# OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
#
# Authors: Steve Reinhardt
-# Korey Sewell
import os
import sys
t_DOT = r'\.'
t_COLON = r':'
t_DBLCOLON = r'::'
-t_ASTERISK = r'\*'
+t_ASTERISK = r'\*'
# Identifiers and reserved words
reserved_map = { }
error(t.lexer.lineno,
'error: operand types must be defined before operands')
try:
- userDict = eval('{' + t[3] + '}')
+ userDict = eval('{' + t[3] + '}', exportContext)
except Exception, exc:
error(t.lexer.lineno,
'error: %s in def operands block "%s".' % (exc, t[3]))
#
# A decode block looks like:
-# decode <field1> [, <field2>]* [default <inst>] { ... }
+# decode <field1> [, <field2>]* [default <inst>] { ... }
#
def p_decode_block(t):
'decode_block : DECODE ID opt_default LBRACE decode_stmt_list RBRACE'
ctype = 'uint%d_t' % size
is_signed = 0
elif desc == 'float':
- is_signed = 1 # shouldn't really matter
+ is_signed = 1 # shouldn't really matter
if size == 32:
ctype = 'float'
elif size == 64:
# (e.g., "32-bit integer register").
#
class Operand(object):
+ def buildReadCode(self, func = None):
+ code = self.read_code % {"name": self.base_name,
+ "func": func,
+ "op_idx": self.src_reg_idx,
+ "reg_idx": self.reg_spec,
+ "size": self.size,
+ "ctype": self.ctype}
+ if self.size != self.dflt_size:
+ return '%s = bits(%s, %d, 0);\n' % \
+ (self.base_name, code, self.size-1)
+ else:
+ return '%s = %s;\n' % \
+ (self.base_name, code)
+
+ def buildWriteCode(self, func = None):
+ if (self.size != self.dflt_size and self.is_signed):
+ final_val = 'sext<%d>(%s)' % (self.size, self.base_name)
+ else:
+ final_val = self.base_name
+ code = self.write_code % {"name": self.base_name,
+ "func": func,
+ "op_idx": self.dest_reg_idx,
+ "reg_idx": self.reg_spec,
+ "size": self.size,
+ "ctype": self.ctype,
+ "final_val": final_val}
+ return '''
+ {
+ %s final_val = %s;
+ %s;
+ if (traceData) { traceData->setData(final_val); }
+ }''' % (self.dflt_ctype, final_val, code)
+
def __init__(self, full_name, ext, is_src, is_dest):
self.full_name = full_name
self.ext = ext
def makeRead(self):
if (self.ctype == 'float' or self.ctype == 'double'):
error(0, 'Attempt to read integer register as FP')
+ if self.read_code != None:
+ return self.buildReadCode('readIntRegOperand')
if (self.size == self.dflt_size):
return '%s = xc->readIntRegOperand(this, %d);\n' % \
(self.base_name, self.src_reg_idx)
def makeWrite(self):
if (self.ctype == 'float' or self.ctype == 'double'):
error(0, 'Attempt to write integer register as FP')
+ if self.write_code != None:
+ return self.buildWriteCode('setIntRegOperand')
if (self.size != self.dflt_size and self.is_signed):
final_val = 'sext<%d>(%s)' % (self.size, self.base_name)
else:
def makeRead(self):
bit_select = 0
- width = 0;
- if (self.ctype == 'float'):
- func = 'readFloatRegOperand'
- width = 32;
- elif (self.ctype == 'double'):
+ if (self.ctype == 'float' or self.ctype == 'double'):
func = 'readFloatRegOperand'
- width = 64;
else:
func = 'readFloatRegOperandBits'
- if (self.ctype == 'uint32_t'):
- width = 32;
- elif (self.ctype == 'uint64_t'):
- width = 64;
if (self.size != self.dflt_size):
bit_select = 1
- if width:
- base = 'xc->%s(this, %d, %d)' % \
- (func, self.src_reg_idx, width)
- else:
- base = 'xc->%s(this, %d)' % \
- (func, self.src_reg_idx)
+ base = 'xc->%s(this, %d)' % (func, self.src_reg_idx)
+ if self.read_code != None:
+ return self.buildReadCode(func)
if bit_select:
return '%s = bits(%s, %d, 0);\n' % \
(self.base_name, base, self.size-1)
def makeWrite(self):
final_val = self.base_name
final_ctype = self.ctype
- widthSpecifier = ''
- width = 0
- if (self.ctype == 'float'):
- width = 32
- func = 'setFloatRegOperand'
- elif (self.ctype == 'double'):
- width = 64
+ if (self.ctype == 'float' or self.ctype == 'double'):
func = 'setFloatRegOperand'
- elif (self.ctype == 'uint32_t'):
+ elif (self.ctype == 'uint32_t' or self.ctype == 'uint64_t'):
func = 'setFloatRegOperandBits'
- width = 32
- elif (self.ctype == 'uint64_t'):
- func = 'setFloatRegOperandBits'
- width = 64
else:
func = 'setFloatRegOperandBits'
final_ctype = 'uint%d_t' % self.dflt_size
if (self.size != self.dflt_size and self.is_signed):
final_val = 'sext<%d>(%s)' % (self.size, self.base_name)
- if width:
- widthSpecifier = ', %d' % width
+ if self.write_code != None:
+ return self.buildWriteCode(func)
wb = '''
{
%s final_val = %s;
- xc->%s(this, %d, final_val%s);\n
+ xc->%s(this, %d, final_val);\n
if (traceData) { traceData->setData(final_val); }
- }''' % (final_ctype, final_val, func, self.dest_reg_idx,
- widthSpecifier)
+ }''' % (final_ctype, final_val, func, self.dest_reg_idx)
return wb
