diff options
author | Nathan Binkert <nate@binkert.org> | 2010-02-26 18:14:48 -0800 |
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committer | Nathan Binkert <nate@binkert.org> | 2010-02-26 18:14:48 -0800 |
commit | 4db57edade2746c384ba482d01b1633192a2513c (patch) | |
tree | a0dd566910417458a34868b5f8d64afb3ae4b5ce /src | |
parent | 5ad139375ee65782e4c71212af526bc3d339348d (diff) | |
download | gem5-4db57edade2746c384ba482d01b1633192a2513c.tar.xz |
isa_parser: move more support functions into the ISAParser class
Diffstat (limited to 'src')
-rwxr-xr-x | src/arch/isa_parser.py | 194 |
1 files changed, 100 insertions, 94 deletions
diff --git a/src/arch/isa_parser.py b/src/arch/isa_parser.py index 96fa4ea3c..9590e2453 100755 --- a/src/arch/isa_parser.py +++ b/src/arch/isa_parser.py @@ -123,7 +123,8 @@ def error(*args): labelRE = re.compile(r'(?<!%)%\(([^\)]+)\)[sd]') class Template(object): - def __init__(self, t): + def __init__(self, parser, t): + self.parser = parser self.template = t def subst(self, d): @@ -131,14 +132,14 @@ class Template(object): # Protect non-Python-dict substitutions (e.g. if there's a printf # in the templated C++ code) - template = protect_non_subst_percents(self.template) + template = self.parser.protectNonSubstPercents(self.template) # CPU-model-specific substitutions are handled later (in GenCode). - template = protect_cpu_symbols(template) + template = self.parser.protectCpuSymbols(template) # Build a dict ('myDict') to use for the template substitution. # Start with the template namespace. Make a copy since we're # going to modify it. - myDict = parser.templateMap.copy() + myDict = self.parser.templateMap.copy() if isinstance(d, InstObjParams): # If we're dealing with an InstObjParams object, we need @@ -200,7 +201,7 @@ class Template(object): # CPU-specific term gets interpolated into another template or into # an output block. def __str__(self): - return expand_cpu_symbols_to_string(self.template) + return self.parser.expandCpuSymbolsToString(self.template) ################ # Format object. @@ -210,8 +211,7 @@ class Template(object): # definition. class Format(object): - def __init__(self, parser, id, params, code): - self.parser = parser + def __init__(self, id, params, code): self.id = id self.params = params label = 'def format ' + id @@ -225,9 +225,9 @@ class Format(object): exec c self.func = defInst - def defineInst(self, name, args, lineno): - self.parser.updateExportContext() - context = self.parser.exportContext.copy() + def defineInst(self, parser, name, args, lineno): + parser.updateExportContext() + context = parser.exportContext.copy() if len(name): Name = name[0].upper() if len(name) > 1: @@ -243,7 +243,7 @@ class Format(object): if k not in ('header_output', 'decoder_output', 'exec_output', 'decode_block'): del vars[k] - return GenCode(**vars) + return GenCode(parser, **vars) # Special null format to catch an implicit-format instruction # definition outside of any format block. @@ -251,50 +251,10 @@ class NoFormat(object): def __init__(self): self.defaultInst = '' - def defineInst(self, name, args, lineno): + def defineInst(self, parser, name, args, lineno): error(lineno, 'instruction definition "%s" with no active format!' % name) -##################################################################### -# -# Support Classes -# -##################################################################### - -# Expand template with CPU-specific references into a dictionary with -# an entry for each CPU model name. The entry key is the model name -# and the corresponding value is the template with the CPU-specific -# refs substituted for that model. -def expand_cpu_symbols_to_dict(template): - # Protect '%'s that don't go with CPU-specific terms - t = re.sub(r'%(?!\(CPU_)', '%%', template) - result = {} - for cpu in cpu_models: - result[cpu.name] = t % cpu.strings - return result - -# *If* the template has CPU-specific references, return a single -# string containing a copy of the template for each CPU model with the -# corresponding values substituted in. If the template has no -# CPU-specific references, it is returned unmodified. -def expand_cpu_symbols_to_string(template): - if template.find('%(CPU_') != -1: - return reduce(lambda x,y: x+y, - expand_cpu_symbols_to_dict(template).values()) - else: - return template - -# Protect CPU-specific references by doubling the corresponding '%'s -# (in preparation for substituting a different set of references into -# the template). -def protect_cpu_symbols(template): - return re.sub(r'%(?