from __future__ import absolute_import, print_function import parser import sys import warnings import copy import numpy from . import ast_tools from . import slice_handler from . import size_check from . import converters from . import inline_tools from .inline_tools import attempt_function_call function_catalog = inline_tools.function_catalog function_cache = inline_tools.function_cache class BlitzWarning(UserWarning): """Warns about compilation failures etc.""" pass def blitz(expr,local_dict=None, global_dict=None,check_size=1,verbose=0,**kw): # this could call inline, but making a copy of the # code here is more efficient for several reasons. global function_catalog # this grabs the local variables from the *previous* call # frame -- that is the locals from the function that called # inline. call_frame = sys._getframe().f_back if local_dict is None: local_dict = call_frame.f_locals if global_dict is None: global_dict = call_frame.f_globals # 1. Check the sizes of the arrays and make sure they are compatible. # This is expensive, so unsetting the check_size flag can save a lot # of time. It also can cause core-dumps if the sizes of the inputs # aren't compatible. if check_size and not size_check.check_expr(expr,local_dict,global_dict): raise ValueError("inputs failed to pass size check.") # 2. try local cache try: results = apply(function_cache[expr],(local_dict,global_dict)) return results except: pass try: results = attempt_function_call(expr,local_dict,global_dict) # 3. build the function except ValueError: # This section is pretty much the only difference # between blitz and inline ast = parser.suite(expr) ast_list = ast.tolist() expr_code = ast_to_blitz_expr(ast_list) arg_names = ast_tools.harvest_variables(ast_list) module_dir = global_dict.get('__file__',None) func = inline_tools.compile_function(expr_code,arg_names,local_dict, global_dict,module_dir, compiler='gcc',auto_downcast=1, verbose=verbose, type_converters=converters.blitz, **kw) function_catalog.add_function(expr,func,module_dir) try: results = attempt_function_call(expr,local_dict,global_dict) except ValueError: warnings.warn('compilation failed. Executing as python code', BlitzWarning) exec(expr, global_dict, local_dict) def ast_to_blitz_expr(ast_seq): """Convert an ast_sequence to a blitz expression.""" # Don't overwrite orignal sequence in call to transform slices. ast_seq = copy.deepcopy(ast_seq) slice_handler.transform_slices(ast_seq) # Build the actual program statement from ast_seq expr = ast_tools.ast_to_string(ast_seq) # Now find and replace specific symbols to convert this to # a blitz++ compatible statement. # I'm doing this with string replacement here. It could # also be done on the actual ast tree (and probably should from # a purest standpoint...). # this one isn't necessary but it helps code readability # and compactness. It requires that # Range _all = blitz::Range::all(); # be included in the generated code. # These could all alternatively be done to the ast in # build_slice_atom() expr = expr.replace('slice(_beg,_end)', '_all') expr = expr.replace('slice', 'blitz::Range') expr = expr.replace('[','(') expr = expr.replace(']', ')') expr = expr.replace('_stp', '1') # Instead of blitz::fromStart and blitz::toEnd. This requires # the following in the generated code. # Range _beg = blitz::fromStart; # Range _end = blitz::toEnd; #expr = expr.replace('_beg', 'blitz::fromStart' ) #expr = expr.replace('_end', 'blitz::toEnd' ) return expr + ';\n'