#!/usr/bin/env python
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"""
Generates a large Fortran program in memory and then measures how long
it takes fparser2 to parse it. This is based on the benchmark suggested
by Ondřej Čertík via Ioannis Nikiteas.
"""
from time import perf_counter
from fparser.common.sourceinfo import FortranFormat
from fparser.common.readfortran import FortranStringReader
from fparser.two.parser import ParserFactory
[docs]
def gen_sub(num: int):
"""
Constructs a Fortran subroutine named g<num>.
:param num: the number of the subroutine (used to name it).
:returns: Fortran subroutine.
:rtype: str
"""
sub = f"""subroutine g{num}(x)
integer, intent(inout) :: x
integer :: i
x = 0
do i = {num}, {num+9}
x = x+i
end do
end subroutine
"""
return sub
[docs]
def create_bench(num_routines: int):
"""
Creates the Fortran benchmark code.
:param num_routines: the number of subroutines to create.
:returns: benchmark Fortran code.
:rtype: str
"""
code = ["program bench3", "implicit none", "integer :: c", "c = 0"]
for i in range(1, num_routines + 1):
code.append(f"call g{i}(c)")
code.append("print *, c")
code.append("contains")
for i in range(1, num_routines + 1):
code.append(gen_sub(i))
code.append("end program")
return "\n".join(code)
[docs]
def runner(num_routines: int):
"""
Entry point for running the benchmark.
:param num_routines: the number of subroutines to create in the \
Fortran benchmark.
:raises ValueError: if num_routines < 1.
"""
if num_routines < 1:
raise ValueError(
f"Number of routines to create must be a positive, "
f"non-zero integer but got: {num_routines}"
)
print(f"Constructing benchmark code with {num_routines} subroutines...")
code = create_bench(num_routines)
reader = FortranStringReader(code)
# Ensure the reader uses free format.
reader.set_format(FortranFormat(True, True))
fparser = ParserFactory().create()
print("Parsing benchmark code...")
tstart = perf_counter()
_ = fparser(reader)
tstop = perf_counter()
print(f"Time taken for parse = {tstop - tstart:.2f}s")
if __name__ == "__main__":
runner(10000) # pragma: no cover