=\(CPU_)', '%%', template) - -# Protect any non-dict-substitution '%'s in a format string -# (i.e. those not followed by '(') -def protect_non_subst_percents(s): - return re.sub(r'%(?!\()', '%%', s) - ############### # GenCode class # @@ -314,29 +274,31 @@ class GenCode(object): # symbols. For the exec output, these go into the per-model # dictionary. For all other output types they get collapsed into # a single string. - def __init__(self, + def __init__(self, parser, header_output = '', decoder_output = '', exec_output = '', decode_block = '', has_decode_default = False): - self.header_output = expand_cpu_symbols_to_string(header_output) - self.decoder_output = expand_cpu_symbols_to_string(decoder_output) + self.parser = parser + self.header_output = parser.expandCpuSymbolsToString(header_output) + self.decoder_output = parser.expandCpuSymbolsToString(decoder_output) if isinstance(exec_output, dict): self.exec_output = exec_output elif isinstance(exec_output, str): # If the exec_output arg is a single string, we replicate # it for each of the CPU models, substituting and # %(CPU_foo)s params appropriately. - self.exec_output = expand_cpu_symbols_to_dict(exec_output) - self.decode_block = expand_cpu_symbols_to_string(decode_block) + self.exec_output = parser.expandCpuSymbolsToDict(exec_output) + self.decode_block = parser.expandCpuSymbolsToString(decode_block) self.has_decode_default = has_decode_default # Override '+' operator: generate a new GenCode object that # concatenates all the individual strings in the operands. def __add__(self, other): exec_output = {} - for cpu in cpu_models: + for cpu in self.parser.cpuModels: n = cpu.name exec_output[n] = self.exec_output[n] + other.exec_output[n] - return GenCode(self.header_output + other.header_output, + return GenCode(self.parser, + self.header_output + other.header_output, self.decoder_output + other.decoder_output, exec_output, self.decode_block + other.decode_block, @@ -347,7 +309,7 @@ class GenCode(object): self.header_output = pre + self.header_output self.decoder_output = pre + self.decoder_output self.decode_block = pre + self.decode_block - for cpu in cpu_models: + for cpu in self.parser.cpuModels: self.exec_output[cpu.name] = pre + self.exec_output[cpu.name] # Wrap the decode block in a pair of strings (e.g., 'case foo:' @@ -896,7 +858,7 @@ def buildOperandNameMap(user_dict, lineno): class OperandList(object): '''Find all the operands in the given code block. Returns an operand descriptor list (instance of class OperandList).''' - def __init__(self, code): + def __init__(self, parser, code): self.items = [] self.bases = {} # delete comments so we don't match on reg specifiers inside @@ -1092,7 +1054,7 @@ instFlagRE = re.compile(r'Is.*') opClassRE = re.compile(r'.*Op|No_OpClass') class InstObjParams(object): - def __init__(self, mnem, class_name, base_class = '', + def __init__(self, parser, mnem, class_name, base_class = '', snippets = {}, opt_args = []): self.mnemonic = mnem self.class_name = class_name @@ -1102,7 +1064,7 @@ class InstObjParams(object): compositeCode = ' '.join(map(str, snippets.values())) self.snippets = snippets - self.operands = OperandList(compositeCode) + self.operands = OperandList(parser, compositeCode) self.constructor = self.operands.concatAttrStrings('constructor') self.constructor += \ '\n\t_numSrcRegs = %d;' % self.operands.numSrcRegs @@ -1215,10 +1177,13 @@ namespace %(namespace)s { ''' class ISAParser(Grammar): - def __init__(self, output_dir): + def __init__(self, output_dir, cpu_models): super(ISAParser, self).