pypy / pypy / tool / jitlogparser /

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import re, sys
from pypy.jit.metainterp.resoperation import rop, opname
from pypy.jit.tool.oparser import OpParser

class Op(object):
    bridge = None

    def __init__(self, name, args, res, descr): = name
        self.args = args
        self.res = res
        self.descr = descr
        self._is_guard = name.startswith('guard_')
        if self._is_guard:
            self.guard_no = int(self.descr[len('<Guard'):-1])

    def setfailargs(self, _):

    def getarg(self, i):
        return self._getvar(self.args[i])

    def getargs(self):
        return [self._getvar(v) for v in self.args]

    def getres(self):
        return self._getvar(self.res)

    def _getvar(self, v):
        return v

    def is_guard(self):
        return self._is_guard

    def repr(self):
        args = self.getargs()
        if self.descr is not None:
            args.append('descr=%s' % self.descr)
        arglist = ', '.join(args)
        if self.res is not None:
            return '%s = %s(%s)' % (self.getres(),, arglist)
            return '%s(%s)' % (, arglist)

    def __repr__(self):
        return self.repr()
        ## return '<%s (%s)>' % (, ', '.join([repr(a)
        ##                                             for a in self.args]))

class SimpleParser(OpParser):

    # factory method
    Op = Op

    def parse_from_input(cls, input):
        return cls(input, None, {}, 'lltype', None,

    def parse_args(self, opname, argspec):
        if not argspec.strip():
            return [], None
        if opname == 'debug_merge_point':
            return argspec.split(", ", 1), None
            args = argspec.split(', ')
            descr = None
            if args[-1].startswith('descr='):
                descr = args[-1][len('descr='):]
                args = args[:-1]
            if args == ['']:
                args = []
            return (args, descr)

    def box_for_var(self, res):
        return res

    def create_op(self, opnum, args, res, descr):
        return self.Op(intern(opname[opnum].lower()), args, res, descr)

class NonCodeError(Exception):

class TraceForOpcode(object):
    filename = None
    startlineno = 0
    name = None
    code = None
    bytecode_no = 0
    bytecode_name = None
    is_bytecode = True
    inline_level = None

    def __init__(self, operations, storage):
        if operations[0].name == 'debug_merge_point':
            self.inline_level = int(operations[0].args[0])
            m ='<code object ([<>\w]+), file \'(.+?)\', line (\d+)> #(\d+) (\w+)',
            if m is None:
                # a non-code loop, like StrLiteralSearch or something
                self.bytecode_name = operations[0].args[1].split(" ")[0][1:]
      , self.filename, lineno, bytecode_no, self.bytecode_name = m.groups()
                self.startlineno = int(lineno)
                self.bytecode_no = int(bytecode_no)
        self.operations = operations = storage
        self.code = storage.disassemble_code(self.filename, self.startlineno,

    def repr(self):
        if self.filename is None:
            return "Unknown"
        return "%s, file '%s', line %d" % (, self.filename,

    def getcode(self):
        return self.code

    def getopcode(self):

    def getlineno(self):
        return self.getopcode().lineno
    lineno = property(getlineno)

    def getline_starts_here(self):
        return self.getopcode().line_starts_here
    line_starts_here = property(getline_starts_here)

    def __repr__(self):
        return "[%s]" % ", ".join([repr(op) for op in self.operations])

    def pretty_print(self, out):

class Function(object):
    filename = None
    name = None
    startlineno = 0
    _linerange = None
    _lineset = None
    is_bytecode = False
    inline_level = None

    # factory method
    TraceForOpcode = TraceForOpcode

    def __init__(self, chunks, path, storage, inputargs=''):
        self.path = path
        self.inputargs = inputargs
        self.chunks = chunks
        for chunk in self.chunks:
            if chunk.filename is not None:
                self.startlineno = chunk.startlineno
                self.filename = chunk.filename
                self.inline_level = chunk.inline_level
                break = storage

    def from_operations(cls, operations, storage, limit=None, inputargs=''):
        """ Slice given operation list into a chain of TraceForOpcode chunks.
        Also detect inlined functions and make them Function
        stack = []

        def getpath(stack):
            return ",".join([str(len(v)) for v in stack])

        def append_to_res(bc):
            if not stack:
                if bc.inline_level is not None and bc.inline_level + 1 != len(stack):
                    if bc.inline_level < len(stack):
                        last = stack.pop()
                        stack[-1].append(cls(last, getpath(stack), storage))

        so_far = []
        stack = []
        for op in operations:
            if == 'debug_merge_point':
                if so_far:
                    append_to_res(cls.TraceForOpcode(so_far, storage))
                    if limit:
                    so_far = []
        if so_far:
            append_to_res(cls.TraceForOpcode(so_far, storage))
        # wrap stack back up
        if not stack:
            # no ops whatsoever
            return cls([], getpath(stack), storage, inputargs)
        while True:
            next = stack.pop()
            if not stack:
                return cls(next, getpath(stack), storage, inputargs)
            stack[-1].append(cls(next, getpath(stack), storage))

    def getlinerange(self):
        if self._linerange is None:
        return self._linerange
    linerange = property(getlinerange)

    def getlineset(self):
        if self._lineset is None:
        return self._lineset
    lineset = property(getlineset)

    def _compute_linerange(self):
        self._lineset = set()
        minline = sys.maxint
        maxline = -1
        for chunk in self.chunks:
            if chunk.is_bytecode and chunk.filename is not None:
                lineno = chunk.lineno
                minline = min(minline, lineno)
                maxline = max(maxline, lineno)
                if chunk.line_starts_here or len(chunk.operations) > 1:
        if minline == sys.maxint:
            minline = 0
            maxline = 0
        self._linerange = minline, maxline

    def repr(self):
        if self.filename is None:
            return "Unknown"
        return "%s, file '%s', line %d" % (, self.filename,

    def __repr__(self):
        return "[%s]" % ", ".join([repr(chunk) for chunk in self.chunks])

    def pretty_print(self, out):
        print >>out, "Loop starting at %s in %s at %d" % (,
                                        self.filename, self.startlineno)
        lineno = -1
        for chunk in self.chunks:
            if chunk.filename is not None and chunk.lineno != lineno:
                lineno = chunk.lineno
                source = chunk.getcode().source[chunk.lineno -
                print >>out, "  ", source

def adjust_bridges(loop, bridges):
    """ Slice given loop according to given bridges to follow. Returns a plain
    list of operations.
    ops = loop.operations
    res = []
    i = 0
    while i < len(ops):
        op = ops[i]
        if op.is_guard() and bridges.get('loop-' + str(op.guard_no), None):
            i = 0
            ops = op.bridge.operations
            i += 1
    return res