class ControlRegOperand(Operand):
bit_select = 0
if (self.ctype == 'float' or self.ctype == 'double'):
error(0, 'Attempt to read control register as FP')
+ if self.read_code != None:
+ return self.buildReadCode('readMiscRegOperand')
base = 'xc->readMiscRegOperand(this, %s)' % self.src_reg_idx
if self.size == self.dflt_size:
return '%s = %s;\n' % (self.base_name, base)
def makeWrite(self):
if (self.ctype == 'float' or self.ctype == 'double'):
error(0, 'Attempt to write control register as FP')
+ if self.write_code != None:
+ return self.buildWriteCode('setMiscRegOperand')
wb = 'xc->setMiscRegOperand(this, %s, %s);\n' % \
(self.dest_reg_idx, self.base_name)
wb += 'if (traceData) { traceData->setData(%s); }' % \
self.base_name
return wb
-class ControlBitfieldOperand(ControlRegOperand):
- def makeRead(self):
- bit_select = 0
- if (self.ctype == 'float' or self.ctype == 'double'):
- error(0, 'Attempt to read control register as FP')
- base = 'xc->readMiscReg(%s)' % self.reg_spec
- name = self.base_name
- return '%s = bits(%s, %s_HI, %s_LO);' % \
- (name, base, name, name)
-
- def makeWrite(self):
- if (self.ctype == 'float' or self.ctype == 'double'):
- error(0, 'Attempt to write control register as FP')
- base = 'xc->readMiscReg(%s)' % self.reg_spec
- name = self.base_name
- wb_val = 'insertBits(%s, %s_HI, %s_LO, %s)' % \
- (base, name, name, self.base_name)
- wb = 'xc->setMiscRegOperand(this, %s, %s );\n' % (self.dest_reg_idx, wb_val)
- wb += 'if (traceData) { traceData->setData(%s); }' % \
- self.base_name
- return wb
-
class MemOperand(Operand):
def isMem(self):
return 1
return c
def makeRead(self):
+ if self.read_code != None:
+ return self.buildReadCode()
return ''
def makeWrite(self):
+ if self.write_code != None:
+ return self.buildWriteCode()
return ''
# Return the memory access size *in bits*, suitable for
return ''
def makeRead(self):
+ if self.read_code != None:
+ return self.buildReadCode('readMicroPC')
return '%s = xc->readMicroPC();\n' % self.base_name
def makeWrite(self):
+ if self.write_code != None:
+ return self.buildWriteCode('setMicroPC')
return 'xc->setMicroPC(%s);\n' % self.base_name
class NUPCOperand(Operand):
return ''
def makeRead(self):
+ if self.read_code != None:
+ return self.buildReadCode('readNextMicroPC')
return '%s = xc->readNextMicroPC();\n' % self.base_name
def makeWrite(self):
+ if self.write_code != None:
+ return self.buildWriteCode('setNextMicroPC')
return 'xc->setNextMicroPC(%s);\n' % self.base_name
class NPCOperand(Operand):
return ''
def makeRead(self):
+ if self.read_code != None:
+ return self.buildReadCode('readNextPC')
return '%s = xc->readNextPC();\n' % self.base_name
def makeWrite(self):
+ if self.write_code != None:
+ return self.buildWriteCode('setNextPC')
return 'xc->setNextPC(%s);\n' % self.base_name
class NNPCOperand(Operand):
return ''
def makeRead(self):
+ if self.read_code != None:
+ return self.buildReadCode('readNextNPC')
return '%s = xc->readNextNPC();\n' % self.base_name
def makeWrite(self):
+ if self.write_code != None:
+ return self.buildWriteCode('setNextNPC')
return 'xc->setNextNPC(%s);\n' % self.base_name
def buildOperandNameMap(userDict, lineno):
global operandNameMap
operandNameMap = {}
for (op_name, val) in userDict.iteritems():
- (base_cls_name, dflt_ext, reg_spec, flags, sort_pri) = val
+ (base_cls_name, dflt_ext, reg_spec, flags, sort_pri) = val[:5]
+ if len(val) > 5:
+ read_code = val[5]
+ else:
+ read_code = None
+ if len(val) > 6:
+ write_code = val[6]
+ else:
+ write_code = None
+ if len(val) > 7:
+ error(lineno,
+ 'error: too many attributes for operand "%s"' %
+ base_cls_name)
+
(dflt_size, dflt_ctype, dflt_is_signed) = operandTypeMap[dflt_ext]
# Canonical flag structure is a triple of lists, where each list
# indicates the set of flags implied by this operand always, when
# Accumulate attributes of new operand class in tmp_dict
tmp_dict = {}
for attr in ('dflt_ext', 'reg_spec', 'flags', 'sort_pri',
- 'dflt_size', 'dflt_ctype', 'dflt_is_signed'):
+ 'dflt_size', 'dflt_ctype', 'dflt_is_signed',
+ 'read_code', 'write_code'):
tmp_dict[attr] = eval(attr)
tmp_dict['base_name'] = op_name
# New class name will be e.g. "IntReg_Ra"
operands = userDict.keys()
operandsREString = (r'''
- (?<![\w\.]) # neg. lookbehind assertion: prevent partial matches
+ (?<![\w\.]) # neg. lookbehind assertion: prevent partial matches
((%s)(?:\.(\w+))?) # match: operand with optional '.' then suffix
- (?![\w\.]) # neg. lookahead assertion: prevent partial matches
+ (?![\w\.]) # neg. lookahead assertion: prevent partial matches
'''
% string.join(operands, '|'))
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