__init__() self.output_dir = output_dir + self.cpuModels = cpu_models + + # variable to hold templates self.templateMap = {} # This dictionary maps format name strings to Format objects. @@ -1230,7 +1195,8 @@ class ISAParser(Grammar): # The default case stack. self.defaultStack = Stack(None) - self.exportContext = {} + symbols = ('makeList', 're', 'string') + self.exportContext = dict([(s, eval(s)) for s in symbols]) self.maxInstSrcRegs = 0 self.maxInstDestRegs = 0 @@ -1435,7 +1401,7 @@ StaticInstPtr # def and/or output statements. def p_opt_defs_and_outputs_0(self, t): 'opt_defs_and_outputs : empty' - t[0] = GenCode() + t[0] = GenCode(self) def p_opt_defs_and_outputs_1(self, t): 'opt_defs_and_outputs : defs_and_outputs' @@ -1472,22 +1438,22 @@ StaticInstPtr # get handled in GenCode) by doubling them first so that the # format operation will reduce them back to single '%'s. def process_output(self, s): - s = protect_non_subst_percents(s) + s = self.protectNonSubstPercents(s) # protects cpu-specific symbols too - s = protect_cpu_symbols(s) + s = self.protectCpuSymbols(s) return substBitOps(s % self.templateMap) def p_output_header(self, t): 'output_header : OUTPUT HEADER CODELIT SEMI' - t[0] = GenCode(header_output = self.process_output(t[3])) + t[0] = GenCode(self, header_output = self.process_output(t[3])) def p_output_decoder(self, t): 'output_decoder : OUTPUT DECODER CODELIT SEMI' - t[0] = GenCode(decoder_output = self.process_output(t[3])) + t[0] = GenCode(self, decoder_output = self.process_output(t[3])) def p_output_exec(self, t): 'output_exec : OUTPUT EXEC CODELIT SEMI' - t[0] = GenCode(exec_output = self.process_output(t[3])) + t[0] = GenCode(self, exec_output = self.process_output(t[3])) # global let blocks 'let {{...}}' (Python code blocks) are # executed directly when seen. Note that these execute in a @@ -1506,7 +1472,8 @@ StaticInstPtr if debug: raise error(t, 'error: %s in global let block "%s".' % (exc, t[2])) - t[0] = GenCode(header_output=self.exportContext["header_output"], + t[0] = GenCode(self, + header_output=self.exportContext["header_output"], decoder_output=self.exportContext["decoder_output"], exec_output=self.exportContext["exec_output"], decode_block=self.exportContext["decode_block"]) @@ -1523,7 +1490,7 @@ StaticInstPtr error(t, 'error: %s in def operand_types block "%s".' % (exc, t[3])) buildOperandTypeMap(user_dict, t.lexer.lineno) - t[0] = GenCode() # contributes nothing to the output C++ file + t[0] = GenCode(self) # contributes nothing to the output C++ file # Define the mapping from operand names to operand classes and # other traits. Stored in operandNameMap. @@ -1538,7 +1505,7 @@ StaticInstPtr raise error(t, 'error: %s in def operands block "%s".' % (exc, t[3])) buildOperandNameMap(user_dict, t.lexer.lineno) - t[0] = GenCode() # contributes nothing to the output C++ file + t[0] = GenCode(self) # contributes nothing to the output C++ file # A bitfield definition looks like: # 'def [signed] bitfield <ID> [<first>:<last>]' @@ -1549,7 +1516,7 @@ StaticInstPtr if (t[2] == 'signed'): expr = 'sext<%d>(%s)' % (t[6] - t[8] + 1, expr) hash_define = '#undef %s\n#define %s\t%s\n' % (t[4], t[4], expr) - t[0] = GenCode(header_output = hash_define) + t[0] = GenCode(self, header_output=hash_define) # alternate form for single bit: 'def [signed] bitfield <ID> [<bit>]' def p_def_bitfield_1(self, t): @@ -1558,7 +1525,7 @@ StaticInstPtr if (t[2] == 'signed'): expr = 'sext<%d>(%s)' % (1, expr) hash_define = '#undef %s\n#define %s\t%s\n' % (t[4], t[4], expr) - t[0] = GenCode(header_output = hash_define) + t[0] = GenCode(self, header_output=hash_define) # alternate form for structure member: 'def bitfield <ID> <ID>' def p_def_bitfield_struct(self, t): @@ -1567,7 +1534,7 @@ StaticInstPtr error(t, 'error: structure bitfields are always unsigned.') expr = 'machInst.%s' % t[5] hash_define = '#undef %s\n#define %s\t%s\n' % (t[4], t[4], expr) - t[0] = GenCode(header_output = hash_define) + t[0] = GenCode(self, header_output=hash_define) def p_id_with_dot_0(self, t): 'id_with_dot : ID' @@ -1587,8 +1554,8 @@ StaticInstPtr def p_def_template(self, t): 'def_template : DEF TEMPLATE ID CODELIT SEMI' - self.templateMap[t[3]] = Template(t[4]) - t[0] = GenCode() + self.templateMap[t[3]] = Template(self, t[4]) + t[0] = GenCode(self) # An instruction format definition looks like # "def format <fmt>(<params>) {{...