def sm_test(filename): print("Strip Mining Test") with open(filename, "r") as source: tree = ast.parse(source.read()) analyze = Analyze(tree) xform = Transform(analyze) # Input program print("\nInput Program") print(xform.codegen()) # Dimensions in_dim = xform.analyze.dims out_dim = in_dim + 1 # Type of dimensions in_dim_type = xform.analyze.getdimtype() # Input alphabet and order in_alp = xform.analyze.getalp() in_ord = xform.analyze.getord() # strip dimension strip_dim = 0 # strip size strip_size = 2 # Transform xf = Transformation(name='sm', in_dim=in_dim, out_dim=out_dim, in_dim_type=in_dim_type, in_alp=in_alp, in_ord=in_ord, dim_strip=strip_dim, strip_size=strip_size) xform.transform(xf) # Output program print("\nOutput Program") print(xform.codegen())
def ic_test(filename): print("Interchange Test") with open(filename, "r") as source: # reading the c file parser = c_parser.CParser() astc = parser.parse(source.read()) # convert to python pysrc = CtoPy(astc) tree = ast.parse(pysrc.getPy()) analyze = Analyze(tree) xform = Transform(analyze) # Input program print("\nInput Program") print(xform.codegen()) # Dimensions in_dim = xform.analyze.dims out_dim = in_dim # Type of dimensions in_dim_type = xform.analyze.getdimtype() # Input alphabet and order in_alp = xform.analyze.getalp() in_ord = xform.analyze.getord() # Transform xf = Transformation(name='ic', in_dim=in_dim, out_dim=out_dim, in_dim_type=in_dim_type, in_alp=in_alp, in_ord=in_ord, dim_i1=0, dim_i2=1) xform.transform(xf) # Output program print("\nOutput Program") print(xform.codegen())
def il_test(filename): print("Inlining Test") with open(filename, "r") as source: tree = ast.parse(source.read()) analyze = Analyze(tree) xform = Transform(analyze) # Input program print("\nInput Program") print(xform.codegen()) # Dimensions in_dim = xform.analyze.dims out_dim = in_dim # Type of dimensions in_dim_type = xform.analyze.getdimtype() # Input alphabet and order in_alp = xform.analyze.getalp() in_ord = xform.analyze.getord() # Transform xf = Transformation(name='il', in_dim=in_dim, out_dim=out_dim, in_dim_type=in_dim_type, in_alp=in_alp, in_ord=in_ord, dim_inline=1, call_inline=1, label='l') xform.transform(xf) # Output program print("\nOutput Program") print(xform.codegen())
def cm_test(filename): print("Code Motion Test") with open(filename, "r") as source: tree = ast.parse(source.read()) analyze = Analyze(tree) xform = Transform(analyze) # Input program print("\nInput Program") print(xform.codegen()) # Dimensions in_dim = xform.analyze.dims out_dim = in_dim # Type of dimensions in_dim_type = xform.analyze.getdimtype() # Input alphabet and order in_alp = xform.analyze.getalp() in_ord = xform.analyze.getord() # Output order out_ord = [['e', 't1', 'r1'], ['e', 's1', 'r2l', 'r2r']] # Transform xf = Transformation(name='cm', in_dim=in_dim, out_dim=out_dim, in_dim_type=in_dim_type, in_alp=in_alp, in_ord=in_ord, out_ord=out_ord) xform.transform(xf) # Output program print("\nOutput Program") print(xform.codegen())
def representation(file): with open(file) as source: # reading the c file parser = c_parser.CParser() astc = parser.parse(source.read()) # convert to python pysrc = CtoPy(astc) tree = ast.parse(pysrc.getPy()) analyze = Analyze(tree) analyze.collect() # print info print("number of dimensions: ", analyze.getdim()) print("every dimension type: ", analyze.getdimtype()) print("alphabet for each dimension: ", analyze.getalp()) print("order of statements: ", analyze.getord()) print("index variables: ", analyze.getindvar()) print("source code: ", analyze.codegen())
def deptest_cm_ic(filename): print("CM-IC Test") with open(filename, "r") as source: # reading the c file parser = c_parser.CParser() astc = parser.parse(source.read()) # convert to python pysrc = CtoPy(astc) tree = ast.parse(pysrc.getPy()) analyze = Analyze(tree) xform = Transform(analyze) # Input program print("\nInput Program") print(xform.codegen()) # Dimensions in_dim = xform.analyze.dims out_dim = in_dim # Type of dimensions in_dim_type = xform.analyze.getdimtype() # Input alphabet and order in_alp = xform.analyze.getalp() in_ord = xform.analyze.getord() # Output order out_ord = [['e', 't1', 'r1'], ['e', 's1', 'r2l', 'r2r']] xf1 = Transformation( name = 'cm', in_dim = in_dim, out_dim = out_dim, in_dim_type = in_dim_type, in_alp = in_alp, in_ord = in_ord, out_ord = out_ord) # interchange dim1_ = 0 dim2_ = 1 xf2 = Transformation( name ='ic', in_dim = xf1.out_dim, out_dim = xf1.out_dim, in_dim_type = xf1.out_dim_type, in_alp = xf1.out_alp, in_ord = xf1.out_ord, dim_i1 = dim1_, dim_i2 = dim2_) xf = xf1.compose(xf2) xform.analyze.depanalyze() print(xform.analyze.deps) for i, wt in enumerate(xform.analyze.deps): Dep = Dependence(wt) print("Witness Tuple", i, ": ", Dep.test(xf))
