(size, type, is_signed) = operandSizeMap[op_desc.eff_ext]
# Note that initializations in the declarations are solely
# to avoid 'uninitialized variable' errors from the compiler.
- return type + ' ' + op_desc.munged_name + ' = 0;\n';
+ return type + ' ' + op_desc.base_name + ' = 0;\n';
class IntRegOperandTraits(OperandTraits):
def isReg(self):
error(0, 'Attempt to read integer register as FP')
if (size == self.dflt_size):
return '%s = xc->readIntReg(this, %d);\n' % \
- (op_desc.munged_name, op_desc.src_reg_idx)
+ (op_desc.base_name, op_desc.src_reg_idx)
else:
return '%s = bits(xc->readIntReg(this, %d), %d, 0);\n' % \
- (op_desc.munged_name, op_desc.src_reg_idx, size-1)
+ (op_desc.base_name, op_desc.src_reg_idx, size-1)
def makeWrite(self, op_desc):
(size, type, is_signed) = operandSizeMap[op_desc.eff_ext]
if (type == 'float' or type == 'double'):
error(0, 'Attempt to write integer register as FP')
if (size != self.dflt_size and is_signed):
- final_val = 'sext<%d>(%s)' % (size, op_desc.munged_name)
+ final_val = 'sext<%d>(%s)' % (size, op_desc.base_name)
else:
- final_val = op_desc.munged_name
+ final_val = op_desc.base_name
wb = '''
{
%s final_val = %s;
(func, op_desc.src_reg_idx)
if bit_select:
return '%s = bits(%s, %d, 0);\n' % \
- (op_desc.munged_name, base, size-1)
+ (op_desc.base_name, base, size-1)
else:
- return '%s = %s;\n' % (op_desc.munged_name, base)
+ return '%s = %s;\n' % (op_desc.base_name, base)
def makeWrite(self, op_desc):
(size, type, is_signed) = operandSizeMap[op_desc.eff_ext]
- final_val = op_desc.munged_name
+ final_val = op_desc.base_name
if (type == 'float'):
func = 'setFloatRegSingle'
elif (type == 'double'):
func = 'setFloatRegInt'
type = 'uint%d_t' % self.dflt_size
if (size != self.dflt_size and is_signed):
- final_val = 'sext<%d>(%s)' % (size, op_desc.munged_name)
+ final_val = 'sext<%d>(%s)' % (size, op_desc.base_name)
wb = '''
{
%s final_val = %s;
error(0, 'Attempt to read control register as FP')
base = 'xc->read%s()' % self.reg_spec
if size == self.dflt_size:
- return '%s = %s;\n' % (op_desc.munged_name, base)
+ return '%s = %s;\n' % (op_desc.base_name, base)
else:
return '%s = bits(%s, %d, 0);\n' % \
- (op_desc.munged_name, base, size-1)
+ (op_desc.base_name, base, size-1)
def makeWrite(self, op_desc):
(size, type, is_signed) = operandSizeMap[op_desc.eff_ext]
if (type == 'float' or type == 'double'):
error(0, 'Attempt to write control register as FP')
- wb = 'xc->set%s(%s);\n' % (self.reg_spec, op_desc.munged_name)
+ wb = 'xc->set%s(%s);\n' % (self.reg_spec, op_desc.base_name)
wb += 'if (traceData) { traceData->setData(%s); }' % \
- op_desc.munged_name
+ op_desc.base_name
return wb
class MemOperandTraits(OperandTraits):
# Note that initializations in the declarations are solely
# to avoid 'uninitialized variable' errors from the compiler.
# Declare memory data variable.
- c = '%s %s = 0;\n' % (type, op_desc.munged_name)
+ c = '%s %s = 0;\n' % (type, op_desc.base_name)
# Declare var to hold memory access flags.
c += 'unsigned %s_flags = memAccessFlags;\n' % op_desc.base_name
# If this operand is a dest (i.e., it's a store operation),
(size, type, is_signed) = operandSizeMap[op_desc.eff_ext]
eff_type = 'uint%d_t' % size
return 'fault = xc->read(EA, (%s&)%s, %s_flags);\n' \
- % (eff_type, op_desc.munged_name, op_desc.base_name)
+ % (eff_type, op_desc.base_name, op_desc.base_name)
def makeWrite(self, op_desc):
(size, type, is_signed) = operandSizeMap[op_desc.eff_ext]
eff_type = 'uint%d_t' % size
wb = 'fault = xc->write((%s&)%s, EA, %s_flags, &%s_write_result);\n' \
- % (eff_type, op_desc.munged_name, op_desc.base_name,
+ % (eff_type, op_desc.base_name, op_desc.base_name,
op_desc.base_name)
wb += 'if (traceData) { traceData->setData(%s); }' % \
- op_desc.munged_name
+ op_desc.base_name
return wb
class NPCOperandTraits(OperandTraits):
return ''
def makeRead(self, op_desc):
- return '%s = xc->readPC() + 4;\n' % op_desc.munged_name
+ return '%s = xc->readPC() + 4;\n' % op_desc.base_name
def makeWrite(self, op_desc):
- return 'xc->setNextPC(%s);\n' % op_desc.munged_name
+ return 'xc->setNextPC(%s);\n' % op_desc.base_name
exportContextSymbols = ('IntRegOperandTraits', 'FloatRegOperandTraits',
self.traits = operandTraitsMap[base_name]
# The 'effective extension' (eff_ext) is either the actual
# extension, if one was explicitly provided, or the default.
- # The 'munged name' replaces the '.' between the base and
- # extension (if any) with a '_' to make a legal C++ variable name.
if ext:
self.eff_ext = ext
- self.munged_name = base_name + '_' + ext
else:
self.eff_ext = self.traits.dflt_ext
- self.munged_name = base_name
# Finalize additional fields (primarily code fields). This step
# is done separately since some of these fields may depend on the
return operands
# Munge operand names in code string to make legal C++ variable names.
-# (Will match munged_name attribute of OperandDescriptor object.)
+# This means getting rid of the type extension if any.
+# (Will match base_name attribute of OperandDescriptor object.)
def substMungedOpNames(code):
- return operandsWithExtRE.sub(r'\1_\2', code)
+ return operandsWithExtRE.sub(r'\1', code)
def joinLists(t):
return map(string.join, t)
projects / gem5.git / commitdiff