}};" @@ -1596,7 +1563,7 @@ StaticInstPtr 'def_format : DEF FORMAT ID LPAREN param_list RPAREN CODELIT SEMI' (id, params, code) = (t[3], t[5], t[7]) self.defFormat(id, params, code, t.lexer.lineno) - t[0] = GenCode() + t[0] = GenCode(self) # The formal parameter list for an instruction format is a # possibly empty list of comma-separated parameters. Positional @@ -1728,7 +1695,7 @@ StaticInstPtr # the code generated by the other statements. def p_decode_stmt_cpp(self, t): 'decode_stmt : CPPDIRECTIVE' - t[0] = GenCode(t[1], t[1], t[1], t[1]) + t[0] = GenCode(self, t[1], t[1], t[1], t[1]) # A format block 'format <foo> { ... }' sets the default # instruction format used to handle instruction definitions inside @@ -1811,7 +1778,7 @@ StaticInstPtr 'inst : ID LPAREN arg_list RPAREN' # Pass the ID and arg list to the current format class to deal with. currentFormat = self.formatStack.top() - codeObj = currentFormat.defineInst(t[1], t[3], t.lexer.lineno) + codeObj = currentFormat.defineInst(self, t[1], t[3], t.lexer.lineno) args = ','.join(map(str, t[3])) args = re.sub('(?m)^', '//', args) args = re.sub('^//', '', args) @@ -1827,7 +1794,8 @@ StaticInstPtr format = self.formatMap[t[1]] except KeyError: error(t, 'instruction format "%s" not defined.' % t[1]) - codeObj = format.defineInst(t[3], t[5], t.lexer.lineno) + + codeObj = format.defineInst(self, t[3], t[5], t.lexer.lineno) comment = '\n// %s::%s(%s)\n' % (t[1], t[3], t[5]) codeObj.prepend_all(comment) t[0] = codeObj @@ -1924,11 +1892,13 @@ StaticInstPtr # END OF GRAMMAR RULES - exportContextSymbols = ('InstObjParams', 'makeList', 're', 'string') def updateExportContext(self): - exportDict = dict([(s, eval(s)) for s in self.exportContextSymbols]) - self.exportContext.update(exportDict) - self.exportContext.update(parser.templateMap) + + # create a continuation that allows us to grab the current parser + def wrapInstObjParams(*args): + return InstObjParams(self, *args) + self.exportContext['InstObjParams'] = wrapInstObjParams + self.exportContext.update(self.templateMap) def defFormat(self, id, params, code, lineno): '''Define a new format''' @@ -1938,7 +1908,47 @@ StaticInstPtr error(lineno, 'format %s redefined.' % id) # create new object and store in global map - self.formatMap[id] = Format(self, id, params, code) + self.formatMap[id] = Format(id, params, code) + + def expandCpuSymbolsToDict(self, template): + '''Expand template with CPU-specific references into a + dictionary with an entry for each CPU model name. The entry + key is the model name and the corresponding value is the + template with the CPU-specific refs substituted for that + model.''' + + # Protect '%'s that don't go with CPU-specific terms + t = re.sub(r'%(?!\(CPU_)', '%%', template) + result = {} + for cpu in self.cpuModels: + result[cpu.name] = t % cpu.strings + return result + + def expandCpuSymbolsToString(self, template): + '''*If* the template has CPU-specific references, return a + single string containing a copy of the template for each CPU + model with the corresponding values substituted in. If the + template has no CPU-specific references, it is returned + unmodified.''' + + if template.find('%(CPU_') != -1: + return reduce(lambda x,y: x+y, + self.expandCpuSymbolsToDict(template).values()) + else: + return template + + def protectCpuSymbols(self, template): + '''Protect CPU-specific references by doubling the + corresponding '%'s (in preparation for substituting a different + set of references into the template).''' + + return re.sub(r'%(?=\(CPU_)', '%%', template) + + def protectNonSubstPercents(self, s): + '''Protect any non-dict-substitution '%'s in a format string + (i.e. those not followed by '(')''' + + return re.sub(r'%(?!\()', '%%', s) def update_if_needed(self, file, contents): '''Update the output file only if the new contents are @@ -2036,7 +2046,7 @@ StaticInstPtr self.update_if_needed('decoder.cc', file_template % vars()) # generate per-cpu exec files - for cpu in cpu_models: + for cpu in self.cpuModels: includes = '#include "decoder.hh"\n' includes += cpu.includes global_output = global_code.exec_output[cpu.name] @@ -2059,13 +2069,9 @@ StaticInstPtr except ISAParserError, e: e.exit(fileNameStack) -# global list of CpuModel objects (see cpu_models.py) -cpu_models = [] - # Called as script: get args from command line. # Args are: <path to cpu_models.py> <isa desc file> <output dir> <cpu models> if __name__ == '__main__': execfile(sys.argv[1]) # read in CpuModel definitions cpu_models = [CpuModel.dict[cpu] for cpu in sys.argv[4:]] - parser = ISAParser(sys.argv[3]) - parser.parse_isa_desc(sys.argv[2]) + ISAParser(sys.argv[3], cpu_models).parse_isa_desc(sys.argv[2]) |