instruction(value, fields, name.strip())
instructions.setdefault(table, []).append(cur_object)
elif line.strip() == 'regs':
if registers is None:
registers = Registers()
cur_object = registers
elif line.strip() == 'info':
cur_object = info
elif line.strip() == 'flags':
if flags is None:
flags = Flags()
cur_object = flags
else:
cur_object = SubRoutine(line.strip())
subroutines[cur_object.name] = cur_object
if errors:
print(errors)
else:
p = Program(registers, instructions, subroutines, info, flags)
p.booleans['dynarec'] = False
p.booleans['interp'] = True
if 'header' in info:
print('#include "{0}"'.format(info['header'][0]))
p.writeHeader('c', info['header'][0])
print('#include "util.h"')
print('#include <stdlib.h>')
print(p.build('c'))
def main(argv):
f = open(argv[1])
parse(f)
if __name__ == '__main__':
from sys import argv
main(argv)
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