def completion_test(filename): print("Completion Test") with open(filename, "r") as source: # reading the c file parser = c_parser.CParser() astc = parser.parse(source.read()) # convert to python pysrc = CtoPy(astc) tree = ast.parse(pysrc.getPy()) analyze = Analyze(tree) xform = Transform(analyze) # Input program print("\nInput Program") print(xform.codegen()) # Dimensions dim = xform.analyze.dims # Type of dimensions in_dim_type = xform.analyze.getdimtype() # Input alphabet and order in_alp = xform.analyze.getalp() in_ord = xform.analyze.getord() # partial order partial1 = [['t', 'r'], ['s', 'r', 'r']] # potential cm partial2 = [['r', 't'], ['s', 'r', 'r']] # potential cm-cm partial3 = [['t', 'r', 'r'], ['s', 'r']] # potential cm-ic print("\nCompletion 1") comp1 = Completion(dim, in_dim_type, in_alp, in_ord, partial1, [Dependence(wt) for wt in xform.analyze.deps]) comp1.checks() comp1.print_report() comp1.completion_search() comp1.print_pxforms() comp1.completion_valid() comp1.print_vxforms() print("\nCompletion 2") comp2 = Completion(dim, in_dim_type, in_alp, in_ord, partial2, [Dependence(wt) for wt in xform.analyze.deps]) comp2.checks() comp2.print_report() comp2.completion_search() comp2.print_pxforms() comp2.completion_valid() comp2.print_vxforms() print("\nCompletion 3") comp3 = Completion(dim, in_dim_type, in_alp, in_ord, partial3, [Dependence(wt) for wt in xform.analyze.deps]) comp3.checks() comp3.print_report() comp3.completion_search() comp3.print_pxforms() comp3.completion_valid() comp3.print_vxforms()
def composition_test(filename): print("Composition Test") with open(filename, "r") as source: tree = ast.parse(source.read()) analyze = Analyze(tree) xform = Transform(analyze) # Input program print("\nInput Program") print(xform.codegen()) # Dimensions in_dim = xform.analyze.dims out_dim = in_dim # Type of dimensions in_dim_type = xform.analyze.getdimtype() # Input alphabet and order in_alp = xform.analyze.getalp() in_ord = xform.analyze.getord() # code-motion out_ord = [['e', 't1', 'r1'], ['e', 's1', 'r2l', 'r2r']] xf1 = Transformation(name='cm', in_dim=in_dim, out_dim=out_dim, in_dim_type=in_dim_type, in_alp=in_alp, in_ord=in_ord, out_ord=out_ord) xform.transform(xf1) # interchange dim1 = 0 dim2 = 1 xf2 = Transformation(name='ic', in_dim=xf1.out_dim, out_dim=xf1.out_dim, in_dim_type=xf1.out_dim_type, in_alp=xf1.out_alp, in_ord=xf1.out_ord, dim_i1=dim1, dim_i2=dim2) xform.transform(xf2) # Output program print("\nOutput Program") print(xform.codegen())
def deptest_ic(filename): print("Interchange Test") with open(filename, "r") as source: # reading the c file parser = c_parser.CParser() astc = parser.parse(source.read()) # convert to python pysrc = CtoPy(astc) tree = ast.parse(pysrc.getPy()) analyze = Analyze(tree) xform = Transform(analyze) # Input program print("\nInput Program") print(xform.codegen()) # Dimensions in_dim = xform.analyze.dims out_dim = in_dim # Type of dimensions in_dim_type = xform.analyze.getdimtype() # Input alphabet and order in_alp = xform.analyze.getalp() in_ord = xform.analyze.getord() xf = Transformation( name ='ic', in_dim = in_dim, out_dim = out_dim, in_dim_type = in_dim_type, in_alp = in_alp, in_ord = in_ord, dim_i1 = 0, dim_i2 = 1) xform.analyze.depanalyze() print(xform.analyze.getdeps()) for i, wt in enumerate(xform.analyze.deps): Dep = Dependence(wt) print("Witness Tuple", i, ": ", Dep.test(xf))
def cm_sm_ic_test(filename): print("CM-SM-IC Test") with open(filename, "r") as source: # reading the c file parser = c_parser.CParser() astc = parser.parse(source.read()) # convert to python pysrc = CtoPy(astc) tree = ast.parse(pysrc.getPy()) analyze = Analyze(tree) xform = Transform(analyze) # Input program print("\nInput Program") print(xform.codegen()) # code-motion # Dimensions in_dim = xform.analyze.dims out_dim = in_dim # Type of dimensions in_dim_type = xform.analyze.getdimtype() # Input alphabet and order in_alp = xform.analyze.getalp() in_ord = xform.analyze.getord() # Output order out_ord = [['e', 't1', 'r1'], ['e', 's1', 'r2l', 'r2r']] xf1 = Transformation(name='cm', in_dim=in_dim, out_dim=out_dim, in_dim_type=in_dim_type, in_alp=in_alp, in_ord=in_ord, out_ord=out_ord) xform.transform(xf1) # strip mining # strip dimension strip_dim = 0 # strip size strip_size = 2 # Transform xf2 = Transformation(name='sm', in_dim=xf1.out_dim, out_dim=xf1.out_dim + 1, in_dim_type=xf1.in_dim_type, in_alp=xf1.out_alp, in_ord=xf1.out_ord, dim_strip=strip_dim, strip_size=strip_size) xform.transform(xf2) # interchange # dimensions dim1 = 1 dim2 = 2 xf3 = Transformation(name='ic', in_dim=xf2.out_dim, out_dim=xf2.out_dim, in_dim_type=xf2.out_dim_type, in_alp=xf2.out_alp, in_ord=xf2.out_ord, dim_i1=dim1, dim_i2=dim2) xform.transform(xf3) # Output program print("\nOutput Program") print(xform.codegen())